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Diff for /rpl/src/rpl.h between versions 1.124 and 1.163

version 1.124, 2011/09/16 14:42:03	version 1.163, 2012/05/16 09:14:04
Line 1	Line 1
/*	/*
================================================================================	================================================================================
RPL/2 (R) version 4.1.3	RPL/2 (R) version 4.1.8
Copyright (C) 1989-2011 Dr. BERTRAND Joël	Copyright (C) 1989-2012 Dr. BERTRAND Joël

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

Line 43	Line 43
#ifdef OS2	#ifdef OS2
# ifndef __RPLCAS	# ifndef __RPLCAS
# define _BSD_SOURCE	# define _BSD_SOURCE
# define _XOPEN_SOURCE 600
# endif	# endif

# include <types.h>	# include <types.h>
Line 72	Line 71
#include <syslog.h>	#include <syslog.h>
#include <errno.h>	#include <errno.h>
#include <stdarg.h>	#include <stdarg.h>
	#include <poll.h>

#ifndef RPLARGS	#ifndef RPLARGS
# include <sys/mman.h>	# include <sys/mman.h>
Line 92	Line 92
# include <dlfcn.h>	# include <dlfcn.h>
# include <fcntl.h>	# include <fcntl.h>
# include <pthread.h>	# include <pthread.h>
	# include <regex.h>

# ifdef OS2	# ifdef OS2
# undef pthread_mutexattr_settype	# undef pthread_mutexattr_settype
Line 99	Line 100
# endif	# endif

# include <pwd.h>	# include <pwd.h>
# include <sys/shm.h>	# ifdef SHARED_MEMORY
	# include <sys/shm.h>
	# endif

# ifndef IPCS_SYSV	# ifndef IPCS_SYSV
# include <semaphore.h>	# include <semaphore.h>
Line 122	Line 125
ULONG *nopened;	ULONG *nopened;
ULONG allocated;	ULONG allocated;
} sem_t;	} sem_t;
# else	# else // IPCS_SYSV
typedef struct	typedef struct
{	{
int sem;	int sem;
	int alloue;
unsigned char *path;	unsigned char *path;
pid_t pid;	pid_t pid;
	pthread_t tid;
} sem_t;	} sem_t;
# endif	# endif

# define SEM_FAILED NULL	# ifndef SEM_FAILED
	# define SEM_FAILED NULL
	# endif

sem_t sem_open_SysV(const char nom, int oflag, ...);	sem_t sem_open_SysV(const char nom, int oflag, ...);
int sem_init_SysV(sem_t *sem, int shared, unsigned int value);	int sem_init_SysV(sem_t *sem, int shared, unsigned int value);
Line 158	Line 165

# include "openssl/evp.h"	# include "openssl/evp.h"
# include "sqlite3.h"	# include "sqlite3.h"
	# include "sigsegv.h"
	# ifdef OS2
	// Bug de libsigsegv
	# undef HAVE_STACK_OVERFLOW_RECOVERY
	# endif

# define HAVE_INLINE	# define HAVE_INLINE
# define GSL_RANGE_CHECK_OFF	# define GSL_RANGE_CHECK_OFF
Line 203	Line 215
# endif	# endif
#endif	#endif

	#ifdef MAIN_RPL
	# define __EXTERN__
	# define __STATIC_MUTEX_INITIALIZATION__ = PTHREAD_MUTEX_INITIALIZER
	#else
	# define __EXTERN__ extern
	# define __STATIC_MUTEX_INITIALIZATION__
	#endif

/*	/*
================================================================================	================================================================================
Bugs spécifiques	Bugs spécifiques
Line 237 enum signaux_rpl	Line 257 enum signaux_rpl
// Elle est projetée dans un segment de mémoire partagée pour qu'elle soit	// Elle est projetée dans un segment de mémoire partagée pour qu'elle soit
// accessible à la fois du père et des fils.	// accessible à la fois du père et des fils.

