/* * Copyright 2008 Advanced Micro Devices, Inc. * * 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. * * Author: Alex Deucher * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "xf86.h" #include "exa.h" #include "radeon.h" #include "radeon_macros.h" #include "radeon_reg.h" #include "r600_shader.h" #include "r600_reg.h" #include "r600_state.h" extern PixmapPtr RADEONGetDrawablePixmap(DrawablePtr pDrawable); //#define SHOW_VERTEXES # define RADEON_ROP3_ZERO 0x00000000 # define RADEON_ROP3_DSa 0x00880000 # define RADEON_ROP3_SDna 0x00440000 # define RADEON_ROP3_S 0x00cc0000 # define RADEON_ROP3_DSna 0x00220000 # define RADEON_ROP3_D 0x00aa0000 # define RADEON_ROP3_DSx 0x00660000 # define RADEON_ROP3_DSo 0x00ee0000 # define RADEON_ROP3_DSon 0x00110000 # define RADEON_ROP3_DSxn 0x00990000 # define RADEON_ROP3_Dn 0x00550000 # define RADEON_ROP3_SDno 0x00dd0000 # define RADEON_ROP3_Sn 0x00330000 # define RADEON_ROP3_DSno 0x00bb0000 # define RADEON_ROP3_DSan 0x00770000 # define RADEON_ROP3_ONE 0x00ff0000 uint32_t RADEON_ROP[16] = { RADEON_ROP3_ZERO, /* GXclear */ RADEON_ROP3_DSa, /* Gxand */ RADEON_ROP3_SDna, /* GXandReverse */ RADEON_ROP3_S, /* GXcopy */ RADEON_ROP3_DSna, /* GXandInverted */ RADEON_ROP3_D, /* GXnoop */ RADEON_ROP3_DSx, /* GXxor */ RADEON_ROP3_DSo, /* GXor */ RADEON_ROP3_DSon, /* GXnor */ RADEON_ROP3_DSxn, /* GXequiv */ RADEON_ROP3_Dn, /* GXinvert */ RADEON_ROP3_SDno, /* GXorReverse */ RADEON_ROP3_Sn, /* GXcopyInverted */ RADEON_ROP3_DSno, /* GXorInverted */ RADEON_ROP3_DSan, /* GXnand */ RADEON_ROP3_ONE, /* GXset */ }; static void R600DoneSolid(PixmapPtr pPix); static void R600DoneComposite(PixmapPtr pDst); static Bool R600PrepareSolid(PixmapPtr pPix, int alu, Pixel pm, Pixel fg) { ScrnInfoPtr pScrn = xf86Screens[pPix->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; cb_config_t cb_conf; shader_config_t vs_conf, ps_conf; int pmask = 0; uint32_t a, r, g, b; float ps_alu_consts[4]; accel_state->dst_mc_addr = exaGetPixmapOffset(pPix) + info->fbLocation + pScrn->fbOffset; accel_state->dst_size = exaGetPixmapPitch(pPix) * pPix->drawable.height; accel_state->dst_pitch = exaGetPixmapPitch(pPix) / (pPix->drawable.bitsPerPixel / 8); // bad pitch if (accel_state->dst_pitch & 7) return FALSE; // bad offset if (accel_state->dst_mc_addr & 0xff) return FALSE; if (pPix->drawable.bitsPerPixel == 24) return FALSE; CLEAR (cb_conf); CLEAR (vs_conf); CLEAR (ps_conf); //return FALSE; #ifdef SHOW_VERTEXES ErrorF("%dx%d @ %dbpp, 0x%08x\n", pPix->drawable.width, pPix->drawable.height, pPix->drawable.bitsPerPixel, exaGetPixmapPitch(pPix)); #endif accel_state->ib = RADEONCPGetBuffer(pScrn); /* Init */ start_3d(pScrn, accel_state->ib); //cp_set_surface_sync(pScrn, accel_state->ib); set_default_state(pScrn, accel_state->ib); /* Scissor / viewport */ EREG(accel_state->ib, PA_CL_VTE_CNTL, VTX_XY_FMT_bit); EREG(accel_state->ib, PA_CL_CLIP_CNTL, CLIP_DISABLE_bit); accel_state->vs_mc_addr = info->fbLocation + pScrn->fbOffset + accel_state->shaders->offset + accel_state->solid_vs_offset; accel_state->ps_mc_addr = info->fbLocation + pScrn->fbOffset + accel_state->shaders->offset + accel_state->solid_ps_offset; accel_state->vs_size = 512; accel_state->ps_size = 512; /* Shader */ /* flush SQ cache */ cp_set_surface_sync(pScrn, accel_state->ib, SH_ACTION_ENA_bit, accel_state->vs_size, accel_state->vs_mc_addr); vs_conf.shader_addr = accel_state->vs_mc_addr; vs_conf.num_gprs = 2; vs_conf.stack_size = 0; vs_setup (pScrn, accel_state->ib, &vs_conf); /* flush SQ cache */ cp_set_surface_sync(pScrn, accel_state->ib, SH_ACTION_ENA_bit, accel_state->ps_size, accel_state->ps_mc_addr); ps_conf.shader_addr = accel_state->ps_mc_addr; ps_conf.num_gprs = 1; ps_conf.stack_size = 0; ps_conf.uncached_first_inst = 1; ps_conf.clamp_consts = 0; ps_conf.export_mode = 2; ps_setup (pScrn, accel_state->ib, &ps_conf); /* Render setup */ if (pm & 0x000000ff) pmask |= 4; //B if (pm & 0x0000ff00) pmask |= 2; //G if (pm & 0x00ff0000) pmask |= 1; //R if (pm & 0xff000000) pmask |= 8; //A EREG(accel_state->ib, CB_SHADER_MASK, (pmask << OUTPUT0_ENABLE_shift)); EREG(accel_state->ib, R7xx_CB_SHADER_CONTROL, (RT0_ENABLE_bit)); EREG(accel_state->ib, CB_COLOR_CONTROL, RADEON_ROP[alu]); cb_conf.id = 0; cb_conf.w = accel_state->dst_pitch; cb_conf.h = pPix->drawable.height; cb_conf.base = accel_state->dst_mc_addr; if (pPix->drawable.bitsPerPixel == 8) { cb_conf.format = COLOR_8; cb_conf.comp_swap = 3; //A } else if (pPix->drawable.bitsPerPixel == 16) { cb_conf.format = COLOR_5_6_5; cb_conf.comp_swap = 2; //RGB } else { cb_conf.format = COLOR_8_8_8_8; cb_conf.comp_swap = 1; //ARGB } cb_conf.source_format = 1; cb_conf.blend_clamp = 1; set_render_target(pScrn, accel_state->ib, &cb_conf); EREG(accel_state->ib, PA_SU_SC_MODE_CNTL, (FACE_bit | (POLYMODE_PTYPE__TRIANGLES << POLYMODE_FRONT_PTYPE_shift) | (POLYMODE_PTYPE__TRIANGLES << POLYMODE_BACK_PTYPE_shift))); EREG(accel_state->ib, DB_SHADER_CONTROL, ((1 << Z_ORDER_shift) | /* EARLY_Z_THEN_LATE_Z */ DUAL_EXPORT_ENABLE_bit)); /* Only useful if no depth export */ /* Interpolator setup */ // one unused export from VS (VS_EXPORT_COUNT is zero based, count minus one) EREG(accel_state->ib, SPI_VS_OUT_CONFIG, (0 << VS_EXPORT_COUNT_shift)); EREG(accel_state->ib, SPI_VS_OUT_ID_0, (0 << SEMANTIC_0_shift)); /* Enabling flat shading needs both FLAT_SHADE_bit in SPI_PS_INPUT_CNTL_x * *and* FLAT_SHADE_ENA_bit in SPI_INTERP_CONTROL_0 */ // no VS exports as PS input (NUM_INTERP is not zero based, no minus one) EREG(accel_state->ib, SPI_PS_IN_CONTROL_0, (0 << NUM_INTERP_shift)); EREG(accel_state->ib, SPI_PS_IN_CONTROL_1, 0); // color semantic id 0 -> GPR[0] EREG(accel_state->ib, SPI_PS_INPUT_CNTL_0 + (0 <<2), ((0 << SEMANTIC_shift) | (0x03 << DEFAULT_VAL_shift) | FLAT_SHADE_bit | SEL_CENTROID_bit)); EREG(accel_state->ib, SPI_INTERP_CONTROL_0, FLAT_SHADE_ENA_bit | 0); // PS alu constants if (pPix->drawable.bitsPerPixel == 16) { r = (fg >> 11) & 0x1f; g = (fg >> 5) & 0x3f; b = (fg >> 0) & 0x1f; ps_alu_consts[0] = (float)r / 31; //R ps_alu_consts[1] = (float)g / 63; //G ps_alu_consts[2] = (float)b / 31; //B ps_alu_consts[3] = 1.0; //A } else if (pPix->drawable.bitsPerPixel == 8) { a = (fg >> 0) & 0xff; ps_alu_consts[0] = 0.0; //R ps_alu_consts[1] = 0.0; //G ps_alu_consts[2] = 0.0; //B ps_alu_consts[3] = (float)a / 255; //A } else { a = (fg >> 24) & 0xff; r = (fg >> 16) & 0xff; g = (fg >> 8) & 0xff; b = (fg >> 0) & 0xff; ps_alu_consts[0] = (float)r / 255; //R ps_alu_consts[1] = (float)g / 255; //G ps_alu_consts[2] = (float)b / 255; //B ps_alu_consts[3] = (float)a / 255; //A } set_alu_consts(pScrn, accel_state->ib, 0, sizeof(ps_alu_consts) / SQ_ALU_CONSTANT_offset, ps_alu_consts); accel_state->vb_index = 0; #ifdef SHOW_VERTEXES ErrorF("PM: 0x%08x\n", pm); #endif return TRUE; } static void R600Solid(PixmapPtr pPix, int x1, int y1, int x2, int y2) { ScrnInfoPtr pScrn = xf86Screens[pPix->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; struct r6xx_solid_vertex vertex[3]; struct r6xx_solid_vertex *solid_vb; if (((accel_state->vb_index + 3) * 8) > (accel_state->ib->total / 2)) { R600DoneSolid(pPix); accel_state->vb_index = 0; accel_state->ib = RADEONCPGetBuffer(pScrn); } solid_vb = (pointer)((char*)accel_state->ib->address + (accel_state->ib->total / 2)); vertex[0].x = (float)x1; vertex[0].y = (float)y1; vertex[1].x = (float)x1; vertex[1].y = (float)y2; vertex[2].x = (float)x2; vertex[2].y = (float)y2; #ifdef SHOW_VERTEXES ErrorF("vertex 0: %f, %f\n", vertex[0].x, vertex[0].y); ErrorF("vertex 1: %f, %f\n", vertex[1].x, vertex[1].y); ErrorF("vertex 2: %f\n", vertex[2].x, vertex[2].y); #endif // append to vertex buffer solid_vb[accel_state->vb_index++] = vertex[0]; solid_vb[accel_state->vb_index++] = vertex[1]; solid_vb[accel_state->vb_index++] = vertex[2]; } static void R600DoneSolid(PixmapPtr pPix) { ScrnInfoPtr pScrn = xf86Screens[pPix->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; draw_config_t draw_conf; vtx_resource_t vtx_res; CLEAR (draw_conf); CLEAR (vtx_res); if (accel_state->vb_index == 0) { R600IBDiscard(pScrn, accel_state->ib); return; } accel_state->vb_mc_addr = info->gartLocation + info->dri->bufStart + (accel_state->ib->idx * accel_state->ib->total) + (accel_state->ib->total / 2); accel_state->vb_size = accel_state->vb_index * 8; /* flush vertex cache */ if ((info->ChipFamily == CHIP_FAMILY_RV610) || (info->ChipFamily == CHIP_FAMILY_RV620) || (info->ChipFamily == CHIP_FAMILY_RS780) || (info->ChipFamily == CHIP_FAMILY_RV710)) cp_set_surface_sync(pScrn, accel_state->ib, TC_ACTION_ENA_bit, accel_state->vb_size, accel_state->vb_mc_addr); else cp_set_surface_sync(pScrn, accel_state->ib, VC_ACTION_ENA_bit, accel_state->vb_size, accel_state->vb_mc_addr); /* Vertex buffer setup */ vtx_res.id = SQ_VTX_RESOURCE_vs; vtx_res.vtx_size_dw = 8 / 4; vtx_res.vtx_num_entries = accel_state->vb_size / 4; vtx_res.mem_req_size = 1; vtx_res.vb_addr = accel_state->vb_mc_addr; set_vtx_resource (pScrn, accel_state->ib, &vtx_res); /* Draw */ draw_conf.prim_type = DI_PT_RECTLIST; draw_conf.vgt_draw_initiator = DI_SRC_SEL_AUTO_INDEX; draw_conf.num_instances = 1; draw_conf.num_indices = vtx_res.vtx_num_entries / vtx_res.vtx_size_dw; draw_conf.index_type = DI_INDEX_SIZE_16_BIT; draw_auto(pScrn, accel_state->ib, &draw_conf); wait_3d_idle_clean(pScrn, accel_state->ib); /* sync dst surface */ cp_set_surface_sync(pScrn, accel_state->ib, (CB_ACTION_ENA_bit | CB0_DEST_BASE_ENA_bit), accel_state->dst_size, accel_state->dst_mc_addr); R600CPFlushIndirect(pScrn, accel_state->ib); } static void R600DoPrepareCopy(ScrnInfoPtr pScrn, int src_pitch, int src_width, int src_height, uint32_t src_offset, int src_bpp, int dst_pitch, int dst_height, uint32_t dst_offset, int dst_bpp, int rop, Pixel planemask) { RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; int pmask = 0; cb_config_t cb_conf; tex_resource_t tex_res; tex_sampler_t tex_samp; shader_config_t vs_conf, ps_conf; CLEAR (cb_conf); CLEAR (tex_res); CLEAR (tex_samp); CLEAR (vs_conf); CLEAR (ps_conf); accel_state->ib = RADEONCPGetBuffer(pScrn); /* Init */ start_3d(pScrn, accel_state->ib); //cp_set_surface_sync(pScrn, accel_state->ib); set_default_state(pScrn, accel_state->ib); /* Scissor / viewport */ EREG(accel_state->ib, PA_CL_VTE_CNTL, VTX_XY_FMT_bit); EREG(accel_state->ib, PA_CL_CLIP_CNTL, CLIP_DISABLE_bit); accel_state->vs_mc_addr = info->fbLocation + pScrn->fbOffset + accel_state->shaders->offset + accel_state->copy_vs_offset; accel_state->ps_mc_addr = info->fbLocation + pScrn->fbOffset + accel_state->shaders->offset + accel_state->copy_ps_offset; accel_state->vs_size = 512; accel_state->ps_size = 512; /* Shader */ /* flush SQ cache */ cp_set_surface_sync(pScrn, accel_state->ib, SH_ACTION_ENA_bit, accel_state->vs_size, accel_state->vs_mc_addr); vs_conf.shader_addr = accel_state->vs_mc_addr; vs_conf.num_gprs = 2; vs_conf.stack_size = 0; vs_setup (pScrn, accel_state->ib, &vs_conf); /* flush SQ cache */ cp_set_surface_sync(pScrn, accel_state->ib, SH_ACTION_ENA_bit, accel_state->ps_size, accel_state->ps_mc_addr); ps_conf.shader_addr = accel_state->ps_mc_addr; ps_conf.num_gprs = 1; ps_conf.stack_size = 0; ps_conf.uncached_first_inst = 1; ps_conf.clamp_consts = 0; ps_conf.export_mode = 2; ps_setup (pScrn, accel_state->ib, &ps_conf); accel_state->src_size[0] = src_pitch * src_height * (src_bpp/8); accel_state->src_mc_addr[0] = src_offset; accel_state->src_pitch[0] = src_pitch; accel_state->src_width[0] = src_width; accel_state->src_height[0] = src_height; accel_state->src_bpp[0] = src_bpp; /* flush texture cache */ cp_set_surface_sync(pScrn, accel_state->ib, TC_ACTION_ENA_bit, accel_state->src_size[0], accel_state->src_mc_addr[0]); /* Texture */ tex_res.id = 0; tex_res.w = src_width; tex_res.h = src_height; tex_res.pitch = accel_state->src_pitch[0]; tex_res.depth = 0; tex_res.dim = SQ_TEX_DIM_2D; tex_res.base = accel_state->src_mc_addr[0]; tex_res.mip_base = accel_state->src_mc_addr[0]; if (src_bpp == 8) { tex_res.format = FMT_8; tex_res.dst_sel_x = SQ_SEL_1; //R tex_res.dst_sel_y = SQ_SEL_1; //G tex_res.dst_sel_z = SQ_SEL_1; //B tex_res.dst_sel_w = SQ_SEL_X; //A } else if (src_bpp == 16) { tex_res.format = FMT_5_6_5; tex_res.dst_sel_x = SQ_SEL_Z; //R tex_res.dst_sel_y = SQ_SEL_Y; //G tex_res.dst_sel_z = SQ_SEL_X; //B tex_res.dst_sel_w = SQ_SEL_1; //A } else { tex_res.format = FMT_8_8_8_8; tex_res.dst_sel_x = SQ_SEL_Z; //R tex_res.dst_sel_y = SQ_SEL_Y; //G tex_res.dst_sel_z = SQ_SEL_X; //B tex_res.dst_sel_w = SQ_SEL_W; //A } tex_res.request_size = 1; tex_res.base_level = 0; tex_res.last_level = 0; tex_res.perf_modulation = 0; set_tex_resource (pScrn, accel_state->ib, &tex_res); tex_samp.id = 0; tex_samp.clamp_x = SQ_TEX_CLAMP_LAST_TEXEL; tex_samp.clamp_y = SQ_TEX_CLAMP_LAST_TEXEL; tex_samp.clamp_z = SQ_TEX_WRAP; tex_samp.xy_mag_filter = SQ_TEX_XY_FILTER_POINT; tex_samp.xy_min_filter = SQ_TEX_XY_FILTER_POINT; tex_samp.z_filter = SQ_TEX_Z_FILTER_NONE; tex_samp.mip_filter = 0; /* no mipmap */ set_tex_sampler (pScrn, accel_state->ib, &tex_samp); /* Render setup */ if (planemask & 0x000000ff) pmask |= 4; //B if (planemask & 0x0000ff00) pmask |= 2; //G if (planemask & 0x00ff0000) pmask |= 1; //R if (planemask & 0xff000000) pmask |= 8; //A EREG(accel_state->ib, CB_SHADER_MASK, (pmask << OUTPUT0_ENABLE_shift)); EREG(accel_state->ib, R7xx_CB_SHADER_CONTROL, (RT0_ENABLE_bit)); EREG(accel_state->ib, CB_COLOR_CONTROL, RADEON_ROP[rop]); accel_state->dst_size = dst_pitch * dst_height * (dst_bpp/8); accel_state->dst_mc_addr = dst_offset; accel_state->dst_pitch = dst_pitch; accel_state->dst_height = dst_height; accel_state->dst_bpp = dst_bpp; cb_conf.id = 0; cb_conf.w = accel_state->dst_pitch; cb_conf.h = dst_height; cb_conf.base = accel_state->dst_mc_addr; if (dst_bpp == 8) { cb_conf.format = COLOR_8; cb_conf.comp_swap = 3; // A } else if (dst_bpp == 16) { cb_conf.format = COLOR_5_6_5; cb_conf.comp_swap = 2; // RGB } else { cb_conf.format = COLOR_8_8_8_8; cb_conf.comp_swap = 1; // ARGB } cb_conf.source_format = 1; cb_conf.blend_clamp = 1; set_render_target(pScrn, accel_state->ib, &cb_conf); EREG(accel_state->ib, PA_SU_SC_MODE_CNTL, (FACE_bit | (POLYMODE_PTYPE__TRIANGLES << POLYMODE_FRONT_PTYPE_shift) | (POLYMODE_PTYPE__TRIANGLES << POLYMODE_BACK_PTYPE_shift))); EREG(accel_state->ib, DB_SHADER_CONTROL, ((1 << Z_ORDER_shift) | /* EARLY_Z_THEN_LATE_Z */ DUAL_EXPORT_ENABLE_bit)); /* Only useful if no depth export */ /* Interpolator setup */ // export tex coord from VS EREG(accel_state->ib, SPI_VS_OUT_CONFIG, ((1 - 1) << VS_EXPORT_COUNT_shift)); EREG(accel_state->ib, SPI_VS_OUT_ID_0, (0 << SEMANTIC_0_shift)); /* Enabling flat shading needs both FLAT_SHADE_bit in SPI_PS_INPUT_CNTL_x * *and* FLAT_SHADE_ENA_bit in SPI_INTERP_CONTROL_0 */ // input tex coord from VS EREG(accel_state->ib, SPI_PS_IN_CONTROL_0, ((1 << NUM_INTERP_shift))); EREG(accel_state->ib, SPI_PS_IN_CONTROL_1, 0); // color semantic id 0 -> GPR[0] EREG(accel_state->ib, SPI_PS_INPUT_CNTL_0 + (0 <<2), ((0 << SEMANTIC_shift) | (0x01 << DEFAULT_VAL_shift) | SEL_CENTROID_bit)); EREG(accel_state->ib, SPI_INTERP_CONTROL_0, 0); accel_state->vb_index = 0; } static void R600DoCopy(ScrnInfoPtr pScrn) { RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; draw_config_t draw_conf; vtx_resource_t vtx_res; CLEAR (draw_conf); CLEAR (vtx_res); if (accel_state->vb_index == 0) { R600IBDiscard(pScrn, accel_state->ib); return; } accel_state->vb_mc_addr = info->gartLocation + info->dri->bufStart + (accel_state->ib->idx * accel_state->ib->total) + (accel_state->ib->total / 2); accel_state->vb_size = accel_state->vb_index * 16; /* flush vertex cache */ if ((info->ChipFamily == CHIP_FAMILY_RV610) || (info->ChipFamily == CHIP_FAMILY_RV620) || (info->ChipFamily == CHIP_FAMILY_RS780) || (info->ChipFamily == CHIP_FAMILY_RV710)) cp_set_surface_sync(pScrn, accel_state->ib, TC_ACTION_ENA_bit, accel_state->vb_size, accel_state->vb_mc_addr); else cp_set_surface_sync(pScrn, accel_state->ib, VC_ACTION_ENA_bit, accel_state->vb_size, accel_state->vb_mc_addr); /* Vertex buffer setup */ vtx_res.id = SQ_VTX_RESOURCE_vs; vtx_res.vtx_size_dw = 16 / 4; vtx_res.vtx_num_entries = accel_state->vb_size / 4; vtx_res.mem_req_size = 1; vtx_res.vb_addr = accel_state->vb_mc_addr; set_vtx_resource (pScrn, accel_state->ib, &vtx_res); draw_conf.prim_type = DI_PT_RECTLIST; draw_conf.vgt_draw_initiator = DI_SRC_SEL_AUTO_INDEX; draw_conf.num_instances = 1; draw_conf.num_indices = vtx_res.vtx_num_entries / vtx_res.vtx_size_dw; draw_conf.index_type = DI_INDEX_SIZE_16_BIT; draw_auto(pScrn, accel_state->ib, &draw_conf); wait_3d_idle_clean(pScrn, accel_state->ib); /* sync dst surface */ cp_set_surface_sync(pScrn, accel_state->ib, (CB_ACTION_ENA_bit | CB0_DEST_BASE_ENA_bit), accel_state->dst_size, accel_state->dst_mc_addr); R600CPFlushIndirect(pScrn, accel_state->ib); } static void R600AppendCopyVertex(ScrnInfoPtr pScrn, int srcX, int srcY, int dstX, int dstY, int w, int h) { RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; struct r6xx_copy_vertex *copy_vb; struct r6xx_copy_vertex vertex[3]; if (((accel_state->vb_index + 3) * 16) > (accel_state->ib->total / 2)) { R600DoCopy(pScrn); accel_state->vb_index = 0; accel_state->ib = RADEONCPGetBuffer(pScrn); } copy_vb = (pointer)((char*)accel_state->ib->address + (accel_state->ib->total / 2)); vertex[0].x = (float)dstX; vertex[0].y = (float)dstY; vertex[0].s = (float)srcX; vertex[0].t = (float)srcY; vertex[1].x = (float)dstX; vertex[1].y = (float)(dstY + h); vertex[1].s = (float)srcX; vertex[1].t = (float)(srcY + h); vertex[2].x = (float)(dstX + w); vertex[2].y = (float)(dstY + h); vertex[2].s = (float)(srcX + w); vertex[2].t = (float)(srcY + h); #ifdef SHOW_VERTEXES ErrorF("vertex 0: %f, %f, %f, %d\n", vertex[0].x, vertex[0].y, vertex[0].s, vertex[0].t); ErrorF("vertex 1: %f, %f, %f, %d\n", vertex[1].x, vertex[1].y, vertex[1].s, vertex[1].t); ErrorF("vertex 2: %f, %f, %f, %d\n", vertex[2].x, vertex[2].y, vertex[2].s, vertex[2].t); #endif // append to vertex buffer copy_vb[accel_state->vb_index++] = vertex[0]; copy_vb[accel_state->vb_index++] = vertex[1]; copy_vb[accel_state->vb_index++] = vertex[2]; } static Bool R600PrepareCopy(PixmapPtr pSrc, PixmapPtr pDst, int xdir, int ydir, int rop, Pixel planemask) { ScrnInfoPtr pScrn = xf86Screens[pDst->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; accel_state->dst_pitch = exaGetPixmapPitch(pDst) / (pDst->drawable.bitsPerPixel / 8); accel_state->src_pitch[0] = exaGetPixmapPitch(pSrc) / (pSrc->drawable.bitsPerPixel / 8); accel_state->src_mc_addr[0] = exaGetPixmapOffset(pSrc) + info->fbLocation + pScrn->fbOffset; accel_state->dst_mc_addr = exaGetPixmapOffset(pDst) + info->fbLocation + pScrn->fbOffset; accel_state->src_width[0] = pSrc->drawable.width; accel_state->src_height[0] = pSrc->drawable.height; accel_state->src_bpp[0] = pSrc->drawable.bitsPerPixel; accel_state->dst_height = pDst->drawable.height; accel_state->dst_bpp = pDst->drawable.bitsPerPixel; // bad pitch if (accel_state->src_pitch[0] & 7) return FALSE; if (accel_state->dst_pitch & 7) return FALSE; // bad offset if (accel_state->src_mc_addr[0] & 0xff) return FALSE; if (accel_state->dst_mc_addr & 0xff) return FALSE; if (pSrc->drawable.bitsPerPixel == 24) return FALSE; if (pDst->drawable.bitsPerPixel == 24) return FALSE; //return FALSE; #ifdef SHOW_VERTEXES ErrorF("src: %dx%d @ %dbpp, 0x%08x\n", pSrc->drawable.width, pSrc->drawable.height, pSrc->drawable.bitsPerPixel, exaGetPixmapPitch(pSrc)); ErrorF("dst: %dx%d @ %dbpp, 0x%08x\n", pDst->drawable.width, pDst->drawable.height, pDst->drawable.bitsPerPixel, exaGetPixmapPitch(pDst)); #endif accel_state->rop = rop; accel_state->planemask = planemask; if (exaGetPixmapOffset(pSrc) == exaGetPixmapOffset(pDst)) { unsigned long size = pDst->drawable.height * accel_state->dst_pitch * pDst->drawable.bitsPerPixel/8; accel_state->same_surface = TRUE; if (accel_state->copy_area) { exaOffscreenFree(pDst->drawable.pScreen, accel_state->copy_area); accel_state->copy_area = NULL; } accel_state->copy_area = exaOffscreenAlloc(pDst->drawable.pScreen, size, 256, TRUE, NULL, NULL); } else { accel_state->same_surface = FALSE; R600DoPrepareCopy(pScrn, accel_state->src_pitch[0], pSrc->drawable.width, pSrc->drawable.height, accel_state->src_mc_addr[0], pSrc->drawable.bitsPerPixel, accel_state->dst_pitch, pDst->drawable.height, accel_state->dst_mc_addr, pDst->drawable.bitsPerPixel, rop, planemask); } return TRUE; } static Bool is_overlap(int sx1, int sx2, int sy1, int sy2, int dx1, int dx2, int dy1, int dy2) { if (((sx1 >= dx1) && (sx1 <= dx2) && (sy1 >= dy1) && (sy1 <= dy2)) || // TL x1, y1 ((sx2 >= dx1) && (sx2 <= dx2) && (sy1 >= dy1) && (sy1 <= dy2)) || // TR x2, y1 ((sx1 >= dx1) && (sx1 <= dx2) && (sy2 >= dy1) && (sy2 <= dy2)) || // BL x1, y2 ((sx2 >= dx1) && (sx2 <= dx2) && (sy2 >= dy1) && (sy2 <= dy2))) // BR x2, y2 return TRUE; else return FALSE; } static void R600OverlapCopy(PixmapPtr pDst, int srcX, int srcY, int dstX, int dstY, int w, int h) { ScrnInfoPtr pScrn = xf86Screens[pDst->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; uint32_t dst_pitch = exaGetPixmapPitch(pDst) / (pDst->drawable.bitsPerPixel / 8); uint32_t dst_offset = exaGetPixmapOffset(pDst) + info->fbLocation + pScrn->fbOffset; int i, hchunk, vchunk; if (is_overlap(srcX, srcX + w, srcY, srcY + h, dstX, dstX + w, dstY, dstY + h)) { /* Calculate height/width of non-overlapping area */ hchunk = (srcX < dstX) ? (dstX - srcX) : (srcX - dstX); vchunk = (srcY < dstY) ? (dstY - srcY) : (srcY - dstY); /* Diagonally offset overlap is reduced