| author | wenzelm |
| Sat, 13 Aug 2022 14:45:36 +0200 | |
| changeset 75841 | 7c00d5266bf8 |
| parent 73932 | fd21b4a93043 |
| child 75866 | 9eeed5c424f9 |
| permissions | -rw-r--r-- |
| 62479 | 1 |
(* Title: HOL/Nonstandard_Analysis/NSA.thy |
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eliminated hard tabulators, guessing at each author's individual tab-width;
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Author: Jacques D. Fleuriot, University of Cambridge |
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69916a850301
eliminated hard tabulators, guessing at each author's individual tab-width;
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parents:
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Author: Lawrence C Paulson, University of Cambridge |
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*) |
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section \<open>Infinite Numbers, Infinitesimals, Infinitely Close Relation\<close> |
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theory NSA |
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imports HyperDef "HOL-Library.Lub_Glb" |
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begin |
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definition hnorm :: "'a::real_normed_vector star \<Rightarrow> real star" |
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where [transfer_unfold]: "hnorm = *f* norm" |
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definition Infinitesimal :: "('a::real_normed_vector) star set"
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where "Infinitesimal = {x. \<forall>r \<in> Reals. 0 < r \<longrightarrow> hnorm x < r}"
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definition HFinite :: "('a::real_normed_vector) star set"
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where "HFinite = {x. \<exists>r \<in> Reals. hnorm x < r}"
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definition HInfinite :: "('a::real_normed_vector) star set"
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where "HInfinite = {x. \<forall>r \<in> Reals. r < hnorm x}"
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definition approx :: "'a::real_normed_vector star \<Rightarrow> 'a star \<Rightarrow> bool" (infixl "\<approx>" 50) |
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where "x \<approx> y \<longleftrightarrow> x - y \<in> Infinitesimal" |
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\<comment> \<open>the ``infinitely close'' relation\<close> |
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definition st :: "hypreal \<Rightarrow> hypreal" |
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where "st = (\<lambda>x. SOME r. x \<in> HFinite \<and> r \<in> \<real> \<and> r \<approx> x)" |
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\<comment> \<open>the standard part of a hyperreal\<close> |
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definition monad :: "'a::real_normed_vector star \<Rightarrow> 'a star set" |
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where "monad x = {y. x \<approx> y}"
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definition galaxy :: "'a::real_normed_vector star \<Rightarrow> 'a star set" |
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where "galaxy x = {y. (x + -y) \<in> HFinite}"
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lemma SReal_def: "\<real> \<equiv> {x. \<exists>r. x = hypreal_of_real r}"
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by (simp add: Reals_def image_def) |
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subsection \<open>Nonstandard Extension of the Norm Function\<close> |
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definition scaleHR :: "real star \<Rightarrow> 'a star \<Rightarrow> 'a::real_normed_vector star" |
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where [transfer_unfold]: "scaleHR = starfun2 scaleR" |
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lemma Standard_hnorm [simp]: "x \<in> Standard \<Longrightarrow> hnorm x \<in> Standard" |
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by (simp add: hnorm_def) |
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lemma star_of_norm [simp]: "star_of (norm x) = hnorm (star_of x)" |
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by transfer (rule refl) |
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lemma hnorm_ge_zero [simp]: "\<And>x::'a::real_normed_vector star. 0 \<le> hnorm x" |
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by transfer (rule norm_ge_zero) |
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lemma hnorm_eq_zero [simp]: "\<And>x::'a::real_normed_vector star. hnorm x = 0 \<longleftrightarrow> x = 0" |
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by transfer (rule norm_eq_zero) |
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lemma hnorm_triangle_ineq: "\<And>x y::'a::real_normed_vector star. hnorm (x + y) \<le> hnorm x + hnorm y" |
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by transfer (rule norm_triangle_ineq) |
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lemma hnorm_triangle_ineq3: "\<And>x y::'a::real_normed_vector star. \<bar>hnorm x - hnorm y\<bar> \<le> hnorm (x - y)" |
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by transfer (rule norm_triangle_ineq3) |
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lemma hnorm_scaleR: "\<And>x::'a::real_normed_vector star. hnorm (a *\<^sub>R x) = \<bar>star_of a\<bar> * hnorm x" |
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by transfer (rule norm_scaleR) |
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lemma hnorm_scaleHR: "\<And>a (x::'a::real_normed_vector star). hnorm (scaleHR a x) = \<bar>a\<bar> * hnorm x" |
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by transfer (rule norm_scaleR) |
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lemma hnorm_mult_ineq: "\<And>x y::'a::real_normed_algebra star. hnorm (x * y) \<le> hnorm x * hnorm y" |
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by transfer (rule norm_mult_ineq) |
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lemma hnorm_mult: "\<And>x y::'a::real_normed_div_algebra star. hnorm (x * y) = hnorm x * hnorm y" |
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by transfer (rule norm_mult) |
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lemma hnorm_hyperpow: "\<And>(x::'a::{real_normed_div_algebra} star) n. hnorm (x pow n) = hnorm x pow n"
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by transfer (rule norm_power) |
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lemma hnorm_one [simp]: "hnorm (1::'a::real_normed_div_algebra star) = 1" |
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by transfer (rule norm_one) |
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lemma hnorm_zero [simp]: "hnorm (0::'a::real_normed_vector star) = 0" |
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by transfer (rule norm_zero) |
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lemma zero_less_hnorm_iff [simp]: "\<And>x::'a::real_normed_vector star. 0 < hnorm x \<longleftrightarrow> x \<noteq> 0" |
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by transfer (rule zero_less_norm_iff) |
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lemma hnorm_minus_cancel [simp]: "\<And>x::'a::real_normed_vector star. hnorm (- x) = hnorm x" |
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by transfer (rule norm_minus_cancel) |
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lemma hnorm_minus_commute: "\<And>a b::'a::real_normed_vector star. hnorm (a - b) = hnorm (b - a)" |
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by transfer (rule norm_minus_commute) |
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lemma hnorm_triangle_ineq2: "\<And>a b::'a::real_normed_vector star. hnorm a - hnorm b \<le> hnorm (a - b)" |
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by transfer (rule norm_triangle_ineq2) |
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lemma hnorm_triangle_ineq4: "\<And>a b::'a::real_normed_vector star. hnorm (a - b) \<le> hnorm a + hnorm b" |
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by transfer (rule norm_triangle_ineq4) |
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lemma abs_hnorm_cancel [simp]: "\<And>a::'a::real_normed_vector star. \<bar>hnorm a\<bar> = hnorm a" |
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by transfer (rule abs_norm_cancel) |
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lemma hnorm_of_hypreal [simp]: "\<And>r. hnorm (of_hypreal r::'a::real_normed_algebra_1 star) = \<bar>r\<bar>" |
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by transfer (rule norm_of_real) |
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lemma nonzero_hnorm_inverse: |
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"\<And>a::'a::real_normed_div_algebra star. a \<noteq> 0 \<Longrightarrow> hnorm (inverse a) = inverse (hnorm a)" |
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by transfer (rule nonzero_norm_inverse) |
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lemma hnorm_inverse: |
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"\<And>a::'a::{real_normed_div_algebra, division_ring} star. hnorm (inverse a) = inverse (hnorm a)"
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by transfer (rule norm_inverse) |
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lemma hnorm_divide: "\<And>a b::'a::{real_normed_field, field} star. hnorm (a / b) = hnorm a / hnorm b"
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by transfer (rule norm_divide) |
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lemma hypreal_hnorm_def [simp]: "\<And>r::hypreal. hnorm r = \<bar>r\<bar>" |
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by transfer (rule real_norm_def) |
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lemma hnorm_add_less: |
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"\<And>(x::'a::real_normed_vector star) y r s. hnorm x < r \<Longrightarrow> hnorm y < s \<Longrightarrow> hnorm (x + y) < r + s" |
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by transfer (rule norm_add_less) |
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lemma hnorm_mult_less: |
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"\<And>(x::'a::real_normed_algebra star) y r s. hnorm x < r \<Longrightarrow> hnorm y < s \<Longrightarrow> hnorm (x * y) < r * s" |
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by transfer (rule norm_mult_less) |
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lemma hnorm_scaleHR_less: "\<bar>x\<bar> < r \<Longrightarrow> hnorm y < s \<Longrightarrow> hnorm (scaleHR x y) < r * s" |
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by (simp only: hnorm_scaleHR) (simp add: mult_strict_mono') |
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subsection \<open>Closure Laws for the Standard Reals\<close> |
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lemma Reals_add_cancel: "x + y \<in> \<real> \<Longrightarrow> y \<in> \<real> \<Longrightarrow> x \<in> \<real>" |
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by (drule (1) Reals_diff) simp |
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lemma SReal_hrabs: "x \<in> \<real> \<Longrightarrow> \<bar>x\<bar> \<in> \<real>" |
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for x :: hypreal |
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by (simp add: Reals_eq_Standard) |
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lemma SReal_hypreal_of_real [simp]: "hypreal_of_real x \<in> \<real>" |
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by (simp add: Reals_eq_Standard) |
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lemma SReal_divide_numeral: "r \<in> \<real> \<Longrightarrow> r / (numeral w::hypreal) \<in> \<real>" |
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by simp |
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text \<open>\<open>\<epsilon>\<close> is not in Reals because it is an infinitesimal\<close> |
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lemma SReal_epsilon_not_mem: "\<epsilon> \<notin> \<real>" |
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by (auto simp: SReal_def hypreal_of_real_not_eq_epsilon [symmetric]) |
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lemma SReal_omega_not_mem: "\<omega> \<notin> \<real>" |
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by (auto simp: SReal_def hypreal_of_real_not_eq_omega [symmetric]) |
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lemma SReal_UNIV_real: "{x. hypreal_of_real x \<in> \<real>} = (UNIV::real set)"
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by simp |
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lemma SReal_iff: "x \<in> \<real> \<longleftrightarrow> (\<exists>y. x = hypreal_of_real y)" |
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by (simp add: SReal_def) |
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lemma hypreal_of_real_image: "hypreal_of_real `(UNIV::real set) = \<real>" |
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by (simp add: Reals_eq_Standard Standard_def) |
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lemma inv_hypreal_of_real_image: "inv hypreal_of_real ` \<real> = UNIV" |
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by (simp add: Reals_eq_Standard Standard_def inj_star_of) |
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lemma SReal_dense: "x \<in> \<real> \<Longrightarrow> y \<in> \<real> \<Longrightarrow> x < y \<Longrightarrow> \<exists>r \<in> Reals. x < r \<and> r < y" |
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for x y :: hypreal |
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using dense by (fastforce simp add: SReal_def) |
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subsection \<open>Set of Finite Elements is a Subring of the Extended Reals\<close> |
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lemma HFinite_add: "x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> x + y \<in> HFinite" |
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unfolding HFinite_def by (blast intro!: Reals_add hnorm_add_less) |