	#ifndef RPLARGS
typedef struct queue_signaux	typedef struct queue_signaux
{	{
sem_t	# ifndef IPCS_SYSV
# ifdef SEMAPHORES_NOMMES	# ifndef SEMAPHORES_NOMMES
*	sem_t semaphore;
	# endif
	# else
	sem_t semaphore;
# endif	# endif
semaphore;

volatile int pointeur_lecture;	volatile int pointeur_lecture;
volatile int pointeur_ecriture;	volatile int pointeur_ecriture;
Line 255 typedef struct queue_signaux	Line 278 typedef struct queue_signaux
} queue[LONGUEUR_QUEUE_SIGNAUX];	} queue[LONGUEUR_QUEUE_SIGNAUX];
} struct_queue_signaux;	} struct_queue_signaux;

#ifndef RPLARGS	__EXTERN__ struct_queue_signaux *s_queue_signaux;
# ifndef MAIN_RPL	__EXTERN__ int f_queue_signaux;
extern struct_queue_signaux *s_queue_signaux;
extern int f_queue_signaux;
# else
struct_queue_signaux *s_queue_signaux;
int f_queue_signaux;
# endif
#endif

#ifdef OpenBSD	# ifdef SEMAPHORES_NOMMES
# ifdef PTHREAD_SCOPE_SYSTEM	__EXTERN__ sem_t *semaphore_queue_signaux;
# undef PTHREAD_SCOPE_SYSTEM
# endif	# endif
# define PTHREAD_SCOPE_SYSTEM 0
#endif	#endif

#ifdef OS2	#ifdef OS2
Line 287 union semun	Line 301 union semun
};	};
#endif	#endif

	#ifndef RTLD_LOCAL
	# define RTLD_LOCAL 0
	#endif

	#ifndef SIGSTKSZ
	# define SIGSTKSZ 65536
	#endif

/*	/*
================================================================================	================================================================================
Line 319 union semun	Line 340 union semun
// SIGINT	// SIGINT
// SIGTSTP	// SIGTSTP
// SIGCONT	// SIGCONT
// SIGURG
// SIGPIPE	// SIGPIPE
	// SIGUSR1 et SIGUSR2 sont utilisé par libsigsegv.
	// SIGHUP
// SIGALRM	// SIGALRM

# define SIGTEST SIGUSR1	# define SIGTEST SIGUSR1
Line 390 typedef unsigned char t_8_bits;	Line 412 typedef unsigned char t_8_bits;
# define LONGUEUR_NOM_SEMAPHORE 64	# define LONGUEUR_NOM_SEMAPHORE 64
# endif	# endif

# ifndef MAIN_RPL	# ifdef SEMAPHORES_NOMMES
extern jmp_buf contexte;	# define __PTR__ *
extern jmp_buf contexte_initial;	# else
extern jmp_buf contexte_processus;	# define __PTR__
extern jmp_buf contexte_thread;	# endif

extern int signal_test;

extern pid_t pid_processus_pere;

# ifdef SEMAPHORES_NOMMES	__EXTERN__ jmp_buf contexte_ecriture;
extern pthread_mutex_t mutex_sem;	__EXTERN__ jmp_buf contexte_impression;
# endif	__EXTERN__ jmp_buf contexte_initial;
	__EXTERN__ jmp_buf contexte_processus;
	__EXTERN__ jmp_buf contexte_thread;

extern pthread_mutex_t mutex_liste_threads;	__EXTERN__ int signal_test;
extern pthread_mutex_t mutex_gestionnaires_signaux_atomique;

extern sem_t	__EXTERN__ pid_t pid_processus_pere;
# ifdef SEMAPHORES_NOMMES
*
# endif
semaphore_gestionnaires_signaux;
# else
jmp_buf contexte;
jmp_buf contexte_initial;
jmp_buf contexte_processus;
jmp_buf contexte_thread;

int signal_test;	# ifdef SEMAPHORES_NOMMES
	__EXTERN__ pthread_mutex_t mutex_sem __STATIC_MUTEX_INITIALIZATION__;
	# endif

pid_t pid_processus_pere;	__EXTERN__ pthread_mutex_t mutex_liste_threads
	__STATIC_MUTEX_INITIALIZATION__;
	__EXTERN__ pthread_mutex_t mutex_gestionnaires_signaux_atomique
	__STATIC_MUTEX_INITIALIZATION__;

