Module Logic_utils

module Logic_utils: sig .. end
Utilities for ACSL constructs.
Consult the Plugin Development Guide for additional details.

exception Not_well_formed of Cil_types.location * string
exception raised when a parsed logic expression is syntactically not well-formed.

basic utilities for logic terms and predicates. See also Logic_const to build terms and predicates.
val add_logic_function : Cil_types.logic_info -> unit
add a logic function in the environment. See Logic_env.add_logic_function_gen

Types


val instantiate : (string * Cil_types.logic_type) list ->
Cil_types.logic_type -> Cil_types.logic_type
instantiate type variables in a logic type.
val is_instance_of : string list -> Cil_types.logic_type -> Cil_types.logic_type -> bool
is_instance_of poly t1 t2 returns true if t1 can be derived from t2 by instantiating some of the type variable in poly.
Since Magnesium-20151001
val unroll_type : ?unroll_typedef:bool -> Cil_types.logic_type -> Cil_types.logic_type
expands logic type definitions. If the unroll_typedef flag is set to true (this is the default), C typedef will be expanded as well.
val isLogicType : (Cil_types.typ -> bool) -> Cil_types.logic_type -> bool
isLogicType test typ is false for pure logic types and the result of test for C types.
val isLogicArrayType : Cil_types.logic_type -> bool

Predefined tests over types


val isLogicCharType : Cil_types.logic_type -> bool
val isLogicVoidType : Cil_types.logic_type -> bool
val isLogicPointerType : Cil_types.logic_type -> bool
val isLogicVoidPointerType : Cil_types.logic_type -> bool

Type conversions


val logicCType : Cil_types.logic_type -> Cil_types.typ
Raises Failure if the type is purely logical
Returns the equivalent C type.
val array_to_ptr : Cil_types.logic_type -> Cil_types.logic_type
transforms an array into pointer.
val typ_to_logic_type : Cil_types.typ -> Cil_types.logic_type
C type to logic type, with implicit conversion for arithmetic types.

Predicates


val predicate_of_identified_predicate : Cil_types.identified_predicate -> Cil_types.predicate
Deprecated.use Logic_const.pred_of_id_pred instead
val translate_old_label : Cil_types.stmt -> Cil_types.predicate -> Cil_types.predicate
transforms \old and \at(,Old) into \at(,L) for L a label pointing to the given statement, creating one if needed.

Terms


val is_C_array : Cil_types.term -> bool
true if the term denotes a C array.
val mk_logic_StartOf : Cil_types.term -> Cil_types.term
creates a TStartOf from an TLval.
val mk_logic_AddrOf : ?loc:Cil_types.location ->
Cil_types.term_lval -> Cil_types.logic_type -> Cil_types.term
creates an AddrOf from a TLval. The given logic type is the type of the lval.
Since Neon-20140301
val isLogicPointer : Cil_types.term -> bool
true if the term is a pointer.
val mk_logic_pointer_or_StartOf : Cil_types.term -> Cil_types.term
creates either a TStartOf or the corresponding TLval.
val mk_cast : ?loc:Cil_types.location ->
?force:bool -> Cil_types.typ -> Cil_types.term -> Cil_types.term
creates a logic cast if required, with some automatic simplifications being performed automatically. If force is true, the cast will always be inserted. Otherwise (which is the default), mk_cast typ t will return t if it is already of type typ
Change in Aluminium-20160501: added force optional argument
val array_with_range : Cil_types.exp -> Cil_types.term -> Cil_types.term
array_with_range arr size returns the logic term array'+{0..(size-1)}, array' being array cast to a pointer to char
val remove_logic_coerce : Cil_types.term -> Cil_types.term
Removes TLogic_coerce at head of term.
val numeric_coerce : Cil_types.logic_type -> Cil_types.term -> Cil_types.term
numeric_coerce typ t returns a term with the same value as t and of type typ. typ which should be Linteger or Lreal. numeric_coerce tries to avoid unnecessary type conversions in t. In particular, numeric_coerce (int)cst Linteger, where cst fits in int will be directly cst, without any coercion.
Since Magnesium-20151001

