rpl/src/rpl.h - diff

Return to rpl.h CVS log

Up to [local] / rpl / src

Diff for /rpl/src/rpl.h between versions 1.251 and 1.277

version 1.251, 2014/10/05 19:53:16	version 1.277, 2015/09/28 15:23:04
Line 1	Line 1
/*	/*
================================================================================	================================================================================
RPL/2 (R) version 4.1.19	RPL/2 (R) version 4.1.23
Copyright (C) 1989-2014 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 38	Line 38
# ifdef OpenBSD	# ifdef OpenBSD
# define _BSD_SOURCE	# define _BSD_SOURCE
# endif	# endif

	# ifdef FreeBSD
	# define __BSD_VISIBLE 1
	# endif
#endif	#endif

#ifdef OS2	#ifdef OS2
Line 212	Line 216
# undef HAVE_STACK_OVERFLOW_RECOVERY	# undef HAVE_STACK_OVERFLOW_RECOVERY
# endif	# endif

# define HAVE_INLINE
# define GSL_RANGE_CHECK_OFF	# define GSL_RANGE_CHECK_OFF
# include "gsl/gsl_cdf.h"	# include "gsl/gsl_cdf.h"
# include "gsl/gsl_cblas.h"	# include "gsl/gsl_cblas.h"
Line 323 typedef struct queue_signaux	Line 326 typedef struct queue_signaux
volatile logical1 requete_arret;	volatile logical1 requete_arret;

pthread_t thread_signaux;	pthread_t thread_signaux;
	pid_t controle;

volatile struct	volatile struct
{	{
Line 347 __EXTERN__ int f_queue_signaux;	Line 351 __EXTERN__ int f_queue_signaux;
# endif	# endif
#endif	#endif

#ifdef OS2
# define readline(s) readline_wrapper(s)
unsigned char readline_wrapper(unsigned char s);
#endif

#if ! defined(UNION_SEMUN) && defined(IPCS_SYSV)	#if ! defined(UNION_SEMUN) && defined(IPCS_SYSV)
union semun	union semun
{	{
Line 370 union semun	Line 369 union semun
# define SIGSTKSZ 65536	# define SIGSTKSZ 65536
#endif	#endif


/*	/*
================================================================================	================================================================================
SÉMAPHORES	SÉMAPHORES
Line 525 union semun	Line 525 union semun

__EXTERN__ volatile int routine_recursive;	__EXTERN__ volatile int routine_recursive;

# define SEM_FORK 0	# define SEM_FORK 0
# define SEM_QUEUE 1	# define SEM_QUEUE 1
# define SEM_SIGNALISATION 2	# define SEM_SIGNALISATION 2
# define SEM_ARRET_SIGNALISATION 3	# define SEM_ARRET_SIGNALISATION 3
Line 568 union semun	Line 568 union semun
stderr, __VA_ARGS__)	stderr, __VA_ARGS__)
#define fprintf(flux, ...) transliterated_fprintf(s_etat_processus, \	#define fprintf(flux, ...) transliterated_fprintf(s_etat_processus, \
flux, __VA_ARGS__)	flux, __VA_ARGS__)
#define uprintf(...) transliterated_fprintf(NULL, \	#define uprintf(...) std_fprintf(stderr, __VA_ARGS__)
stderr, __VA_ARGS__)	#define ufprintf(flux, ...) std_fprintf(flux, __VA_ARGS__)
#define ufprintf(flux, ...) transliterated_fprintf(NULL, \
flux, __VA_ARGS__)

#ifdef SunOS	#ifdef SunOS
# define fopen(...) ({ FILE *desc; \	# define fopen(...) ({ FILE *desc; \
Line 653 union semun	Line 651 union semun
{ \	{ \
for(i = 0; i < nb; i++) \	for(i = 0; i < nb; i++) \
uprintf(" %s\n", appels[i]); \	uprintf(" %s\n", appels[i]); \
free(appels); \	sys_free(appels); \
} \	} \
else \	else \
uprintf("Nullified backtrace\n"); \	uprintf("Nullified backtrace\n"); \
Line 775 pid_t debug_fork();	Line 773 pid_t debug_fork();
#define d_SPH "Semaphore $n 'name'"	#define d_SPH "Semaphore $n 'name'"
#define d_TAB "<[ table ]>"	#define d_TAB "<[ table ]>"
#define d_MTX "Mutex $n"	#define d_MTX "Mutex $n"
	#define d_REC "Record /'name_1', ..., 'name_n'/"