# ifdef SEMAPHORES_NOMMES	__EXTERN__ sem_t __PTR__ semaphore_gestionnaires_signaux;
pthread_mutex_t mutex_sem = PTHREAD_MUTEX_INITIALIZER;
# endif

pthread_mutex_t mutex_liste_threads =	__EXTERN__ volatile int routine_recursive;
PTHREAD_MUTEX_INITIALIZER;
pthread_mutex_t mutex_gestiionnaires_signaux =
PTHREAD_MUTEX_INITIALIZER;
pthread_mutex_t mutex_gestionnaires_signaux_atomique =
PTHREAD_MUTEX_INITIALIZER;
sem_t
# ifdef SEMAPHORES_NOMMES
*
# endif
semaphore_gestionnaires_signaux;
# endif
#endif	#endif

#ifdef SEMAPHORES_NOMMES	#ifdef SEMAPHORES_NOMMES
enum t_semaphore { sem_liste_threads = 0,	#define SEM_FORK 0
sem_gestionnaires_signaux = 1,	#define SEM_QUEUE 1
sem_gestionnaires_signaux_atomique = 2,	#define SEM_SIGNAUX 2
sem_fork = 3 };	sem_t *sem_init2(unsigned int valeur, pid_t pid, int ordre);
	sem_t *sem_init3(unsigned int valeur, pid_t pid, pthread_t tid, int ordre);
sem_t *sem_init2(unsigned int valeur, enum t_semaphore semaphore);	int sem_destroy2(sem_t *semaphore_p, pid_t pid, int ordre);
int sem_destroy2(sem_t *semaphore_p, enum t_semaphore semaphore);	int sem_destroy3(sem_t *semaphore_p, pid_t pid, pthread_t tid, int ordre);
int sem_getvalue2(sem_t semaphore, int valeur);	int sem_getvalue2(sem_t semaphore, int valeur);
	sem_t *sem_open2(pid_t pid, int ordre);

	// Le mutex est là uniquement pour pouvoir émuler le comportement
	// de sem_getvalue() sur un système comme MacOS X qui ne possède pas
	// cette fonction.

#define sem_getvalue(semaphore, value) sem_getvalue2(semaphore, value)	#define sem_getvalue(semaphore, value) sem_getvalue2(semaphore, value)
#define sem_post(semaphore) \	#define sem_post(semaphore) \
Line 490 int sem_getvalue2(sem_t *semaphore, int	Line 497 int sem_getvalue2(sem_t *semaphore, int
# define fclose(...) ({ int ios; \	# define fclose(...) ({ int ios; \
while((ios = fclose(__VA_ARGS__)) != 0) \	while((ios = fclose(__VA_ARGS__)) != 0) \
{ if ((errno != EINTR) && (errno != 0)) break; } ios; })	{ if ((errno != EINTR) && (errno != 0)) break; } ios; })
# define fread(...) ({ int ios; \
while((ios = fread(__VA_ARGS__)) < 0) \
{ if ((errno != EINTR) && (errno != 0)) break; } ios; })
# define fflush(flux) ({ int ios; \	# define fflush(flux) ({ int ios; \
while((ios = fflush((flux == stdout) ? stderr : flux)) != 0) \	while((ios = fflush((flux == stdout) ? stderr : flux)) != 0) \
{ if ((errno != EINTR) && (errno != 0)) break; } ios; })	{ if ((errno != EINTR) && (errno != 0)) break; } ios; })
Line 768 pid_t debug_fork();	Line 772 pid_t debug_fork();
# define d_es_contexte __erreur(2013)	# define d_es_contexte __erreur(2013)
# define d_es_somme_controle __erreur(2014)	# define d_es_somme_controle __erreur(2014)
# define d_es_semaphore __erreur(2015)	# define d_es_semaphore __erreur(2015)
	# define d_es_mutex_acquis_autre_thread __erreur(2016)
#endif	#endif