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lemma HFinite_mult: "x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> x * y \<in> HFinite" |
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for x y :: "'a::real_normed_algebra star" |
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unfolding HFinite_def by (blast intro!: Reals_mult hnorm_mult_less) |
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lemma HFinite_scaleHR: "x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> scaleHR x y \<in> HFinite" |
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by (auto simp: HFinite_def intro!: Reals_mult hnorm_scaleHR_less) |
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lemma HFinite_minus_iff: "- x \<in> HFinite \<longleftrightarrow> x \<in> HFinite" |
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by (simp add: HFinite_def) |
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lemma HFinite_star_of [simp]: "star_of x \<in> HFinite" |
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by (simp add: HFinite_def) (metis SReal_hypreal_of_real gt_ex star_of_less star_of_norm) |
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lemma SReal_subset_HFinite: "(\<real>::hypreal set) \<subseteq> HFinite" |
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by (auto simp add: SReal_def) |
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lemma HFiniteD: "x \<in> HFinite \<Longrightarrow> \<exists>t \<in> Reals. hnorm x < t" |
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by (simp add: HFinite_def) |
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lemma HFinite_hrabs_iff [iff]: "\<bar>x\<bar> \<in> HFinite \<longleftrightarrow> x \<in> HFinite" |
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for x :: hypreal |
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by (simp add: HFinite_def) |
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lemma HFinite_hnorm_iff [iff]: "hnorm x \<in> HFinite \<longleftrightarrow> x \<in> HFinite" |
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for x :: hypreal |
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by (simp add: HFinite_def) |
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lemma HFinite_numeral [simp]: "numeral w \<in> HFinite" |
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unfolding star_numeral_def by (rule HFinite_star_of) |
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text \<open>As always with numerals, \<open>0\<close> and \<open>1\<close> are special cases.\<close> |
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lemma HFinite_0 [simp]: "0 \<in> HFinite" |
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unfolding star_zero_def by (rule HFinite_star_of) |
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lemma HFinite_1 [simp]: "1 \<in> HFinite" |
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unfolding star_one_def by (rule HFinite_star_of) |
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lemma hrealpow_HFinite: "x \<in> HFinite \<Longrightarrow> x ^ n \<in> HFinite" |
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for x :: "'a::{real_normed_algebra,monoid_mult} star"
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by (induct n) (auto intro: HFinite_mult) |
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lemma HFinite_bounded: |
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fixes x y :: hypreal |
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assumes "x \<in> HFinite" and y: "y \<le> x" "0 \<le> y" shows "y \<in> HFinite" |
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proof (cases "x \<le> 0") |
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case True |
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then have "y = 0" |
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using y by auto |
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then show ?thesis |
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by simp |
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next |
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case False |
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then show ?thesis |
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using assms le_less_trans by (auto simp: HFinite_def) |
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qed |
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subsection \<open>Set of Infinitesimals is a Subring of the Hyperreals\<close> |
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lemma InfinitesimalI: "(\<And>r. r \<in> \<real> \<Longrightarrow> 0 < r \<Longrightarrow> hnorm x < r) \<Longrightarrow> x \<in> Infinitesimal" |
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by (simp add: Infinitesimal_def) |
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lemma InfinitesimalD: "x \<in> Infinitesimal \<Longrightarrow> \<forall>r \<in> Reals. 0 < r \<longrightarrow> hnorm x < r" |
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by (simp add: Infinitesimal_def) |
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lemma InfinitesimalI2: "(\<And>r. 0 < r \<Longrightarrow> hnorm x < star_of r) \<Longrightarrow> x \<in> Infinitesimal" |
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by (auto simp add: Infinitesimal_def SReal_def) |
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lemma InfinitesimalD2: "x \<in> Infinitesimal \<Longrightarrow> 0 < r \<Longrightarrow> hnorm x < star_of r" |
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by (auto simp add: Infinitesimal_def SReal_def) |
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lemma Infinitesimal_zero [iff]: "0 \<in> Infinitesimal" |
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by (simp add: Infinitesimal_def) |
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lemma Infinitesimal_add: |
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assumes "x \<in> Infinitesimal" "y \<in> Infinitesimal" |
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shows "x + y \<in> Infinitesimal" |
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proof (rule InfinitesimalI) |
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show "hnorm (x + y) < r" |
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if "r \<in> \<real>" and "0 < r" for r :: "real star" |
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proof - |
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have "hnorm x < r/2" "hnorm y < r/2" |
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using InfinitesimalD SReal_divide_numeral assms half_gt_zero that by blast+ |
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then show ?thesis |
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using hnorm_add_less by fastforce |
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qed |
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qed |
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lemma Infinitesimal_minus_iff [simp]: "- x \<in> Infinitesimal \<longleftrightarrow> x \<in> Infinitesimal" |
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by (simp add: Infinitesimal_def) |
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lemma Infinitesimal_hnorm_iff: "hnorm x \<in> Infinitesimal \<longleftrightarrow> x \<in> Infinitesimal" |
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by (simp add: Infinitesimal_def) |
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lemma Infinitesimal_hrabs_iff [iff]: "\<bar>x\<bar> \<in> Infinitesimal \<longleftrightarrow> x \<in> Infinitesimal" |
273 |
for x :: hypreal |
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by (simp add: abs_if) |
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lemma Infinitesimal_of_hypreal_iff [simp]: |
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"(of_hypreal x::'a::real_normed_algebra_1 star) \<in> Infinitesimal \<longleftrightarrow> x \<in> Infinitesimal" |
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by (subst Infinitesimal_hnorm_iff [symmetric]) simp |
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lemma Infinitesimal_diff: "x \<in> Infinitesimal \<Longrightarrow> y \<in> Infinitesimal \<Longrightarrow> x - y \<in> Infinitesimal" |
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using Infinitesimal_add [of x "- y"] by simp |
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lemma Infinitesimal_mult: |
284 |
fixes x y :: "'a::real_normed_algebra star" |
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assumes "x \<in> Infinitesimal" "y \<in> Infinitesimal" |
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shows "x * y \<in> Infinitesimal" |
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proof (rule InfinitesimalI) |
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288 |
show "hnorm (x * y) < r" |
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if "r \<in> \<real>" and "0 < r" for r :: "real star" |
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proof - |
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have "hnorm x < 1" "hnorm y < r" |
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using assms that by (auto simp add: InfinitesimalD) |
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then show ?thesis |
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using hnorm_mult_less by fastforce |
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qed |
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qed |
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lemma Infinitesimal_HFinite_mult: |
299 |
fixes x y :: "'a::real_normed_algebra star" |
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assumes "x \<in> Infinitesimal" "y \<in> HFinite" |
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shows "x * y \<in> Infinitesimal" |
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proof (rule InfinitesimalI) |
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obtain t where "hnorm y < t" "t \<in> Reals" |
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using HFiniteD \<open>y \<in> HFinite\<close> by blast |
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then have "t > 0" |
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using hnorm_ge_zero le_less_trans by blast |
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show "hnorm (x * y) < r" |
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if "r \<in> \<real>" and "0 < r" for r :: "real star" |
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proof - |
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310 |
have "hnorm x < r/t" |
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by (meson InfinitesimalD Reals_divide \<open>hnorm y < t\<close> \<open>t \<in> \<real>\<close> assms(1) divide_pos_pos hnorm_ge_zero le_less_trans that) |
|
312 |
then have "hnorm (x * y) < (r / t) * t" |
|
313 |
using \<open>hnorm y < t\<close> hnorm_mult_less by blast |
|
314 |
then show ?thesis |
|
315 |
using \<open>0 < t\<close> by auto |
|
316 |
qed |
|
317 |
qed |
|
| 27468 | 318 |
|
319 |
lemma Infinitesimal_HFinite_scaleHR: |
|
| 70221 | 320 |
assumes "x \<in> Infinitesimal" "y \<in> HFinite" |
321 |
shows "scaleHR x y \<in> Infinitesimal" |
|
322 |
proof (rule InfinitesimalI) |
|
323 |
obtain t where "hnorm y < t" "t \<in> Reals" |
|
324 |
using HFiniteD \<open>y \<in> HFinite\<close> by blast |
|
325 |
then have "t > 0" |
|
326 |
using hnorm_ge_zero le_less_trans by blast |
|
327 |
show "hnorm (scaleHR x y) < r" |
|
328 |
if "r \<in> \<real>" and "0 < r" for r :: "real star" |
|
329 |
proof - |
|
330 |
have "\<bar>x\<bar> * hnorm y < (r / t) * t" |
|
331 |
by (metis InfinitesimalD Reals_divide \<open>0 < t\<close> \<open>hnorm y < t\<close> \<open>t \<in> \<real>\<close> assms(1) divide_pos_pos hnorm_ge_zero hypreal_hnorm_def mult_strict_mono' that) |
|
332 |
then show ?thesis |
|
333 |
by (simp add: \<open>0 < t\<close> hnorm_scaleHR less_imp_not_eq2) |
|
334 |
qed |
|
335 |
qed |
|
| 27468 | 336 |
|
337 |
lemma Infinitesimal_HFinite_mult2: |
|
| 70221 | 338 |
fixes x y :: "'a::real_normed_algebra star" |
339 |
assumes "x \<in> Infinitesimal" "y \<in> HFinite" |
|
340 |
shows "y * x \<in> Infinitesimal" |
|
341 |
proof (rule InfinitesimalI) |
|
342 |
obtain t where "hnorm y < t" "t \<in> Reals" |
|
343 |
using HFiniteD \<open>y \<in> HFinite\<close> by blast |
|
344 |
then have "t > 0" |
|
345 |
using hnorm_ge_zero le_less_trans by blast |
|
346 |
show "hnorm (y * x) < r" |
|
347 |
if "r \<in> \<real>" and "0 < r" for r :: "real star" |
|
348 |
proof - |
|
349 |
have "hnorm x < r/t" |
|
350 |
by (meson InfinitesimalD Reals_divide \<open>hnorm y < t\<close> \<open>t \<in> \<real>\<close> assms(1) divide_pos_pos hnorm_ge_zero le_less_trans that) |
|
351 |
then have "hnorm (y * x) < t * (r / t)" |
|
352 |
using \<open>hnorm y < t\<close> hnorm_mult_less by blast |
|
353 |
then show ?thesis |
|
354 |
using \<open>0 < t\<close> by auto |
|
355 |
qed |
|
356 |
qed |
|
| 27468 | 357 |
|
| 70221 | 358 |
lemma Infinitesimal_scaleR2: |
359 |
assumes "x \<in> Infinitesimal" shows "a *\<^sub>R x \<in> Infinitesimal" |
|
360 |
by (metis HFinite_star_of Infinitesimal_HFinite_mult2 Infinitesimal_hnorm_iff assms hnorm_scaleR hypreal_hnorm_def star_of_norm) |
|
| 27468 | 361 |
|
362 |
lemma Compl_HFinite: "- HFinite = HInfinite" |
|
| 70221 | 363 |
proof - |
364 |
have "r < hnorm x" if *: "\<And>s. s \<in> \<real> \<Longrightarrow> s \<le> hnorm x" and "r \<in> \<real>" |
|
365 |
for x :: "'a star" and r :: hypreal |
|
366 |
using * [of "r+1"] \<open>r \<in> \<real>\<close> by auto |
|
367 |
then show ?thesis |
|
368 |
by (auto simp add: HInfinite_def HFinite_def linorder_not_less) |
|
369 |
qed |
|
| 27468 | 370 |
|
| 70221 | 371 |
lemma HInfinite_inverse_Infinitesimal: |
372 |
"x \<in> HInfinite \<Longrightarrow> inverse x \<in> Infinitesimal" |
|
| 64435 | 373 |
for x :: "'a::real_normed_div_algebra star" |
| 70221 | 374 |
by (simp add: HInfinite_def InfinitesimalI hnorm_inverse inverse_less_imp_less) |
375 |
||
376 |
lemma inverse_Infinitesimal_iff_HInfinite: |
|
377 |
"x \<noteq> 0 \<Longrightarrow> inverse x \<in> Infinitesimal \<longleftrightarrow> x \<in> HInfinite" |
|
378 |
for x :: "'a::real_normed_div_algebra star" |
|
379 |
by (metis Compl_HFinite Compl_iff HInfinite_inverse_Infinitesimal InfinitesimalD Infinitesimal_HFinite_mult Reals_1 hnorm_one left_inverse less_irrefl zero_less_one) |
|
| 27468 | 380 |
|
381 |