/*	/*
--------------------------------------------------------------------------------	--------------------------------------------------------------------------------
Line 1027 pid_t debug_fork();	Line 1026 pid_t debug_fork();
#define NOM __RPL_NOM	#define NOM __RPL_NOM
#define NON __RPL_NON	#define NON __RPL_NON
#define PRC __RPL_PRC	#define PRC __RPL_PRC
	#define REC __RPL_REC
#define REL __RPL_REL	#define REL __RPL_REL
#define RPN __RPL_RPN	#define RPN __RPL_RPN
#define SCK __RPL_SCK	#define SCK __RPL_SCK
Line 1041 pid_t debug_fork();	Line 1041 pid_t debug_fork();
enum t_rplcas_commandes { RPLCAS_INTEGRATION = 0, RPLCAS_LIMITE };	enum t_rplcas_commandes { RPLCAS_INTEGRATION = 0, RPLCAS_LIMITE };

enum t_type { ADR = 0, ALG, BIN, CHN, CPL, FCH, FCT, INT, LST,	enum t_type { ADR = 0, ALG, BIN, CHN, CPL, FCH, FCT, INT, LST,
MCX, MIN, MRL, MTX, NOM, NON, PRC, REL, RPN, SCK,	MCX, MIN, MRL, MTX, NOM, NON, PRC, REC, REL, RPN, SCK,
SLB, SPH, SQL, TBL, VCX, VIN, VRL };	SLB, SPH, SQL, TBL, VCX, VIN, VRL };

/*	/*
Line 1057 enum t_type { ADR = 0, ALG, BIN, CHN, C	Line 1057 enum t_type { ADR = 0, ALG, BIN, CHN, C
Sans objet.	Sans objet.
Type C/Fortran : unsigned integer8	Type C/Fortran : unsigned integer8

CHN : chaine de caracteres (character(), unsigned char *)	CHN : chaine de caracteres (unsigned char *)
Sans objet.	Sans objet.

CPL : complexe sur 264 bits (complex16, struct_complexe16 *)	CPL : complexe sur 264 bits (complex16, struct_complexe16 *)
Line 1315 typedef struct connecteur_sql	Line 1315 typedef struct connecteur_sql
*/	*/

#ifndef RPLARGS	#ifndef RPLARGS

	# define d_BIND_TO_DEVICE 0
	# define d_BROADCAST 1
	# define d_DONT_ROUTE 2
	# define d_KEEP_ALIVE 3
	# define d_PRIORITY 4
	# define d_RECEIVE_BUFFER 5
	# define d_FORCE_RECEIVE_BUFFER 6
	# define d_SEND_BUFFER 7
	# define d_FORCE_SEND_BUFFER 8
	# define d_RECEIVING_TIMEOUT 9
	# define d_SENDING_TIMEOUT 10
	# define d_REUSE_ADDRESS 11

typedef struct socket	typedef struct socket
{	{
int domaine;	int domaine;
Line 1333 typedef struct socket	Line 1347 typedef struct socket
unsigned char protection;	unsigned char protection;
unsigned char type[19 + 1];	unsigned char type[19 + 1];

	integer8 options;
	int priorite;
	int buffer_reception;
	int buffer_emission;
	int timeout_emission;
	int timeout_reception;

struct_objet *format;	struct_objet *format;
} struct_socket;	} struct_socket;
#endif	#endif
Line 1706 typedef struct tableau	Line 1727 typedef struct tableau

typedef struct arbre	typedef struct arbre
{	{
struct_objet *objet;	struct_liste_chainee *feuille;

unsigned long nombre_feuilles;	integer8 nombre_branches;
struct arbre **feuilles;	struct arbre **branches;
} struct_arbre;	} struct_arbre;