/*	/*
Line 906 pid_t debug_fork();	Line 911 pid_t debug_fork();
# define d_ex_version_bibliotheque __erreur(82)	# define d_ex_version_bibliotheque __erreur(82)
# define d_ex_creation_variable_globale __erreur(83)	# define d_ex_creation_variable_globale __erreur(83)
# define d_ex_erreur_interne_rplcas __erreur(84)	# define d_ex_erreur_interne_rplcas __erreur(84)
	# define d_ex_fichier_corrompu __erreur(85)
	# define d_ex_mutex_acquis_autre_thread __erreur(86)
	# define d_ex_expression_reguliere __erreur(87)
	# define d_ex_instruction_indisponible __erreur(88)
#endif	#endif


Line 1093 typedef struct fichier	Line 1102 typedef struct fichier
typedef struct rpl_mutex	typedef struct rpl_mutex
{	{
pthread_mutex_t mutex;	pthread_mutex_t mutex;
	pthread_t tid;
} struct_mutex;	} struct_mutex;
#endif	#endif

Line 1166 typedef struct descripteur_fichier	Line 1176 typedef struct descripteur_fichier
pid_t pid;	pid_t pid;
pthread_t tid;	pthread_t tid;

file *descripteur_c;	union
sqlite3 *descripteur_sqlite;	{
	file *descripteur_c;
	sqlite3 *descripteur_sqlite;
	};
} struct_descripteur_fichier;	} struct_descripteur_fichier;
#endif	#endif

Line 1803 typedef struct processus	Line 1816 typedef struct processus
pthread_t thread_fusible;	pthread_t thread_fusible;
pthread_t thread_surveille_par_fusible;	pthread_t thread_surveille_par_fusible;

# if !defined(Cygwin)
# if !(OpenBSD)
stack_t pile_signal;
# else
# ifdef SA_ONSTACK
# undef SA_ONSTACK
# endif
# define SA_ONSTACK 0
# endif
# else
# define SA_ONSTACK 0
# define RTLD_LOCAL 0
# endif

volatile int pointeur_signal_ecriture;	volatile int pointeur_signal_ecriture;
volatile int pointeur_signal_lecture;	volatile int pointeur_signal_lecture;
volatile enum signaux_rpl signaux_en_queue[LONGUEUR_QUEUE_SIGNAUX];	volatile enum signaux_rpl signaux_en_queue[LONGUEUR_QUEUE_SIGNAUX];
Line 2037 typedef struct processus	Line 2036 typedef struct processus

/* Traitement des erreurs */	/* Traitement des erreurs */

unsigned int compteur_violation_d_acces;
unsigned int erreur_compilation;	unsigned int erreur_compilation;
unsigned int erreur_execution;	unsigned int erreur_execution;
unsigned int erreur_systeme;	unsigned int erreur_systeme;
Line 2149 typedef struct processus	Line 2147 typedef struct processus

pid_t pid_processus_pere;	pid_t pid_processus_pere;
pthread_t tid_processus_pere;	pthread_t tid_processus_pere;
	pthread_t tid;

logical1 processus_detache;	logical1 processus_detache;

Line 2165 typedef struct processus	Line 2164 typedef struct processus
pthread_mutex_t mutex_allocation;	pthread_mutex_t mutex_allocation;

// Mutex autorisant les fork()	// Mutex autorisant les fork()
pthread_mutex_t mutex_fork;	sem_t
	# ifdef SEMAPHORES_NOMMES
	*
	# endif
	semaphore_fork;

/* Mutexes */	/* Mutexes */

struct_liste_chainee *liste_mutexes;	struct_liste_chainee *liste_mutexes;
pthread_mutex_t protection_liste_mutexes;	pthread_mutex_t protection_liste_mutexes;

	/* Drapeau nécessaire à RESTART */

	volatile logical1 requete_redemarrage;

