isabelle: src/HOL/Library/Extended_Real.thy@360d3464919c (annotated)

43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1	(* Title: HOL/Library/Extended_Real.thy
41983 2dc6e382a58b standardized headers; wenzelm parents: 41980 diff changeset	2	Author: Johannes Hölzl, TU München
2dc6e382a58b standardized headers; wenzelm parents: 41980 diff changeset	3	Author: Robert Himmelmann, TU München
2dc6e382a58b standardized headers; wenzelm parents: 41980 diff changeset	4	Author: Armin Heller, TU München
2dc6e382a58b standardized headers; wenzelm parents: 41980 diff changeset	5	Author: Bogdan Grechuk, University of Edinburgh
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	6	Author: Manuel Eberl, TU München
41983 2dc6e382a58b standardized headers; wenzelm parents: 41980 diff changeset	7	*)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	8
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	9	section \<open>Extended real number line\<close>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	10
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	11	theory Extended_Real
60636 ee18efe9b246 add named theorems order_continuous_intros; lfp/gfp_funpow; bounded variant for lfp/gfp transfer hoelzl parents: 60580 diff changeset	12	imports Complex_Main Extended_Nat Liminf_Limsup
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	13	begin
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	14
62626 de25474ce728 Contractible sets. Also removal of obsolete theorems and refactoring paulson <lp15@cam.ac.uk> parents: 62390 diff changeset	15	text \<open>This should be part of @{theory Extended_Nat} or @{theory Order_Continuity}, but then the
de25474ce728 Contractible sets. Also removal of obsolete theorems and refactoring paulson <lp15@cam.ac.uk> parents: 62390 diff changeset	16	AFP-entry \<open>Jinja_Thread\<close> fails, as it does overload certain named from @{theory Complex_Main}.\<close>
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	17
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	18	lemma incseq_setsumI2:
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	19	fixes f :: "'i \<Rightarrow> nat \<Rightarrow> 'a::ordered_comm_monoid_add"
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	20	shows "(\<And>n. n \<in> A \<Longrightarrow> mono (f n)) \<Longrightarrow> mono (\<lambda>i. \<Sum>n\<in>A. f n i)"
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	21	unfolding incseq_def by (auto intro: setsum_mono)
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	22
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	23	lemma incseq_setsumI:
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	24	fixes f :: "nat \<Rightarrow> 'a::ordered_comm_monoid_add"
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	25	assumes "\<And>i. 0 \<le> f i"
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	26	shows "incseq (\<lambda>i. setsum f {..< i})"
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	27	proof (intro incseq_SucI)
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	28	fix n
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	29	have "setsum f {..< n} + 0 \<le> setsum f {..<n} + f n"
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	30	using assms by (rule add_left_mono)
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	31	then show "setsum f {..< n} \<le> setsum f {..< Suc n}"
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	32	by auto
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	33	qed
85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	34
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	35	lemma continuous_at_left_imp_sup_continuous:
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	36	fixes f :: "'a::{complete_linorder, linorder_topology} \<Rightarrow> 'b::{complete_linorder, linorder_topology}"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	37	assumes "mono f" "\<And>x. continuous (at_left x) f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	38	shows "sup_continuous f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	39	unfolding sup_continuous_def
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	40	proof safe
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	41	fix M :: "nat \<Rightarrow> 'a" assume "incseq M" then show "f (SUP i. M i) = (SUP i. f (M i))"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	42	using continuous_at_Sup_mono[OF assms, of "range M"] by simp
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	43	qed
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	44
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	45	lemma sup_continuous_at_left:
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	46	fixes f :: "'a::{complete_linorder, linorder_topology, first_countable_topology} \<Rightarrow>
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	47	'b::{complete_linorder, linorder_topology}"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	48	assumes f: "sup_continuous f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	49	shows "continuous (at_left x) f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	50	proof cases
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	51	assume "x = bot" then show ?thesis
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	52	by (simp add: trivial_limit_at_left_bot)
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	53	next
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	54	assume x: "x \<noteq> bot"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	55	show ?thesis
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	56	unfolding continuous_within
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	57	proof (intro tendsto_at_left_sequentially[of bot])
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	58	fix S :: "nat \<Rightarrow> 'a" assume S: "incseq S" and S_x: "S \<longlonglongrightarrow> x"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	59	from S_x have x_eq: "x = (SUP i. S i)"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	60	by (rule LIMSEQ_unique) (intro LIMSEQ_SUP S)
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	61	show "(\<lambda>n. f (S n)) \<longlonglongrightarrow> f x"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	62	unfolding x_eq sup_continuousD[OF f S]
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	63	using S sup_continuous_mono[OF f] by (intro LIMSEQ_SUP) (auto simp: mono_def)
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	64	qed (insert x, auto simp: bot_less)
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	65	qed
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	66
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	67	lemma sup_continuous_iff_at_left:
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	68	fixes f :: "'a::{complete_linorder, linorder_topology, first_countable_topology} \<Rightarrow>
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	69	'b::{complete_linorder, linorder_topology}"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	70	shows "sup_continuous f \<longleftrightarrow> (\<forall>x. continuous (at_left x) f) \<and> mono f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	71	using sup_continuous_at_left[of f] continuous_at_left_imp_sup_continuous[of f]
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	72	sup_continuous_mono[of f] by auto
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	73
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	74	lemma continuous_at_right_imp_inf_continuous:
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	75	fixes f :: "'a::{complete_linorder, linorder_topology} \<Rightarrow> 'b::{complete_linorder, linorder_topology}"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	76	assumes "mono f" "\<And>x. continuous (at_right x) f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	77	shows "inf_continuous f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	78	unfolding inf_continuous_def
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	79	proof safe
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	80	fix M :: "nat \<Rightarrow> 'a" assume "decseq M" then show "f (INF i. M i) = (INF i. f (M i))"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	81	using continuous_at_Inf_mono[OF assms, of "range M"] by simp
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	82	qed
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	83
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	84	lemma inf_continuous_at_right:
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	85	fixes f :: "'a::{complete_linorder, linorder_topology, first_countable_topology} \<Rightarrow>
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	86	'b::{complete_linorder, linorder_topology}"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	87	assumes f: "inf_continuous f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	88	shows "continuous (at_right x) f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	89	proof cases
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	90	assume "x = top" then show ?thesis
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	91	by (simp add: trivial_limit_at_right_top)
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	92	next
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	93	assume x: "x \<noteq> top"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	94	show ?thesis
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	95	unfolding continuous_within
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	96	proof (intro tendsto_at_right_sequentially[of _ top])
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	97	fix S :: "nat \<Rightarrow> 'a" assume S: "decseq S" and S_x: "S \<longlonglongrightarrow> x"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	98	from S_x have x_eq: "x = (INF i. S i)"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	99	by (rule LIMSEQ_unique) (intro LIMSEQ_INF S)
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	100	show "(\<lambda>n. f (S n)) \<longlonglongrightarrow> f x"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	101	unfolding x_eq inf_continuousD[OF f S]
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	102	using S inf_continuous_mono[OF f] by (intro LIMSEQ_INF) (auto simp: mono_def antimono_def)
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	103	qed (insert x, auto simp: less_top)
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	104	qed
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	105
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	106	lemma inf_continuous_iff_at_right:
62378 85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	107	fixes f :: "'a::{complete_linorder, linorder_topology, first_countable_topology} \<Rightarrow>
85ed00c1fe7c generalize more theorems to support enat and ennreal hoelzl parents: 62376 diff changeset	108	'b::{complete_linorder, linorder_topology}"
60172 423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	109	shows "inf_continuous f \<longleftrightarrow> (\<forall>x. continuous (at_right x) f) \<and> mono f"
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	110	using inf_continuous_at_right[of f] continuous_at_right_imp_inf_continuous[of f]
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	111	inf_continuous_mono[of f] by auto
423273355b55 rename continuous and down_continuous in Order_Continuity to sup_/inf_continuous; relate them with topological continuity hoelzl parents: 60060 diff changeset	112
59115 f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	113	instantiation enat :: linorder_topology
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	114	begin
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	115
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	116	definition open_enat :: "enat set \<Rightarrow> bool" where
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	117	"open_enat = generate_topology (range lessThan \<union> range greaterThan)"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	118
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	119	instance
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	120	proof qed (rule open_enat_def)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	121
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	122	end
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	123
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	124	lemma open_enat: "open {enat n}"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	125	proof (cases n)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	126	case 0
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	127	then have "{enat n} = {..< eSuc 0}"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	128	by (auto simp: enat_0)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	129	then show ?thesis
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	130	by simp
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	131	next
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	132	case (Suc n')
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	133	then have "{enat n} = {enat n' <..< enat (Suc n)}"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	134	apply auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	135	apply (case_tac x)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	136	apply auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	137	done
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	138	then show ?thesis
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	139	by simp
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	140	qed
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	141
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	142	lemma open_enat_iff:
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	143	fixes A :: "enat set"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	144	shows "open A \<longleftrightarrow> (\<infinity> \<in> A \<longrightarrow> (\<exists>n::nat. {n <..} \<subseteq> A))"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	145	proof safe
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	146	assume "\<infinity> \<notin> A"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	147	then have "A = (\<Union>n\<in>{n. enat n \<in> A}. {enat n})"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	148	apply auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	149	apply (case_tac x)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	150	apply auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	151	done
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	152	moreover have "open \<dots>"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	153	by (auto intro: open_enat)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	154	ultimately show "open A"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	155	by simp
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	156	next
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	157	fix n assume "{enat n <..} \<subseteq> A"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	158	then have "A = (\<Union>n\<in>{n. enat n \<in> A}. {enat n}) \<union> {enat n <..}"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	159	apply auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	160	apply (case_tac x)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	161	apply auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	162	done
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	163	moreover have "open \<dots>"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	164	by (intro open_Un open_UN ballI open_enat open_greaterThan)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	165	ultimately show "open A"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	166	by simp
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	167	next
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	168	assume "open A" "\<infinity> \<in> A"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	169	then have "generate_topology (range lessThan \<union> range greaterThan) A" "\<infinity> \<in> A"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	170	unfolding open_enat_def by auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	171	then show "\<exists>n::nat. {n <..} \<subseteq> A"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	172	proof induction
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	173	case (Int A B)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	174	then obtain n m where "{enat n<..} \<subseteq> A" "{enat m<..} \<subseteq> B"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	175	by auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	176	then have "{enat (max n m) <..} \<subseteq> A \<inter> B"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	177	by (auto simp add: subset_eq Ball_def max_def enat_ord_code(1)[symmetric] simp del: enat_ord_code(1))
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	178	then show ?case
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	179	by auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	180	next
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	181	case (UN K)
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	182	then obtain k where "k \<in> K" "\<infinity> \<in> k"
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	183	by auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	184	with UN.IH[OF this] show ?case
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	185	by auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	186	qed auto
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	187	qed
f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	188
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	189	lemma nhds_enat: "nhds x = (if x = \<infinity> then INF i. principal {enat i..} else principal {x})"
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	190	proof auto
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	191	show "nhds \<infinity> = (INF i. principal {enat i..})"
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	192	unfolding nhds_def
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	193	apply (auto intro!: antisym INF_greatest simp add: open_enat_iff cong: rev_conj_cong)
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	194	apply (auto intro!: INF_lower Ioi_le_Ico) []
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	195	subgoal for x i
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	196	by (auto intro!: INF_lower2[of "Suc i"] simp: subset_eq Ball_def eSuc_enat Suc_ile_eq)
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	197	done
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	198	show "nhds (enat i) = principal {enat i}" for i
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	199	by (simp add: nhds_discrete_open open_enat)
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	200	qed
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	201
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	202	instance enat :: topological_comm_monoid_add
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	203	proof
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	204	have [simp]: "enat i \<le> aa \<Longrightarrow> enat i \<le> aa + ba" for aa ba i
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	205	by (rule order_trans[OF _ add_mono[of aa aa 0 ba]]) auto
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	206	then have [simp]: "enat i \<le> ba \<Longrightarrow> enat i \<le> aa + ba" for aa ba i
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	207	by (metis add.commute)
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	208	fix a b :: enat show "((\<lambda>x. fst x + snd x) \<longlongrightarrow> a + b) (nhds a \<times>\<^sub>F nhds b)"
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	209	apply (auto simp: nhds_enat filterlim_INF prod_filter_INF1 prod_filter_INF2
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	210	filterlim_principal principal_prod_principal eventually_principal)
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	211	subgoal for i
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	212	by (auto intro!: eventually_INF1[of i] simp: eventually_principal)
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	213	subgoal for j i
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	214	by (auto intro!: eventually_INF1[of i] simp: eventually_principal)
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	215	subgoal for j i
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	216	by (auto intro!: eventually_INF1[of i] simp: eventually_principal)
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	217	done
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	218	qed
59115 f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	219
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	220	text \<open>
59115 f65ac77f7e07 move topology on enat to Extended_Real, otherwise Jinja_Threads fails hoelzl parents: 59023 diff changeset	221
51022 78de6c7e8a58 replace open_interval with the rule open_tendstoI; generalize Liminf/Limsup rules hoelzl parents: 51000 diff changeset	222	For more lemmas about the extended real numbers go to
78de6c7e8a58 replace open_interval with the rule open_tendstoI; generalize Liminf/Limsup rules hoelzl parents: 51000 diff changeset	223	@{file "~~/src/HOL/Multivariate_Analysis/Extended_Real_Limits.thy"}
78de6c7e8a58 replace open_interval with the rule open_tendstoI; generalize Liminf/Limsup rules hoelzl parents: 51000 diff changeset	224
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	225	\<close>
903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	226
903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	227	subsection \<open>Definition and basic properties\<close>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	228
58310 91ea607a34d8 updated news blanchet parents: 58249 diff changeset	229	datatype ereal = ereal real \| PInfty \| MInfty
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	230
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	231	instantiation ereal :: uminus
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	232	begin
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	233
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	234	fun uminus_ereal where
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	235	"- (ereal r) = ereal (- r)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	236	\| "- PInfty = MInfty"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	237	\| "- MInfty = PInfty"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	238
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	239	instance ..
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	240
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	241	end
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	242
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	243	instantiation ereal :: infinity
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	244	begin
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	245
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	246	definition "(\<infinity>::ereal) = PInfty"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	247	instance ..
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	248
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	249	end
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	250
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	251	declare [[coercion "ereal :: real \<Rightarrow> ereal"]]
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	252
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	253	lemma ereal_uminus_uminus[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	254	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	255	shows "- (- a) = a"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	256	by (cases a) simp_all
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	257
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	258	lemma
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	259	shows PInfty_eq_infinity[simp]: "PInfty = \<infinity>"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	260	and MInfty_eq_minfinity[simp]: "MInfty = - \<infinity>"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	261	and MInfty_neq_PInfty[simp]: "\<infinity> \<noteq> - (\<infinity>::ereal)" "- \<infinity> \<noteq> (\<infinity>::ereal)"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	262	and MInfty_neq_ereal[simp]: "ereal r \<noteq> - \<infinity>" "- \<infinity> \<noteq> ereal r"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	263	and PInfty_neq_ereal[simp]: "ereal r \<noteq> \<infinity>" "\<infinity> \<noteq> ereal r"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	264	and PInfty_cases[simp]: "(case \<infinity> of ereal r \<Rightarrow> f r \| PInfty \<Rightarrow> y \| MInfty \<Rightarrow> z) = y"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	265	and MInfty_cases[simp]: "(case - \<infinity> of ereal r \<Rightarrow> f r \| PInfty \<Rightarrow> y \| MInfty \<Rightarrow> z) = z"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	266	by (simp_all add: infinity_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	267
43933 6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	268	declare
6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	269	PInfty_eq_infinity[code_post]
6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	270	MInfty_eq_minfinity[code_post]
6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	271
6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	272	lemma [code_unfold]:
6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	273	"\<infinity> = PInfty"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	274	"- PInfty = MInfty"
43933 6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	275	by simp_all
6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	276
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	277	lemma inj_ereal[simp]: "inj_on ereal A"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	278	unfolding inj_on_def by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	279
55913 c1409c103b77 proper UTF-8; wenzelm parents: 54863 diff changeset	280	lemma ereal_cases[cases type: ereal]:
c1409c103b77 proper UTF-8; wenzelm parents: 54863 diff changeset	281	obtains (real) r where "x = ereal r"
c1409c103b77 proper UTF-8; wenzelm parents: 54863 diff changeset	282	\| (PInf) "x = \<infinity>"
c1409c103b77 proper UTF-8; wenzelm parents: 54863 diff changeset	283	\| (MInf) "x = -\<infinity>"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	284	using assms by (cases x) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	285
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	286	lemmas ereal2_cases = ereal_cases[case_product ereal_cases]
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	287	lemmas ereal3_cases = ereal2_cases[case_product ereal_cases]
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	288
57447 87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57025 diff changeset	289	lemma ereal_all_split: "\<And>P. (\<forall>x::ereal. P x) \<longleftrightarrow> P \<infinity> \<and> (\<forall>x. P (ereal x)) \<and> P (-\<infinity>)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57025 diff changeset	290	by (metis ereal_cases)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57025 diff changeset	291
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57025 diff changeset	292	lemma ereal_ex_split: "\<And>P. (\<exists>x::ereal. P x) \<longleftrightarrow> P \<infinity> \<or> (\<exists>x. P (ereal x)) \<or> P (-\<infinity>)"
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57025 diff changeset	293	by (metis ereal_cases)
87429bdecad5 import more stuff from the CLT proof; base the lborel measure on interval_measure; remove lebesgue measure hoelzl parents: 57025 diff changeset	294
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	295	lemma ereal_uminus_eq_iff[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	296	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	297	shows "-a = -b \<longleftrightarrow> a = b"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	298	by (cases rule: ereal2_cases[of a b]) simp_all
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	299
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	300	function real_of_ereal :: "ereal \<Rightarrow> real" where
77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	301	"real_of_ereal (ereal r) = r"
77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	302	\| "real_of_ereal \<infinity> = 0"
77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	303	\| "real_of_ereal (-\<infinity>) = 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	304	by (auto intro: ereal_cases)
60679 ade12ef2773c tuned proofs; wenzelm parents: 60637 diff changeset	305	termination by standard (rule wf_empty)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	306
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	307	lemma real_of_ereal[simp]:
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	308	"real_of_ereal (- x :: ereal) = - (real_of_ereal x)"
58042 ffa9e39763e3 introduce real_of typeclass for real :: 'a => real hoelzl parents: 57512 diff changeset	309	by (cases x) simp_all
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	310
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	311	lemma range_ereal[simp]: "range ereal = UNIV - {\<infinity>, -\<infinity>}"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	312	proof safe
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	313	fix x
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	314	assume "x \<notin> range ereal" "x \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	315	then show "x = -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	316	by (cases x) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	317	qed auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	318
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	319	lemma ereal_range_uminus[simp]: "range uminus = (UNIV::ereal set)"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	320	proof safe
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	321	fix x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	322	show "x \<in> range uminus"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	323	by (intro image_eqI[of _ _ "-x"]) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	324	qed auto
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	325
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	326	instantiation ereal :: abs
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	327	begin
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	328
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	329	function abs_ereal where
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	330	"\<bar>ereal r\<bar> = ereal \<bar>r\<bar>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	331	\| "\<bar>-\<infinity>\<bar> = (\<infinity>::ereal)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	332	\| "\<bar>\<infinity>\<bar> = (\<infinity>::ereal)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	333	by (auto intro: ereal_cases)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	334	termination proof qed (rule wf_empty)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	335
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	336	instance ..
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	337
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	338	end
3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	339
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	340	lemma abs_eq_infinity_cases[elim!]:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	341	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	342	assumes "\<bar>x\<bar> = \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	343	obtains "x = \<infinity>" \| "x = -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	344	using assms by (cases x) auto
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	345
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	346	lemma abs_neq_infinity_cases[elim!]:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	347	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	348	assumes "\<bar>x\<bar> \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	349	obtains r where "x = ereal r"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	350	using assms by (cases x) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	351
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	352	lemma abs_ereal_uminus[simp]:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	353	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	354	shows "\<bar>- x\<bar> = \<bar>x\<bar>"
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	355	by (cases x) auto
3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	356
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	357	lemma ereal_infinity_cases:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	358	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	359	shows "a \<noteq> \<infinity> \<Longrightarrow> a \<noteq> -\<infinity> \<Longrightarrow> \<bar>a\<bar> \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	360	by auto
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	361
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	362	subsubsection "Addition"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	363
54408 67dec4ccaabd equation when indicator function equals 0 or 1 hoelzl parents: 53873 diff changeset	364	instantiation ereal :: "{one,comm_monoid_add,zero_neq_one}"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	365	begin
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	366
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	367	definition "0 = ereal 0"
51351 dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	368	definition "1 = ereal 1"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	369
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	370	function plus_ereal where
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	371	"ereal r + ereal p = ereal (r + p)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	372	\| "\<infinity> + a = (\<infinity>::ereal)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	373	\| "a + \<infinity> = (\<infinity>::ereal)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	374	\| "ereal r + -\<infinity> = - \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	375	\| "-\<infinity> + ereal p = -(\<infinity>::ereal)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	376	\| "-\<infinity> + -\<infinity> = -(\<infinity>::ereal)"
61166 5976fe402824 renamed method "goals" to "goal_cases" to emphasize its meaning; wenzelm parents: 61120 diff changeset	377	proof goal_cases
60580 7e741e22d7fc tuned proofs; wenzelm parents: 60500 diff changeset	378	case prems: (1 P x)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	379	then obtain a b where "x = (a, b)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	380	by (cases x) auto
60580 7e741e22d7fc tuned proofs; wenzelm parents: 60500 diff changeset	381	with prems show P
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	382	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	383	qed auto
60679 ade12ef2773c tuned proofs; wenzelm parents: 60637 diff changeset	384	termination by standard (rule wf_empty)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	385
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	386	lemma Infty_neq_0[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	387	"(\<infinity>::ereal) \<noteq> 0" "0 \<noteq> (\<infinity>::ereal)"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	388	"-(\<infinity>::ereal) \<noteq> 0" "0 \<noteq> -(\<infinity>::ereal)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	389	by (simp_all add: zero_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	390
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	391	lemma ereal_eq_0[simp]:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	392	"ereal r = 0 \<longleftrightarrow> r = 0"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	393	"0 = ereal r \<longleftrightarrow> r = 0"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	394	unfolding zero_ereal_def by simp_all
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	395
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	396	lemma ereal_eq_1[simp]:
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	397	"ereal r = 1 \<longleftrightarrow> r = 1"
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	398	"1 = ereal r \<longleftrightarrow> r = 1"
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	399	unfolding one_ereal_def by simp_all
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	400
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	401	instance
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	402	proof
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	403	fix a b c :: ereal
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	404	show "0 + a = a"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	405	by (cases a) (simp_all add: zero_ereal_def)
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	406	show "a + b = b + a"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	407	by (cases rule: ereal2_cases[of a b]) simp_all
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	408	show "a + b + c = a + (b + c)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	409	by (cases rule: ereal3_cases[of a b c]) simp_all
54408 67dec4ccaabd equation when indicator function equals 0 or 1 hoelzl parents: 53873 diff changeset	410	show "0 \<noteq> (1::ereal)"
67dec4ccaabd equation when indicator function equals 0 or 1 hoelzl parents: 53873 diff changeset	411	by (simp add: one_ereal_def zero_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	412	qed
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	413
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	414	end
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	415
60060 3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	416	lemma ereal_0_plus [simp]: "ereal 0 + x = x"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	417	and plus_ereal_0 [simp]: "x + ereal 0 = x"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	418	by(simp_all add: zero_ereal_def[symmetric])
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	419
51351 dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	420	instance ereal :: numeral ..
dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	421
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	422	lemma real_of_ereal_0[simp]: "real_of_ereal (0::ereal) = 0"
58042 ffa9e39763e3 introduce real_of typeclass for real :: 'a => real hoelzl parents: 57512 diff changeset	423	unfolding zero_ereal_def by simp
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	424
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	425	lemma abs_ereal_zero[simp]: "\<bar>0\<bar> = (0::ereal)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	426	unfolding zero_ereal_def abs_ereal.simps by simp
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	427
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	428	lemma ereal_uminus_zero[simp]: "- 0 = (0::ereal)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	429	by (simp add: zero_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	430
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	431	lemma ereal_uminus_zero_iff[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	432	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	433	shows "-a = 0 \<longleftrightarrow> a = 0"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	434	by (cases a) simp_all
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	435
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	436	lemma ereal_plus_eq_PInfty[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	437	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	438	shows "a + b = \<infinity> \<longleftrightarrow> a = \<infinity> \<or> b = \<infinity>"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	439	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	440
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	441	lemma ereal_plus_eq_MInfty[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	442	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	443	shows "a + b = -\<infinity> \<longleftrightarrow> (a = -\<infinity> \<or> b = -\<infinity>) \<and> a \<noteq> \<infinity> \<and> b \<noteq> \<infinity>"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	444	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	445
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	446	lemma ereal_add_cancel_left:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	447	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	448	assumes "a \<noteq> -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	449	shows "a + b = a + c \<longleftrightarrow> a = \<infinity> \<or> b = c"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	450	using assms by (cases rule: ereal3_cases[of a b c]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	451
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	452	lemma ereal_add_cancel_right:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	453	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	454	assumes "a \<noteq> -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	455	shows "b + a = c + a \<longleftrightarrow> a = \<infinity> \<or> b = c"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	456	using assms by (cases rule: ereal3_cases[of a b c]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	457
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	458	lemma ereal_real: "ereal (real_of_ereal x) = (if \<bar>x\<bar> = \<infinity> then 0 else x)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	459	by (cases x) simp_all
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	460
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	461	lemma real_of_ereal_add:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	462	fixes a b :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	463	shows "real_of_ereal (a + b) =
77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	464	(if (\<bar>a\<bar> = \<infinity>) \<and> (\<bar>b\<bar> = \<infinity>) \<or> (\<bar>a\<bar> \<noteq> \<infinity>) \<and> (\<bar>b\<bar> \<noteq> \<infinity>) then real_of_ereal a + real_of_ereal b else 0)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	465	by (cases rule: ereal2_cases[of a b]) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	466
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	467
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	468	subsubsection "Linear order on @{typ ereal}"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	469
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	470	instantiation ereal :: linorder
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	471	begin
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	472
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	473	function less_ereal
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	474	where
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	475	" ereal x < ereal y \<longleftrightarrow> x < y"
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	476	\| "(\<infinity>::ereal) < a \<longleftrightarrow> False"
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	477	\| " a < -(\<infinity>::ereal) \<longleftrightarrow> False"
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	478	\| "ereal x < \<infinity> \<longleftrightarrow> True"
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	479	\| " -\<infinity> < ereal r \<longleftrightarrow> True"
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	480	\| " -\<infinity> < (\<infinity>::ereal) \<longleftrightarrow> True"
61166 5976fe402824 renamed method "goals" to "goal_cases" to emphasize its meaning; wenzelm parents: 61120 diff changeset	481	proof goal_cases
60580 7e741e22d7fc tuned proofs; wenzelm parents: 60500 diff changeset	482	case prems: (1 P x)
53374 a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation; wenzelm parents: 53216 diff changeset	483	then obtain a b where "x = (a,b)" by (cases x) auto
60580 7e741e22d7fc tuned proofs; wenzelm parents: 60500 diff changeset	484	with prems show P by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	485	qed simp_all
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	486	termination by (relation "{}") simp
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	487
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	488	definition "x \<le> (y::ereal) \<longleftrightarrow> x < y \<or> x = y"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	489
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	490	lemma ereal_infty_less[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	491	fixes x :: ereal
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	492	shows "x < \<infinity> \<longleftrightarrow> (x \<noteq> \<infinity>)"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	493	"-\<infinity> < x \<longleftrightarrow> (x \<noteq> -\<infinity>)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	494	by (cases x, simp_all) (cases x, simp_all)
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	495
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	496	lemma ereal_infty_less_eq[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	497	fixes x :: ereal
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	498	shows "\<infinity> \<le> x \<longleftrightarrow> x = \<infinity>"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	499	and "x \<le> -\<infinity> \<longleftrightarrow> x = -\<infinity>"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	500	by (auto simp add: less_eq_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	501
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	502	lemma ereal_less[simp]:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	503	"ereal r < 0 \<longleftrightarrow> (r < 0)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	504	"0 < ereal r \<longleftrightarrow> (0 < r)"
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	505	"ereal r < 1 \<longleftrightarrow> (r < 1)"
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	506	"1 < ereal r \<longleftrightarrow> (1 < r)"
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	507	"0 < (\<infinity>::ereal)"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	508	"-(\<infinity>::ereal) < 0"
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	509	by (simp_all add: zero_ereal_def one_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	510
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	511	lemma ereal_less_eq[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	512	"x \<le> (\<infinity>::ereal)"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	513	"-(\<infinity>::ereal) \<le> x"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	514	"ereal r \<le> ereal p \<longleftrightarrow> r \<le> p"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	515	"ereal r \<le> 0 \<longleftrightarrow> r \<le> 0"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	516	"0 \<le> ereal r \<longleftrightarrow> 0 \<le> r"
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	517	"ereal r \<le> 1 \<longleftrightarrow> r \<le> 1"
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	518	"1 \<le> ereal r \<longleftrightarrow> 1 \<le> r"
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	519	by (auto simp add: less_eq_ereal_def zero_ereal_def one_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	520
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	521	lemma ereal_infty_less_eq2:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	522	"a \<le> b \<Longrightarrow> a = \<infinity> \<Longrightarrow> b = (\<infinity>::ereal)"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	523	"a \<le> b \<Longrightarrow> b = -\<infinity> \<Longrightarrow> a = -(\<infinity>::ereal)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	524	by simp_all
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	525
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	526	instance
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	527	proof
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	528	fix x y z :: ereal
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	529	show "x \<le> x"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	530	by (cases x) simp_all
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	531	show "x < y \<longleftrightarrow> x \<le> y \<and> \<not> y \<le> x"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	532	by (cases rule: ereal2_cases[of x y]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	533	show "x \<le> y \<or> y \<le> x "
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	534	by (cases rule: ereal2_cases[of x y]) auto
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	535	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	536	assume "x \<le> y" "y \<le> x"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	537	then show "x = y"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	538	by (cases rule: ereal2_cases[of x y]) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	539	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	540	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	541	assume "x \<le> y" "y \<le> z"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	542	then show "x \<le> z"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	543	by (cases rule: ereal3_cases[of x y z]) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	544	}
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	545	qed
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	546
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	547	end
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	548
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	549	lemma ereal_dense2: "x < y \<Longrightarrow> \<exists>z. x < ereal z \<and> ereal z < y"
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	550	using lt_ex gt_ex dense by (cases x y rule: ereal2_cases) auto
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	551
53216 ad2e09c30aa8 renamed inner_dense_linorder to dense_linorder hoelzl parents: 52729 diff changeset	552	instance ereal :: dense_linorder
60679 ade12ef2773c tuned proofs; wenzelm parents: 60637 diff changeset	553	by standard (blast dest: ereal_dense2)
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	554
62376 85f38d5f8807 Rename ordered_comm_monoid_add to ordered_cancel_comm_monoid_add. Introduce ordreed_comm_monoid_add, canonically_ordered_comm_monoid and dioid. Setup nat, entat and ennreal as dioids. hoelzl parents: 62371 diff changeset	555	instance ereal :: ordered_comm_monoid_add
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	556	proof
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	557	fix a b c :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	558	assume "a \<le> b"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	559	then show "c + a \<le> c + b"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	560	by (cases rule: ereal3_cases[of a b c]) auto
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	561	qed
656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	562
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	563	lemma real_of_ereal_positive_mono:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	564	fixes x y :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	565	shows "0 \<le> x \<Longrightarrow> x \<le> y \<Longrightarrow> y \<noteq> \<infinity> \<Longrightarrow> real_of_ereal x \<le> real_of_ereal y"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	566	by (cases rule: ereal2_cases[of x y]) auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	567
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	568	lemma ereal_MInfty_lessI[intro, simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	569	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	570	shows "a \<noteq> -\<infinity> \<Longrightarrow> -\<infinity> < a"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	571	by (cases a) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	572
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	573	lemma ereal_less_PInfty[intro, simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	574	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	575	shows "a \<noteq> \<infinity> \<Longrightarrow> a < \<infinity>"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	576	by (cases a) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	577
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	578	lemma ereal_less_ereal_Ex:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	579	fixes a b :: ereal
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	580	shows "x < ereal r \<longleftrightarrow> x = -\<infinity> \<or> (\<exists>p. p < r \<and> x = ereal p)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	581	by (cases x) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	582
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	583	lemma less_PInf_Ex_of_nat: "x \<noteq> \<infinity> \<longleftrightarrow> (\<exists>n::nat. x < ereal (real n))"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	584	proof (cases x)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	585	case (real r)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	586	then show ?thesis
41980 28b51effc5ed split Extended_Reals into parts for Library and Multivariate_Analysis hoelzl parents: 41979 diff changeset	587	using reals_Archimedean2[of r] by simp
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	588	qed simp_all
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	589
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	590	lemma ereal_add_mono:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	591	fixes a b c d :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	592	assumes "a \<le> b"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	593	and "c \<le> d"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	594	shows "a + c \<le> b + d"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	595	using assms
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	596	apply (cases a)
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	597	apply (cases rule: ereal3_cases[of b c d], auto)
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	598	apply (cases rule: ereal3_cases[of b c d], auto)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	599	done
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	600
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	601	lemma ereal_minus_le_minus[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	602	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	603	shows "- a \<le> - b \<longleftrightarrow> b \<le> a"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	604	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	605
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	606	lemma ereal_minus_less_minus[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	607	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	608	shows "- a < - b \<longleftrightarrow> b < a"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	609	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	610
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	611	lemma ereal_le_real_iff:
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	612	"x \<le> real_of_ereal y \<longleftrightarrow> (\<bar>y\<bar> \<noteq> \<infinity> \<longrightarrow> ereal x \<le> y) \<and> (\<bar>y\<bar> = \<infinity> \<longrightarrow> x \<le> 0)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	613	by (cases y) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	614
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	615	lemma real_le_ereal_iff:
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	616	"real_of_ereal y \<le> x \<longleftrightarrow> (\<bar>y\<bar> \<noteq> \<infinity> \<longrightarrow> y \<le> ereal x) \<and> (\<bar>y\<bar> = \<infinity> \<longrightarrow> 0 \<le> x)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	617	by (cases y) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	618
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	619	lemma ereal_less_real_iff:
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	620	"x < real_of_ereal y \<longleftrightarrow> (\<bar>y\<bar> \<noteq> \<infinity> \<longrightarrow> ereal x < y) \<and> (\<bar>y\<bar> = \<infinity> \<longrightarrow> x < 0)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	621	by (cases y) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	622
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	623	lemma real_less_ereal_iff:
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	624	"real_of_ereal y < x \<longleftrightarrow> (\<bar>y\<bar> \<noteq> \<infinity> \<longrightarrow> y < ereal x) \<and> (\<bar>y\<bar> = \<infinity> \<longrightarrow> 0 < x)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	625	by (cases y) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	626
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	627	lemma real_of_ereal_pos:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	628	fixes x :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	629	shows "0 \<le> x \<Longrightarrow> 0 \<le> real_of_ereal x" by (cases x) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	630
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	631	lemmas real_of_ereal_ord_simps =
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	632	ereal_le_real_iff real_le_ereal_iff ereal_less_real_iff real_less_ereal_iff
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	633
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	634	lemma abs_ereal_ge0[simp]: "0 \<le> x \<Longrightarrow> \<bar>x :: ereal\<bar> = x"
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	635	by (cases x) auto
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	636
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	637	lemma abs_ereal_less0[simp]: "x < 0 \<Longrightarrow> \<bar>x :: ereal\<bar> = -x"
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	638	by (cases x) auto
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	639
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	640	lemma abs_ereal_pos[simp]: "0 \<le> \<bar>x :: ereal\<bar>"
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	641	by (cases x) auto
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	642
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	643	lemma ereal_abs_leI:
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	644	fixes x y :: ereal
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	645	shows "\<lbrakk> x \<le> y; -x \<le> y \<rbrakk> \<Longrightarrow> \<bar>x\<bar> \<le> y"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	646	by(cases x y rule: ereal2_cases)(simp_all)
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	647
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	648	lemma real_of_ereal_le_0[simp]: "real_of_ereal (x :: ereal) \<le> 0 \<longleftrightarrow> x \<le> 0 \<or> x = \<infinity>"
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	649	by (cases x) auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	650
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	651	lemma abs_real_of_ereal[simp]: "\<bar>real_of_ereal (x :: ereal)\<bar> = real_of_ereal \<bar>x\<bar>"
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	652	by (cases x) auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	653
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	654	lemma zero_less_real_of_ereal:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	655	fixes x :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	656	shows "0 < real_of_ereal x \<longleftrightarrow> 0 < x \<and> x \<noteq> \<infinity>"
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	657	by (cases x) auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	658
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	659	lemma ereal_0_le_uminus_iff[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	660	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	661	shows "0 \<le> - a \<longleftrightarrow> a \<le> 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	662	by (cases rule: ereal2_cases[of a]) auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	663
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	664	lemma ereal_uminus_le_0_iff[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	665	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	666	shows "- a \<le> 0 \<longleftrightarrow> 0 \<le> a"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	667	by (cases rule: ereal2_cases[of a]) auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	668
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	669	lemma ereal_add_strict_mono:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	670	fixes a b c d :: ereal
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	671	assumes "a \<le> b"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	672	and "0 \<le> a"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	673	and "a \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	674	and "c < d"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	675	shows "a + c < b + d"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	676	using assms
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	677	by (cases rule: ereal3_cases[case_product ereal_cases, of a b c d]) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	678
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	679	lemma ereal_less_add:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	680	fixes a b c :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	681	shows "\<bar>a\<bar> \<noteq> \<infinity> \<Longrightarrow> c < b \<Longrightarrow> a + c < a + b"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	682	by (cases rule: ereal2_cases[of b c]) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	683
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	684	lemma ereal_add_nonneg_eq_0_iff:
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	685	fixes a b :: ereal
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	686	shows "0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> a + b = 0 \<longleftrightarrow> a = 0 \<and> b = 0"
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	687	by (cases a b rule: ereal2_cases) auto
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	688
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	689	lemma ereal_uminus_eq_reorder: "- a = b \<longleftrightarrow> a = (-b::ereal)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	690	by auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	691
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	692	lemma ereal_uminus_less_reorder: "- a < b \<longleftrightarrow> -b < (a::ereal)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	693	by (subst (3) ereal_uminus_uminus[symmetric]) (simp only: ereal_minus_less_minus)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	694
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	695	lemma ereal_less_uminus_reorder: "a < - b \<longleftrightarrow> b < - (a::ereal)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	696	by (subst (3) ereal_uminus_uminus[symmetric]) (simp only: ereal_minus_less_minus)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	697
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	698	lemma ereal_uminus_le_reorder: "- a \<le> b \<longleftrightarrow> -b \<le> (a::ereal)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	699	by (subst (3) ereal_uminus_uminus[symmetric]) (simp only: ereal_minus_le_minus)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	700
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	701	lemmas ereal_uminus_reorder =
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	702	ereal_uminus_eq_reorder ereal_uminus_less_reorder ereal_uminus_le_reorder
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	703
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	704	lemma ereal_bot:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	705	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	706	assumes "\<And>B. x \<le> ereal B"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	707	shows "x = - \<infinity>"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	708	proof (cases x)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	709	case (real r)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	710	with assms[of "r - 1"] show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	711	by auto
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	712	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	713	case PInf
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	714	with assms[of 0] show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	715	by auto
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	716	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	717	case MInf
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	718	then show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	719	by simp
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	720	qed
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	721
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	722	lemma ereal_top:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	723	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	724	assumes "\<And>B. x \<ge> ereal B"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	725	shows "x = \<infinity>"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	726	proof (cases x)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	727	case (real r)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	728	with assms[of "r + 1"] show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	729	by auto
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	730	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	731	case MInf
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	732	with assms[of 0] show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	733	by auto
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	734	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	735	case PInf
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	736	then show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	737	by simp
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	738	qed
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	739
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	740	lemma
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	741	shows ereal_max[simp]: "ereal (max x y) = max (ereal x) (ereal y)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	742	and ereal_min[simp]: "ereal (min x y) = min (ereal x) (ereal y)"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	743	by (simp_all add: min_def max_def)
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	744
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	745	lemma ereal_max_0: "max 0 (ereal r) = ereal (max 0 r)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	746	by (auto simp: zero_ereal_def)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	747
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	748	lemma
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	749	fixes f :: "nat \<Rightarrow> ereal"
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	750	shows ereal_incseq_uminus[simp]: "incseq (\<lambda>x. - f x) \<longleftrightarrow> decseq f"
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	751	and ereal_decseq_uminus[simp]: "decseq (\<lambda>x. - f x) \<longleftrightarrow> incseq f"
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	752	unfolding decseq_def incseq_def by auto
656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	753
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	754	lemma incseq_ereal: "incseq f \<Longrightarrow> incseq (\<lambda>x. ereal (f x))"
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	755	unfolding incseq_def by auto
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	756
56537 01caba82e1d2 made ereal_add_nonneg_nonneg a simp rule nipkow parents: 56536 diff changeset	757	lemma ereal_add_nonneg_nonneg[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	758	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	759	shows "0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> 0 \<le> a + b"
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	760	using add_mono[of 0 a 0 b] by simp
656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	761
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	762	lemma setsum_ereal[simp]: "(\<Sum>x\<in>A. ereal (f x)) = ereal (\<Sum>x\<in>A. f x)"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	763	proof (cases "finite A")
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	764	case True
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	765	then show ?thesis by induct auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	766	next
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	767	case False
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	768	then show ?thesis by simp
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	769	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	770
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	771	lemma setsum_Pinfty:
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	772	fixes f :: "'a \<Rightarrow> ereal"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	773	shows "(\<Sum>x\<in>P. f x) = \<infinity> \<longleftrightarrow> finite P \<and> (\<exists>i\<in>P. f i = \<infinity>)"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	774	proof safe
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	775	assume *: "setsum f P = \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	776	show "finite P"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	777	proof (rule ccontr)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	778	assume "\<not> finite P"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	779	with * show False
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	780	by auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	781	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	782	show "\<exists>i\<in>P. f i = \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	783	proof (rule ccontr)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	784	assume "\<not> ?thesis"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	785	then have "\<And>i. i \<in> P \<Longrightarrow> f i \<noteq> \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	786	by auto
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	787	with \<open>finite P\<close> have "setsum f P \<noteq> \<infinity>"
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	788	by induct auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	789	with * show False
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	790	by auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	791	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	792	next
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	793	fix i
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	794	assume "finite P" and "i \<in> P" and "f i = \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	795	then show "setsum f P = \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	796	proof induct
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	797	case (insert x A)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	798	show ?case using insert by (cases "x = i") auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	799	qed simp
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	800	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	801
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	802	lemma setsum_Inf:
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	803	fixes f :: "'a \<Rightarrow> ereal"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	804	shows "\<bar>setsum f A\<bar> = \<infinity> \<longleftrightarrow> finite A \<and> (\<exists>i\<in>A. \<bar>f i\<bar> = \<infinity>)"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	805	proof
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	806	assume *: "\<bar>setsum f A\<bar> = \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	807	have "finite A"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	808	by (rule ccontr) (insert *, auto)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	809	moreover have "\<exists>i\<in>A. \<bar>f i\<bar> = \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	810	proof (rule ccontr)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	811	assume "\<not> ?thesis"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	812	then have "\<forall>i\<in>A. \<exists>r. f i = ereal r"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	813	by auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	814	from bchoice[OF this] obtain r where "\<forall>x\<in>A. f x = ereal (r x)" ..
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	815	with * show False
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	816	by auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	817	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	818	ultimately show "finite A \<and> (\<exists>i\<in>A. \<bar>f i\<bar> = \<infinity>)"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	819	by auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	820	next
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	821	assume "finite A \<and> (\<exists>i\<in>A. \<bar>f i\<bar> = \<infinity>)"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	822	then obtain i where "finite A" "i \<in> A" and "\<bar>f i\<bar> = \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	823	by auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	824	then show "\<bar>setsum f A\<bar> = \<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	825	proof induct
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	826	case (insert j A)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	827	then show ?case
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	828	by (cases rule: ereal3_cases[of "f i" "f j" "setsum f A"]) auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	829	qed simp
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	830	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	831
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	832	lemma setsum_real_of_ereal:
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	833	fixes f :: "'i \<Rightarrow> ereal"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	834	assumes "\<And>x. x \<in> S \<Longrightarrow> \<bar>f x\<bar> \<noteq> \<infinity>"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	835	shows "(\<Sum>x\<in>S. real_of_ereal (f x)) = real_of_ereal (setsum f S)"
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	836	proof -
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	837	have "\<forall>x\<in>S. \<exists>r. f x = ereal r"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	838	proof
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	839	fix x
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	840	assume "x \<in> S"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	841	from assms[OF this] show "\<exists>r. f x = ereal r"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	842	by (cases "f x") auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	843	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	844	from bchoice[OF this] obtain r where "\<forall>x\<in>S. f x = ereal (r x)" ..
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	845	then show ?thesis
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	846	by simp
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	847	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	848
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	849	lemma setsum_ereal_0:
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	850	fixes f :: "'a \<Rightarrow> ereal"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	851	assumes "finite A"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	852	and "\<And>i. i \<in> A \<Longrightarrow> 0 \<le> f i"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	853	shows "(\<Sum>x\<in>A. f x) = 0 \<longleftrightarrow> (\<forall>i\<in>A. f i = 0)"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	854	proof
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	855	assume "setsum f A = 0" with assms show "\<forall>i\<in>A. f i = 0"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	856	proof (induction A)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	857	case (insert a A)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	858	then have "f a = 0 \<and> (\<Sum>a\<in>A. f a) = 0"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	859	by (subst ereal_add_nonneg_eq_0_iff[symmetric]) (simp_all add: setsum_nonneg)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	860	with insert show ?case
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	861	by simp
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	862	qed simp
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	863	qed auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	864
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	865	subsubsection "Multiplication"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	866
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	867	instantiation ereal :: "{comm_monoid_mult,sgn}"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	868	begin
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	869
51351 dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	870	function sgn_ereal :: "ereal \<Rightarrow> ereal" where
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	871	"sgn (ereal r) = ereal (sgn r)"
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	872	\| "sgn (\<infinity>::ereal) = 1"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	873	\| "sgn (-\<infinity>::ereal) = -1"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	874	by (auto intro: ereal_cases)
60679 ade12ef2773c tuned proofs; wenzelm parents: 60637 diff changeset	875	termination by standard (rule wf_empty)
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	876
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	877	function times_ereal where
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	878	"ereal r * ereal p = ereal (r * p)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	879	\| "ereal r * \<infinity> = (if r = 0 then 0 else if r > 0 then \<infinity> else -\<infinity>)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	880	\| "\<infinity> * ereal r = (if r = 0 then 0 else if r > 0 then \<infinity> else -\<infinity>)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	881	\| "ereal r * -\<infinity> = (if r = 0 then 0 else if r > 0 then -\<infinity> else \<infinity>)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	882	\| "-\<infinity> * ereal r = (if r = 0 then 0 else if r > 0 then -\<infinity> else \<infinity>)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	883	\| "(\<infinity>::ereal) * \<infinity> = \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	884	\| "-(\<infinity>::ereal) * \<infinity> = -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	885	\| "(\<infinity>::ereal) * -\<infinity> = -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	886	\| "-(\<infinity>::ereal) * -\<infinity> = \<infinity>"
61166 5976fe402824 renamed method "goals" to "goal_cases" to emphasize its meaning; wenzelm parents: 61120 diff changeset	887	proof goal_cases
60580 7e741e22d7fc tuned proofs; wenzelm parents: 60500 diff changeset	888	case prems: (1 P x)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	889	then obtain a b where "x = (a, b)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	890	by (cases x) auto
60580 7e741e22d7fc tuned proofs; wenzelm parents: 60500 diff changeset	891	with prems show P
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	892	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	893	qed simp_all
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	894	termination by (relation "{}") simp
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	895
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	896	instance
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	897	proof
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	898	fix a b c :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	899	show "1 * a = a"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	900	by (cases a) (simp_all add: one_ereal_def)
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	901	show "a * b = b * a"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	902	by (cases rule: ereal2_cases[of a b]) simp_all
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	903	show "a * b * c = a * (b * c)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	904	by (cases rule: ereal3_cases[of a b c])
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	905	(simp_all add: zero_ereal_def zero_less_mult_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	906	qed
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	907
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	908	end
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	909
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	910	lemma [simp]:
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	911	shows ereal_1_times: "ereal 1 * x = x"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	912	and times_ereal_1: "x * ereal 1 = x"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	913	by(simp_all add: one_ereal_def[symmetric])
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	914
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	915	lemma one_not_le_zero_ereal[simp]: "\<not> (1 \<le> (0::ereal))"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	916	by (simp add: one_ereal_def zero_ereal_def)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	917
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	918	lemma real_ereal_1[simp]: "real_of_ereal (1::ereal) = 1"
50104 de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	919	unfolding one_ereal_def by simp
de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	920
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	921	lemma real_of_ereal_le_1:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	922	fixes a :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	923	shows "a \<le> 1 \<Longrightarrow> real_of_ereal a \<le> 1"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	924	by (cases a) (auto simp: one_ereal_def)
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	925
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	926	lemma abs_ereal_one[simp]: "\<bar>1\<bar> = (1::ereal)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	927	unfolding one_ereal_def by simp
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	928
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	929	lemma ereal_mult_zero[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	930	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	931	shows "a * 0 = 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	932	by (cases a) (simp_all add: zero_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	933
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	934	lemma ereal_zero_mult[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	935	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	936	shows "0 * a = 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	937	by (cases a) (simp_all add: zero_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	938
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	939	lemma ereal_m1_less_0[simp]: "-(1::ereal) < 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	940	by (simp add: zero_ereal_def one_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	941
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	942	lemma ereal_times[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	943	"1 \<noteq> (\<infinity>::ereal)" "(\<infinity>::ereal) \<noteq> 1"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	944	"1 \<noteq> -(\<infinity>::ereal)" "-(\<infinity>::ereal) \<noteq> 1"
61120 65082457c117 tuned proofs; wenzelm parents: 60772 diff changeset	945	by (auto simp: one_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	946
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	947	lemma ereal_plus_1[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	948	"1 + ereal r = ereal (r + 1)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	949	"ereal r + 1 = ereal (r + 1)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	950	"1 + -(\<infinity>::ereal) = -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	951	"-(\<infinity>::ereal) + 1 = -\<infinity>"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	952	unfolding one_ereal_def by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	953
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	954	lemma ereal_zero_times[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	955	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	956	shows "a * b = 0 \<longleftrightarrow> a = 0 \<or> b = 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	957	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	958
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	959	lemma ereal_mult_eq_PInfty[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	960	"a * b = (\<infinity>::ereal) \<longleftrightarrow>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	961	(a = \<infinity> \<and> b > 0) \<or> (a > 0 \<and> b = \<infinity>) \<or> (a = -\<infinity> \<and> b < 0) \<or> (a < 0 \<and> b = -\<infinity>)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	962	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	963
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	964	lemma ereal_mult_eq_MInfty[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	965	"a * b = -(\<infinity>::ereal) \<longleftrightarrow>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	966	(a = \<infinity> \<and> b < 0) \<or> (a < 0 \<and> b = \<infinity>) \<or> (a = -\<infinity> \<and> b > 0) \<or> (a > 0 \<and> b = -\<infinity>)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	967	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	968
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	969	lemma ereal_abs_mult: "\<bar>x * y :: ereal\<bar> = \<bar>x\<bar> * \<bar>y\<bar>"
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	970	by (cases x y rule: ereal2_cases) (auto simp: abs_mult)
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	971
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	972	lemma ereal_0_less_1[simp]: "0 < (1::ereal)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	973	by (simp_all add: zero_ereal_def one_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	974
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	975	lemma ereal_mult_minus_left[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	976	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	977	shows "-a * b = - (a * b)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	978	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	979
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	980	lemma ereal_mult_minus_right[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	981	fixes a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	982	shows "a * -b = - (a * b)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	983	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	984
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	985	lemma ereal_mult_infty[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	986	"a * (\<infinity>::ereal) = (if a = 0 then 0 else if 0 < a then \<infinity> else - \<infinity>)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	987	by (cases a) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	988
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	989	lemma ereal_infty_mult[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	990	"(\<infinity>::ereal) * a = (if a = 0 then 0 else if 0 < a then \<infinity> else - \<infinity>)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	991	by (cases a) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	992
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	993	lemma ereal_mult_strict_right_mono:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	994	assumes "a < b"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	995	and "0 < c"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	996	and "c < (\<infinity>::ereal)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	997	shows "a * c < b * c"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	998	using assms
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	999	by (cases rule: ereal3_cases[of a b c]) (auto simp: zero_le_mult_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1000
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1001	lemma ereal_mult_strict_left_mono:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1002	"a < b \<Longrightarrow> 0 < c \<Longrightarrow> c < (\<infinity>::ereal) \<Longrightarrow> c * a < c * b"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1003	using ereal_mult_strict_right_mono
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 57447 diff changeset	1004	by (simp add: mult.commute[of c])
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1005
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1006	lemma ereal_mult_right_mono:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1007	fixes a b c :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1008	shows "a \<le> b \<Longrightarrow> 0 \<le> c \<Longrightarrow> a * c \<le> b * c"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1009	using assms
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1010	apply (cases "c = 0")
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1011	apply simp
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1012	apply (cases rule: ereal3_cases[of a b c])
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1013	apply (auto simp: zero_le_mult_iff)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1014	done
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1015
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1016	lemma ereal_mult_left_mono:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1017	fixes a b c :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1018	shows "a \<le> b \<Longrightarrow> 0 \<le> c \<Longrightarrow> c * a \<le> c * b"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1019	using ereal_mult_right_mono
57512 cc97b347b301 reduced name variants for assoc and commute on plus and mult haftmann parents: 57447 diff changeset	1020	by (simp add: mult.commute[of c])
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1021
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1022	lemma zero_less_one_ereal[simp]: "0 \<le> (1::ereal)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1023	by (simp add: one_ereal_def zero_ereal_def)
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1024
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1025	lemma ereal_0_le_mult[simp]: "0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> 0 \<le> a * (b :: ereal)"
56536 aefb4a8da31f made mult_nonneg_nonneg a simp rule nipkow parents: 56248 diff changeset	1026	by (cases rule: ereal2_cases[of a b]) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1027
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1028	lemma ereal_right_distrib:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1029	fixes r a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1030	shows "0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> r * (a + b) = r * a + r * b"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1031	by (cases rule: ereal3_cases[of r a b]) (simp_all add: field_simps)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1032
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1033	lemma ereal_left_distrib:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1034	fixes r a b :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1035	shows "0 \<le> a \<Longrightarrow> 0 \<le> b \<Longrightarrow> (a + b) * r = a * r + b * r"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1036	by (cases rule: ereal3_cases[of r a b]) (simp_all add: field_simps)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1037
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1038	lemma ereal_mult_le_0_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1039	fixes a b :: ereal
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1040	shows "a * b \<le> 0 \<longleftrightarrow> (0 \<le> a \<and> b \<le> 0) \<or> (a \<le> 0 \<and> 0 \<le> b)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1041	by (cases rule: ereal2_cases[of a b]) (simp_all add: mult_le_0_iff)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1042
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1043	lemma ereal_zero_le_0_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1044	fixes a b :: ereal
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1045	shows "0 \<le> a * b \<longleftrightarrow> (0 \<le> a \<and> 0 \<le> b) \<or> (a \<le> 0 \<and> b \<le> 0)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1046	by (cases rule: ereal2_cases[of a b]) (simp_all add: zero_le_mult_iff)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1047
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1048	lemma ereal_mult_less_0_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1049	fixes a b :: ereal
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1050	shows "a * b < 0 \<longleftrightarrow> (0 < a \<and> b < 0) \<or> (a < 0 \<and> 0 < b)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1051	by (cases rule: ereal2_cases[of a b]) (simp_all add: mult_less_0_iff)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1052
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1053	lemma ereal_zero_less_0_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1054	fixes a b :: ereal
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1055	shows "0 < a * b \<longleftrightarrow> (0 < a \<and> 0 < b) \<or> (a < 0 \<and> b < 0)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1056	by (cases rule: ereal2_cases[of a b]) (simp_all add: zero_less_mult_iff)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1057
50104 de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	1058	lemma ereal_left_mult_cong:
de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	1059	fixes a b c :: ereal
59002 2c8b2fb54b88 cleaning up some theorem names; remove unnecessary assumptions; more complete pmf theory hoelzl parents: 59000 diff changeset	1060	shows "c = d \<Longrightarrow> (d \<noteq> 0 \<Longrightarrow> a = b) \<Longrightarrow> a * c = b * d"
50104 de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	1061	by (cases "c = 0") simp_all
de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	1062
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	1063	lemma ereal_right_mult_cong:
59002 2c8b2fb54b88 cleaning up some theorem names; remove unnecessary assumptions; more complete pmf theory hoelzl parents: 59000 diff changeset	1064	fixes a b c :: ereal
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1065	shows "c = d \<Longrightarrow> (d \<noteq> 0 \<Longrightarrow> a = b) \<Longrightarrow> c * a = d * b"
59002 2c8b2fb54b88 cleaning up some theorem names; remove unnecessary assumptions; more complete pmf theory hoelzl parents: 59000 diff changeset	1066	by (cases "c = 0") simp_all
50104 de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	1067
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1068	lemma ereal_distrib:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1069	fixes a b c :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1070	assumes "a \<noteq> \<infinity> \<or> b \<noteq> -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1071	and "a \<noteq> -\<infinity> \<or> b \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1072	and "\<bar>c\<bar> \<noteq> \<infinity>"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1073	shows "(a + b) * c = a * c + b * c"
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1074	using assms
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1075	by (cases rule: ereal3_cases[of a b c]) (simp_all add: field_simps)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1076
47108 2a1953f0d20d merged fork with new numeral representation (see NEWS) huffman parents: 47082 diff changeset	1077	lemma numeral_eq_ereal [simp]: "numeral w = ereal (numeral w)"
2a1953f0d20d merged fork with new numeral representation (see NEWS) huffman parents: 47082 diff changeset	1078	apply (induct w rule: num_induct)
2a1953f0d20d merged fork with new numeral representation (see NEWS) huffman parents: 47082 diff changeset	1079	apply (simp only: numeral_One one_ereal_def)
2a1953f0d20d merged fork with new numeral representation (see NEWS) huffman parents: 47082 diff changeset	1080	apply (simp only: numeral_inc ereal_plus_1)
2a1953f0d20d merged fork with new numeral representation (see NEWS) huffman parents: 47082 diff changeset	1081	done
2a1953f0d20d merged fork with new numeral representation (see NEWS) huffman parents: 47082 diff changeset	1082
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1083	lemma distrib_left_ereal_nn:
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1084	"c \<ge> 0 \<Longrightarrow> (x + y) * ereal c = x * ereal c + y * ereal c"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1085	by(cases x y rule: ereal2_cases)(simp_all add: ring_distribs)
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1086
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1087	lemma setsum_ereal_right_distrib:
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1088	fixes f :: "'a \<Rightarrow> ereal"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1089	shows "(\<And>i. i \<in> A \<Longrightarrow> 0 \<le> f i) \<Longrightarrow> r * setsum f A = (\<Sum>n\<in>A. r * f n)"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1090	by (induct A rule: infinite_finite_induct) (auto simp: ereal_right_distrib setsum_nonneg)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1091
59002 2c8b2fb54b88 cleaning up some theorem names; remove unnecessary assumptions; more complete pmf theory hoelzl parents: 59000 diff changeset	1092	lemma setsum_ereal_left_distrib:
2c8b2fb54b88 cleaning up some theorem names; remove unnecessary assumptions; more complete pmf theory hoelzl parents: 59000 diff changeset	1093	"(\<And>i. i \<in> A \<Longrightarrow> 0 \<le> f i) \<Longrightarrow> setsum f A * r = (\<Sum>n\<in>A. f n * r :: ereal)"
2c8b2fb54b88 cleaning up some theorem names; remove unnecessary assumptions; more complete pmf theory hoelzl parents: 59000 diff changeset	1094	using setsum_ereal_right_distrib[of A f r] by (simp add: mult_ac)
2c8b2fb54b88 cleaning up some theorem names; remove unnecessary assumptions; more complete pmf theory hoelzl parents: 59000 diff changeset	1095
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1096	lemma setsum_left_distrib_ereal:
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1097	"c \<ge> 0 \<Longrightarrow> setsum f A * ereal c = (\<Sum>x\<in>A. f x * c :: ereal)"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1098	by(subst setsum_comp_morphism[where h="\<lambda>x. x * ereal c", symmetric])(simp_all add: distrib_left_ereal_nn)
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1099
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1100	lemma ereal_le_epsilon:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1101	fixes x y :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1102	assumes "\<forall>e. 0 < e \<longrightarrow> x \<le> y + e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1103	shows "x \<le> y"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1104	proof -
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1105	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1106	assume a: "\<exists>r. y = ereal r"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1107	then obtain r where r_def: "y = ereal r"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1108	by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1109	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1110	assume "x = -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1111	then have ?thesis by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1112	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1113	moreover
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1114	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1115	assume "x \<noteq> -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1116	then obtain p where p_def: "x = ereal p"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1117	using a assms[rule_format, of 1]
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1118	by (cases x) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1119	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1120	fix e
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1121	have "0 < e \<longrightarrow> p \<le> r + e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1122	using assms[rule_format, of "ereal e"] p_def r_def by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1123	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1124	then have "p \<le> r"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1125	apply (subst field_le_epsilon)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1126	apply auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1127	done
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1128	then have ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1129	using r_def p_def by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1130	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1131	ultimately have ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1132	by blast
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1133	}
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1134	moreover
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1135	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1136	assume "y = -\<infinity> \| y = \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1137	then have ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1138	using assms[rule_format, of 1] by (cases x) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1139	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1140	ultimately show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1141	by (cases y) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1142	qed
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1143
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1144	lemma ereal_le_epsilon2:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1145	fixes x y :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1146	assumes "\<forall>e. 0 < e \<longrightarrow> x \<le> y + ereal e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1147	shows "x \<le> y"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1148	proof -
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1149	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1150	fix e :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1151	assume "e > 0"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1152	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1153	assume "e = \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1154	then have "x \<le> y + e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1155	by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1156	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1157	moreover
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1158	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1159	assume "e \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1160	then obtain r where "e = ereal r"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1161	using \<open>e > 0\<close> by (cases e) auto
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1162	then have "x \<le> y + e"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1163	using assms[rule_format, of r] \<open>e>0\<close> by auto
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1164	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1165	ultimately have "x \<le> y + e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1166	by blast
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1167	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1168	then show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1169	using ereal_le_epsilon by auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1170	qed
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1171
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1172	lemma ereal_le_real:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1173	fixes x y :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1174	assumes "\<forall>z. x \<le> ereal z \<longrightarrow> y \<le> ereal z"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1175	shows "y \<le> x"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1176	by (metis assms ereal_bot ereal_cases ereal_infty_less_eq(2) ereal_less_eq(1) linorder_le_cases)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1177
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1178	lemma setprod_ereal_0:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1179	fixes f :: "'a \<Rightarrow> ereal"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1180	shows "(\<Prod>i\<in>A. f i) = 0 \<longleftrightarrow> finite A \<and> (\<exists>i\<in>A. f i = 0)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1181	proof (cases "finite A")
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1182	case True
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1183	then show ?thesis by (induct A) auto
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1184	next
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1185	case False
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1186	then show ?thesis by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1187	qed
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1188
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1189	lemma setprod_ereal_pos:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1190	fixes f :: "'a \<Rightarrow> ereal"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1191	assumes pos: "\<And>i. i \<in> I \<Longrightarrow> 0 \<le> f i"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1192	shows "0 \<le> (\<Prod>i\<in>I. f i)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1193	proof (cases "finite I")
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1194	case True
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1195	from this pos show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1196	by induct auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1197	next
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1198	case False
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1199	then show ?thesis by simp
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1200	qed
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1201
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1202	lemma setprod_PInf:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1203	fixes f :: "'a \<Rightarrow> ereal"
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1204	assumes "\<And>i. i \<in> I \<Longrightarrow> 0 \<le> f i"
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1205	shows "(\<Prod>i\<in>I. f i) = \<infinity> \<longleftrightarrow> finite I \<and> (\<exists>i\<in>I. f i = \<infinity>) \<and> (\<forall>i\<in>I. f i \<noteq> 0)"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1206	proof (cases "finite I")
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1207	case True
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1208	from this assms show ?thesis
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1209	proof (induct I)
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1210	case (insert i I)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1211	then have pos: "0 \<le> f i" "0 \<le> setprod f I"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1212	by (auto intro!: setprod_ereal_pos)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1213	from insert have "(\<Prod>j\<in>insert i I. f j) = \<infinity> \<longleftrightarrow> setprod f I * f i = \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1214	by auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1215	also have "\<dots> \<longleftrightarrow> (setprod f I = \<infinity> \<or> f i = \<infinity>) \<and> f i \<noteq> 0 \<and> setprod f I \<noteq> 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1216	using setprod_ereal_pos[of I f] pos
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1217	by (cases rule: ereal2_cases[of "f i" "setprod f I"]) auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1218	also have "\<dots> \<longleftrightarrow> finite (insert i I) \<and> (\<exists>j\<in>insert i I. f j = \<infinity>) \<and> (\<forall>j\<in>insert i I. f j \<noteq> 0)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1219	using insert by (auto simp: setprod_ereal_0)
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1220	finally show ?case .
