Module Biabduction__Errdesc
val vpath_find : IR.Tenv.t -> 'a Biabduction.Prop.t -> IR.Exp.t -> IR.DecompiledExp.vpath * IR.Typ.t option
find the dexp, if any, where the given value is stored also return the type of the value if found
val hpred_is_open_resource : IR.Tenv.t -> 'a Biabduction.Prop.t -> Biabduction.Predicates.hpred -> IR.PredSymb.resource option
Check whether the hpred is a |-> representing a resource in the Racquire state
val find_ident_assignment : IR.Procdesc.Node.t -> IR.Ident.t -> (IR.Procdesc.Node.t * IR.Exp.t) option
Find a program variable assignment to id in the current node or predecessors.
val exp_rv_dexp : IR.Tenv.t -> IR.Procdesc.Node.t -> IR.Exp.t -> IR.DecompiledExp.t option
describe rvalue
e
as a dexp
val explain_array_access : IR.Procname.t -> IR.Tenv.t -> Absint.Localise.deref_str -> 'a Biabduction.Prop.t -> IBase.Location.t -> Absint.Localise.error_desc
Produce a description of the array access performed in the current instruction, if any.
val explain_class_cast_exception : IR.Tenv.t -> IR.Procname.t option -> IR.Exp.t -> IR.Exp.t -> IR.Exp.t -> IR.Procdesc.Node.t -> IBase.Location.t -> Absint.Localise.error_desc
explain a class cast exception
val explain_dereference : IR.Procname.t -> IR.Tenv.t -> ?use_buckets:bool -> ?is_nullable:bool -> ?is_premature_nil:bool -> Absint.Localise.deref_str -> 'a Biabduction.Prop.t -> IBase.Location.t -> Absint.Localise.error_desc
Produce a description of which expression is dereferenced in the current instruction, if any.
val explain_dereference_as_caller_expression : IR.Procname.t -> IR.Tenv.t -> ?use_buckets:bool -> Absint.Localise.deref_str -> 'a Biabduction.Prop.t -> 'b Biabduction.Prop.t -> IR.Exp.t -> IR.Procdesc.Node.t -> IBase.Location.t -> IR.Pvar.t list -> Absint.Localise.error_desc
return a description explaining value
exp
inprop
in terms of a source expression using the formal parameters of the call
val explain_divide_by_zero : IR.Tenv.t -> IR.Exp.t -> IR.Procdesc.Node.t -> IBase.Location.t -> Absint.Localise.error_desc
explain a division by zero
val explain_condition_always_true_false : IR.Tenv.t -> IR.IntLit.t -> IR.Exp.t -> IR.Procdesc.Node.t -> IBase.Location.t -> Absint.Localise.error_desc
explain a condition which is always true or false
val explain_leak : IR.Tenv.t -> Biabduction.Predicates.hpred -> 'a Biabduction.Prop.t -> IR.PredSymb.t option -> string option -> bool * Absint.Localise.error_desc
Produce a description of a leak by looking at the current state. If the current instruction is a variable nullify, blame the variable. If it is an abstraction, blame any variable nullify at the current node. If there is an alloc attribute, print the function call and line number.
val warning_err : IBase.Location.t -> ('a, Stdlib.Format.formatter, unit) IStdlib.IStd.format -> 'a
warn at the given location
val find_outermost_dereference : IR.Tenv.t -> IR.Procdesc.Node.t -> IR.Exp.t -> IR.DecompiledExp.t option
val access_opt : ?is_nullable:bool -> Biabduction.Predicates.inst -> Absint.Localise.access option