lean2/tests/lean/run/univ_bug2.lean

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--- Copyright (c) 2014 Microsoft Corporation. All rights reserved.
--- Released under Apache 2.0 license as described in the file LICENSE.
--- Author: Jeremy Avigad
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import logic data.nat
open nat

-- first define a class of homogeneous equality
inductive simplifies_to [class] {T : Type} (t1 t2 : T) : Prop :=
mk : t1 = t2 → simplifies_to t1 t2

namespace simplifies_to

theorem get_eq {T : Type} {t1 t2 : T} (C : simplifies_to t1 t2) : t1 = t2 :=
simplifies_to.rec (λx, x) C

theorem infer_eq {T : Type} (t1 t2 : T) [C : simplifies_to t1 t2] : t1 = t2 :=
simplifies_to.rec (λx, x) C

theorem simp_app [instance] (S : Type) (T : Type) (f1 f2 : S → T) (s1 s2 : S)
   [C1 : simplifies_to f1 f2] [C2 : simplifies_to s1 s2] : simplifies_to (f1 s1) (f2 s2) :=
mk (congr (get_eq C1) (get_eq C2))

theorem test1 (S : Type) (T : Type) (f1 f2 : S → T) (s1 s2 : S) (Hf : f1 = f2) (Hs : s1 = s2) :
  f1 s1 = f2 s2 :=
have Rs [visible] : simplifies_to f1 f2, from mk Hf,
have Cs [visible] : simplifies_to s1 s2, from mk Hs,
infer_eq _ _

end simplifies_to
feat(library/unifier): when unifier.expensive == true, then use only restrict higher-order unification (a fragment slightly more general than higher-order pattern matching) for solving class-instance constraints Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-02 21:30:25 +00:00			`----------------------------------------------------------------------------------------------------`
			`--- Copyright (c) 2014 Microsoft Corporation. All rights reserved.`
			`--- Released under Apache 2.0 license as described in the file LICENSE.`
			`--- Author: Jeremy Avigad`
			`----------------------------------------------------------------------------------------------------`

			`import logic data.nat`
feat(frontends/lean): rename 'using' command to 'open' Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-09-03 23:00:38 +00:00			`open nat`
feat(library/unifier): when unifier.expensive == true, then use only restrict higher-order unification (a fragment slightly more general than higher-order pattern matching) for solving class-instance constraints Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-02 21:30:25 +00:00
			`-- first define a class of homogeneous equality`
feat(frontends/lean): force 'classes' to be declared before instances are declared, closes #228 2014-10-08 01:02:15 +00:00			`inductive simplifies_to [class] {T : Type} (t1 t2 : T) : Prop :=`
feat(*): change inductive datatype syntax Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-22 22:46:10 +00:00			`mk : t1 = t2 → simplifies_to t1 t2`
feat(library/unifier): when unifier.expensive == true, then use only restrict higher-order unification (a fragment slightly more general than higher-order pattern matching) for solving class-instance constraints Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-02 21:30:25 +00:00
feat(frontends/lean/inductive_cmd): prefix introduction rules with the name of the inductive datatype Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-09-04 23:36:06 +00:00			`namespace simplifies_to`

feat(library/unifier): when unifier.expensive == true, then use only restrict higher-order unification (a fragment slightly more general than higher-order pattern matching) for solving class-instance constraints Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-02 21:30:25 +00:00			`theorem get_eq {T : Type} {t1 t2 : T} (C : simplifies_to t1 t2) : t1 = t2 :=`
refactor(kernel/inductive): replace recursor name, use '.rec' instead of '_rec' Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-09-04 22:03:59 +00:00			`simplifies_to.rec (λx, x) C`
feat(library/unifier): when unifier.expensive == true, then use only restrict higher-order unification (a fragment slightly more general than higher-order pattern matching) for solving class-instance constraints Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-02 21:30:25 +00:00
feat(frontends/lean): add '[]' notation for marking arguments where class-instance resolution should be applied 2014-10-12 20:06:00 +00:00			`theorem infer_eq {T : Type} (t1 t2 : T) [C : simplifies_to t1 t2] : t1 = t2 :=`
refactor(kernel/inductive): replace recursor name, use '.rec' instead of '_rec' Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-09-04 22:03:59 +00:00			`simplifies_to.rec (λx, x) C`
feat(library/unifier): when unifier.expensive == true, then use only restrict higher-order unification (a fragment slightly more general than higher-order pattern matching) for solving class-instance constraints Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-02 21:30:25 +00:00
			`theorem simp_app [instance] (S : Type) (T : Type) (f1 f2 : S → T) (s1 s2 : S)`
feat(library/tactic/class_instance_synth): create class instance synthesis subproblems only for arguments marked with the `[]` binder annotation 2015-02-25 00:10:16 +00:00			`[C1 : simplifies_to f1 f2] [C2 : simplifies_to s1 s2] : simplifies_to (f1 s1) (f2 s2) :=`
feat(library/unifier): when unifier.expensive == true, then use only restrict higher-order unification (a fragment slightly more general than higher-order pattern matching) for solving class-instance constraints Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-02 21:30:25 +00:00			`mk (congr (get_eq C1) (get_eq C2))`

			`theorem test1 (S : Type) (T : Type) (f1 f2 : S → T) (s1 s2 : S) (Hf : f1 = f2) (Hs : s1 = s2) :`
			`f1 s1 = f2 s2 :=`
feat(frontends/lean): rename '[fact]' to '[visible]' Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-09-08 14:47:42 +00:00			`have Rs [visible] : simplifies_to f1 f2, from mk Hf,`
			`have Cs [visible] : simplifies_to s1 s2, from mk Hs,`
feat(library/unifier): when unifier.expensive == true, then use only restrict higher-order unification (a fragment slightly more general than higher-order pattern matching) for solving class-instance constraints Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-02 21:30:25 +00:00			`infer_eq _ _`
feat(frontends/lean): make sure all scopes are closed in the end of the module Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-08 00:08:59 +00:00
feat(frontends/lean/inductive_cmd): prefix introduction rules with the name of the inductive datatype Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-09-04 23:36:06 +00:00			`end simplifies_to`