rpl/src/instructions_f3.c - diff

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Diff for /rpl/src/instructions_f3.c between versions 1.1.1.1 and 1.71

version 1.1.1.1, 2010/01/26 15:22:44	version 1.71, 2015/11/26 11:44:35
Line 1	Line 1
/*	/*
================================================================================	================================================================================
RPL/2 (R) version 4.0.9	RPL/2 (R) version 4.1.24
Copyright (C) 1989-2010 Dr. BERTRAND Joël	Copyright (C) 1989-2015 Dr. BERTRAND Joël

This file is part of RPL/2.	This file is part of RPL/2.

Line 20	Line 20
*/	*/


#include "rpl.conv.h"	#include "rpl-conv.h"


/*	/*
Line 72 instruction_format(struct_processus *s_e	Line 72 instruction_format(struct_processus *s_e
}	}

printf(" { \"STANDARD()\" }\n");	printf(" { \"STANDARD()\" }\n");
printf(" { \"lambda\" 'SEQUENTIAL' 'NEW' 'WRITEONLY' 'FORMATTED' }"	printf(" { { \"NAME\" \"lambda\" } \"SEQUENTIAL\" \"NEW\""
" OPEN FORMAT\n\n");	"\"WRITEONLY\" \"FORMATTED\" } OPEN\n FORMAT\n\n");

if ((*s_etat_processus).langue == 'F')	if ((*s_etat_processus).langue == 'F')
{	{
Line 96 instruction_format(struct_processus *s_e	Line 96 instruction_format(struct_processus *s_e
printf(" { \"CHARACTER()\" }\n");	printf(" { \"CHARACTER()\" }\n");
printf(" { \"CHARACTER*(%s)\" }\n", d_INT);	printf(" { \"CHARACTER*(%s)\" }\n", d_INT);
printf(" { \"BINARY%s()\" }\n", d_INT);	printf(" { \"BINARY%s()\" }\n", d_INT);
printf(" { \"BINARY*%s(%s)\" }\n\n", d_INT, d_INT);	printf(" { \"BINARY*%s(%s)\" }\n", d_INT, d_INT);
	printf(" { \"NATIVE()\" }\n\n");

printf(" UNFORMATTED\n");	printf(" UNFORMATTED\n");
printf(" { \"INTEGER1\", \"INTEGER2\", \"INTEGER*4\", "	printf(" { \"INTEGER1\", \"INTEGER2\", \"INTEGER*4\", "
Line 105 instruction_format(struct_processus *s_e	Line 106 instruction_format(struct_processus *s_e
"\"LOGICAL*8\" }\n");	"\"LOGICAL*8\" }\n");
printf(" { \"REAL4\", \"REAL8\" }\n");	printf(" { \"REAL4\", \"REAL8\" }\n");
printf(" { \"COMPLEX8\", \"COMPLEX16\" }\n");	printf(" { \"COMPLEX8\", \"COMPLEX16\" }\n");
printf(" { \"CHARACTER\" }\n\n");	printf(" { \"CHARACTER()\", \"CHARACTER*(%s)\" }\n", d_INT);
	printf(" { \"NATIVE()\" }\n\n");

printf(" FLOW\n");	printf(" FLOW\n");
printf(" { \"CHARACTER()\" }\n");
printf(" { \"CHARACTER*(%s)\" }\n", d_INT);
printf(" { \"LENGTH()\" }\n");	printf(" { \"LENGTH()\" }\n");
printf(" { \"LENGTH*(%s)\" }\n", d_INT);	printf(" { \"LENGTH*(%s)\" }\n", d_INT);

Line 542 instruction_fleche_q(struct_processus *s	Line 542 instruction_fleche_q(struct_processus *s

if (y != 0)	if (y != 0)
{	{
z = fabs(objectif - (r1 / r2));	z = abs(objectif - (r1 / r2));
x = ((real8) 1) / y;	x = ((real8) 1) / y;
}	}
else	else
Line 551 instruction_fleche_q(struct_processus *s	Line 551 instruction_fleche_q(struct_processus *s
}	}
} while(z > epsilon);	} while(z > epsilon);

if ((s_objet_argument_1 = allocation(s_etat_processus, REL)) == NULL)	if (r2 != ((real8) ((integer8) r2)))
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	if ((s_objet_argument_1 = allocation(s_etat_processus, REL))
return;	== NULL)
	{
	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
	return;
	}

