07f2f0a5ae
A recent kernel with kernel modesetting support is required. Thanks to jsg@ and kettenis@ for their work.
437 lines
11 KiB
C
437 lines
11 KiB
C
#include <stdint.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <X11/Xutil.h> /* for XDestroyImage */
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#include <pixman.h> /* for pixman blt functions */
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#include "test.h"
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enum trapezoid {
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RECT_ALIGN,
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RECT_UNALIGN,
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GENERAL
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};
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static const uint8_t ops[] = {
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PictOpClear,
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PictOpSrc,
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PictOpDst,
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};
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static XRenderPictFormat *mask_format(Display *dpy, enum mask mask)
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{
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switch (mask) {
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default:
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case MASK_NONE: return NULL;
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case MASK_A1: return XRenderFindStandardFormat(dpy, PictStandardA1);
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case MASK_A8: return XRenderFindStandardFormat(dpy, PictStandardA8);
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}
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}
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static const char *mask_name(enum mask mask)
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{
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switch (mask) {
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default:
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case MASK_NONE: return "none";
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case MASK_A1: return "a1";
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case MASK_A8: return "a8";
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}
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}
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static const char *trapezoid_name(enum trapezoid trapezoid)
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{
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switch (trapezoid) {
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default:
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case RECT_ALIGN: return "pixel-aligned";
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case RECT_UNALIGN: return "rectilinear";
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case GENERAL: return "general";
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}
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}
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static void fill_rect(struct test_display *dpy, Picture p, uint8_t op,
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int x, int y, int w, int h,
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int dx, int dy, enum mask mask,
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uint8_t red, uint8_t green, uint8_t blue, uint8_t alpha)
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{
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XRenderColor render_color;
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XTrapezoid trap;
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Picture src;
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render_color.red = red * alpha;
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render_color.green = green * alpha;
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render_color.blue = blue * alpha;
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render_color.alpha = alpha << 8;
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trap.left.p1.x = trap.left.p2.x = (x << 16) + dx;
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trap.top = trap.left.p1.y = trap.right.p1.y = (y << 16) + dy;
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trap.right.p1.x = trap.right.p2.x = ((x + w) << 16) + dx;
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trap.bottom = trap.left.p2.y = trap.right.p2.y = ((y + h) << 16) + dy;
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src = XRenderCreateSolidFill(dpy->dpy, &render_color);
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XRenderCompositeTrapezoids(dpy->dpy,
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op, src, p, mask_format(dpy->dpy, mask),
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0, 0, &trap, 1);
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XRenderFreePicture(dpy->dpy, src);
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}
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static void pixel_tests(struct test *t, int reps, int sets, enum target target)
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{
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struct test_target tt;
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XImage image;
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uint32_t *cells = malloc(t->real.width*t->real.height*4);
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struct {
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uint16_t x, y;
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} *pixels = malloc(reps*sizeof(*pixels));
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int r, s;
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printf("Testing setting of single pixels (%s): ", test_target_name(target));
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fflush(stdout);
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test_target_create_render(&t->real, target, &tt);
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for (s = 0; s < sets; s++) {
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for (r = 0; r < reps; r++) {
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int x = rand() % (tt.width - 1);
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int y = rand() % (tt.height - 1);
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int red = rand() % 0xff;
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int green = rand() % 0xff;
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int blue = rand() % 0xff;
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int alpha = rand() % 0xff;
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fill_rect(&t->real, tt.picture, PictOpSrc,
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x, y, 1, 1,
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0, 0, MASK_NONE,
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red, green, blue, alpha);
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pixels[r].x = x;
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pixels[r].y = y;
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cells[y*t->real.width+x] = color(red, green, blue, alpha);
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}
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test_init_image(&image, &t->real.shm, tt.format, 1, 1);
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for (r = 0; r < reps; r++) {
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uint32_t result;
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uint32_t x = pixels[r].x;
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uint32_t y = pixels[r].y;
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XShmGetImage(t->real.dpy, tt.draw, &image,
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x, y, AllPlanes);
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result = *(uint32_t *)image.data;
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if (!pixel_equal(image.depth, result,
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cells[y*tt.width+x])) {
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uint32_t mask = depth_mask(image.depth);
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die("failed to set pixel (%d,%d) to %08x [%08x], found %08x [%08x] instead\n",
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x, y,
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cells[y*tt.width+x] & mask,
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cells[y*tt.width+x],
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result & mask,
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result);
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}
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}
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}
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printf("passed [%d iterations x %d]\n", reps, sets);
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test_target_destroy_render(&t->real, &tt);
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free(pixels);
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free(cells);
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}
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static void clear(struct test_display *dpy, struct test_target *tt)
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{
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XRenderColor render_color = {0};