Line 1890 typedef struct liste_variables_partagees	Line 1911 typedef struct liste_variables_partagees
} struct_liste_variables_partagees;	} struct_liste_variables_partagees;
#endif	#endif


	/*
	--------------------------------------------------------------------------------
	Structure fonction
	--------------------------------------------------------------------------------
	*/

	#ifndef RPLARGS
	typedef struct fonction
	{
	unsigned char *nom_fonction;
	integer8 nombre_arguments;

	void (fonction)(struct processus );

	volatile struct_liste_chainee *prediction_saut;
	volatile logical1 prediction_execution;
	} struct_fonction;
	#endif


	/*
	--------------------------------------------------------------------------------
	Structure buffer
	--------------------------------------------------------------------------------
	*/

	typedef struct buffer
	{
	unsigned char *buffer;

	size_t longueur_requise;
	int classe;
	} struct_buffer;


/*	/*
--------------------------------------------------------------------------------	--------------------------------------------------------------------------------
Structure processus	Structure processus
Line 2327 typedef struct processus	Line 2384 typedef struct processus
struct timeval horodatage_profilage;	struct timeval horodatage_profilage;

pthread_mutex_t mutex_allocation;	pthread_mutex_t mutex_allocation;
	pthread_mutex_t mutex_allocation_buffer;
pthread_mutex_t mutex_interruptions;	pthread_mutex_t mutex_interruptions;
pthread_mutex_t mutex_pile_processus;	pthread_mutex_t mutex_pile_processus;
pthread_mutex_t mutex_signaux;	pthread_mutex_t mutex_signaux;
Line 2361 typedef struct processus	Line 2419 typedef struct processus
integer8 taille_pile_objets;	integer8 taille_pile_objets;
struct_objet *pile_objets;	struct_objet *pile_objets;

# define TAILLE_CACHE 1024	# define TAILLE_CACHE 1024
	# define CACHE(type, nom) \
integer8 *objets_adr[TAILLE_CACHE];	type *objets_##nom[TAILLE_CACHE]; \
int pointeur_adr;	volatile int pointeur_##nom;

logical8 *objets_bin[TAILLE_CACHE];	# define CACHE2(type, nom) \
int pointeur_bin;	type *nom[TAILLE_CACHE]; \
	volatile int pointeur_##nom;
complex16 *objets_cpl[TAILLE_CACHE];
int pointeur_cpl;	CACHE(integer8, adr)
	CACHE(logical8, bin)
struct fonction *objets_fct[TAILLE_CACHE];	CACHE(complex16, cpl)
int pointeur_fct;	CACHE(struct_fonction, fct)
	CACHE(integer8, int)
integer8 *objets_int[TAILLE_CACHE];	CACHE(struct_matrice, mat)
int pointeur_int;	CACHE(struct_nom, nom)
	CACHE(real8, rel)
struct_matrice *objets_mat[TAILLE_CACHE];	CACHE(struct_tableau, tab)
int pointeur_mat;	CACHE(struct_vecteur, vec)

struct_nom *objets_nom[TAILLE_CACHE];	CACHE2(struct_liste_chainee, maillons)
int pointeur_nom;	CACHE2(struct_arbre_variables, variables_noeud)
	CACHE2(struct_arbre_variables_partagees, variables_partagees_noeud)
real8 *objets_rel[TAILLE_CACHE];	CACHE2(struct_liste_variables, variables_feuille)
int pointeur_rel;	CACHE2(struct_variable, variables_variable)
	CACHE2(struct_arbre_variables *, variables_tableau_noeuds)
struct_tableau *objets_tab[TAILLE_CACHE];	CACHE2(struct_arbre_variables_partagees *,
int pointeur_tab;	variables_tableau_noeuds_partages)