Predicates



\valid_index

\valid_range
val pointer_comparable : ?loc:Cil_types.location ->
Cil_types.term -> Cil_types.term -> Cil_types.predicate
\pointer_comparable
Since Fluorine-20130401
val points_to_valid_string : ?loc:Cil_types.location -> Cil_types.term -> Cil_types.predicate
\points_to_valid_string
Since Neon-20140301

Conversion from exp to term


val expr_to_term : cast:bool -> Cil_types.exp -> Cil_types.term
translates a C expression into an "equivalent" logical term. cast specifies how C arithmetic operators are translated. When cast is true, the translation returns a logic term having the same semantics of the C expr by introducing casts (i.e. the C expr a+b can be translated as (char)(((char)a)+(char)b) to preserve the modulo feature of the C addition). Otherwise, no such casts are introduced and the C arithmetic operators are translated into perfect mathematical operators (i.e. a floating point addition is translated into an addition of real numbers).
Consult the Plugin Development Guide for additional details.
val expr_to_term_coerce : cast:bool -> Cil_types.exp -> Cil_types.term
same as Logic_utils.expr_to_term, except that if the new term has an arithmetic type, it is automatically coerced into real (or integer for integral types).
Since Magnesium-20151001
val lval_to_term_lval : cast:bool -> Cil_types.lval -> Cil_types.term_lval
val host_to_term_host : cast:bool -> Cil_types.lhost -> Cil_types.term_lhost
val offset_to_term_offset : cast:bool -> Cil_types.offset -> Cil_types.term_offset
val constant_to_lconstant : Cil_types.constant -> Cil_types.logic_constant
val lconstant_to_constant : Cil_types.logic_constant -> Cil_types.constant
val string_to_float_lconstant : string -> Cil_types.logic_constant
Parse the given string as a float logic constant, taking into account the fact that the constant may not be exactly representable. This function should only be called on strings that have been recognized by the parser as valid floats
val remove_term_offset : Cil_types.term_offset -> Cil_types.term_offset * Cil_types.term_offset
remove_term_offset o returns o without its last offset and this last offset.
val lval_contains_result : Cil_types.term_lhost -> bool
true if \result is included in the lval.
val loffset_contains_result : Cil_types.term_offset -> bool
true if \result is included in the offset.
val contains_result : Cil_types.term -> bool
true if \result is included in the term
val get_pred_body : Cil_types.logic_info -> Cil_types.predicate
returns the body of the given predicate.
Raises Not_found if the logic_info is not the definition of a predicate.
val is_result : Cil_types.term -> bool
true if the term is \result or an offset of \result.
val lhost_c_type : Cil_types.term_lhost -> Cil_types.typ

Predicates


val is_trivially_true : Cil_types.predicate -> bool
true if the predicate is Ptrue.
Since Nitrogen-20111001
val is_trivially_false : Cil_types.predicate -> bool
true if the predicate is Pfalse
Since Nitrogen-20111001

Global annotations


val add_attribute_glob_annot : Cil_types.attribute ->
Cil_types.global_annotation -> Cil_types.global_annotation
add an attribute to a global annotation
Since Phosphorus-20170501-beta1

