/usr/include/ap_lincons0.h is in libapron-dev 0.9.10-6.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/* ap_lincons0.h: linear constraints and arrays */
/* ************************************************************************* */
/* This file is part of the APRON Library, released under LGPL license. Please
read the COPYING file packaged in the distribution */
/* normally included from ap_expr0.h */
#ifndef _AP_LINCONS0_H_
#define _AP_LINCONS0_H_
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include "ap_coeff.h"
#include "ap_linexpr0.h"
#ifdef __cplusplus
extern "C" {
#endif
/* ====================================================================== */
/* Datatypes */
/* ====================================================================== */
/* Datatype for type of constraints */
typedef enum ap_constyp_t {
AP_CONS_EQ, /* equality constraint */
AP_CONS_SUPEQ, /* >= constraint */
AP_CONS_SUP, /* > constraint */
AP_CONS_EQMOD, /* congruence equality constraint */
AP_CONS_DISEQ /* disequality constraint */
} ap_constyp_t;
/* Represents the constraint "expr constyp 0" */
typedef struct ap_lincons0_t {
ap_linexpr0_t* linexpr0; /* expression */
ap_constyp_t constyp; /* type of constraint */
ap_scalar_t* scalar; /* maybe NULL.
For EQMOD constraint, indicates the
modulo */
} ap_lincons0_t;
/* Array of constraints */
typedef struct ap_lincons0_array_t {
ap_lincons0_t* p;
size_t size;
} ap_lincons0_array_t;
/* ********************************************************************** */
/* I. ap_lincons0_t */
/* ********************************************************************** */
/* ====================================================================== */
/* I.1 Memory management and printing */
/* ====================================================================== */
static inline
ap_lincons0_t ap_lincons0_make(ap_constyp_t constyp,
ap_linexpr0_t* linexpr,
ap_scalar_t* scalar);
/* Create a constraint of given type with the given expression.
The expression and the coefficient are not duplicated, just pointed to */
ap_lincons0_t ap_lincons0_make_unsat(void);
/* Create the constraint -1>=0 */
static inline
ap_lincons0_t ap_lincons0_copy(ap_lincons0_t* cons);
/* Duplication */
static inline
void ap_lincons0_clear(ap_lincons0_t* cons);
/* Free the linear expression of the constraint and set pointer to NULL */
void ap_lincons0_fprint(FILE* stream,
ap_lincons0_t* cons, char** name_of_dim);
/* Printing a linear constraint */
/* ====================================================================== */
/* I.2 Tests */
/* ====================================================================== */
bool ap_lincons0_is_unsat(ap_lincons0_t* cons);
/* True if the constraint is b>=0 or [a,b]>=0 with b negative */
/* ====================================================================== */
/* I.3 Change of dimensions and permutations */
/* ====================================================================== */
static inline
void ap_lincons0_add_dimensions_with(ap_lincons0_t* cons,
ap_dimchange_t* dimchange);
static inline
ap_lincons0_t ap_lincons0_add_dimensions(ap_lincons0_t* cons,
ap_dimchange_t* dimchange);
static inline
void ap_lincons0_permute_dimensions_with(ap_lincons0_t* cons,
ap_dimperm_t* perm);
static inline
ap_lincons0_t ap_lincons0_permute_dimensions(ap_lincons0_t* cons,
ap_dimperm_t* perm);
/* ********************************************************************** */
/* II. Array of linear constraints */
/* ********************************************************************** */
ap_lincons0_array_t ap_lincons0_array_make(size_t size);
/* Allocate an array of size constraints.
The constraints are initialized with NULL pointers, */
void ap_lincons0_array_resize(ap_lincons0_array_t* array, size_t size);
/* Resize an array of size constraints.
New constraints are initialized with NULL pointers,
Removed constraints with non-NULL pointers are deallocated */
void ap_lincons0_array_clear(ap_lincons0_array_t* array);
/* Clear the constraints of the array, and then the array itself */
void ap_lincons0_array_fprint(FILE* stream,
ap_lincons0_array_t* ap_lincons0_array,
char** name_of_dim);
/* Printing */
ap_linexpr_type_t ap_lincons0_array_type(ap_lincons0_array_t* array);
bool ap_lincons0_array_is_linear(ap_lincons0_array_t* array);
bool ap_lincons0_array_is_quasilinear(ap_lincons0_array_t* array);
/* Are all the expressions involved linear (resp. quasilinear) */
/* ====================================================================== */
/* II.1 Change of dimensions and permutations */
/* ====================================================================== */
void ap_lincons0_array_add_dimensions_with(ap_lincons0_array_t* array,
ap_dimchange_t* dimchange);
ap_lincons0_array_t ap_lincons0_array_add_dimensions(ap_lincons0_array_t* array,
ap_dimchange_t* dimchange);
void ap_lincons0_array_permute_dimensions_with(ap_lincons0_array_t* array,
ap_dimperm_t* perm);
ap_lincons0_array_t ap_lincons0_array_permute_dimensions(ap_lincons0_array_t* array,
ap_dimperm_t* perm);
/* ********************************************************************** */
/* III. Inline functions definitions */
/* ********************************************************************** */
static inline ap_lincons0_t ap_lincons0_make(ap_constyp_t constyp, ap_linexpr0_t* linexpr, ap_scalar_t* scalar)
{
ap_lincons0_t cons;
cons.constyp = constyp;
cons.linexpr0 = linexpr;
cons.scalar = scalar;
return cons;
}
static inline ap_lincons0_t ap_lincons0_copy(ap_lincons0_t* cons)
{
return ap_lincons0_make(cons->constyp,
cons->linexpr0 ? ap_linexpr0_copy(cons->linexpr0) : NULL,
cons->scalar ? ap_scalar_alloc_set(cons->scalar) : NULL);
}
static inline void ap_lincons0_clear(ap_lincons0_t* lincons)
{
if (lincons->linexpr0){
ap_linexpr0_free(lincons->linexpr0);
}
lincons->linexpr0 = NULL;
if (lincons->scalar){
ap_scalar_free(lincons->scalar);
}
lincons->scalar = NULL;
}
static inline
void ap_lincons0_add_dimensions_with(ap_lincons0_t* cons,
ap_dimchange_t* dimchange)
{ ap_linexpr0_add_dimensions_with(cons->linexpr0,dimchange); }
static inline
ap_lincons0_t ap_lincons0_add_dimensions(ap_lincons0_t* cons,
ap_dimchange_t* dimchange)
{
return ap_lincons0_make(cons->constyp,
ap_linexpr0_add_dimensions(cons->linexpr0,dimchange),
cons->scalar ? ap_scalar_alloc_set(cons->scalar) : NULL);
}
static inline
void ap_lincons0_permute_dimensions_with(ap_lincons0_t* cons,
ap_dimperm_t* perm)
{ ap_linexpr0_permute_dimensions_with(cons->linexpr0,perm); }
static inline
ap_lincons0_t ap_lincons0_permute_dimensions(ap_lincons0_t* cons,
ap_dimperm_t* perm)
{
return ap_lincons0_make(cons->constyp,
ap_linexpr0_permute_dimensions(cons->linexpr0,perm),
cons->scalar ? ap_scalar_alloc_set(cons->scalar) : NULL);
}
#ifdef __cplusplus
}
#endif
#endif
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