/* Gestion optimisée de la mémoire */	/* Gestion optimisée de la mémoire */

double estimation_taille_pile_tampon;	double estimation_taille_pile_tampon;
Line 2559 void instruction_pmax(struct_processus *	Line 2566 void instruction_pmax(struct_processus *
void instruction_pmin(struct_processus *s_etat_processus);	void instruction_pmin(struct_processus *s_etat_processus);
void instruction_poke(struct_processus *s_etat_processus);	void instruction_poke(struct_processus *s_etat_processus);
void instruction_polar(struct_processus *s_etat_processus);	void instruction_polar(struct_processus *s_etat_processus);
	void instruction_poll(struct_processus *s_etat_processus);
void instruction_pos(struct_processus *s_etat_processus);	void instruction_pos(struct_processus *s_etat_processus);
void instruction_pourcent(struct_processus *s_etat_processus);	void instruction_pourcent(struct_processus *s_etat_processus);
void instruction_pourcent_ch(struct_processus *s_etat_processus);	void instruction_pourcent_ch(struct_processus *s_etat_processus);
Line 2615 void instruction_read(struct_processus *	Line 2623 void instruction_read(struct_processus *
void instruction_recode(struct_processus *s_etat_processus);	void instruction_recode(struct_processus *s_etat_processus);
void instruction_recv(struct_processus *s_etat_processus);	void instruction_recv(struct_processus *s_etat_processus);
void instruction_redraw(struct_processus *s_etat_processus);	void instruction_redraw(struct_processus *s_etat_processus);
	void instruction_regex(struct_processus *s_etat_processus);
void instruction_relax(struct_processus *s_etat_processus);	void instruction_relax(struct_processus *s_etat_processus);
void instruction_remove(struct_processus *s_etat_processus);	void instruction_remove(struct_processus *s_etat_processus);
void instruction_res(struct_processus *s_etat_processus);	void instruction_res(struct_processus *s_etat_processus);
	void instruction_restart(struct_processus *s_etat_processus);
void instruction_recall(struct_processus *s_etat_processus);	void instruction_recall(struct_processus *s_etat_processus);
void instruction_regv(struct_processus *s_etat_processus);	void instruction_regv(struct_processus *s_etat_processus);
void instruction_repeat(struct_processus *s_etat_processus);	void instruction_repeat(struct_processus *s_etat_processus);
Line 2810 void appel_gnuplot(struct_processus *s_e	Line 2820 void appel_gnuplot(struct_processus *s_e
void cf(struct_processus *s_etat_processus, unsigned char indice_drapeau);	void cf(struct_processus *s_etat_processus, unsigned char indice_drapeau);
void cond(struct_processus *s_etat_processus,	void cond(struct_processus *s_etat_processus,
struct_matrice s_matrice, real8 condition);	struct_matrice s_matrice, real8 condition);
	void conversion_chaine(struct_processus *s_etat_processus,
	unsigned char *chaine, unsigned char type);
void conversion_decimal_vers_hms(real8 *angle);	void conversion_decimal_vers_hms(real8 *angle);
void conversion_degres_vers_radians(real8 *angle);	void conversion_degres_vers_radians(real8 *angle);
void conversion_element_tex(unsigned char *element, unsigned char fonction);	void conversion_element_tex(unsigned char *element, unsigned char fonction);
Line 2885 void interruption2(int signal);	Line 2897 void interruption2(int signal);
void interruption3(int signal);	void interruption3(int signal);
void interruption4(int signal);	void interruption4(int signal);
void interruption5(int signal);	void interruption5(int signal);
	void interruption6(int signal);
	void interruption_depassement_pile(int urgence, stackoverflow_context_t scp);
void inversion_matrice(struct_processus *s_etat_processus,	void inversion_matrice(struct_processus *s_etat_processus,
struct_matrice *s_matrice);	struct_matrice *s_matrice);
void lancement_daemon(struct_processus *s_etat_processus);	void lancement_daemon(struct_processus *s_etat_processus);
Line 2918 void retrait_thread(struct_processus *s_	Line 2932 void retrait_thread(struct_processus *s_
void retrait_thread_surveillance(struct_processus *s_etat_processus,	void retrait_thread_surveillance(struct_processus *s_etat_processus,
struct_descripteur_thread *s_argument_thread);	struct_descripteur_thread *s_argument_thread);
void rplcore(struct_processus *s_etat_processus);	void rplcore(struct_processus *s_etat_processus);
	#endif

void scrutation_injection(struct_processus *s_etat_processus);	void scrutation_injection(struct_processus *s_etat_processus);

