/* * Copyright © 2010 Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * * Authors: * Chris Wilson * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "sna.h" #include "sna_render.h" #include "fb/fbpict.h" struct sna_tile_span { BoxRec box; float opacity; }; struct sna_tile_state { int op; PicturePtr src, mask, dst; PixmapPtr dst_pixmap; uint32_t dst_format; int16_t src_x, src_y; int16_t mask_x, mask_y; int16_t dst_x, dst_y; int16_t width, height; unsigned flags; int rect_count; int rect_size; struct sna_composite_rectangles rects_embedded[16], *rects; }; static void sna_tiling_composite_add_rect(struct sna_tile_state *tile, const struct sna_composite_rectangles *r) { if (tile->rect_count == tile->rect_size) { struct sna_composite_rectangles *a; int newsize = tile->rect_size * 2; if (tile->rects == tile->rects_embedded) { a = malloc (sizeof(struct sna_composite_rectangles) * newsize); if (a == NULL) return; memcpy(a, tile->rects_embedded, sizeof(struct sna_composite_rectangles) * tile->rect_count); } else { a = realloc(tile->rects, sizeof(struct sna_composite_rectangles) * newsize); if (a == NULL) return; } tile->rects = a; tile->rect_size = newsize; } tile->rects[tile->rect_count++] = *r; } fastcall static void sna_tiling_composite_blt(struct sna *sna, const struct sna_composite_op *op, const struct sna_composite_rectangles *r) { sna_tiling_composite_add_rect(op->priv, r); (void)sna; } fastcall static void sna_tiling_composite_box(struct sna *sna, const struct sna_composite_op *op, const BoxRec *box) { struct sna_composite_rectangles r; r.dst.x = box->x1; r.dst.y = box->y1; r.mask = r.src = r.dst; r.width = box->x2 - box->x1; r.height = box->y2 - box->y1; sna_tiling_composite_add_rect(op->priv, &r); (void)sna; } static void sna_tiling_composite_boxes(struct sna *sna, const struct sna_composite_op *op, const BoxRec *box, int nbox) { while (nbox--) { struct sna_composite_rectangles r; r.dst.x = box->x1; r.dst.y = box->y1; r.mask = r.src = r.dst; r.width = box->x2 - box->x1; r.height = box->y2 - box->y1; sna_tiling_composite_add_rect(op->priv, &r); box++; } (void)sna; } static void sna_tiling_composite_done(struct sna *sna, const struct sna_composite_op *op) { struct sna_tile_state *tile = op->priv; struct sna_composite_op tmp; int x, y, n, step, max_size; /* Use a small step to accommodate enlargement through tile alignment */ step = sna->render.max_3d_size; if (tile->dst_x & (8*512 / tile->dst->pDrawable->bitsPerPixel - 1) || tile->dst_y & 63) step /= 2; max_size = sna_max_tile_copy_size(sna, op->dst.bo, op->dst.bo); if (max_size == 0) goto done; while (step * step * 4 > max_size) step /= 2; DBG(("%s -- %dx%d, count=%d, step size=%d\n", __FUNCTION__, tile->width, tile->height, tile->rect_count, step)); if (tile->rect_count == 0) goto done; for (y = 0; y < tile->height; y += step) { int height = step; if (y + height > tile->height) height = tile->height - y; for (x = 0; x < tile->width; x += step) { int width = step; if (x + width > tile->width) width = tile->width - x; if (sna->render.composite(sna, tile->op, tile->src, tile->mask, tile->dst, tile->src_x + x, tile->src_y + y, tile->mask_x + x, tile->mask_y + y, tile->dst_x + x, tile->dst_y + y, width, height, COMPOSITE_PARTIAL, memset(&tmp, 0, sizeof(tmp)))) { for (n = 0; n < tile->rect_count; n++) { const struct sna_composite_rectangles *r = &tile->rects[n]; int