Structural equality between annotations


val is_same_list : ('a -> 'a -> bool) -> 'a list -> 'a list -> bool
val is_same_logic_label : Cil_types.logic_label -> Cil_types.logic_label -> bool
val is_same_pconstant : Logic_ptree.constant -> Logic_ptree.constant -> bool
Since Nitrogen-20111001
val is_same_type : Cil_types.logic_type -> Cil_types.logic_type -> bool
val is_same_var : Cil_types.logic_var -> Cil_types.logic_var -> bool
val is_same_logic_signature : Cil_types.logic_info -> Cil_types.logic_info -> bool
val is_same_logic_profile : Cil_types.logic_info -> Cil_types.logic_info -> bool
val is_same_builtin_profile : Cil_types.builtin_logic_info -> Cil_types.builtin_logic_info -> bool
val is_same_logic_ctor_info : Cil_types.logic_ctor_info -> Cil_types.logic_ctor_info -> bool
val is_same_constant : Cil_types.constant -> Cil_types.constant -> bool
Deprecated.Nitrogen-20111001 use Cil.compareConstant instead.
val is_same_term : Cil_types.term -> Cil_types.term -> bool
val is_same_logic_info : Cil_types.logic_info -> Cil_types.logic_info -> bool
val is_same_logic_body : Cil_types.logic_body -> Cil_types.logic_body -> bool
val is_same_indcase : string * Cil_types.logic_label list * string list * Cil_types.predicate ->
string * Cil_types.logic_label list * string list * Cil_types.predicate ->
bool
val is_same_tlval : Cil_types.term_lval -> Cil_types.term_lval -> bool
val is_same_lhost : Cil_types.term_lhost -> Cil_types.term_lhost -> bool
val is_same_offset : Cil_types.term_offset -> Cil_types.term_offset -> bool
val is_same_predicate_node : Cil_types.predicate_node -> Cil_types.predicate_node -> bool
val is_same_predicate : Cil_types.predicate -> Cil_types.predicate -> bool
val is_same_identified_predicate : Cil_types.identified_predicate -> Cil_types.identified_predicate -> bool
val is_same_identified_term : Cil_types.identified_term -> Cil_types.identified_term -> bool
val is_same_deps : Cil_types.identified_term Cil_types.deps ->
Cil_types.identified_term Cil_types.deps -> bool
val is_same_allocation : Cil_types.identified_term Cil_types.allocation ->
Cil_types.identified_term Cil_types.allocation -> bool
val is_same_assigns : Cil_types.identified_term Cil_types.assigns ->
Cil_types.identified_term Cil_types.assigns -> bool
val is_same_variant : Cil_types.term Cil_types.variant -> Cil_types.term Cil_types.variant -> bool
val is_same_post_cond : Cil_types.termination_kind * Cil_types.identified_predicate ->
Cil_types.termination_kind * Cil_types.identified_predicate -> bool
val is_same_behavior : Cil_types.funbehavior -> Cil_types.funbehavior -> bool
val is_same_spec : Cil_types.funspec -> Cil_types.funspec -> bool
val is_same_logic_type_def : Cil_types.logic_type_def -> Cil_types.logic_type_def -> bool
val is_same_logic_type_info : Cil_types.logic_type_info -> Cil_types.logic_type_info -> bool
val is_same_loop_pragma : Cil_types.term Cil_types.loop_pragma ->
Cil_types.term Cil_types.loop_pragma -> bool
val is_same_slice_pragma : Cil_types.term Cil_types.slice_pragma ->
Cil_types.term Cil_types.slice_pragma -> bool
val is_same_impact_pragma : Cil_types.term Cil_types.impact_pragma ->
Cil_types.term Cil_types.impact_pragma -> bool
val is_same_pragma : Cil_types.term Cil_types.pragma -> Cil_types.term Cil_types.pragma -> bool
val is_same_code_annotation : Cil_types.code_annotation -> Cil_types.code_annotation -> bool
val is_same_global_annotation : Cil_types.global_annotation -> Cil_types.global_annotation -> bool
val is_same_axiomatic : Cil_types.global_annotation list -> Cil_types.global_annotation list -> bool
Since Oxygen-20120901
val is_same_model_info : Cil_types.model_info -> Cil_types.model_info -> bool
val is_same_lexpr : Logic_ptree.lexpr -> Logic_ptree.lexpr -> bool
val hash_term : Cil_types.term -> int
hash function compatible with is_same_term
val compare_term : Cil_types.term -> Cil_types.term -> int
comparison compatible with is_same_term