	#ifndef RPLARGS
void scrutation_interruptions(struct_processus *s_etat_processus);	void scrutation_interruptions(struct_processus *s_etat_processus);
void sf(struct_processus *s_etat_processus, unsigned char indice_drapeau);	void sf(struct_processus *s_etat_processus, unsigned char indice_drapeau);
void surveillance_processus(void argument);	void surveillance_processus(void argument);
Line 2981 complex16 sommation_vecteur_complexe(com	Line 2999 complex16 sommation_vecteur_complexe(com
*/	*/

#ifndef RPLARGS	#ifndef RPLARGS
int rplinit(int argc, char argv[], unsigned char *resultats, char rpl_home);	int rplinit(int argc, char argv[], char envp[],
	unsigned char **resultats, char rpl_home);
#endif	#endif

/*	/*
Line 3045 unsigned char *compactage(unsigned char	Line 3064 unsigned char *compactage(unsigned char
unsigned char conversion_majuscule(unsigned char chaine);	unsigned char conversion_majuscule(unsigned char chaine);
unsigned char creation_nom_fichier(struct_processus s_etat_processus,	unsigned char creation_nom_fichier(struct_processus s_etat_processus,
unsigned char *chemin);	unsigned char *chemin);
	unsigned char *date_compilation();
unsigned char extraction_chaine(unsigned char chaine, unsigned long i,	unsigned char extraction_chaine(unsigned char chaine, unsigned long i,
unsigned long j);	unsigned long j);
unsigned char formateur(struct_processus s_etat_processus, long offset,	unsigned char formateur(struct_processus s_etat_processus, long offset,
Line 3058 unsigned char *formateur_flux(struct_pro	Line 3078 unsigned char *formateur_flux(struct_pro
unsigned char formateur_fichier_nombre(struct_processus s_etat_processus,	unsigned char formateur_fichier_nombre(struct_processus s_etat_processus,
void *valeur_numerique, unsigned char type,	void *valeur_numerique, unsigned char type,
long longueur, long longueur_champ, unsigned char format);	long longueur, long longueur_champ, unsigned char format);
	unsigned char *formateur_fichier_binaire_nombre(struct_processus
	s_etat_processus, void valeur_numerique, unsigned char type,
	long longueur, long *longueur_conversion);
unsigned char formateur_fichier_reel(struct_processus s_etat_processus,	unsigned char formateur_fichier_reel(struct_processus s_etat_processus,
void *valeur_numerique, unsigned char type,	void *valeur_numerique, unsigned char type,
long longueur, long longueur_champ, unsigned char format);	long longueur, long longueur_champ, unsigned char format);
Line 3066 unsigned char *formateur_nombre(struct_p	Line 3089 unsigned char *formateur_nombre(struct_p
unsigned char formateur_reel(struct_processus s_etat_processus,	unsigned char formateur_reel(struct_processus s_etat_processus,
void *valeur_numerique, unsigned char type);	void *valeur_numerique, unsigned char type);
unsigned char messages(struct_processus s_etat_processus);	unsigned char messages(struct_processus s_etat_processus);
	unsigned char pointeur_ieme_caractere(struct_processus s_etat_processus,
	unsigned char *chaine, integer8 position);
unsigned char purification_chaine(unsigned char chaine);	unsigned char purification_chaine(unsigned char chaine);
unsigned char reencodage(struct_processus s_etat_processus,	unsigned char reencodage(struct_processus s_etat_processus,
unsigned char chaine_entree, unsigned char codage_entree,	unsigned char chaine_entree, unsigned char codage_entree,
Line 3088 logical1 caracteristiques_fichier(struct	Line 3113 logical1 caracteristiques_fichier(struct
unsigned long *unite);	unsigned long *unite);
logical1 controle(struct_processus s_etat_processus, unsigned char fichier,	logical1 controle(struct_processus s_etat_processus, unsigned char fichier,
unsigned char type, unsigned char somme_candidate);	unsigned char type, unsigned char somme_candidate);
	logical1 controle_integrite(struct_processus *s_etat_processus,
	unsigned char executable_candidat, unsigned char executable);
logical1 creation_variable(struct_processus *s_etat_processus,	logical1 creation_variable(struct_processus *s_etat_processus,
struct_variable *s_variable,	struct_variable *s_variable,
unsigned char autorisation_creation_variable_statique,	unsigned char autorisation_creation_variable_statique,
Line 3151 logical1 test_cfsf(struct_processus *s_e	Line 3178 logical1 test_cfsf(struct_processus *s_e
unsigned char indice_drapeau);	unsigned char indice_drapeau);
logical1 test_expression_rpn(unsigned char *chaine);	logical1 test_expression_rpn(unsigned char *chaine);
logical1 test_fonction(unsigned char *chaine);	logical1 test_fonction(unsigned char *chaine);
	logical1 validation_chaine(unsigned char *chaine);
#endif	#endif