	(((real8 ) (*s_objet_argument_1).objet)) = r2;
}	}
	else
	{
	if ((s_objet_argument_1 = allocation(s_etat_processus, INT))
	== NULL)
	{
	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
	return;
	}

(((real8 ) (*s_objet_argument_1).objet)) = r2;	(((integer8 ) (*s_objet_argument_1).objet)) = (integer8) r2;
	}

if ((s_objet_argument_2 = allocation(s_etat_processus, REL)) == NULL)	if (r1 != ((real8) ((integer8) r1)))
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	if ((s_objet_argument_2 = allocation(s_etat_processus, REL))
return;	== NULL)
	{
	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
	return;
	}

	(((real8 ) (*s_objet_argument_2).objet)) = r1;
}	}
	else
	{
	if ((s_objet_argument_2 = allocation(s_etat_processus, INT))
	== NULL)
	{
	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
	return;
	}

(((real8 ) (*s_objet_argument_2).objet)) = r1;	(((integer8 ) (*s_objet_argument_2).objet)) = (integer8) r1;
	}

if ((s_objet_resultat = allocation(s_etat_processus, ALG)) == NULL)	if ((s_objet_resultat = allocation(s_etat_processus, ALG)) == NULL)
{	{
Line 926 instruction_fleche_row(struct_processus	Line 956 instruction_fleche_row(struct_processus
nombre_lignes;	nombre_lignes;

if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =	if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =
malloc(nombre_lignes * sizeof(integer8 *))) == NULL)	malloc(((size_t) nombre_lignes) * sizeof(integer8 *))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
return;	return;
Line 941 instruction_fleche_row(struct_processus	Line 971 instruction_fleche_row(struct_processus
}	}

if ((((integer8 *) (((struct_matrice ) (s_objet_resultat)	if ((((integer8 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i] = malloc(nombre_colonnes *	.objet)).tableau)[i] = malloc(((size_t) nombre_colonnes) *
sizeof(integer8))) == NULL)	sizeof(integer8))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
Line 972 instruction_fleche_row(struct_processus	Line 1002 instruction_fleche_row(struct_processus
nombre_lignes;	nombre_lignes;

if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =	if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =
malloc(nombre_lignes * sizeof(real8 *))) == NULL)	malloc(((size_t) nombre_lignes) * sizeof(real8 *))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
return;	return;
Line 987 instruction_fleche_row(struct_processus	Line 1017 instruction_fleche_row(struct_processus
}	}

if ((((real8 *) (((struct_matrice ) (s_objet_resultat)	if ((((real8 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i] = malloc(nombre_colonnes *	.objet)).tableau)[i] = malloc(((size_t) nombre_colonnes) *
sizeof(real8))) == NULL)	sizeof(real8))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
Line 999 instruction_fleche_row(struct_processus	Line 1029 instruction_fleche_row(struct_processus
for(j = 0; j < nombre_colonnes; j++)	for(j = 0; j < nombre_colonnes; j++)
{	{
((real8 *) (((struct_matrice ) (s_objet_resultat)	((real8 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i][j] = ((integer8 **)	.objet)).tableau)[i][j] = (real8) ((integer8 **)
(((struct_matrice ) (*s_objet).objet))	(((struct_matrice ) (*s_objet).objet))
.tableau)[0][j];	.tableau)[0][j];
}	}
Line 1032 instruction_fleche_row(struct_processus	Line 1062 instruction_fleche_row(struct_processus
nombre_lignes;	nombre_lignes;

if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =	if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =
malloc(nombre_lignes * sizeof(complex16 *))) == NULL)	malloc(((size_t) nombre_lignes) * sizeof(complex16 *))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
return;	return;
Line 1047 instruction_fleche_row(struct_processus	Line 1077 instruction_fleche_row(struct_processus
}	}