x1, x2, dx, y1, y2, dy; x1 = r->dst.x - tile->dst_x, dx = 0; if (x1 < x) dx = x - x1, x1 = x; y1 = r->dst.y - tile->dst_y, dy = 0; if (y1 < y) dy = y - y1, y1 = y; x2 = r->dst.x + r->width - tile->dst_x; if (x2 > x + width) x2 = x + width; y2 = r->dst.y + r->height - tile->dst_y; if (y2 > y + height) y2 = y + height; DBG(("%s: rect[%d] = (%d, %d)x(%d,%d), tile=(%d,%d)x(%d, %d), blt=(%d,%d),(%d,%d), delta=(%d,%d)\n", __FUNCTION__, n, r->dst.x, r->dst.y, r->width, r->height, x, y, width, height, x1, y1, x2, y2, dx, dy)); if (y2 > y1 && x2 > x1) { struct sna_composite_rectangles rr; rr.src.x = dx + r->src.x; rr.src.y = dy + r->src.y; rr.mask.x = dx + r->mask.x; rr.mask.y = dy + r->mask.y; rr.dst.x = dx + r->dst.x; rr.dst.y = dy + r->dst.y; rr.width = x2 - x1; rr.height = y2 - y1; tmp.blt(sna, &tmp, &rr); } } tmp.done(sna, &tmp); } else { unsigned int flags; DBG(("%s -- falback\n", __FUNCTION__)); if (tile->op <= PictOpSrc) flags = MOVE_WRITE; else flags = MOVE_WRITE | MOVE_READ; if (!sna_drawable_move_to_cpu(tile->dst->pDrawable, flags)) goto done; if (tile->dst->alphaMap && !sna_drawable_move_to_cpu(tile->dst->alphaMap->pDrawable, flags)) goto done; if (tile->src->pDrawable && !sna_drawable_move_to_cpu(tile->src->pDrawable, MOVE_READ)) goto done; if (tile->src->alphaMap && !sna_drawable_move_to_cpu(tile->src->alphaMap->pDrawable, MOVE_READ)) goto done; if (tile->mask && tile->mask->pDrawable && !sna_drawable_move_to_cpu(tile->mask->pDrawable, MOVE_READ)) goto done; if (tile->mask && tile->mask->alphaMap && !sna_drawable_move_to_cpu(tile->mask->alphaMap->pDrawable, MOVE_READ)) goto done; if (sigtrap_get() == 0) { fbComposite(tile->op, tile->src, tile->mask, tile->dst, tile->src_x + x, tile->src_y + y, tile->mask_x + x, tile->mask_y + y, tile->dst_x + x, tile->dst_y + y, width, height); sigtrap_put(); } } } } done: if (tile->rects != tile->rects_embedded) free(tile->rects); free(tile); } bool sna_tiling_composite(uint32_t op, PicturePtr src, PicturePtr mask, PicturePtr dst, int16_t src_x, int16_t src_y, int16_t mask_x, int16_t mask_y, int16_t dst_x, int16_t dst_y, int16_t width, int16_t height, struct sna_composite_op *tmp) { struct sna_tile_state *tile; struct sna_pixmap *priv; DBG(("%s size=(%d, %d), tile=%d\n", __FUNCTION__, width, height, to_sna_from_drawable(dst->pDrawable)->render.max_3d_size)); priv = sna_pixmap(get_drawable_pixmap(dst->pDrawable)); if (priv == NULL || priv->gpu_bo == NULL) return false; tile = malloc(sizeof(*tile)); if (!tile) return false; tile->op = op; tile->src = src; tile->mask = mask; tile->dst = dst; tile->src_x = src_x; tile->src_y = src_y; tile->mask_x = mask_x; tile->mask_y = mask_y; tile->dst_x = dst_x; tile->dst_y = dst_y; tile->width = width; tile->height = height; tile->rects = tile->rects_embedded; tile->rect_count = 0; tile->rect_size = ARRAY_SIZE(tile->rects_embedded); tmp->blt = sna_tiling_composite_blt; tmp->box = sna_tiling_composite_box; tmp->boxes = sna_tiling_composite_boxes; tmp->done = sna_tiling_composite_done; tmp->priv = tile; tmp->dst.bo = priv->gpu_bo; return true; } fastcall static void sna_tiling_composite_spans_box(struct sna *sna, const struct sna_composite_spans_op *op, const BoxRec *box, float opacity) { struct sna_tile_state *tile = op->base.priv; struct sna_tile_span *a; if (tile->rect_count == tile->rect_size) { int newsize = tile->rect_size * 