struct_vecteur *objets_vec[TAILLE_CACHE];	CACHE2(struct_buffer, enveloppes_buffers)
int pointeur_vec;	unsigned char ***cache_buffer;
	int *pointeur_cache_buffer;
struct_liste_chainee *maillons[TAILLE_CACHE];
int pointeur_maillons;

struct_arbre_variables *variables_noeud[TAILLE_CACHE];
int pointeur_variables_noeud;

struct_arbre_variables_partagees
*variables_partagees_noeud[TAILLE_CACHE];
int pointeur_variables_partagees_noeud;

struct_liste_variables *variables_feuille[TAILLE_CACHE];
int pointeur_variables_feuille;

struct_variable *variables_variable[TAILLE_CACHE];
int pointeur_variables_variable;

struct_arbre_variables **variables_tableau_noeuds[TAILLE_CACHE];
int pointeur_variables_tableau_noeuds;

struct_arbre_variables_partagees
**variables_tableau_noeuds_partages
[TAILLE_CACHE];
int pointeur_variables_tableau_noeuds_partages;
} struct_processus;	} struct_processus;
#endif	#endif


/*	/*
--------------------------------------------------------------------------------	================================================================================
Structure fonction	MISE EN PLACE DE L'ALLOCATEUR SPÉCIFIQUE
--------------------------------------------------------------------------------	================================================================================*/
*/

#ifndef RPLARGS	#ifndef DEBUG_MEMOIRE
typedef struct fonction	# define malloc(a) rpl_malloc(s_etat_processus, a)
{	# define realloc(a, b) rpl_realloc(s_etat_processus, a, b)
unsigned char *nom_fonction;	# define free(a) rpl_free(s_etat_processus, a)
integer8 nombre_arguments;	#endif

void (fonction)(struct_processus );	void rpl_malloc(struct_processus s_etat_processus, size_t s);
	void rpl_realloc(struct_processus s_etat_processus, void *ptr, size_t s);
	void rpl_free(struct_processus s_etat_processus, void ptr);
	void *sys_malloc(size_t s);
	void sys_free(void *ptr);

volatile struct_liste_chainee *prediction_saut;	/*
volatile logical1 prediction_execution;	* Wrapper de readline() pour que la fonction renvoie un pointeur sur un
} struct_fonction;	* buffer alloué par rpl_malloc().
#endif	*/

	#define readline(s) readline_wrapper(s_etat_processus, s)
	unsigned char readline_wrapper(struct_processus s_etat_processus,
	unsigned char *s);


/*	/*
Line 3010 void conversion_chaine(struct_processus	Line 3053 void conversion_chaine(struct_processus
unsigned char *chaine, unsigned char type);	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(struct_processus *s_etat_processus,
	unsigned char *element, unsigned char fonction);
void conversion_format(struct_processus *s_etat_processus,	void conversion_format(struct_processus *s_etat_processus,
unsigned char *chaine);	unsigned char *chaine);
void conversion_hms_vers_decimal(real8 *angle);	void conversion_hms_vers_decimal(real8 *angle);
void conversion_majuscule_limitee(unsigned char *chaine_entree,	void conversion_majuscule_limitee(
unsigned char *chaine_sortie, integer8 longueur);	unsigned char chaine_entree, unsigned char chaine_sortie,
	integer8 longueur);
void conversion_radians_vers_degres(real8 *angle);	void conversion_radians_vers_degres(real8 *angle);
void copie_arbre_variables(struct_processus *s_etat_processus,	void copie_arbre_variables(struct_processus *s_etat_processus,
struct_processus *s_nouvel_etat_processus);	struct_processus *s_nouvel_etat_processus);
Line 3206 real8 correlation_statistique(struct_mat	Line 3251 real8 correlation_statistique(struct_mat
real8 covariance_statistique(struct_matrice *s_matrice,	real8 covariance_statistique(struct_matrice *s_matrice,
integer8 colonne_1, integer8 colonne_2,	integer8 colonne_1, integer8 colonne_2,
unsigned char type, logical1 *erreur);	unsigned char type, logical1 *erreur);
struct_vecteur ecart_type_statistique(struct_matrice s_matrice,	struct_vecteur ecart_type_statistique(struct_processus s_etat_processus,
unsigned char type);	struct_matrice *s_matrice, unsigned char type);
struct_vecteur moyenne_statistique(struct_matrice s_matrice);	struct_vecteur moyenne_statistique(struct_processus s_etat_processus,
struct_vecteur sommation_colonne_statistique(struct_matrice s_matrice,	struct_matrice *s_matrice);
	struct_vecteur *sommation_colonne_statistique(
	struct_processus s_etat_processus, struct_matrice s_matrice,
integer8 colonne);	integer8 colonne);
struct_vecteur *sommation_produits_colonnes_statistiques(struct_matrice	struct_vecteur *sommation_produits_colonnes_statistiques(
	struct_processus *s_etat_processus, struct_matrice
*s_matrice, integer8 colonne_1, integer8 colonne_2);	*s_matrice, integer8 colonne_1, integer8 colonne_2);
struct_vecteur sommation_statistique(struct_matrice s_matrice);	struct_vecteur sommation_statistique(struct_processus s_etat_processus,
struct_vecteur variance_statistique(struct_matrice s_matrice,	struct_matrice *s_matrice);
unsigned char type);	struct_vecteur variance_statistique(struct_processus s_etat_processus,
	struct_matrice *s_matrice, unsigned char type);
#endif	#endif

