-/* $Id$ */
-
/* datadesc: test of data description (using file transport). */
-/* Copyright (c) 2004-2007 Martin Quinson. All rights reserved. */
+/* Copyright (c) 2007, 2009, 2010. The SimGrid Team.
+ * All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
#endif
#include <stdio.h>
+#include "xbt/datadesc.h"
+#include "xbt/datadesc/datadesc_interface.h"
#include "gras.h"
-
-#include "gras/DataDesc/datadesc_interface.h"
XBT_LOG_NEW_DEFAULT_CATEGORY(test, "Logging specific to this test");
#define READ 0
void
write_read(const char *msgtype, void *src, void *dst,
- gras_socket_t sock, int direction);
+ xbt_socket_t sock, int direction);
void
write_read(const char *msgtype, void *src, void *dst,
- gras_socket_t sock, int direction)
+ xbt_socket_t sock, int direction)
{
switch (direction) {
break;
case COPY:
- gras_datadesc_memcpy(gras_datadesc_by_name(msgtype), src, dst);
+ xbt_datadesc_memcpy(xbt_datadesc_by_name(msgtype), src, dst);
break;
}
}
/* defined in datadesc_structures.c, which in perl generated */
void register_structures(void);
-void test_structures(gras_socket_t sock, int direction);
+void test_structures(xbt_socket_t sock, int direction);
/************************
* Each and every tests *
************************/
-static void test_int(gras_socket_t sock, int direction)
+static void test_int(xbt_socket_t sock, int direction)
{
int i = 5, j;
- INFO0("---- Test on integer ----");
+ XBT_INFO("---- Test on integer ----");
write_read("int", &i, &j, sock, direction);
if (direction == READ || direction == COPY)
xbt_assert(i == j);
}
-static void test_float(gras_socket_t sock, int direction)
+static void test_float(xbt_socket_t sock, int direction)
{
float i = 5.0, j;
- INFO0("---- Test on float ----");
+ XBT_INFO("---- Test on float ----");
write_read("float", &i, &j, sock, direction);
if (direction == READ || direction == COPY)
- xbt_assert2(i == j, "%f != %f", i, j);
+ xbt_assert(i == j, "%f != %f", i, j);
}
-static void test_double(gras_socket_t sock, int direction)
+static void test_double(xbt_socket_t sock, int direction)
{
double i = -3252355.1234, j;
- INFO0("---- Test on double ----");
+ XBT_INFO("---- Test on double ----");
write_read("double", &i, &j, sock, direction);
if (direction == READ || direction == COPY)
- xbt_assert2(i == j, "%f != %f", i, j);
+ xbt_assert(i == j, "%f != %f", i, j);
}
#define FIXED_ARRAY_SIZE 5
typedef int array[FIXED_ARRAY_SIZE];
-static void test_array(gras_socket_t sock, int direction)
+static void test_array(xbt_socket_t sock, int direction)
{
array i = { 35212, -6226, 74337, 11414, 7733 };
array j;
int cpt;
- INFO0("---- Test on fixed array ----");
+ XBT_INFO("---- Test on fixed array ----");
write_read("fixed int array", &i, &j, sock, direction);
if (direction == READ || direction == COPY) {
for (cpt = 0; cpt < FIXED_ARRAY_SIZE; cpt++) {
- DEBUG1("Test spot %d", cpt);
- xbt_assert4(i[cpt] == j[cpt], "i[%d]=%d != j[%d]=%d",
+ XBT_DEBUG("Test spot %d", cpt);
+ xbt_assert(i[cpt] == j[cpt], "i[%d]=%d != j[%d]=%d",
cpt, i[cpt], cpt, j[cpt]);
}
}
/*** Dynar of scalar ***/
-static void test_dynar_scal(gras_socket_t sock, int direction)
+static void test_dynar_scal(xbt_socket_t sock, int direction)
{