lemma HInfiniteI: "(\<And>r. r \<in> \<real> \<Longrightarrow> r < hnorm x) \<Longrightarrow> x \<in> HInfinite" |
|
| 64435 | 382 |
by (simp add: HInfinite_def) |
| 27468 | 383 |
|
| 64435 | 384 |
lemma HInfiniteD: "x \<in> HInfinite \<Longrightarrow> r \<in> \<real> \<Longrightarrow> r < hnorm x" |
385 |
by (simp add: HInfinite_def) |
|
| 27468 | 386 |
|
| 70221 | 387 |
lemma HInfinite_mult: |
388 |
fixes x y :: "'a::real_normed_div_algebra star" |
|
389 |
assumes "x \<in> HInfinite" "y \<in> HInfinite" shows "x * y \<in> HInfinite" |
|
390 |
proof (rule HInfiniteI, simp only: hnorm_mult) |
|
391 |
have "x \<noteq> 0" |
|
392 |
using Compl_HFinite HFinite_0 assms by blast |
|
393 |
show "r < hnorm x * hnorm y" |
|
394 |
if "r \<in> \<real>" for r :: "real star" |
|
395 |
proof - |
|
396 |
have "r = r * 1" |
|
397 |
by simp |
|
398 |
also have "\<dots> < hnorm x * hnorm y" |
|
399 |
by (meson HInfiniteD Reals_1 \<open>x \<noteq> 0\<close> assms le_numeral_extra(1) mult_strict_mono that zero_less_hnorm_iff) |
|
400 |
finally show ?thesis . |
|
401 |
qed |
|
402 |
qed |
|
| 27468 | 403 |
|
| 64435 | 404 |
lemma hypreal_add_zero_less_le_mono: "r < x \<Longrightarrow> 0 \<le> y \<Longrightarrow> r < x + y" |
405 |
for r x y :: hypreal |
|
| 70221 | 406 |
by simp |
| 27468 | 407 |
|
| 64435 | 408 |
lemma HInfinite_add_ge_zero: "x \<in> HInfinite \<Longrightarrow> 0 \<le> y \<Longrightarrow> 0 \<le> x \<Longrightarrow> x + y \<in> HInfinite" |
409 |
for x y :: hypreal |
|
410 |
by (auto simp: abs_if add.commute HInfinite_def) |
|
| 27468 | 411 |
|
| 64435 | 412 |
lemma HInfinite_add_ge_zero2: "x \<in> HInfinite \<Longrightarrow> 0 \<le> y \<Longrightarrow> 0 \<le> x \<Longrightarrow> y + x \<in> HInfinite" |
413 |
for x y :: hypreal |
|
414 |
by (auto intro!: HInfinite_add_ge_zero simp add: add.commute) |
|
| 27468 | 415 |
|
| 64435 | 416 |
lemma HInfinite_add_gt_zero: "x \<in> HInfinite \<Longrightarrow> 0 < y \<Longrightarrow> 0 < x \<Longrightarrow> x + y \<in> HInfinite" |
417 |
for x y :: hypreal |
|
418 |
by (blast intro: HInfinite_add_ge_zero order_less_imp_le) |
|
| 27468 | 419 |
|
| 64435 | 420 |
lemma HInfinite_minus_iff: "- x \<in> HInfinite \<longleftrightarrow> x \<in> HInfinite" |
421 |
by (simp add: HInfinite_def) |
|
| 27468 | 422 |
|
| 64435 | 423 |
lemma HInfinite_add_le_zero: "x \<in> HInfinite \<Longrightarrow> y \<le> 0 \<Longrightarrow> x \<le> 0 \<Longrightarrow> x + y \<in> HInfinite" |
424 |
for x y :: hypreal |
|
| 70221 | 425 |
by (metis (no_types, lifting) HInfinite_add_ge_zero2 HInfinite_minus_iff add.inverse_distrib_swap neg_0_le_iff_le) |
| 27468 | 426 |
|
| 64435 | 427 |
lemma HInfinite_add_lt_zero: "x \<in> HInfinite \<Longrightarrow> y < 0 \<Longrightarrow> x < 0 \<Longrightarrow> x + y \<in> HInfinite" |
428 |
for x y :: hypreal |
|
429 |
by (blast intro: HInfinite_add_le_zero order_less_imp_le) |
|
| 27468 | 430 |
|
| 64435 | 431 |
lemma not_Infinitesimal_not_zero: "x \<notin> Infinitesimal \<Longrightarrow> x \<noteq> 0" |
432 |
by auto |
|
| 27468 | 433 |
|
434 |
lemma HFinite_diff_Infinitesimal_hrabs: |
|
| 64435 | 435 |
"x \<in> HFinite - Infinitesimal \<Longrightarrow> \<bar>x\<bar> \<in> HFinite - Infinitesimal" |
436 |
for x :: hypreal |
|
437 |
by blast |
|
| 27468 | 438 |
|
| 64435 | 439 |
lemma hnorm_le_Infinitesimal: "e \<in> Infinitesimal \<Longrightarrow> hnorm x \<le> e \<Longrightarrow> x \<in> Infinitesimal" |
440 |
by (auto simp: Infinitesimal_def abs_less_iff) |
|
| 27468 | 441 |
|
| 64435 | 442 |
lemma hnorm_less_Infinitesimal: "e \<in> Infinitesimal \<Longrightarrow> hnorm x < e \<Longrightarrow> x \<in> Infinitesimal" |
443 |
by (erule hnorm_le_Infinitesimal, erule order_less_imp_le) |
|
| 27468 | 444 |
|
| 64435 | 445 |
lemma hrabs_le_Infinitesimal: "e \<in> Infinitesimal \<Longrightarrow> \<bar>x\<bar> \<le> e \<Longrightarrow> x \<in> Infinitesimal" |
446 |
for x :: hypreal |
|
447 |
by (erule hnorm_le_Infinitesimal) simp |
|
| 27468 | 448 |
|
| 64435 | 449 |
lemma hrabs_less_Infinitesimal: "e \<in> Infinitesimal \<Longrightarrow> \<bar>x\<bar> < e \<Longrightarrow> x \<in> Infinitesimal" |
450 |
for x :: hypreal |
|
451 |
by (erule hnorm_less_Infinitesimal) simp |
|
| 27468 | 452 |
|
453 |
lemma Infinitesimal_interval: |
|
| 64435 | 454 |
"e \<in> Infinitesimal \<Longrightarrow> e' \<in> Infinitesimal \<Longrightarrow> e' < x \<Longrightarrow> x < e \<Longrightarrow> x \<in> Infinitesimal" |
455 |
for x :: hypreal |
|
456 |
by (auto simp add: Infinitesimal_def abs_less_iff) |
|
| 27468 | 457 |
|
458 |
lemma Infinitesimal_interval2: |
|
| 64435 | 459 |
"e \<in> Infinitesimal \<Longrightarrow> e' \<in> Infinitesimal \<Longrightarrow> e' \<le> x \<Longrightarrow> x \<le> e \<Longrightarrow> x \<in> Infinitesimal" |
460 |
for x :: hypreal |
|
461 |
by (auto intro: Infinitesimal_interval simp add: order_le_less) |
|
| 27468 | 462 |
|
463 |
||
| 64435 | 464 |
lemma lemma_Infinitesimal_hyperpow: "x \<in> Infinitesimal \<Longrightarrow> 0 < N \<Longrightarrow> \<bar>x pow N\<bar> \<le> \<bar>x\<bar>" |
465 |
for x :: hypreal |
|
| 70221 | 466 |
apply (clarsimp simp: Infinitesimal_def) |
467 |
by (metis Reals_1 abs_ge_zero hyperpow_Suc_le_self2 hyperpow_hrabs hypnat_gt_zero_iff2 zero_less_one) |
|
| 27468 | 468 |
|
| 64435 | 469 |
lemma Infinitesimal_hyperpow: "x \<in> Infinitesimal \<Longrightarrow> 0 < N \<Longrightarrow> x pow N \<in> Infinitesimal" |
470 |
for x :: hypreal |
|
| 70221 | 471 |
using hrabs_le_Infinitesimal lemma_Infinitesimal_hyperpow by blast |
| 27468 | 472 |
|
473 |
lemma hrealpow_hyperpow_Infinitesimal_iff: |
|
| 64435 | 474 |
"(x ^ n \<in> Infinitesimal) \<longleftrightarrow> x pow (hypnat_of_nat n) \<in> Infinitesimal" |
475 |
by (simp only: hyperpow_hypnat_of_nat) |
|
| 27468 | 476 |
|
| 64435 | 477 |
lemma Infinitesimal_hrealpow: "x \<in> Infinitesimal \<Longrightarrow> 0 < n \<Longrightarrow> x ^ n \<in> Infinitesimal" |
478 |
for x :: hypreal |
|
479 |
by (simp add: hrealpow_hyperpow_Infinitesimal_iff Infinitesimal_hyperpow) |
|
| 27468 | 480 |
|
481 |
lemma not_Infinitesimal_mult: |
|
| 64435 | 482 |
"x \<notin> Infinitesimal \<Longrightarrow> y \<notin> Infinitesimal \<Longrightarrow> x * y \<notin> Infinitesimal" |
483 |
for x y :: "'a::real_normed_div_algebra star" |
|
| 70221 | 484 |
by (metis (no_types, lifting) inverse_Infinitesimal_iff_HInfinite ComplI Compl_HFinite Infinitesimal_HFinite_mult divide_inverse eq_divide_imp inverse_inverse_eq mult_zero_right) |
| 27468 | 485 |
|
| 64435 | 486 |
lemma Infinitesimal_mult_disj: "x * y \<in> Infinitesimal \<Longrightarrow> x \<in> Infinitesimal \<or> y \<in> Infinitesimal" |
487 |
for x y :: "'a::real_normed_div_algebra star" |
|
| 70221 | 488 |
using not_Infinitesimal_mult by blast |
| 27468 | 489 |
|
| 64435 | 490 |
lemma HFinite_Infinitesimal_not_zero: "x \<in> HFinite-Infinitesimal \<Longrightarrow> x \<noteq> 0" |
491 |
by blast |
|
| 27468 | 492 |
|
493 |
lemma HFinite_Infinitesimal_diff_mult: |
|
| 64435 | 494 |
"x \<in> HFinite - Infinitesimal \<Longrightarrow> y \<in> HFinite - Infinitesimal \<Longrightarrow> x * y \<in> HFinite - Infinitesimal" |
495 |
for x y :: "'a::real_normed_div_algebra star" |
|
| 70221 | 496 |
by (simp add: HFinite_mult not_Infinitesimal_mult) |
| 27468 | 497 |
|
| 64435 | 498 |
lemma Infinitesimal_subset_HFinite: "Infinitesimal \<subseteq> HFinite" |
| 70221 | 499 |
using HFinite_def InfinitesimalD Reals_1 zero_less_one by blast |
| 27468 | 500 |
|
| 64435 | 501 |
lemma Infinitesimal_star_of_mult: "x \<in> Infinitesimal \<Longrightarrow> x * star_of r \<in> Infinitesimal" |
502 |
for x :: "'a::real_normed_algebra star" |
|
503 |
by (erule HFinite_star_of [THEN [2] Infinitesimal_HFinite_mult]) |
|
| 27468 | 504 |
|
| 64435 | 505 |
lemma Infinitesimal_star_of_mult2: "x \<in> Infinitesimal \<Longrightarrow> star_of r * x \<in> Infinitesimal" |
506 |
for x :: "'a::real_normed_algebra star" |
|
507 |
by (erule HFinite_star_of [THEN [2] Infinitesimal_HFinite_mult2]) |
|
| 27468 | 508 |
|
509 |
||
| 64435 | 510 |
subsection \<open>The Infinitely Close Relation\<close> |
| 27468 | 511 |
|
| 64435 | 512 |
lemma mem_infmal_iff: "x \<in> Infinitesimal \<longleftrightarrow> x \<approx> 0" |
513 |
by (simp add: Infinitesimal_def approx_def) |
|
| 27468 | 514 |
|
| 64435 | 515 |
lemma approx_minus_iff: "x \<approx> y \<longleftrightarrow> x - y \<approx> 0" |
516 |
by (simp add: approx_def) |
|
| 27468 | 517 |
|
| 64435 | 518 |
lemma approx_minus_iff2: "x \<approx> y \<longleftrightarrow> - y + x \<approx> 0" |
519 |
by (simp add: approx_def add.commute) |
|
| 27468 | 520 |
|
| 61982 | 521 |
lemma approx_refl [iff]: "x \<approx> x" |
| 64435 | 522 |
by (simp add: approx_def Infinitesimal_def) |
| 27468 | 523 |
|
| 70221 | 524 |
lemma approx_sym: "x \<approx> y \<Longrightarrow> y \<approx> x" |
525 |
by (metis Infinitesimal_minus_iff approx_def minus_diff_eq) |
|
| 27468 | 526 |
|
| 70221 | 527 |
lemma approx_trans: |
528 |
assumes "x \<approx> y" "y \<approx> z" shows "x \<approx> z" |
|
529 |
proof - |
|
530 |
have "x - y \<in> Infinitesimal" "z - y \<in> Infinitesimal" |
|
531 |
using assms approx_def approx_sym by auto |
|
532 |
then have "x - z \<in> Infinitesimal" |
|
533 |
using Infinitesimal_diff by force |
|
534 |
then show ?thesis |
|
535 |
by (simp add: approx_def) |
|
536 |
qed |
|
| 27468 | 537 |
|
| 64435 | 538 |
lemma approx_trans2: "r \<approx> x \<Longrightarrow> s \<approx> x \<Longrightarrow> r \<approx> s" |
539 |
by (blast intro: approx_sym approx_trans) |
|
| 27468 | 540 |
|
| 64435 | 541 |
lemma approx_trans3: "x \<approx> r \<Longrightarrow> x \<approx> s \<Longrightarrow> r \<approx> s" |
542 |
by (blast intro: approx_sym approx_trans) |
|
| 27468 | 543 |
|
| 64435 | 544 |
lemma approx_reorient: "x \<approx> y \<longleftrightarrow> y \<approx> x" |
545 |
by (blast intro: approx_sym) |
|
| 27468 | 546 |
|
| 64435 | 547 |
text \<open>Reorientation simplification procedure: reorients (polymorphic) |
548 |
\<open>0 = x\<close>, \<open>1 = x\<close>, \<open>nnn = x\<close> provided \<open>x\<close> isn't \<open>0\<close>, \<open>1\<close> or a numeral.\<close> |
|
|
45541
934866fc776c
simplify implementation of approx_reorient_simproc
huffman
parents:
45540
diff
changeset
|
549 |
simproc_setup approx_reorient_simproc |
| 61982 | 550 |
("0 \<approx> x" | "1 \<approx> y" | "numeral w \<approx> z" | "- 1 \<approx> y" | "- numeral w \<approx> r") =
|
| 61975 | 551 |
\<open> |
|
45541
934866fc776c
simplify implementation of approx_reorient_simproc
huffman
parents:
45540
diff
changeset
|
552 |
let val rule = @{thm approx_reorient} RS eq_reflection
|
| 59582 | 553 |
fun proc phi ss ct = |
554 |
case Thm.term_of ct of |
|
|
45541
934866fc776c
simplify implementation of approx_reorient_simproc
huffman
parents:
45540
diff
changeset
|
555 |
_ $ t $ u => if can HOLogic.dest_number u then NONE |
|
934866fc776c
simplify implementation of approx_reorient_simproc
huffman
parents:
45540
diff
changeset
|
556 |
else if can HOLogic.dest_number t then SOME rule else NONE |
|
934866fc776c
simplify implementation of approx_reorient_simproc
huffman
parents:
45540
diff
changeset
|
557 |
| _ => NONE |
|
934866fc776c
simplify implementation of approx_reorient_simproc
huffman
parents:
45540
diff
changeset
|
558 |
in proc end |
| 61975 | 559 |
\<close> |
| 27468 | 560 |
|
| 64435 | 561 |
lemma Infinitesimal_approx_minus: "x - y \<in> Infinitesimal \<longleftrightarrow> x \<approx> y" |
562 |
by (simp add: approx_minus_iff [symmetric] mem_infmal_iff) |
|
| 27468 | 563 |
|
| 64435 | 564 |
lemma approx_monad_iff: "x \<approx> y \<longleftrightarrow> monad x = monad y" |
| 70221 | 565 |
apply (simp add: monad_def set_eq_iff) |
566 |
using approx_reorient approx_trans by blast |
|
| 27468 | 567 |
|
| 64435 | 568 |
lemma Infinitesimal_approx: "x \<in> Infinitesimal \<Longrightarrow> y \<in> Infinitesimal \<Longrightarrow> x \<approx> y" |
| 70221 | 569 |
by (simp add: Infinitesimal_diff approx_def) |
| 27468 | 570 |
|
| 64435 | 571 |
lemma approx_add: "a \<approx> b \<Longrightarrow> c \<approx> d \<Longrightarrow> a + c \<approx> b + d" |
| 27468 | 572 |
proof (unfold approx_def) |
573 |
assume inf: "a - b \<in> Infinitesimal" "c - d \<in> Infinitesimal" |
|
574 |
have "a + c - (b + d) = (a - b) + (c - d)" by simp |
|
| 64435 | 575 |
also have "... \<in> Infinitesimal" |
576 |
using inf by (rule Infinitesimal_add) |
|
| 27468 | 577 |
finally show "a + c - (b + d) \<in> Infinitesimal" . |
578 |
qed |
|
579 |
||
| 64435 | 580 |
lemma approx_minus: "a \<approx> b \<Longrightarrow> - a \<approx> - b" |
| 70221 | 581 |
by (metis approx_def approx_sym minus_diff_eq minus_diff_minus) |
| 27468 | 582 |
|
| 64435 | 583 |
lemma approx_minus2: "- a \<approx> - b \<Longrightarrow> a \<approx> b" |
584 |
by (auto dest: approx_minus) |
|
| 27468 | 585 |
|
| 64435 | 586 |
lemma approx_minus_cancel [simp]: "- a \<approx> - b \<longleftrightarrow> a \<approx> b" |
587 |
by (blast intro: approx_minus approx_minus2) |
|
| 27468 | 588 |
|
| 64435 | 589 |
lemma approx_add_minus: "a \<approx> b \<Longrightarrow> c \<approx> d \<Longrightarrow> a + - c \<approx> b + - d" |
590 |
by (blast intro!: approx_add approx_minus) |
|
| 27468 | 591 |
|
| 64435 | 592 |
lemma approx_diff: "a \<approx> b \<Longrightarrow> c \<approx> d \<Longrightarrow> a - c \<approx> b - d" |
|
54230
b1d955791529
more simplification rules on unary and binary minus
haftmann
parents:
51521
diff
changeset
|
593 |
using approx_add [of a b "- c" "- d"] by simp |
| 27468 | 594 |
|
| 64435 | 595 |
lemma approx_mult1: "a \<approx> b \<Longrightarrow> c \<in> HFinite \<Longrightarrow> a * c \<approx> b * c" |
596 |
for a b c :: "'a::real_normed_algebra star" |
|
597 |
by (simp add: approx_def Infinitesimal_HFinite_mult left_diff_distrib [symmetric]) |
|
598 |
||
599 |
lemma approx_mult2: "a \<approx> b \<Longrightarrow> c \<in> HFinite \<Longrightarrow> c * a \<approx> c * b" |
|
600 |
for a b c :: "'a::real_normed_algebra star" |
|
601 |
by (simp add: approx_def Infinitesimal_HFinite_mult2 right_diff_distrib [symmetric]) |
|
| 27468 | 602 |
|
| 64435 | 603 |
lemma approx_mult_subst: "u \<approx> v * x \<Longrightarrow> x \<approx> y \<Longrightarrow> v \<in> HFinite \<Longrightarrow> u \<approx> v * y" |
604 |
for u v x y :: "'a::real_normed_algebra star" |
|
605 |
by (blast intro: approx_mult2 approx_trans) |
|
| 27468 | 606 |
|
| 64435 | 607 |