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1221	qed simp
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1222	next
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1223	case False
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1224	then show ?thesis by simp
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1225	qed
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1226
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1227	lemma setprod_ereal: "(\<Prod>i\<in>A. ereal (f i)) = ereal (setprod f A)"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1228	proof (cases "finite A")
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1229	case True
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1230	then show ?thesis
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1231	by induct (auto simp: one_ereal_def)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1232	next
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1233	case False
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1234	then show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1235	by (simp add: one_ereal_def)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1236	qed
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1237
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1238
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1239	subsubsection \<open>Power\<close>
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1240
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1241	lemma ereal_power[simp]: "(ereal x) ^ n = ereal (x^n)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1242	by (induct n) (auto simp: one_ereal_def)
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1243
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1244	lemma ereal_power_PInf[simp]: "(\<infinity>::ereal) ^ n = (if n = 0 then 1 else \<infinity>)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1245	by (induct n) (auto simp: one_ereal_def)
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1246
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1247	lemma ereal_power_uminus[simp]:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1248	fixes x :: ereal
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1249	shows "(- x) ^ n = (if even n then x ^ n else - (x^n))"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1250	by (induct n) (auto simp: one_ereal_def)
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1251
47108 2a1953f0d20d merged fork with new numeral representation (see NEWS) huffman parents: 47082 diff changeset	1252	lemma ereal_power_numeral[simp]:
2a1953f0d20d merged fork with new numeral representation (see NEWS) huffman parents: 47082 diff changeset	1253	"(numeral num :: ereal) ^ n = ereal (numeral num ^ n)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1254	by (induct n) (auto simp: one_ereal_def)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1255
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1256	lemma zero_le_power_ereal[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1257	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1258	assumes "0 \<le> a"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1259	shows "0 \<le> a ^ n"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1260	using assms by (induct n) (auto simp: ereal_zero_le_0_iff)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1261
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1262
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1263	subsubsection \<open>Subtraction\<close>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1264
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1265	lemma ereal_minus_minus_image[simp]:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1266	fixes S :: "ereal set"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1267	shows "uminus ` uminus ` S = S"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1268	by (auto simp: image_iff)
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1269
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1270	lemma ereal_uminus_lessThan[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1271	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1272	shows "uminus ` {..<a} = {-a<..}"
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	1273	proof -
737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	1274	{
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1275	fix x
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1276	assume "-a < x"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1277	then have "- x < - (- a)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1278	by (simp del: ereal_uminus_uminus)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1279	then have "- x < a"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1280	by simp
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	1281	}
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1282	then show ?thesis
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1283	by force
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	1284	qed
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1285
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1286	lemma ereal_uminus_greaterThan[simp]: "uminus ` {(a::ereal)<..} = {..<-a}"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1287	by (metis ereal_uminus_lessThan ereal_uminus_uminus ereal_minus_minus_image)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1288
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1289	instantiation ereal :: minus
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1290	begin
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1291
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1292	definition "x - y = x + -(y::ereal)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1293	instance ..
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1294
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1295	end
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1296
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1297	lemma ereal_minus[simp]:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1298	"ereal r - ereal p = ereal (r - p)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1299	"-\<infinity> - ereal r = -\<infinity>"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1300	"ereal r - \<infinity> = -\<infinity>"
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1301	"(\<infinity>::ereal) - x = \<infinity>"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1302	"-(\<infinity>::ereal) - \<infinity> = -\<infinity>"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1303	"x - -y = x + y"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1304	"x - 0 = x"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1305	"0 - x = -x"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1306	by (simp_all add: minus_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1307
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1308	lemma ereal_x_minus_x[simp]: "x - x = (if \<bar>x\<bar> = \<infinity> then \<infinity> else 0::ereal)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1309	by (cases x) simp_all
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1310
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1311	lemma ereal_eq_minus_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1312	fixes x y z :: ereal
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1313	shows "x = z - y \<longleftrightarrow>
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	1314	(\<bar>y\<bar> \<noteq> \<infinity> \<longrightarrow> x + y = z) \<and>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1315	(y = -\<infinity> \<longrightarrow> x = \<infinity>) \<and>
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1316	(y = \<infinity> \<longrightarrow> z = \<infinity> \<longrightarrow> x = \<infinity>) \<and>
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1317	(y = \<infinity> \<longrightarrow> z \<noteq> \<infinity> \<longrightarrow> x = -\<infinity>)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1318	by (cases rule: ereal3_cases[of x y z]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1319
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1320	lemma ereal_eq_minus:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1321	fixes x y z :: ereal
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	1322	shows "\<bar>y\<bar> \<noteq> \<infinity> \<Longrightarrow> x = z - y \<longleftrightarrow> x + y = z"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1323	by (auto simp: ereal_eq_minus_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1324
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1325	lemma ereal_less_minus_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1326	fixes x y z :: ereal
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1327	shows "x < z - y \<longleftrightarrow>
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1328	(y = \<infinity> \<longrightarrow> z = \<infinity> \<and> x \<noteq> \<infinity>) \<and>
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1329	(y = -\<infinity> \<longrightarrow> x \<noteq> \<infinity>) \<and>
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	1330	(\<bar>y\<bar> \<noteq> \<infinity>\<longrightarrow> x + y < z)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1331	by (cases rule: ereal3_cases[of x y z]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1332
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1333	lemma ereal_less_minus:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1334	fixes x y z :: ereal
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	1335	shows "\<bar>y\<bar> \<noteq> \<infinity> \<Longrightarrow> x < z - y \<longleftrightarrow> x + y < z"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1336	by (auto simp: ereal_less_minus_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1337
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1338	lemma ereal_le_minus_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1339	fixes x y z :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1340	shows "x \<le> z - y \<longleftrightarrow> (y = \<infinity> \<longrightarrow> z \<noteq> \<infinity> \<longrightarrow> x = -\<infinity>) \<and> (\<bar>y\<bar> \<noteq> \<infinity> \<longrightarrow> x + y \<le> z)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1341	by (cases rule: ereal3_cases[of x y z]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1342
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1343	lemma ereal_le_minus:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1344	fixes x y z :: ereal
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	1345	shows "\<bar>y\<bar> \<noteq> \<infinity> \<Longrightarrow> x \<le> z - y \<longleftrightarrow> x + y \<le> z"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1346	by (auto simp: ereal_le_minus_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1347
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1348	lemma ereal_minus_less_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1349	fixes x y z :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1350	shows "x - y < z \<longleftrightarrow> y \<noteq> -\<infinity> \<and> (y = \<infinity> \<longrightarrow> x \<noteq> \<infinity> \<and> z \<noteq> -\<infinity>) \<and> (y \<noteq> \<infinity> \<longrightarrow> x < z + y)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1351	by (cases rule: ereal3_cases[of x y z]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1352
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1353	lemma ereal_minus_less:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1354	fixes x y z :: ereal
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	1355	shows "\<bar>y\<bar> \<noteq> \<infinity> \<Longrightarrow> x - y < z \<longleftrightarrow> x < z + y"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1356	by (auto simp: ereal_minus_less_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1357
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1358	lemma ereal_minus_le_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1359	fixes x y z :: ereal
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1360	shows "x - y \<le> z \<longleftrightarrow>
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1361	(y = -\<infinity> \<longrightarrow> z = \<infinity>) \<and>
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1362	(y = \<infinity> \<longrightarrow> x = \<infinity> \<longrightarrow> z = \<infinity>) \<and>
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	1363	(\<bar>y\<bar> \<noteq> \<infinity> \<longrightarrow> x \<le> z + y)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1364	by (cases rule: ereal3_cases[of x y z]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1365
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1366	lemma ereal_minus_le:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1367	fixes x y z :: ereal
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	1368	shows "\<bar>y\<bar> \<noteq> \<infinity> \<Longrightarrow> x - y \<le> z \<longleftrightarrow> x \<le> z + y"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1369	by (auto simp: ereal_minus_le_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1370
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1371	lemma ereal_minus_eq_minus_iff:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1372	fixes a b c :: ereal
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1373	shows "a - b = a - c \<longleftrightarrow>
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1374	b = c \<or> a = \<infinity> \<or> (a = -\<infinity> \<and> b \<noteq> -\<infinity> \<and> c \<noteq> -\<infinity>)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1375	by (cases rule: ereal3_cases[of a b c]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1376
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1377	lemma ereal_add_le_add_iff:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1378	fixes a b c :: ereal
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1379	shows "c + a \<le> c + b \<longleftrightarrow>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1380	a \<le> b \<or> c = \<infinity> \<or> (c = -\<infinity> \<and> a \<noteq> \<infinity> \<and> b \<noteq> \<infinity>)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1381	by (cases rule: ereal3_cases[of a b c]) (simp_all add: field_simps)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1382
59023 4999a616336c register pmf as BNF Andreas Lochbihler parents: 59002 diff changeset	1383	lemma ereal_add_le_add_iff2:
4999a616336c register pmf as BNF Andreas Lochbihler parents: 59002 diff changeset	1384	fixes a b c :: ereal
4999a616336c register pmf as BNF Andreas Lochbihler parents: 59002 diff changeset	1385	shows "a + c \<le> b + c \<longleftrightarrow> a \<le> b \<or> c = \<infinity> \<or> (c = -\<infinity> \<and> a \<noteq> \<infinity> \<and> b \<noteq> \<infinity>)"
4999a616336c register pmf as BNF Andreas Lochbihler parents: 59002 diff changeset	1386	by(cases rule: ereal3_cases[of a b c])(simp_all add: field_simps)
4999a616336c register pmf as BNF Andreas Lochbihler parents: 59002 diff changeset	1387
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1388	lemma ereal_mult_le_mult_iff:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1389	fixes a b c :: ereal
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1390	shows "\<bar>c\<bar> \<noteq> \<infinity> \<Longrightarrow> c * a \<le> c * b \<longleftrightarrow> (0 < c \<longrightarrow> a \<le> b) \<and> (c < 0 \<longrightarrow> b \<le> a)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1391	by (cases rule: ereal3_cases[of a b c]) (simp_all add: mult_le_cancel_left)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1392
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1393	lemma ereal_minus_mono:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1394	fixes A B C D :: ereal assumes "A \<le> B" "D \<le> C"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1395	shows "A - C \<le> B - D"
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1396	using assms
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1397	by (cases rule: ereal3_cases[case_product ereal_cases, of A B C D]) simp_all
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1398
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1399	lemma real_of_ereal_minus:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1400	fixes a b :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	1401	shows "real_of_ereal (a - b) = (if \<bar>a\<bar> = \<infinity> \<or> \<bar>b\<bar> = \<infinity> then 0 else real_of_ereal a - real_of_ereal b)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1402	by (cases rule: ereal2_cases[of a b]) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1403
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	1404	lemma real_of_ereal_minus': "\<bar>x\<bar> = \<infinity> \<longleftrightarrow> \<bar>y\<bar> = \<infinity> \<Longrightarrow> real_of_ereal x - real_of_ereal y = real_of_ereal (x - y :: ereal)"
60060 3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1405	by(subst real_of_ereal_minus) auto
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1406
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1407	lemma ereal_diff_positive:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1408	fixes a b :: ereal shows "a \<le> b \<Longrightarrow> 0 \<le> b - a"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1409	by (cases rule: ereal2_cases[of a b]) auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1410
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1411	lemma ereal_between:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1412	fixes x e :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1413	assumes "\<bar>x\<bar> \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1414	and "0 < e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1415	shows "x - e < x"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1416	and "x < x + e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1417	using assms
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1418	apply (cases x, cases e)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1419	apply auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1420	using assms
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1421	apply (cases x, cases e)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1422	apply auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1423	done
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1424
50104 de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	1425	lemma ereal_minus_eq_PInfty_iff:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1426	fixes x y :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1427	shows "x - y = \<infinity> \<longleftrightarrow> y = -\<infinity> \<or> x = \<infinity>"
50104 de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	1428	by (cases x y rule: ereal2_cases) simp_all
de19856feb54 move theorems to be more generally useable hoelzl parents: 47108 diff changeset	1429
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1430	lemma ereal_diff_add_eq_diff_diff_swap:
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	1431	fixes x y z :: ereal
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1432	shows "\<bar>y\<bar> \<noteq> \<infinity> \<Longrightarrow> x - (y + z) = x - y - z"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1433	by(cases x y z rule: ereal3_cases) simp_all
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1434
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1435	lemma ereal_diff_add_assoc2:
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1436	fixes x y z :: ereal
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1437	shows "x + y - z = x - z + y"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1438	by(cases x y z rule: ereal3_cases) simp_all
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1439
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1440	lemma ereal_add_uminus_conv_diff: fixes x y z :: ereal shows "- x + y = y - x"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1441	by(cases x y rule: ereal2_cases) simp_all
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1442
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	1443	lemma ereal_minus_diff_eq:
c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	1444	fixes x y :: ereal
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1445	shows "\<lbrakk> x = \<infinity> \<longrightarrow> y \<noteq> \<infinity>; x = -\<infinity> \<longrightarrow> y \<noteq> - \<infinity> \<rbrakk> \<Longrightarrow> - (x - y) = y - x"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1446	by(cases x y rule: ereal2_cases) simp_all
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1447
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1448	lemma ediff_le_self [simp]: "x - y \<le> (x :: enat)"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1449	by(cases x y rule: enat.exhaust[case_product enat.exhaust]) simp_all
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1450
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1451	subsubsection \<open>Division\<close>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1452
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1453	instantiation ereal :: inverse
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1454	begin
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1455
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1456	function inverse_ereal where
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1457	"inverse (ereal r) = (if r = 0 then \<infinity> else ereal (inverse r))"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1458	\| "inverse (\<infinity>::ereal) = 0"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1459	\| "inverse (-\<infinity>::ereal) = 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1460	by (auto intro: ereal_cases)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1461	termination by (relation "{}") simp
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1462
60429 d3d1e185cd63 uniform _ div _ as infix syntax for ring division haftmann parents: 60352 diff changeset	1463	definition "x div y = x * inverse (y :: ereal)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1464
47082 737d7bc8e50f tuned proofs; wenzelm parents: 45934 diff changeset	1465	instance ..
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1466
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1467	end
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1468
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1469	lemma real_of_ereal_inverse[simp]:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1470	fixes a :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	1471	shows "real_of_ereal (inverse a) = 1 / real_of_ereal a"
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1472	by (cases a) (auto simp: inverse_eq_divide)
6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	1473
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1474	lemma ereal_inverse[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1475	"inverse (0::ereal) = \<infinity>"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1476	"inverse (1::ereal) = 1"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1477	by (simp_all add: one_ereal_def zero_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1478
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1479	lemma ereal_divide[simp]:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1480	"ereal r / ereal p = (if p = 0 then ereal r * \<infinity> else ereal (r / p))"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1481	unfolding divide_ereal_def by (auto simp: divide_real_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1482
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1483	lemma ereal_divide_same[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1484	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1485	shows "x / x = (if \<bar>x\<bar> = \<infinity> \<or> x = 0 then 0 else 1)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1486	by (cases x) (simp_all add: divide_real_def divide_ereal_def one_ereal_def)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1487
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1488	lemma ereal_inv_inv[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1489	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1490	shows "inverse (inverse x) = (if x \<noteq> -\<infinity> then x else \<infinity>)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1491	by (cases x) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1492
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1493	lemma ereal_inverse_minus[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1494	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1495	shows "inverse (- x) = (if x = 0 then \<infinity> else -inverse x)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1496	by (cases x) simp_all
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1497
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1498	lemma ereal_uminus_divide[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1499	fixes x y :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1500	shows "- x / y = - (x / y)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1501	unfolding divide_ereal_def by simp
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1502
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1503	lemma ereal_divide_Infty[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1504	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1505	shows "x / \<infinity> = 0" "x / -\<infinity> = 0"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1506	unfolding divide_ereal_def by simp_all
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1507
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1508	lemma ereal_divide_one[simp]: "x / 1 = (x::ereal)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1509	unfolding divide_ereal_def by simp
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1510
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1511	lemma ereal_divide_ereal[simp]: "\<infinity> / ereal r = (if 0 \<le> r then \<infinity> else -\<infinity>)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1512	unfolding divide_ereal_def by simp
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1513
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1514	lemma ereal_inverse_nonneg_iff: "0 \<le> inverse (x :: ereal) \<longleftrightarrow> 0 \<le> x \<or> x = -\<infinity>"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1515	by (cases x) auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1516
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1517	lemma inverse_ereal_ge0I: "0 \<le> (x :: ereal) \<Longrightarrow> 0 \<le> inverse x"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1518	by(cases x) simp_all
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	1519
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1520	lemma zero_le_divide_ereal[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1521	fixes a :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1522	assumes "0 \<le> a"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1523	and "0 \<le> b"
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1524	shows "0 \<le> a / b"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1525	using assms by (cases rule: ereal2_cases[of a b]) (auto simp: zero_le_divide_iff)
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1526
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1527	lemma ereal_le_divide_pos:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1528	fixes x y z :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1529	shows "x > 0 \<Longrightarrow> x \<noteq> \<infinity> \<Longrightarrow> y \<le> z / x \<longleftrightarrow> x * y \<le> z"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1530	by (cases rule: ereal3_cases[of x y z]) (auto simp: field_simps)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1531
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1532	lemma ereal_divide_le_pos:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1533	fixes x y z :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1534	shows "x > 0 \<Longrightarrow> x \<noteq> \<infinity> \<Longrightarrow> z / x \<le> y \<longleftrightarrow> z \<le> x * y"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1535	by (cases rule: ereal3_cases[of x y z]) (auto simp: field_simps)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1536
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1537	lemma ereal_le_divide_neg:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1538	fixes x y z :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1539	shows "x < 0 \<Longrightarrow> x \<noteq> -\<infinity> \<Longrightarrow> y \<le> z / x \<longleftrightarrow> z \<le> x * y"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1540	by (cases rule: ereal3_cases[of x y z]) (auto simp: field_simps)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1541
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1542	lemma ereal_divide_le_neg:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1543	fixes x y z :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1544	shows "x < 0 \<Longrightarrow> x \<noteq> -\<infinity> \<Longrightarrow> z / x \<le> y \<longleftrightarrow> x * y \<le> z"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1545	by (cases rule: ereal3_cases[of x y z]) (auto simp: field_simps)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1546
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1547	lemma ereal_inverse_antimono_strict:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1548	fixes x y :: ereal
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1549	shows "0 \<le> x \<Longrightarrow> x < y \<Longrightarrow> inverse y < inverse x"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1550	by (cases rule: ereal2_cases[of x y]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1551
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1552	lemma ereal_inverse_antimono:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1553	fixes x y :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1554	shows "0 \<le> x \<Longrightarrow> x \<le> y \<Longrightarrow> inverse y \<le> inverse x"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1555	by (cases rule: ereal2_cases[of x y]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1556
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1557	lemma inverse_inverse_Pinfty_iff[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1558	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1559	shows "inverse x = \<infinity> \<longleftrightarrow> x = 0"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1560	by (cases x) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1561
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1562	lemma ereal_inverse_eq_0:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1563	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1564	shows "inverse x = 0 \<longleftrightarrow> x = \<infinity> \<or> x = -\<infinity>"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1565	by (cases x) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1566
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1567	lemma ereal_0_gt_inverse:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1568	fixes x :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1569	shows "0 < inverse x \<longleftrightarrow> x \<noteq> \<infinity> \<and> 0 \<le> x"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1570	by (cases x) auto
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1571
60060 3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1572	lemma ereal_inverse_le_0_iff:
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1573	fixes x :: ereal
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1574	shows "inverse x \<le> 0 \<longleftrightarrow> x < 0 \<or> x = \<infinity>"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1575	by(cases x) auto
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1576
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1577	lemma ereal_divide_eq_0_iff: "x / y = 0 \<longleftrightarrow> x = 0 \<or> \<bar>y :: ereal\<bar> = \<infinity>"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1578	by(cases x y rule: ereal2_cases) simp_all
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	1579
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1580	lemma ereal_mult_less_right:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1581	fixes a b c :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1582	assumes "b * a < c * a"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1583	and "0 < a"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1584	and "a < \<infinity>"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1585	shows "b < c"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1586	using assms
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1587	by (cases rule: ereal3_cases[of a b c])
62390 842917225d56 more canonical names nipkow parents: 62378 diff changeset	1588	(auto split: if_split_asm simp: zero_less_mult_iff zero_le_mult_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1589
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1590	lemma ereal_mult_divide: fixes a b :: ereal shows "0 < b \<Longrightarrow> b < \<infinity> \<Longrightarrow> b * (a / b) = a"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1591	by (cases a b rule: ereal2_cases) auto
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1592
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1593	lemma ereal_power_divide:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1594	fixes x y :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1595	shows "y \<noteq> 0 \<Longrightarrow> (x / y) ^ n = x^n / y^n"
58787 af9eb5e566dd eliminated redundancies; haftmann parents: 58310 diff changeset	1596	by (cases rule: ereal2_cases [of x y])
af9eb5e566dd eliminated redundancies; haftmann parents: 58310 diff changeset	1597	(auto simp: one_ereal_def zero_ereal_def power_divide zero_le_power_eq)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1598
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1599	lemma ereal_le_mult_one_interval:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1600	fixes x y :: ereal
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1601	assumes y: "y \<noteq> -\<infinity>"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1602	assumes z: "\<And>z. 0 < z \<Longrightarrow> z < 1 \<Longrightarrow> z * x \<le> y"
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1603	shows "x \<le> y"
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1604	proof (cases x)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1605	case PInf
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1606	with z[of "1 / 2"] show "x \<le> y"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1607	by (simp add: one_ereal_def)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1608	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1609	case (real r)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1610	note r = this
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1611	show "x \<le> y"
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1612	proof (cases y)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1613	case (real p)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1614	note p = this
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1615	have "r \<le> p"
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1616	proof (rule field_le_mult_one_interval)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1617	fix z :: real
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1618	assume "0 < z" and "z < 1"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1619	with z[of "ereal z"] show "z * r \<le> p"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1620	using p r by (auto simp: zero_le_mult_iff one_ereal_def)
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1621	qed
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1622	then show "x \<le> y"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1623	using p r by simp
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1624	qed (insert y, simp_all)
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	1625	qed simp
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	1626
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1627	lemma ereal_divide_right_mono[simp]:
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1628	fixes x y z :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1629	assumes "x \<le> y"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1630	and "0 < z"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1631	shows "x / z \<le> y / z"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1632	using assms by (cases x y z rule: ereal3_cases) (auto intro: divide_right_mono)
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1633
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1634	lemma ereal_divide_left_mono[simp]:
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1635	fixes x y z :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1636	assumes "y \<le> x"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1637	and "0 < z"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1638	and "0 < x * y"
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1639	shows "z / x \<le> z / y"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1640	using assms
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1641	by (cases x y z rule: ereal3_cases)
62390 842917225d56 more canonical names nipkow parents: 62378 diff changeset	1642	(auto intro: divide_left_mono simp: field_simps zero_less_mult_iff mult_less_0_iff split: if_split_asm)
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1643
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1644	lemma ereal_divide_zero_left[simp]:
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1645	fixes a :: ereal
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1646	shows "0 / a = 0"
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1647	by (cases a) (auto simp: zero_ereal_def)
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1648
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1649	lemma ereal_times_divide_eq_left[simp]:
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1650	fixes a b c :: ereal
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1651	shows "b / c * a = b * a / c"
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1652	by (cases a b c rule: ereal3_cases) (auto simp: field_simps zero_less_mult_iff mult_less_0_iff)
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	1653
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1654	lemma ereal_times_divide_eq: "a * (b / c :: ereal) = a * b / c"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1655	by (cases a b c rule: ereal3_cases)
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	1656	(auto simp: field_simps zero_less_mult_iff)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1657
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	1658	lemma ereal_inverse_real: "\<bar>z\<bar> \<noteq> \<infinity> \<Longrightarrow> z \<noteq> 0 \<Longrightarrow> ereal (inverse (real_of_ereal z)) = inverse z"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	1659	by (cases z) simp_all
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	1660
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	1661	lemma ereal_inverse_mult:
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	1662	"a \<noteq> 0 \<Longrightarrow> b \<noteq> 0 \<Longrightarrow> inverse (a * (b::ereal)) = inverse a * inverse b"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	1663	by (cases a; cases b) auto
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	1664
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	1665
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1666	subsection "Complete lattice"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1667
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1668	instantiation ereal :: lattice
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1669	begin
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1670
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1671	definition [simp]: "sup x y = (max x y :: ereal)"
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1672	definition [simp]: "inf x y = (min x y :: ereal)"
60679 ade12ef2773c tuned proofs; wenzelm parents: 60637 diff changeset	1673	instance by standard simp_all
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1674
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1675	end
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1676
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1677	instantiation ereal :: complete_lattice
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1678	begin
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1679
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1680	definition "bot = (-\<infinity>::ereal)"
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1681	definition "top = (\<infinity>::ereal)"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1682
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1683	definition "Sup S = (SOME x :: ereal. (\<forall>y\<in>S. y \<le> x) \<and> (\<forall>z. (\<forall>y\<in>S. y \<le> z) \<longrightarrow> x \<le> z))"
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1684	definition "Inf S = (SOME x :: ereal. (\<forall>y\<in>S. x \<le> y) \<and> (\<forall>z. (\<forall>y\<in>S. z \<le> y) \<longrightarrow> z \<le> x))"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1685
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1686	lemma ereal_complete_Sup:
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1687	fixes S :: "ereal set"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1688	shows "\<exists>x. (\<forall>y\<in>S. y \<le> x) \<and> (\<forall>z. (\<forall>y\<in>S. y \<le> z) \<longrightarrow> x \<le> z)"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1689	proof (cases "\<exists>x. \<forall>a\<in>S. a \<le> ereal x")
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1690	case True
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1691	then obtain y where y: "\<And>a. a\<in>S \<Longrightarrow> a \<le> ereal y"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1692	by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1693	then have "\<infinity> \<notin> S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1694	by force
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1695	show ?thesis
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1696	proof (cases "S \<noteq> {-\<infinity>} \<and> S \<noteq> {}")
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1697	case True
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1698	with \<open>\<infinity> \<notin> S\<close> obtain x where x: "x \<in> S" "\<bar>x\<bar> \<noteq> \<infinity>"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1699	by auto
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1700	obtain s where s: "\<forall>x\<in>ereal -` S. x \<le> s" "\<And>z. (\<forall>x\<in>ereal -` S. x \<le> z) \<Longrightarrow> s \<le> z"
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1701	proof (atomize_elim, rule complete_real)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1702	show "\<exists>x. x \<in> ereal -` S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1703	using x by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1704	show "\<exists>z. \<forall>x\<in>ereal -` S. x \<le> z"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1705	by (auto dest: y intro!: exI[of _ y])
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1706	qed
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1707	show ?thesis
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1708	proof (safe intro!: exI[of _ "ereal s"])
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1709	fix y
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1710	assume "y \<in> S"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1711	with s \<open>\<infinity> \<notin> S\<close> show "y \<le> ereal s"
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1712	by (cases y) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1713	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1714	fix z
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1715	assume "\<forall>y\<in>S. y \<le> z"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1716	with \<open>S \<noteq> {-\<infinity>} \<and> S \<noteq> {}\<close> show "ereal s \<le> z"
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1717	by (cases z) (auto intro!: s)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1718	qed
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1719	next
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1720	case False
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1721	then show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1722	by (auto intro!: exI[of _ "-\<infinity>"])
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1723	qed
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1724	next
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1725	case False
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1726	then show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1727	by (fastforce intro!: exI[of _ \<infinity>] ereal_top intro: order_trans dest: less_imp_le simp: not_le)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1728	qed
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1729
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1730	lemma ereal_complete_uminus_eq:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1731	fixes S :: "ereal set"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1732	shows "(\<forall>y\<in>uminus`S. y \<le> x) \<and> (\<forall>z. (\<forall>y\<in>uminus`S. y \<le> z) \<longrightarrow> x \<le> z)
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1733	\<longleftrightarrow> (\<forall>y\<in>S. -x \<le> y) \<and> (\<forall>z. (\<forall>y\<in>S. z \<le> y) \<longrightarrow> z \<le> -x)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1734	by simp (metis ereal_minus_le_minus ereal_uminus_uminus)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1735
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1736	lemma ereal_complete_Inf:
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1737	"\<exists>x. (\<forall>y\<in>S::ereal set. x \<le> y) \<and> (\<forall>z. (\<forall>y\<in>S. z \<le> y) \<longrightarrow> z \<le> x)"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1738	using ereal_complete_Sup[of "uminus ` S"]
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1739	unfolding ereal_complete_uminus_eq
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1740	by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1741
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1742	instance
52729 412c9e0381a1 factored syntactic type classes for bot and top (by Alessandro Coglio) haftmann parents: 51775 diff changeset	1743	proof
412c9e0381a1 factored syntactic type classes for bot and top (by Alessandro Coglio) haftmann parents: 51775 diff changeset	1744	show "Sup {} = (bot::ereal)"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1745	apply (auto simp: bot_ereal_def Sup_ereal_def)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1746	apply (rule some1_equality)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1747	apply (metis ereal_bot ereal_less_eq(2))
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1748	apply (metis ereal_less_eq(2))
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1749	done
52729 412c9e0381a1 factored syntactic type classes for bot and top (by Alessandro Coglio) haftmann parents: 51775 diff changeset	1750	show "Inf {} = (top::ereal)"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1751	apply (auto simp: top_ereal_def Inf_ereal_def)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1752	apply (rule some1_equality)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1753	apply (metis ereal_top ereal_less_eq(1))
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1754	apply (metis ereal_less_eq(1))
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1755	done
52729 412c9e0381a1 factored syntactic type classes for bot and top (by Alessandro Coglio) haftmann parents: 51775 diff changeset	1756	qed (auto intro: someI2_ex ereal_complete_Sup ereal_complete_Inf
412c9e0381a1 factored syntactic type classes for bot and top (by Alessandro Coglio) haftmann parents: 51775 diff changeset	1757	simp: Sup_ereal_def Inf_ereal_def bot_ereal_def top_ereal_def)
43941 481566bc20e4 ereal is a complete_linorder instance haftmann parents: 43933 diff changeset	1758
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1759	end
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1760
43941 481566bc20e4 ereal is a complete_linorder instance haftmann parents: 43933 diff changeset	1761	instance ereal :: complete_linorder ..