xbt_dynar_t i, j;
int cpt;
- INFO0("---- Test on dynar containing integers ----");
+ XBT_INFO("---- Test on dynar containing integers ----");
i = xbt_dynar_new(sizeof(int), NULL);
for (cpt = 0; cpt < 64; cpt++) {
xbt_dynar_push_as(i, int, cpt);
- DEBUG2("Push %d, length=%lu", cpt, xbt_dynar_length(i));
+ XBT_DEBUG("Push %d, length=%lu", cpt, xbt_dynar_length(i));
}
/* xbt_dynar_dump(i); */
write_read("xbt_dynar_of_int", &i, &j, sock, direction);
for (cpt = 0; cpt < 64; cpt++) {
int ret = xbt_dynar_get_as(j, cpt, int);
if (cpt != ret) {
- CRITICAL3
- ("The retrieved value for cpt=%d is not the same than the injected one (%d!=%d)",
- cpt, ret, cpt);
+ XBT_CRITICAL
+ ("The retrieved value for cpt=%d is not the same than the injected one (%d!=%d)",
+ cpt, ret, cpt);
xbt_abort();
}
}
/*** Empty dynar ***/
-static void test_dynar_empty(gras_socket_t sock, int direction)
+static void test_dynar_empty(xbt_socket_t sock, int direction)
{
xbt_dynar_t i, j;
- INFO0("---- Test on empty dynar of integers ----");
+ XBT_INFO("---- Test on empty dynar of integers ----");
i = xbt_dynar_new(sizeof(int), NULL);
write_read("xbt_dynar_of_int", &i, &j, sock, direction);
/* xbt_dynar_dump(j); */
if (direction == READ || direction == COPY) {
- xbt_assert(xbt_dynar_length(j) == 0);
+ xbt_assert(xbt_dynar_is_empty(j));
xbt_dynar_free(&j);
}
xbt_dynar_free(&i);
}
-static void test_intref(gras_socket_t sock, int direction)
+static void test_intref(xbt_socket_t sock, int direction)
{
int *i, *j;
i = xbt_new(int, 1);
*i = 12345;
- INFO0("---- Test on a reference to an integer ----");
+ XBT_INFO("---- Test on a reference to an integer ----");
write_read("int*", &i, &j, sock, direction);
if (direction == READ || direction == COPY) {
- xbt_assert2(*i == *j, "*i != *j (%d != %d)", *i, *j);
+ xbt_assert(*i == *j, "*i != *j (%d != %d)", *i, *j);
free(j);
}
free(i);
/***
*** string (dynamic array)
***/
-static void test_string(gras_socket_t sock, int direction)
+static void test_string(xbt_socket_t sock, int direction)
{
char *i = xbt_strdup("Some data"), *j = NULL;
int cpt;
- INFO0("---- Test on string (ref to dynamic array) ----");
+ XBT_INFO("---- Test on string (ref to dynamic array) ----");
write_read("string", &i, &j, sock, direction);
if (direction == READ || direction == COPY) {
for (cpt = 0; cpt < strlen(i); cpt++) {
- xbt_assert4(i[cpt] == j[cpt], "i[%d]=%c != j[%d]=%c",
+ xbt_assert(i[cpt] == j[cpt], "i[%d]=%c != j[%d]=%c",
cpt, i[cpt], cpt, j[cpt]);
}
free(j);
typedef struct {
int a, b, c, d;
} homostruct;
-static void test_homostruct(gras_socket_t sock, int direction)
+static void test_homostruct(xbt_socket_t sock, int direction)
{
homostruct *i, *j;
- INFO0("---- Test on homogeneous structure ----");
+ XBT_INFO("---- Test on homogeneous structure ----");
/* init a value, exchange it and check its validity */
i = xbt_new(homostruct, 1);
i->a = 2235;
write_read("homostruct*", &i, &j, sock, direction);
if (direction == READ || direction == COPY) {
- xbt_assert2(i->a == j->a, "i->a=%d != j->a=%d", i->a, j->a);
+ xbt_assert(i->a == j->a, "i->a=%d != j->a=%d", i->a, j->a);
xbt_assert(i->b == j->b);
xbt_assert(i->c == j->c);
xbt_assert(i->d == j->d);
unsigned char c2;
unsigned long int l2;