lemma approx_mult_subst2: "u \<approx> x * v \<Longrightarrow> x \<approx> y \<Longrightarrow> v \<in> HFinite \<Longrightarrow> u \<approx> y * v" |
608 |
for u v x y :: "'a::real_normed_algebra star" |
|
609 |
by (blast intro: approx_mult1 approx_trans) |
|
| 27468 | 610 |
|
| 64435 | 611 |
lemma approx_mult_subst_star_of: "u \<approx> x * star_of v \<Longrightarrow> x \<approx> y \<Longrightarrow> u \<approx> y * star_of v" |
612 |
for u x y :: "'a::real_normed_algebra star" |
|
613 |
by (auto intro: approx_mult_subst2) |
|
| 27468 | 614 |
|
| 64435 | 615 |
lemma approx_eq_imp: "a = b \<Longrightarrow> a \<approx> b" |
616 |
by (simp add: approx_def) |
|
| 27468 | 617 |
|
| 64435 | 618 |
lemma Infinitesimal_minus_approx: "x \<in> Infinitesimal \<Longrightarrow> - x \<approx> x" |
619 |
by (blast intro: Infinitesimal_minus_iff [THEN iffD2] mem_infmal_iff [THEN iffD1] approx_trans2) |
|
| 27468 | 620 |
|
| 64435 | 621 |
lemma bex_Infinitesimal_iff: "(\<exists>y \<in> Infinitesimal. x - z = y) \<longleftrightarrow> x \<approx> z" |
622 |
by (simp add: approx_def) |
|
| 27468 | 623 |
|
| 64435 | 624 |
lemma bex_Infinitesimal_iff2: "(\<exists>y \<in> Infinitesimal. x = z + y) \<longleftrightarrow> x \<approx> z" |
625 |
by (force simp add: bex_Infinitesimal_iff [symmetric]) |
|
| 27468 | 626 |
|
| 64435 | 627 |
lemma Infinitesimal_add_approx: "y \<in> Infinitesimal \<Longrightarrow> x + y = z \<Longrightarrow> x \<approx> z" |
| 70221 | 628 |
using approx_sym bex_Infinitesimal_iff2 by blast |
| 27468 | 629 |
|
| 64435 | 630 |
lemma Infinitesimal_add_approx_self: "y \<in> Infinitesimal \<Longrightarrow> x \<approx> x + y" |
| 70221 | 631 |
by (simp add: Infinitesimal_add_approx) |
| 27468 | 632 |
|
| 64435 | 633 |
lemma Infinitesimal_add_approx_self2: "y \<in> Infinitesimal \<Longrightarrow> x \<approx> y + x" |
634 |
by (auto dest: Infinitesimal_add_approx_self simp add: add.commute) |
|
| 27468 | 635 |
|
| 64435 | 636 |
lemma Infinitesimal_add_minus_approx_self: "y \<in> Infinitesimal \<Longrightarrow> x \<approx> x + - y" |
637 |
by (blast intro!: Infinitesimal_add_approx_self Infinitesimal_minus_iff [THEN iffD2]) |
|
| 27468 | 638 |
|
| 64435 | 639 |
lemma Infinitesimal_add_cancel: "y \<in> Infinitesimal \<Longrightarrow> x + y \<approx> z \<Longrightarrow> x \<approx> z" |
| 70221 | 640 |
using Infinitesimal_add_approx approx_trans by blast |
| 27468 | 641 |
|
| 64435 | 642 |
lemma Infinitesimal_add_right_cancel: "y \<in> Infinitesimal \<Longrightarrow> x \<approx> z + y \<Longrightarrow> x \<approx> z" |
| 70221 | 643 |
by (metis Infinitesimal_add_approx_self approx_monad_iff) |
| 27468 | 644 |
|
| 70221 | 645 |
lemma approx_add_left_cancel: "d + b \<approx> d + c \<Longrightarrow> b \<approx> c" |
646 |
by (metis add_diff_cancel_left bex_Infinitesimal_iff) |
|
| 27468 | 647 |
|
| 64435 | 648 |
lemma approx_add_right_cancel: "b + d \<approx> c + d \<Longrightarrow> b \<approx> c" |
| 70221 | 649 |
by (simp add: approx_def) |
| 27468 | 650 |
|
| 64435 | 651 |
lemma approx_add_mono1: "b \<approx> c \<Longrightarrow> d + b \<approx> d + c" |
| 70221 | 652 |
by (simp add: approx_add) |
| 27468 | 653 |
|
| 64435 | 654 |
lemma approx_add_mono2: "b \<approx> c \<Longrightarrow> b + a \<approx> c + a" |
655 |
by (simp add: add.commute approx_add_mono1) |
|
| 27468 | 656 |
|
| 64435 | 657 |
lemma approx_add_left_iff [simp]: "a + b \<approx> a + c \<longleftrightarrow> b \<approx> c" |
658 |
by (fast elim: approx_add_left_cancel approx_add_mono1) |
|
| 27468 | 659 |
|
| 64435 | 660 |
lemma approx_add_right_iff [simp]: "b + a \<approx> c + a \<longleftrightarrow> b \<approx> c" |
661 |
by (simp add: add.commute) |
|
| 27468 | 662 |
|
| 64435 | 663 |
lemma approx_HFinite: "x \<in> HFinite \<Longrightarrow> x \<approx> y \<Longrightarrow> y \<in> HFinite" |
| 70221 | 664 |
by (metis HFinite_add Infinitesimal_subset_HFinite approx_sym subsetD bex_Infinitesimal_iff2) |
| 27468 | 665 |
|
| 64435 | 666 |
lemma approx_star_of_HFinite: "x \<approx> star_of D \<Longrightarrow> x \<in> HFinite" |
667 |
by (rule approx_sym [THEN [2] approx_HFinite], auto) |
|
| 27468 | 668 |
|
| 64435 | 669 |
lemma approx_mult_HFinite: "a \<approx> b \<Longrightarrow> c \<approx> d \<Longrightarrow> b \<in> HFinite \<Longrightarrow> d \<in> HFinite \<Longrightarrow> a * c \<approx> b * d" |
670 |
for a b c d :: "'a::real_normed_algebra star" |
|
| 70221 | 671 |
by (meson approx_HFinite approx_mult2 approx_mult_subst2 approx_sym) |
| 27468 | 672 |
|
| 64435 | 673 |
lemma scaleHR_left_diff_distrib: "\<And>a b x. scaleHR (a - b) x = scaleHR a x - scaleHR b x" |
674 |
by transfer (rule scaleR_left_diff_distrib) |
|
| 27468 | 675 |
|
| 64435 | 676 |
lemma approx_scaleR1: "a \<approx> star_of b \<Longrightarrow> c \<in> HFinite \<Longrightarrow> scaleHR a c \<approx> b *\<^sub>R c" |
| 70221 | 677 |
unfolding approx_def |
678 |
by (metis Infinitesimal_HFinite_scaleHR scaleHR_def scaleHR_left_diff_distrib star_scaleR_def starfun2_star_of) |
|
| 27468 | 679 |
|
| 64435 | 680 |
lemma approx_scaleR2: "a \<approx> b \<Longrightarrow> c *\<^sub>R a \<approx> c *\<^sub>R b" |
681 |
by (simp add: approx_def Infinitesimal_scaleR2 scaleR_right_diff_distrib [symmetric]) |
|
682 |
||
683 |
lemma approx_scaleR_HFinite: "a \<approx> star_of b \<Longrightarrow> c \<approx> d \<Longrightarrow> d \<in> HFinite \<Longrightarrow> scaleHR a c \<approx> b *\<^sub>R d" |
|
| 70221 | 684 |
by (meson approx_HFinite approx_scaleR1 approx_scaleR2 approx_sym approx_trans) |
| 27468 | 685 |
|
| 64435 | 686 |
lemma approx_mult_star_of: "a \<approx> star_of b \<Longrightarrow> c \<approx> star_of d \<Longrightarrow> a * c \<approx> star_of b * star_of d" |
687 |
for a c :: "'a::real_normed_algebra star" |
|
688 |
by (blast intro!: approx_mult_HFinite approx_star_of_HFinite HFinite_star_of) |
|
689 |
||
| 70221 | 690 |
lemma approx_SReal_mult_cancel_zero: |
691 |
fixes a x :: hypreal |
|
692 |
assumes "a \<in> \<real>" "a \<noteq> 0" "a * x \<approx> 0" shows "x \<approx> 0" |
|
693 |
proof - |
|
694 |
have "inverse a \<in> HFinite" |
|
695 |
using Reals_inverse SReal_subset_HFinite assms(1) by blast |
|
696 |
then show ?thesis |
|
697 |
using assms by (auto dest: approx_mult2 simp add: mult.assoc [symmetric]) |
|
698 |
qed |
|
| 27468 | 699 |
|
| 64435 | 700 |
lemma approx_mult_SReal1: "a \<in> \<real> \<Longrightarrow> x \<approx> 0 \<Longrightarrow> x * a \<approx> 0" |
701 |
for a x :: hypreal |
|
702 |
by (auto dest: SReal_subset_HFinite [THEN subsetD] approx_mult1) |
|
| 27468 | 703 |
|
| 64435 | 704 |
lemma approx_mult_SReal2: "a \<in> \<real> \<Longrightarrow> x \<approx> 0 \<Longrightarrow> a * x \<approx> 0" |
705 |
for a x :: hypreal |
|
706 |
by (auto dest: SReal_subset_HFinite [THEN subsetD] approx_mult2) |
|
| 27468 | 707 |
|
| 64435 | 708 |
lemma approx_mult_SReal_zero_cancel_iff [simp]: "a \<in> \<real> \<Longrightarrow> a \<noteq> 0 \<Longrightarrow> a * x \<approx> 0 \<longleftrightarrow> x \<approx> 0" |
709 |
for a x :: hypreal |
|
710 |
by (blast intro: approx_SReal_mult_cancel_zero approx_mult_SReal2) |
|
| 27468 | 711 |
|
| 70221 | 712 |
lemma approx_SReal_mult_cancel: |
713 |
fixes a w z :: hypreal |
|
714 |
assumes "a \<in> \<real>" "a \<noteq> 0" "a * w \<approx> a * z" shows "w \<approx> z" |
|
715 |
proof - |
|
716 |
have "inverse a \<in> HFinite" |
|
717 |
using Reals_inverse SReal_subset_HFinite assms(1) by blast |
|
718 |
then show ?thesis |
|
719 |
using assms by (auto dest: approx_mult2 simp add: mult.assoc [symmetric]) |
|
720 |
qed |
|
| 27468 | 721 |
|
| 64435 | 722 |
lemma approx_SReal_mult_cancel_iff1 [simp]: "a \<in> \<real> \<Longrightarrow> a \<noteq> 0 \<Longrightarrow> a * w \<approx> a * z \<longleftrightarrow> w \<approx> z" |
723 |
for a w z :: hypreal |
|
| 70221 | 724 |
by (meson SReal_subset_HFinite approx_SReal_mult_cancel approx_mult2 subsetD) |
| 27468 | 725 |
|
| 70221 | 726 |
lemma approx_le_bound: |
727 |
fixes z :: hypreal |
|
728 |
assumes "z \<le> f" " f \<approx> g" "g \<le> z" shows "f \<approx> z" |
|
729 |
proof - |
|
730 |
obtain y where "z \<le> g + y" and "y \<in> Infinitesimal" "f = g + y" |
|
731 |
using assms bex_Infinitesimal_iff2 by auto |
|
732 |
then have "z - g \<in> Infinitesimal" |
|
733 |
using assms(3) hrabs_le_Infinitesimal by auto |
|
734 |
then show ?thesis |
|
735 |
by (metis approx_def approx_trans2 assms(2)) |
|
736 |
qed |
|
| 27468 | 737 |
|
| 64435 | 738 |
lemma approx_hnorm: "x \<approx> y \<Longrightarrow> hnorm x \<approx> hnorm y" |
739 |
for x y :: "'a::real_normed_vector star" |
|
| 27468 | 740 |
proof (unfold approx_def) |
741 |
assume "x - y \<in> Infinitesimal" |
|
| 64435 | 742 |
then have "hnorm (x - y) \<in> Infinitesimal" |
| 27468 | 743 |
by (simp only: Infinitesimal_hnorm_iff) |
| 64435 | 744 |
moreover have "(0::real star) \<in> Infinitesimal" |
| 27468 | 745 |
by (rule Infinitesimal_zero) |
| 64435 | 746 |
moreover have "0 \<le> \<bar>hnorm x - hnorm y\<bar>" |
| 27468 | 747 |
by (rule abs_ge_zero) |
| 64435 | 748 |
moreover have "\<bar>hnorm x - hnorm y\<bar> \<le> hnorm (x - y)" |
| 27468 | 749 |
by (rule hnorm_triangle_ineq3) |
750 |
ultimately have "\<bar>hnorm x - hnorm y\<bar> \<in> Infinitesimal" |
|
751 |
by (rule Infinitesimal_interval2) |
|
| 64435 | 752 |
then show "hnorm x - hnorm y \<in> Infinitesimal" |
| 27468 | 753 |
by (simp only: Infinitesimal_hrabs_iff) |
754 |
qed |
|
755 |
||
756 |
||
| 64435 | 757 |
subsection \<open>Zero is the Only Infinitesimal that is also a Real\<close> |
| 27468 | 758 |
|
| 64435 | 759 |
lemma Infinitesimal_less_SReal: "x \<in> \<real> \<Longrightarrow> y \<in> Infinitesimal \<Longrightarrow> 0 < x \<Longrightarrow> y < x" |
760 |
for x y :: hypreal |
|
| 70221 | 761 |
using InfinitesimalD by fastforce |
| 27468 | 762 |
|
| 64435 | 763 |
lemma Infinitesimal_less_SReal2: "y \<in> Infinitesimal \<Longrightarrow> \<forall>r \<in> Reals. 0 < r \<longrightarrow> y < r" |
764 |
for y :: hypreal |
|
765 |
by (blast intro: Infinitesimal_less_SReal) |
|
| 27468 | 766 |
|
| 64435 | 767 |
lemma SReal_not_Infinitesimal: "0 < y \<Longrightarrow> y \<in> \<real> ==> y \<notin> Infinitesimal" |
768 |
for y :: hypreal |
|
| 70221 | 769 |
by (auto simp add: Infinitesimal_def abs_if) |
| 27468 | 770 |
|
| 64435 | 771 |
lemma SReal_minus_not_Infinitesimal: "y < 0 \<Longrightarrow> y \<in> \<real> \<Longrightarrow> y \<notin> Infinitesimal" |
772 |
for y :: hypreal |
|
| 70221 | 773 |
using Infinitesimal_minus_iff Reals_minus SReal_not_Infinitesimal neg_0_less_iff_less by blast |
| 27468 | 774 |
|
| 61070 | 775 |
lemma SReal_Int_Infinitesimal_zero: "\<real> Int Infinitesimal = {0::hypreal}"
|
| 70221 | 776 |
proof - |
777 |
have "x = 0" if "x \<in> \<real>" "x \<in> Infinitesimal" for x :: "real star" |
|
778 |
using that SReal_minus_not_Infinitesimal SReal_not_Infinitesimal not_less_iff_gr_or_eq by blast |
|
779 |
then show ?thesis |
|
780 |
by auto |
|
781 |
qed |
|
| 27468 | 782 |
|
| 64435 | 783 |
lemma SReal_Infinitesimal_zero: "x \<in> \<real> \<Longrightarrow> x \<in> Infinitesimal \<Longrightarrow> x = 0" |
784 |
for x :: hypreal |
|
785 |
using SReal_Int_Infinitesimal_zero by blast |
|
| 27468 | 786 |
|
| 64435 | 787 |
lemma SReal_HFinite_diff_Infinitesimal: "x \<in> \<real> \<Longrightarrow> x \<noteq> 0 \<Longrightarrow> x \<in> HFinite - Infinitesimal" |
788 |
for x :: hypreal |
|
789 |
by (auto dest: SReal_Infinitesimal_zero SReal_subset_HFinite [THEN subsetD]) |
|
| 27468 | 790 |
|
791 |
lemma hypreal_of_real_HFinite_diff_Infinitesimal: |
|
| 64435 | 792 |
"hypreal_of_real x \<noteq> 0 \<Longrightarrow> hypreal_of_real x \<in> HFinite - Infinitesimal" |
793 |
by (rule SReal_HFinite_diff_Infinitesimal) auto |
|
| 27468 | 794 |
|
| 64435 | 795 |
lemma star_of_Infinitesimal_iff_0 [iff]: "star_of x \<in> Infinitesimal \<longleftrightarrow> x = 0" |
| 70221 | 796 |
proof |
797 |
show "x = 0" if "star_of x \<in> Infinitesimal" |
|
798 |
proof - |
|
799 |
have "hnorm (star_n (\<lambda>n. x)) \<in> Standard" |
|
800 |
by (metis Reals_eq_Standard SReal_iff star_of_def star_of_norm) |
|
801 |
then show ?thesis |
|
802 |
by (metis InfinitesimalD2 less_irrefl star_of_norm that zero_less_norm_iff) |
|
803 |
qed |
|
804 |
qed auto |
|
| 27468 | 805 |
|
| 64435 | 806 |
lemma star_of_HFinite_diff_Infinitesimal: "x \<noteq> 0 \<Longrightarrow> star_of x \<in> HFinite - Infinitesimal" |
807 |
by simp |
|
| 27468 | 808 |
|
|
47108
2a1953f0d20d
merged fork with new numeral representation (see NEWS)
huffman
parents:
45541
diff
changeset
|
809 |
lemma numeral_not_Infinitesimal [simp]: |
| 64435 | 810 |
"numeral w \<noteq> (0::hypreal) \<Longrightarrow> (numeral w :: hypreal) \<notin> Infinitesimal" |
811 |
by (fast dest: Reals_numeral [THEN SReal_Infinitesimal_zero]) |
|
| 27468 | 812 |
|
| 64435 | 813 |
text \<open>Again: \<open>1\<close> is a special case, but not \<open>0\<close> this time.\<close> |
| 27468 | 814 |
lemma one_not_Infinitesimal [simp]: |
815 |
"(1::'a::{real_normed_vector,zero_neq_one} star) \<notin> Infinitesimal"
|
|
| 70221 | 816 |
by (metis star_of_Infinitesimal_iff_0 star_one_def zero_neq_one) |
| 27468 | 817 |
|
| 64435 | 818 |
lemma approx_SReal_not_zero: "y \<in> \<real> \<Longrightarrow> x \<approx> y \<Longrightarrow> y \<noteq> 0 \<Longrightarrow> x \<noteq> 0" |
819 |
for x y :: hypreal |
|
| 70221 | 820 |
using SReal_Infinitesimal_zero approx_sym mem_infmal_iff by auto |
| 27468 | 821 |
|
822 |
lemma HFinite_diff_Infinitesimal_approx: |
|
| 64435 | 823 |
"x \<approx> y \<Longrightarrow> y \<in> HFinite - Infinitesimal \<Longrightarrow> x \<in> HFinite - Infinitesimal" |
| 70221 | 824 |
by (meson Diff_iff approx_HFinite approx_sym approx_trans3 mem_infmal_iff) |
| 27468 | 825 |
|
| 64435 | 826 |
text \<open>The premise \<open>y \<noteq> 0\<close> is essential; otherwise \<open>x / y = 0\<close> and we lose the |
827 |
\<open>HFinite\<close> premise.\<close> |
|
| 27468 | 828 |
lemma Infinitesimal_ratio: |
| 64435 | 829 |
"y \<noteq> 0 \<Longrightarrow> y \<in> Infinitesimal \<Longrightarrow> x / y \<in> HFinite \<Longrightarrow> x \<in> Infinitesimal" |
830 |
for x y :: "'a::{real_normed_div_algebra,field} star"
|
|
| 70221 | 831 |
using Infinitesimal_HFinite_mult by fastforce |
| 64435 | 832 |
|
833 |
lemma Infinitesimal_SReal_divide: "x \<in> Infinitesimal \<Longrightarrow> y \<in> \<real> \<Longrightarrow> x / y \<in> Infinitesimal" |
|
834 |
for x y :: hypreal |
|
| 70221 | 835 |
by (metis HFinite_star_of Infinitesimal_HFinite_mult Reals_inverse SReal_iff divide_inverse) |