/*	/*
Line 3173 ssize_t write_atomic(struct_processus *s	Line 3201 ssize_t write_atomic(struct_processus *s
*/	*/

int alsprintf(unsigned char *strp, const char fmt, ...);	int alsprintf(unsigned char *strp, const char fmt, ...);
	int interruption_violation_access(void *adresse_fautive, int gravite);
	#ifndef RPLARGS
int liste_variables(struct_processus *s_etat_processus,	int liste_variables(struct_processus *s_etat_processus,
struct_tableau_variables *tableau, int position,	struct_tableau_variables *tableau, int position,
struct_arbre_variables *l_element_courant);	struct_arbre_variables *l_element_courant);
int nombre_variables(struct_processus *s_etat_processus,	int nombre_variables(struct_processus *s_etat_processus,
struct_arbre_variables *l_element_courant);	struct_arbre_variables *l_element_courant);
	int readline_analyse_syntaxique(int count, int key);
	int readline_effacement(int count, int key);
	#endif
int tex_fprintf(struct_processus *s_etat_processus,	int tex_fprintf(struct_processus *s_etat_processus,
file flux, const char format, ...);	file flux, const char format, ...);
int transliterated_fprintf(struct_processus s_etat_processus, file flux,	int transliterated_fprintf(struct_processus s_etat_processus, file flux,
Line 3194 int wrapper_instruction_intrinseque(void	Line 3227 int wrapper_instruction_intrinseque(void

#ifndef RPLARGS	#ifndef RPLARGS
unsigned char longueur_entiers_binaires(struct_processus *s_etat_processus);	unsigned char longueur_entiers_binaires(struct_processus *s_etat_processus);
unsigned char recherche_longueur_optimale(integer8 parametre);
#endif	#endif

/*	/*
Line 3215 logical8 masque_entiers_binaires(struct_	Line 3247 logical8 masque_entiers_binaires(struct_

#ifndef RPLARGS	#ifndef RPLARGS
integer8 occupation_memoire(struct_objet *s_objet);	integer8 occupation_memoire(struct_objet *s_objet);
	integer8 longueur_chaine(struct_processus *s_etat_processus,
	unsigned char *chaine);
	integer8 position_caractere_de_chaine(struct_processus *s_etat_processus,
	unsigned char chaine, unsigned char position);
#endif	#endif

/*	/*
Line 3259 struct_descripteur_fichier *descripteur_	Line 3295 struct_descripteur_fichier *descripteur_
struct_objet copie_objet(struct_processus s_etat_processus,	struct_objet copie_objet(struct_processus s_etat_processus,
struct_objet *s_objet, unsigned char type);	struct_objet *s_objet, unsigned char type);

#ifndef RPLARGS
struct_objet allocation(struct_processus s_etat_processus, enum t_type type);	struct_objet allocation(struct_processus s_etat_processus, enum t_type type);
	#ifndef RPLARGS
struct_objet formateur_date(struct_processus s_etat_processus,	struct_objet formateur_date(struct_processus s_etat_processus,
struct timeval *temps);	struct timeval *temps);
struct_objet lecture_pipe(struct_processus s_etat_processus, int pipe);	struct_objet lecture_pipe(struct_processus s_etat_processus, int pipe);

CVSweb interface <joel.bertrand@systella.fr>

Removed from v.1.124
changed lines
	Added in v.1.163