} hetestruct;
-static void test_hetestruct(gras_socket_t sock, int direction)
+static void test_hetestruct(xbt_socket_t sock, int direction)
{
hetestruct *i, *j;
- INFO0("---- Test on heterogeneous structure ----");
+ XBT_INFO("---- Test on heterogeneous structure ----");
/* init a value, exchange it and check its validity */
i = xbt_new(hetestruct, 1);
i->c1 = 's';
if (direction == READ || direction == COPY) {
xbt_assert(i->c1 == j->c1);
xbt_assert(i->c2 == j->c2);
- xbt_assert2(i->l1 == j->l1, "i->l1(=%ld) != j->l1(=%ld)", i->l1, j->l1);
+ xbt_assert(i->l1 == j->l1, "i->l1(=%lu) != j->l1(=%lu)", i->l1,
+ j->l1);
xbt_assert(i->l2 == j->l2);
free(j);
}
free(i);
}
-static void test_hetestruct_array(gras_socket_t sock, int direction)
+static void test_hetestruct_array(xbt_socket_t sock, int direction)
{
hetestruct *i, *j, *p, *q;
int cpt;
- INFO0("---- Test on heterogeneous structure arrays ----");
+ XBT_INFO("---- Test on heterogeneous structure arrays ----");
/* init a value, exchange it and check its validity */
i = xbt_malloc(sizeof(hetestruct) * 10);
for (cpt = 0, p = i; cpt < 10; cpt++, p++) {
for (cpt = 0, p = i, q = j; cpt < 10; cpt++, p++, q++) {
xbt_assert(p->c1 == q->c1);
xbt_assert(p->c2 == q->c2);
- xbt_assert3(p->l1 == p->l1,
- "for cpt=%d i->l1(=%ld) != j->l1(=%ld)", cpt, p->l1,
+ xbt_assert(p->l1 == p->l1,
+ "for cpt=%d i->l1(=%lu) != j->l1(=%lu)", cpt, p->l1,
q->l1);
xbt_assert(q->l2 == p->l2);
}
hetestruct hete;
homostruct homo;
} nestedstruct;
-static void test_nestedstruct(gras_socket_t sock, int direction)
+static void test_nestedstruct(xbt_socket_t sock, int direction)
{
nestedstruct *i, *j;
- INFO0("---- Test on nested structures ----");
+ XBT_INFO("---- Test on nested structures ----");
/* init a value, exchange it and check its validity */
i = xbt_new(nestedstruct, 1);
i->homo.a = 235231;
return list_eq(i->l, j->l);
}
-static void test_chain_list(gras_socket_t sock, int direction)
+static void test_chain_list(xbt_socket_t sock, int direction)
{
chained_list_t *i, *j;
- INFO0("---- Test on chained list ----");
+ XBT_INFO("---- Test on chained list ----");
/* init a value, exchange it and check its validity */
i = cons(12355, cons(246264, cons(23263, NULL)));
/***
*** graph
***/
-static void test_graph(gras_socket_t sock, int direction)
+static void test_graph(xbt_socket_t sock, int direction)
{
chained_list_t *i, *j;
- INFO0("---- Test on graph (cyclique chained list of 3 items) ----");
+ XBT_INFO("---- Test on graph (cyclique chained list of 3 items) ----");
/* init a value, exchange it and check its validity */
i = cons(1151515, cons(-232362, cons(222552, NULL)));
i->l->l->l = i;
write_read("chained_list_t*", &i, &j, sock, direction);
if (direction == READ || direction == COPY) {
- DEBUG1("i=%p", i);
- DEBUG1("i->l=%p", i->l);
- DEBUG1("i->l->l=%p", i->l->l);
- DEBUG1("i->l->l->l=%p", i->l->l->l);
- DEBUG1("j=%p", j);
- DEBUG1("j->l=%p", j->l);
- DEBUG1("j->l->l=%p", j->l->l);
- DEBUG1("j->l->l->l=%p", j->l->l->l);
- xbt_assert4(j->l->l->l == j,
+ XBT_DEBUG("i=%p", i);
+ XBT_DEBUG("i->l=%p", i->l);
+ XBT_DEBUG("i->l->l=%p", i->l->l);
+ XBT_DEBUG("i->l->l->l=%p", i->l->l->l);
+ XBT_DEBUG("j=%p", j);
+ XBT_DEBUG("j->l=%p", j->l);