481566bc20e4 ereal is a complete_linorder instance haftmann parents: 43933 diff changeset	1762
51775 408d937c9486 revert #916271d52466; add non-topological linear_continuum type class; show linear_continuum_topology is a perfect_space hoelzl parents: 51774 diff changeset	1763	instance ereal :: linear_continuum
408d937c9486 revert #916271d52466; add non-topological linear_continuum type class; show linear_continuum_topology is a perfect_space hoelzl parents: 51774 diff changeset	1764	proof
408d937c9486 revert #916271d52466; add non-topological linear_continuum type class; show linear_continuum_topology is a perfect_space hoelzl parents: 51774 diff changeset	1765	show "\<exists>a b::ereal. a \<noteq> b"
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1766	using zero_neq_one by blast
51775 408d937c9486 revert #916271d52466; add non-topological linear_continuum type class; show linear_continuum_topology is a perfect_space hoelzl parents: 51774 diff changeset	1767	qed
60720 8c99fa3b7c44 add continuous_onI_mono hoelzl parents: 60679 diff changeset	1768
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1769	subsubsection "Topological space"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1770
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1771	instantiation ereal :: linear_continuum_topology
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1772	begin
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1773
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1774	definition "open_ereal" :: "ereal set \<Rightarrow> bool" where
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1775	open_ereal_generated: "open_ereal = generate_topology (range lessThan \<union> range greaterThan)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1776
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1777	instance
60679 ade12ef2773c tuned proofs; wenzelm parents: 60637 diff changeset	1778	by standard (simp add: open_ereal_generated)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1779
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1780	end
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1781
60720 8c99fa3b7c44 add continuous_onI_mono hoelzl parents: 60679 diff changeset	1782	lemma continuous_on_ereal[continuous_intros]:
8c99fa3b7c44 add continuous_onI_mono hoelzl parents: 60679 diff changeset	1783	assumes f: "continuous_on s f" shows "continuous_on s (\<lambda>x. ereal (f x))"
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	1784	by (rule continuous_on_compose2 [OF continuous_onI_mono[of ereal UNIV] f]) auto
60720 8c99fa3b7c44 add continuous_onI_mono hoelzl parents: 60679 diff changeset	1785
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1786	lemma tendsto_ereal[tendsto_intros, simp, intro]: "(f \<longlongrightarrow> x) F \<Longrightarrow> ((\<lambda>x. ereal (f x)) \<longlongrightarrow> ereal x) F"
60720 8c99fa3b7c44 add continuous_onI_mono hoelzl parents: 60679 diff changeset	1787	using isCont_tendsto_compose[of x ereal f F] continuous_on_ereal[of UNIV "\<lambda>x. x"]
8c99fa3b7c44 add continuous_onI_mono hoelzl parents: 60679 diff changeset	1788	by (simp add: continuous_on_eq_continuous_at)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1789
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1790	lemma tendsto_uminus_ereal[tendsto_intros, simp, intro]: "(f \<longlongrightarrow> x) F \<Longrightarrow> ((\<lambda>x. - f x::ereal) \<longlongrightarrow> - x) F"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1791	apply (rule tendsto_compose[where g=uminus])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1792	apply (auto intro!: order_tendstoI simp: eventually_at_topological)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1793	apply (rule_tac x="{..< -a}" in exI)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1794	apply (auto split: ereal.split simp: ereal_less_uminus_reorder) []
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1795	apply (rule_tac x="{- a <..}" in exI)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1796	apply (auto split: ereal.split simp: ereal_uminus_reorder) []
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1797	done
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1798
61245 b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	1799	lemma at_infty_ereal_eq_at_top: "at \<infinity> = filtermap ereal at_top"
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	1800	unfolding filter_eq_iff eventually_at_filter eventually_at_top_linorder eventually_filtermap
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	1801	top_ereal_def[symmetric]
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	1802	apply (subst eventually_nhds_top[of 0])
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	1803	apply (auto simp: top_ereal_def less_le ereal_all_split ereal_ex_split)
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	1804	apply (metis PInfty_neq_ereal(2) ereal_less_eq(3) ereal_top le_cases order_trans)
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	1805	done
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	1806
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1807	lemma ereal_Lim_uminus: "(f \<longlongrightarrow> f0) net \<longleftrightarrow> ((\<lambda>x. - f x::ereal) \<longlongrightarrow> - f0) net"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1808	using tendsto_uminus_ereal[of f f0 net] tendsto_uminus_ereal[of "\<lambda>x. - f x" "- f0" net]
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1809	by auto
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1810
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1811	lemma ereal_divide_less_iff: "0 < (c::ereal) \<Longrightarrow> c < \<infinity> \<Longrightarrow> a / c < b \<longleftrightarrow> a < b * c"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1812	by (cases a b c rule: ereal3_cases) (auto simp: field_simps)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1813
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1814	lemma ereal_less_divide_iff: "0 < (c::ereal) \<Longrightarrow> c < \<infinity> \<Longrightarrow> a < b / c \<longleftrightarrow> a * c < b"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1815	by (cases a b c rule: ereal3_cases) (auto simp: field_simps)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1816
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1817	lemma tendsto_cmult_ereal[tendsto_intros, simp, intro]:
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1818	assumes c: "\<bar>c\<bar> \<noteq> \<infinity>" and f: "(f \<longlongrightarrow> x) F" shows "((\<lambda>x. c * f x::ereal) \<longlongrightarrow> c * x) F"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1819	proof -
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1820	{ fix c :: ereal assume "0 < c" "c < \<infinity>"
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1821	then have "((\<lambda>x. c * f x::ereal) \<longlongrightarrow> c * x) F"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1822	apply (intro tendsto_compose[OF _ f])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1823	apply (auto intro!: order_tendstoI simp: eventually_at_topological)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1824	apply (rule_tac x="{a/c <..}" in exI)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1825	apply (auto split: ereal.split simp: ereal_divide_less_iff mult.commute) []
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1826	apply (rule_tac x="{..< a/c}" in exI)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1827	apply (auto split: ereal.split simp: ereal_less_divide_iff mult.commute) []
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1828	done }
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1829	note * = this
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1830
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1831	have "((0 < c \<and> c < \<infinity>) \<or> (-\<infinity> < c \<and> c < 0) \<or> c = 0)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1832	using c by (cases c) auto
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1833	then show ?thesis
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1834	proof (elim disjE conjE)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1835	assume "- \<infinity> < c" "c < 0"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1836	then have "0 < - c" "- c < \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1837	by (auto simp: ereal_uminus_reorder ereal_less_uminus_reorder[of 0])
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1838	then have "((\<lambda>x. (- c) * f x) \<longlongrightarrow> (- c) * x) F"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1839	by (rule *)
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	1840	from tendsto_uminus_ereal[OF this] show ?thesis
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1841	by simp
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1842	qed (auto intro!: *)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1843	qed
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1844
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1845	lemma tendsto_cmult_ereal_not_0[tendsto_intros, simp, intro]:
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1846	assumes "x \<noteq> 0" and f: "(f \<longlongrightarrow> x) F" shows "((\<lambda>x. c * f x::ereal) \<longlongrightarrow> c * x) F"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1847	proof cases
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1848	assume "\<bar>c\<bar> = \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1849	show ?thesis
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1850	proof (rule filterlim_cong[THEN iffD1, OF refl refl _ tendsto_const])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1851	have "0 < x \<or> x < 0"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1852	using \<open>x \<noteq> 0\<close> by (auto simp add: neq_iff)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1853	then show "eventually (\<lambda>x'. c * x = c * f x') F"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1854	proof
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1855	assume "0 < x" from order_tendstoD(1)[OF f this] show ?thesis
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1856	by eventually_elim (insert \<open>0<x\<close> \<open>\<bar>c\<bar> = \<infinity>\<close>, auto)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1857	next
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1858	assume "x < 0" from order_tendstoD(2)[OF f this] show ?thesis
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	1859	by eventually_elim (insert \<open>x<0\<close> \<open>\<bar>c\<bar> = \<infinity>\<close>, auto)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1860	qed
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1861	qed
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1862	qed (rule tendsto_cmult_ereal[OF _ f])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1863
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1864	lemma tendsto_cadd_ereal[tendsto_intros, simp, intro]:
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1865	assumes c: "y \<noteq> - \<infinity>" "x \<noteq> - \<infinity>" and f: "(f \<longlongrightarrow> x) F" shows "((\<lambda>x. f x + y::ereal) \<longlongrightarrow> x + y) F"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1866	apply (intro tendsto_compose[OF _ f])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1867	apply (auto intro!: order_tendstoI simp: eventually_at_topological)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1868	apply (rule_tac x="{a - y <..}" in exI)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1869	apply (auto split: ereal.split simp: ereal_minus_less_iff c) []
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1870	apply (rule_tac x="{..< a - y}" in exI)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1871	apply (auto split: ereal.split simp: ereal_less_minus_iff c) []
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1872	done
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1873
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1874	lemma tendsto_add_left_ereal[tendsto_intros, simp, intro]:
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	1875	assumes c: "\<bar>y\<bar> \<noteq> \<infinity>" and f: "(f \<longlongrightarrow> x) F" shows "((\<lambda>x. f x + y::ereal) \<longlongrightarrow> x + y) F"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1876	apply (intro tendsto_compose[OF _ f])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1877	apply (auto intro!: order_tendstoI simp: eventually_at_topological)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1878	apply (rule_tac x="{a - y <..}" in exI)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1879	apply (insert c, auto split: ereal.split simp: ereal_minus_less_iff) []
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1880	apply (rule_tac x="{..< a - y}" in exI)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1881	apply (auto split: ereal.split simp: ereal_less_minus_iff c) []
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1882	done
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1883
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1884	lemma continuous_at_ereal[continuous_intros]: "continuous F f \<Longrightarrow> continuous F (\<lambda>x. ereal (f x))"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1885	unfolding continuous_def by auto
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1886
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1887	lemma ereal_Sup:
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1888	assumes *: "\<bar>SUP a:A. ereal a\<bar> \<noteq> \<infinity>"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1889	shows "ereal (Sup A) = (SUP a:A. ereal a)"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1890	proof (rule continuous_at_Sup_mono)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1891	obtain r where r: "ereal r = (SUP a:A. ereal a)" "A \<noteq> {}"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1892	using * by (force simp: bot_ereal_def)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1893	then show "bdd_above A" "A \<noteq> {}"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1894	by (auto intro!: SUP_upper bdd_aboveI[of _ r] simp add: ereal_less_eq(3)[symmetric] simp del: ereal_less_eq)
60762 bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60720 diff changeset	1895	qed (auto simp: mono_def continuous_at_imp_continuous_at_within continuous_at_ereal)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1896
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1897	lemma ereal_SUP: "\<bar>SUP a:A. ereal (f a)\<bar> \<noteq> \<infinity> \<Longrightarrow> ereal (SUP a:A. f a) = (SUP a:A. ereal (f a))"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1898	using ereal_Sup[of "f`A"] by auto
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1899
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1900	lemma ereal_Inf:
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1901	assumes *: "\<bar>INF a:A. ereal a\<bar> \<noteq> \<infinity>"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1902	shows "ereal (Inf A) = (INF a:A. ereal a)"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1903	proof (rule continuous_at_Inf_mono)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1904	obtain r where r: "ereal r = (INF a:A. ereal a)" "A \<noteq> {}"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1905	using * by (force simp: top_ereal_def)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1906	then show "bdd_below A" "A \<noteq> {}"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1907	by (auto intro!: INF_lower bdd_belowI[of _ r] simp add: ereal_less_eq(3)[symmetric] simp del: ereal_less_eq)
60762 bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60720 diff changeset	1908	qed (auto simp: mono_def continuous_at_imp_continuous_at_within continuous_at_ereal)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1909
62083 7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1910	lemma ereal_Inf':
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1911	assumes *: "bdd_below A" "A \<noteq> {}"
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1912	shows "ereal (Inf A) = (INF a:A. ereal a)"
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1913	proof (rule ereal_Inf)
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1914	from * obtain l u where "\<And>x. x \<in> A \<Longrightarrow> l \<le> x" "u \<in> A"
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1915	by (auto simp: bdd_below_def)
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1916	then have "l \<le> (INF x:A. ereal x)" "(INF x:A. ereal x) \<le> u"
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1917	by (auto intro!: INF_greatest INF_lower)
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1918	then show "\<bar>INF a:A. ereal a\<bar> \<noteq> \<infinity>"
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1919	by auto
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1920	qed
7582b39f51ed add the proof of the central limit theorem hoelzl parents: 62049 diff changeset	1921
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1922	lemma ereal_INF: "\<bar>INF a:A. ereal (f a)\<bar> \<noteq> \<infinity> \<Longrightarrow> ereal (INF a:A. f a) = (INF a:A. ereal (f a))"
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1923	using ereal_Inf[of "f`A"] by auto
c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	1924
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1925	lemma ereal_Sup_uminus_image_eq: "Sup (uminus ` S::ereal set) = - Inf S"
56166 9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1926	by (auto intro!: SUP_eqI
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1927	simp: Ball_def[symmetric] ereal_uminus_le_reorder le_Inf_iff
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1928	intro!: complete_lattice_class.Inf_lower2)
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1929
56166 9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1930	lemma ereal_SUP_uminus_eq:
9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1931	fixes f :: "'a \<Rightarrow> ereal"
9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1932	shows "(SUP x:S. uminus (f x)) = - (INF x:S. f x)"
9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1933	using ereal_Sup_uminus_image_eq [of "f ` S"] by (simp add: comp_def)
9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1934
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1935	lemma ereal_inj_on_uminus[intro, simp]: "inj_on uminus (A :: ereal set)"
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1936	by (auto intro!: inj_onI)
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1937
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1938	lemma ereal_Inf_uminus_image_eq: "Inf (uminus ` S::ereal set) = - Sup S"
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1939	using ereal_Sup_uminus_image_eq[of "uminus ` S"] by simp
4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1940
56166 9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1941	lemma ereal_INF_uminus_eq:
9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1942	fixes f :: "'a \<Rightarrow> ereal"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1943	shows "(INF x:S. - f x) = - (SUP x:S. f x)"
56166 9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1944	using ereal_Inf_uminus_image_eq [of "f ` S"] by (simp add: comp_def)
9a241bc276cd normalising simp rules for compound operators haftmann parents: 55913 diff changeset	1945
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1946	lemma ereal_SUP_uminus:
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1947	fixes f :: "'a \<Rightarrow> ereal"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1948	shows "(SUP i : R. - f i) = - (INF i : R. f i)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1949	using ereal_Sup_uminus_image_eq[of "f`R"]
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1950	by (simp add: image_image)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	1951
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1952	lemma ereal_SUP_not_infty:
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1953	fixes f :: "_ \<Rightarrow> ereal"
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	1954	shows "A \<noteq> {} \<Longrightarrow> l \<noteq> -\<infinity> \<Longrightarrow> u \<noteq> \<infinity> \<Longrightarrow> \<forall>a\<in>A. l \<le> f a \<and> f a \<le> u \<Longrightarrow> \<bar>SUPREMUM A f\<bar> \<noteq> \<infinity>"
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1955	using SUP_upper2[of _ A l f] SUP_least[of A f u]
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	1956	by (cases "SUPREMUM A f") auto
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1957
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1958	lemma ereal_INF_not_infty:
7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1959	fixes f :: "_ \<Rightarrow> ereal"
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	1960	shows "A \<noteq> {} \<Longrightarrow> l \<noteq> -\<infinity> \<Longrightarrow> u \<noteq> \<infinity> \<Longrightarrow> \<forall>a\<in>A. l \<le> f a \<and> f a \<le> u \<Longrightarrow> \<bar>INFIMUM A f\<bar> \<noteq> \<infinity>"
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1961	using INF_lower2[of _ A f u] INF_greatest[of A l f]
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	1962	by (cases "INFIMUM A f") auto
54416 7fb88ed6ff3c better support for enat and ereal conversions hoelzl parents: 54408 diff changeset	1963
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1964	lemma ereal_image_uminus_shift:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1965	fixes X Y :: "ereal set"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1966	shows "uminus ` X = Y \<longleftrightarrow> X = uminus ` Y"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1967	proof
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1968	assume "uminus ` X = Y"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1969	then have "uminus ` uminus ` X = uminus ` Y"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1970	by (simp add: inj_image_eq_iff)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1971	then show "X = uminus ` Y"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1972	by (simp add: image_image)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1973	qed (simp add: image_image)
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1974
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1975	lemma Sup_eq_MInfty:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1976	fixes S :: "ereal set"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1977	shows "Sup S = -\<infinity> \<longleftrightarrow> S = {} \<or> S = {-\<infinity>}"
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1978	unfolding bot_ereal_def[symmetric] by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1979
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1980	lemma Inf_eq_PInfty:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1981	fixes S :: "ereal set"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1982	shows "Inf S = \<infinity> \<longleftrightarrow> S = {} \<or> S = {\<infinity>}"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1983	using Sup_eq_MInfty[of "uminus`S"]
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1984	unfolding ereal_Sup_uminus_image_eq ereal_image_uminus_shift by simp
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1985
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1986	lemma Inf_eq_MInfty:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1987	fixes S :: "ereal set"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1988	shows "-\<infinity> \<in> S \<Longrightarrow> Inf S = -\<infinity>"
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1989	unfolding bot_ereal_def[symmetric] by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1990
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	1991	lemma Sup_eq_PInfty:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1992	fixes S :: "ereal set"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	1993	shows "\<infinity> \<in> S \<Longrightarrow> Sup S = \<infinity>"
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	1994	unfolding top_ereal_def[symmetric] by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	1995
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	1996	lemma not_MInfty_nonneg[simp]: "0 \<le> (x::ereal) \<Longrightarrow> x \<noteq> - \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	1997	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	1998
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	1999	lemma Sup_ereal_close:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2000	fixes e :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2001	assumes "0 < e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2002	and S: "\<bar>Sup S\<bar> \<noteq> \<infinity>" "S \<noteq> {}"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2003	shows "\<exists>x\<in>S. Sup S - e < x"
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	2004	using assms by (cases e) (auto intro!: less_Sup_iff[THEN iffD1])
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2005
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2006	lemma Inf_ereal_close:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2007	fixes e :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2008	assumes "\<bar>Inf X\<bar> \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2009	and "0 < e"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2010	shows "\<exists>x\<in>X. x < Inf X + e"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2011	proof (rule Inf_less_iff[THEN iffD1])
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2012	show "Inf X < Inf X + e"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2013	using assms by (cases e) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2014	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2015
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	2016	lemma SUP_PInfty:
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2017	"(\<And>n::nat. \<exists>i\<in>A. ereal (real n) \<le> f i) \<Longrightarrow> (SUP i:A. f i :: ereal) = \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2018	unfolding top_ereal_def[symmetric] SUP_eq_top_iff
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2019	by (metis MInfty_neq_PInfty(2) PInfty_neq_ereal(2) less_PInf_Ex_of_nat less_ereal.elims(2) less_le_trans)
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	2020
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2021	lemma SUP_nat_Infty: "(SUP i::nat. ereal (real i)) = \<infinity>"
59425 c5e79df8cc21 import general thms from Density_Compiler hoelzl parents: 59115 diff changeset	2022	by (rule SUP_PInfty) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2023
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2024	lemma SUP_ereal_add_left:
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2025	assumes "I \<noteq> {}" "c \<noteq> -\<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2026	shows "(SUP i:I. f i + c :: ereal) = (SUP i:I. f i) + c"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2027	proof cases
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2028	assume "(SUP i:I. f i) = - \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2029	moreover then have "\<And>i. i \<in> I \<Longrightarrow> f i = -\<infinity>"
62343 24106dc44def prefer abbreviations for compound operators INFIMUM and SUPREMUM haftmann parents: 62101 diff changeset	2030	unfolding Sup_eq_MInfty by auto
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2031	ultimately show ?thesis
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2032	by (cases c) (auto simp: \<open>I \<noteq> {}\<close>)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2033	next
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2034	assume "(SUP i:I. f i) \<noteq> - \<infinity>" then show ?thesis
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2035	by (subst continuous_at_Sup_mono[where f="\<lambda>x. x + c"])
60762 bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60720 diff changeset	2036	(auto simp: continuous_at_imp_continuous_at_within continuous_at mono_def ereal_add_mono \<open>I \<noteq> {}\<close> \<open>c \<noteq> -\<infinity>\<close>)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2037	qed
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2038
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2039	lemma SUP_ereal_add_right:
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2040	fixes c :: ereal
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2041	shows "I \<noteq> {} \<Longrightarrow> c \<noteq> -\<infinity> \<Longrightarrow> (SUP i:I. c + f i) = c + (SUP i:I. f i)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2042	using SUP_ereal_add_left[of I c f] by (simp add: add.commute)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2043
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2044	lemma SUP_ereal_minus_right:
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2045	assumes "I \<noteq> {}" "c \<noteq> -\<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2046	shows "(SUP i:I. c - f i :: ereal) = c - (INF i:I. f i)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2047	using SUP_ereal_add_right[OF assms, of "\<lambda>i. - f i"]
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2048	by (simp add: ereal_SUP_uminus minus_ereal_def)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2049
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2050	lemma SUP_ereal_minus_left:
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2051	assumes "I \<noteq> {}" "c \<noteq> \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2052	shows "(SUP i:I. f i - c:: ereal) = (SUP i:I. f i) - c"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2053	using SUP_ereal_add_left[OF \<open>I \<noteq> {}\<close>, of "-c" f] by (simp add: \<open>c \<noteq> \<infinity>\<close> minus_ereal_def)
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2054
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2055	lemma INF_ereal_minus_right:
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2056	assumes "I \<noteq> {}" and "\<bar>c\<bar> \<noteq> \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2057	shows "(INF i:I. c - f i) = c - (SUP i:I. f i::ereal)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2058	proof -
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2059	{ fix b have "(-c) + b = - (c - b)"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2060	using \<open>\<bar>c\<bar> \<noteq> \<infinity>\<close> by (cases c b rule: ereal2_cases) auto }
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2061	note * = this
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2062	show ?thesis
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2063	using SUP_ereal_add_right[OF \<open>I \<noteq> {}\<close>, of "-c" f] \<open>\<bar>c\<bar> \<noteq> \<infinity>\<close>
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2064	by (auto simp add: * ereal_SUP_uminus_eq)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2065	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2066
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2067	lemma SUP_ereal_le_addI:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2068	fixes f :: "'i \<Rightarrow> ereal"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2069	assumes "\<And>i. f i + y \<le> z" and "y \<noteq> -\<infinity>"
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	2070	shows "SUPREMUM UNIV f + y \<le> z"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2071	unfolding SUP_ereal_add_left[OF UNIV_not_empty \<open>y \<noteq> -\<infinity>\<close>, symmetric]
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2072	by (rule SUP_least assms)+
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2073
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2074	lemma SUP_combine:
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2075	fixes f :: "'a::semilattice_sup \<Rightarrow> 'a::semilattice_sup \<Rightarrow> 'b::complete_lattice"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2076	assumes mono: "\<And>a b c d. a \<le> b \<Longrightarrow> c \<le> d \<Longrightarrow> f a c \<le> f b d"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2077	shows "(SUP i:UNIV. SUP j:UNIV. f i j) = (SUP i. f i i)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2078	proof (rule antisym)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2079	show "(SUP i j. f i j) \<le> (SUP i. f i i)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2080	by (rule SUP_least SUP_upper2[where i="sup i j" for i j] UNIV_I mono sup_ge1 sup_ge2)+
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2081	show "(SUP i. f i i) \<le> (SUP i j. f i j)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2082	by (rule SUP_least SUP_upper2 UNIV_I mono order_refl)+
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2083	qed
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	2084
56212 3253aaf73a01 consolidated theorem names containing INFI and SUPR: have INF and SUP instead uniformly haftmann parents: 56166 diff changeset	2085	lemma SUP_ereal_add:
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2086	fixes f g :: "nat \<Rightarrow> ereal"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2087	assumes inc: "incseq f" "incseq g"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2088	and pos: "\<And>i. f i \<noteq> -\<infinity>" "\<And>i. g i \<noteq> -\<infinity>"
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	2089	shows "(SUP i. f i + g i) = SUPREMUM UNIV f + SUPREMUM UNIV g"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2090	apply (subst SUP_ereal_add_left[symmetric, OF UNIV_not_empty])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2091	apply (metis SUP_upper UNIV_I assms(4) ereal_infty_less_eq(2))
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2092	apply (subst (2) add.commute)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2093	apply (subst SUP_ereal_add_left[symmetric, OF UNIV_not_empty assms(3)])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2094	apply (subst (2) add.commute)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2095	apply (rule SUP_combine[symmetric] ereal_add_mono inc[THEN monoD] \| assumption)+
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2096	done
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2097
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2098	lemma INF_ereal_add:
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2099	fixes f :: "nat \<Rightarrow> ereal"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2100	assumes "decseq f" "decseq g"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2101	and fin: "\<And>i. f i \<noteq> \<infinity>" "\<And>i. g i \<noteq> \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2102	shows "(INF i. f i + g i) = INFIMUM UNIV f + INFIMUM UNIV g"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2103	proof -
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2104	have INF_less: "(INF i. f i) < \<infinity>" "(INF i. g i) < \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2105	using assms unfolding INF_less_iff by auto
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2106	{ fix a b :: ereal assume "a \<noteq> \<infinity>" "b \<noteq> \<infinity>"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2107	then have "- ((- a) + (- b)) = a + b"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2108	by (cases a b rule: ereal2_cases) auto }
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2109	note * = this
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2110	have "(INF i. f i + g i) = (INF i. - ((- f i) + (- g i)))"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2111	by (simp add: fin *)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2112	also have "\<dots> = INFIMUM UNIV f + INFIMUM UNIV g"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2113	unfolding ereal_INF_uminus_eq
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2114	using assms INF_less
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2115	by (subst SUP_ereal_add) (auto simp: ereal_SUP_uminus fin *)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2116	finally show ?thesis .
