isabelle: src/HOL/Isar_examples/HoareEx.thy@4cb16144c81b (annotated)

10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	1
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	2	header {* Using Hoare Logic *}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	3
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	4	theory HoareEx = Hoare:
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	5
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	6	subsection {* State spaces *}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	7
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	8	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	9	First of all we provide a store of program variables that
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	10	occur in any of the programs considered later. Slightly unexpected
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	11	things may happen when attempting to work with undeclared variables.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	12	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	13
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	14	record vars =
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	15	I :: nat
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	16	M :: nat
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	17	N :: nat
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	18	S :: nat
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	19
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	20	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	21	While all of our variables happen to have the same type, nothing
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	22	would prevent us from working with many-sorted programs as well, or
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	23	even polymorphic ones. Also note that Isabelle/HOL's extensible
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	24	record types even provides simple means to extend the state space
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	25	later.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	26	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	27
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	28
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	29	subsection {* Basic examples *}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	30
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	31	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	32	We look at few trivialities involving assignment and sequential
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	33	composition, in order to get an idea of how to work with our
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	34	formulation of Hoare Logic.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	35	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	36
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	37	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	38	Using the basic \name{assign} rule directly is a bit cumbersome.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	39	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	40
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	41	lemma
11704 3c50a2cd6f00 * sane numerals (stage 2): plain "num" syntax (removed "#"); wenzelm parents: 11701 diff changeset	42	"\|- .{\<acute>(N_update (2 * \<acute>N)) : .{\<acute>N = 10}.}. \<acute>N := 2 * \<acute>N .{\<acute>N = 10}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	43	by (rule assign)
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	44
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	45	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	46	Certainly we want the state modification already done, e.g.\ by
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	47	simplification. The \name{hoare} method performs the basic state
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	48	update for us; we may apply the Simplifier afterwards to achieve
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	49	``obvious'' consequences as well.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	50	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	51
11704 3c50a2cd6f00 * sane numerals (stage 2): plain "num" syntax (removed "#"); wenzelm parents: 11701 diff changeset	52	lemma "\|- .{True}. \<acute>N := 10 .{\<acute>N = 10}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	53	by hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	54
11704 3c50a2cd6f00 * sane numerals (stage 2): plain "num" syntax (removed "#"); wenzelm parents: 11701 diff changeset	55	lemma "\|- .{2 * \<acute>N = 10}. \<acute>N := 2 * \<acute>N .{\<acute>N = 10}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	56	by hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	57
11704 3c50a2cd6f00 * sane numerals (stage 2): plain "num" syntax (removed "#"); wenzelm parents: 11701 diff changeset	58	lemma "\|- .{\<acute>N = 5}. \<acute>N := 2 * \<acute>N .{\<acute>N = 10}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	59	by hoare simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	60
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	61	lemma "\|- .{\<acute>N + 1 = a + 1}. \<acute>N := \<acute>N + 1 .{\<acute>N = a + 1}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	62	by hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	63
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	64	lemma "\|- .{\<acute>N = a}. \<acute>N := \<acute>N + 1 .{\<acute>N = a + 1}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	65	by hoare simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	66
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	67	lemma "\|- .{a = a & b = b}. \<acute>M := a; \<acute>N := b .{\<acute>M = a & \<acute>N = b}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	68	by hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	69
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	70	lemma "\|- .{True}. \<acute>M := a; \<acute>N := b .{\<acute>M = a & \<acute>N = b}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	71	by hoare simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	72
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	73	lemma
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	74	"\|- .{\<acute>M = a & \<acute>N = b}.