+ XBT_DEBUG("j->l->l=%p", j->l->l);
+ XBT_DEBUG("j->l->l->l=%p", j->l->l->l);
+ xbt_assert(j->l->l->l == j,
"Received list is not cyclic. j=%p != j->l->l->l=%p\n"
"j=%p; &j=%p", j, j->l->l->l, j, &j);
j->l->l->l = NULL;
free(*(void **) d);
}
-static void test_dynar_ref(gras_socket_t sock, int direction)
+static void test_dynar_ref(xbt_socket_t sock, int direction)
{
xbt_dynar_t i, j;
char buf[1024];
char *s1, *s2;
int cpt;
- INFO0("---- Test on dynar containing integers ----");
+ XBT_INFO("---- Test on dynar containing integers ----");
i = xbt_dynar_new(sizeof(char *), &free_string);
for (cpt = 0; cpt < 64; cpt++) {
for (cpt = 0; cpt < 64; cpt++) {
sprintf(buf, "%d", cpt);
xbt_dynar_shift(j, &s2);
- xbt_assert2(!strcmp(buf, s2),
+ xbt_assert(!strcmp(buf, s2),
"The retrieved value is not the same than the injected one (%s!=%s)",
buf, s2);
free(s2);
/**** PBIO *****/
-GRAS_DEFINE_TYPE(s_pbio, struct s_pbio { /* structure presented in the IEEE article */
- int Cnstatv;
- double Cstatev[12];
- int Cnprops;
- double Cprops[110];
- int Cndi[4];
- int Cnshr;
- int Cnpt;
- double Cdtime;
- double Ctime[2];
- int Cntens;
- double Cdfgrd0[373][3];
- double Cdfgrd1[3][3]; double Cstress[106];
- double Cddsdde[106][106];
- };
-
- )
- typedef struct s_pbio pbio_t;
-
- static void test_pbio(gras_socket_t sock, int direction)
+XBT_DEFINE_TYPE(s_pbio, struct s_pbio { /* structure presented in the IEEE article */
+ int Cnstatv;
+ double Cstatev[12]; int Cnprops; double Cprops[110];
+ int Cndi[4];
+ int Cnshr;
+ int Cnpt; double Cdtime; double Ctime[2]; int Cntens;
+ double Cdfgrd0[373][3];
+ double Cdfgrd1[3][3]; double Cstress[106];
+ double Cddsdde[106][106];
+ };
+
+ )
+
+typedef struct s_pbio pbio_t;
+
+static void test_pbio(xbt_socket_t sock, int direction)
{
int cpt;
int cpt2;
- gras_datadesc_type_t pbio_type;
pbio_t i, j;
- INFO0
- ("---- Test on the PBIO IEEE struct (also tests GRAS DEFINE TYPE) ----");
- pbio_type = gras_datadesc_by_symbol(s_pbio);
+ XBT_INFO
+ ("---- Test on the PBIO IEEE struct (also tests GRAS DEFINE TYPE) ----");
+ xbt_datadesc_by_symbol(s_pbio);
/* Fill in that damn struct */
i.Cnstatv = 325115;
/* Check that the data match */
xbt_assert(i.Cnstatv == j.Cnstatv);
for (cpt = 0; cpt < 12; cpt++)
- xbt_assert4(i.Cstatev[cpt] == j.Cstatev[cpt],
+ xbt_assert(i.Cstatev[cpt] == j.Cstatev[cpt],
"i.Cstatev[%d] (=%f) != j.Cstatev[%d] (=%f)",
cpt, i.Cstatev[cpt], cpt, j.Cstatev[cpt]);
xbt_assert(i.Cnprops == j.Cnprops);
for (cpt = 0; cpt < 106; cpt++) {
xbt_assert(i.Cstress[cpt] == j.Cstress[cpt]);
for (cpt2 = 0; cpt2 < 106; cpt2++)
- xbt_assert4(i.Cddsdde[cpt][cpt2] == j.Cddsdde[cpt][cpt2],
+ xbt_assert(i.Cddsdde[cpt][cpt2] == j.Cddsdde[cpt][cpt2],
"%f=i.Cddsdde[%d][%d] != j.Cddsdde[cpt][cpt2]=%f",
i.Cddsdde[cpt][cpt2], cpt, cpt2, j.Cddsdde[cpt][cpt2]);
}
}
}
-GRAS_DEFINE_TYPE(s_clause, struct s_clause {
- int num_lits;
- int *literals GRAS_ANNOTE(size, num_lits); /* Tells GRAS where to find the size */
- };)
+XBT_DEFINE_TYPE(s_clause, struct s_clause {
+ int num_lits;
+ int *literals XBT_ANNOTE(size, num_lits); /* Tells GRAS where to find the size */
+ };)
- typedef struct s_clause Clause;
+typedef struct s_clause Clause;