| 64435 | 836 |
|
837 |
||
838 |
section \<open>Standard Part Theorem\<close> |
|
| 27468 | 839 |
|
| 64435 | 840 |
text \<open> |
841 |
Every finite \<open>x \<in> R*\<close> is infinitely close to a unique real number |
|
842 |
(i.e. a member of \<open>Reals\<close>). |
|
843 |
\<close> |
|
| 27468 | 844 |
|
845 |
||
| 64435 | 846 |
subsection \<open>Uniqueness: Two Infinitely Close Reals are Equal\<close> |
| 27468 | 847 |
|
| 64435 | 848 |
lemma star_of_approx_iff [simp]: "star_of x \<approx> star_of y \<longleftrightarrow> x = y" |
| 70221 | 849 |
by (metis approx_def right_minus_eq star_of_Infinitesimal_iff_0 star_of_simps(2)) |
| 27468 | 850 |
|
| 64435 | 851 |
lemma SReal_approx_iff: "x \<in> \<real> \<Longrightarrow> y \<in> \<real> \<Longrightarrow> x \<approx> y \<longleftrightarrow> x = y" |
852 |
for x y :: hypreal |
|
| 70221 | 853 |
by (meson Reals_diff SReal_Infinitesimal_zero approx_def approx_refl right_minus_eq) |
| 27468 | 854 |
|
|
47108
2a1953f0d20d
merged fork with new numeral representation (see NEWS)
huffman
parents:
45541
diff
changeset
|
855 |
lemma numeral_approx_iff [simp]: |
| 70221 | 856 |
"(numeral v \<approx> (numeral w :: 'a::{numeral,real_normed_vector} star)) = (numeral v = (numeral w :: 'a))"
|
857 |
by (metis star_of_approx_iff star_of_numeral) |
|
| 27468 | 858 |
|
| 64435 | 859 |
text \<open>And also for \<open>0 \<approx> #nn\<close> and \<open>1 \<approx> #nn\<close>, \<open>#nn \<approx> 0\<close> and \<open>#nn \<approx> 1\<close>.\<close> |
| 27468 | 860 |
lemma [simp]: |
| 64435 | 861 |
"(numeral w \<approx> (0::'a::{numeral,real_normed_vector} star)) = (numeral w = (0::'a))"
|
862 |
"((0::'a::{numeral,real_normed_vector} star) \<approx> numeral w) = (numeral w = (0::'a))"
|
|
863 |
"(numeral w \<approx> (1::'b::{numeral,one,real_normed_vector} star)) = (numeral w = (1::'b))"
|
|
864 |
"((1::'b::{numeral,one,real_normed_vector} star) \<approx> numeral w) = (numeral w = (1::'b))"
|
|
865 |
"\<not> (0 \<approx> (1::'c::{zero_neq_one,real_normed_vector} star))"
|
|
866 |
"\<not> (1 \<approx> (0::'c::{zero_neq_one,real_normed_vector} star))"
|
|
| 70221 | 867 |
unfolding star_numeral_def star_zero_def star_one_def star_of_approx_iff |
868 |
by (auto intro: sym) |
|
| 27468 | 869 |
|
| 64435 | 870 |
lemma star_of_approx_numeral_iff [simp]: "star_of k \<approx> numeral w \<longleftrightarrow> k = numeral w" |
871 |
by (subst star_of_approx_iff [symmetric]) auto |
|
| 27468 | 872 |
|
| 64435 | 873 |
lemma star_of_approx_zero_iff [simp]: "star_of k \<approx> 0 \<longleftrightarrow> k = 0" |
874 |
by (simp_all add: star_of_approx_iff [symmetric]) |
|
| 27468 | 875 |
|
| 64435 | 876 |
lemma star_of_approx_one_iff [simp]: "star_of k \<approx> 1 \<longleftrightarrow> k = 1" |
877 |
by (simp_all add: star_of_approx_iff [symmetric]) |
|
| 27468 | 878 |
|
| 64435 | 879 |
lemma approx_unique_real: "r \<in> \<real> \<Longrightarrow> s \<in> \<real> \<Longrightarrow> r \<approx> x \<Longrightarrow> s \<approx> x \<Longrightarrow> r = s" |
880 |
for r s :: hypreal |
|
881 |
by (blast intro: SReal_approx_iff [THEN iffD1] approx_trans2) |
|
| 27468 | 882 |
|
883 |
||
| 64435 | 884 |
subsection \<open>Existence of Unique Real Infinitely Close\<close> |
| 27468 | 885 |
|
| 64435 | 886 |
subsubsection \<open>Lifting of the Ub and Lub Properties\<close> |
| 27468 | 887 |
|
| 64435 | 888 |
lemma hypreal_of_real_isUb_iff: "isUb \<real> (hypreal_of_real ` Q) (hypreal_of_real Y) = isUb UNIV Q Y" |
889 |
for Q :: "real set" and Y :: real |
|
890 |
by (simp add: isUb_def setle_def) |
|
| 27468 | 891 |
|
| 70221 | 892 |
lemma hypreal_of_real_isLub_iff: |
| 70224 | 893 |
"isLub \<real> (hypreal_of_real ` Q) (hypreal_of_real Y) = isLub (UNIV :: real set) Q Y" (is "?lhs = ?rhs") |
| 64435 | 894 |
for Q :: "real set" and Y :: real |
| 70221 | 895 |
proof |
896 |
assume ?lhs |
|
897 |
then show ?rhs |
|
898 |
by (simp add: isLub_def leastP_def) (metis hypreal_of_real_isUb_iff mem_Collect_eq setge_def star_of_le) |
|
899 |
next |
|
900 |
assume ?rhs |
|
901 |
then show ?lhs |
|
902 |
apply (simp add: isLub_def leastP_def hypreal_of_real_isUb_iff setge_def) |
|
903 |
by (metis SReal_iff hypreal_of_real_isUb_iff isUb_def star_of_le) |
|
904 |
qed |
|
| 27468 | 905 |
|
| 64435 | 906 |
lemma lemma_isUb_hypreal_of_real: "isUb \<real> P Y \<Longrightarrow> \<exists>Yo. isUb \<real> P (hypreal_of_real Yo)" |
907 |
by (auto simp add: SReal_iff isUb_def) |
|
908 |
||
909 |
lemma lemma_isLub_hypreal_of_real: "isLub \<real> P Y \<Longrightarrow> \<exists>Yo. isLub \<real> P (hypreal_of_real Yo)" |
|
910 |
by (auto simp add: isLub_def leastP_def isUb_def SReal_iff) |
|
| 27468 | 911 |
|
| 70221 | 912 |
lemma SReal_complete: |
913 |
fixes P :: "hypreal set" |
|
914 |
assumes "isUb \<real> P Y" "P \<subseteq> \<real>" "P \<noteq> {}"
|
|
915 |
shows "\<exists>t. isLub \<real> P t" |
|
916 |
proof - |
|
917 |
obtain Q where "P = hypreal_of_real ` Q" |
|
918 |
by (metis \<open>P \<subseteq> \<real>\<close> hypreal_of_real_image subset_imageE) |
|
919 |
then show ?thesis |
|
920 |
by (metis assms(1) \<open>P \<noteq> {}\<close> equals0I hypreal_of_real_isLub_iff hypreal_of_real_isUb_iff image_empty lemma_isUb_hypreal_of_real reals_complete)
|
|
921 |
qed |
|
| 64435 | 922 |
|
| 27468 | 923 |
|
| 64435 | 924 |
text \<open>Lemmas about lubs.\<close> |
| 27468 | 925 |
|
| 70221 | 926 |
lemma lemma_st_part_lub: |
927 |
fixes x :: hypreal |
|
928 |
assumes "x \<in> HFinite" |
|
929 |
shows "\<exists>t. isLub \<real> {s. s \<in> \<real> \<and> s < x} t"
|
|
930 |
proof - |
|
931 |
obtain t where t: "t \<in> \<real>" "hnorm x < t" |
|
932 |
using HFiniteD assms by blast |
|
933 |
then have "isUb \<real> {s. s \<in> \<real> \<and> s < x} t"
|
|
934 |
by (simp add: abs_less_iff isUbI le_less_linear less_imp_not_less setleI) |
|
935 |
moreover have "\<exists>y. y \<in> \<real> \<and> y < x" |
|
936 |
using t by (rule_tac x = "-t" in exI) (auto simp add: abs_less_iff) |
|
937 |
ultimately show ?thesis |
|
938 |
using SReal_complete by fastforce |
|
939 |
qed |
|
| 27468 | 940 |
|
| 64435 | 941 |
lemma hypreal_setle_less_trans: "S *<= x \<Longrightarrow> x < y \<Longrightarrow> S *<= y" |
942 |
for x y :: hypreal |
|
| 70221 | 943 |
by (meson le_less_trans less_imp_le setle_def) |
| 27468 | 944 |
|
| 64435 | 945 |
lemma hypreal_gt_isUb: "isUb R S x \<Longrightarrow> x < y \<Longrightarrow> y \<in> R \<Longrightarrow> isUb R S y" |
946 |
for x y :: hypreal |
|
| 70221 | 947 |
using hypreal_setle_less_trans isUb_def by blast |
| 27468 | 948 |
|
| 64435 | 949 |
lemma lemma_SReal_ub: "x \<in> \<real> \<Longrightarrow> isUb \<real> {s. s \<in> \<real> \<and> s < x} x"
|
950 |
for x :: hypreal |
|
951 |
by (auto intro: isUbI setleI order_less_imp_le) |
|
| 27468 | 952 |
|
| 70224 | 953 |
lemma lemma_SReal_lub: |
954 |
fixes x :: hypreal |
|
955 |
assumes "x \<in> \<real>" shows "isLub \<real> {s. s \<in> \<real> \<and> s < x} x"
|
|
956 |
proof - |
|
957 |
have "x \<le> y" if "isUb \<real> {s \<in> \<real>. s < x} y" for y
|
|
958 |
proof - |
|
959 |
have "y \<in> \<real>" |
|
960 |
using isUbD2a that by blast |
|
961 |
show ?thesis |
|
962 |
proof (cases x y rule: linorder_cases) |
|
963 |
case greater |
|
964 |
then obtain r where "y < r" "r < x" |
|
965 |
using dense by blast |
|
966 |
then show ?thesis |
|
| 70232 | 967 |
using isUbD [OF that] |
968 |
by simp (meson SReal_dense \<open>y \<in> \<real>\<close> assms greater not_le) |
|
| 70224 | 969 |
qed auto |
970 |
qed |
|
971 |
with assms show ?thesis |
|
972 |
by (simp add: isLubI2 isUbI setgeI setleI) |
|
973 |
qed |
|
| 27468 | 974 |
|
975 |
lemma lemma_st_part_major: |
|
| 70224 | 976 |
fixes x r t :: hypreal |
977 |
assumes x: "x \<in> HFinite" and r: "r \<in> \<real>" "0 < r" and t: "isLub \<real> {s. s \<in> \<real> \<and> s < x} t"
|
|
978 |
shows "\<bar>x - t\<bar> < r" |
|
979 |
proof - |
|
980 |
have "t \<in> \<real>" |
|
981 |
using isLubD1a t by blast |
|
982 |
have lemma_st_part_gt_ub: "x < r \<Longrightarrow> r \<in> \<real> \<Longrightarrow> isUb \<real> {s. s \<in> \<real> \<and> s < x} r"
|
|
983 |
for r :: hypreal |
|
984 |
by (auto dest: order_less_trans intro: order_less_imp_le intro!: isUbI setleI) |
|
985 |
||
986 |
have "isUb \<real> {s \<in> \<real>. s < x} t"
|
|
987 |
by (simp add: t isLub_isUb) |
|
988 |
then have "\<not> r + t < x" |
|
989 |
by (metis (mono_tags, lifting) Reals_add \<open>t \<in> \<real>\<close> add_le_same_cancel2 isUbD leD mem_Collect_eq r) |
|
990 |
then have "x - t \<le> r" |
|
991 |
by simp |
|
992 |
moreover have "\<not> x < t - r" |
|
993 |
using lemma_st_part_gt_ub isLub_le_isUb \<open>t \<in> \<real>\<close> r t x by fastforce |
|
994 |
then have "- (x - t) \<le> r" |
|
995 |
by linarith |
|
996 |
moreover have False if "x - t = r \<or> - (x - t) = r" |
|
997 |
proof - |
|
998 |
have "x \<in> \<real>" |
|
999 |
by (metis \<open>t \<in> \<real>\<close> \<open>r \<in> \<real>\<close> that Reals_add_cancel Reals_minus_iff add_uminus_conv_diff) |
|
1000 |
then have "isLub \<real> {s \<in> \<real>. s < x} x"
|
|
1001 |
by (rule lemma_SReal_lub) |
|
1002 |
then show False |
|
1003 |
using r t that x isLub_unique by force |
|
1004 |
qed |
|
1005 |
ultimately show ?thesis |
|
1006 |
using abs_less_iff dual_order.order_iff_strict by blast |
|
1007 |
qed |
|
| 27468 | 1008 |
|
1009 |
lemma lemma_st_part_major2: |
|
| 64435 | 1010 |
"x \<in> HFinite \<Longrightarrow> isLub \<real> {s. s \<in> \<real> \<and> s < x} t \<Longrightarrow> \<forall>r \<in> Reals. 0 < r \<longrightarrow> \<bar>x - t\<bar> < r"
|
1011 |
for x t :: hypreal |
|
1012 |
by (blast dest!: lemma_st_part_major) |
|
| 27468 | 1013 |
|
|
61649
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61609
diff
changeset
|
1014 |
|
| 64435 | 1015 |
text\<open>Existence of real and Standard Part Theorem.\<close> |
1016 |
||
1017 |
lemma lemma_st_part_Ex: "x \<in> HFinite \<Longrightarrow> \<exists>t\<in>Reals. \<forall>r \<in> Reals. 0 < r \<longrightarrow> \<bar>x - t\<bar> < r" |
|
1018 |
for x :: hypreal |
|
| 70221 | 1019 |
by (meson isLubD1a lemma_st_part_lub lemma_st_part_major2) |
| 27468 | 1020 |
|
| 64435 | 1021 |
lemma st_part_Ex: "x \<in> HFinite \<Longrightarrow> \<exists>t\<in>Reals. x \<approx> t" |
1022 |
for x :: hypreal |
|
| 70221 | 1023 |
by (metis InfinitesimalI approx_def hypreal_hnorm_def lemma_st_part_Ex) |
| 27468 | 1024 |
|
| 64435 | 1025 |
text \<open>There is a unique real infinitely close.\<close> |
1026 |
lemma st_part_Ex1: "x \<in> HFinite \<Longrightarrow> \<exists>!t::hypreal. t \<in> \<real> \<and> x \<approx> t" |
|
| 70221 | 1027 |
by (meson SReal_approx_iff approx_trans2 st_part_Ex) |
| 27468 | 1028 |
|
| 64435 | 1029 |
|
1030 |
subsection \<open>Finite, Infinite and Infinitesimal\<close> |
|
| 27468 | 1031 |
|
1032 |
lemma HFinite_Int_HInfinite_empty [simp]: "HFinite Int HInfinite = {}"
|
|
| 70221 | 1033 |
using Compl_HFinite by blast |
| 27468 | 1034 |
|
|
56217
dc429a5b13c4
Some rationalisation of basic lemmas
paulson <lp15@cam.ac.uk>
parents:
54489
diff
changeset
|
1035 |
lemma HFinite_not_HInfinite: |
| 70221 | 1036 |
assumes x: "x \<in> HFinite" shows "x \<notin> HInfinite" |
1037 |
using Compl_HFinite x by blast |
|
| 27468 | 1038 |
|
| 64435 | 1039 |
lemma not_HFinite_HInfinite: "x \<notin> HFinite \<Longrightarrow> x \<in> HInfinite" |
| 70221 | 1040 |
using Compl_HFinite by blast |
| 27468 | 1041 |
|
| 64435 | 1042 |
lemma HInfinite_HFinite_disj: "x \<in> HInfinite \<or> x \<in> HFinite" |
1043 |
by (blast intro: not_HFinite_HInfinite) |
|
| 27468 | 1044 |
|
| 64435 | 1045 |
lemma HInfinite_HFinite_iff: "x \<in> HInfinite \<longleftrightarrow> x \<notin> HFinite" |
1046 |
by (blast dest: HFinite_not_HInfinite not_HFinite_HInfinite) |
|
| 27468 | 1047 |
|
| 64435 | 1048 |
lemma HFinite_HInfinite_iff: "x \<in> HFinite \<longleftrightarrow> x \<notin> HInfinite" |
1049 |
by (simp add: HInfinite_HFinite_iff) |
|
| 27468 | 1050 |
|
1051 |
lemma HInfinite_diff_HFinite_Infinitesimal_disj: |
|
| 64435 | 1052 |
"x \<notin> Infinitesimal \<Longrightarrow> x \<in> HInfinite \<or> x \<in> HFinite - Infinitesimal" |
1053 |
by (fast intro: not_HFinite_HInfinite) |
|
| 27468 | 1054 |
|
| 64435 | 1055 |
lemma HFinite_inverse: "x \<in> HFinite \<Longrightarrow> x \<notin> Infinitesimal \<Longrightarrow> inverse x \<in> HFinite" |
1056 |
for x :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1057 |
using HInfinite_inverse_Infinitesimal not_HFinite_HInfinite by force |
| 27468 | 1058 |
|
| 64435 | 1059 |
lemma HFinite_inverse2: "x \<in> HFinite - Infinitesimal \<Longrightarrow> inverse x \<in> HFinite" |
1060 |
for x :: "'a::real_normed_div_algebra star" |
|
1061 |
by (blast intro: HFinite_inverse) |
|
| 27468 | 1062 |
|
| 64435 | 1063 |
text \<open>Stronger statement possible in fact.\<close> |
1064 |
lemma Infinitesimal_inverse_HFinite: "x \<notin> Infinitesimal \<Longrightarrow> inverse x \<in> HFinite" |
|
1065 |
for x :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1066 |
using HFinite_HInfinite_iff HInfinite_inverse_Infinitesimal by fastforce |
| 27468 | 1067 |
|
1068 |
lemma HFinite_not_Infinitesimal_inverse: |
|
| 64435 | 1069 |
"x \<in> HFinite - Infinitesimal \<Longrightarrow> inverse x \<in> HFinite - Infinitesimal" |
1070 |
for x :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1071 |
using HFinite_Infinitesimal_not_zero HFinite_inverse2 Infinitesimal_HFinite_mult2 by fastforce |
| 27468 | 1072 |
|
| 70224 | 1073 |
lemma approx_inverse: |
1074 |
fixes x y :: "'a::real_normed_div_algebra star" |
|
1075 |
assumes "x \<approx> y" and y: "y \<in> HFinite - Infinitesimal" shows "inverse x \<approx> inverse y" |
|
1076 |
proof - |
|
1077 |
have x: "x \<in> HFinite - Infinitesimal" |
|
1078 |
using HFinite_diff_Infinitesimal_approx assms(1) y by blast |
|
1079 |
with y HFinite_inverse2 have "inverse x \<in> HFinite" "inverse y \<in> HFinite" |
|
1080 |
by blast+ |
|
1081 |
then have "inverse y * x \<approx> 1" |
|
1082 |
by (metis Diff_iff approx_mult2 assms(1) left_inverse not_Infinitesimal_not_zero y) |
|
1083 |
then show ?thesis |
|
1084 |
by (metis (no_types, lifting) DiffD2 HFinite_Infinitesimal_not_zero Infinitesimal_mult_disj x approx_def approx_sym left_diff_distrib left_inverse) |
|
1085 |
qed |
|
| 27468 | 1086 |
|
1087 |
(*Used for NSLIM_inverse, NSLIMSEQ_inverse*) |
|
1088 |
lemmas star_of_approx_inverse = star_of_HFinite_diff_Infinitesimal [THEN [2] approx_inverse] |
