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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [testsuite/] [gcc.c-torture/] [compile/] [20051216-1.c] - Rev 297
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/* PR rtl-optimization/25432 */ void *malloc (__SIZE_TYPE__); void *realloc (void *, __SIZE_TYPE__); struct A { double x, y; }; struct B { double x0, y0, x1, y1; }; struct C { int n_points; int dir; struct B bbox; struct A *points; }; struct D { int n_segs; struct C segs[1]; }; void foo (int, int, int *, int, int *, struct A **, int *, int *, struct D *, int *, struct D **, int *, int **); int baz (struct A, struct A, struct A, struct A); static void bar (struct D *svp, int *n_points_max, struct A p, int *seg_map, int *active_segs, int i) { int asi, n_points; struct C *seg; asi = seg_map[active_segs[i]]; seg = &svp->segs[asi]; n_points = seg->n_points; seg->points = ((struct A *) realloc (seg->points, (n_points_max[asi] <<= 1) * sizeof (struct A))); seg->points[n_points] = p; seg->bbox.y1 = p.y; seg->n_points++; } struct D * test (struct D *vp) { int *active_segs, n_active_segs, *cursor, seg_idx; double y, share_x; int tmp1, tmp2, asi, i, j, *n_ips, *n_ips_max, n_segs_max; struct A **ips, p_curs, *pts; struct D *new_vp; int *n_points_max, *seg_map, first_share; n_segs_max = 16; new_vp = (struct D *) malloc (sizeof (struct D) + (n_segs_max - 1) * sizeof (struct C)); new_vp->n_segs = 0; if (vp->n_segs == 0) return new_vp; active_segs = ((int *) malloc ((vp->n_segs) * sizeof (int))); cursor = ((int *) malloc ((vp->n_segs) * sizeof (int))); seg_map = ((int *) malloc ((vp->n_segs) * sizeof (int))); n_ips = ((int *) malloc ((vp->n_segs) * sizeof (int))); n_ips_max = ((int *) malloc ((vp->n_segs) * sizeof (int))); ips = ((struct A * *) malloc ((vp->n_segs) * sizeof (struct A *))); n_points_max = ((int *) malloc ((n_segs_max) * sizeof (int))); n_active_segs = 0; seg_idx = 0; y = vp->segs[0].points[0].y; while (seg_idx < vp->n_segs || n_active_segs > 0) { for (i = 0; i < n_active_segs; i++) { asi = active_segs[i]; if (vp->segs[asi].n_points - 1 == cursor[asi] && vp->segs[asi].points[cursor[asi]].y == y) i--; } while (seg_idx < vp->n_segs && y == vp->segs[seg_idx].points[0].y) { cursor[seg_idx] = 0; n_ips[seg_idx] = 1; n_ips_max[seg_idx] = 2; ips[seg_idx] = ((struct A *) malloc ((n_ips_max[seg_idx]) * sizeof (struct A))); ips[seg_idx][0] = vp->segs[seg_idx].points[0]; pts = ((struct A *) malloc ((16) * sizeof (struct A))); pts[0] = vp->segs[seg_idx].points[0]; tmp1 = seg_idx; for (j = i; j < n_active_segs; j++) { tmp2 = active_segs[j]; active_segs[j] = tmp1; tmp1 = tmp2; } active_segs[n_active_segs] = tmp1; n_active_segs++; seg_idx++; } first_share = -1; share_x = 0; for (i = 0; i < n_active_segs; i++) { asi = active_segs[i]; p_curs = ips[asi][1]; if (p_curs.y == y) { bar (new_vp, n_points_max, p_curs, seg_map, active_segs, i); n_ips[asi]--; for (j = 0; j < n_ips[asi]; j++) ips[asi][j] = ips[asi][j + 1]; if (first_share < 0 || p_curs.x != share_x) { foo (first_share, i, active_segs, n_active_segs, cursor, ips, n_ips, n_ips_max, vp, seg_map, &new_vp, &n_segs_max, &n_points_max); first_share = i; share_x = p_curs.x; } } else { foo (first_share, i, active_segs, n_active_segs, cursor, ips, n_ips, n_ips_max, vp, seg_map, &new_vp, &n_segs_max, &n_points_max); first_share = -1; } } } return new_vp; }