- static void test_clause(gras_socket_t sock, int direction)
+static void test_clause(xbt_socket_t sock, int direction)
{
Clause *i, *j;
int cpt;
- INFO0
- ("---- Test on struct containing dynamic array and its size (cbps test) ----");
+ XBT_INFO
+ ("---- Test on struct containing dynamic array and its size (cbps test) ----");
/* create and fill the struct */
i = xbt_new(Clause, 1);
i->literals = xbt_new(int, i->num_lits);
for (cpt = 0; cpt < i->num_lits; cpt++)
i->literals[cpt] = cpt * cpt - ((cpt * cpt) / 2);
- DEBUG3("created data=%p (within %p @%p)", &(i->num_lits), i, &i);
- DEBUG1("created count=%d", i->num_lits);
+ XBT_DEBUG("created data=%p (within %p @%p)", &(i->num_lits), i, &i);
+ XBT_DEBUG("created count=%d", i->num_lits);
write_read("Clause*", &i, &j, sock, direction);
if (direction == READ || direction == COPY) {
free(i);
}
-static void test_clause_empty(gras_socket_t sock, int direction)
+static void test_clause_empty(xbt_socket_t sock, int direction)
{
Clause *i, *j;
- INFO0
- ("---- Test on struct containing dynamic array and its size when size=0 (cbps test) ----");
+ XBT_INFO
+ ("---- Test on struct containing dynamic array and its size when size=0 (cbps test) ----");
/* create and fill the struct */
i = xbt_new(Clause, 1);
i->num_lits = 0;
i->literals = NULL;
- DEBUG3("created data=%p (within %p @%p)", &(i->num_lits), i, &i);
- DEBUG1("created count=%d", i->num_lits);
+ XBT_DEBUG("created data=%p (within %p @%p)", &(i->num_lits), i, &i);
+ XBT_DEBUG("created count=%d", i->num_lits);
write_read("Clause*", &i, &j, sock, direction);
if (direction == READ || direction == COPY) {
static void register_types(void)
{
- gras_datadesc_type_t my_type, ref_my_type;
+ xbt_datadesc_type_t my_type, ref_my_type;
- gras_msgtype_declare("char", gras_datadesc_by_name("char"));
- gras_msgtype_declare("int", gras_datadesc_by_name("int"));
- gras_msgtype_declare("float", gras_datadesc_by_name("float"));
- gras_msgtype_declare("double", gras_datadesc_by_name("double"));
+ gras_msgtype_declare("char", xbt_datadesc_by_name("char"));
+ gras_msgtype_declare("int", xbt_datadesc_by_name("int"));
+ gras_msgtype_declare("float", xbt_datadesc_by_name("float"));
+ gras_msgtype_declare("double", xbt_datadesc_by_name("double"));
- my_type = gras_datadesc_array_fixed("fixed int array",
- gras_datadesc_by_name("int"),
+ my_type = xbt_datadesc_array_fixed("fixed int array",
+ xbt_datadesc_by_name("int"),
FIXED_ARRAY_SIZE);
gras_msgtype_declare("fixed int array", my_type);
- my_type = gras_datadesc_dynar(gras_datadesc_by_name("int"), NULL);
+ my_type = xbt_datadesc_dynar(xbt_datadesc_by_name("int"), NULL);
gras_msgtype_declare("xbt_dynar_of_int", my_type);
- my_type = gras_datadesc_ref("int*", gras_datadesc_by_name("int"));
+ my_type = xbt_datadesc_ref("int*", xbt_datadesc_by_name("int"));
gras_msgtype_declare("int*", my_type);
- gras_msgtype_declare("string", gras_datadesc_by_name("string"));
+ gras_msgtype_declare("string", xbt_datadesc_by_name("string"));
- my_type = gras_datadesc_struct("homostruct");
- gras_datadesc_struct_append(my_type, "a",
- gras_datadesc_by_name("signed int"));
- gras_datadesc_struct_append(my_type, "b", gras_datadesc_by_name("int"));