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	75	\<acute>I := \<acute>M; \<acute>M := \<acute>N; \<acute>N := \<acute>I
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	76	.{\<acute>M = b & \<acute>N = a}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	77	by hoare simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	78
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	79	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	80	It is important to note that statements like the following one can
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	81	only be proven for each individual program variable. Due to the
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	82	extra-logical nature of record fields, we cannot formulate a theorem
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	83	relating record selectors and updates schematically.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	84	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	85
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	86	lemma "\|- .{\<acute>N = a}. \<acute>N := \<acute>N .{\<acute>N = a}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	87	by hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	88
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	89	lemma "\|- .{\<acute>x = a}. \<acute>x := \<acute>x .{\<acute>x = a}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	90	oops
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	91
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	92	lemma
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	93	"Valid {s. x s = a} (Basic (\<lambda>s. x_update (x s) s)) {s. x s = n}"
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	94	-- {* same statement without concrete syntax *}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	95	oops
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	96
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	97
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	98	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	99	In the following assignments we make use of the consequence rule in
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	100	order to achieve the intended precondition. Certainly, the
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	101	\name{hoare} method is able to handle this case, too.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	102	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	103
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	104	lemma "\|- .{\<acute>M = \<acute>N}. \<acute>M := \<acute>M + 1 .{\<acute>M ~= \<acute>N}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	105	proof -
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	106	have ".{\<acute>M = \<acute>N}. <= .{\<acute>M + 1 ~= \<acute>N}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	107	by auto
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	108	also have "\|- ... \<acute>M := \<acute>M + 1 .{\<acute>M ~= \<acute>N}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	109	by hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	110	finally show ?thesis .
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	111	qed
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	112
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	113	lemma "\|- .{\<acute>M = \<acute>N}. \<acute>M := \<acute>M + 1 .{\<acute>M ~= \<acute>N}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	114	proof -
11701 3d51fbf81c17 sane numerals (stage 1): added generic 1, removed 1' and 2 on nat, wenzelm parents: 10838 diff changeset	115	have "!!m n::nat. m = n --> m + 1 ~= n"
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	116	-- {* inclusion of assertions expressed in ``pure'' logic, *}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	117	-- {* without mentioning the state space *}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	118	by simp
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	119	also have "\|- .{\<acute>M + 1 ~= \<acute>N}. \<acute>M := \<acute>M + 1 .{\<acute>M ~= \<acute>N}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	120	by hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	121	finally show ?thesis .
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	122	qed
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	123
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	124	lemma "\|- .{\<acute>M = \<acute>N}. \<acute>M := \<acute>M + 1 .{\<acute>M ~= \<acute>N}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	125	by hoare simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	126
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	127
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	128	subsection {* Multiplication by addition *}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	129
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	130	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	131	We now do some basic examples of actual \texttt{WHILE} programs.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	132	This one is a loop for calculating the product of two natural
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	133	numbers, by iterated addition. We first give detailed structured
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	134	proof based on single-step Hoare rules.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	135	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	136
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	137	lemma
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	138	"\|- .{\<acute>M = 0 & \<acute>S = 0}.
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	139	WHILE \<acute>M ~= a
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	140	DO \<acute>S := \<acute>S + b; \<acute>M := \<acute>M + 1 OD
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	141	.{\<acute>S = a * b}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	142	proof -
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	143	let "\|- _ ?while _" = ?thesis
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	144	let ".{\<acute>?inv}." = ".{\<acute>S = \<acute>M * b}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	145
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	146	have ".{\<acute>M = 0 & \<acute>S = 0}. <= .{\<acute>?inv}." by auto
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	147	also have "\|- ... ?while .{\<acute>?inv & ~ (\<acute>M ~= a)}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	148	proof
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	149	let ?c = "\<acute>S := \<acute>S + b; \<acute>M := \<acute>M + 1"
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	150	have ".{\<acute>?inv & \<acute>M ~= a}. <= .{\<acute>S + b = (\<acute>M + 1) * b}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	151	by auto
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	152	also have "\|- ... ?c .{\<acute>?inv}." by hoare
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	153	finally show "\|- .{\<acute>?inv & \<acute>M ~= a}. ?c .{\<acute>?inv}." .
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	154	qed
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	155	also have "... <= .{\<acute>S = a * b}." by auto
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	156	finally show ?thesis .
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	157	qed
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	158
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	159	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	160	The subsequent version of the proof applies the \name{hoare} method
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	161	to reduce the Hoare statement to a purely logical problem that can be
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	162	solved fully automatically. Note that we have to specify the
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	163	\texttt{WHILE} loop invariant in the original statement.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	164	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	165
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	166	lemma
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	167	"\|- .{\<acute>M = 0 & \<acute>S = 0}.
