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38c0a36)
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/simgrid/simgrid/trunk@329
48e7efb5-ca39-0410-a469-
dd3cf9ba447f
field->name = strdup(name);
DEBUG0("----------------");
field->name = strdup(name);
DEBUG0("----------------");
- DEBUG4("PRE s={size=%d,align=%d,asize=%d} struct_boundary=%d",
+ DEBUG4("PRE s={size=%ld,align=%ld,asize=%ld} struct_boundary=%d",
struct_type->size[GRAS_THISARCH],
struct_type->alignment[GRAS_THISARCH],
struct_type->aligned_size[GRAS_THISARCH],
struct_type->size[GRAS_THISARCH],
struct_type->alignment[GRAS_THISARCH],
struct_type->aligned_size[GRAS_THISARCH],
TRY(gras_dynar_push(struct_type->category.struct_data.fields, &field));
TRY(gras_dynar_push(struct_type->category.struct_data.fields, &field));
- DEBUG3("Push a %s into %s at offset %d.",
+ DEBUG3("Push a %s into %s at offset %ld.",
field_type->name, struct_type->name,field->offset[GRAS_THISARCH]);
field_type->name, struct_type->name,field->offset[GRAS_THISARCH]);
- DEBUG3(" f={size=%d,align=%d,asize=%d}",
+ DEBUG3(" f={size=%ld,align=%ld,asize=%ld}",
field_type->size[GRAS_THISARCH],
field_type->alignment[GRAS_THISARCH],
field_type->aligned_size[GRAS_THISARCH]);
field_type->size[GRAS_THISARCH],
field_type->alignment[GRAS_THISARCH],
field_type->aligned_size[GRAS_THISARCH]);
- DEBUG3(" s={size=%d,align=%d,asize=%d}",
+ DEBUG3(" s={size=%ld,align=%ld,asize=%ld}",
struct_type->size[GRAS_THISARCH],
struct_type->alignment[GRAS_THISARCH],
struct_type->aligned_size[GRAS_THISARCH]);
struct_type->size[GRAS_THISARCH],
struct_type->alignment[GRAS_THISARCH],
struct_type->aligned_size[GRAS_THISARCH]);
char *l_data = NULL;
gras_error_t errcode;
char *l_data = NULL;
gras_error_t errcode;
- gras_assert1(size>0,"Cannot allocate %d bytes!", size);
+ gras_assert1(size>0,"Cannot allocate %ld bytes!", size);
if (! (l_data = malloc((size_t)size)) )
RAISE_MALLOC;
*l_ref = l_data;
DEBUG2("l_data=%p, &l_data=%p",l_data,&l_data);
if (! (l_data = malloc((size_t)size)) )
RAISE_MALLOC;
*l_ref = l_data;
DEBUG2("l_data=%p, &l_data=%p",l_data,&l_data);
- DEBUG3("alloc_ref: r_ref=%p; *r_ref=%p, r_len=%d",
+ DEBUG3("alloc_ref: r_ref=%p; *r_ref=%p, r_len=%ld",
r_ref, r_ref?*r_ref:NULL, r_len);
if (r_ref && !gras_dd_is_r_null( r_ref, r_len)) {
void *ptr = malloc(sizeof(void *));
r_ref, r_ref?*r_ref:NULL, r_len);
if (r_ref && !gras_dd_is_r_null( r_ref, r_len)) {
void *ptr = malloc(sizeof(void *));
for (cpt=0; cpt<gras_arch_count; cpt++) {
if (d1->size[cpt] != d2->size[cpt]) {
for (cpt=0; cpt<gras_arch_count; cpt++) {
if (d1->size[cpt] != d2->size[cpt]) {
- DEBUG5("ddt_cmp: %s->size=%d != %s->size=%d (on %s)",
+ DEBUG5("ddt_cmp: %s->size=%ld != %s->size=%ld (on %s)",
d1->name,d1->size[cpt],d2->name,d2->size[cpt],
gras_arches[cpt].name);
return d1->size[cpt] > d2->size[cpt] ? 1 : -1;
}
if (d1->alignment[cpt] != d2->alignment[cpt]) {
d1->name,d1->size[cpt],d2->name,d2->size[cpt],
gras_arches[cpt].name);
return d1->size[cpt] > d2->size[cpt] ? 1 : -1;
}
if (d1->alignment[cpt] != d2->alignment[cpt]) {
- DEBUG5("ddt_cmp: %s->alignment=%d != %s->alignment=%d (on %s)",
+ DEBUG5("ddt_cmp: %s->alignment=%ld != %s->alignment=%ld (on %s)",
d1->name,d1->alignment[cpt],d2->name,d2->alignment[cpt],
gras_arches[cpt].name);
return d1->alignment[cpt] > d2->alignment[cpt] ? 1 : -1;
}
if (d1->aligned_size[cpt] != d2->aligned_size[cpt]) {
d1->name,d1->alignment[cpt],d2->name,d2->alignment[cpt],
gras_arches[cpt].name);
return d1->alignment[cpt] > d2->alignment[cpt] ? 1 : -1;
}
if (d1->aligned_size[cpt] != d2->aligned_size[cpt]) {
- DEBUG5("ddt_cmp: %s->aligned_size=%d != %s->aligned_size=%d (on %s)",
+ DEBUG5("ddt_cmp: %s->aligned_size=%ld != %s->aligned_size=%ld (on %s)",
d1->name,d1->aligned_size[cpt],d2->name,d2->aligned_size[cpt],
gras_arches[cpt].name);
return d1->aligned_size[cpt] > d2->aligned_size[cpt] ? 1 : -1;
d1->name,d1->aligned_size[cpt],d2->name,d2->aligned_size[cpt],
gras_arches[cpt].name);
return d1->aligned_size[cpt] > d2->aligned_size[cpt] ? 1 : -1;
TRY(gras_datadesc_by_id(array_data.code, &sub_type));
elm_size = sub_type->aligned_size[GRAS_THISARCH];
if (sub_type->category_code == e_gras_datadesc_type_cat_scalar) {
TRY(gras_datadesc_by_id(array_data.code, &sub_type));
elm_size = sub_type->aligned_size[GRAS_THISARCH];
if (sub_type->category_code == e_gras_datadesc_type_cat_scalar) {
- VERB1("Array of %d scalars, send it in one shoot",count);
+ VERB1("Array of %ld scalars, send it in one shot",count);
TRY(gras_trp_chunk_send(sock, data,
sub_type->aligned_size[GRAS_THISARCH] * count));
} else {
TRY(gras_trp_chunk_send(sock, data,
sub_type->aligned_size[GRAS_THISARCH] * count));
} else {
definition);
gras_abort();
}
definition);
gras_abort();
}
- DEBUG1("Fixed size array, size=%d",size);
+ DEBUG1("Fixed size array, size=%ld",size);
continue;
} else {
ERROR3("Unparsable size of array at %d:%d of %s",
continue;
} else {
ERROR3("Unparsable size of array at %d:%d of %s",