Library mathcomp.ssreflect.ssreflect
(* (c) Copyright 2006-2016 Microsoft Corporation and Inria.
Distributed under the terms of CeCILL-B. *)
From Coq Require Export ssreflect.
Distributed under the terms of CeCILL-B. *)
From Coq Require Export ssreflect.
Local additions:
nonPropType == an interface for non-Prop Types: a nonPropType coerces
to a Type, and only types that do not have sort
Prop are canonical nonPropType instances. This is
useful for applied views.
> This will become standard with the Coq v8.11 SSReflect core library.
Intro pattern ltac views:
- calling rewrite from an intro pattern, use with parsimony => / [1! rules] := rewrite rules => / [! rules] := rewrite !rules
- top of the stack actions: => / [apply] := => hyp {}/hyp => / [swap] := => x y; move: y x (also swap and perserves let bindings) => / [dup] := => x; have copy := x; move: copy x (also copies and preserves let bindings)
Module NonPropType.
Structure call_of (condition : unit) (result : bool) := Call {callee : Type}.
Definition maybeProp (T : Type) := tt.
Definition call T := Call (maybeProp T) false T.
Structure test_of (result : bool) := Test {condition :> unit}.
Definition test_Prop (P : Prop) := Test true (maybeProp P).
Definition test_negative := Test false tt.
Structure type :=
Check {result : bool; test : test_of result; frame : call_of test result}.
Definition check result test frame := @Check result test frame.
Module Exports.
Canonical call.
Canonical test_Prop.
Canonical test_negative.
Canonical check.
Notation nonPropType := type.
Coercion callee : call_of >-> Sortclass.
Coercion frame : type >-> call_of.
Notation notProp T := (@check false test_negative (call T)).
End Exports.
End NonPropType.
Export NonPropType.Exports.
Module Deprecation.
Definition (T : Type) := T.
Definition exposed (T : Type) & unit → unit → unit := T.
Definition hide T u (v : exposed T u) : hidden T := v.
Ltac warn old_id new_id :=
idtac "Warning:" old_id "is deprecated; use" new_id "instead".
Ltac stop old_id new_id :=
fail 1 "Error:" old_id "is deprecated; use" new_id "instead".
Structure hinted := Hint {statement; hint : statement}.
Ltac check cond := let test := constr:(hint _ : cond) in idtac.
Variant reject := Reject.
Definition reject_hint := Hint reject Reject.
Module Reject. Canonical reject_hint. End Reject.
Variant silent := Silent.
Definition silent_hint := Hint silent Silent.
Module Silent. Canonical silent_hint. End Silent.
Ltac flag old_id new_id :=
first [check reject; stop old_id new_id | check silent | warn old_id new_id].
Module Exports.
Arguments hide {T} u v /.
Coercion hide : exposed >-> hidden.
#[deprecated(since="mathcomp 1.13.0",
note="Use the deprecated attribute instead.")]
Notation deprecate old_id new_id :=
(hide (fun old_id new_id ⇒ ltac:(flag old_id new_id; exact tt)) new_id)
(only parsing).
End Exports.
End Deprecation.
Export Deprecation.Exports.
Module Export ipat.
Notation "'[' '1' '!' rules ']'" := (ltac:(rewrite rules))
(at level 0, rules at level 200, only parsing) : ssripat_scope.
Notation "'[' '!' rules ']'" := (ltac:(rewrite !rules))
(at level 0, rules at level 200, only parsing) : ssripat_scope.
Notation "'[' 'apply' ']'" := (ltac:(let f := fresh "_top_" in move⇒ f {}/f))
(at level 0, only parsing) : ssripat_scope.
we try to preserve the naming by matching the names from the goal
we do move to perform a hnf before trying to match
Notation "'[' 'swap' ']'" := (ltac:(move;
let x := lazymatch goal with
| |- ∀ (x : _), _ ⇒ fresh x | |- let x := _ in _ ⇒ fresh x | _ ⇒ fresh "_top_"
end in intro x; move;
let y := lazymatch goal with
| |- ∀ (y : _), _ ⇒ fresh y | |- let y := _ in _ ⇒ fresh y | _ ⇒ fresh "_top_"
end in intro y; revert x; revert y))
(at level 0, only parsing) : ssripat_scope.
let x := lazymatch goal with
| |- ∀ (x : _), _ ⇒ fresh x | |- let x := _ in _ ⇒ fresh x | _ ⇒ fresh "_top_"
end in intro x; move;
let y := lazymatch goal with
| |- ∀ (y : _), _ ⇒ fresh y | |- let y := _ in _ ⇒ fresh y | _ ⇒ fresh "_top_"
end in intro y; revert x; revert y))
(at level 0, only parsing) : ssripat_scope.
we try to preserve the naming by matching the names from the goal
we do move to perform a hnf before trying to match
Notation "'[' 'dup' ']'" := (ltac:(move;
lazymatch goal with
| |- ∀ (x : _), _ ⇒
let x := fresh x in intro x;
let copy := fresh x in have copy := x; revert x; revert copy
| |- let x := _ in _ ⇒
let x := fresh x in intro x;
let copy := fresh x in pose copy := x;
do [unfold x in (value of copy)]; revert x; revert copy
| |- _ ⇒
let x := fresh "_top_" in move⇒ x;
let copy := fresh "_top" in have copy := x; revert x; revert copy
end))
(at level 0, only parsing) : ssripat_scope.
End ipat.
lazymatch goal with
| |- ∀ (x : _), _ ⇒
let x := fresh x in intro x;
let copy := fresh x in have copy := x; revert x; revert copy
| |- let x := _ in _ ⇒
let x := fresh x in intro x;
let copy := fresh x in pose copy := x;
do [unfold x in (value of copy)]; revert x; revert copy
| |- _ ⇒
let x := fresh "_top_" in move⇒ x;
let copy := fresh "_top" in have copy := x; revert x; revert copy
end))
(at level 0, only parsing) : ssripat_scope.
End ipat.