if (mat) {
if (mat->free_f) {
for (i = 0; i < (mat->lines * mat->rows); i++) {
- (*(mat->free_f)) ((void *) &(mat->data[i * mat->elmsize]));
+ mat->free_f((void *) &(mat->data[i * mat->elmsize]));
}
}
free(mat->data);
{
unsigned int i, j;
- fprintf(stderr, ">>> Matrix %s dump (%d x %d)\n", name, matrix->lines,
+ fprintf(stderr, ">>> Matrix %s dump (%u x %u)\n", name, matrix->lines,
matrix->rows);
for (i = 0; i < matrix->lines; i++) {
fprintf(stderr, " ");
for (j = 0; j < matrix->rows; j++) {
if (coords)
- fprintf(stderr, " (%d,%d)=", i, j);
+ fprintf(stderr, " (%u,%u)=", i, j);
else
fprintf(stderr, " ");
- (*display_fun) (xbt_matrix_get_ptr(matrix, i, j));
+ display_fun(xbt_matrix_get_ptr(matrix, i, j));
}
fprintf(stderr, "\n");
}
unsigned int i, j;
XBT_DEBUG
- ("Copy a %dx%d submatrix from %dx%d(of %dx%d) to %dx%d (of %dx%d)",
+ ("Copy a %ux%u submatrix from %ux%u(of %ux%u) to %ux%u (of %ux%u)",
lsize, rsize, lpos_src, rpos_src, src->lines, src->rows, lpos_dst,
rpos_dst, dst->lines, dst->rows);
if (cpy_f) {
for (j = 0; j < lsize; j++)
xbt_matrix_get_as(dst, j + lpos_dst, i + rpos_dst, void *) =
- (*cpy_f) (xbt_matrix_get_ptr(src, j + rpos_src, i + lpos_src));
+ cpy_f(xbt_matrix_get_ptr(src, j + rpos_src, i + lpos_src));
} else {
memcpy(xbt_matrix_get_ptr(dst, lpos_dst, i + rpos_dst),
xbt_matrix_get_ptr(src, lpos_src, i + rpos_src),
unsigned int i, j, k;
xbt_assert(A->lines == C->lines,
- "A->lines != C->lines (%d vs %d)", A->lines, C->lines);
+ "A->lines != C->lines (%u vs %u)", A->lines, C->lines);
xbt_assert(B->rows == C->rows);
for (i = 0; i < C->lines; i++)