blob: 13eaaff5ca2eef301bf06ff5e9de1938b67a9411 (
plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Loc
open Pp
open Names
open Term
open Context
open Tacmach
open Proof_type
open Clenv
open Reduction
open Pattern
open Genarg
open Tacexpr
open Termops
open Glob_term
open Locus
open Misctypes
(** Tacticals i.e. functions from tactics to tactics. *)
val tclNORMEVAR : tactic
val tclIDTAC : tactic
val tclIDTAC_MESSAGE : std_ppcmds -> tactic
val tclORELSE0 : tactic -> tactic -> tactic
val tclORELSE : tactic -> tactic -> tactic
val tclTHEN : tactic -> tactic -> tactic
val tclTHENSEQ : tactic list -> tactic
val tclTHENLIST : tactic list -> tactic
val tclTHEN_i : tactic -> (int -> tactic) -> tactic
val tclTHENFIRST : tactic -> tactic -> tactic
val tclTHENLAST : tactic -> tactic -> tactic
val tclTHENS : tactic -> tactic list -> tactic
val tclTHENSV : tactic -> tactic array -> tactic
val tclTHENSLASTn : tactic -> tactic -> tactic array -> tactic
val tclTHENLASTn : tactic -> tactic array -> tactic
val tclTHENSFIRSTn : tactic -> tactic array -> tactic -> tactic
val tclTHENFIRSTn : tactic -> tactic array -> tactic
val tclREPEAT : tactic -> tactic
val tclREPEAT_MAIN : tactic -> tactic
val tclFIRST : tactic list -> tactic
val tclSOLVE : tactic list -> tactic
val tclTRY : tactic -> tactic
val tclCOMPLETE : tactic -> tactic
val tclAT_LEAST_ONCE : tactic -> tactic
val tclFAIL : int -> std_ppcmds -> tactic
val tclFAIL_lazy : int -> std_ppcmds Lazy.t -> tactic
val tclDO : int -> tactic -> tactic
val tclTIMEOUT : int -> tactic -> tactic
val tclWEAK_PROGRESS : tactic -> tactic
val tclPROGRESS : tactic -> tactic
val tclSHOWHYPS : tactic -> tactic
val tclNOTSAMEGOAL : tactic -> tactic
val tclTHENTRY : tactic -> tactic -> tactic
val tclMAP : ('a -> tactic) -> 'a list -> tactic
val tclIFTHENELSE : tactic -> tactic -> tactic -> tactic
val tclIFTHENSELSE : tactic -> tactic list -> tactic -> tactic
val tclIFTHENSVELSE : tactic -> tactic array -> tactic -> tactic
val tclIFTHENTRYELSEMUST : tactic -> tactic -> tactic
val tclFIRST_PROGRESS_ON : ('a -> tactic) -> 'a list -> tactic
(** {6 Tacticals applying to hypotheses } *)
val onNthHypId : int -> (Id.t -> tactic) -> tactic
val onNthHyp : int -> (constr -> tactic) -> tactic
val onNthDecl : int -> (named_declaration -> tactic) -> tactic
val onLastHypId : (Id.t -> tactic) -> tactic
val onLastHyp : (constr -> tactic) -> tactic
val onLastDecl : (named_declaration -> tactic) -> tactic
val onNLastHypsId : int -> (Id.t list -> tactic) -> tactic
val onNLastHyps : int -> (constr list -> tactic) -> tactic
val onNLastDecls : int -> (named_context -> tactic) -> tactic
val lastHypId : goal sigma -> Id.t
val lastHyp : goal sigma -> constr
val lastDecl : goal sigma -> named_declaration
val nLastHypsId : int -> goal sigma -> Id.t list
val nLastHyps : int -> goal sigma -> constr list
val nLastDecls : int -> goal sigma -> named_context
val afterHyp : Id.t -> goal sigma -> named_context
val ifOnHyp : (Id.t * types -> bool) ->
(Id.t -> tactic) -> (Id.t -> tactic) ->
Id.t -> tactic
val onHyps : (goal sigma -> named_context) ->
(named_context -> tactic) -> tactic
(** {6 Tacticals applying to goal components } *)
(** A [clause] denotes occurrences and hypotheses in a
goal; in particular, it can abstractly refer to the set of
hypotheses independently of the effective contents of the current goal *)
val tryAllHyps : (Id.t -> tactic) -> tactic
val tryAllHypsAndConcl : (Id.t option -> tactic) -> tactic
val onAllHyps : (Id.t -> tactic) -> tactic
val onAllHypsAndConcl : (Id.t option -> tactic) -> tactic
val onClause : (Id.t option -> tactic) -> clause -> tactic
val onClauseLR : (Id.t option -> tactic) -> clause -> tactic
(** {6 Elimination tacticals. } *)
type branch_args = {
ity : inductive; (** the type we were eliminating on *)
largs : constr list; (** its arguments *)
branchnum : int; (** the branch number *)
pred : constr; (** the predicate we used *)
nassums : int; (** the number of assumptions to be introduced *)
branchsign : bool list; (** the signature of the branch.
true=recursive argument, false=constant *)
branchnames : intro_pattern_expr located list}
type branch_assumptions = {
ba : branch_args; (** the branch args *)
assums : named_context} (** the list of assumptions introduced *)
(** [check_disjunctive_pattern_size loc pats n] returns an appropriate
error message if |pats| <> n *)
val check_or_and_pattern_size :
Loc.t -> or_and_intro_pattern_expr -> int -> unit
(** Tolerate "[]" to mean a disjunctive pattern of any length *)
val fix_empty_or_and_pattern : int -> or_and_intro_pattern_expr ->
or_and_intro_pattern_expr
(** Useful for [as intro_pattern] modifier *)
val compute_induction_names :
int -> intro_pattern_expr located option ->
intro_pattern_expr located list array
val elimination_sort_of_goal : goal sigma -> sorts_family
val elimination_sort_of_hyp : Id.t -> goal sigma -> sorts_family
val elimination_sort_of_clause : Id.t option -> goal sigma -> sorts_family
val general_elim_then_using :
(inductive -> goal sigma -> constr) -> rec_flag ->
intro_pattern_expr located option -> (branch_args -> tactic) ->
constr option -> (arg_bindings * arg_bindings) -> inductive -> clausenv ->
tactic
val elimination_then_using :
(branch_args -> tactic) -> constr option ->
(arg_bindings * arg_bindings) -> constr -> tactic
val elimination_then :
(branch_args -> tactic) ->
(arg_bindings * arg_bindings) -> constr -> tactic
val case_then_using :
intro_pattern_expr located option -> (branch_args -> tactic) ->
constr option -> (arg_bindings * arg_bindings) ->
inductive -> clausenv -> tactic
val case_nodep_then_using :
intro_pattern_expr located option -> (branch_args -> tactic) ->
constr option -> (arg_bindings * arg_bindings) ->
inductive -> clausenv -> tactic
val simple_elimination_then :
(branch_args -> tactic) -> constr -> tactic
val elim_on_ba : (branch_assumptions -> tactic) -> branch_args -> tactic
val case_on_ba : (branch_assumptions -> tactic) -> branch_args -> tactic
|