/* libs/pixelflinger/raster.cpp ** ** Copyright 2006, The Android Open Source Project ** ** Licensed under the Apache License, Version 2.0 (the "License"); ** you may not use this file except in compliance with the License. ** You may obtain a copy of the License at ** ** http://www.apache.org/licenses/LICENSE-2.0 ** ** Unless required by applicable law or agreed to in writing, software ** distributed under the License is distributed on an "AS IS" BASIS, ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. ** See the License for the specific language governing permissions and ** limitations under the License. */ #include <string.h> #include "raster.h" #include "trap.h" namespace android { static void ggl_rasterPos2x(void* con, GGLfixed x, GGLfixed y); static void ggl_rasterPos2i(void* con, GGLint x, GGLint y); static void ggl_copyPixels(void* con, GGLint xs, GGLint ys, GGLsizei width, GGLsizei height, GGLenum type); void ggl_init_raster(context_t* c) { GGLContext& procs = *(GGLContext*)c; GGL_INIT_PROC(procs, copyPixels); GGL_INIT_PROC(procs, rasterPos2x); GGL_INIT_PROC(procs, rasterPos2i); } void ggl_rasterPos2x(void* con, GGLfixed x, GGLfixed y) { GGL_CONTEXT(c, con); // raster pos should be processed just like glVertex c->state.raster.x = x; c->state.raster.y = y; } void ggl_rasterPos2i(void* con, GGLint x, GGLint y) { ggl_rasterPos2x(con, gglIntToFixed(x), gglIntToFixed(y)); } void ggl_copyPixels(void* con, GGLint xs, GGLint ys, GGLsizei width, GGLsizei height, GGLenum type) { GGL_CONTEXT(c, con); // color-buffer surface_t* cb = &(c->state.buffers.color); // undefined behaviour if we try to copy from outside the surface if (uint32_t(xs) > cb->width) return; if (uint32_t(ys) > cb->height) return; if (uint32_t(xs + width) > cb->width) return; if (uint32_t(ys + height) > cb->height) return; // copy to current raster position GGLint xd = gglFixedToIntRound(c->state.raster.x); GGLint yd = gglFixedToIntRound(c->state.raster.y); // clip to scissor if (xd < GGLint(c->state.scissor.left)) { GGLint offset = GGLint(c->state.scissor.left) - xd; xd = GGLint(c->state.scissor.left); xs += offset; width -= offset; } if (yd < GGLint(c->state.scissor.top)) { GGLint offset = GGLint(c->state.scissor.top) - yd; yd = GGLint(c->state.scissor.top); ys += offset; height -= offset; } if ((xd + width) > GGLint(c->state.scissor.right)) { width = GGLint(c->state.scissor.right) - xd; } if ((yd + height) > GGLint(c->state.scissor.bottom)) { height = GGLint(c->state.scissor.bottom) - yd; } if (width<=0 || height<=0) { return; // nothing to copy } if (xs==xd && ys==yd) { // nothing to do, but be careful, this might not be true when we support // gglPixelTransfer, gglPixelMap and gglPixelZoom return; } const GGLFormat* fp = &(c->formats[cb->format]); uint8_t* src = reinterpret_cast<uint8_t*>(cb->data) + (xs + (cb->stride * ys)) * fp->size; uint8_t* dst = reinterpret_cast<uint8_t*>(cb->data) + (xd + (cb->stride * yd)) * fp->size; const size_t bpr = cb->stride * fp->size; const size_t rowsize = width * fp->size; size_t yc = height; if (ys < yd) { // bottom to top src += height * bpr; dst += height * bpr; do { dst -= bpr; src -= bpr; memcpy(dst, src, rowsize); } while (--yc); } else { if (ys == yd) { // might be right to left do { memmove(dst, src, rowsize); dst += bpr; src += bpr; } while (--yc); } else { // top to bottom do { memcpy(dst, src, rowsize); dst += bpr; src += bpr; } while (--yc); } } } }; // namespace android using namespace android; GGLint gglBitBlit(GGLContext* con, int tmu, GGLint crop[4], GGLint where[4]) { GGL_CONTEXT(c, (void*)con); GGLint x = where[0]; GGLint y = where[1]; GGLint w = where[2]; GGLint h = where[3]; // exclsively enable this tmu const GGLSurface& cbSurface = c->state.buffers.color.s; c->procs.activeTexture(c, tmu); c->procs.disable(c, GGL_W_LERP); uint32_t tmus = 1UL<<tmu; if (c->state.enabled_tmu != tmus) { c->activeTMU->enable = 1; c->state.enabled_tmu = tmus; c->state.enables |= GGL_ENABLE_TMUS; ggl_state_changed(c, GGL_TMU_STATE); } const GGLint Wcr = crop[2]; const GGLint Hcr = crop[3]; if ((w == Wcr) && (h == Hcr)) { c->procs.texGeni(c, GGL_S, GGL_TEXTURE_GEN_MODE, GGL_ONE_TO_ONE); c->procs.texGeni(c, GGL_T, GGL_TEXTURE_GEN_MODE, GGL_ONE_TO_ONE); const GGLint Ucr = crop[0]; const GGLint Vcr = crop[1]; const GGLint s0 = Ucr - x; const GGLint t0 = Vcr - y; c->procs.texCoord2i(c, s0, t0); c->procs.recti(c, x, y, x+w, y+h); } else { int32_t texcoords[8]; x = gglIntToFixed(x); y = gglIntToFixed(y); // we CLAMP here, which works with premultiplied (s,t) c->procs.texParameteri(c, GGL_TEXTURE_2D, GGL_TEXTURE_WRAP_S, GGL_CLAMP); c->procs.texParameteri(c, GGL_TEXTURE_2D, GGL_TEXTURE_WRAP_T, GGL_CLAMP); c->procs.texGeni(c, GGL_S, GGL_TEXTURE_GEN_MODE, GGL_AUTOMATIC); c->procs.texGeni(c, GGL_T, GGL_TEXTURE_GEN_MODE, GGL_AUTOMATIC); const GGLint Ucr = crop[0] << 16; const GGLint Vcr = crop[1] << 16; const GGLint Wcr = crop[2] << 16; const GGLint Hcr = crop[3] << 16; // computes texture coordinates (pre-multiplied) int32_t dsdx = Wcr / w; // dsdx = ((Wcr/w)/Wt)*Wt int32_t dtdy = Hcr / h; // dtdy = ((Hcr/h)/Ht)*Ht int32_t s0 = Ucr - gglMulx(dsdx, x); // s0 = Ucr - x * dsdx int32_t t0 = Vcr - gglMulx(dtdy, y); // t0 = Vcr - y * dtdy texcoords[0] = s0; texcoords[1] = dsdx; texcoords[2] = 0; texcoords[3] = t0; texcoords[4] = 0; texcoords[5] = dtdy; texcoords[6] = 0; texcoords[7] = 0; c->procs.texCoordGradScale8xv(c, tmu, texcoords); c->procs.recti(c, gglFixedToIntRound(x), gglFixedToIntRound(y), gglFixedToIntRound(x)+w, gglFixedToIntRound(y)+h); } return 0; }