to either horizontal or vertical offset-only * by copying a part of the non-overlapping portion, then adjusting coordinates * Choose horizontal vs vertical to minimize the total number of copy operations */ if (vchunk != 0 && hchunk != 0) { //diagonal if ((w / hchunk) <= (h / vchunk)) { // reduce to horizontal if (srcY > dstY ) { // diagonal up R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX, srcY, dstX, dstY, w, vchunk); R600DoCopy(pScrn); srcY = srcY + vchunk; dstY = dstY + vchunk; } else { // diagonal down R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX, srcY + h - vchunk, dstX, dstY + h - vchunk, w, vchunk); R600DoCopy(pScrn); } h = h - vchunk; vchunk = 0; } else { //reduce to vertical if (srcX > dstX ) { // diagonal left R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX, srcY, dstX, dstY, hchunk, h); R600DoCopy(pScrn); srcX = srcX + hchunk; dstX = dstX + hchunk; } else { // diagonal right R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX + w - hchunk, srcY, dstX + w - hchunk, dstY, hchunk, h); R600DoCopy(pScrn); } w = w - hchunk; hchunk = 0; } } if (vchunk == 0) { // left/right if (srcX < dstX) { // right // copy right to left for (i = w; i > 0; i -= hchunk) { R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX + i - hchunk, srcY, dstX + i - hchunk, dstY, hchunk, h); R600DoCopy(pScrn); } } else { //left // copy left to right for (i = 0; i < w; i += hchunk) { R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX + i, srcY, dstX + i, dstY, hchunk, h); R600DoCopy(pScrn); } } } else { //up/down if (srcY > dstY) { // up // copy top to bottom for (i = 0; i < h; i += vchunk) { R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); if (vchunk > h - i) vchunk = h - i; R600AppendCopyVertex(pScrn, srcX, srcY + i, dstX, dstY + i, w, vchunk); R600DoCopy(pScrn); } } else { // down // copy bottom to top for (i = h; i > 0; i -= vchunk) { R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); if (vchunk > i) vchunk = i; R600AppendCopyVertex(pScrn, srcX, srcY + i - vchunk, dstX, dstY + i - vchunk, w, vchunk); R600DoCopy(pScrn); } } } } else { R600DoPrepareCopy(pScrn, dst_pitch, pDst->drawable.width, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, dst_pitch, pDst->drawable.height, dst_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX, srcY, dstX, dstY, w, h); R600DoCopy(pScrn); } } static void R600Copy(PixmapPtr pDst, int srcX, int srcY, int dstX, int dstY, int w, int h) { ScrnInfoPtr pScrn = xf86Screens[pDst->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; if (accel_state->same_surface && (srcX == dstX) && (srcY == dstY)) return; if (accel_state->same_surface && is_overlap(srcX, srcX + w, srcY, srcY + h, dstX, dstX + w, dstY, dstY + h)) { if (accel_state->copy_area) { uint32_t pitch = exaGetPixmapPitch(pDst) / (pDst->drawable.bitsPerPixel / 8); uint32_t orig_offset, tmp_offset; tmp_offset = accel_state->copy_area->offset + info->fbLocation + pScrn->fbOffset; orig_offset = exaGetPixmapOffset(pDst) + info->fbLocation + pScrn->fbOffset; R600DoPrepareCopy(pScrn, pitch, pDst->drawable.width, pDst->drawable.height, orig_offset, pDst->drawable.bitsPerPixel, pitch, pDst->drawable.height, tmp_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX, srcY, dstX, dstY, w, h); R600DoCopy(pScrn); R600DoPrepareCopy(pScrn, pitch, pDst->drawable.width, pDst->drawable.height, tmp_offset, pDst->drawable.bitsPerPixel, pitch, pDst->drawable.height, orig_offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, dstX, dstY, dstX, dstY, w, h); R600DoCopy(pScrn); } else R600OverlapCopy(pDst, srcX, srcY, dstX, dstY, w, h); } else