- gras_datadesc_struct_append(my_type, "c", gras_datadesc_by_name("int"));
- gras_datadesc_struct_append(my_type, "d", gras_datadesc_by_name("int"));
- gras_datadesc_struct_close(my_type);
+ my_type = xbt_datadesc_struct("homostruct");
+ xbt_datadesc_struct_append(my_type, "a",
+ xbt_datadesc_by_name("signed int"));
+ xbt_datadesc_struct_append(my_type, "b", xbt_datadesc_by_name("int"));
+ xbt_datadesc_struct_append(my_type, "c", xbt_datadesc_by_name("int"));
+ xbt_datadesc_struct_append(my_type, "d", xbt_datadesc_by_name("int"));
+ xbt_datadesc_struct_close(my_type);
my_type =
- gras_datadesc_ref("homostruct*", gras_datadesc_by_name("homostruct"));
+ xbt_datadesc_ref("homostruct*",
+ xbt_datadesc_by_name("homostruct"));
gras_msgtype_declare("homostruct*", my_type);
- my_type = gras_datadesc_struct("hetestruct");
- gras_datadesc_struct_append(my_type, "c1",
- gras_datadesc_by_name("unsigned char"));
- gras_datadesc_struct_append(my_type, "l1",
- gras_datadesc_by_name("unsigned long int"));
- gras_datadesc_struct_append(my_type, "c2",
- gras_datadesc_by_name("unsigned char"));
- gras_datadesc_struct_append(my_type, "l2",
- gras_datadesc_by_name("unsigned long int"));
- gras_datadesc_struct_close(my_type);
+ my_type = xbt_datadesc_struct("hetestruct");
+ xbt_datadesc_struct_append(my_type, "c1",
+ xbt_datadesc_by_name("unsigned char"));
+ xbt_datadesc_struct_append(my_type, "l1",
+ xbt_datadesc_by_name("unsigned long int"));
+ xbt_datadesc_struct_append(my_type, "c2",
+ xbt_datadesc_by_name("unsigned char"));
+ xbt_datadesc_struct_append(my_type, "l2",
+ xbt_datadesc_by_name("unsigned long int"));
+ xbt_datadesc_struct_close(my_type);
my_type =
- gras_datadesc_ref("hetestruct*", gras_datadesc_by_name("hetestruct"));
+ xbt_datadesc_ref("hetestruct*",
+ xbt_datadesc_by_name("hetestruct"));
gras_msgtype_declare("hetestruct*", my_type);
my_type =
- gras_datadesc_array_fixed("hetestruct[10]",
- gras_datadesc_by_name("hetestruct"), 10);
- my_type = gras_datadesc_ref("hetestruct[10]*", my_type);
+ xbt_datadesc_array_fixed("hetestruct[10]",
+ xbt_datadesc_by_name("hetestruct"), 10);
+ my_type = xbt_datadesc_ref("hetestruct[10]*", my_type);
gras_msgtype_declare("hetestruct[10]*", my_type);
- my_type = gras_datadesc_struct("nestedstruct");
- gras_datadesc_struct_append(my_type, "hete",
- gras_datadesc_by_name("hetestruct"));
- gras_datadesc_struct_append(my_type, "homo",
- gras_datadesc_by_name("homostruct"));
- gras_datadesc_struct_close(my_type);
+ my_type = xbt_datadesc_struct("nestedstruct");
+ xbt_datadesc_struct_append(my_type, "hete",
+ xbt_datadesc_by_name("hetestruct"));
+ xbt_datadesc_struct_append(my_type, "homo",
+ xbt_datadesc_by_name("homostruct"));
+ xbt_datadesc_struct_close(my_type);
my_type =
- gras_datadesc_ref("nestedstruct*", gras_datadesc_by_name("nestedstruct"));
+ xbt_datadesc_ref("nestedstruct*",
+ xbt_datadesc_by_name("nestedstruct"));
gras_msgtype_declare("nestedstruct*", my_type);
- my_type = gras_datadesc_struct("chained_list_t");
- ref_my_type = gras_datadesc_ref("chained_list_t*", my_type);
- gras_datadesc_struct_append(my_type, "v", gras_datadesc_by_name("int"));
- gras_datadesc_struct_append(my_type, "l", ref_my_type);
- gras_datadesc_struct_close(my_type);