2; if (tile->rects == tile->rects_embedded) { a = malloc (sizeof(struct sna_tile_span) * newsize); if (a == NULL) return; memcpy(a, tile->rects_embedded, sizeof(struct sna_tile_span) * tile->rect_count); } else { a = realloc(tile->rects, sizeof(struct sna_tile_span) * newsize); if (a == NULL) return; } tile->rects = (void *)a; tile->rect_size = newsize; } else a = (void *)tile->rects; a[tile->rect_count].box = *box; a[tile->rect_count].opacity = opacity; tile->rect_count++; (void)sna; } static void sna_tiling_composite_spans_boxes(struct sna *sna, const struct sna_composite_spans_op *op, const BoxRec *box, int nbox, float opacity) { while (nbox--) sna_tiling_composite_spans_box(sna, op, box++, opacity); } fastcall static void sna_tiling_composite_spans_done(struct sna *sna, const struct sna_composite_spans_op *op) { struct sna_tile_state *tile = op->base.priv; struct sna_composite_spans_op tmp; int x, y, n, step, max_size; bool force_fallback = false; /* Use a small step to accommodate enlargement through tile alignment */ step = sna->render.max_3d_size; if (tile->dst_x & (8*512 / tile->dst->pDrawable->bitsPerPixel - 1) || tile->dst_y & 63) step /= 2; max_size = sna_max_tile_copy_size(sna, op->base.dst.bo, op->base.dst.bo); if (max_size == 0) goto done; while (step * step * 4 > max_size) step /= 2; DBG(("%s -- %dx%d, count=%d, step size=%d\n", __FUNCTION__, tile->width, tile->height, tile->rect_count, step)); if (tile->rect_count == 0) goto done; for (y = 0; y < tile->height; y += step) { int height = step; if (y + height > tile->height) height = tile->height - y; for (x = 0; x < tile->width; x += step) { const struct sna_tile_span *r = (void *)tile->rects; int width = step; if (x + width > tile->width) width = tile->width - x; if (!force_fallback && sna->render.composite_spans(sna, tile->op, tile->src, tile->dst, tile->src_x + x, tile->src_y + y, tile->dst_x + x, tile->dst_y + y, width, height, tile->flags, memset(&tmp, 0, sizeof(tmp)))) { for (n = 0; n < tile->rect_count; n++) { BoxRec b; b.x1 = r->box.x1 - tile->dst_x; if (b.x1 < x) b.x1 = x; b.y1 = r->box.y1 - tile->dst_y; if (b.y1 < y) b.y1 = y; b.x2 = r->box.x2 - tile->dst_x; if (b.x2 > x + width) b.x2 = x + width; b.y2 = r->box.y2 - tile->dst_y; if (b.y2 > y + height) b.y2 = y + height; DBG(("%s: rect[%d] = (%d, %d)x(%d,%d), tile=(%d,%d)x(%d, %d), blt=(%d,%d),(%d,%d)\n", __FUNCTION__, n, r->box.x1, r->box.y1, r->box.x2-r->box.x1, r->box.y2-r->box.y1, x, y, width, height, b.x1, b.y1, b.x2, b.y2)); if (b.y2 > b.y1 && b.x2 > b.x1) tmp.box(sna, &tmp, &b, r->opacity); r++; } tmp.done(sna, &tmp); } else { unsigned int flags; DBG(("%s -- falback\n", __FUNCTION__)); if (tile->op <= PictOpSrc) flags = MOVE_WRITE; else flags = MOVE_WRITE | MOVE_READ; if (!sna_drawable_move_to_cpu(tile->dst->pDrawable, flags)) goto done; if (tile->dst->alphaMap && !sna_drawable_move_to_cpu(tile->dst->alphaMap->pDrawable, flags)) goto done; if (tile->src->pDrawable && !sna_drawable_move_to_cpu(tile->src->pDrawable, MOVE_READ)) goto done; if (tile->src->alphaMap && !sna_drawable_move_to_cpu(tile->src->alphaMap->pDrawable, MOVE_READ)) goto done; for (n = 0; n < tile->rect_count; n++) { BoxRec b; b.x1 = r->box.x1 - tile->dst_x; if (b.x1 < x) b.x1 = x; b.y1 = r->box.y1 - tile->dst_y; if (b.y1 < y) b.y1 = y; b.x2 = r->box.x2 - tile->dst_x; if (b.x2 > x + width) b.x2 = x + width; b.y2 = r->box.y2 - tile->dst_y; if (b.y2 > y + height) b.y2 = y + height; DBG(("%s: rect[%d] = (%d, %d)x(%d,%d), tile=(%d,%d)x(%d, %d), blt=(%d,%d),(%d,%d)\n", __FUNCTION__, n, r->box.x1, r->box.y1, r->box.x2-r->box.x1, r->box.y2-r->box.y1, x, y, width, height, b.x1, b.y1, b.x2, b.y2)); if (b.y2 > b.y1 && b.x2 > b.x1) { xRenderColor alpha; PicturePtr mask; int error; alpha.red = alpha.green = alpha.blue = 0; alpha.alpha = r->opacity * 0xffff; mask = CreateSolidPicture(0, &alpha, &error); if (!mask) goto done; if (sigtrap_get() == 0) { fbComposite(tile->op, tile->src, mask, tile->dst, tile->src_x + x, tile->src_y + y, 0, 0, tile->dst_x + x, tile->dst_y + y, width, height); sigtrap_put(); } FreePicture(mask, 0); } r++; } force_fallback = true; } } } done: if (tile->rects != tile->rects_embedded) free(tile->rects); free(tile); } bool sna_tiling_composite_spans(uint32_t op, PicturePtr src, PicturePtr dst, int16_t src_x, int16_t src_y, int16_t dst_x, int16_t dst_y, int16_t width, int16_t height, unsigned flags, struct sna_composite_spans_op *tmp) { struct sna_tile_state *tile; struct sna_pixmap *priv; DBG(("%s size=(%d, %d), tile=%d\n", __FUNCTION__, width, height, to_sna_from_drawable(dst->pDrawable)->render.max_3d_size)); priv = sna_pixmap(get_drawable_pixmap(dst->pDrawable)); if (priv == NULL || priv->gpu_bo == NULL) return false; tile = malloc(sizeof(*tile)); if (!tile) return false; tile->op = op; tile->flags = flags; tile->src = src; tile->mask = NULL; tile->dst = dst; tile->src_x = src_x; tile->src_y = src_y; tile->mask_x = 0; tile->mask_y = 0; tile->dst_x = dst_x; tile->dst_y = dst_y; tile->width = width; tile->height = height; tile->rects = tile->rects_embedded; tile->rect_count = 0; tile->rect_size = ARRAY_SIZE(tile->rects_embedded); COMPILE_TIME_ASSERT(sizeof(tile->rects_embedded[0]) >= sizeof(struct sna_tile_span)); tmp->box = sna_tiling_composite_spans_box; tmp->boxes = sna_tiling_composite_spans_boxes; tmp->done = sna_tiling_composite_spans_done; tmp->base.priv = tile; tmp->base.dst.bo = priv->gpu_bo; return true; } bool sna_tiling_fill_boxes(struct sna *sna, CARD8 op, PictFormat format, const xRenderColor *color, const DrawableRec *dst, struct kgem_bo *dst_bo, const BoxRec *box, int n) { RegionRec region, tile, this; struct kgem_bo *bo; int step, max_size; bool ret = false; pixman_region_init_rects(®ion, box, n); /* Use a small step to accommodate enlargement through tile alignment */ step = sna->render.max_3d_size; if (region.extents.x1 & (8*512 / dst->bitsPerPixel - 1) || region.extents.y1 & 63) step /= 2; max_size = sna_max_tile_copy_size(sna, dst_bo, dst_bo); if (max_size == 0) goto done; while (step * step * 4 > max_size) step /= 2; DBG(("%s (op=%d, format=%x, color=(%04x,%04x,%04x, %04x), tile.size=%d, box=%dx[(%d, %d), (%d, %d)])\n", __FUNCTION__, op, (int)format, color->red, color->green, color->blue, color->alpha, step, n, region.extents.x1, region.extents.y1, region.extents.x2, region.extents.y2)); for (tile.extents.y1 = tile.extents.y2 = region.extents.y1; tile.extents.y2 < region.extents.y2; tile.extents.y1 = tile.extents.y2) { int y2 = tile.extents.y1 + step; if (y2 > region.extents.y2) y2 = region.extents.y2; tile.extents.y2 = y2; for (tile.extents.x1 = tile.extents.x2 = region.extents.x1; tile.extents.x2 < region.extents.x2; tile.extents.x1 = tile.extents.x2) { DrawableRec tmp; int x2 = tile.extents.x1 + step; if (x2 > region.extents.x2) x2 = region.extents.x2; tile.extents.x2 = x2; tile.data = NULL; RegionNull(&this); RegionIntersect(&this, ®ion, &tile); if (RegionNil(&this)) continue; tmp.width = this.extents.x2 - this.extents.x1; tmp.height = this.extents.y2 - this.extents.y1; tmp.depth = dst->depth; tmp.bitsPerPixel = dst->bitsPerPixel; bo = kgem_create_2d(&sna->kgem, tmp.width, tmp.height, dst->bitsPerPixel, kgem_choose_tiling(&sna->kgem, I915_TILING_X, tmp.width, tmp.height, dst->bitsPerPixel), CREATE_TEMPORARY); if (bo) { int16_t dx = this.extents.x1; int16_t dy = this.extents.y1; assert(kgem_bo_can_blt(&sna->kgem, bo)); if (op > PictOpSrc && !sna->render.copy_boxes(sna, GXcopy, dst, dst_bo, 0, 0, &tmp, bo, -dx, -dy, region_rects(&this), region_num_rects(&this), 0)) goto err; RegionTranslate(&this, -dx, -dy); if (!sna->render.fill_boxes(sna, op, format, color, &tmp, bo, region_rects(&this), region_num_rects(&this))) goto err; if (!sna->render.copy_boxes(sna, GXcopy, &tmp, bo, 0, 0, dst, dst_bo, dx, dy, region_rects(&this), region_num_rects(&this), 0)) goto err; kgem_bo_destroy(&sna->kgem, bo); } RegionUninit(&this); } } ret = true; goto done; err: kgem_bo_destroy(&sna->kgem, bo); RegionUninit(&this); done: pixman_region_fini(®ion); return ret; } fastcall static void tiling_blt(struct sna *sna, const struct sna_composite_op *op, const struct sna_composite_rectangles *r) { int x1, x2, y1, y2; int src_x, src_y; BoxRec box; DBG(("%s: src=(%d, %d), dst=(%d, %d), size=(%d, %d)\n", __FUNCTION__, r->src.x, r->src.y, r->dst.x, r->dst.y, r->width, r->height)); /* XXX higher layer should have clipped? */ x1 = r->dst.x + op->dst.x; y1 = r->dst.y + op->dst.y; x2 = x1 + r->width; y2 = y1 + r->height; src_x = r->src.x - x1 + op->u.blt.sx; src_y = r->src.y - y1 + op->u.blt.sy; /* clip against dst */ if (x1 < 0) x1 = 0; if (y1 < 0) y1 = 0; if (x2 > op->dst.width) x2 = op->dst.width; if (y2 > op->dst.height) y2 = op->dst.height; DBG(("%s: box=(%d, %d), (%d, %d)\n", __FUNCTION__, x1, y1, x2, y2)); if (x2 <= x1 || y2 <= y1) return; box.x1 = x1; box.y1 = y1; box.x2 = x2; box.y2 = y2; sna_tiling_blt_copy_boxes(sna, GXcopy, op->src.bo, src_x, src_y, op->dst.bo, 0, 0, op->u.blt.bpp, &box, 1); } fastcall static void tiling_blt_box(struct sna *sna, const struct sna_composite_op *op, const BoxRec *box) { DBG(("%s: box (%d, %d), (%d, %d)\n", __FUNCTION__, box->x1, box->y1, box->x2, box->y2)); sna_tiling_blt_copy_boxes(sna, GXcopy, op->src.bo, op->u.blt.sx, op->u.blt.sy, op->dst.bo, op->dst.x, op->dst.y, op->u.blt.bpp, box, 1); } static void tiling_blt_boxes(struct sna *sna, const struct sna_composite_op *op, const BoxRec *box, int nbox) { DBG(("%s: nbox=%d\n", __FUNCTION__, nbox)); sna_tiling_blt_copy_boxes(sna, GXcopy, op->src.bo, op->u.blt.sx, op->u.blt.sy, op->dst.bo, op->dst.x, op->dst.y, op->u.blt.bpp, box, nbox); } static bool sna_tiling_blt_copy_boxes__with_alpha(struct sna *sna, uint8_t alu, struct kgem_bo *src_bo, int16_t src_dx, int16_t src_dy, struct kgem_bo *dst_bo, int16_t dst_dx, int16_t dst_dy, int bpp, int alpha_fixup, const BoxRec *box, int nbox) { RegionRec region, tile, this; struct kgem_bo *bo; int max_size, step; bool ret = false; if (wedged(sna) || !kgem_bo_can_blt(&sna->kgem, src_bo) || !kgem_bo_can_blt(&sna->kgem, dst_bo)) { /* XXX */ DBG(("%s: tiling blt fail: src?=%d, dst?