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2117	qed
41978 656298577a33 add infinite sums and power on extreal hoelzl parents: 41977 diff changeset	2118
56212 3253aaf73a01 consolidated theorem names containing INFI and SUPR: have INF and SUP instead uniformly haftmann parents: 56166 diff changeset	2119	lemma SUP_ereal_add_pos:
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2120	fixes f g :: "nat \<Rightarrow> ereal"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2121	assumes inc: "incseq f" "incseq g"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2122	and pos: "\<And>i. 0 \<le> f i" "\<And>i. 0 \<le> g i"
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	2123	shows "(SUP i. f i + g i) = SUPREMUM UNIV f + SUPREMUM UNIV g"
56212 3253aaf73a01 consolidated theorem names containing INFI and SUPR: have INF and SUP instead uniformly haftmann parents: 56166 diff changeset	2124	proof (intro SUP_ereal_add inc)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2125	fix i
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2126	show "f i \<noteq> -\<infinity>" "g i \<noteq> -\<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2127	using pos[of i] by auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	2128	qed
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	2129
56212 3253aaf73a01 consolidated theorem names containing INFI and SUPR: have INF and SUP instead uniformly haftmann parents: 56166 diff changeset	2130	lemma SUP_ereal_setsum:
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2131	fixes f g :: "'a \<Rightarrow> nat \<Rightarrow> ereal"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2132	assumes "\<And>n. n \<in> A \<Longrightarrow> incseq (f n)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2133	and pos: "\<And>n i. n \<in> A \<Longrightarrow> 0 \<le> f n i"
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	2134	shows "(SUP i. \<Sum>n\<in>A. f n i) = (\<Sum>n\<in>A. SUPREMUM UNIV (f n))"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2135	proof (cases "finite A")
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2136	case True
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2137	then show ?thesis using assms
56212 3253aaf73a01 consolidated theorem names containing INFI and SUPR: have INF and SUP instead uniformly haftmann parents: 56166 diff changeset	2138	by induct (auto simp: incseq_setsumI2 setsum_nonneg SUP_ereal_add_pos)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2139	next
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2140	case False
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2141	then show ?thesis by simp
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2142	qed
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	2143
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2144	lemma SUP_ereal_mult_left:
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	2145	fixes f :: "'a \<Rightarrow> ereal"
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	2146	assumes "I \<noteq> {}"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2147	assumes f: "\<And>i. i \<in> I \<Longrightarrow> 0 \<le> f i" and c: "0 \<le> c"
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	2148	shows "(SUP i:I. c * f i) = c * (SUP i:I. f i)"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2149	proof cases
60060 3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2150	assume "(SUP i: I. f i) = 0"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2151	moreover then have "\<And>i. i \<in> I \<Longrightarrow> f i = 0"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2152	by (metis SUP_upper f antisym)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2153	ultimately show ?thesis
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2154	by simp
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	2155	next
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2156	assume "(SUP i:I. f i) \<noteq> 0" then show ?thesis
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2157	by (subst continuous_at_Sup_mono[where f="\<lambda>x. c * x"])
60762 bf0c76ccee8d new material for multivariate analysis, etc. paulson parents: 60720 diff changeset	2158	(auto simp: mono_def continuous_at continuous_at_imp_continuous_at_within \<open>I \<noteq> {}\<close>
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2159	intro!: ereal_mult_left_mono c)
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	2160	qed
6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	2161
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	2162	lemma countable_approach:
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2163	fixes x :: ereal
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2164	assumes "x \<noteq> -\<infinity>"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2165	shows "\<exists>f. incseq f \<and> (\<forall>i::nat. f i < x) \<and> (f \<longlonglongrightarrow> x)"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2166	proof (cases x)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2167	case (real r)
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2168	moreover have "(\<lambda>n. r - inverse (real (Suc n))) \<longlonglongrightarrow> r - 0"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2169	by (intro tendsto_intros LIMSEQ_inverse_real_of_nat)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2170	ultimately show ?thesis
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2171	by (intro exI[of _ "\<lambda>n. x - inverse (Suc n)"]) (auto simp: incseq_def)
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	2172	next
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2173	case PInf with LIMSEQ_SUP[of "\<lambda>n::nat. ereal (real n)"] show ?thesis
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2174	by (intro exI[of _ "\<lambda>n. ereal (real n)"]) (auto simp: incseq_def SUP_nat_Infty)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2175	qed (simp add: assms)
59000 6eb0725503fc import general theorems from AFP/Markov_Models hoelzl parents: 58881 diff changeset	2176
56212 3253aaf73a01 consolidated theorem names containing INFI and SUPR: have INF and SUP instead uniformly haftmann parents: 56166 diff changeset	2177	lemma Sup_countable_SUP:
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	2178	assumes "A \<noteq> {}"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2179	shows "\<exists>f::nat \<Rightarrow> ereal. incseq f \<and> range f \<subseteq> A \<and> Sup A = (SUP i. f i)"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2180	proof cases
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2181	assume "Sup A = -\<infinity>"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2182	with \<open>A \<noteq> {}\<close> have "A = {-\<infinity>}"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2183	by (auto simp: Sup_eq_MInfty)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2184	then show ?thesis
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2185	by (auto intro!: exI[of _ "\<lambda>_. -\<infinity>"] simp: bot_ereal_def)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2186	next
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2187	assume "Sup A \<noteq> -\<infinity>"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2188	then obtain l where "incseq l" and l: "\<And>i::nat. l i < Sup A" and l_Sup: "l \<longlonglongrightarrow> Sup A"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2189	by (auto dest: countable_approach)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2190
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2191	have "\<exists>f. \<forall>n. (f n \<in> A \<and> l n \<le> f n) \<and> (f n \<le> f (Suc n))"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2192	proof (rule dependent_nat_choice)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2193	show "\<exists>x. x \<in> A \<and> l 0 \<le> x"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2194	using l[of 0] by (auto simp: less_Sup_iff)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2195	next
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2196	fix x n assume "x \<in> A \<and> l n \<le> x"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2197	moreover from l[of "Suc n"] obtain y where "y \<in> A" "l (Suc n) < y"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2198	by (auto simp: less_Sup_iff)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2199	ultimately show "\<exists>y. (y \<in> A \<and> l (Suc n) \<le> y) \<and> x \<le> y"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2200	by (auto intro!: exI[of _ "max x y"] split: split_max)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2201	qed
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2202	then guess f .. note f = this
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2203	then have "range f \<subseteq> A" "incseq f"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2204	by (auto simp: incseq_Suc_iff)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2205	moreover
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2206	have "(SUP i. f i) = Sup A"
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2207	proof (rule tendsto_unique)
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2208	show "f \<longlonglongrightarrow> (SUP i. f i)"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2209	by (rule LIMSEQ_SUP \<open>incseq f\<close>)+
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2210	show "f \<longlonglongrightarrow> Sup A"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2211	using l f
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2212	by (intro tendsto_sandwich[OF _ _ l_Sup tendsto_const])
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2213	(auto simp: Sup_upper)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2214	qed simp
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2215	ultimately show ?thesis
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2216	by auto
41979 b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	2217	qed
b10ec1f5e9d5 lemmas about addition, SUP on countable sets and infinite sums for extreal hoelzl parents: 41978 diff changeset	2218
56212 3253aaf73a01 consolidated theorem names containing INFI and SUPR: have INF and SUP instead uniformly haftmann parents: 56166 diff changeset	2219	lemma SUP_countable_SUP:
56218 1c3f1f2431f9 elongated INFI and SUPR, to reduced risk of confusing theorems names in the future while still being consistent with INTER and UNION haftmann parents: 56212 diff changeset	2220	"A \<noteq> {} \<Longrightarrow> \<exists>f::nat \<Rightarrow> ereal. range f \<subseteq> g`A \<and> SUPREMUM A g = SUPREMUM UNIV f"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2221	using Sup_countable_SUP [of "g`A"] by auto
42950 6e5c2a3c69da move lemmas to Extended_Reals and Extended_Real_Limits hoelzl parents: 42600 diff changeset	2222
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2223	subsection "Relation to @{typ enat}"
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2224
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2225	definition "ereal_of_enat n = (case n of enat n \<Rightarrow> ereal (real n) \| \<infinity> \<Rightarrow> \<infinity>)"
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2226
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2227	declare [[coercion "ereal_of_enat :: enat \<Rightarrow> ereal"]]
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2228	declare [[coercion "(\<lambda>n. ereal (real n)) :: nat \<Rightarrow> ereal"]]
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2229
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2230	lemma ereal_of_enat_simps[simp]:
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2231	"ereal_of_enat (enat n) = ereal n"
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2232	"ereal_of_enat \<infinity> = \<infinity>"
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2233	by (simp_all add: ereal_of_enat_def)
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2234
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2235	lemma ereal_of_enat_le_iff[simp]: "ereal_of_enat m \<le> ereal_of_enat n \<longleftrightarrow> m \<le> n"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2236	by (cases m n rule: enat2_cases) auto
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2237
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2238	lemma ereal_of_enat_less_iff[simp]: "ereal_of_enat m < ereal_of_enat n \<longleftrightarrow> m < n"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2239	by (cases m n rule: enat2_cases) auto
50819 5601ae592679 added some ereal_of_enat_* lemmas (from $AFP/thys/Girth_Chromatic) noschinl parents: 50104 diff changeset	2240
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2241	lemma numeral_le_ereal_of_enat_iff[simp]: "numeral m \<le> ereal_of_enat n \<longleftrightarrow> numeral m \<le> n"
59587 8ea7b22525cb Removed the obsolete functions "natfloor" and "natceiling" nipkow parents: 59452 diff changeset	2242	by (cases n) (auto)
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2243
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2244	lemma numeral_less_ereal_of_enat_iff[simp]: "numeral m < ereal_of_enat n \<longleftrightarrow> numeral m < n"
56889 48a745e1bde7 avoid the Complex constructor, use the more natural Re/Im view; moved csqrt to Complex. hoelzl parents: 56537 diff changeset	2245	by (cases n) auto
50819 5601ae592679 added some ereal_of_enat_* lemmas (from $AFP/thys/Girth_Chromatic) noschinl parents: 50104 diff changeset	2246
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2247	lemma ereal_of_enat_ge_zero_cancel_iff[simp]: "0 \<le> ereal_of_enat n \<longleftrightarrow> 0 \<le> n"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2248	by (cases n) (auto simp: enat_0[symmetric])
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2249
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2250	lemma ereal_of_enat_gt_zero_cancel_iff[simp]: "0 < ereal_of_enat n \<longleftrightarrow> 0 < n"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2251	by (cases n) (auto simp: enat_0[symmetric])
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2252
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2253	lemma ereal_of_enat_zero[simp]: "ereal_of_enat 0 = 0"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2254	by (auto simp: enat_0[symmetric])
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2255
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2256	lemma ereal_of_enat_inf[simp]: "ereal_of_enat n = \<infinity> \<longleftrightarrow> n = \<infinity>"
50819 5601ae592679 added some ereal_of_enat_* lemmas (from $AFP/thys/Girth_Chromatic) noschinl parents: 50104 diff changeset	2257	by (cases n) auto
5601ae592679 added some ereal_of_enat_* lemmas (from $AFP/thys/Girth_Chromatic) noschinl parents: 50104 diff changeset	2258
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2259	lemma ereal_of_enat_add: "ereal_of_enat (m + n) = ereal_of_enat m + ereal_of_enat n"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2260	by (cases m n rule: enat2_cases) auto
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2261
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2262	lemma ereal_of_enat_sub:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2263	assumes "n \<le> m"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2264	shows "ereal_of_enat (m - n) = ereal_of_enat m - ereal_of_enat n "
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2265	using assms by (cases m n rule: enat2_cases) auto
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2266
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2267	lemma ereal_of_enat_mult:
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2268	"ereal_of_enat (m * n) = ereal_of_enat m * ereal_of_enat n"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2269	by (cases m n rule: enat2_cases) auto
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2270
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2271	lemmas ereal_of_enat_pushin = ereal_of_enat_add ereal_of_enat_sub ereal_of_enat_mult
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2272	lemmas ereal_of_enat_pushout = ereal_of_enat_pushin[symmetric]
9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2273
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	2274	lemma ereal_of_enat_nonneg: "ereal_of_enat n \<ge> 0"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	2275	by(cases n) simp_all
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	2276
60637 03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2277	lemma ereal_of_enat_Sup:
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2278	assumes "A \<noteq> {}" shows "ereal_of_enat (Sup A) = (SUP a : A. ereal_of_enat a)"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2279	proof (intro antisym mono_Sup)
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2280	show "ereal_of_enat (Sup A) \<le> (SUP a : A. ereal_of_enat a)"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2281	proof cases
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2282	assume "finite A"
61188 b34551d94934 isabelle update_cartouches; wenzelm parents: 61166 diff changeset	2283	with \<open>A \<noteq> {}\<close> obtain a where "a \<in> A" "ereal_of_enat (Sup A) = ereal_of_enat a"
60637 03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2284	using Max_in[of A] by (auto simp: Sup_enat_def simp del: Max_in)
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2285	then show ?thesis
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2286	by (auto intro: SUP_upper)
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2287	next
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2288	assume "\<not> finite A"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2289	have [simp]: "(SUP a : A. ereal_of_enat a) = top"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2290	unfolding SUP_eq_top_iff
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2291	proof safe
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2292	fix x :: ereal assume "x < top"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2293	then obtain n :: nat where "x < n"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2294	using less_PInf_Ex_of_nat top_ereal_def by auto
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2295	obtain a where "a \<in> A - enat ` {.. n}"
61188 b34551d94934 isabelle update_cartouches; wenzelm parents: 61166 diff changeset	2296	by (metis \<open>\<not> finite A\<close> all_not_in_conv finite_Diff2 finite_atMost finite_imageI finite.emptyI)
60637 03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2297	then have "a \<in> A" "ereal n \<le> ereal_of_enat a"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2298	by (auto simp: image_iff Ball_def)
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2299	(metis enat_iless enat_ord_simps(1) ereal_of_enat_less_iff ereal_of_enat_simps(1) less_le not_less)
61188 b34551d94934 isabelle update_cartouches; wenzelm parents: 61166 diff changeset	2300	with \<open>x < n\<close> show "\<exists>i\<in>A. x < ereal_of_enat i"
60637 03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2301	by (auto intro!: bexI[of _ a])
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2302	qed
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2303	show ?thesis
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2304	by simp
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2305	qed
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2306	qed (simp add: mono_def)
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2307
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2308	lemma ereal_of_enat_SUP:
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2309	"A \<noteq> {} \<Longrightarrow> ereal_of_enat (SUP a:A. f a) = (SUP a : A. ereal_of_enat (f a))"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2310	using ereal_of_enat_Sup[of "f`A"] by auto
45934 9321cd2572fe add simp rules for enat and ereal noschinl parents: 45769 diff changeset	2311
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2312	subsection "Limits on @{typ ereal}"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2313
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2314	lemma open_PInfty: "open A \<Longrightarrow> \<infinity> \<in> A \<Longrightarrow> (\<exists>x. {ereal x<..} \<subseteq> A)"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2315	unfolding open_ereal_generated
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2316	proof (induct rule: generate_topology.induct)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2317	case (Int A B)
53374 a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation; wenzelm parents: 53216 diff changeset	2318	then obtain x z where "\<infinity> \<in> A \<Longrightarrow> {ereal x <..} \<subseteq> A" "\<infinity> \<in> B \<Longrightarrow> {ereal z <..} \<subseteq> B"
a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation; wenzelm parents: 53216 diff changeset	2319	by auto
a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation; wenzelm parents: 53216 diff changeset	2320	with Int show ?case
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2321	by (intro exI[of _ "max x z"]) fastforce
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2322	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2323	case (Basis S)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2324	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2325	fix x
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2326	have "x \<noteq> \<infinity> \<Longrightarrow> \<exists>t. x \<le> ereal t"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2327	by (cases x) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2328	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2329	moreover note Basis
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2330	ultimately show ?case
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2331	by (auto split: ereal.split)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2332	qed (fastforce simp add: vimage_Union)+
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2333
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2334	lemma open_MInfty: "open A \<Longrightarrow> -\<infinity> \<in> A \<Longrightarrow> (\<exists>x. {..<ereal x} \<subseteq> A)"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2335	unfolding open_ereal_generated
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2336	proof (induct rule: generate_topology.induct)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2337	case (Int A B)
53374 a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation; wenzelm parents: 53216 diff changeset	2338	then obtain x z where "-\<infinity> \<in> A \<Longrightarrow> {..< ereal x} \<subseteq> A" "-\<infinity> \<in> B \<Longrightarrow> {..< ereal z} \<subseteq> B"
a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation; wenzelm parents: 53216 diff changeset	2339	by auto
a14d2a854c02 tuned proofs -- clarified flow of facts wrt. calculation; wenzelm parents: 53216 diff changeset	2340	with Int show ?case
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2341	by (intro exI[of _ "min x z"]) fastforce
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2342	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2343	case (Basis S)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2344	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2345	fix x
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2346	have "x \<noteq> - \<infinity> \<Longrightarrow> \<exists>t. ereal t \<le> x"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2347	by (cases x) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2348	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2349	moreover note Basis
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2350	ultimately show ?case
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2351	by (auto split: ereal.split)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2352	qed (fastforce simp add: vimage_Union)+
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2353
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2354	lemma open_ereal_vimage: "open S \<Longrightarrow> open (ereal -` S)"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2355	by (intro open_vimage continuous_intros)
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2356
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2357	lemma open_ereal: "open S \<Longrightarrow> open (ereal ` S)"
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2358	unfolding open_generated_order[where 'a=real]
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2359	proof (induct rule: generate_topology.induct)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2360	case (Basis S)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2361	moreover {
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2362	fix x
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2363	have "ereal ` {..< x} = { -\<infinity> <..< ereal x }"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2364	apply auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2365	apply (case_tac xa)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2366	apply auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2367	done
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2368	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2369	moreover {
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2370	fix x
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2371	have "ereal ` {x <..} = { ereal x <..< \<infinity> }"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2372	apply auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2373	apply (case_tac xa)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2374	apply auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2375	done
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2376	}
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2377	ultimately show ?case
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2378	by auto
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2379	qed (auto simp add: image_Union image_Int)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2380
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2381
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2382	lemma eventually_finite:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2383	fixes x :: ereal
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2384	assumes "\<bar>x\<bar> \<noteq> \<infinity>" "(f \<longlongrightarrow> x) F"
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2385	shows "eventually (\<lambda>x. \<bar>f x\<bar> \<noteq> \<infinity>) F"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2386	proof -
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2387	have "(f \<longlongrightarrow> ereal (real_of_ereal x)) F"
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2388	using assms by (cases x) auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2389	then have "eventually (\<lambda>x. f x \<in> ereal ` UNIV) F"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2390	by (rule topological_tendstoD) (auto intro: open_ereal)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2391	also have "(\<lambda>x. f x \<in> ereal ` UNIV) = (\<lambda>x. \<bar>f x\<bar> \<noteq> \<infinity>)"
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2392	by auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2393	finally show ?thesis .
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2394	qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2395
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2396
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2397	lemma open_ereal_def:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2398	"open A \<longleftrightarrow> open (ereal -` A) \<and> (\<infinity> \<in> A \<longrightarrow> (\<exists>x. {ereal x <..} \<subseteq> A)) \<and> (-\<infinity> \<in> A \<longrightarrow> (\<exists>x. {..<ereal x} \<subseteq> A))"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2399	(is "open A \<longleftrightarrow> ?rhs")
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2400	proof
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2401	assume "open A"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2402	then show ?rhs
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2403	using open_PInfty open_MInfty open_ereal_vimage by auto
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2404	next
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2405	assume "?rhs"
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2406	then obtain x y where A: "open (ereal -` A)" "\<infinity> \<in> A \<Longrightarrow> {ereal x<..} \<subseteq> A" "-\<infinity> \<in> A \<Longrightarrow> {..< ereal y} \<subseteq> A"
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2407	by auto
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2408	have *: "A = ereal ` (ereal -` A) \<union> (if \<infinity> \<in> A then {ereal x<..} else {}) \<union> (if -\<infinity> \<in> A then {..< ereal y} else {})"
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2409	using A(2,3) by auto
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2410	from open_ereal[OF A(1)] show "open A"
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2411	by (subst *) (auto simp: open_Un)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2412	qed
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2413
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2414	lemma open_PInfty2:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2415	assumes "open A"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2416	and "\<infinity> \<in> A"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2417	obtains x where "{ereal x<..} \<subseteq> A"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2418	using open_PInfty[OF assms] by auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2419
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2420	lemma open_MInfty2:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2421	assumes "open A"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2422	and "-\<infinity> \<in> A"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2423	obtains x where "{..<ereal x} \<subseteq> A"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2424	using open_MInfty[OF assms] by auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2425
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2426	lemma ereal_openE:
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2427	assumes "open A"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2428	obtains x y where "open (ereal -` A)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2429	and "\<infinity> \<in> A \<Longrightarrow> {ereal x<..} \<subseteq> A"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2430	and "-\<infinity> \<in> A \<Longrightarrow> {..<ereal y} \<subseteq> A"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2431	using assms open_ereal_def by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2432
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2433	lemmas open_ereal_lessThan = open_lessThan[where 'a=ereal]
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2434	lemmas open_ereal_greaterThan = open_greaterThan[where 'a=ereal]
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2435	lemmas ereal_open_greaterThanLessThan = open_greaterThanLessThan[where 'a=ereal]
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2436	lemmas closed_ereal_atLeast = closed_atLeast[where 'a=ereal]
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2437	lemmas closed_ereal_atMost = closed_atMost[where 'a=ereal]
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2438	lemmas closed_ereal_atLeastAtMost = closed_atLeastAtMost[where 'a=ereal]
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2439	lemmas closed_ereal_singleton = closed_singleton[where 'a=ereal]
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2440
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2441	lemma ereal_open_cont_interval:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2442	fixes S :: "ereal set"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2443	assumes "open S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2444	and "x \<in> S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2445	and "\<bar>x\<bar> \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2446	obtains e where "e > 0" and "{x-e <..< x+e} \<subseteq> S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2447	proof -
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2448	from \<open>open S\<close>
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2449	have "open (ereal -` S)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2450	by (rule ereal_openE)
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2451	then obtain e where "e > 0" and e: "\<And>y. dist y (real_of_ereal x) < e \<Longrightarrow> ereal y \<in> S"
41980 28b51effc5ed split Extended_Reals into parts for Library and Multivariate_Analysis hoelzl parents: 41979 diff changeset	2452	using assms unfolding open_dist by force
41975 d47eabd80e59 simplified definition of open_extreal hoelzl parents: 41974 diff changeset	2453	show thesis
d47eabd80e59 simplified definition of open_extreal hoelzl parents: 41974 diff changeset	2454	proof (intro that subsetI)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2455	show "0 < ereal e"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2456	using \<open>0 < e\<close> by auto
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2457	fix y
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2458	assume "y \<in> {x - ereal e<..<x + ereal e}"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2459	with assms obtain t where "y = ereal t" "dist t (real_of_ereal x) < e"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2460	by (cases y) (auto simp: dist_real_def)
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2461	then show "y \<in> S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2462	using e[of t] by auto
41975 d47eabd80e59 simplified definition of open_extreal hoelzl parents: 41974 diff changeset	2463	qed
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2464	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2465
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2466	lemma ereal_open_cont_interval2:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2467	fixes S :: "ereal set"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2468	assumes "open S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2469	and "x \<in> S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2470	and x: "\<bar>x\<bar> \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2471	obtains a b where "a < x" and "x < b" and "{a <..< b} \<subseteq> S"
53381 355a4cac5440 tuned proofs -- less guessing; wenzelm parents: 53374 diff changeset	2472	proof -
355a4cac5440 tuned proofs -- less guessing; wenzelm parents: 53374 diff changeset	2473	obtain e where "0 < e" "{x - e<..<x + e} \<subseteq> S"
355a4cac5440 tuned proofs -- less guessing; wenzelm parents: 53374 diff changeset	2474	using assms by (rule ereal_open_cont_interval)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2475	with that[of "x - e" "x + e"] ereal_between[OF x, of e]
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2476	show thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2477	by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2478	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2479
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2480	subsubsection \<open>Convergent sequences\<close>
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2481
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2482	lemma lim_real_of_ereal[simp]:
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2483	assumes lim: "(f \<longlongrightarrow> ereal x) net"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2484	shows "((\<lambda>x. real_of_ereal (f x)) \<longlongrightarrow> x) net"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2485	proof (intro topological_tendstoI)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2486	fix S
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2487	assume "open S" and "x \<in> S"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2488	then have S: "open S" "ereal x \<in> ereal ` S"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2489	by (simp_all add: inj_image_mem_iff)
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2490	show "eventually (\<lambda>x. real_of_ereal (f x) \<in> S) net"
61810 3c5040d5694a sorted out eventually_mono paulson <lp15@cam.ac.uk> parents: 61806 diff changeset	2491	by (auto intro: eventually_mono [OF lim[THEN topological_tendstoD, OF open_ereal, OF S]])
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2492	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2493
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2494	lemma lim_ereal[simp]: "((\<lambda>n. ereal (f n)) \<longlongrightarrow> ereal x) net \<longleftrightarrow> (f \<longlongrightarrow> x) net"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2495	by (auto dest!: lim_real_of_ereal)
2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2496
61880 ff4d33058566 moved some theorems from the CLT proof; reordered some theorems / notation hoelzl parents: 61810 diff changeset	2497	lemma convergent_real_imp_convergent_ereal:
ff4d33058566 moved some theorems from the CLT proof; reordered some theorems / notation hoelzl parents: 61810 diff changeset	2498	assumes "convergent a"
ff4d33058566 moved some theorems from the CLT proof; reordered some theorems / notation hoelzl parents: 61810 diff changeset	2499	shows "convergent (\<lambda>n. ereal (a n))" and "lim (\<lambda>n. ereal (a n)) = ereal (lim a)"
ff4d33058566 moved some theorems from the CLT proof; reordered some theorems / notation hoelzl parents: 61810 diff changeset	2500	proof -
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2501	from assms obtain L where L: "a \<longlonglongrightarrow> L" unfolding convergent_def ..
e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2502	hence lim: "(\<lambda>n. ereal (a n)) \<longlonglongrightarrow> ereal L" using lim_ereal by auto
61880 ff4d33058566 moved some theorems from the CLT proof; reordered some theorems / notation hoelzl parents: 61810 diff changeset	2503	thus "convergent (\<lambda>n. ereal (a n))" unfolding convergent_def ..
ff4d33058566 moved some theorems from the CLT proof; reordered some theorems / notation hoelzl parents: 61810 diff changeset	2504	thus "lim (\<lambda>n. ereal (a n)) = ereal (lim a)" using lim L limI by metis
ff4d33058566 moved some theorems from the CLT proof; reordered some theorems / notation hoelzl parents: 61810 diff changeset	2505	qed
ff4d33058566 moved some theorems from the CLT proof; reordered some theorems / notation hoelzl parents: 61810 diff changeset	2506
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2507	lemma tendsto_PInfty: "(f \<longlongrightarrow> \<infinity>) F \<longleftrightarrow> (\<forall>r. eventually (\<lambda>x. ereal r < f x) F)"
51022 78de6c7e8a58 replace open_interval with the rule open_tendstoI; generalize Liminf/Limsup rules hoelzl parents: 51000 diff changeset	2508	proof -
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2509	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2510	fix l :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2511	assume "\<forall>r. eventually (\<lambda>x. ereal r < f x) F"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2512	from this[THEN spec, of "real_of_ereal l"] have "l \<noteq> \<infinity> \<Longrightarrow> eventually (\<lambda>x. l < f x) F"
61810 3c5040d5694a sorted out eventually_mono paulson <lp15@cam.ac.uk> parents: 61806 diff changeset	2513	by (cases l) (auto elim: eventually_mono)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2514	}
51022 78de6c7e8a58 replace open_interval with the rule open_tendstoI; generalize Liminf/Limsup rules hoelzl parents: 51000 diff changeset	2515	then show ?thesis
78de6c7e8a58 replace open_interval with the rule open_tendstoI; generalize Liminf/Limsup rules hoelzl parents: 51000 diff changeset	2516	by (auto simp: order_tendsto_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2517	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2518
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2519	lemma tendsto_PInfty': "(f \<longlongrightarrow> \<infinity>) F = (\<forall>r>c. eventually (\<lambda>x. ereal r < f x) F)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2520	proof (subst tendsto_PInfty, intro iffI allI impI)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2521	assume A: "\<forall>r>c. eventually (\<lambda>x. ereal r < f x) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2522	fix r :: real
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2523	from A have A: "eventually (\<lambda>x. ereal r < f x) F" if "r > c" for r using that by blast
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2524	show "eventually (\<lambda>x. ereal r < f x) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2525	proof (cases "r > c")
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2526	case False
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2527	hence B: "ereal r \<le> ereal (c + 1)" by simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2528	have "c < c + 1" by simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2529	from A[OF this] show "eventually (\<lambda>x. ereal r < f x) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2530	by eventually_elim (rule le_less_trans[OF B])
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2531	qed (simp add: A)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2532	qed simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2533
57025 e7fd64f82876 add various lemmas hoelzl parents: 56993 diff changeset	2534	lemma tendsto_PInfty_eq_at_top:
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2535	"((\<lambda>z. ereal (f z)) \<longlongrightarrow> \<infinity>) F \<longleftrightarrow> (LIM z F. f z :> at_top)"
57025 e7fd64f82876 add various lemmas hoelzl parents: 56993 diff changeset	2536	unfolding tendsto_PInfty filterlim_at_top_dense by simp
e7fd64f82876 add various lemmas hoelzl parents: 56993 diff changeset	2537
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2538	lemma tendsto_MInfty: "(f \<longlongrightarrow> -\<infinity>) F \<longleftrightarrow> (\<forall>r. eventually (\<lambda>x. f x < ereal r) F)"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2539	unfolding tendsto_def
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2540	proof safe
53381 355a4cac5440 tuned proofs -- less guessing; wenzelm parents: 53374 diff changeset	2541	fix S :: "ereal set"
355a4cac5440 tuned proofs -- less guessing; wenzelm parents: 53374 diff changeset	2542	assume "open S" "-\<infinity> \<in> S"
355a4cac5440 tuned proofs -- less guessing; wenzelm parents: 53374 diff changeset	2543	from open_MInfty[OF this] obtain B where "{..<ereal B} \<subseteq> S" ..