Merging contracts


val get_behavior_names : Cil_types.spec -> string list
val concat_assigns : Cil_types.identified_term Cil_types.assigns ->
Cil_types.identified_term Cil_types.assigns ->
Cil_types.identified_term Cil_types.assigns
Concatenates two assigns if both are defined, returns WritesAny if one (or both) of them is WritesAny.
Since Nitrogen-20111001
val merge_assigns : Cil_types.identified_term Cil_types.assigns ->
Cil_types.identified_term Cil_types.assigns ->
Cil_types.identified_term Cil_types.assigns
merge assigns: take the one that is defined and select an arbitrary one if both are, emitting a warning unless both are syntactically the same.
val concat_allocation : Cil_types.identified_term Cil_types.allocation ->
Cil_types.identified_term Cil_types.allocation ->
Cil_types.identified_term Cil_types.allocation
Concatenates two allocation clauses if both are defined, returns FreeAllocAny if one (or both) of them is FreeAllocAny.
Since Nitrogen-20111001
val merge_allocation : Cil_types.identified_term Cil_types.allocation ->
Cil_types.identified_term Cil_types.allocation ->
Cil_types.identified_term Cil_types.allocation
merge allocation: take the one that is defined and select an arbitrary one if both are, emitting a warning unless both are syntactically the same.
Since Oxygen-20120901
val merge_behaviors : silent:bool ->
Cil_types.funbehavior list ->
Cil_types.funbehavior list -> Cil_types.funbehavior list
val merge_funspec : ?silent_about_merging_behav:bool ->
Cil_types.funspec -> Cil_types.funspec -> unit
merge_funspec oldspec newspec merges newspec into oldspec. If the funspec belongs to a kernel function, do not forget to call Kernel_function.set_spec after merging.
val clear_funspec : Cil_types.funspec -> unit
Reset the given funspec to empty.
Since Nitrogen-20111001

Discriminating code_annotations



Functions below allows to test a special kind of code_annotation. Use them in conjunction with Annotations.get_filter to retrieve a particular kind of annotations associated to a statement.
val is_assert : Cil_types.code_annotation -> bool
val is_contract : Cil_types.code_annotation -> bool
val is_stmt_invariant : Cil_types.code_annotation -> bool
val is_loop_invariant : Cil_types.code_annotation -> bool
val is_invariant : Cil_types.code_annotation -> bool
val is_variant : Cil_types.code_annotation -> bool
val is_assigns : Cil_types.code_annotation -> bool
val is_pragma : Cil_types.code_annotation -> bool
val is_loop_pragma : Cil_types.code_annotation -> bool
val is_slice_pragma : Cil_types.code_annotation -> bool
val is_impact_pragma : Cil_types.code_annotation -> bool
val is_loop_annot : Cil_types.code_annotation -> bool
val is_trivial_annotation : Cil_types.code_annotation -> bool
val is_property_pragma : Cil_types.term Cil_types.pragma -> bool
Should this pragma be proved by plugins
val extract_loop_pragma : Cil_types.code_annotation list -> Cil_types.term Cil_types.loop_pragma list
val extract_contract : Cil_types.code_annotation list -> (string list * Cil_types.funspec) list

Constant folding


val constFoldTermToInt : ?machdep:bool -> Cil_types.term -> Integer.t option
class simplify_const_lval : (Cil_types.varinfo -> Cil_types.init option) -> Cil.cilVisitor
A cilVisitor (by copy) that simplifies expressions of the type const int x = v, where v is an integer and x is a global variable.

Type-checking hackery


val complete_types : Cil_types.file -> unit
give complete types to terms that refer to a variable whose type has been completed after its use in an annotation. Internal use only.
Since Neon-20140301

Parsing hackery



Values that control the various modes of the parser and lexer for logic. Use with care.
val register_extension : string -> unit
register a given name as a clause name for extended contract.
val is_extension : string -> bool
val kw_c_mode : bool Pervasives.ref
val enter_kw_c_mode : unit -> unit
val exit_kw_c_mode : unit -> unit
val is_kw_c_mode : unit -> bool
val rt_type_mode : bool Pervasives.ref
val enter_rt_type_mode : unit -> unit
val exit_rt_type_mode : unit -> unit
val is_rt_type_mode : unit -> bool