if ((((complex16 *) (((struct_matrice ) (s_objet_resultat)	if ((((complex16 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i] = malloc(nombre_colonnes *	.objet)).tableau)[i] = malloc(((size_t) nombre_colonnes) *
sizeof(complex16))) == NULL)	sizeof(complex16))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
Line 1059 instruction_fleche_row(struct_processus	Line 1089 instruction_fleche_row(struct_processus
for(j = 0; j < nombre_colonnes; j++)	for(j = 0; j < nombre_colonnes; j++)
{	{
(((complex16 *) (((struct_matrice ) (s_objet_resultat)	(((complex16 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i][j]).partie_reelle =	.objet)).tableau)[i][j]).partie_reelle = (real8)
((integer8 *) (((struct_matrice *)	((integer8 *) (((struct_matrice *)
(*s_objet).objet)).tableau)[0][j];	(*s_objet).objet)).tableau)[0][j];
(((complex16 *) (((struct_matrice ) (s_objet_resultat)	(((complex16 *) (((struct_matrice ) (s_objet_resultat)
Line 1321 instruction_fleche_col(struct_processus	Line 1351 instruction_fleche_col(struct_processus
nombre_lignes;	nombre_lignes;

if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =	if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =
malloc(nombre_lignes * sizeof(integer8 *))) == NULL)	malloc(((size_t) nombre_lignes) * sizeof(integer8 *))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
return;	return;
Line 1330 instruction_fleche_col(struct_processus	Line 1360 instruction_fleche_col(struct_processus
for(i = 0; i < nombre_lignes; i++)	for(i = 0; i < nombre_lignes; i++)
{	{
if ((((integer8 *) (((struct_matrice ) (s_objet_resultat)	if ((((integer8 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i] = malloc(nombre_colonnes *	.objet)).tableau)[i] = malloc(((size_t) nombre_colonnes) *
sizeof(integer8))) == NULL)	sizeof(integer8))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
Line 1370 instruction_fleche_col(struct_processus	Line 1400 instruction_fleche_col(struct_processus
nombre_lignes;	nombre_lignes;

if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =	if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =
malloc(nombre_lignes * sizeof(real8 *))) == NULL)	malloc(((size_t) nombre_lignes) * sizeof(real8 *))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
return;	return;
Line 1379 instruction_fleche_col(struct_processus	Line 1409 instruction_fleche_col(struct_processus
for(i = 0; i < nombre_lignes; i++)	for(i = 0; i < nombre_lignes; i++)
{	{
if ((((real8 *) (((struct_matrice ) (s_objet_resultat)	if ((((real8 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i] = malloc(nombre_colonnes *	.objet)).tableau)[i] = malloc(((size_t) nombre_colonnes) *
sizeof(real8))) == NULL)	sizeof(real8))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
Line 1400 instruction_fleche_col(struct_processus	Line 1430 instruction_fleche_col(struct_processus
for(i = 0; i < nombre_lignes; i++)	for(i = 0; i < nombre_lignes; i++)
{	{
((real8 *) (((struct_matrice ) (s_objet_resultat)	((real8 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i][j] = ((integer8 **)	.objet)).tableau)[i][j] = (real8) ((integer8 **)
(((struct_matrice ) (*s_objet).objet))	(((struct_matrice ) (*s_objet).objet))
.tableau)[i][0];	.tableau)[i][0];
}	}
Line 1433 instruction_fleche_col(struct_processus	Line 1463 instruction_fleche_col(struct_processus
nombre_lignes;	nombre_lignes;

if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =	if (((((struct_matrice ) (*s_objet_resultat).objet)).tableau =
malloc(nombre_lignes * sizeof(complex16 *))) == NULL)	malloc(((size_t) nombre_lignes) * sizeof(complex16 *))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
return;	return;
Line 1442 instruction_fleche_col(struct_processus	Line 1472 instruction_fleche_col(struct_processus
for(i = 0; i < nombre_lignes; i++)	for(i = 0; i < nombre_lignes; i++)
{	{
if ((((complex16 *) (((struct_matrice ) (s_objet_resultat)	if ((((complex16 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i] = malloc(nombre_colonnes *	.objet)).tableau)[i] = malloc(((size_t) nombre_colonnes) *
sizeof(complex16))) == NULL)	sizeof(complex16))) == NULL)
{	{
(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;	(*s_etat_processus).erreur_systeme = d_es_allocation_memoire;
Line 1463 instruction_fleche_col(struct_processus	Line 1493 instruction_fleche_col(struct_processus
for(i = 0; i < nombre_lignes; i++)	for(i = 0; i < nombre_lignes; i++)
{	{
(((complex16 *) (((struct_matrice ) (s_objet_resultat)	(((complex16 *) (((struct_matrice ) (s_objet_resultat)
.objet)).tableau)[i][j]).partie_reelle =	.objet)).tableau)[i][j]).partie_reelle = (real8)
((integer8 *) (((struct_matrice *)	((integer8 *) (((struct_matrice *)
(*s_objet).objet)).tableau)[i][0];	(*s_objet).objet)).tableau)[i][0];
(((complex16 *) (((struct_matrice ) (s_objet_resultat)	(((complex16 *) (((struct_matrice ) (s_objet_resultat)
Line 1599 instruction_fleche_num(struct_processus	Line 1629 instruction_fleche_num(struct_processus
sf(s_etat_processus, 31);	sf(s_etat_processus, 31);
}	}