|
1089 |
lemmas hypreal_of_real_approx_inverse = hypreal_of_real_HFinite_diff_Infinitesimal [THEN [2] approx_inverse] |
|
1090 |
||
1091 |
lemma inverse_add_Infinitesimal_approx: |
|
| 64435 | 1092 |
"x \<in> HFinite - Infinitesimal \<Longrightarrow> h \<in> Infinitesimal \<Longrightarrow> inverse (x + h) \<approx> inverse x" |
1093 |
for x h :: "'a::real_normed_div_algebra star" |
|
1094 |
by (auto intro: approx_inverse approx_sym Infinitesimal_add_approx_self) |
|
| 27468 | 1095 |
|
1096 |
lemma inverse_add_Infinitesimal_approx2: |
|
| 64435 | 1097 |
"x \<in> HFinite - Infinitesimal \<Longrightarrow> h \<in> Infinitesimal \<Longrightarrow> inverse (h + x) \<approx> inverse x" |
1098 |
for x h :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1099 |
by (metis add.commute inverse_add_Infinitesimal_approx) |
| 27468 | 1100 |
|
1101 |
lemma inverse_add_Infinitesimal_approx_Infinitesimal: |
|
| 64435 | 1102 |
"x \<in> HFinite - Infinitesimal \<Longrightarrow> h \<in> Infinitesimal \<Longrightarrow> inverse (x + h) - inverse x \<approx> h" |
1103 |
for x h :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1104 |
by (meson Infinitesimal_approx bex_Infinitesimal_iff inverse_add_Infinitesimal_approx) |
| 27468 | 1105 |
|
| 64435 | 1106 |
lemma Infinitesimal_square_iff: "x \<in> Infinitesimal \<longleftrightarrow> x * x \<in> Infinitesimal" |
1107 |
for x :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1108 |
using Infinitesimal_mult Infinitesimal_mult_disj by auto |
| 27468 | 1109 |
declare Infinitesimal_square_iff [symmetric, simp] |
1110 |
||
| 64435 | 1111 |
lemma HFinite_square_iff [simp]: "x * x \<in> HFinite \<longleftrightarrow> x \<in> HFinite" |
1112 |
for x :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1113 |
using HFinite_HInfinite_iff HFinite_mult HInfinite_mult by blast |
| 27468 | 1114 |
|
| 64435 | 1115 |
lemma HInfinite_square_iff [simp]: "x * x \<in> HInfinite \<longleftrightarrow> x \<in> HInfinite" |
1116 |
for x :: "'a::real_normed_div_algebra star" |
|
1117 |
by (auto simp add: HInfinite_HFinite_iff) |
|
| 27468 | 1118 |
|
| 64435 | 1119 |
lemma approx_HFinite_mult_cancel: "a \<in> HFinite - Infinitesimal \<Longrightarrow> a * w \<approx> a * z \<Longrightarrow> w \<approx> z" |
1120 |
for a w z :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1121 |
by (metis DiffD2 Infinitesimal_mult_disj bex_Infinitesimal_iff right_diff_distrib) |
| 27468 | 1122 |
|
| 64435 | 1123 |
lemma approx_HFinite_mult_cancel_iff1: "a \<in> HFinite - Infinitesimal \<Longrightarrow> a * w \<approx> a * z \<longleftrightarrow> w \<approx> z" |
1124 |
for a w z :: "'a::real_normed_div_algebra star" |
|
1125 |
by (auto intro: approx_mult2 approx_HFinite_mult_cancel) |
|
| 27468 | 1126 |
|
| 64435 | 1127 |
lemma HInfinite_HFinite_add_cancel: "x + y \<in> HInfinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> x \<in> HInfinite" |
| 70221 | 1128 |
using HFinite_add HInfinite_HFinite_iff by blast |
| 27468 | 1129 |
|
| 64435 | 1130 |
lemma HInfinite_HFinite_add: "x \<in> HInfinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> x + y \<in> HInfinite" |
|
73932
fd21b4a93043
added opaque_combs and renamed hide_lams to opaque_lifting
desharna
parents:
70723
diff
changeset
|
1131 |
by (metis (no_types, opaque_lifting) HFinite_HInfinite_iff HFinite_add HFinite_minus_iff add.commute add_minus_cancel) |
| 27468 | 1132 |
|
| 64435 | 1133 |
lemma HInfinite_ge_HInfinite: "x \<in> HInfinite \<Longrightarrow> x \<le> y \<Longrightarrow> 0 \<le> x \<Longrightarrow> y \<in> HInfinite" |
1134 |
for x y :: hypreal |
|
1135 |
by (auto intro: HFinite_bounded simp add: HInfinite_HFinite_iff) |
|
| 27468 | 1136 |
|
| 64435 | 1137 |
lemma Infinitesimal_inverse_HInfinite: "x \<in> Infinitesimal \<Longrightarrow> x \<noteq> 0 \<Longrightarrow> inverse x \<in> HInfinite" |
1138 |
for x :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1139 |
by (metis Infinitesimal_HFinite_mult not_HFinite_HInfinite one_not_Infinitesimal right_inverse) |
| 27468 | 1140 |
|
1141 |
lemma HInfinite_HFinite_not_Infinitesimal_mult: |
|
| 64435 | 1142 |
"x \<in> HInfinite \<Longrightarrow> y \<in> HFinite - Infinitesimal \<Longrightarrow> x * y \<in> HInfinite" |
1143 |
for x y :: "'a::real_normed_div_algebra star" |
|
|
73932
fd21b4a93043
added opaque_combs and renamed hide_lams to opaque_lifting
desharna
parents:
70723
diff
changeset
|
1144 |
by (metis (no_types, opaque_lifting) HFinite_HInfinite_iff HFinite_Infinitesimal_not_zero HFinite_inverse2 HFinite_mult mult.assoc mult.right_neutral right_inverse) |
| 27468 | 1145 |
|
1146 |
lemma HInfinite_HFinite_not_Infinitesimal_mult2: |
|
| 64435 | 1147 |
"x \<in> HInfinite \<Longrightarrow> y \<in> HFinite - Infinitesimal \<Longrightarrow> y * x \<in> HInfinite" |
1148 |
for x y :: "'a::real_normed_div_algebra star" |
|
| 70221 | 1149 |
by (metis Diff_iff HInfinite_HFinite_iff HInfinite_inverse_Infinitesimal Infinitesimal_HFinite_mult2 divide_inverse mult_zero_right nonzero_eq_divide_eq) |
| 27468 | 1150 |
|
| 64435 | 1151 |
lemma HInfinite_gt_SReal: "x \<in> HInfinite \<Longrightarrow> 0 < x \<Longrightarrow> y \<in> \<real> \<Longrightarrow> y < x" |
1152 |
for x y :: hypreal |
|
1153 |
by (auto dest!: bspec simp add: HInfinite_def abs_if order_less_imp_le) |
|
| 27468 | 1154 |
|
| 64435 | 1155 |
lemma HInfinite_gt_zero_gt_one: "x \<in> HInfinite \<Longrightarrow> 0 < x \<Longrightarrow> 1 < x" |
1156 |
for x :: hypreal |
|
1157 |
by (auto intro: HInfinite_gt_SReal) |
|
| 27468 | 1158 |
|
1159 |
lemma not_HInfinite_one [simp]: "1 \<notin> HInfinite" |
|
| 64435 | 1160 |
by (simp add: HInfinite_HFinite_iff) |
| 27468 | 1161 |
|
| 64435 | 1162 |
lemma approx_hrabs_disj: "\<bar>x\<bar> \<approx> x \<or> \<bar>x\<bar> \<approx> -x" |
1163 |
for x :: hypreal |
|
| 70232 | 1164 |
by (simp add: abs_if) |
| 27468 | 1165 |
|
1166 |
||
| 64435 | 1167 |
subsection \<open>Theorems about Monads\<close> |
| 27468 | 1168 |
|
| 64435 | 1169 |
lemma monad_hrabs_Un_subset: "monad \<bar>x\<bar> \<le> monad x \<union> monad (- x)" |
1170 |
for x :: hypreal |
|
| 70232 | 1171 |
by (simp add: abs_if) |
| 27468 | 1172 |
|
| 64435 | 1173 |
lemma Infinitesimal_monad_eq: "e \<in> Infinitesimal \<Longrightarrow> monad (x + e) = monad x" |
1174 |
by (fast intro!: Infinitesimal_add_approx_self [THEN approx_sym] approx_monad_iff [THEN iffD1]) |
|
| 27468 | 1175 |
|
| 64435 | 1176 |
lemma mem_monad_iff: "u \<in> monad x \<longleftrightarrow> - u \<in> monad (- x)" |
1177 |
by (simp add: monad_def) |
|
1178 |
||
1179 |
lemma Infinitesimal_monad_zero_iff: "x \<in> Infinitesimal \<longleftrightarrow> x \<in> monad 0" |
|
1180 |
by (auto intro: approx_sym simp add: monad_def mem_infmal_iff) |
|
| 27468 | 1181 |
|
| 64435 | 1182 |
lemma monad_zero_minus_iff: "x \<in> monad 0 \<longleftrightarrow> - x \<in> monad 0" |
1183 |
by (simp add: Infinitesimal_monad_zero_iff [symmetric]) |
|
| 27468 | 1184 |
|
| 64435 | 1185 |
lemma monad_zero_hrabs_iff: "x \<in> monad 0 \<longleftrightarrow> \<bar>x\<bar> \<in> monad 0" |
1186 |
for x :: hypreal |
|
| 70232 | 1187 |
using Infinitesimal_monad_zero_iff by blast |
| 27468 | 1188 |
|
1189 |
lemma mem_monad_self [simp]: "x \<in> monad x" |
|
| 64435 | 1190 |
by (simp add: monad_def) |
| 27468 | 1191 |
|
1192 |
||
| 69597 | 1193 |
subsection \<open>Proof that \<^term>\<open>x \<approx> y\<close> implies \<^term>\<open>\<bar>x\<bar> \<approx> \<bar>y\<bar>\<close>\<close> |
| 27468 | 1194 |
|
| 64435 | 1195 |
lemma approx_subset_monad: "x \<approx> y \<Longrightarrow> {x, y} \<le> monad x"
|
1196 |
by (simp (no_asm)) (simp add: approx_monad_iff) |
|
| 27468 | 1197 |
|
| 64435 | 1198 |
lemma approx_subset_monad2: "x \<approx> y \<Longrightarrow> {x, y} \<le> monad y"
|
| 70221 | 1199 |
using approx_subset_monad approx_sym by auto |
| 27468 | 1200 |
|
| 64435 | 1201 |
lemma mem_monad_approx: "u \<in> monad x \<Longrightarrow> x \<approx> u" |
1202 |
by (simp add: monad_def) |
|
1203 |
||
1204 |
lemma approx_mem_monad: "x \<approx> u \<Longrightarrow> u \<in> monad x" |
|
1205 |
by (simp add: monad_def) |
|
| 27468 | 1206 |
|
| 64435 | 1207 |
lemma approx_mem_monad2: "x \<approx> u \<Longrightarrow> x \<in> monad u" |
| 70221 | 1208 |
using approx_mem_monad approx_sym by blast |
| 27468 | 1209 |
|
| 64435 | 1210 |
lemma approx_mem_monad_zero: "x \<approx> y \<Longrightarrow> x \<in> monad 0 \<Longrightarrow> y \<in> monad 0" |
| 70221 | 1211 |
using approx_trans monad_def by blast |
| 27468 | 1212 |
|
| 64435 | 1213 |
lemma Infinitesimal_approx_hrabs: "x \<approx> y \<Longrightarrow> x \<in> Infinitesimal \<Longrightarrow> \<bar>x\<bar> \<approx> \<bar>y\<bar>" |
1214 |
for x y :: hypreal |
|
| 70221 | 1215 |
using approx_hnorm by fastforce |
| 27468 | 1216 |
|
| 64435 | 1217 |
lemma less_Infinitesimal_less: "0 < x \<Longrightarrow> x \<notin> Infinitesimal \<Longrightarrow> e \<in> Infinitesimal \<Longrightarrow> e < x" |
1218 |
for x :: hypreal |
|
| 70221 | 1219 |
using Infinitesimal_interval less_linear by blast |
| 27468 | 1220 |
|
| 64435 | 1221 |
lemma Ball_mem_monad_gt_zero: "0 < x \<Longrightarrow> x \<notin> Infinitesimal \<Longrightarrow> u \<in> monad x \<Longrightarrow> 0 < u" |
1222 |
for u x :: hypreal |
|
| 70224 | 1223 |
by (metis bex_Infinitesimal_iff2 less_Infinitesimal_less less_add_same_cancel2 mem_monad_approx) |
| 27468 | 1224 |
|
| 64435 | 1225 |
lemma Ball_mem_monad_less_zero: "x < 0 \<Longrightarrow> x \<notin> Infinitesimal \<Longrightarrow> u \<in> monad x \<Longrightarrow> u < 0" |
1226 |
for u x :: hypreal |
|
| 70224 | 1227 |
by (metis Ball_mem_monad_gt_zero approx_monad_iff less_asym linorder_neqE_linordered_idom mem_infmal_iff mem_monad_approx mem_monad_self) |
| 27468 | 1228 |
|
| 64435 | 1229 |
lemma lemma_approx_gt_zero: "0 < x \<Longrightarrow> x \<notin> Infinitesimal \<Longrightarrow> x \<approx> y \<Longrightarrow> 0 < y" |
1230 |
for x y :: hypreal |
|
1231 |
by (blast dest: Ball_mem_monad_gt_zero approx_subset_monad) |
|
| 27468 | 1232 |
|
| 64435 | 1233 |
lemma lemma_approx_less_zero: "x < 0 \<Longrightarrow> x \<notin> Infinitesimal \<Longrightarrow> x \<approx> y \<Longrightarrow> y < 0" |
1234 |
for x y :: hypreal |
|
1235 |
by (blast dest: Ball_mem_monad_less_zero approx_subset_monad) |
|
| 27468 | 1236 |
|
| 64435 | 1237 |
lemma approx_hrabs: "x \<approx> y \<Longrightarrow> \<bar>x\<bar> \<approx> \<bar>y\<bar>" |
1238 |
for x y :: hypreal |
|
1239 |
by (drule approx_hnorm) simp |
|
| 27468 | 1240 |
|
| 64435 | 1241 |
lemma approx_hrabs_zero_cancel: "\<bar>x\<bar> \<approx> 0 \<Longrightarrow> x \<approx> 0" |
1242 |
for x :: hypreal |
|
| 70232 | 1243 |
using mem_infmal_iff by blast |
| 27468 | 1244 |
|
| 64435 | 1245 |
lemma approx_hrabs_add_Infinitesimal: "e \<in> Infinitesimal \<Longrightarrow> \<bar>x\<bar> \<approx> \<bar>x + e\<bar>" |
1246 |
for e x :: hypreal |
|
1247 |
by (fast intro: approx_hrabs Infinitesimal_add_approx_self) |
|
| 27468 | 1248 |
|
| 64435 | 1249 |
lemma approx_hrabs_add_minus_Infinitesimal: "e \<in> Infinitesimal ==> \<bar>x\<bar> \<approx> \<bar>x + -e\<bar>" |
1250 |
for e x :: hypreal |
|
1251 |
by (fast intro: approx_hrabs Infinitesimal_add_minus_approx_self) |
|
| 27468 | 1252 |
|
1253 |
lemma hrabs_add_Infinitesimal_cancel: |
|
| 64435 | 1254 |
"e \<in> Infinitesimal \<Longrightarrow> e' \<in> Infinitesimal \<Longrightarrow> \<bar>x + e\<bar> = \<bar>y + e'\<bar> \<Longrightarrow> \<bar>x\<bar> \<approx> \<bar>y\<bar>" |
1255 |
for e e' x y :: hypreal |
|
| 70221 | 1256 |
by (metis approx_hrabs_add_Infinitesimal approx_trans2) |
| 27468 | 1257 |
|
1258 |
lemma hrabs_add_minus_Infinitesimal_cancel: |
|
| 64435 | 1259 |
"e \<in> Infinitesimal \<Longrightarrow> e' \<in> Infinitesimal \<Longrightarrow> \<bar>x + -e\<bar> = \<bar>y + -e'\<bar> \<Longrightarrow> \<bar>x\<bar> \<approx> \<bar>y\<bar>" |
1260 |
for e e' x y :: hypreal |
|
| 70221 | 1261 |
by (meson Infinitesimal_minus_iff hrabs_add_Infinitesimal_cancel) |
| 64435 | 1262 |
|
| 27468 | 1263 |
|
| 69597 | 1264 |
subsection \<open>More \<^term>\<open>HFinite\<close> and \<^term>\<open>Infinitesimal\<close> Theorems\<close> |
| 27468 | 1265 |
|
| 64435 | 1266 |
text \<open> |
1267 |
Interesting slightly counterintuitive theorem: necessary |
|
1268 |
for proving that an open interval is an NS open set. |
|
1269 |
\<close> |
|
| 27468 | 1270 |
lemma Infinitesimal_add_hypreal_of_real_less: |
| 70224 | 1271 |
assumes "x < y" and u: "u \<in> Infinitesimal" |
1272 |
shows "hypreal_of_real x + u < hypreal_of_real y" |
|
1273 |
proof - |
|
1274 |
have "\<bar>u\<bar> < hypreal_of_real y - hypreal_of_real x" |
|
1275 |
using InfinitesimalD \<open>x < y\<close> u by fastforce |
|
1276 |
then show ?thesis |
|
1277 |
by (simp add: abs_less_iff) |
|
1278 |
qed |
|
| 27468 | 1279 |
|
1280 |
lemma Infinitesimal_add_hrabs_hypreal_of_real_less: |
|
| 64435 | 1281 |
"x \<in> Infinitesimal \<Longrightarrow> \<bar>hypreal_of_real r\<bar> < hypreal_of_real y \<Longrightarrow> |
1282 |
\<bar>hypreal_of_real r + x\<bar> < hypreal_of_real y" |
|
| 70224 | 1283 |
by (metis Infinitesimal_add_hypreal_of_real_less approx_hrabs_add_Infinitesimal approx_sym bex_Infinitesimal_iff2 star_of_abs star_of_less) |
| 27468 | 1284 |
|
1285 |
lemma Infinitesimal_add_hrabs_hypreal_of_real_less2: |
|
| 64435 | 1286 |
"x \<in> Infinitesimal \<Longrightarrow> \<bar>hypreal_of_real r\<bar> < hypreal_of_real y \<Longrightarrow> |
1287 |
\<bar>x + hypreal_of_real r\<bar> < hypreal_of_real y" |
|
| 70221 | 1288 |
using Infinitesimal_add_hrabs_hypreal_of_real_less by fastforce |
| 27468 | 1289 |
|
1290 |
lemma hypreal_of_real_le_add_Infininitesimal_cancel: |
|
| 70224 | 1291 |
assumes le: "hypreal_of_real x + u \<le> hypreal_of_real y + v" |
1292 |
and u: "u \<in> Infinitesimal" and v: "v \<in> Infinitesimal" |
|
1293 |
shows "hypreal_of_real x \<le> hypreal_of_real y" |
|
1294 |
proof (rule ccontr) |
|
1295 |
assume "\<not> hypreal_of_real x \<le> hypreal_of_real y" |
|
1296 |
then have "hypreal_of_real y + (v - u) < hypreal_of_real x" |
|
1297 |
by (simp add: Infinitesimal_add_hypreal_of_real_less Infinitesimal_diff u v) |
|
1298 |
then show False |
|
1299 |
by (simp add: add_diff_eq add_le_imp_le_diff le leD) |
|
1300 |
qed |
|
| 27468 | 1301 |
|
1302 |
lemma hypreal_of_real_le_add_Infininitesimal_cancel2: |
|
| 64435 | 1303 |
"u \<in> Infinitesimal \<Longrightarrow> v \<in> Infinitesimal \<Longrightarrow> |
1304 |