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	168	WHILE \<acute>M ~= a
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	169	INV .{\<acute>S = \<acute>M * b}.
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	170	DO \<acute>S := \<acute>S + b; \<acute>M := \<acute>M + 1 OD
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	171	.{\<acute>S = a * b}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	172	by hoare auto
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	173
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	174
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	175	subsection {* Summing natural numbers *}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	176
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	177	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	178	We verify an imperative program to sum natural numbers up to a given
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	179	limit. First some functional definition for proper specification of
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	180	the problem.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	181	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	182
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	183	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	184	The following proof is quite explicit in the individual steps taken,
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	185	with the \name{hoare} method only applied locally to take care of
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	186	assignment and sequential composition. Note that we express
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	187	intermediate proof obligation in pure logic, without referring to the
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	188	state space.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	189	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	190
15569 1b3115d1a8df fixed proof nipkow parents: 15049 diff changeset	191	declare setsum_op_ivl_Suc[simp] atLeast0LessThan[symmetric,simp]
1b3115d1a8df fixed proof nipkow parents: 15049 diff changeset	192
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	193	theorem
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	194	"\|- .{True}.
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	195	\<acute>S := 0; \<acute>I := 1;
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	196	WHILE \<acute>I ~= n
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	197	DO
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	198	\<acute>S := \<acute>S + \<acute>I;
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	199	\<acute>I := \<acute>I + 1
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	200	OD
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	201	.{\<acute>S = (SUM j<n. j)}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	202	(is "\|- _ (_; ?while) _")
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	203	proof -
15049 82fb87151718 more summation syntax nipkow parents: 13473 diff changeset	204	let ?sum = "\<lambda>k::nat. SUM j<k. j"
82fb87151718 more summation syntax nipkow parents: 13473 diff changeset	205	let ?inv = "\<lambda>s i::nat. s = ?sum i"
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	206
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	207	have "\|- .{True}. \<acute>S := 0; \<acute>I := 1 .{?inv \<acute>S \<acute>I}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	208	proof -
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	209	have "True --> 0 = ?sum 1"
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	210	by simp
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	211	also have "\|- .{...}. \<acute>S := 0; \<acute>I := 1 .{?inv \<acute>S \<acute>I}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	212	by hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	213	finally show ?thesis .
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	214	qed
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	215	also have "\|- ... ?while .{?inv \<acute>S \<acute>I & ~ \<acute>I ~= n}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	216	proof
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	217	let ?body = "\<acute>S := \<acute>S + \<acute>I; \<acute>I := \<acute>I + 1"
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	218	have "!!s i. ?inv s i & i ~= n --> ?inv (s + i) (i + 1)"
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	219	by simp
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	220	also have "\|- .{\<acute>S + \<acute>I = ?sum (\<acute>I + 1)}. ?body .{?inv \<acute>S \<acute>I}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	221	by hoare
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	222	finally show "\|- .{?inv \<acute>S \<acute>I & \<acute>I ~= n}. ?body .{?inv \<acute>S \<acute>I}." .
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	223	qed
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	224	also have "!!s i. s = ?sum i & ~ i ~= n --> s = ?sum n"
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	225	by simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	226	finally show ?thesis .
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	227	qed
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	228
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	229	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	230	The next version uses the \name{hoare} method, while still explaining
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	231	the resulting proof obligations in an abstract, structured manner.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	232	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	233
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	234	theorem
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	235	"\|- .{True}.
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	236	\<acute>S := 0; \<acute>I := 1;
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	237	WHILE \<acute>I ~= n
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	238	INV .{\<acute>S = (SUM j<\<acute>I. j)}.