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2544	moreover
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2545	assume "\<forall>r::real. eventually (\<lambda>z. f z < r) F"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2546	then have "eventually (\<lambda>z. f z \<in> {..< B}) F"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2547	by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2548	ultimately show "eventually (\<lambda>z. f z \<in> S) F"
61810 3c5040d5694a sorted out eventually_mono paulson <lp15@cam.ac.uk> parents: 61806 diff changeset	2549	by (auto elim!: eventually_mono)
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2550	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2551	fix x
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2552	assume "\<forall>S. open S \<longrightarrow> -\<infinity> \<in> S \<longrightarrow> eventually (\<lambda>x. f x \<in> S) F"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2553	from this[rule_format, of "{..< ereal x}"] show "eventually (\<lambda>y. f y < ereal x) F"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2554	by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2555	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2556
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2557	lemma tendsto_MInfty': "(f \<longlongrightarrow> -\<infinity>) F = (\<forall>r<c. eventually (\<lambda>x. ereal r > f x) F)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2558	proof (subst tendsto_MInfty, intro iffI allI impI)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2559	assume A: "\<forall>r<c. eventually (\<lambda>x. ereal r > f x) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2560	fix r :: real
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2561	from A have A: "eventually (\<lambda>x. ereal r > f x) F" if "r < c" for r using that by blast
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2562	show "eventually (\<lambda>x. ereal r > f x) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2563	proof (cases "r < c")
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2564	case False
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2565	hence B: "ereal r \<ge> ereal (c - 1)" by simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2566	have "c > c - 1" by simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2567	from A[OF this] show "eventually (\<lambda>x. ereal r > f x) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2568	by eventually_elim (erule less_le_trans[OF _ B])
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2569	qed (simp add: A)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2570	qed simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2571
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2572	lemma Lim_PInfty: "f \<longlonglongrightarrow> \<infinity> \<longleftrightarrow> (\<forall>B. \<exists>N. \<forall>n\<ge>N. f n \<ge> ereal B)"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2573	unfolding tendsto_PInfty eventually_sequentially
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2574	proof safe
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2575	fix r
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2576	assume "\<forall>r. \<exists>N. \<forall>n\<ge>N. ereal r \<le> f n"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2577	then obtain N where "\<forall>n\<ge>N. ereal (r + 1) \<le> f n"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2578	by blast
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2579	moreover have "ereal r < ereal (r + 1)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2580	by auto
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2581	ultimately show "\<exists>N. \<forall>n\<ge>N. ereal r < f n"
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2582	by (blast intro: less_le_trans)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2583	qed (blast intro: less_imp_le)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2584
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2585	lemma Lim_MInfty: "f \<longlonglongrightarrow> -\<infinity> \<longleftrightarrow> (\<forall>B. \<exists>N. \<forall>n\<ge>N. ereal B \<ge> f n)"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2586	unfolding tendsto_MInfty eventually_sequentially
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2587	proof safe
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2588	fix r
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2589	assume "\<forall>r. \<exists>N. \<forall>n\<ge>N. f n \<le> ereal r"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2590	then obtain N where "\<forall>n\<ge>N. f n \<le> ereal (r - 1)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2591	by blast
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2592	moreover have "ereal (r - 1) < ereal r"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2593	by auto
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2594	ultimately show "\<exists>N. \<forall>n\<ge>N. f n < ereal r"
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2595	by (blast intro: le_less_trans)
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2596	qed (blast intro: less_imp_le)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2597
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2598	lemma Lim_bounded_PInfty: "f \<longlonglongrightarrow> l \<Longrightarrow> (\<And>n. f n \<le> ereal B) \<Longrightarrow> l \<noteq> \<infinity>"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2599	using LIMSEQ_le_const2[of f l "ereal B"] by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2600
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2601	lemma Lim_bounded_MInfty: "f \<longlonglongrightarrow> l \<Longrightarrow> (\<And>n. ereal B \<le> f n) \<Longrightarrow> l \<noteq> -\<infinity>"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2602	using LIMSEQ_le_const[of f l "ereal B"] by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2603
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2604	lemma tendsto_zero_erealI:
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2605	assumes "\<And>e. e > 0 \<Longrightarrow> eventually (\<lambda>x. \<bar>f x\<bar> < ereal e) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2606	shows "(f \<longlongrightarrow> 0) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2607	proof (subst filterlim_cong[OF refl refl])
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2608	from assms[OF zero_less_one] show "eventually (\<lambda>x. f x = ereal (real_of_ereal (f x))) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2609	by eventually_elim (auto simp: ereal_real)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2610	hence "eventually (\<lambda>x. abs (real_of_ereal (f x)) < e) F" if "e > 0" for e using assms[OF that]
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2611	by eventually_elim (simp add: real_less_ereal_iff that)
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	2612	hence "((\<lambda>x. real_of_ereal (f x)) \<longlongrightarrow> 0) F" unfolding tendsto_iff
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2613	by (auto simp: tendsto_iff dist_real_def)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2614	thus "((\<lambda>x. ereal (real_of_ereal (f x))) \<longlongrightarrow> 0) F" by (simp add: zero_ereal_def)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2615	qed
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	2616
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2617	lemma tendsto_explicit:
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2618	"f \<longlonglongrightarrow> f0 \<longleftrightarrow> (\<forall>S. open S \<longrightarrow> f0 \<in> S \<longrightarrow> (\<exists>N. \<forall>n\<ge>N. f n \<in> S))"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2619	unfolding tendsto_def eventually_sequentially by auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2620
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2621	lemma Lim_bounded_PInfty2: "f \<longlonglongrightarrow> l \<Longrightarrow> \<forall>n\<ge>N. f n \<le> ereal B \<Longrightarrow> l \<noteq> \<infinity>"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2622	using LIMSEQ_le_const2[of f l "ereal B"] by fastforce
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2623
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2624	lemma Lim_bounded_ereal: "f \<longlonglongrightarrow> (l :: 'a::linorder_topology) \<Longrightarrow> \<forall>n\<ge>M. f n \<le> C \<Longrightarrow> l \<le> C"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2625	by (intro LIMSEQ_le_const2) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2626
51351 dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	2627	lemma Lim_bounded2_ereal:
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2628	assumes lim:"f \<longlonglongrightarrow> (l :: 'a::linorder_topology)"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2629	and ge: "\<forall>n\<ge>N. f n \<ge> C"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2630	shows "l \<ge> C"
51351 dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	2631	using ge
dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	2632	by (intro tendsto_le[OF trivial_limit_sequentially lim tendsto_const])
dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	2633	(auto simp: eventually_sequentially)
dd1dd470690b generalized lemmas in Extended_Real_Limits hoelzl parents: 51340 diff changeset	2634
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2635	lemma real_of_ereal_mult[simp]:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2636	fixes a b :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2637	shows "real_of_ereal (a * b) = real_of_ereal a * real_of_ereal b"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2638	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2639
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2640	lemma real_of_ereal_eq_0:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2641	fixes x :: ereal
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2642	shows "real_of_ereal x = 0 \<longleftrightarrow> x = \<infinity> \<or> x = -\<infinity> \<or> x = 0"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2643	by (cases x) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2644
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2645	lemma tendsto_ereal_realD:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2646	fixes f :: "'a \<Rightarrow> ereal"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2647	assumes "x \<noteq> 0"
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2648	and tendsto: "((\<lambda>x. ereal (real_of_ereal (f x))) \<longlongrightarrow> x) net"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2649	shows "(f \<longlongrightarrow> x) net"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2650	proof (intro topological_tendstoI)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2651	fix S
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2652	assume S: "open S" "x \<in> S"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2653	with \<open>x \<noteq> 0\<close> have "open (S - {0})" "x \<in> S - {0}"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2654	by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2655	from tendsto[THEN topological_tendstoD, OF this]
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2656	show "eventually (\<lambda>x. f x \<in> S) net"
44142 8e27e0177518 avoid warnings about duplicate rules huffman parents: 43943 diff changeset	2657	by (rule eventually_rev_mp) (auto simp: ereal_real)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2658	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2659
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2660	lemma tendsto_ereal_realI:
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2661	fixes f :: "'a \<Rightarrow> ereal"
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2662	assumes x: "\<bar>x\<bar> \<noteq> \<infinity>" and tendsto: "(f \<longlongrightarrow> x) net"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2663	shows "((\<lambda>x. ereal (real_of_ereal (f x))) \<longlongrightarrow> x) net"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2664	proof (intro topological_tendstoI)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2665	fix S
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2666	assume "open S" and "x \<in> S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2667	with x have "open (S - {\<infinity>, -\<infinity>})" "x \<in> S - {\<infinity>, -\<infinity>}"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2668	by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2669	from tendsto[THEN topological_tendstoD, OF this]
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2670	show "eventually (\<lambda>x. ereal (real_of_ereal (f x)) \<in> S) net"
61810 3c5040d5694a sorted out eventually_mono paulson <lp15@cam.ac.uk> parents: 61806 diff changeset	2671	by (elim eventually_mono) (auto simp: ereal_real)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2672	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2673
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2674	lemma ereal_mult_cancel_left:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2675	fixes a b c :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2676	shows "a * b = a * c \<longleftrightarrow> (\<bar>a\<bar> = \<infinity> \<and> 0 < b * c) \<or> a = 0 \<or> b = c"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2677	by (cases rule: ereal3_cases[of a b c]) (simp_all add: zero_less_mult_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2678
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2679	lemma tendsto_add_ereal:
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2680	fixes x y :: ereal
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2681	assumes x: "\<bar>x\<bar> \<noteq> \<infinity>" and y: "\<bar>y\<bar> \<noteq> \<infinity>"
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2682	assumes f: "(f \<longlongrightarrow> x) F" and g: "(g \<longlongrightarrow> y) F"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2683	shows "((\<lambda>x. f x + g x) \<longlongrightarrow> x + y) F"
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2684	proof -
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2685	from x obtain r where x': "x = ereal r" by (cases x) auto
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2686	with f have "((\<lambda>i. real_of_ereal (f i)) \<longlongrightarrow> r) F" by simp
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2687	moreover
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2688	from y obtain p where y': "y = ereal p" by (cases y) auto
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2689	with g have "((\<lambda>i. real_of_ereal (g i)) \<longlongrightarrow> p) F" by simp
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	2690	ultimately have "((\<lambda>i. real_of_ereal (f i) + real_of_ereal (g i)) \<longlongrightarrow> r + p) F"
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2691	by (rule tendsto_add)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2692	moreover
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2693	from eventually_finite[OF x f] eventually_finite[OF y g]
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2694	have "eventually (\<lambda>x. f x + g x = ereal (real_of_ereal (f x) + real_of_ereal (g x))) F"
56993 e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2695	by eventually_elim auto
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2696	ultimately show ?thesis
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2697	by (simp add: x' y' cong: filterlim_cong)
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2698	qed
e5366291d6aa introduce Bochner integral: generalizes Lebesgue integral from real-valued function to functions on real-normed vector spaces hoelzl parents: 56927 diff changeset	2699
62371 7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2700	lemma tendsto_add_ereal_nonneg:
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2701	fixes x y :: "ereal"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2702	assumes "x \<noteq> -\<infinity>" "y \<noteq> -\<infinity>" "(f \<longlongrightarrow> x) F" "(g \<longlongrightarrow> y) F"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2703	shows "((\<lambda>x. f x + g x) \<longlongrightarrow> x + y) F"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2704	proof cases
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2705	assume "x = \<infinity> \<or> y = \<infinity>"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2706	moreover
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2707	{ fix y :: ereal and f g :: "'a \<Rightarrow> ereal" assume "y \<noteq> -\<infinity>" "(f \<longlongrightarrow> \<infinity>) F" "(g \<longlongrightarrow> y) F"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2708	then obtain y' where "-\<infinity> < y'" "y' < y"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2709	using dense[of "-\<infinity>" y] by auto
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2710	have "((\<lambda>x. f x + g x) \<longlongrightarrow> \<infinity>) F"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2711	proof (rule tendsto_sandwich)
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2712	have "\<forall>\<^sub>F x in F. y' < g x"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2713	using order_tendstoD(1)[OF \<open>(g \<longlongrightarrow> y) F\<close> \<open>y' < y\<close>] by auto
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2714	then show "\<forall>\<^sub>F x in F. f x + y' \<le> f x + g x"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2715	by eventually_elim (auto intro!: add_mono)
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2716	show "\<forall>\<^sub>F n in F. f n + g n \<le> \<infinity>" "((\<lambda>n. \<infinity>) \<longlongrightarrow> \<infinity>) F"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2717	by auto
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2718	show "((\<lambda>x. f x + y') \<longlongrightarrow> \<infinity>) F"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2719	using tendsto_cadd_ereal[of y' \<infinity> f F] \<open>(f \<longlongrightarrow> \<infinity>) F\<close> \<open>-\<infinity> < y'\<close> by auto
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2720	qed }
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2721	note this[of y f g] this[of x g f]
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2722	ultimately show ?thesis
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2723	using assms by (auto simp: add_ac)
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2724	next
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2725	assume "\<not> (x = \<infinity> \<or> y = \<infinity>)"
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2726	with assms tendsto_add_ereal[of x y f F g]
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2727	show ?thesis
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2728	by auto
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2729	qed
7c288c0c7300 add tendsto_add_ereal_nonneg hoelzl parents: 62369 diff changeset	2730
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2731	lemma ereal_inj_affinity:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2732	fixes m t :: ereal
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2733	assumes "\<bar>m\<bar> \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2734	and "m \<noteq> 0"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2735	and "\<bar>t\<bar> \<noteq> \<infinity>"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2736	shows "inj_on (\<lambda>x. m * x + t) A"
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2737	using assms
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2738	by (cases rule: ereal2_cases[of m t])
cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2739	(auto intro!: inj_onI simp: ereal_add_cancel_right ereal_mult_cancel_left)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2740
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2741	lemma ereal_PInfty_eq_plus[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2742	fixes a b :: ereal
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2743	shows "\<infinity> = a + b \<longleftrightarrow> a = \<infinity> \<or> b = \<infinity>"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2744	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2745
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2746	lemma ereal_MInfty_eq_plus[simp]:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2747	fixes a b :: ereal
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2748	shows "-\<infinity> = a + b \<longleftrightarrow> (a = -\<infinity> \<and> b \<noteq> \<infinity>) \<or> (b = -\<infinity> \<and> a \<noteq> \<infinity>)"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2749	by (cases rule: ereal2_cases[of a b]) auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2750
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2751	lemma ereal_less_divide_pos:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2752	fixes x y :: ereal
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2753	shows "x > 0 \<Longrightarrow> x \<noteq> \<infinity> \<Longrightarrow> y < z / x \<longleftrightarrow> x * y < z"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2754	by (cases rule: ereal3_cases[of x y z]) (auto simp: field_simps)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2755
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2756	lemma ereal_divide_less_pos:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2757	fixes x y z :: ereal
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2758	shows "x > 0 \<Longrightarrow> x \<noteq> \<infinity> \<Longrightarrow> y / x < z \<longleftrightarrow> y < x * z"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2759	by (cases rule: ereal3_cases[of x y z]) (auto simp: field_simps)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2760
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2761	lemma ereal_divide_eq:
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2762	fixes a b c :: ereal
ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2763	shows "b \<noteq> 0 \<Longrightarrow> \<bar>b\<bar> \<noteq> \<infinity> \<Longrightarrow> a / b = c \<longleftrightarrow> a = b * c"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2764	by (cases rule: ereal3_cases[of a b c])
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2765	(simp_all add: field_simps)
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2766
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2767	lemma ereal_inverse_not_MInfty[simp]: "inverse (a::ereal) \<noteq> -\<infinity>"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2768	by (cases a) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2769
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2770	lemma ereal_mult_m1[simp]: "x * ereal (-1) = -x"
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2771	by (cases x) auto
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2772
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2773	lemma ereal_real':
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2774	assumes "\<bar>x\<bar> \<noteq> \<infinity>"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2775	shows "ereal (real_of_ereal x) = x"
41976 3fdbc7d5b525 use abs_extreal hoelzl parents: 41975 diff changeset	2776	using assms by auto
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2777
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2778	lemma real_ereal_id: "real_of_ereal \<circ> ereal = id"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2779	proof -
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2780	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2781	fix x
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2782	have "(real_of_ereal o ereal) x = id x"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2783	by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2784	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2785	then show ?thesis
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2786	using ext by blast
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2787	qed
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2788
43923 ab93d0190a5d add ereal to typeclass infinity hoelzl parents: 43920 diff changeset	2789	lemma open_image_ereal: "open(UNIV-{ \<infinity> , (-\<infinity> :: ereal)})"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2790	by (metis range_ereal open_ereal open_UNIV)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2791
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2792	lemma ereal_le_distrib:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2793	fixes a b c :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2794	shows "c * (a + b) \<le> c * a + c * b"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2795	by (cases rule: ereal3_cases[of a b c])
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2796	(auto simp add: field_simps not_le mult_le_0_iff mult_less_0_iff)
15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2797
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2798	lemma ereal_pos_distrib:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2799	fixes a b c :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2800	assumes "0 \<le> c"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2801	and "c \<noteq> \<infinity>"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2802	shows "c * (a + b) = c * a + c * b"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2803	using assms
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2804	by (cases rule: ereal3_cases[of a b c])
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2805	(auto simp add: field_simps not_le mult_le_0_iff mult_less_0_iff)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2806
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2807	lemma ereal_max_mono: "(a::ereal) \<le> b \<Longrightarrow> c \<le> d \<Longrightarrow> max a c \<le> max b d"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2808	by (metis sup_ereal_def sup_mono)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2809
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2810	lemma ereal_max_least: "(a::ereal) \<le> x \<Longrightarrow> c \<le> x \<Longrightarrow> max a c \<le> x"
43920 cedb5cb948fd Rename extreal => ereal hoelzl parents: 43138 diff changeset	2811	by (metis sup_ereal_def sup_least)
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	2812
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2813	lemma ereal_LimI_finite:
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2814	fixes x :: ereal
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2815	assumes "\<bar>x\<bar> \<noteq> \<infinity>"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2816	and "\<And>r. 0 < r \<Longrightarrow> \<exists>N. \<forall>n\<ge>N. u n < x + r \<and> x < u n + r"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2817	shows "u \<longlonglongrightarrow> x"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2818	proof (rule topological_tendstoI, unfold eventually_sequentially)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2819	obtain rx where rx: "x = ereal rx"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2820	using assms by (cases x) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2821	fix S
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2822	assume "open S" and "x \<in> S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2823	then have "open (ereal -` S)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2824	unfolding open_ereal_def by auto
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2825	with \<open>x \<in> S\<close> obtain r where "0 < r" and dist: "\<And>y. dist y rx < r \<Longrightarrow> ereal y \<in> S"
62101 26c0a70f78a3 add uniform spaces hoelzl parents: 62083 diff changeset	2826	unfolding open_dist rx by auto
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2827	then obtain n where
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2828	upper: "\<And>N. n \<le> N \<Longrightarrow> u N < x + ereal r" and
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2829	lower: "\<And>N. n \<le> N \<Longrightarrow> x < u N + ereal r"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2830	using assms(2)[of "ereal r"] by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2831	show "\<exists>N. \<forall>n\<ge>N. u n \<in> S"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2832	proof (safe intro!: exI[of _ n])
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2833	fix N
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2834	assume "n \<le> N"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2835	from upper[OF this] lower[OF this] assms \<open>0 < r\<close>
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2836	have "u N \<notin> {\<infinity>,(-\<infinity>)}"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2837	by auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2838	then obtain ra where ra_def: "(u N) = ereal ra"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2839	by (cases "u N") auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2840	then have "rx < ra + r" and "ra < rx + r"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2841	using rx assms \<open>0 < r\<close> lower[OF \<open>n \<le> N\<close>] upper[OF \<open>n \<le> N\<close>]
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2842	by auto
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	2843	then have "dist (real_of_ereal (u N)) rx < r"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2844	using rx ra_def
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2845	by (auto simp: dist_real_def abs_diff_less_iff field_simps)
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2846	from dist[OF this] show "u N \<in> S"
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2847	using \<open>u N \<notin> {\<infinity>, -\<infinity>}\<close>
62390 842917225d56 more canonical names nipkow parents: 62378 diff changeset	2848	by (auto simp: ereal_real split: if_split_asm)
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2849	qed
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2850	qed
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2851
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2852	lemma tendsto_obtains_N:
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2853	assumes "f \<longlonglongrightarrow> f0"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2854	assumes "open S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2855	and "f0 \<in> S"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2856	obtains N where "\<forall>n\<ge>N. f n \<in> S"
51329 4a3c453f99a1 split dense into inner_dense_order and no_top/no_bot hoelzl parents: 51328 diff changeset	2857	using assms using tendsto_def
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2858	using tendsto_explicit[of f f0] assms by auto
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2859
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2860	lemma ereal_LimI_finite_iff:
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2861	fixes x :: ereal
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2862	assumes "\<bar>x\<bar> \<noteq> \<infinity>"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2863	shows "u \<longlonglongrightarrow> x \<longleftrightarrow> (\<forall>r. 0 < r \<longrightarrow> (\<exists>N. \<forall>n\<ge>N. u n < x + r \<and> x < u n + r))"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2864	(is "?lhs \<longleftrightarrow> ?rhs")
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2865	proof
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2866	assume lim: "u \<longlonglongrightarrow> x"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2867	{
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2868	fix r :: ereal
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2869	assume "r > 0"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2870	then obtain N where "\<forall>n\<ge>N. u n \<in> {x - r <..< x + r}"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2871	apply (subst tendsto_obtains_N[of u x "{x - r <..< x + r}"])
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	2872	using lim ereal_between[of x r] assms \<open>r > 0\<close>
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2873	apply auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2874	done
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2875	then have "\<exists>N. \<forall>n\<ge>N. u n < x + r \<and> x < u n + r"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2876	using ereal_minus_less[of r x]
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2877	by (cases r) auto
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2878	}
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2879	then show ?rhs
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2880	by auto
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2881	next
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2882	assume ?rhs
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	2883	then show "u \<longlonglongrightarrow> x"
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2884	using ereal_LimI_finite[of x] assms by auto
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2885	qed
c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2886
51340 5e6296afe08d move Liminf / Limsup lemmas on complete_lattices to its own file hoelzl parents: 51329 diff changeset	2887	lemma ereal_Limsup_uminus:
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2888	fixes f :: "'a \<Rightarrow> ereal"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2889	shows "Limsup net (\<lambda>x. - (f x)) = - Liminf net f"
59452 2538b2c51769 ereal: tuned proofs concerning continuity and suprema hoelzl parents: 59425 diff changeset	2890	unfolding Limsup_def Liminf_def ereal_SUP_uminus ereal_INF_uminus_eq ..
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2891
51340 5e6296afe08d move Liminf / Limsup lemmas on complete_lattices to its own file hoelzl parents: 51329 diff changeset	2892	lemma liminf_bounded_iff:
5e6296afe08d move Liminf / Limsup lemmas on complete_lattices to its own file hoelzl parents: 51329 diff changeset	2893	fixes x :: "nat \<Rightarrow> ereal"
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2894	shows "C \<le> liminf x \<longleftrightarrow> (\<forall>B<C. \<exists>N. \<forall>n\<ge>N. B < x n)"
08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2895	(is "?lhs \<longleftrightarrow> ?rhs")
51340 5e6296afe08d move Liminf / Limsup lemmas on complete_lattices to its own file hoelzl parents: 51329 diff changeset	2896	unfolding le_Liminf_iff eventually_sequentially ..
51000 c9adb50f74ad use order topology for extended reals hoelzl parents: 50819 diff changeset	2897
59679 2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2898	lemma Liminf_add_le:
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2899	fixes f g :: "_ \<Rightarrow> ereal"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2900	assumes F: "F \<noteq> bot"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2901	assumes ev: "eventually (\<lambda>x. 0 \<le> f x) F" "eventually (\<lambda>x. 0 \<le> g x) F"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2902	shows "Liminf F f + Liminf F g \<le> Liminf F (\<lambda>x. f x + g x)"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2903	unfolding Liminf_def
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2904	proof (subst SUP_ereal_add_left[symmetric])
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2905	let ?F = "{P. eventually P F}"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2906	let ?INF = "\<lambda>P g. INFIMUM (Collect P) g"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2907	show "?F \<noteq> {}"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2908	by (auto intro: eventually_True)
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2909	show "(SUP P:?F. ?INF P g) \<noteq> - \<infinity>"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2910	unfolding bot_ereal_def[symmetric] SUP_bot_conv INF_eq_bot_iff
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2911	by (auto intro!: exI[of _ 0] ev simp: bot_ereal_def)
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2912	have "(SUP P:?F. ?INF P f + (SUP P:?F. ?INF P g)) \<le> (SUP P:?F. (SUP P':?F. ?INF P f + ?INF P' g))"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2913	proof (safe intro!: SUP_mono bexI[of _ "\<lambda>x. P x \<and> 0 \<le> f x" for P])
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2914	fix P let ?P' = "\<lambda>x. P x \<and> 0 \<le> f x"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2915	assume "eventually P F"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2916	with ev show "eventually ?P' F"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2917	by eventually_elim auto
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2918	have "?INF P f + (SUP P:?F. ?INF P g) \<le> ?INF ?P' f + (SUP P:?F. ?INF P g)"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2919	by (intro ereal_add_mono INF_mono) auto
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2920	also have "\<dots> = (SUP P':?F. ?INF ?P' f + ?INF P' g)"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2921	proof (rule SUP_ereal_add_right[symmetric])
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2922	show "INFIMUM {x. P x \<and> 0 \<le> f x} f \<noteq> - \<infinity>"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2923	unfolding bot_ereal_def[symmetric] INF_eq_bot_iff
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2924	by (auto intro!: exI[of _ 0] ev simp: bot_ereal_def)
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2925	qed fact
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2926	finally show "?INF P f + (SUP P:?F. ?INF P g) \<le> (SUP P':?F. ?INF ?P' f + ?INF P' g)" .