hypreal_of_real x + u \<le> hypreal_of_real y + v \<Longrightarrow> x \<le> y" |
|
1305 |
by (blast intro: star_of_le [THEN iffD1] intro!: hypreal_of_real_le_add_Infininitesimal_cancel) |
|
| 27468 | 1306 |
|
1307 |
lemma hypreal_of_real_less_Infinitesimal_le_zero: |
|
| 64435 | 1308 |
"hypreal_of_real x < e \<Longrightarrow> e \<in> Infinitesimal \<Longrightarrow> hypreal_of_real x \<le> 0" |
| 70221 | 1309 |
by (metis Infinitesimal_interval eq_iff le_less_linear star_of_Infinitesimal_iff_0 star_of_eq_0) |
| 27468 | 1310 |
|
| 64435 | 1311 |
lemma Infinitesimal_add_not_zero: "h \<in> Infinitesimal \<Longrightarrow> x \<noteq> 0 \<Longrightarrow> star_of x + h \<noteq> 0" |
| 70224 | 1312 |
by (metis Infinitesimal_add_approx_self star_of_approx_zero_iff) |
| 27468 | 1313 |
|
| 64435 | 1314 |
lemma monad_hrabs_less: "y \<in> monad x \<Longrightarrow> 0 < hypreal_of_real e \<Longrightarrow> \<bar>y - x\<bar> < hypreal_of_real e" |
| 70221 | 1315 |
by (simp add: Infinitesimal_approx_minus approx_sym less_Infinitesimal_less mem_monad_approx) |
| 27468 | 1316 |
|
| 64435 | 1317 |
lemma mem_monad_SReal_HFinite: "x \<in> monad (hypreal_of_real a) \<Longrightarrow> x \<in> HFinite" |
| 70221 | 1318 |
using HFinite_star_of approx_HFinite mem_monad_approx by blast |
| 27468 | 1319 |
|
1320 |
||
| 64435 | 1321 |
subsection \<open>Theorems about Standard Part\<close> |
| 27468 | 1322 |
|
| 64435 | 1323 |
lemma st_approx_self: "x \<in> HFinite \<Longrightarrow> st x \<approx> x" |
| 70221 | 1324 |
by (metis (no_types, lifting) approx_refl approx_trans3 someI_ex st_def st_part_Ex st_part_Ex1) |
| 27468 | 1325 |
|
| 64435 | 1326 |
lemma st_SReal: "x \<in> HFinite \<Longrightarrow> st x \<in> \<real>" |
| 70224 | 1327 |
by (metis (mono_tags, lifting) approx_sym someI_ex st_def st_part_Ex) |
| 27468 | 1328 |
|
| 64435 | 1329 |
lemma st_HFinite: "x \<in> HFinite \<Longrightarrow> st x \<in> HFinite" |
1330 |
by (erule st_SReal [THEN SReal_subset_HFinite [THEN subsetD]]) |
|
| 27468 | 1331 |
|
| 64435 | 1332 |
lemma st_unique: "r \<in> \<real> \<Longrightarrow> r \<approx> x \<Longrightarrow> st x = r" |
| 70224 | 1333 |
by (meson SReal_subset_HFinite approx_HFinite approx_unique_real st_SReal st_approx_self subsetD) |
| 27468 | 1334 |
|
| 64435 | 1335 |
lemma st_SReal_eq: "x \<in> \<real> \<Longrightarrow> st x = x" |
|
61649
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61609
diff
changeset
|
1336 |
by (metis approx_refl st_unique) |
| 27468 | 1337 |
|
1338 |
lemma st_hypreal_of_real [simp]: "st (hypreal_of_real x) = hypreal_of_real x" |
|
| 64435 | 1339 |
by (rule SReal_hypreal_of_real [THEN st_SReal_eq]) |
| 27468 | 1340 |
|
| 64435 | 1341 |
lemma st_eq_approx: "x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> st x = st y \<Longrightarrow> x \<approx> y" |
1342 |
by (auto dest!: st_approx_self elim!: approx_trans3) |
|
| 27468 | 1343 |
|
|
56217
dc429a5b13c4
Some rationalisation of basic lemmas
paulson <lp15@cam.ac.uk>
parents:
54489
diff
changeset
|
1344 |
lemma approx_st_eq: |
| 61982 | 1345 |
assumes x: "x \<in> HFinite" and y: "y \<in> HFinite" and xy: "x \<approx> y" |
| 27468 | 1346 |
shows "st x = st y" |
1347 |
proof - |
|
| 61982 | 1348 |
have "st x \<approx> x" "st y \<approx> y" "st x \<in> \<real>" "st y \<in> \<real>" |
| 41541 | 1349 |
by (simp_all add: st_approx_self st_SReal x y) |
1350 |
with xy show ?thesis |
|
| 27468 | 1351 |
by (fast elim: approx_trans approx_trans2 SReal_approx_iff [THEN iffD1]) |
1352 |
qed |
|
1353 |
||
| 64435 | 1354 |
lemma st_eq_approx_iff: "x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> x \<approx> y \<longleftrightarrow> st x = st y" |
1355 |
by (blast intro: approx_st_eq st_eq_approx) |
|
| 27468 | 1356 |
|
| 64435 | 1357 |
lemma st_Infinitesimal_add_SReal: "x \<in> \<real> \<Longrightarrow> e \<in> Infinitesimal \<Longrightarrow> st (x + e) = x" |
| 70224 | 1358 |
by (simp add: Infinitesimal_add_approx_self st_unique) |
| 27468 | 1359 |
|
| 64435 | 1360 |
lemma st_Infinitesimal_add_SReal2: "x \<in> \<real> \<Longrightarrow> e \<in> Infinitesimal \<Longrightarrow> st (e + x) = x" |
| 70224 | 1361 |
by (metis add.commute st_Infinitesimal_add_SReal) |
| 27468 | 1362 |
|
| 64435 | 1363 |
lemma HFinite_st_Infinitesimal_add: "x \<in> HFinite \<Longrightarrow> \<exists>e \<in> Infinitesimal. x = st(x) + e" |
1364 |
by (blast dest!: st_approx_self [THEN approx_sym] bex_Infinitesimal_iff2 [THEN iffD2]) |
|
| 27468 | 1365 |
|
| 64435 | 1366 |
lemma st_add: "x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> st (x + y) = st x + st y" |
1367 |
by (simp add: st_unique st_SReal st_approx_self approx_add) |
|
| 27468 | 1368 |
|
|
47108
2a1953f0d20d
merged fork with new numeral representation (see NEWS)
huffman
parents:
45541
diff
changeset
|
1369 |
lemma st_numeral [simp]: "st (numeral w) = numeral w" |
| 64435 | 1370 |
by (rule Reals_numeral [THEN st_SReal_eq]) |
|
47108
2a1953f0d20d
merged fork with new numeral representation (see NEWS)
huffman
parents:
45541
diff
changeset
|
1371 |
|
|
54489
03ff4d1e6784
eliminiated neg_numeral in favour of - (numeral _)
haftmann
parents:
54263
diff
changeset
|
1372 |
lemma st_neg_numeral [simp]: "st (- numeral w) = - numeral w" |
| 70224 | 1373 |
using st_unique by auto |
| 27468 | 1374 |
|
| 45540 | 1375 |
lemma st_0 [simp]: "st 0 = 0" |
| 64435 | 1376 |
by (simp add: st_SReal_eq) |
| 45540 | 1377 |
|
1378 |
lemma st_1 [simp]: "st 1 = 1" |
|
| 64435 | 1379 |
by (simp add: st_SReal_eq) |
| 27468 | 1380 |
|
|
54489
03ff4d1e6784
eliminiated neg_numeral in favour of - (numeral _)
haftmann
parents:
54263
diff
changeset
|
1381 |
lemma st_neg_1 [simp]: "st (- 1) = - 1" |
| 64435 | 1382 |
by (simp add: st_SReal_eq) |
|
54489
03ff4d1e6784
eliminiated neg_numeral in favour of - (numeral _)
haftmann
parents:
54263
diff
changeset
|
1383 |
|
| 27468 | 1384 |
lemma st_minus: "x \<in> HFinite \<Longrightarrow> st (- x) = - st x" |
| 64435 | 1385 |
by (simp add: st_unique st_SReal st_approx_self approx_minus) |
| 27468 | 1386 |
|
1387 |
lemma st_diff: "\<lbrakk>x \<in> HFinite; y \<in> HFinite\<rbrakk> \<Longrightarrow> st (x - y) = st x - st y" |
|
| 64435 | 1388 |
by (simp add: st_unique st_SReal st_approx_self approx_diff) |
| 27468 | 1389 |
|
1390 |
lemma st_mult: "\<lbrakk>x \<in> HFinite; y \<in> HFinite\<rbrakk> \<Longrightarrow> st (x * y) = st x * st y" |
|
| 64435 | 1391 |
by (simp add: st_unique st_SReal st_approx_self approx_mult_HFinite) |
| 27468 | 1392 |
|
| 64435 | 1393 |
lemma st_Infinitesimal: "x \<in> Infinitesimal \<Longrightarrow> st x = 0" |
1394 |
by (simp add: st_unique mem_infmal_iff) |
|
| 27468 | 1395 |
|
| 64435 | 1396 |
lemma st_not_Infinitesimal: "st(x) \<noteq> 0 \<Longrightarrow> x \<notin> Infinitesimal" |
| 27468 | 1397 |
by (fast intro: st_Infinitesimal) |
1398 |
||
| 64435 | 1399 |
lemma st_inverse: "x \<in> HFinite \<Longrightarrow> st x \<noteq> 0 \<Longrightarrow> st (inverse x) = inverse (st x)" |
| 70224 | 1400 |
by (simp add: approx_inverse st_SReal st_approx_self st_not_Infinitesimal st_unique) |
| 27468 | 1401 |
|
| 64435 | 1402 |
lemma st_divide [simp]: "x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> st y \<noteq> 0 \<Longrightarrow> st (x / y) = st x / st y" |
1403 |
by (simp add: divide_inverse st_mult st_not_Infinitesimal HFinite_inverse st_inverse) |
|
| 27468 | 1404 |
|
| 64435 | 1405 |
lemma st_idempotent [simp]: "x \<in> HFinite \<Longrightarrow> st (st x) = st x" |
1406 |
by (blast intro: st_HFinite st_approx_self approx_st_eq) |
|
| 27468 | 1407 |
|
1408 |
lemma Infinitesimal_add_st_less: |
|
| 64435 | 1409 |
"x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> u \<in> Infinitesimal \<Longrightarrow> st x < st y \<Longrightarrow> st x + u < st y" |
| 70224 | 1410 |
by (metis Infinitesimal_add_hypreal_of_real_less SReal_iff st_SReal star_of_less) |
| 27468 | 1411 |
|
1412 |
lemma Infinitesimal_add_st_le_cancel: |
|
| 64435 | 1413 |
"x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> u \<in> Infinitesimal \<Longrightarrow> |
1414 |
st x \<le> st y + u \<Longrightarrow> st x \<le> st y" |
|
| 70224 | 1415 |
by (meson Infinitesimal_add_st_less leD le_less_linear) |
| 27468 | 1416 |
|
| 64435 | 1417 |
lemma st_le: "x \<in> HFinite \<Longrightarrow> y \<in> HFinite \<Longrightarrow> x \<le> y \<Longrightarrow> st x \<le> st y" |
1418 |
by (metis approx_le_bound approx_sym linear st_SReal st_approx_self st_part_Ex1) |
|
| 27468 | 1419 |
|
| 64435 | 1420 |
lemma st_zero_le: "0 \<le> x \<Longrightarrow> x \<in> HFinite \<Longrightarrow> 0 \<le> st x" |
| 70224 | 1421 |
by (metis HFinite_0 st_0 st_le) |
| 27468 | 1422 |
|
| 64435 | 1423 |
lemma st_zero_ge: "x \<le> 0 \<Longrightarrow> x \<in> HFinite \<Longrightarrow> st x \<le> 0" |
| 70224 | 1424 |
by (metis HFinite_0 st_0 st_le) |
| 27468 | 1425 |
|
| 64435 | 1426 |
lemma st_hrabs: "x \<in> HFinite \<Longrightarrow> \<bar>st x\<bar> = st \<bar>x\<bar>" |
| 70224 | 1427 |
by (simp add: order_class.order.antisym st_zero_ge linorder_not_le st_zero_le abs_if st_minus linorder_not_less) |
| 27468 | 1428 |
|
1429 |
||
| 61975 | 1430 |
subsection \<open>Alternative Definitions using Free Ultrafilter\<close> |
| 27468 | 1431 |
|
| 69597 | 1432 |
subsubsection \<open>\<^term>\<open>HFinite\<close>\<close> |
| 27468 | 1433 |
|
1434 |
lemma HFinite_FreeUltrafilterNat: |
|
| 70224 | 1435 |
assumes "star_n X \<in> HFinite" |
1436 |
shows "\<exists>u. eventually (\<lambda>n. norm (X n) < u) \<U>" |
|
1437 |
proof - |
|
1438 |
obtain r where "hnorm (star_n X) < hypreal_of_real r" |
|
1439 |
using HFiniteD SReal_iff assms by fastforce |
|
1440 |
then have "\<forall>\<^sub>F n in \<U>. norm (X n) < r" |
|
1441 |
by (simp add: hnorm_def star_n_less star_of_def starfun_star_n) |
|
1442 |
then show ?thesis .. |
|
1443 |
qed |
|
| 27468 | 1444 |
|
1445 |
lemma FreeUltrafilterNat_HFinite: |
|
| 70224 | 1446 |
assumes "eventually (\<lambda>n. norm (X n) < u) \<U>" |
1447 |
shows "star_n X \<in> HFinite" |
|
1448 |
proof - |
|
1449 |
have "hnorm (star_n X) < hypreal_of_real u" |
|
1450 |
by (simp add: assms hnorm_def star_n_less star_of_def starfun_star_n) |
|
1451 |
then show ?thesis |
|
1452 |
by (meson HInfiniteD SReal_hypreal_of_real less_asym not_HFinite_HInfinite) |
|
1453 |
qed |
|
| 27468 | 1454 |
|
1455 |
lemma HFinite_FreeUltrafilterNat_iff: |
|
| 64438 | 1456 |
"star_n X \<in> HFinite \<longleftrightarrow> (\<exists>u. eventually (\<lambda>n. norm (X n) < u) \<U>)" |
| 70224 | 1457 |
using FreeUltrafilterNat_HFinite HFinite_FreeUltrafilterNat by blast |
| 64435 | 1458 |
|
| 27468 | 1459 |
|
| 69597 | 1460 |
subsubsection \<open>\<^term>\<open>HInfinite\<close>\<close> |
| 27468 | 1461 |
|
| 64435 | 1462 |
text \<open>Exclude this type of sets from free ultrafilter for Infinite numbers!\<close> |
| 27468 | 1463 |
lemma FreeUltrafilterNat_const_Finite: |
| 64438 | 1464 |
"eventually (\<lambda>n. norm (X n) = u) \<U> \<Longrightarrow> star_n X \<in> HFinite" |
| 70224 | 1465 |
by (simp add: FreeUltrafilterNat_HFinite [where u = "u+1"] eventually_mono) |
| 27468 | 1466 |
|
1467 |
lemma HInfinite_FreeUltrafilterNat: |
|
| 70224 | 1468 |
"star_n X \<in> HInfinite \<Longrightarrow> eventually (\<lambda>n. u < norm (X n)) \<U>" |
| 64435 | 1469 |
apply (drule HInfinite_HFinite_iff [THEN iffD1]) |
1470 |
apply (simp add: HFinite_FreeUltrafilterNat_iff) |
|
| 70224 | 1471 |
apply (drule_tac x="u + 1" in spec) |
| 64435 | 1472 |
apply (simp add: FreeUltrafilterNat.eventually_not_iff[symmetric]) |
1473 |
apply (auto elim: eventually_mono) |
|
1474 |
done |
|
| 27468 | 1475 |
|
1476 |
lemma FreeUltrafilterNat_HInfinite: |
|
| 70224 | 1477 |
assumes "\<And>u. eventually (\<lambda>n. u < norm (X n)) \<U>" |
1478 |
shows "star_n X \<in> HInfinite" |
|
| 60041 | 1479 |
proof - |
| 70224 | 1480 |
{ fix u
|
1481 |
assume "\<forall>\<^sub>Fn in \<U>. norm (X n) < u" "\<forall>\<^sub>Fn in \<U>. u < norm (X n)" |
|
1482 |
then have "\<forall>\<^sub>F x in \<U>. False" |
|
1483 |
by eventually_elim auto |
|
1484 |
then have False |
|
1485 |
by (simp add: eventually_False FreeUltrafilterNat.proper) } |
|
1486 |
then show ?thesis |
|
1487 |
using HFinite_FreeUltrafilterNat HInfinite_HFinite_iff assms by blast |
|
| 60041 | 1488 |
qed |
| 27468 | 1489 |
|
1490 |
lemma HInfinite_FreeUltrafilterNat_iff: |
|
| 64438 | 1491 |
"star_n X \<in> HInfinite \<longleftrightarrow> (\<forall>u. eventually (\<lambda>n. u < norm (X n)) \<U>)" |
| 70224 | 1492 |
using HInfinite_FreeUltrafilterNat FreeUltrafilterNat_HInfinite by blast |
| 64435 | 1493 |
|
| 27468 | 1494 |
|
| 69597 | 1495 |
subsubsection \<open>\<^term>\<open>Infinitesimal\<close>\<close> |
| 27468 | 1496 |
|
| 64435 | 1497 |
lemma ball_SReal_eq: "(\<forall>x::hypreal \<in> Reals. P x) \<longleftrightarrow> (\<forall>x::real. P (star_of x))" |
1498 |
by (auto simp: SReal_def) |
|
| 27468 | 1499 |
|
1500 |
||
1501 |
lemma Infinitesimal_FreeUltrafilterNat_iff: |
|
| 70224 | 1502 |
"(star_n X \<in> Infinitesimal) = (\<forall>u>0. eventually (\<lambda>n. norm (X n) < u) \<U>)" (is "?lhs = ?rhs") |
1503 |
proof |
|
1504 |
assume ?lhs |
|
1505 |
then show ?rhs |
|
1506 |
apply (simp add: Infinitesimal_def ball_SReal_eq) |
|
1507 |
apply (simp add: hnorm_def starfun_star_n star_of_def star_less_def starP2_star_n) |
|
1508 |
done |
|
1509 |
next |
|
1510 |
assume ?rhs |
|
1511 |
then show ?lhs |
|
1512 |
apply (simp add: Infinitesimal_def ball_SReal_eq) |
|
1513 |
apply (simp add: hnorm_def starfun_star_n star_of_def star_less_def starP2_star_n) |
|
1514 |
done |
|
1515 |
qed |
|
| 64435 | 1516 |
|
| 27468 | 1517 |
|
| 64435 | 1518 |
text \<open>Infinitesimals as smaller than \<open>1/n\<close> for all \<open>n::nat (> 0)\<close>.\<close> |
| 27468 | 1519 |
|
| 64435 | 1520 |
lemma lemma_Infinitesimal: "(\<forall>r. 0 < r \<longrightarrow> x < r) \<longleftrightarrow> (\<forall>n. x < inverse (real (Suc n)))" |
| 70221 | 1521 |
by (meson inverse_positive_iff_positive less_trans of_nat_0_less_iff reals_Archimedean zero_less_Suc) |
| 27468 | 1522 |
|
1523 |
lemma lemma_Infinitesimal2: |
|
| 64435 | 1524 |
"(\<forall>r \<in> Reals. 0 < r \<longrightarrow> x < r) \<longleftrightarrow> (\<forall>n. x < inverse(hypreal_of_nat (Suc n)))" |
1525 |
apply safe |
|
1526 |
apply (drule_tac x = "inverse (hypreal_of_real (real (Suc n))) " in bspec) |
|
1527 |
apply simp_all |
|
|
61649
268d88ec9087
Tweaks for "real": Removal of [iff] status for some lemmas, adding [simp] for others. Plus fixes.