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	239	DO
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	240	\<acute>S := \<acute>S + \<acute>I;
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	241	\<acute>I := \<acute>I + 1
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	242	OD
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	243	.{\<acute>S = (SUM j<n. j)}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	244	proof -
15049 82fb87151718 more summation syntax nipkow parents: 13473 diff changeset	245	let ?sum = "\<lambda>k::nat. SUM j<k. j"
82fb87151718 more summation syntax nipkow parents: 13473 diff changeset	246	let ?inv = "\<lambda>s i::nat. s = ?sum i"
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	247
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	248	show ?thesis
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	249	proof hoare
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	250	show "?inv 0 1" by simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	251	next
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	252	fix s i assume "?inv s i & i ~= n"
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	253	thus "?inv (s + i) (i + 1)" by simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	254	next
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	255	fix s i assume "?inv s i & ~ i ~= n"
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	256	thus "s = ?sum n" by simp
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	257	qed
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	258	qed
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	259
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	260	text {*
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	261	Certainly, this proof may be done fully automatic as well, provided
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	262	that the invariant is given beforehand.
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	263	*}
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	264
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	265	theorem
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	266	"\|- .{True}.
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	267	\<acute>S := 0; \<acute>I := 1;
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	268	WHILE \<acute>I ~= n
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	269	INV .{\<acute>S = (SUM j<\<acute>I. j)}.
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	270	DO
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	271	\<acute>S := \<acute>S + \<acute>I;
9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	272	\<acute>I := \<acute>I + 1
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	273	OD
10838 9423817dee84 use \<acute>; wenzelm parents: 10148 diff changeset	274	.{\<acute>S = (SUM j<n. j)}."
10148 739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	275	by hoare auto
739327964a5c Hoare logic in Isar; wenzelm parents: diff changeset	276
13473 194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	277	subsection{Time}
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	278
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	279	text{*
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	280	A simple embedding of time in Hoare logic: function @{text timeit}
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	281	inserts an extra variable to keep track of the elapsed time.
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	282	*}
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	283
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	284	record tstate = time :: nat
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	285
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	286	types 'a time = "\<lparr>time::nat, \<dots>::'a\<rparr>"
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	287
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	288	consts timeit :: "'a time com \<Rightarrow> 'a time com"
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	289	primrec
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	290	"timeit(Basic f) = (Basic f; Basic(%s. s\<lparr>time := Suc(time s)\<rparr>))"
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	291	"timeit(c1;c2) = (timeit c1; timeit c2)"
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	292	"timeit(Cond b c1 c2) = Cond b (timeit c1) (timeit c2)"
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	293	"timeit(While b iv c) = While b iv (timeit c)"
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	294
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	295
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	296	record tvars = tstate +
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	297	I :: nat
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	298	J :: nat
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	299
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	300	lemma lem: "(0::nat) < n \<Longrightarrow> n+n \<le> Suc(n*n)"
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	301	by(induct n, simp_all)
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	302
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	303	lemma "\|- .{i = \<acute>I & \<acute>time = 0}.
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	304	timeit(
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	305	WHILE \<acute>I \<noteq> 0
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	306	INV .{2\<acute>time + \<acute>I\<acute>I + 5\<acute>I = ii + 5*i}.
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	307	DO
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	308	\<acute>J := \<acute>I;
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	309	WHILE \<acute>J \<noteq> 0
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	310	INV .{0 < \<acute>I & 2\<acute>time + \<acute>I\<acute>I + 3\<acute>I + 2\<acute>J - 2 = ii + 5i}.
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	311	DO \<acute>J := \<acute>J - 1 OD;
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	312	\<acute>I := \<acute>I - 1
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	313	OD
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	314	) .{2\<acute>time = ii + 5*i}."
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	315	apply simp
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	316	apply hoare
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	317	apply simp
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	318	apply clarsimp
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	319	apply clarsimp
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	320	apply arith
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	321	prefer 2
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	322	apply clarsimp
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	323	apply (clarsimp simp:nat_distrib)
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	324	apply(frule lem)
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	325	apply arith
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	326	done
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	327
194e8d2cbe0f Added time example at the end. nipkow parents: 11704 diff changeset	328	end

author	paulson
	Thu, 21 Apr 2005 15:05:24 +0200
changeset 15789	4cb16144c81b
parent 15569	1b3115d1a8df
child 15912	47aa1a8fcdc9
permissions	-rw-r--r--