/*	/*
Line 3251 unsigned char *analyse_algebrique(struct	Line 3300 unsigned char *analyse_algebrique(struct
unsigned char chaine_algebrique, struct_liste_chainee *l_base_liste);	unsigned char chaine_algebrique, struct_liste_chainee *l_base_liste);
unsigned char analyse_flux(struct_processus s_etat_processus,	unsigned char analyse_flux(struct_processus s_etat_processus,
unsigned char *flux, integer8 longueur);	unsigned char *flux, integer8 longueur);
unsigned char chiffrement(const EVP_CIPHER type_chiffrement,	unsigned char chiffrement(struct_processus s_etat_processus,
	const EVP_CIPHER *type_chiffrement,
logical1 encodage, unsigned char *message, integer8 longueur_message,	logical1 encodage, unsigned char *message, integer8 longueur_message,
unsigned char *clef, integer8 longueur_clef,	unsigned char *clef, integer8 longueur_clef,
unsigned char *vecteur_initialisation,	unsigned char *vecteur_initialisation,
integer8 *longueur_message_chiffre);	integer8 *longueur_message_chiffre);
unsigned char compactage(unsigned char chaine);	unsigned char compactage(struct_processus s_etat_processus,
unsigned char conversion_majuscule(unsigned char chaine);	unsigned char *chaine);
	unsigned char conversion_majuscule(struct_processus s_etat_processus,
	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 date_compilation(struct_processus s_etat_processus);
unsigned char extraction_chaine(unsigned char chaine, integer8 i, integer8 j);	unsigned char extraction_chaine(struct_processus s_etat_processus,
	unsigned char *chaine, integer8 i, integer8 j);
unsigned char formateur(struct_processus s_etat_processus, long offset,	unsigned char formateur(struct_processus s_etat_processus, long offset,
struct_objet *s_objet);	struct_objet *s_objet);
unsigned char formateur_fichier(struct_processus s_etat_processus,	unsigned char formateur_fichier(struct_processus s_etat_processus,
Line 3287 unsigned char *formateur_reel(struct_pro	Line 3340 unsigned char *formateur_reel(struct_pro
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 pointeur_ieme_caractere(struct_processus s_etat_processus,
unsigned char *chaine, integer8 position);	unsigned char *chaine, integer8 position);
unsigned char purification_chaine(unsigned char chaine);	unsigned char purification_chaine(struct_processus s_etat_processus,
	unsigned char *chaine);
unsigned char *recherche_chemin_fichiers_temporaires(struct_processus	unsigned char *recherche_chemin_fichiers_temporaires(struct_processus
*s_etat_processus);	*s_etat_processus);
unsigned char reencodage(struct_processus s_etat_processus,	unsigned char reencodage(struct_processus s_etat_processus,
Line 3401 ssize_t write_atomic(struct_processus *s	Line 3455 ssize_t write_atomic(struct_processus *s
--------------------------------------------------------------------------------	--------------------------------------------------------------------------------
*/	*/