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2927	qed
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2928	also have "\<dots> \<le> (SUP P:?F. INF x:Collect P. f x + g x)"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2929	proof (safe intro!: SUP_least)
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2930	fix P Q assume *: "eventually P F" "eventually Q F"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2931	show "?INF P f + ?INF Q g \<le> (SUP P:?F. INF x:Collect P. f x + g x)"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2932	proof (rule SUP_upper2)
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2933	show "(\<lambda>x. P x \<and> Q x) \<in> ?F"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2934	using * by (auto simp: eventually_conj)
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2935	show "?INF P f + ?INF Q g \<le> (INF x:{x. P x \<and> Q x}. f x + g x)"
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2936	by (intro INF_greatest ereal_add_mono) (auto intro: INF_lower)
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2937	qed
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2938	qed
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2939	finally show "(SUP P:?F. ?INF P f + (SUP P:?F. ?INF P g)) \<le> (SUP P:?F. INF x:Collect P. f x + g x)" .
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2940	qed
2574977f9afa add subadditivity for Liminf on ereal hoelzl parents: 59587 diff changeset	2941
60060 3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2942	lemma Sup_ereal_mult_right':
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2943	assumes nonempty: "Y \<noteq> {}"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2944	and x: "x \<ge> 0"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2945	shows "(SUP i:Y. f i) * ereal x = (SUP i:Y. f i * ereal x)" (is "?lhs = ?rhs")
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2946	proof(cases "x = 0")
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2947	case True thus ?thesis by(auto simp add: nonempty zero_ereal_def[symmetric])
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2948	next
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2949	case False
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2950	show ?thesis
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2951	proof(rule antisym)
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2952	show "?rhs \<le> ?lhs"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2953	by(rule SUP_least)(simp add: ereal_mult_right_mono SUP_upper x)
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2954	next
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2955	have "?lhs / ereal x = (SUP i:Y. f i) * (ereal x / ereal x)" by(simp only: ereal_times_divide_eq)
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2956	also have "\<dots> = (SUP i:Y. f i)" using False by simp
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2957	also have "\<dots> \<le> ?rhs / x"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2958	proof(rule SUP_least)
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2959	fix i
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2960	assume "i \<in> Y"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2961	have "f i = f i * (ereal x / ereal x)" using False by simp
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2962	also have "\<dots> = f i * x / x" by(simp only: ereal_times_divide_eq)
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2963	also from \<open>i \<in> Y\<close> have "f i * x \<le> ?rhs" by(rule SUP_upper)
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2964	hence "f i * x / x \<le> ?rhs / x" using x False by simp
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2965	finally show "f i \<le> ?rhs / x" .
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2966	qed
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2967	finally have "(?lhs / x) * x \<le> (?rhs / x) * x"
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2968	by(rule ereal_mult_right_mono)(simp add: x)
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2969	also have "\<dots> = ?rhs" using False ereal_divide_eq mult.commute by force
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2970	also have "(?lhs / x) * x = ?lhs" using False ereal_divide_eq mult.commute by force
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2971	finally show "?lhs \<le> ?rhs" .
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2972	qed
3630ecde4e7c more lemmas about ereal Andreas Lochbihler parents: 59679 diff changeset	2973	qed
53873 08594daabcd9 tuned proofs; wenzelm parents: 53381 diff changeset	2974
61631 4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	2975	lemma Sup_ereal_mult_left':
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	2976	"\<lbrakk> Y \<noteq> {}; x \<ge> 0 \<rbrakk> \<Longrightarrow> ereal x * (SUP i:Y. f i) = (SUP i:Y. ereal x * f i)"
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	2977	by(subst (1 2) mult.commute)(rule Sup_ereal_mult_right')
4f7ef088c4ed add lemmas for extended nats and reals Andreas Lochbihler parents: 61610 diff changeset	2978
60637 03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2979	lemma sup_continuous_add[order_continuous_intros]:
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2980	fixes f g :: "'a::complete_lattice \<Rightarrow> ereal"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2981	assumes nn: "\<And>x. 0 \<le> f x" "\<And>x. 0 \<le> g x" and cont: "sup_continuous f" "sup_continuous g"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2982	shows "sup_continuous (\<lambda>x. f x + g x)"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2983	unfolding sup_continuous_def
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2984	proof safe
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2985	fix M :: "nat \<Rightarrow> 'a" assume "incseq M"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2986	then show "f (SUP i. M i) + g (SUP i. M i) = (SUP i. f (M i) + g (M i))"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2987	using SUP_ereal_add_pos[of "\<lambda>i. f (M i)" "\<lambda>i. g (M i)"] nn
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2988	cont[THEN sup_continuous_mono] cont[THEN sup_continuousD]
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2989	by (auto simp: mono_def)
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2990	qed
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2991
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2992	lemma sup_continuous_mult_right[order_continuous_intros]:
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2993	"0 \<le> c \<Longrightarrow> c < \<infinity> \<Longrightarrow> sup_continuous f \<Longrightarrow> sup_continuous (\<lambda>x. f x * c :: ereal)"
60636 ee18efe9b246 add named theorems order_continuous_intros; lfp/gfp_funpow; bounded variant for lfp/gfp transfer hoelzl parents: 60580 diff changeset	2994	by (cases c) (auto simp: sup_continuous_def fun_eq_iff Sup_ereal_mult_right')
ee18efe9b246 add named theorems order_continuous_intros; lfp/gfp_funpow; bounded variant for lfp/gfp transfer hoelzl parents: 60580 diff changeset	2995
60637 03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2996	lemma sup_continuous_mult_left[order_continuous_intros]:
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2997	"0 \<le> c \<Longrightarrow> c < \<infinity> \<Longrightarrow> sup_continuous f \<Longrightarrow> sup_continuous (\<lambda>x. c * f x :: ereal)"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2998	using sup_continuous_mult_right[of c f] by (simp add: mult_ac)
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	2999
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	3000	lemma sup_continuous_ereal_of_enat[order_continuous_intros]:
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	3001	assumes f: "sup_continuous f" shows "sup_continuous (\<lambda>x. ereal_of_enat (f x))"
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	3002	by (rule sup_continuous_compose[OF _ f])
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	3003	(auto simp: sup_continuous_def ereal_of_enat_SUP)
03a25d3e759e generalized sup_continuty of add, ereal_of_enat hoelzl parents: 60636 diff changeset	3004
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3005	subsubsection \<open>Sums\<close>
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3006
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3007	lemma sums_ereal_positive:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3008	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3009	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3010	shows "f sums (SUP n. \<Sum>i<n. f i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3011	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3012	have "incseq (\<lambda>i. \<Sum>j=0..<i. f j)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3013	using ereal_add_mono[OF _ assms]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3014	by (auto intro!: incseq_SucI)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3015	from LIMSEQ_SUP[OF this]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3016	show ?thesis unfolding sums_def
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3017	by (simp add: atLeast0LessThan)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3018	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3019
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3020	lemma summable_ereal_pos:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3021	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3022	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3023	shows "summable f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3024	using sums_ereal_positive[of f, OF assms]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3025	unfolding summable_def
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3026	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3027
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3028	lemma sums_ereal: "(\<lambda>x. ereal (f x)) sums ereal x \<longleftrightarrow> f sums x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3029	unfolding sums_def by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3030
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3031	lemma suminf_ereal_eq_SUP:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3032	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3033	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3034	shows "(\<Sum>x. f x) = (SUP n. \<Sum>i<n. f i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3035	using sums_ereal_positive[of f, OF assms, THEN sums_unique]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3036	by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3037
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3038	lemma suminf_bound:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3039	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3040	assumes "\<forall>N. (\<Sum>n<N. f n) \<le> x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3041	and pos: "\<And>n. 0 \<le> f n"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3042	shows "suminf f \<le> x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3043	proof (rule Lim_bounded_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3044	have "summable f" using pos[THEN summable_ereal_pos] .
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3045	then show "(\<lambda>N. \<Sum>n<N. f n) \<longlonglongrightarrow> suminf f"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3046	by (auto dest!: summable_sums simp: sums_def atLeast0LessThan)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3047	show "\<forall>n\<ge>0. setsum f {..<n} \<le> x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3048	using assms by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3049	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3050
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3051	lemma suminf_bound_add:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3052	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3053	assumes "\<forall>N. (\<Sum>n<N. f n) + y \<le> x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3054	and pos: "\<And>n. 0 \<le> f n"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3055	and "y \<noteq> -\<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3056	shows "suminf f + y \<le> x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3057	proof (cases y)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3058	case (real r)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3059	then have "\<forall>N. (\<Sum>n<N. f n) \<le> x - y"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3060	using assms by (simp add: ereal_le_minus)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3061	then have "(\<Sum> n. f n) \<le> x - y"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3062	using pos by (rule suminf_bound)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3063	then show "(\<Sum> n. f n) + y \<le> x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3064	using assms real by (simp add: ereal_le_minus)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3065	qed (insert assms, auto)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3066
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3067	lemma suminf_upper:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3068	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3069	assumes "\<And>n. 0 \<le> f n"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3070	shows "(\<Sum>n<N. f n) \<le> (\<Sum>n. f n)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3071	unfolding suminf_ereal_eq_SUP [OF assms]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3072	by (auto intro: complete_lattice_class.SUP_upper)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3073
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3074	lemma suminf_0_le:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3075	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3076	assumes "\<And>n. 0 \<le> f n"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3077	shows "0 \<le> (\<Sum>n. f n)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3078	using suminf_upper[of f 0, OF assms]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3079	by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3080
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3081	lemma suminf_le_pos:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3082	fixes f g :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3083	assumes "\<And>N. f N \<le> g N"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3084	and "\<And>N. 0 \<le> f N"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3085	shows "suminf f \<le> suminf g"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3086	proof (safe intro!: suminf_bound)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3087	fix n
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3088	{
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3089	fix N
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3090	have "0 \<le> g N"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3091	using assms(2,1)[of N] by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3092	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3093	have "setsum f {..<n} \<le> setsum g {..<n}"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3094	using assms by (auto intro: setsum_mono)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3095	also have "\<dots> \<le> suminf g"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3096	using \<open>\<And>N. 0 \<le> g N\<close>
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3097	by (rule suminf_upper)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3098	finally show "setsum f {..<n} \<le> suminf g" .
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3099	qed (rule assms(2))
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3100
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3101	lemma suminf_half_series_ereal: "(\<Sum>n. (1/2 :: ereal) ^ Suc n) = 1"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3102	using sums_ereal[THEN iffD2, OF power_half_series, THEN sums_unique, symmetric]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3103	by (simp add: one_ereal_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3104
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3105	lemma suminf_add_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3106	fixes f g :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3107	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3108	and "\<And>i. 0 \<le> g i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3109	shows "(\<Sum>i. f i + g i) = suminf f + suminf g"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3110	apply (subst (1 2 3) suminf_ereal_eq_SUP)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3111	unfolding setsum.distrib
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3112	apply (intro assms ereal_add_nonneg_nonneg SUP_ereal_add_pos incseq_setsumI setsum_nonneg ballI)+
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3113	done
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3114
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3115	lemma suminf_cmult_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3116	fixes f g :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3117	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3118	and "0 \<le> a"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3119	shows "(\<Sum>i. a * f i) = a * suminf f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3120	by (auto simp: setsum_ereal_right_distrib[symmetric] assms
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3121	ereal_zero_le_0_iff setsum_nonneg suminf_ereal_eq_SUP
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3122	intro!: SUP_ereal_mult_left)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3123
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3124	lemma suminf_PInfty:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3125	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3126	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3127	and "suminf f \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3128	shows "f i \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3129	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3130	from suminf_upper[of f "Suc i", OF assms(1)] assms(2)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3131	have "(\<Sum>i<Suc i. f i) \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3132	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3133	then show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3134	unfolding setsum_Pinfty by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3135	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3136
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3137	lemma suminf_PInfty_fun:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3138	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3139	and "suminf f \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3140	shows "\<exists>f'. f = (\<lambda>x. ereal (f' x))"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3141	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3142	have "\<forall>i. \<exists>r. f i = ereal r"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3143	proof
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3144	fix i
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3145	show "\<exists>r. f i = ereal r"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3146	using suminf_PInfty[OF assms] assms(1)[of i]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3147	by (cases "f i") auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3148	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3149	from choice[OF this] show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3150	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3151	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3152
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3153	lemma summable_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3154	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3155	and "(\<Sum>i. ereal (f i)) \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3156	shows "summable f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3157	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3158	have "0 \<le> (\<Sum>i. ereal (f i))"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3159	using assms by (intro suminf_0_le) auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3160	with assms obtain r where r: "(\<Sum>i. ereal (f i)) = ereal r"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3161	by (cases "\<Sum>i. ereal (f i)") auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3162	from summable_ereal_pos[of "\<lambda>x. ereal (f x)"]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3163	have "summable (\<lambda>x. ereal (f x))"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3164	using assms by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3165	from summable_sums[OF this]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3166	have "(\<lambda>x. ereal (f x)) sums (\<Sum>x. ereal (f x))"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3167	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3168	then show "summable f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3169	unfolding r sums_ereal summable_def ..
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3170	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3171
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3172	lemma suminf_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3173	assumes "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3174	and "(\<Sum>i. ereal (f i)) \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3175	shows "(\<Sum>i. ereal (f i)) = ereal (suminf f)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3176	proof (rule sums_unique[symmetric])
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3177	from summable_ereal[OF assms]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3178	show "(\<lambda>x. ereal (f x)) sums (ereal (suminf f))"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3179	unfolding sums_ereal
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3180	using assms
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3181	by (intro summable_sums summable_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3182	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3183
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3184	lemma suminf_ereal_minus:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3185	fixes f g :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3186	assumes ord: "\<And>i. g i \<le> f i" "\<And>i. 0 \<le> g i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3187	and fin: "suminf f \<noteq> \<infinity>" "suminf g \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3188	shows "(\<Sum>i. f i - g i) = suminf f - suminf g"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3189	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3190	{
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3191	fix i
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3192	have "0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3193	using ord[of i] by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3194	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3195	moreover
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3196	from suminf_PInfty_fun[OF \<open>\<And>i. 0 \<le> f i\<close> fin(1)] obtain f' where [simp]: "f = (\<lambda>x. ereal (f' x))" ..
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3197	from suminf_PInfty_fun[OF \<open>\<And>i. 0 \<le> g i\<close> fin(2)] obtain g' where [simp]: "g = (\<lambda>x. ereal (g' x))" ..
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3198	{
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3199	fix i
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3200	have "0 \<le> f i - g i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3201	using ord[of i] by (auto simp: ereal_le_minus_iff)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3202	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3203	moreover
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3204	have "suminf (\<lambda>i. f i - g i) \<le> suminf f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3205	using assms by (auto intro!: suminf_le_pos simp: field_simps)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3206	then have "suminf (\<lambda>i. f i - g i) \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3207	using fin by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3208	ultimately show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3209	using assms \<open>\<And>i. 0 \<le> f i\<close>
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3210	apply simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3211	apply (subst (1 2 3) suminf_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3212	apply (auto intro!: suminf_diff[symmetric] summable_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3213	done
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3214	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3215
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3216	lemma suminf_ereal_PInf [simp]: "(\<Sum>x. \<infinity>::ereal) = \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3217	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3218	have "(\<Sum>i<Suc 0. \<infinity>) \<le> (\<Sum>x. \<infinity>::ereal)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3219	by (rule suminf_upper) auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3220	then show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3221	by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3222	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3223
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3224	lemma summable_real_of_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3225	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3226	assumes f: "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3227	and fin: "(\<Sum>i. f i) \<noteq> \<infinity>"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3228	shows "summable (\<lambda>i. real_of_ereal (f i))"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3229	proof (rule summable_def[THEN iffD2])
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3230	have "0 \<le> (\<Sum>i. f i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3231	using assms by (auto intro: suminf_0_le)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3232	with fin obtain r where r: "ereal r = (\<Sum>i. f i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3233	by (cases "(\<Sum>i. f i)") auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3234	{
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3235	fix i
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3236	have "f i \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3237	using f by (intro suminf_PInfty[OF _ fin]) auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3238	then have "\<bar>f i\<bar> \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3239	using f[of i] by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3240	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3241	note fin = this
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3242	have "(\<lambda>i. ereal (real_of_ereal (f i))) sums (\<Sum>i. ereal (real_of_ereal (f i)))"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3243	using f
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3244	by (auto intro!: summable_ereal_pos simp: ereal_le_real_iff zero_ereal_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3245	also have "\<dots> = ereal r"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3246	using fin r by (auto simp: ereal_real)
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3247	finally show "\<exists>r. (\<lambda>i. real_of_ereal (f i)) sums r"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3248	by (auto simp: sums_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3249	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3250
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3251	lemma suminf_SUP_eq:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3252	fixes f :: "nat \<Rightarrow> nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3253	assumes "\<And>i. incseq (\<lambda>n. f n i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3254	and "\<And>n i. 0 \<le> f n i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3255	shows "(\<Sum>i. SUP n. f n i) = (SUP n. \<Sum>i. f n i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3256	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3257	{
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3258	fix n :: nat
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3259	have "(\<Sum>i<n. SUP k. f k i) = (SUP k. \<Sum>i<n. f k i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3260	using assms
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3261	by (auto intro!: SUP_ereal_setsum [symmetric])
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3262	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3263	note * = this
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3264	show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3265	using assms
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3266	apply (subst (1 2) suminf_ereal_eq_SUP)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3267	unfolding *
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3268	apply (auto intro!: SUP_upper2)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3269	apply (subst SUP_commute)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3270	apply rule
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3271	done
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3272	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3273
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3274	lemma suminf_setsum_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3275	fixes f :: "_ \<Rightarrow> _ \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3276	assumes nonneg: "\<And>i a. a \<in> A \<Longrightarrow> 0 \<le> f i a"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3277	shows "(\<Sum>i. \<Sum>a\<in>A. f i a) = (\<Sum>a\<in>A. \<Sum>i. f i a)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3278	proof (cases "finite A")
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3279	case True
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3280	then show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3281	using nonneg
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3282	by induct (simp_all add: suminf_add_ereal setsum_nonneg)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3283	next
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3284	case False
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3285	then show ?thesis by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3286	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3287
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3288	lemma suminf_ereal_eq_0:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3289	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3290	assumes nneg: "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3291	shows "(\<Sum>i. f i) = 0 \<longleftrightarrow> (\<forall>i. f i = 0)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3292	proof
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3293	assume "(\<Sum>i. f i) = 0"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3294	{
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3295	fix i
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3296	assume "f i \<noteq> 0"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3297	with nneg have "0 < f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3298	by (auto simp: less_le)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3299	also have "f i = (\<Sum>j. if j = i then f i else 0)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3300	by (subst suminf_finite[where N="{i}"]) auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3301	also have "\<dots> \<le> (\<Sum>i. f i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3302	using nneg
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3303	by (auto intro!: suminf_le_pos)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3304	finally have False
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3305	using \<open>(\<Sum>i. f i) = 0\<close> by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3306	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3307	then show "\<forall>i. f i = 0"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3308	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3309	qed simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3310
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3311	lemma suminf_ereal_offset_le:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3312	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3313	assumes f: "\<And>i. 0 \<le> f i"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3314	shows "(\<Sum>i. f (i + k)) \<le> suminf f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3315	proof -
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3316	have "(\<lambda>n. \<Sum>i<n. f (i + k)) \<longlonglongrightarrow> (\<Sum>i. f (i + k))"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3317	using summable_sums[OF summable_ereal_pos] by (simp add: sums_def atLeast0LessThan f)
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3318	moreover have "(\<lambda>n. \<Sum>i<n. f i) \<longlonglongrightarrow> (\<Sum>i. f i)"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3319	using summable_sums[OF summable_ereal_pos] by (simp add: sums_def atLeast0LessThan f)
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3320	then have "(\<lambda>n. \<Sum>i<n + k. f i) \<longlonglongrightarrow> (\<Sum>i. f i)"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3321	by (rule LIMSEQ_ignore_initial_segment)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3322	ultimately show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3323	proof (rule LIMSEQ_le, safe intro!: exI[of _ k])
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3324	fix n assume "k \<le> n"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3325	have "(\<Sum>i<n. f (i + k)) = (\<Sum>i<n. (f \<circ> (\<lambda>i. i + k)) i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3326	by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3327	also have "\<dots> = (\<Sum>i\<in>(\<lambda>i. i + k) ` {..<n}. f i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3328	by (subst setsum.reindex) auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3329	also have "\<dots> \<le> setsum f {..<n + k}"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3330	by (intro setsum_mono3) (auto simp: f)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3331	finally show "(\<Sum>i<n. f (i + k)) \<le> setsum f {..<n + k}" .
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3332	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3333	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3334
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3335	lemma sums_suminf_ereal: "f sums x \<Longrightarrow> (\<Sum>i. ereal (f i)) = ereal x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3336	by (metis sums_ereal sums_unique)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3337
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3338	lemma suminf_ereal': "summable f \<Longrightarrow> (\<Sum>i. ereal (f i)) = ereal (\<Sum>i. f i)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3339	by (metis sums_ereal sums_unique summable_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3340
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3341	lemma suminf_ereal_finite: "summable f \<Longrightarrow> (\<Sum>i. ereal (f i)) \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3342	by (auto simp: sums_ereal[symmetric] summable_def sums_unique[symmetric])
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3343
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3344	lemma suminf_ereal_finite_neg:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3345	assumes "summable f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3346	shows "(\<Sum>x. ereal (f x)) \<noteq> -\<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3347	proof-
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3348	from assms obtain x where "f sums x" by blast
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3349	hence "(\<lambda>x. ereal (f x)) sums ereal x" by (simp add: sums_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3350	from sums_unique[OF this] have "(\<Sum>x. ereal (f x)) = ereal x" ..
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3351	thus "(\<Sum>x. ereal (f x)) \<noteq> -\<infinity>" by simp_all
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3352	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3353
60772 a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3354	lemma SUP_ereal_add_directed:
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3355	fixes f g :: "'a \<Rightarrow> ereal"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3356	assumes nonneg: "\<And>i. i \<in> I \<Longrightarrow> 0 \<le> f i" "\<And>i. i \<in> I \<Longrightarrow> 0 \<le> g i"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3357	assumes directed: "\<And>i j. i \<in> I \<Longrightarrow> j \<in> I \<Longrightarrow> \<exists>k\<in>I. f i + g j \<le> f k + g k"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3358	shows "(SUP i:I. f i + g i) = (SUP i:I. f i) + (SUP i:I. g i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3359	proof cases
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3360	assume "I = {}" then show ?thesis
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3361	by (simp add: bot_ereal_def)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3362	next
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3363	assume "I \<noteq> {}"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3364	show ?thesis
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3365	proof (rule antisym)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3366	show "(SUP i:I. f i + g i) \<le> (SUP i:I. f i) + (SUP i:I. g i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3367	by (rule SUP_least; intro ereal_add_mono SUP_upper)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3368	next
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3369	have "bot < (SUP i:I. g i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3370	using \<open>I \<noteq> {}\<close> nonneg(2) by (auto simp: bot_ereal_def less_SUP_iff)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3371	then have "(SUP i:I. f i) + (SUP i:I. g i) = (SUP i:I. f i + (SUP i:I. g i))"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3372	by (intro SUP_ereal_add_left[symmetric] \<open>I \<noteq> {}\<close>) auto
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3373	also have "\<dots> = (SUP i:I. (SUP j:I. f i + g j))"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3374	using nonneg(1) by (intro SUP_cong refl SUP_ereal_add_right[symmetric] \<open>I \<noteq> {}\<close>) auto
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3375	also have "\<dots> \<le> (SUP i:I. f i + g i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3376	using directed by (intro SUP_least) (blast intro: SUP_upper2)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3377	finally show "(SUP i:I. f i) + (SUP i:I. g i) \<le> (SUP i:I. f i + g i)" .
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3378	qed
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3379	qed
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3380
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3381	lemma SUP_ereal_setsum_directed:
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3382	fixes f g :: "'a \<Rightarrow> 'b \<Rightarrow> ereal"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3383	assumes "I \<noteq> {}"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3384	assumes directed: "\<And>N i j. N \<subseteq> A \<Longrightarrow> i \<in> I \<Longrightarrow> j \<in> I \<Longrightarrow> \<exists>k\<in>I. \<forall>n\<in>N. f n i \<le> f n k \<and> f n j \<le> f n k"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3385	assumes nonneg: "\<And>n i. i \<in> I \<Longrightarrow> n \<in> A \<Longrightarrow> 0 \<le> f n i"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3386	shows "(SUP i:I. \<Sum>n\<in>A. f n i) = (\<Sum>n\<in>A. SUP i:I. f n i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3387	proof -
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3388	have "N \<subseteq> A \<Longrightarrow> (SUP i:I. \<Sum>n\<in>N. f n i) = (\<Sum>n\<in>N. SUP i:I. f n i)" for N
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3389	proof (induction N rule: infinite_finite_induct)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3390	case (insert n N)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3391	moreover have "(SUP i:I. f n i + (\<Sum>l\<in>N. f l i)) = (SUP i:I. f n i) + (SUP i:I. \<Sum>l\<in>N. f l i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3392	proof (rule SUP_ereal_add_directed)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3393	fix i assume "i \<in> I" then show "0 \<le> f n i" "0 \<le> (\<Sum>l\<in>N. f l i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3394	using insert by (auto intro!: setsum_nonneg nonneg)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3395	next
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3396	fix i j assume "i \<in> I" "j \<in> I"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3397	from directed[OF \<open>insert n N \<subseteq> A\<close> this] guess k ..
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	3398	then show "\<exists>k\<in>I. f n i + (\<Sum>l\<in>N. f l j) \<le> f n k + (\<Sum>l\<in>N. f l k)"
60772 a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3399	by (intro bexI[of _ k]) (auto intro!: ereal_add_mono setsum_mono)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3400	qed
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3401	ultimately show ?case
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3402	by simp
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3403	qed (simp_all add: SUP_constant \<open>I \<noteq> {}\<close>)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3404	from this[of A] show ?thesis by simp
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3405	qed
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3406
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3407	lemma suminf_SUP_eq_directed:
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3408	fixes f :: "_ \<Rightarrow> nat \<Rightarrow> ereal"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3409	assumes "I \<noteq> {}"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3410	assumes directed: "\<And>N i j. i \<in> I \<Longrightarrow> j \<in> I \<Longrightarrow> finite N \<Longrightarrow> \<exists>k\<in>I. \<forall>n\<in>N. f i n \<le> f k n \<and> f j n \<le> f k n"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3411	assumes nonneg: "\<And>n i. 0 \<le> f n i"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3412	shows "(\<Sum>i. SUP n:I. f n i) = (SUP n:I. \<Sum>i. f n i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3413	proof (subst (1 2) suminf_ereal_eq_SUP)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3414	show "\<And>n i. 0 \<le> f n i" "\<And>i. 0 \<le> (SUP n:I. f n i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3415	using \<open>I \<noteq> {}\<close> nonneg by (auto intro: SUP_upper2)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3416	show "(SUP n. \<Sum>i<n. SUP n:I. f n i) = (SUP n:I. SUP j. \<Sum>i<j. f n i)"
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3417	apply (subst SUP_commute)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3418	apply (subst SUP_ereal_setsum_directed)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3419	apply (auto intro!: assms simp: finite_subset)
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3420	done
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3421	qed
a0cfa9050fa8 Measures form a CCPO hoelzl parents: 60771 diff changeset	3422
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3423	lemma ereal_dense3:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3424	fixes x y :: ereal
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3425	shows "x < y \<Longrightarrow> \<exists>r::rat. x < real_of_rat r \<and> real_of_rat r < y"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3426	proof (cases x y rule: ereal2_cases, simp_all)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3427	fix r q :: real
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3428	assume "r < q"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3429	from Rats_dense_in_real[OF this] show "\<exists>x. r < real_of_rat x \<and> real_of_rat x < q"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3430	by (fastforce simp: Rats_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3431	next
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3432	fix r :: real
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3433	show "\<exists>x. r < real_of_rat x" "\<exists>x. real_of_rat x < r"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3434	using gt_ex[of r] lt_ex[of r] Rats_dense_in_real
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3435	by (auto simp: Rats_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3436	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3437
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3438	lemma continuous_within_ereal[intro, simp]: "x \<in> A \<Longrightarrow> continuous (at x within A) ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3439	using continuous_on_eq_continuous_within[of A ereal]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3440	by (auto intro: continuous_on_ereal continuous_on_id)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3441
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3442	lemma ereal_open_uminus:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3443	fixes S :: "ereal set"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3444	assumes "open S"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3445	shows "open (uminus ` S)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3446	using \<open>open S\<close>[unfolded open_generated_order]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3447	proof induct
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3448	have "range uminus = (UNIV :: ereal set)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3449	by (auto simp: image_iff ereal_uminus_eq_reorder)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3450	then show "open (range uminus :: ereal set)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3451	by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3452	qed (auto simp add: image_Union image_Int)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3453
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3454	lemma ereal_uminus_complement:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3455	fixes S :: "ereal set"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3456	shows "uminus ` (- S) = - uminus ` S"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3457	by (auto intro!: bij_image_Compl_eq surjI[of _ uminus] simp: bij_betw_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3458
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3459	lemma ereal_closed_uminus:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3460	fixes S :: "ereal set"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3461	assumes "closed S"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3462	shows "closed (uminus ` S)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3463	using assms
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3464	unfolding closed_def ereal_uminus_complement[symmetric]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3465	by (rule ereal_open_uminus)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3466
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3467	lemma ereal_open_affinity_pos:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3468	fixes S :: "ereal set"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3469	assumes "open S"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3470	and m: "m \<noteq> \<infinity>" "0 < m"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3471	and t: "\<bar>t\<bar> \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3472	shows "open ((\<lambda>x. m * x + t) ` S)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3473	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3474	have "open ((\<lambda>x. inverse m * (x + -t)) -` S)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3475	using m t
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3476	apply (intro open_vimage \<open>open S\<close>)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3477	apply (intro continuous_at_imp_continuous_on ballI tendsto_cmult_ereal continuous_at[THEN iffD2]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3478	tendsto_ident_at tendsto_add_left_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3479	apply auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3480	done
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3481	also have "(\<lambda>x. inverse m * (x + -t)) -` S = (\<lambda>x. (x - t) / m) -` S"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3482	using m t by (auto simp: divide_ereal_def mult.commute uminus_ereal.simps[symmetric] minus_ereal_def
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3483	simp del: uminus_ereal.simps)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3484	also have "(\<lambda>x. (x - t) / m) -` S = (\<lambda>x. m * x + t) ` S"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3485	using m t
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3486	by (simp add: set_eq_iff image_iff)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3487	(metis abs_ereal_less0 abs_ereal_uminus ereal_divide_eq ereal_eq_minus ereal_minus(7,8)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3488	ereal_minus_less_minus ereal_mult_eq_PInfty ereal_uminus_uminus ereal_zero_mult)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3489	finally show ?thesis .