=%d\n", __FUNCTION__, kgem_bo_can_blt(&sna->kgem, src_bo), kgem_bo_can_blt(&sna->kgem, dst_bo))); return false; } max_size = sna_max_tile_copy_size(sna, src_bo, dst_bo); if (max_size == 0) return false; pixman_region_init_rects(®ion, box, nbox); /* Use a small step to accommodate enlargement through tile alignment */ step = sna->render.max_3d_size; if (region.extents.x1 & (8*512 / bpp - 1) || region.extents.y1 & 63) step /= 2; while (step * step * 4 > max_size) step /= 2; if (sna->kgem.gen < 033) step /= 2; /* accommodate severe fence restrictions */ if (step == 0) { DBG(("%s: tiles cannot fit into aperture\n", __FUNCTION__)); return false; } DBG(("%s (alu=%d), tile.size=%d, box=%dx[(%d, %d), (%d, %d)])\n", __FUNCTION__, alu, step, nbox, region.extents.x1, region.extents.y1, region.extents.x2, region.extents.y2)); for (tile.extents.y1 = tile.extents.y2 = region.extents.y1; tile.extents.y2 < region.extents.y2; tile.extents.y1 = tile.extents.y2) { int y2 = tile.extents.y1 + step; if (y2 > region.extents.y2) y2 = region.extents.y2; tile.extents.y2 = y2; for (tile.extents.x1 = tile.extents.x2 = region.extents.x1; tile.extents.x2 < region.extents.x2; tile.extents.x1 = tile.extents.x2) { int w, h; int x2 = tile.extents.x1 + step; if (x2 > region.extents.x2) x2 = region.extents.x2; tile.extents.x2 = x2; tile.data = NULL; RegionNull(&this); RegionIntersect(&this, ®ion, &tile); if (RegionNil(&this)) continue; w = this.extents.x2 - this.extents.x1; h = this.extents.y2 - this.extents.y1; bo = kgem_create_2d(&sna->kgem, w, h, bpp, kgem_choose_tiling(&sna->kgem, I915_TILING_X, w, h, bpp), CREATE_TEMPORARY); if (bo) { int16_t dx = this.extents.x1; int16_t dy = this.extents.y1; assert(kgem_bo_can_blt(&sna->kgem, bo)); if (!sna_blt_copy_boxes(sna, GXcopy, src_bo, src_dx, src_dy, bo, -dx, -dy, bpp, region_rects(&this), region_num_rects(&this))) goto err; if (!sna_blt_copy_boxes__with_alpha(sna, alu, bo, -dx, -dy, dst_bo, dst_dx, dst_dy, bpp, alpha_fixup, region_rects(&this), region_num_rects(&this))) goto err; kgem_bo_destroy(&sna->kgem, bo); } RegionUninit(&this); } } ret = true; goto done; err: kgem_bo_destroy(&sna->kgem, bo); RegionUninit(&this); done: pixman_region_fini(®ion); return ret; } fastcall static void tiling_blt__with_alpha(struct sna *sna, const struct sna_composite_op *op, const struct sna_composite_rectangles *r) { int x1, x2, y1, y2; int src_x, src_y; BoxRec box; DBG(("%s: src=(%d, %d), dst=(%d, %d), size=(%d, %d)\n", __FUNCTION__, r->src.x, r->src.y, r->dst.x, r->dst.y, r->width, r->height)); /* XXX higher layer should have clipped? */ x1 = r->dst.x + op->dst.x; y1 = r->dst.y + op->dst.y; x2 = x1 + r->width; y2 = y1 + r->height; src_x = r->src.x - x1 + op->u.blt.sx; src_y = r->src.y - y1 + op->u.blt.sy; /* clip against dst */ if (x1 < 0) x1 = 0; if (y1 < 0) y1 = 0; if (x2 > op->dst.width) x2 = op->dst.width; if (y2 > op->dst.height) y2 = op->dst.height; DBG(("%s: box=(%d, %d), (%d, %d)\n", __FUNCTION__, x1, y1, x2, y2)); if (x2 <= x1 || y2 <= y1) return; box.x1 = x1; box.y1 = y1; box.x2 = x2; box.y2 = y2; sna_tiling_blt_copy_boxes__with_alpha(sna, GXcopy, op->src.bo, src_x, src_y, op->dst.bo, 0, 0, op->u.blt.bpp, op->u.blt.pixel, &box, 1); } fastcall static void tiling_blt_box__with_alpha(struct sna *sna, const struct sna_composite_op *op, const BoxRec *box) { DBG(("%s: box (%d, %d), (%d, %d)\n", __FUNCTION__, box->x1, box->y1, box->x2, box->y2)); sna_tiling_blt_copy_boxes__with_alpha(sna, GXcopy, op->src.bo, op->u.blt.sx, op->u.blt.sy, op->dst.bo, op->dst.x, op->dst.y, op->u.blt.bpp, op->u.blt.pixel, box, 1); } static void tiling_blt_boxes__with_alpha(struct sna *sna, const struct sna_composite_op *op, const BoxRec *box, int nbox) { DBG(("%s: nbox=%d\n", __FUNCTION__, nbox)); sna_tiling_blt_copy_boxes__with_alpha(sna, GXcopy, op->src.bo, op->u.blt.sx, op->u.blt.sy, op->dst.bo, op->dst.x, op->dst.y, op->u.blt.bpp, op->u.blt.pixel, box, nbox); } static void nop_done(struct sna *sna, const struct sna_composite_op *op) { assert(sna->kgem.nbatch <= KGEM_BATCH_SIZE(&sna->kgem)); (void)op; } bool sna_tiling_blt_composite(struct sna *sna, struct sna_composite_op *op, struct kgem_bo *bo, int bpp, uint32_t alpha_fixup) { assert(op->dst.bo); assert(kgem_bo_can_blt(&sna->kgem, op->dst.bo)); assert(kgem_bo_can_blt(&sna->kgem, bo)); op->src.bo = bo; op->u.blt.bpp = bpp; op->u.blt.pixel = alpha_fixup; if (alpha_fixup) { op->blt = tiling_blt__with_alpha; op->box = tiling_blt_box__with_alpha; op->boxes = tiling_blt_boxes__with_alpha; } else { op->blt = tiling_blt; op->box = tiling_blt_box; op->boxes = tiling_blt_boxes; } op->done = nop_done; return true; } bool sna_tiling_blt_copy_boxes(struct sna *sna, uint8_t alu, struct kgem_bo *src_bo, int16_t src_dx, int16_t src_dy, struct kgem_bo *dst_bo, int16_t dst_dx, int16_t dst_dy, int bpp, const BoxRec *box, int nbox) { RegionRec region, tile, this; struct kgem_bo *bo; int max_size, step; bool ret = false; DBG(("%s: alu=%d, src size=%d, dst size=%d\n", __FUNCTION__, alu, kgem_bo_size(src_bo), kgem_bo_size(dst_bo))); if (wedged(sna) || !kgem_bo_can_blt(&sna->kgem, src_bo) || !kgem_bo_can_blt(&sna->kgem, dst_bo)) { /* XXX */ DBG(("%s: tiling blt fail: src?=%d, dst?=%d\n", __FUNCTION__, kgem_bo_can_blt(&sna->kgem, src_bo), kgem_bo_can_blt(&sna->kgem, dst_bo))); return false; } max_size = sna_max_tile_copy_size(sna, src_bo, dst_bo); if (max_size == 0) return false; pixman_region_init_rects(®ion, box, nbox); /* Use a small step to accommodate enlargement through tile alignment */ step = sna->render.max_3d_size; if (region.extents.x1 & (8*512 / bpp - 1) || region.extents.y1 & 63) step /= 2; while (step * step * 4 > max_size) step /= 2; if (sna->kgem.gen < 033) step /= 2; /* accommodate severe fence restrictions */ if (step == 0) { DBG(("%s: tiles cannot fit into aperture\n", __FUNCTION__)); return false; } DBG(("%s (alu=%d), tile.size=%d, box=%dx[(%d, %d), (%d, %d)])\n", __FUNCTION__, alu, step, nbox, region.extents.x1, region.extents.y1, region.extents.x2, region.extents.y2)); for (tile.extents.y1 = tile.extents.y2 = region.extents.y1; tile.extents.y2 < region.extents.y2; tile.extents.y1 = tile.extents.y2) { int y2 = tile.extents.y1 + step; if (y2 > region.extents.y2) y2 = region.extents.y2; tile.extents.y2 = y2; for (tile.extents.x1 = tile.extents.x2 = region.extents.x1; tile.extents.x2 < region.extents.x2; tile.extents.x1 = tile.extents.x2) { int w, h; int x2 = tile.extents.x1 + step; if (x2 > region.extents.x2) x2 = region.extents.x2; tile.extents.x2 = x2; tile.data = NULL; RegionNull(&this); RegionIntersect(&this, ®ion, &tile); if (RegionNil(&this)) continue; w = this.extents.x2 - this.extents.x1; h = this.extents.y2 - this.extents.y1; bo = kgem_create_2d(&sna->kgem, w, h, bpp, kgem_choose_tiling(&sna->kgem, I915_TILING_X, w, h, bpp), CREATE_TEMPORARY); if (bo) { int16_t dx = this.extents.x1; int16_t dy = this.extents.y1; assert(kgem_bo_can_blt(&sna->kgem, bo)); if (!sna_blt_copy_boxes(sna, GXcopy, src_bo, src_dx, src_dy, bo, -dx, -dy, bpp, region_rects(&this), region_num_rects(&this))) goto err; if (!sna_blt_copy_boxes(sna, alu, bo, -dx, -dy, dst_bo, dst_dx, dst_dy, bpp, region_rects(&this), region_num_rects(&this))) goto err; kgem_bo_destroy(&sna->kgem, bo); } RegionUninit(&this); } } ret = true; goto done; err: kgem_bo_destroy(&sna->kgem, bo); RegionUninit(&this); done: pixman_region_fini(®ion); return ret; } bool sna_tiling_copy_boxes(struct sna *sna, uint8_t alu, const DrawableRec *src, struct kgem_bo *src_bo, int16_t src_dx, int16_t src_dy, const DrawableRec *dst, struct kgem_bo *dst_bo, int16_t dst_dx, int16_t dst_dy, const BoxRec *box, int n) { BoxRec extents, tile, stack[64], *clipped, *c; DrawableRec p; int i, step, tiling; bool create = true; bool ret = false; extents = box[0]; for (i = 1; i < n; i++) { if (box[i].x1 < extents.x1) extents.x1 = box[i].x1; if (box[i].y1 < extents.y1) extents.y1 = box[i].y1; if (box[i].x2 > extents.x2) extents.x2 = box[i].x2; if (box[i].y2 > extents.y2) extents.y2 = box[i].y2; } tiling = I915_TILING_X; if (!kgem_bo_can_blt(&sna->kgem, src_bo) || !kgem_bo_can_blt(&sna->kgem, dst_bo)) tiling = I915_TILING_Y; create = (src_bo->pitch > sna->render.max_3d_pitch || dst_bo->pitch > sna->render.max_3d_pitch); step = sna->render.max_3d_size / 2; if (create) { while (step * step * 4 > sna->kgem.max_upload_tile_size) step /= 2; } DBG(("%s: tiling copy %dx%d, %s %dx%d %c tiles\n", __FUNCTION__, extents.x2-extents.x1, extents.y2-extents.y1, create ? "creating" : "using", step, step, tiling == I915_TILING_X ? 'X' : 'Y')); if (n > ARRAY_SIZE(stack)) { clipped = malloc(sizeof(BoxRec) * n); if (clipped == NULL) goto tiled_error; } else clipped = stack; p.depth = src->depth; p.bitsPerPixel = src->bitsPerPixel; for (tile.y1 = extents.y1; tile.y1 < extents.y2; tile.y1 = tile.y2) { int y2 = tile.y1 + step; if (y2 > extents.y2) y2 = extents.y2; tile.y2 = y2; for (tile.x1 = extents.x1; tile.x1 < extents.x2; tile.x1 = tile.x2) { struct kgem_bo *tmp_bo; int x2 = tile.x1 + step; if (x2 > extents.x2) x2 = extents.x2; tile.x2 = x2; c = clipped; for (i = 0; i < n; i++) { *c = box[i]; if (!box_intersect(c, &tile)) continue; DBG(("%s: box(%d, %d), (%d, %d), src=(%d, %d), dst=(%d, %d)\n", __FUNCTION__, c->x1, c->y1, c->x2, c->y2, src_dx, src_dy, c->x1 - tile.x1, c->y1 - tile.y1)); c++; } if (c == clipped) continue; p.width = tile.x2 - tile.x1; p.height = tile.y2 - tile.y1; DBG(("%s: tile (%d, %d), (%d, %d)\n", __FUNCTION__, tile.x1, tile.y1, tile.x2, tile.y2)); if (create) { tmp_bo = kgem_create_2d(&sna->kgem, p.width, p.height, p.bitsPerPixel, tiling, CREATE_TEMPORARY); if (!tmp_bo) goto tiled_error; i = (sna->render.copy_boxes(sna, GXcopy, src, src_bo, src_dx, src_dy, &p, tmp_bo, -tile.x1, -tile.y1, clipped, c - clipped, 0) && sna->render.copy_boxes(sna, alu, &p, tmp_bo, -tile.x1, -tile.y1, dst, dst_bo, dst_dx, dst_dy, clipped, c - clipped, 0)); kgem_bo_destroy(&sna->kgem, tmp_bo); } else { i = sna->render.copy_boxes(sna, GXcopy, src, src_bo, src_dx, src_dy, dst, dst_bo, dst_dx, dst_dy, clipped, c - clipped, 0); } if (!i) goto tiled_error; } } ret = true; tiled_error: if (clipped != stack) free(clipped); return ret; }