int alsprintf(unsigned char *strp, const char fmt, ...);	int alsprintf(struct_processus *s_etat_processus,
	unsigned char *strp, const char fmt, ...);
	#ifndef RPLARGS
	int association_etat_processus_readline();
	#endif
int interruption_violation_access(void *adresse_fautive, int gravite);	int interruption_violation_access(void *adresse_fautive, int gravite);
#ifndef RPLARGS	#ifndef RPLARGS
	int initialisation_etat_processus_readline();
	int liberation_etat_processus_readline();
integer8 liste_variables(struct_processus *s_etat_processus,	integer8 liste_variables(struct_processus *s_etat_processus,
struct_tableau_variables *tableau);	struct_tableau_variables *tableau);
integer8 nombre_variables(struct_processus *s_etat_processus);	integer8 nombre_variables(struct_processus *s_etat_processus);
int readline_analyse_syntaxique(int count, int key);	int readline_analyse_syntaxique(int count, int key);
int readline_effacement(int count, int key);	int readline_effacement(int count, int key);
#endif	#endif
	int std_fprintf(file flux, const char format, ...);
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,
const char *format, ...);	const char *format, ...);
int valsprintf(unsigned char *strp, const char fmt, va_list ap);	int valsprintf(struct_processus *s_etat_processus,
	unsigned char *strp, const char fmt, va_list ap);
int wrapper_instruction_intrinseque(void (*fonction)(),	int wrapper_instruction_intrinseque(void (*fonction)(),
struct_rpl_arguments *rpl_arguments);	struct_rpl_arguments *rpl_arguments);

Line 3465 struct_liste_chainee *analyse_rpn(struct	Line 3527 struct_liste_chainee *analyse_rpn(struct

/*	/*
--------------------------------------------------------------------------------	--------------------------------------------------------------------------------
	Allocateur de buffers à cache
	--------------------------------------------------------------------------------
	*/

	void initialisation_allocateur_buffer(struct_processus *s_etat_processus);
	void liberation_allocateur_buffer(struct_processus *s_etat_pocessus);
	struct_buffer allocation_buffer(struct_processus s_etat_processus,
	size_t longueur);
	void liberation_buffer(struct_processus *s_etat_processus,
	struct_buffer *buffer);

	/*
	--------------------------------------------------------------------------------
Fonctions renvoyant une copie de la structure de description des processus	Fonctions renvoyant une copie de la structure de description des processus
--------------------------------------------------------------------------------	--------------------------------------------------------------------------------
*/	*/
Line 3526 struct_liste_variables_partagees *recher	Line 3601 struct_liste_variables_partagees *recher
#endif	#endif

/*	/*
--------------------------------------------------------------------------------
Fonctions gérant les arbres de simplification
--------------------------------------------------------------------------------
*/

#ifndef RPLARGS
struct_arbre creation_arbre(struct_processus s_etat_processus,
struct_objet **t_objets, integer8 indice, integer8 indice_maximal);
void liberation_arbre(struct_processus *s_etat_processus,
struct_arbre *s_noeud);
void parcours_arbre(struct_processus s_etat_processus, struct_arbre s_noeud);
void simplification_arbre(struct_processus *s_etat_processus,
struct_arbre *s_noeud);
#endif

/*
--------------------------------------------------------------------------------	--------------------------------------------------------------------------------
Fonctions gérant la complétion automatique	Fonctions gérant la complétion automatique
--------------------------------------------------------------------------------	--------------------------------------------------------------------------------

CVSweb interface <joel.bertrand@systella.fr>

Removed from v.1.251
changed lines
	Added in v.1.277