paulson <lp15@cam.ac.uk>
parents:
61609
diff
changeset
|
1528 |
using less_imp_of_nat_less apply fastforce |
| 64435 | 1529 |
apply (auto dest!: reals_Archimedean simp add: SReal_iff simp del: of_nat_Suc) |
1530 |
apply (drule star_of_less [THEN iffD2]) |
|
1531 |
apply simp |
|
1532 |
apply (blast intro: order_less_trans) |
|
1533 |
done |
|
| 27468 | 1534 |
|
1535 |
||
1536 |
lemma Infinitesimal_hypreal_of_nat_iff: |
|
| 64435 | 1537 |
"Infinitesimal = {x. \<forall>n. hnorm x < inverse (hypreal_of_nat (Suc n))}"
|
| 70221 | 1538 |
using Infinitesimal_def lemma_Infinitesimal2 by auto |
| 27468 | 1539 |
|
1540 |
||
| 64435 | 1541 |
subsection \<open>Proof that \<open>\<omega>\<close> is an infinite number\<close> |
| 27468 | 1542 |
|
| 64435 | 1543 |
text \<open>It will follow that \<open>\<epsilon>\<close> is an infinitesimal number.\<close> |
| 27468 | 1544 |
|
1545 |
lemma Suc_Un_eq: "{n. n < Suc m} = {n. n < m} Un {n. n = m}"
|
|
| 64435 | 1546 |
by (auto simp add: less_Suc_eq) |
| 27468 | 1547 |
|
| 64435 | 1548 |
|
| 64438 | 1549 |
text \<open>Prove that any segment is finite and hence cannot belong to \<open>\<U>\<close>.\<close> |
| 27468 | 1550 |
|
1551 |
lemma finite_real_of_nat_segment: "finite {n::nat. real n < real (m::nat)}"
|
|
| 64435 | 1552 |
by auto |
| 27468 | 1553 |
|
1554 |
lemma finite_real_of_nat_less_real: "finite {n::nat. real n < u}"
|
|
| 64435 | 1555 |
apply (cut_tac x = u in reals_Archimedean2, safe) |
1556 |
apply (rule finite_real_of_nat_segment [THEN [2] finite_subset]) |
|
1557 |
apply (auto dest: order_less_trans) |
|
1558 |
done |
|
| 27468 | 1559 |
|
1560 |
lemma finite_real_of_nat_le_real: "finite {n::nat. real n \<le> u}"
|
|
| 70221 | 1561 |
by (metis infinite_nat_iff_unbounded leD le_nat_floor mem_Collect_eq) |
| 27468 | 1562 |
|
| 61945 | 1563 |
lemma finite_rabs_real_of_nat_le_real: "finite {n::nat. \<bar>real n\<bar> \<le> u}"
|
| 64435 | 1564 |
by (simp add: finite_real_of_nat_le_real) |
| 27468 | 1565 |
|
1566 |
lemma rabs_real_of_nat_le_real_FreeUltrafilterNat: |
|
| 64438 | 1567 |
"\<not> eventually (\<lambda>n. \<bar>real n\<bar> \<le> u) \<U>" |
| 64435 | 1568 |
by (blast intro!: FreeUltrafilterNat.finite finite_rabs_real_of_nat_le_real) |
| 27468 | 1569 |
|
| 64438 | 1570 |
lemma FreeUltrafilterNat_nat_gt_real: "eventually (\<lambda>n. u < real n) \<U>" |
| 70224 | 1571 |
proof - |
1572 |
have "{n::nat. \<not> u < real n} = {n. real n \<le> u}"
|
|
1573 |
by auto |
|
1574 |
then show ?thesis |
|
1575 |
by (auto simp add: FreeUltrafilterNat.finite' finite_real_of_nat_le_real) |
|
1576 |
qed |
|
| 27468 | 1577 |
|
| 64435 | 1578 |
text \<open>The complement of \<open>{n. \<bar>real n\<bar> \<le> u} = {n. u < \<bar>real n\<bar>}\<close> is in
|
| 64438 | 1579 |
\<open>\<U>\<close> by property of (free) ultrafilters.\<close> |
| 27468 | 1580 |
|
| 69597 | 1581 |
text \<open>\<^term>\<open>\<omega>\<close> is a member of \<^term>\<open>HInfinite\<close>.\<close> |
| 61981 | 1582 |
theorem HInfinite_omega [simp]: "\<omega> \<in> HInfinite" |
| 70224 | 1583 |
proof - |
1584 |
have "\<forall>\<^sub>F n in \<U>. u < norm (1 + real n)" for u |
|
1585 |
using FreeUltrafilterNat_nat_gt_real [of "u-1"] eventually_mono by fastforce |
|
1586 |
then show ?thesis |
|
1587 |
by (simp add: omega_def FreeUltrafilterNat_HInfinite) |
|
1588 |
qed |
|
| 27468 | 1589 |
|
| 64435 | 1590 |
|
1591 |
text \<open>Epsilon is a member of Infinitesimal.\<close> |
|
| 27468 | 1592 |
|
| 61981 | 1593 |
lemma Infinitesimal_epsilon [simp]: "\<epsilon> \<in> Infinitesimal" |
| 64435 | 1594 |
by (auto intro!: HInfinite_inverse_Infinitesimal HInfinite_omega |
|
70723
4e39d87c9737
imported new material mostly due to Sébastien Gouëzel
paulson <lp15@cam.ac.uk>
parents:
70232
diff
changeset
|
1595 |
simp add: epsilon_inverse_omega) |
| 27468 | 1596 |
|
| 61981 | 1597 |
lemma HFinite_epsilon [simp]: "\<epsilon> \<in> HFinite" |
| 64435 | 1598 |
by (auto intro: Infinitesimal_subset_HFinite [THEN subsetD]) |
| 27468 | 1599 |
|
| 61982 | 1600 |
lemma epsilon_approx_zero [simp]: "\<epsilon> \<approx> 0" |
| 64435 | 1601 |
by (simp add: mem_infmal_iff [symmetric]) |
| 27468 | 1602 |
|
| 64435 | 1603 |
text \<open>Needed for proof that we define a hyperreal \<open>[<X(n)] \<approx> hypreal_of_real a\<close> given |
1604 |
that \<open>\<forall>n. |X n - a| < 1/n\<close>. Used in proof of \<open>NSLIM \<Rightarrow> LIM\<close>.\<close> |
|
1605 |
lemma real_of_nat_less_inverse_iff: "0 < u \<Longrightarrow> u < inverse (real(Suc n)) \<longleftrightarrow> real(Suc n) < inverse u" |
|
| 70221 | 1606 |
using less_imp_inverse_less by force |
| 27468 | 1607 |
|
| 64435 | 1608 |
lemma finite_inverse_real_of_posnat_gt_real: "0 < u \<Longrightarrow> finite {n. u < inverse (real (Suc n))}"
|
|
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:
61378
diff
changeset
|
1609 |
proof (simp only: real_of_nat_less_inverse_iff) |
|
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:
61378
diff
changeset
|
1610 |
have "{n. 1 + real n < inverse u} = {n. real n < inverse u - 1}"
|
|
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:
61378
diff
changeset
|
1611 |
by fastforce |
| 64435 | 1612 |
then show "finite {n. real (Suc n) < inverse u}"
|
1613 |
using finite_real_of_nat_less_real [of "inverse u - 1"] |
|
1614 |
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:
61378
diff
changeset
|
1615 |
qed |
| 27468 | 1616 |
|
| 70232 | 1617 |
lemma finite_inverse_real_of_posnat_ge_real: |
1618 |
assumes "0 < u" |
|
1619 |
shows "finite {n. u \<le> inverse (real (Suc n))}"
|
|
1620 |
proof - |
|
1621 |
have "\<forall>na. u \<le> inverse (1 + real na) \<longrightarrow> na \<le> ceiling (inverse u)" |
|
1622 |
by (metis add.commute add1_zle_eq assms ceiling_mono ceiling_of_nat dual_order.order_iff_strict inverse_inverse_eq le_imp_inverse_le semiring_1_class.of_nat_simps(2)) |
|
1623 |
then show ?thesis |
|
1624 |
apply (auto simp add: finite_nat_set_iff_bounded_le) |
|
1625 |
by (meson assms inverse_positive_iff_positive le_nat_iff less_imp_le zero_less_ceiling) |
|
1626 |
qed |
|
| 27468 | 1627 |
|
1628 |
lemma inverse_real_of_posnat_ge_real_FreeUltrafilterNat: |
|
| 64438 | 1629 |
"0 < u \<Longrightarrow> \<not> eventually (\<lambda>n. u \<le> inverse(real(Suc n))) \<U>" |
| 64435 | 1630 |
by (blast intro!: FreeUltrafilterNat.finite finite_inverse_real_of_posnat_ge_real) |
| 27468 | 1631 |
|
1632 |
lemma FreeUltrafilterNat_inverse_real_of_posnat: |
|
| 64438 | 1633 |
"0 < u \<Longrightarrow> eventually (\<lambda>n. inverse(real(Suc n)) < u) \<U>" |
| 64435 | 1634 |
by (drule inverse_real_of_posnat_ge_real_FreeUltrafilterNat) |
1635 |
(simp add: FreeUltrafilterNat.eventually_not_iff not_le[symmetric]) |
|
| 27468 | 1636 |
|
| 64435 | 1637 |
text \<open>Example of an hypersequence (i.e. an extended standard sequence) |
1638 |
whose term with an hypernatural suffix is an infinitesimal i.e. |
|
1639 |
the whn'nth term of the hypersequence is a member of Infinitesimal\<close> |
|
| 27468 | 1640 |
|
| 64435 | 1641 |
lemma SEQ_Infinitesimal: "( *f* (\<lambda>n::nat. inverse(real(Suc n)))) whn \<in> Infinitesimal" |
1642 |
by (simp add: hypnat_omega_def starfun_star_n star_n_inverse Infinitesimal_FreeUltrafilterNat_iff |
|
1643 |
FreeUltrafilterNat_inverse_real_of_posnat del: of_nat_Suc) |
|
| 27468 | 1644 |
|
| 64435 | 1645 |
text \<open>Example where we get a hyperreal from a real sequence |
1646 |
for which a particular property holds. The theorem is |
|
1647 |
used in proofs about equivalence of nonstandard and |
|
1648 |
standard neighbourhoods. Also used for equivalence of |
|
1649 |
nonstandard ans standard definitions of pointwise |
|
1650 |
limit.\<close> |
|
| 27468 | 1651 |
|
| 64435 | 1652 |
text \<open>\<open>|X(n) - x| < 1/n \<Longrightarrow> [<X n>] - hypreal_of_real x| \<in> Infinitesimal\<close>\<close> |
| 27468 | 1653 |
lemma real_seq_to_hypreal_Infinitesimal: |
| 64435 | 1654 |
"\<forall>n. norm (X n - x) < inverse (real (Suc n)) \<Longrightarrow> star_n X - star_of x \<in> Infinitesimal" |
1655 |
unfolding star_n_diff star_of_def Infinitesimal_FreeUltrafilterNat_iff star_n_inverse |
|
1656 |
by (auto dest!: FreeUltrafilterNat_inverse_real_of_posnat |
|
1657 |
intro: order_less_trans elim!: eventually_mono) |
|
| 27468 | 1658 |
|
1659 |
lemma real_seq_to_hypreal_approx: |
|
| 64435 | 1660 |
"\<forall>n. norm (X n - x) < inverse (real (Suc n)) \<Longrightarrow> star_n X \<approx> star_of x" |
1661 |
by (metis bex_Infinitesimal_iff real_seq_to_hypreal_Infinitesimal) |
|
| 27468 | 1662 |
|
1663 |
lemma real_seq_to_hypreal_approx2: |
|
| 64435 | 1664 |
"\<forall>n. norm (x - X n) < inverse(real(Suc n)) \<Longrightarrow> star_n X \<approx> star_of x" |
1665 |
by (metis norm_minus_commute real_seq_to_hypreal_approx) |
|
| 27468 | 1666 |
|
1667 |
lemma real_seq_to_hypreal_Infinitesimal2: |
|
| 64435 | 1668 |
"\<forall>n. norm(X n - Y n) < inverse(real(Suc n)) \<Longrightarrow> star_n X - star_n Y \<in> Infinitesimal" |
1669 |
unfolding Infinitesimal_FreeUltrafilterNat_iff star_n_diff |
|
1670 |
by (auto dest!: FreeUltrafilterNat_inverse_real_of_posnat |
|
1671 |
intro: order_less_trans elim!: eventually_mono) |
|
| 27468 | 1672 |
|
1673 |
end |