- gras_datadesc_cycle_set(gras_datadesc_by_name("chained_list_t*"));
+ my_type = xbt_datadesc_struct("chained_list_t");
+ ref_my_type = xbt_datadesc_ref("chained_list_t*", my_type);
+ xbt_datadesc_struct_append(my_type, "v", xbt_datadesc_by_name("int"));
+ xbt_datadesc_struct_append(my_type, "l", ref_my_type);
+ xbt_datadesc_struct_close(my_type);
+ xbt_datadesc_cycle_set(xbt_datadesc_by_name("chained_list_t*"));
gras_msgtype_declare("chained_list_t", my_type);
gras_msgtype_declare("chained_list_t*", ref_my_type);
my_type =
- gras_datadesc_dynar(gras_datadesc_by_name("string"), &free_string);
+ xbt_datadesc_dynar(xbt_datadesc_by_name("string"), &free_string);
gras_msgtype_declare("xbt_dynar_of_string", my_type);
- my_type = gras_datadesc_by_symbol(s_pbio);
+ my_type = xbt_datadesc_by_symbol(s_pbio);
gras_msgtype_declare("s_pbio", my_type);
- my_type = gras_datadesc_by_symbol(s_clause);
- my_type = gras_datadesc_ref("Clause*", my_type);
+ my_type = xbt_datadesc_by_symbol(s_clause);
+ my_type = xbt_datadesc_ref("Clause*", my_type);
gras_msgtype_declare("Clause*", my_type);
}
int main(int argc, char *argv[])
{
- gras_socket_t sock = NULL;
+ xbt_socket_t sock = NULL;
int direction = WRITE;
int cpt;
char local_arch, remote_arch;
for (cpt = 1; cpt < argc; cpt++) {
if (!strcmp(argv[cpt], "--arch")) {
- INFO2("We are on %s (#%d)",
- gras_datadesc_arch_name(gras_arch_selfid()),
- (int) gras_arch_selfid());
+ XBT_INFO("We are on %s (#%d)",
+ xbt_datadesc_arch_name(xbt_arch_selfid()),
+ (int) xbt_arch_selfid());
exit(0);
} else if (!strcmp(argv[cpt], "--help")) {
printf("Usage: datadesc_usage [option] [filename]\n");
printf(" --write file: writes the description to the given file\n");
printf(" --copy: copy the description in memory\n");
printf
- (" --regen: write the description to the file of the current architecture\n");
+ (" --regen: write the description to the file of the current architecture\n");
printf(" --help: displays this message\n");
exit(0);
} else if (!strcmp(argv[cpt], "--regen")) {
direction = WRITE;
filename =
- bprintf("datadesc.%s", gras_datadesc_arch_name(gras_arch_selfid()));
+ bprintf("datadesc.%s",
+ xbt_datadesc_arch_name(xbt_arch_selfid()));
} else if (!strcmp(argv[cpt], "--read")) {
direction = READ;
} else if (!strcmp(argv[cpt], "--write")) {
}
if (direction == WRITE) {
- INFO1("Write to file %s", filename);
+ XBT_INFO("Write to file %s",
+ strrchr(filename, '/') ? strrchr(filename, '/') + 1 : filename);
sock = gras_socket_client_from_file(filename);
}
if (direction == READ) {
- INFO1("Read from file %s", filename);
+ XBT_INFO("Read from file %s",
+ strrchr(filename, '/') ? strrchr(filename, '/') + 1 : filename);
sock = gras_socket_server_from_file(filename);
}
if (direction == COPY) {
- INFO0("Memory copy");
+ XBT_INFO("Memory copy");
}
- local_arch = gras_arch_selfid();
+ local_arch = xbt_arch_selfid();
write_read("char", &local_arch, &remote_arch, sock, direction);
if (direction == READ)
- VERB2("This file was generated on %s (%d)",
- gras_datadesc_arch_name(remote_arch), (int) remote_arch);
+ XBT_VERB("This file was generated on %s (%d)",
+ xbt_datadesc_arch_name(remote_arch), (int) remote_arch);
test_int(sock, direction);