2014-12-01 04:34:12 +00:00
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/-
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Copyright (c) 2014 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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2014-12-15 21:43:42 +00:00
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Module: init.tactic
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2014-12-01 04:34:12 +00:00
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Author: Leonardo de Moura
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This is just a trick to embed the 'tactic language' as a Lean
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expression. We should view 'tactic' as automation that when execute
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produces a term. tactic.builtin is just a "dummy" for creating the
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definitions that are actually implemented in C++
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-/
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prelude
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2015-03-03 21:37:38 +00:00
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import init.datatypes init.reserved_notation init.num
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2014-12-01 04:34:12 +00:00
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inductive tactic :
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Type := builtin : tactic
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2014-09-04 23:36:06 +00:00
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namespace tactic
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2014-07-02 02:05:22 +00:00
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-- Remark the following names are not arbitrary, the tactic module
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-- uses them when converting Lean expressions into actual tactic objects.
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-- The bultin 'by' construct triggers the process of converting a
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2014-07-02 14:08:20 +00:00
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-- a term of type 'tactic' into a tactic that sythesizes a term
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2014-09-19 20:44:44 +00:00
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opaque definition and_then (t1 t2 : tactic) : tactic := builtin
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opaque definition or_else (t1 t2 : tactic) : tactic := builtin
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opaque definition append (t1 t2 : tactic) : tactic := builtin
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opaque definition interleave (t1 t2 : tactic) : tactic := builtin
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opaque definition par (t1 t2 : tactic) : tactic := builtin
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opaque definition fixpoint (f : tactic → tactic) : tactic := builtin
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opaque definition repeat (t : tactic) : tactic := builtin
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opaque definition at_most (t : tactic) (k : num) : tactic := builtin
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opaque definition discard (t : tactic) (k : num) : tactic := builtin
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opaque definition focus_at (t : tactic) (i : num) : tactic := builtin
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opaque definition try_for (t : tactic) (ms : num) : tactic := builtin
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opaque definition now : tactic := builtin
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opaque definition assumption : tactic := builtin
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opaque definition eassumption : tactic := builtin
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opaque definition state : tactic := builtin
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opaque definition fail : tactic := builtin
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opaque definition id : tactic := builtin
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opaque definition beta : tactic := builtin
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opaque definition info : tactic := builtin
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opaque definition whnf : tactic := builtin
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opaque definition rotate_left (k : num) := builtin
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opaque definition rotate_right (k : num) := builtin
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definition rotate (k : num) := rotate_left k
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2014-10-22 22:18:43 +00:00
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-- This is just a trick to embed expressions into tactics.
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-- The nested expressions are "raw". They tactic should
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-- elaborate them when it is executed.
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inductive expr : Type :=
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builtin : expr
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2014-11-26 22:49:48 +00:00
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opaque definition apply (e : expr) : tactic := builtin
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opaque definition rapply (e : expr) : tactic := builtin
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opaque definition fapply (e : expr) : tactic := builtin
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opaque definition rename (a b : expr) : tactic := builtin
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opaque definition intro (e : expr) : tactic := builtin
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opaque definition generalize (e : expr) : tactic := builtin
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opaque definition clear (e : expr) : tactic := builtin
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opaque definition revert (e : expr) : tactic := builtin
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opaque definition unfold (e : expr) : tactic := builtin
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opaque definition exact (e : expr) : tactic := builtin
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opaque definition trace (s : string) : tactic := builtin
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opaque definition inversion (id : expr) : tactic := builtin
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2014-10-22 23:15:00 +00:00
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2014-11-30 05:03:45 +00:00
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notation a `↦` b:max := rename a b
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2014-11-27 03:02:11 +00:00
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2014-10-22 23:15:00 +00:00
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inductive expr_list : Type :=
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| nil : expr_list
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| cons : expr → expr_list → expr_list
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2014-10-22 23:15:00 +00:00
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2015-02-03 03:20:24 +00:00
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-- rewrite_tac is just a marker for the builtin 'rewrite' notation
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-- used to create instances of this tactic.
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opaque definition rewrite_tac (e : expr_list) : tactic := builtin
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opaque definition inversion_with (id : expr) (ids : expr_list) : tactic := builtin
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notation `cases` a:max := inversion a
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notation `cases` a:max `with` `(` l:(foldr `,` (h t, expr_list.cons h t) expr_list.nil) `)` := inversion_with a l
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opaque definition intro_lst (ids : expr_list) : tactic := builtin
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notation `intros` := intro_lst expr_list.nil
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notation `intros` `(` l:(foldr `,` (h t, expr_list.cons h t) expr_list.nil) `)` := intro_lst l
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opaque definition generalize_lst (es : expr_list) : tactic := builtin
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notation `generalizes` `(` l:(foldr `,` (h t, expr_list.cons h t) expr_list.nil) `)` := generalize_lst l
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2014-11-23 22:39:35 +00:00
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opaque definition clear_lst (ids : expr_list) : tactic := builtin
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notation `clears` `(` l:(foldr `,` (h t, expr_list.cons h t) expr_list.nil) `)` := clear_lst l
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2014-11-29 06:25:37 +00:00
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opaque definition revert_lst (ids : expr_list) : tactic := builtin
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notation `reverts` `(` l:(foldr `,` (h t, expr_list.cons h t) expr_list.nil) `)` := revert_lst l
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2014-11-23 22:39:35 +00:00
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2015-03-01 22:15:23 +00:00
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opaque definition change_goal (e : expr) : tactic := builtin
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notation `change` e := change_goal e
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2014-11-30 05:34:26 +00:00
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opaque definition assert_hypothesis (id : expr) (e : expr) : tactic := builtin
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2014-10-21 00:10:16 +00:00
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infixl `;`:15 := and_then
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notation `[` h `|` r:(foldl `|` (e r, or_else r e) h) `]` := r
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2014-10-21 00:10:16 +00:00
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definition try (t : tactic) : tactic := [t | id]
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definition repeat1 (t : tactic) : tactic := t ; repeat t
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definition focus (t : tactic) : tactic := focus_at t 0
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definition determ (t : tactic) : tactic := at_most t 1
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2014-08-20 02:32:44 +00:00
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2015-03-03 21:37:38 +00:00
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definition do (n : num) (t : tactic) : tactic :=
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nat.rec id (λn t', (t;t')) (nat.of_num n)
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2014-08-07 23:59:08 +00:00
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end tactic
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