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XRenderFillRectangle(dpy->dpy, PictOpClear, tt->picture, &render_color,
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0, 0, tt->width, tt->height);
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}
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static void area_tests(struct test *t, int reps, int sets, enum target target)
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{
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struct test_target tt;
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XImage image;
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uint32_t *cells = calloc(sizeof(uint32_t), t->real.width*t->real.height);
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int r, s, x, y;
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printf("Testing area sets (%s): ", test_target_name(target));
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fflush(stdout);
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test_target_create_render(&t->real, target, &tt);
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clear(&t->real, &tt);
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test_init_image(&image, &t->real.shm, tt.format, tt.width, tt.height);
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for (s = 0; s < sets; s++) {
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for (r = 0; r < reps; r++) {
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int w = rand() % tt.width;
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int h = rand() % tt.height;
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int red = rand() % 0xff;
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int green = rand() % 0xff;
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int blue = rand() % 0xff;
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int alpha = rand() % 0xff;
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x = rand() % (2*tt.width) - tt.width;
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y = rand() % (2*tt.height) - tt.height;
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fill_rect(&t->real, tt.picture, PictOpSrc,
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x, y, w, h,
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0, 0, MASK_NONE,
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red, green, blue, alpha);
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if (x < 0)
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w += x, x = 0;
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if (y < 0)
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h += y, y = 0;
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if (x >= tt.width || y >= tt.height)
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continue;
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if (x + w > tt.width)
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w = tt.width - x;
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if (y + h > tt.height)
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h = tt.height - y;
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if (w <= 0 || h <= 0)
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continue;
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pixman_fill(cells, tt.width, 32, x, y, w, h,
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color(red, green, blue, alpha));
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}
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XShmGetImage(t->real.dpy, tt.draw, &image, 0, 0, AllPlanes);
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for (y = 0; y < tt.height; y++) {
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for (x = 0; x < tt.width; x++) {
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uint32_t result =
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*(uint32_t *)(image.data +
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y*image.bytes_per_line +
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image.bits_per_pixel*x/8);
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if (!pixel_equal(image.depth, result, cells[y*tt.width+x])) {
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uint32_t mask = depth_mask(image.depth);
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die("failed to set pixel (%d,%d) to %08x [%08x], found %08x [%08x] instead\n",
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x, y,
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cells[y*tt.width+x] & mask,
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cells[y*tt.width+x],
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result & mask,
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result);
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}
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}
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}
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}
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printf("passed [%d iterations x %d]\n", reps, sets);
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test_target_destroy_render(&t->real, &tt);
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free(cells);
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}
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static void rect_tests(struct test *t,
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int dx, int dy,
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enum mask mask,
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int reps, int sets,
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enum target target)
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{
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struct test_target real, ref;
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int r, s;
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printf("Testing area fills (offset %dx%d, mask %s) (%s): ",
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dx, dy, mask_name(mask), test_target_name(target));
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fflush(stdout);
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test_target_create_render(&t->real, target, &real);
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clear(&t->real, &real);
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test_target_create_render(&t->ref, target, &ref);
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clear(&t->ref, &ref);
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for (s = 0; s < sets; s++) {
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for (r = 0; r < reps; r++) {
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int x = rand() % (2*real.width) - real.width;
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int y = rand() % (2*real.height) - real.height;
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int w = rand() % real.width;
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int h = rand() % real.height;
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int op = ops[rand() % sizeof(ops)];
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int red = rand() % 0xff;
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int green = rand() % 0xff;
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int blue = rand() % 0xff;
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int alpha = rand() % 0xff;
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fill_rect(&t->real, real.picture, op,
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x, y, w, h, dx, dy, mask,
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red, green, blue, alpha);
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fill_rect(&t->ref, ref.picture, op,
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x, y, w, h, dx, dy, mask,
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red, green, blue, alpha);
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}
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test_compare(t,
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real.draw, real.format,
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ref.draw, ref.format,
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0, 0, real.width, real.height,
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"");
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}
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printf("passed [%d iterations x %d]\n", reps, sets);
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test_target_destroy_render(&t->real, &real);
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test_target_destroy_render(&t->ref, &ref);
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}
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static void random_trapezoid(XTrapezoid *trap, enum trapezoid trapezoid,
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int x1, int y1, int x2, int y2)
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{
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switch (trapezoid) {
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case RECT_ALIGN:
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x1 = x1 + rand() % (x2 - x1);
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x2 = x1 + rand() % (x2 - x1);
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y1 = y1 + rand() % (y2 - y1);
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y2 = y1 + rand() % (y2 - y1);
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trap->left.p1.x = trap->left.p2.x = x1 << 16;
