Module Cases
Compilation of pattern-matching
type pattern_matching_error
=
|
BadPattern of Names.constructor * EConstr.constr
|
BadConstructor of Names.constructor * Names.inductive
|
WrongNumargConstructor of Names.constructor * int
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WrongNumargInductive of Names.inductive * int
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UnusedClause of Glob_term.cases_pattern list
|
NonExhaustive of Glob_term.cases_pattern list
|
CannotInferPredicate of (EConstr.constr * EConstr.types) array
Pattern-matching errors
exception
PatternMatchingError of Environ.env * Evd.evar_map * pattern_matching_error
val error_wrong_numarg_constructor : ?loc:Loc.t -> Environ.env -> Names.constructor -> int -> 'a
val error_wrong_numarg_inductive : ?loc:Loc.t -> Environ.env -> Names.inductive -> int -> 'a
val irrefutable : Environ.env -> Glob_term.cases_pattern -> bool
Compilation primitive.
val compile_cases : ?loc:Loc.t -> program_mode:bool -> Constr.case_style -> ((Evardefine.type_constraint -> GlobEnv.t -> Evd.evar_map -> Glob_term.glob_constr -> Evd.evar_map * EConstr.unsafe_judgment) * Evd.evar_map) -> Evardefine.type_constraint -> GlobEnv.t -> (Glob_term.glob_constr option * Glob_term.tomatch_tuples * Glob_term.cases_clauses) -> Evd.evar_map * EConstr.unsafe_judgment
val constr_of_pat : Environ.env -> Evd.evar_map -> EConstr.rel_context -> Glob_term.cases_pattern -> Names.Id.Set.t -> Evd.evar_map * Glob_term.cases_pattern * (EConstr.rel_context * EConstr.constr * (EConstr.types * EConstr.constr list) * Glob_term.cases_pattern) * Names.Id.Set.t
type 'a rhs
=
{
rhs_env : GlobEnv.t;
rhs_vars : Names.Id.Set.t;
avoid_ids : Names.Id.Set.t;
it : 'a option;
}
type 'a equation
=
{
patterns : Glob_term.cases_pattern list;
rhs : 'a rhs;
alias_stack : Names.Name.t list;
eqn_loc : Loc.t option;
used : int Stdlib.ref;
catch_all_vars : Names.Id.t CAst.t list Stdlib.ref;
}
type 'a matrix
= 'a equation list
type tomatch_type
=
|
IsInd of EConstr.types * Inductiveops.inductive_type * Names.Name.t list
|
NotInd of EConstr.constr option * EConstr.types
type tomatch_status
=
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Pushed of bool * ((EConstr.constr * tomatch_type) * int list * Names.Name.t)
|
Alias of bool * (Names.Name.t * EConstr.constr * (EConstr.constr * EConstr.types))
|
NonDepAlias
|
Abstract of int * EConstr.rel_declaration
type tomatch_stack
= tomatch_status list
type pattern_history
=
|
Top
|
MakeConstructor of Names.constructor * pattern_continuation
and pattern_continuation
=
|
Continuation of int * Glob_term.cases_pattern list * pattern_history
|
Result of Glob_term.cases_pattern list
type 'a pattern_matching_problem
=
{
env : GlobEnv.t;
pred : EConstr.constr;
tomatch : tomatch_stack;
history : pattern_continuation;
mat : 'a matrix;
caseloc : Loc.t option;
casestyle : Constr.case_style;
typing_function : Evardefine.type_constraint -> GlobEnv.t -> Evd.evar_map -> 'a option -> Evd.evar_map * EConstr.unsafe_judgment;
}
val compile : program_mode:bool -> Evd.evar_map -> 'a pattern_matching_problem -> Evd.evar_map * EConstr.unsafe_judgment
val prepare_predicate : ?loc:Loc.t -> program_mode:bool -> (Evardefine.type_constraint -> GlobEnv.t -> Evd.evar_map -> Glob_term.glob_constr -> Evd.evar_map * EConstr.unsafe_judgment) -> GlobEnv.t -> Evd.evar_map -> (EConstr.types * tomatch_type) list -> EConstr.rel_context list -> EConstr.constr option -> Glob_term.glob_constr option -> (Evd.evar_map * (Names.Name.t * Names.Name.t list) list * EConstr.constr) list
val make_return_predicate_ltac_lvar : GlobEnv.t -> Evd.evar_map -> Names.Name.t -> Glob_term.glob_constr -> EConstr.constr -> GlobEnv.t