feat(frontends/lean): add esimp tactic based on rewrite tactic

closes #358
This commit is contained in:
Leonardo de Moura 2015-02-06 14:13:32 -08:00
parent 7aac9f1fdb
commit 5b25da8c43
6 changed files with 66 additions and 17 deletions

View file

@ -127,7 +127,7 @@
(,(rx (not (any "\.")) word-start
(or "\\b.*_tac" "Cond" "or_else" "then" "try" "when" "assumption" "eassumption" "rapply" "apply" "fapply" "rename" "intro" "intros"
"generalize" "generalizes" "clear" "clears" "revert" "reverts" "back" "beta" "done" "exact" "repeat"
"whnf" "rotate" "rotate_left" "rotate_right" "inversion" "cases" "assert" "rewrite")
"whnf" "rotate" "rotate_left" "rotate_right" "inversion" "cases" "assert" "rewrite" "esimp" "unfold")
word-end)
. 'font-lock-constant-face)
;; Types

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@ -415,6 +415,10 @@ static expr parse_rewrite_tactic_expr(parser & p, unsigned, expr const *, pos_in
return p.save_pos(parse_rewrite_tactic(p), pos);
}
static expr parse_esimp_tactic_expr(parser & p, unsigned, expr const *, pos_info const & pos) {
return p.save_pos(parse_esimp_tactic(p), pos);
}
static expr parse_overwrite_notation(parser & p, unsigned, expr const *, pos_info const &) {
name n = p.check_id_next("invalid '#' local notation, identifier expected");
environment env = overwrite_notation(p.env(), n);
@ -485,6 +489,7 @@ parse_table init_nud_table() {
r = r.add({transition("let", mk_ext_action(parse_let_expr))}, x0);
r = r.add({transition("calc", mk_ext_action(parse_calc_expr))}, x0);
r = r.add({transition("rewrite", mk_ext_action(parse_rewrite_tactic_expr))}, x0);
r = r.add({transition("esimp", mk_ext_action(parse_esimp_tactic_expr))}, x0);
r = r.add({transition("#", mk_ext_action(parse_overwrite_notation))}, x0);
r = r.add({transition("@", mk_ext_action(parse_explicit_expr))}, x0);
r = r.add({transition("!", mk_ext_action(parse_consume_args_expr))}, x0);

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@ -32,8 +32,8 @@ static expr parse_rule(parser & p) {
}
}
expr parse_rewrite_element(parser & p) {
if (p.curr_is_token(get_up_tk()) || p.curr_is_token(get_caret_tk())) {
static expr parse_rewrite_unfold(parser & p) {
lean_assert(p.curr_is_token(get_up_tk()) || p.curr_is_token(get_caret_tk()));
p.next();
buffer<name> to_unfold;
if (p.curr_is_token(get_lcurly_tk())) {
@ -51,6 +51,10 @@ expr parse_rewrite_element(parser & p) {
location loc = parse_tactic_location(p);
return mk_rewrite_unfold(to_list(to_unfold), loc);
}
expr parse_rewrite_element(parser & p) {
if (p.curr_is_token(get_up_tk()) || p.curr_is_token(get_caret_tk()))
return parse_rewrite_unfold(p);
bool symm = false;
if (p.curr_is_token(get_sub_tk())) {
p.next();
@ -123,4 +127,15 @@ expr parse_rewrite_tactic(parser & p) {
}
return mk_rewrite_tactic_expr(elems);
}
expr parse_esimp_tactic(parser & p) {
buffer<expr> elems;
if (p.curr_is_token(get_up_tk()) || p.curr_is_token(get_caret_tk())) {
elems.push_back(parse_rewrite_unfold(p));
} else {
location loc = parse_tactic_location(p);
elems.push_back(mk_rewrite_reduce(loc));
}
return mk_rewrite_tactic_expr(elems);
}
}

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@ -10,4 +10,5 @@ Author: Leonardo de Moura
namespace lean {
class parser;
expr parse_rewrite_tactic(parser & p);
expr parse_esimp_tactic(parser & p);
}

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@ -80,7 +80,7 @@ void init_token_table(token_table & t) {
{"[", g_max_prec}, {"]", 0}, {"", g_max_prec}, {"", 0}, {".{", 0}, {"Type", g_max_prec},
{"{|", g_max_prec}, {"|}", 0}, {"", 0}, {"", g_max_prec}, {"", 0}, {"^", 0}, {"", 0}, {"", 0},
{"using", 0}, {"|", 0}, {"!", g_max_prec}, {"?", 0}, {"with", 0}, {"...", 0}, {",", 0},
{".", 0}, {":", 0}, {"::", 0}, {"calc", 0}, {"rewrite", 0}, {":=", 0}, {"--", 0}, {"#", 0},
{".", 0}, {":", 0}, {"::", 0}, {"calc", 0}, {"rewrite", 0}, {"esimp", 0}, {":=", 0}, {"--", 0}, {"#", 0},
{"(*", 0}, {"/-", 0}, {"begin", g_max_prec}, {"proof", g_max_prec}, {"qed", 0}, {"@", g_max_prec},
{"sorry", g_max_prec}, {"+", g_plus_prec}, {g_cup, g_cup_prec}, {"->", g_arrow_prec},
{"?(", g_max_prec}, {"", g_max_prec}, {"", 0}, {"match", 0},

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@ -0,0 +1,28 @@
open nat
example (x y : nat) (H : (fun (a : nat), sigma.pr1 ⟨a, y⟩) x = 0) : x = 0 :=
begin
esimp at H,
exact H
end
definition foo [irreducible] (a : nat) := a
example (x y : nat) (H : (fun (a : nat), sigma.pr1 ⟨foo a, y⟩) x = 0) : x = 0 :=
begin
esimp ↑foo at H,
exact H
end
example (x y : nat) (H : x = 0) : (fun (a : nat), sigma.pr1 ⟨foo a, y⟩) x = 0 :=
begin
esimp ↑foo,
exact H
end
example (x y : nat) (H : x = 0) : (fun (a : nat), sigma.pr1 ⟨foo a, y⟩) x = 0 :=
begin
esimp,
unfold foo,
exact H
end