	if (registre_type_evaluation == 'E')
	{
	sf(s_etat_processus, 35);
	}
	else
	{
	cf(s_etat_processus, 35);
	}

(*s_etat_processus).erreur_execution = d_ex_manque_argument;	(*s_etat_processus).erreur_execution = d_ex_manque_argument;
return;	return;
}	}
Line 1610 instruction_fleche_num(struct_processus	Line 1649 instruction_fleche_num(struct_processus
sf(s_etat_processus, 31);	sf(s_etat_processus, 31);
}	}

	if (registre_type_evaluation == 'E')
	{
	sf(s_etat_processus, 35);
	}
	else
	{
	cf(s_etat_processus, 35);
	}

return;	return;
}	}

Line 1623 instruction_fleche_num(struct_processus	Line 1671 instruction_fleche_num(struct_processus
sf(s_etat_processus, 31);	sf(s_etat_processus, 31);
}	}

	if (registre_type_evaluation == 'E')
	{
	sf(s_etat_processus, 35);
	}
	else
	{
	cf(s_etat_processus, 35);
	}

liberation(s_etat_processus, s_objet);	liberation(s_etat_processus, s_objet);
return;	return;
}	}
Line 1758 instruction_fuse(struct_processus *s_eta	Line 1815 instruction_fuse(struct_processus *s_eta
return;	return;
}	}

	# ifdef SCHED_OTHER
if (pthread_attr_setschedpolicy(&attributs, SCHED_OTHER) != 0)	if (pthread_attr_setschedpolicy(&attributs, SCHED_OTHER) != 0)
{	{
(*s_etat_processus).erreur_systeme = d_es_processus;	(*s_etat_processus).erreur_systeme = d_es_processus;
return;	return;
}	}
	# endif

	# ifdef PTHREAD_EXPLICIT_SCHED
if (pthread_attr_setinheritsched(&attributs,	if (pthread_attr_setinheritsched(&attributs,
PTHREAD_EXPLICIT_SCHED) != 0)	PTHREAD_EXPLICIT_SCHED) != 0)
{	{
(*s_etat_processus).erreur_systeme = d_es_processus;	(*s_etat_processus).erreur_systeme = d_es_processus;
return;	return;
}	}
	# endif

	# ifdef PTHREAD_SCOPE_SYSTEM
if (pthread_attr_setscope(&attributs, PTHREAD_SCOPE_SYSTEM) != 0)	if (pthread_attr_setscope(&attributs, PTHREAD_SCOPE_SYSTEM) != 0)
{	{
(*s_etat_processus).erreur_systeme = d_es_processus;	(*s_etat_processus).erreur_systeme = d_es_processus;
return;	return;
}	}
	# endif

if (pthread_create(&(*s_etat_processus).thread_fusible, &attributs,	if (pthread_create(&(*s_etat_processus).thread_fusible, &attributs,
fusible, s_etat_processus) != 0)	fusible, s_etat_processus) != 0)
Line 1783 instruction_fuse(struct_processus *s_eta	Line 1846 instruction_fuse(struct_processus *s_eta
(*s_etat_processus).erreur_systeme = d_es_processus;	(*s_etat_processus).erreur_systeme = d_es_processus;
return;	return;
}	}

if (pthread_attr_destroy(&attributs) != 0)	if (pthread_attr_destroy(&attributs) != 0)
{	{
(*s_etat_processus).erreur_systeme = d_es_processus;	(*s_etat_processus).erreur_systeme = d_es_processus;

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Removed from v.1.1.1.1
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	Added in v.1.71