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3490	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3491
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3492	lemma ereal_open_affinity:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3493	fixes S :: "ereal set"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3494	assumes "open S"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3495	and m: "\<bar>m\<bar> \<noteq> \<infinity>" "m \<noteq> 0"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3496	and t: "\<bar>t\<bar> \<noteq> \<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3497	shows "open ((\<lambda>x. m * x + t) ` S)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3498	proof cases
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3499	assume "0 < m"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3500	then show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3501	using ereal_open_affinity_pos[OF \<open>open S\<close> _ _ t, of m] m
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3502	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3503	next
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3504	assume "\<not> 0 < m" then
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3505	have "0 < -m"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3506	using \<open>m \<noteq> 0\<close>
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3507	by (cases m) auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3508	then have m: "-m \<noteq> \<infinity>" "0 < -m"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3509	using \<open>\<bar>m\<bar> \<noteq> \<infinity>\<close>
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3510	by (auto simp: ereal_uminus_eq_reorder)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3511	from ereal_open_affinity_pos[OF ereal_open_uminus[OF \<open>open S\<close>] m t] show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3512	unfolding image_image by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3513	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3514
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3515	lemma open_uminus_iff:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3516	fixes S :: "ereal set"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3517	shows "open (uminus ` S) \<longleftrightarrow> open S"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3518	using ereal_open_uminus[of S] ereal_open_uminus[of "uminus ` S"]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3519	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3520
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3521	lemma ereal_Liminf_uminus:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3522	fixes f :: "'a \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3523	shows "Liminf net (\<lambda>x. - (f x)) = - Limsup net f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3524	using ereal_Limsup_uminus[of _ "(\<lambda>x. - (f x))"] by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3525
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3526	lemma Liminf_PInfty:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3527	fixes f :: "'a \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3528	assumes "\<not> trivial_limit net"
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3529	shows "(f \<longlongrightarrow> \<infinity>) net \<longleftrightarrow> Liminf net f = \<infinity>"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3530	unfolding tendsto_iff_Liminf_eq_Limsup[OF assms]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3531	using Liminf_le_Limsup[OF assms, of f]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3532	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3533
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3534	lemma Limsup_MInfty:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3535	fixes f :: "'a \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3536	assumes "\<not> trivial_limit net"
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3537	shows "(f \<longlongrightarrow> -\<infinity>) net \<longleftrightarrow> Limsup net f = -\<infinity>"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3538	unfolding tendsto_iff_Liminf_eq_Limsup[OF assms]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3539	using Liminf_le_Limsup[OF assms, of f]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3540	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3541
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3542	lemma convergent_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3543	fixes X :: "nat \<Rightarrow> 'a :: {complete_linorder,linorder_topology}"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3544	shows "convergent X \<longleftrightarrow> limsup X = liminf X"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3545	using tendsto_iff_Liminf_eq_Limsup[of sequentially]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3546	by (auto simp: convergent_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3547
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3548	lemma limsup_le_liminf_real:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3549	fixes X :: "nat \<Rightarrow> real" and L :: real
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3550	assumes 1: "limsup X \<le> L" and 2: "L \<le> liminf X"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3551	shows "X \<longlonglongrightarrow> L"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3552	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3553	from 1 2 have "limsup X \<le> liminf X" by auto
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	3554	hence 3: "limsup X = liminf X"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3555	apply (subst eq_iff, rule conjI)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3556	by (rule Liminf_le_Limsup, auto)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3557	hence 4: "convergent (\<lambda>n. ereal (X n))"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3558	by (subst convergent_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3559	hence "limsup X = lim (\<lambda>n. ereal(X n))"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3560	by (rule convergent_limsup_cl)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3561	also from 1 2 3 have "limsup X = L" by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3562	finally have "lim (\<lambda>n. ereal(X n)) = L" ..
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3563	hence "(\<lambda>n. ereal (X n)) \<longlonglongrightarrow> L"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3564	apply (elim subst)
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	3565	by (subst convergent_LIMSEQ_iff [symmetric], rule 4)
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3566	thus ?thesis by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3567	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3568
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3569	lemma liminf_PInfty:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3570	fixes X :: "nat \<Rightarrow> ereal"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3571	shows "X \<longlonglongrightarrow> \<infinity> \<longleftrightarrow> liminf X = \<infinity>"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3572	by (metis Liminf_PInfty trivial_limit_sequentially)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3573
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3574	lemma limsup_MInfty:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3575	fixes X :: "nat \<Rightarrow> ereal"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3576	shows "X \<longlonglongrightarrow> -\<infinity> \<longleftrightarrow> limsup X = -\<infinity>"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3577	by (metis Limsup_MInfty trivial_limit_sequentially)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3578
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3579	lemma ereal_lim_mono:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3580	fixes X Y :: "nat \<Rightarrow> 'a::linorder_topology"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3581	assumes "\<And>n. N \<le> n \<Longrightarrow> X n \<le> Y n"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3582	and "X \<longlonglongrightarrow> x"
e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3583	and "Y \<longlonglongrightarrow> y"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3584	shows "x \<le> y"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3585	using assms(1) by (intro LIMSEQ_le[OF assms(2,3)]) auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3586
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3587	lemma incseq_le_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3588	fixes X :: "nat \<Rightarrow> 'a::linorder_topology"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3589	assumes inc: "incseq X"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3590	and lim: "X \<longlonglongrightarrow> L"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3591	shows "X N \<le> L"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3592	using inc
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3593	by (intro ereal_lim_mono[of N, OF _ tendsto_const lim]) (simp add: incseq_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3594
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3595	lemma decseq_ge_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3596	assumes dec: "decseq X"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3597	and lim: "X \<longlonglongrightarrow> (L::'a::linorder_topology)"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3598	shows "X N \<ge> L"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3599	using dec by (intro ereal_lim_mono[of N, OF _ lim tendsto_const]) (simp add: decseq_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3600
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3601	lemma bounded_abs:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3602	fixes a :: real
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3603	assumes "a \<le> x"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3604	and "x \<le> b"
61945 1135b8de26c3 more symbols; wenzelm parents: 61880 diff changeset	3605	shows "\<bar>x\<bar> \<le> max \<bar>a\<bar> \<bar>b\<bar>"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3606	by (metis abs_less_iff assms leI le_max_iff_disj
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3607	less_eq_real_def less_le_not_le less_minus_iff minus_minus)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3608
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3609	lemma ereal_Sup_lim:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3610	fixes a :: "'a::{complete_linorder,linorder_topology}"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3611	assumes "\<And>n. b n \<in> s"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3612	and "b \<longlonglongrightarrow> a"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3613	shows "a \<le> Sup s"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3614	by (metis Lim_bounded_ereal assms complete_lattice_class.Sup_upper)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3615
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3616	lemma ereal_Inf_lim:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3617	fixes a :: "'a::{complete_linorder,linorder_topology}"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3618	assumes "\<And>n. b n \<in> s"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3619	and "b \<longlonglongrightarrow> a"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3620	shows "Inf s \<le> a"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3621	by (metis Lim_bounded2_ereal assms complete_lattice_class.Inf_lower)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3622
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3623	lemma SUP_Lim_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3624	fixes X :: "nat \<Rightarrow> 'a::{complete_linorder,linorder_topology}"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3625	assumes inc: "incseq X"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3626	and l: "X \<longlonglongrightarrow> l"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3627	shows "(SUP n. X n) = l"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3628	using LIMSEQ_SUP[OF inc] tendsto_unique[OF trivial_limit_sequentially l]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3629	by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3630
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3631	lemma INF_Lim_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3632	fixes X :: "nat \<Rightarrow> 'a::{complete_linorder,linorder_topology}"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3633	assumes dec: "decseq X"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3634	and l: "X \<longlonglongrightarrow> l"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3635	shows "(INF n. X n) = l"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3636	using LIMSEQ_INF[OF dec] tendsto_unique[OF trivial_limit_sequentially l]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3637	by simp
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3638
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3639	lemma SUP_eq_LIMSEQ:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3640	assumes "mono f"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3641	shows "(SUP n. ereal (f n)) = ereal x \<longleftrightarrow> f \<longlonglongrightarrow> x"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3642	proof
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3643	have inc: "incseq (\<lambda>i. ereal (f i))"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3644	using \<open>mono f\<close> unfolding mono_def incseq_def by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3645	{
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3646	assume "f \<longlonglongrightarrow> x"
e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3647	then have "(\<lambda>i. ereal (f i)) \<longlonglongrightarrow> ereal x"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3648	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3649	from SUP_Lim_ereal[OF inc this] show "(SUP n. ereal (f n)) = ereal x" .
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3650	next
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3651	assume "(SUP n. ereal (f n)) = ereal x"
61969 e01015e49041 more symbols; wenzelm parents: 61945 diff changeset	3652	with LIMSEQ_SUP[OF inc] show "f \<longlonglongrightarrow> x" by auto
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3653	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3654	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3655
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3656	lemma liminf_ereal_cminus:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3657	fixes f :: "nat \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3658	assumes "c \<noteq> -\<infinity>"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3659	shows "liminf (\<lambda>x. c - f x) = c - limsup f"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3660	proof (cases c)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3661	case PInf
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3662	then show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3663	by (simp add: Liminf_const)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3664	next
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3665	case (real r)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3666	then show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3667	unfolding liminf_SUP_INF limsup_INF_SUP
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3668	apply (subst INF_ereal_minus_right)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3669	apply auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3670	apply (subst SUP_ereal_minus_right)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3671	apply auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3672	done
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3673	qed (insert \<open>c \<noteq> -\<infinity>\<close>, simp)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3674
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3675
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3676	subsubsection \<open>Continuity\<close>
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3677
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3678	lemma continuous_at_of_ereal:
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3679	"\<bar>x0 :: ereal\<bar> \<noteq> \<infinity> \<Longrightarrow> continuous (at x0) real_of_ereal"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3680	unfolding continuous_at
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3681	by (rule lim_real_of_ereal) (simp add: ereal_real)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3682
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3683	lemma nhds_ereal: "nhds (ereal r) = filtermap ereal (nhds r)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3684	by (simp add: filtermap_nhds_open_map open_ereal continuous_at_of_ereal)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3685
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3686	lemma at_ereal: "at (ereal r) = filtermap ereal (at r)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3687	by (simp add: filter_eq_iff eventually_at_filter nhds_ereal eventually_filtermap)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3688
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3689	lemma at_left_ereal: "at_left (ereal r) = filtermap ereal (at_left r)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3690	by (simp add: filter_eq_iff eventually_at_filter nhds_ereal eventually_filtermap)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3691
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3692	lemma at_right_ereal: "at_right (ereal r) = filtermap ereal (at_right r)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3693	by (simp add: filter_eq_iff eventually_at_filter nhds_ereal eventually_filtermap)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3694
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3695	lemma
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3696	shows at_left_PInf: "at_left \<infinity> = filtermap ereal at_top"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3697	and at_right_MInf: "at_right (-\<infinity>) = filtermap ereal at_bot"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3698	unfolding filter_eq_iff eventually_filtermap eventually_at_top_dense eventually_at_bot_dense
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3699	eventually_at_left[OF ereal_less(5)] eventually_at_right[OF ereal_less(6)]
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3700	by (auto simp add: ereal_all_split ereal_ex_split)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3701
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3702	lemma ereal_tendsto_simps1:
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3703	"((f \<circ> real_of_ereal) \<longlongrightarrow> y) (at_left (ereal x)) \<longleftrightarrow> (f \<longlongrightarrow> y) (at_left x)"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3704	"((f \<circ> real_of_ereal) \<longlongrightarrow> y) (at_right (ereal x)) \<longleftrightarrow> (f \<longlongrightarrow> y) (at_right x)"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3705	"((f \<circ> real_of_ereal) \<longlongrightarrow> y) (at_left (\<infinity>::ereal)) \<longleftrightarrow> (f \<longlongrightarrow> y) at_top"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3706	"((f \<circ> real_of_ereal) \<longlongrightarrow> y) (at_right (-\<infinity>::ereal)) \<longleftrightarrow> (f \<longlongrightarrow> y) at_bot"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3707	unfolding tendsto_compose_filtermap at_left_ereal at_right_ereal at_left_PInf at_right_MInf
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3708	by (auto simp: filtermap_filtermap filtermap_ident)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3709
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3710	lemma ereal_tendsto_simps2:
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3711	"((ereal \<circ> f) \<longlongrightarrow> ereal a) F \<longleftrightarrow> (f \<longlongrightarrow> a) F"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3712	"((ereal \<circ> f) \<longlongrightarrow> \<infinity>) F \<longleftrightarrow> (LIM x F. f x :> at_top)"
0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3713	"((ereal \<circ> f) \<longlongrightarrow> -\<infinity>) F \<longleftrightarrow> (LIM x F. f x :> at_bot)"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3714	unfolding tendsto_PInfty filterlim_at_top_dense tendsto_MInfty filterlim_at_bot_dense
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3715	using lim_ereal by (simp_all add: comp_def)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3716
61976 3a27957ac658 more symbols; wenzelm parents: 61973 diff changeset	3717	lemma inverse_infty_ereal_tendsto_0: "inverse \<midarrow>\<infinity>\<rightarrow> (0::ereal)"
61245 b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3718	proof -
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3719	have **: "((\<lambda>x. ereal (inverse x)) \<longlongrightarrow> ereal 0) at_infinity"
61245 b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3720	by (intro tendsto_intros tendsto_inverse_0)
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	3721
61245 b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3722	show ?thesis
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3723	by (simp add: at_infty_ereal_eq_at_top tendsto_compose_filtermap[symmetric] comp_def)
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3724	(auto simp: eventually_at_top_linorder exI[of _ 1] zero_ereal_def at_top_le_at_infinity
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3725	intro!: filterlim_mono_eventually[OF **])
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3726	qed
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3727
61738 c4f6031f1310 New material about paths, winding numbers, etc. Added lemmas to divide_const_simps. Misc tuning. paulson <lp15@cam.ac.uk> parents: 61631 diff changeset	3728	lemma inverse_ereal_tendsto_pos:
61245 b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3729	fixes x :: ereal assumes "0 < x"
61976 3a27957ac658 more symbols; wenzelm parents: 61973 diff changeset	3730	shows "inverse \<midarrow>x\<rightarrow> inverse x"
61245 b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3731	proof (cases x)
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3732	case (real r)
61976 3a27957ac658 more symbols; wenzelm parents: 61973 diff changeset	3733	with \<open>0 < x\<close> have **: "(\<lambda>x. ereal (inverse x)) \<midarrow>r\<rightarrow> ereal (inverse r)"
61245 b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3734	by (auto intro!: tendsto_inverse)
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3735	from real \<open>0 < x\<close> show ?thesis
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3736	by (auto simp: at_ereal tendsto_compose_filtermap[symmetric] eventually_at_filter
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3737	intro!: Lim_transform_eventually[OF _ **] t1_space_nhds)
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3738	qed (insert \<open>0 < x\<close>, auto intro!: inverse_infty_ereal_tendsto_0)
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3739
61973 0c7e865fa7cb more symbols; wenzelm parents: 61969 diff changeset	3740	lemma inverse_ereal_tendsto_at_right_0: "(inverse \<longlongrightarrow> \<infinity>) (at_right (0::ereal))"
61245 b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3741	unfolding tendsto_compose_filtermap[symmetric] at_right_ereal zero_ereal_def
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3742	by (subst filterlim_cong[OF refl refl, where g="\<lambda>x. ereal (inverse x)"])
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3743	(auto simp: eventually_at_filter tendsto_PInfty_eq_at_top filterlim_inverse_at_top_right)
b77bf45efe21 prove Liminf_inverse_ereal hoelzl parents: 61188 diff changeset	3744
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3745	lemmas ereal_tendsto_simps = ereal_tendsto_simps1 ereal_tendsto_simps2
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3746
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3747	lemma continuous_at_iff_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3748	fixes f :: "'a::t2_space \<Rightarrow> real"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3749	shows "continuous (at x0 within s) f \<longleftrightarrow> continuous (at x0 within s) (ereal \<circ> f)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3750	unfolding continuous_within comp_def lim_ereal ..
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3751
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3752	lemma continuous_on_iff_ereal:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3753	fixes f :: "'a::t2_space => real"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3754	assumes "open A"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3755	shows "continuous_on A f \<longleftrightarrow> continuous_on A (ereal \<circ> f)"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3756	unfolding continuous_on_def comp_def lim_ereal ..
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3757
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3758	lemma continuous_on_real: "continuous_on (UNIV - {\<infinity>, -\<infinity>::ereal}) real_of_ereal"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3759	using continuous_at_of_ereal continuous_on_eq_continuous_at open_image_ereal
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3760	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3761
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3762	lemma continuous_on_iff_real:
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3763	fixes f :: "'a::t2_space \<Rightarrow> ereal"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3764	assumes *: "\<And>x. x \<in> A \<Longrightarrow> \<bar>f x\<bar> \<noteq> \<infinity>"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3765	shows "continuous_on A f \<longleftrightarrow> continuous_on A (real_of_ereal \<circ> f)"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3766	proof -
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3767	have "f ` A \<subseteq> UNIV - {\<infinity>, -\<infinity>}"
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3768	using assms by force
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3769	then have *: "continuous_on (f ` A) real_of_ereal"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3770	using continuous_on_real by (simp add: continuous_on_subset)
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3771	have **: "continuous_on ((real_of_ereal \<circ> f) ` A) ereal"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3772	by (intro continuous_on_ereal continuous_on_id)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3773	{
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3774	assume "continuous_on A f"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3775	then have "continuous_on A (real_of_ereal \<circ> f)"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3776	apply (subst continuous_on_compose)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3777	using *
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3778	apply auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3779	done
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3780	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3781	moreover
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3782	{
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3783	assume "continuous_on A (real_of_ereal \<circ> f)"
77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3784	then have "continuous_on A (ereal \<circ> (real_of_ereal \<circ> f))"
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3785	apply (subst continuous_on_compose)
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3786	using **
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3787	apply auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3788	done
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3789	then have "continuous_on A f"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3790	apply (subst continuous_on_cong[of _ A _ "ereal \<circ> (real_of_ereal \<circ> f)"])
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3791	using assms ereal_real
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3792	apply auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3793	done
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3794	}
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3795	ultimately show ?thesis
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3796	by auto
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3797	qed
8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3798
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3799	lemma continuous_uminus_ereal [continuous_intros]: "continuous_on (A :: ereal set) uminus"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3800	unfolding continuous_on_def
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3801	by (intro ballI tendsto_uminus_ereal[of "\<lambda>x. x::ereal"]) simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3802
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3803	lemma ereal_uminus_atMost [simp]: "uminus ` {..(a::ereal)} = {-a..}"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3804	proof (intro equalityI subsetI)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3805	fix x :: ereal assume "x \<in> {-a..}"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3806	hence "-(-x) \<in> uminus ` {..a}" by (intro imageI) (simp add: ereal_uminus_le_reorder)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3807	thus "x \<in> uminus ` {..a}" by simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3808	qed auto
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3809
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3810	lemma continuous_on_inverse_ereal [continuous_intros]:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3811	"continuous_on {0::ereal ..} inverse"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3812	unfolding continuous_on_def
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3813	proof clarsimp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3814	fix x :: ereal assume "0 \<le> x"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3815	moreover have "at 0 within {0 ..} = at_right (0::ereal)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3816	by (auto simp: filter_eq_iff eventually_at_filter le_less)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3817	moreover have "at x within {0 ..} = at x" if "0 < x"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3818	using that by (intro at_within_nhd[of _ "{0<..}"]) auto
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3819	ultimately show "(inverse \<longlongrightarrow> inverse x) (at x within {0..})"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3820	by (auto simp: le_less inverse_ereal_tendsto_at_right_0 inverse_ereal_tendsto_pos)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3821	qed
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3822
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3823	lemma continuous_inverse_ereal_nonpos: "continuous_on ({..<0} :: ereal set) inverse"
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3824	proof (subst continuous_on_cong[OF refl])
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3825	have "continuous_on {(0::ereal)<..} inverse"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3826	by (rule continuous_on_subset[OF continuous_on_inverse_ereal]) auto
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3827	thus "continuous_on {..<(0::ereal)} (uminus \<circ> inverse \<circ> uminus)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3828	by (intro continuous_intros) simp_all
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3829	qed simp
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3830
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3831	lemma tendsto_inverse_ereal:
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3832	assumes "(f \<longlongrightarrow> (c :: ereal)) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3833	assumes "eventually (\<lambda>x. f x \<ge> 0) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3834	shows "((\<lambda>x. inverse (f x)) \<longlongrightarrow> inverse c) F"
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3835	by (cases "F = bot")
acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3836	(auto intro!: tendsto_le_const[of F] assms
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3837	continuous_on_tendsto_compose[OF continuous_on_inverse_ereal])
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3838
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3839
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3840	subsubsection \<open>liminf and limsup\<close>
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3841
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3842	lemma Limsup_ereal_mult_right:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3843	assumes "F \<noteq> bot" "(c::real) \<ge> 0"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3844	shows "Limsup F (\<lambda>n. f n * ereal c) = Limsup F f * ereal c"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3845	proof (rule Limsup_compose_continuous_mono)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3846	from assms show "continuous_on UNIV (\<lambda>a. a * ereal c)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3847	using tendsto_cmult_ereal[of "ereal c" "\<lambda>x. x" ]
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3848	by (force simp: continuous_on_def mult_ac)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3849	qed (insert assms, auto simp: mono_def ereal_mult_right_mono)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3850
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3851	lemma Liminf_ereal_mult_right:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3852	assumes "F \<noteq> bot" "(c::real) \<ge> 0"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3853	shows "Liminf F (\<lambda>n. f n * ereal c) = Liminf F f * ereal c"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3854	proof (rule Liminf_compose_continuous_mono)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3855	from assms show "continuous_on UNIV (\<lambda>a. a * ereal c)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3856	using tendsto_cmult_ereal[of "ereal c" "\<lambda>x. x" ]
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3857	by (force simp: continuous_on_def mult_ac)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3858	qed (insert assms, auto simp: mono_def ereal_mult_right_mono)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3859
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3860	lemma Limsup_ereal_mult_left:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3861	assumes "F \<noteq> bot" "(c::real) \<ge> 0"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3862	shows "Limsup F (\<lambda>n. ereal c * f n) = ereal c * Limsup F f"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3863	using Limsup_ereal_mult_right[OF assms] by (subst (1 2) mult.commute)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3864
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3865	lemma limsup_ereal_mult_right:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3866	"(c::real) \<ge> 0 \<Longrightarrow> limsup (\<lambda>n. f n * ereal c) = limsup f * ereal c"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3867	by (rule Limsup_ereal_mult_right) simp_all
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3868
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3869	lemma limsup_ereal_mult_left:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3870	"(c::real) \<ge> 0 \<Longrightarrow> limsup (\<lambda>n. ereal c * f n) = ereal c * limsup f"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3871	by (subst (1 2) mult.commute, rule limsup_ereal_mult_right) simp_all
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3872
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3873	lemma Limsup_add_ereal_right:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3874	"F \<noteq> bot \<Longrightarrow> abs c \<noteq> \<infinity> \<Longrightarrow> Limsup F (\<lambda>n. g n + (c :: ereal)) = Limsup F g + c"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3875	by (rule Limsup_compose_continuous_mono) (auto simp: mono_def ereal_add_mono continuous_on_def)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3876
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3877	lemma Limsup_add_ereal_left:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3878	"F \<noteq> bot \<Longrightarrow> abs c \<noteq> \<infinity> \<Longrightarrow> Limsup F (\<lambda>n. (c :: ereal) + g n) = c + Limsup F g"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3879	by (subst (1 2) add.commute) (rule Limsup_add_ereal_right)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3880
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3881	lemma Liminf_add_ereal_right:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3882	"F \<noteq> bot \<Longrightarrow> abs c \<noteq> \<infinity> \<Longrightarrow> Liminf F (\<lambda>n. g n + (c :: ereal)) = Liminf F g + c"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3883	by (rule Liminf_compose_continuous_mono) (auto simp: mono_def ereal_add_mono continuous_on_def)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3884
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3885	lemma Liminf_add_ereal_left:
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3886	"F \<noteq> bot \<Longrightarrow> abs c \<noteq> \<infinity> \<Longrightarrow> Liminf F (\<lambda>n. (c :: ereal) + g n) = c + Liminf F g"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3887	by (subst (1 2) add.commute) (rule Liminf_add_ereal_right)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3888
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3889	lemma
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3890	assumes "F \<noteq> bot"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3891	assumes nonneg: "eventually (\<lambda>x. f x \<ge> (0::ereal)) F"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3892	shows Liminf_inverse_ereal: "Liminf F (\<lambda>x. inverse (f x)) = inverse (Limsup F f)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3893	and Limsup_inverse_ereal: "Limsup F (\<lambda>x. inverse (f x)) = inverse (Liminf F f)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3894	proof -
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3895	def inv \<equiv> "\<lambda>x. if x \<le> 0 then \<infinity> else inverse x :: ereal"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3896	have "continuous_on ({..0} \<union> {0..}) inv" unfolding inv_def
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3897	by (intro continuous_on_If) (auto intro!: continuous_intros)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3898	also have "{..0} \<union> {0..} = (UNIV :: ereal set)" by auto
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3899	finally have cont: "continuous_on UNIV inv" .
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3900	have antimono: "antimono inv" unfolding inv_def antimono_def
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3901	by (auto intro!: ereal_inverse_antimono)
62369 acfc4ad7b76a instantiate topologies for nat, int and enat hoelzl parents: 62343 diff changeset	3902
62049 b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3903	have "Liminf F (\<lambda>x. inverse (f x)) = Liminf F (\<lambda>x. inv (f x))" using nonneg
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3904	by (auto intro!: Liminf_eq elim!: eventually_mono simp: inv_def)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3905	also have "... = inv (Limsup F f)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3906	by (simp add: assms(1) Liminf_compose_continuous_antimono[OF cont antimono])
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3907	also from assms have "Limsup F f \<ge> 0" by (intro le_Limsup) simp_all
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3908	hence "inv (Limsup F f) = inverse (Limsup F f)" by (simp add: inv_def)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3909	finally show "Liminf F (\<lambda>x. inverse (f x)) = inverse (Limsup F f)" .
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3910
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3911	have "Limsup F (\<lambda>x. inverse (f x)) = Limsup F (\<lambda>x. inv (f x))" using nonneg
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3912	by (auto intro!: Limsup_eq elim!: eventually_mono simp: inv_def)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3913	also have "... = inv (Liminf F f)"
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3914	by (simp add: assms(1) Limsup_compose_continuous_antimono[OF cont antimono])
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3915	also from assms have "Liminf F f \<ge> 0" by (intro Liminf_bounded) simp_all
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3916	hence "inv (Liminf F f) = inverse (Liminf F f)" by (simp add: inv_def)
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3917	finally show "Limsup F (\<lambda>x. inverse (f x)) = inverse (Liminf F f)" .
b0f941e207cf Added lots of material on infinite sums, convergence radii, harmonic numbers, Gamma function eberlm parents: 61976 diff changeset	3918	qed
60771 8558e4a37b48 reorganized Extended_Real hoelzl parents: 60762 diff changeset	3919
60500 903bb1495239 isabelle update_cartouches; wenzelm parents: 60429 diff changeset	3920	subsubsection \<open>Tests for code generator\<close>
43933 6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	3921
6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	3922	(* A small list of simple arithmetic expressions *)
6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	3923
56927 4044a7d1720f hardcoded nbe and sml into value command haftmann parents: 56889 diff changeset	3924	value "- \<infinity> :: ereal"
4044a7d1720f hardcoded nbe and sml into value command haftmann parents: 56889 diff changeset	3925	value "\<bar>-\<infinity>\<bar> :: ereal"
4044a7d1720f hardcoded nbe and sml into value command haftmann parents: 56889 diff changeset	3926	value "4 + 5 / 4 - ereal 2 :: ereal"
4044a7d1720f hardcoded nbe and sml into value command haftmann parents: 56889 diff changeset	3927	value "ereal 3 < \<infinity>"
61609 77b453bd616f Coercion "real" now has type nat => real only and is no longer overloaded. Type class "real_of" is gone. Many duplicate theorems removed. paulson <lp15@cam.ac.uk> parents: 61245 diff changeset	3928	value "real_of_ereal (\<infinity>::ereal) = 0"
43933 6cc1875cf35d add code generator setup and tests for ereal hoelzl parents: 43924 diff changeset	3929
41973 15927c040731 add Extended_Reals from AFP/Lower_Semicontinuous hoelzl parents: diff changeset	3930	end

author	wenzelm
	Fri, 18 Mar 2016 17:58:19 +0100
changeset 62668	360d3464919c
parent 62626	de25474ce728
child 62648	ee48e0b4f669
permissions	-rw-r--r--