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trap->top = trap->left.p1.y = trap->right.p1.y = y1 << 16;
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trap->right.p1.x = trap->right.p2.x = x2 << 16;
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trap->bottom = trap->left.p2.y = trap->right.p2.y = y2 << 16;
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break;
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case RECT_UNALIGN:
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x1 <<= 16; x2 <<= 16;
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y1 <<= 16; y2 <<= 16;
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x1 = x1 + rand() % (x2 - x1);
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x2 = x1 + rand() % (x2 - x1);
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y1 = y1 + rand() % (y2 - y1);
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y2 = y1 + rand() % (y2 - y1);
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trap->left.p1.x = trap->left.p2.x = x1;
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trap->top = trap->left.p1.y = trap->right.p1.y = y1;
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trap->right.p1.x = trap->right.p2.x = x2;
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trap->bottom = trap->left.p2.y = trap->right.p2.y = y2;
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break;
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case GENERAL:
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x1 <<= 16; x2 <<= 16;
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y1 <<= 16; y2 <<= 16;
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trap->top = y1 + rand() % (y2 - y1);
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trap->bottom = y1 + rand() % (y2 - y1);
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trap->left.p1.x = x1 + rand() % (x2 - x1);
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trap->left.p2.x = x1 + rand() % (x2 - x1);
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trap->right.p1.x = x1 + rand() % (x2 - x1);
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trap->right.p2.x = x1 + rand() % (x2 - x1);
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break;
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}
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}
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static void trap_tests(struct test *t,
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enum mask mask,
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enum trapezoid trapezoid,
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int reps, int sets,
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enum target target)
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{
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struct test_target real, ref;
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XTrapezoid *traps;
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int max_traps = 65536;
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int r, s, n;
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traps = malloc(sizeof(*traps) * max_traps);
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if (traps == NULL)
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return;
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printf("Testing trapezoids (%s with mask %s) (%s): ",
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trapezoid_name(trapezoid),
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mask_name(mask),
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test_target_name(target));
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fflush(stdout);
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test_target_create_render(&t->real, target, &real);
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clear(&t->real, &real);
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test_target_create_render(&t->ref, target, &ref);
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clear(&t->ref, &ref);
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for (s = 0; s < sets; s++) {
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for (r = 0; r < reps; r++) {
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XRenderColor render_color;
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int op = ops[rand() % sizeof(ops)];
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int red = rand() % 0xff;
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int green = rand() % 0xff;
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int blue = rand() % 0xff;
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int alpha = rand() % 0xff;
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int num_traps = rand() % max_traps;
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Picture src;
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for (n = 0; n < num_traps; n++)
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random_trapezoid(&traps[n], 0,
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0, 0, real.width, real.height);
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render_color.red = red * alpha;
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render_color.green = green * alpha;
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render_color.blue = blue * alpha;
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render_color.alpha = alpha << 8;
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src = XRenderCreateSolidFill(t->real.dpy,
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&render_color);
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XRenderCompositeTrapezoids(t->real.dpy,
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op, src, real.picture,
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mask_format(t->real.dpy, mask),
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0, 0, traps, num_traps);
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XRenderFreePicture(t->real.dpy, src);
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src = XRenderCreateSolidFill(t->ref.dpy,
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&render_color);
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XRenderCompositeTrapezoids(t->ref.dpy,
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op, src, ref.picture,
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mask_format(t->ref.dpy, mask),
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0, 0, traps, num_traps);
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XRenderFreePicture(t->ref.dpy, src);
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}
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test_compare(t,
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real.draw, real.format,
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ref.draw, ref.format,
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0, 0, real.width, real.height,
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"");
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}
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printf("passed [%d iterations x %d]\n", reps, sets);
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test_target_destroy_render(&t->real, &real);
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test_target_destroy_render(&t->ref, &ref);
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free(traps);
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}
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int main(int argc, char **argv)
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{
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struct test test;
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int i, dx, dy;
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enum target target;
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enum mask mask;
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enum trapezoid trapezoid;
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test_init(&test, argc, argv);
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for (i = 0; i <= DEFAULT_ITERATIONS; i++) {
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int reps = 1 << i;
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int sets = 1 << (12 - i);
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if (sets < 2)
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sets = 2;
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for (target = TARGET_FIRST; target <= TARGET_LAST; target++) {
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pixel_tests(&test, reps, sets, target);
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area_tests(&test, reps, sets, target);
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for (dy = 0; dy < 1 << 16; dy += 1 << 14)
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for (dx = 0; dx < 1 << 16; dx += 1 << 14)
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for (mask = MASK_NONE; mask <= MASK_A8; mask++)
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rect_tests(&test, dx, dy, mask, reps, sets, target);
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for (trapezoid = RECT_ALIGN; trapezoid <= GENERAL; trapezoid++)
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trap_tests(&test, mask, trapezoid, reps, sets, target);
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}
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}
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return 0;
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}
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