if (accel_state->same_surface) { uint32_t pitch = exaGetPixmapPitch(pDst) / (pDst->drawable.bitsPerPixel / 8); uint32_t offset = exaGetPixmapOffset(pDst) + info->fbLocation + pScrn->fbOffset; R600DoPrepareCopy(pScrn, pitch, pDst->drawable.width, pDst->drawable.height, offset, pDst->drawable.bitsPerPixel, pitch, pDst->drawable.height, offset, pDst->drawable.bitsPerPixel, accel_state->rop, accel_state->planemask); R600AppendCopyVertex(pScrn, srcX, srcY, dstX, dstY, w, h); R600DoCopy(pScrn); } else { R600AppendCopyVertex(pScrn, srcX, srcY, dstX, dstY, w, h); } } static void R600DoneCopy(PixmapPtr pDst) { ScrnInfoPtr pScrn = xf86Screens[pDst->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; if (!accel_state->same_surface) R600DoCopy(pScrn); if (accel_state->copy_area) { exaOffscreenFree(pDst->drawable.pScreen, accel_state->copy_area); accel_state->copy_area = NULL; } } #define RADEON_TRACE_FALL 0 #define RADEON_TRACE_DRAW 0 #if RADEON_TRACE_FALL #define RADEON_FALLBACK(x) \ do { \ ErrorF("%s: ", __FUNCTION__); \ ErrorF x; \ return FALSE; \ } while (0) #else #define RADEON_FALLBACK(x) return FALSE #endif #define xFixedToFloat(f) (((float) (f)) / 65536) static inline void transformPoint(PictTransform *transform, xPointFixed *point) { PictVector v; v.vector[0] = point->x; v.vector[1] = point->y; v.vector[2] = xFixed1; PictureTransformPoint(transform, &v); point->x = v.vector[0]; point->y = v.vector[1]; } struct blendinfo { Bool dst_alpha; Bool src_alpha; uint32_t blend_cntl; }; static struct blendinfo R600BlendOp[] = { /* Clear */ {0, 0, (BLEND_ZERO << COLOR_SRCBLEND_shift) | (BLEND_ZERO << COLOR_DESTBLEND_shift)}, /* Src */ {0, 0, (BLEND_ONE << COLOR_SRCBLEND_shift) | (BLEND_ZERO << COLOR_DESTBLEND_shift)}, /* Dst */ {0, 0, (BLEND_ZERO << COLOR_SRCBLEND_shift) | (BLEND_ONE << COLOR_DESTBLEND_shift)}, /* Over */ {0, 1, (BLEND_ONE << COLOR_SRCBLEND_shift) | (BLEND_ONE_MINUS_SRC_ALPHA << COLOR_DESTBLEND_shift)}, /* OverReverse */ {1, 0, (BLEND_ONE_MINUS_DST_ALPHA << COLOR_SRCBLEND_shift) | (BLEND_ONE << COLOR_DESTBLEND_shift)}, /* In */ {1, 0, (BLEND_DST_ALPHA << COLOR_SRCBLEND_shift) | (BLEND_ZERO << COLOR_DESTBLEND_shift)}, /* InReverse */ {0, 1, (BLEND_ZERO << COLOR_SRCBLEND_shift) | (BLEND_SRC_ALPHA << COLOR_DESTBLEND_shift)}, /* Out */ {1, 0, (BLEND_ONE_MINUS_DST_ALPHA << COLOR_SRCBLEND_shift) | (BLEND_ZERO << COLOR_DESTBLEND_shift)}, /* OutReverse */ {0, 1, (BLEND_ZERO << COLOR_SRCBLEND_shift) | (BLEND_ONE_MINUS_SRC_ALPHA << COLOR_DESTBLEND_shift)}, /* Atop */ {1, 1, (BLEND_DST_ALPHA << COLOR_SRCBLEND_shift) | (BLEND_ONE_MINUS_SRC_ALPHA << COLOR_DESTBLEND_shift)}, /* AtopReverse */ {1, 1, (BLEND_ONE_MINUS_DST_ALPHA << COLOR_SRCBLEND_shift) | (BLEND_SRC_ALPHA << COLOR_DESTBLEND_shift)}, /* Xor */ {1, 1, (BLEND_ONE_MINUS_DST_ALPHA << COLOR_SRCBLEND_shift) | (BLEND_ONE_MINUS_SRC_ALPHA << COLOR_DESTBLEND_shift)}, /* Add */ {0, 0, (BLEND_ONE << COLOR_SRCBLEND_shift) | (BLEND_ONE << COLOR_DESTBLEND_shift)}, }; struct formatinfo { unsigned int fmt; uint32_t card_fmt; }; static struct formatinfo R600TexFormats[] = { {PICT_a8r8g8b8, FMT_8_8_8_8}, {PICT_x8r8g8b8, FMT_8_8_8_8}, {PICT_a8b8g8r8, FMT_8_8_8_8}, {PICT_x8b8g8r8, FMT_8_8_8_8}, {PICT_r5g6b5, FMT_5_6_5}, {PICT_a1r5g5b5, FMT_1_5_5_5}, {PICT_x1r5g5b5, FMT_1_5_5_5}, {PICT_a8, FMT_8}, }; static uint32_t R600GetBlendCntl(int op, PicturePtr pMask, uint32_t dst_format) { uint32_t sblend, dblend; sblend = R600BlendOp[op].blend_cntl & COLOR_SRCBLEND_mask; dblend = R600BlendOp[op].blend_cntl & COLOR_DESTBLEND_mask; /* If there's no dst alpha channel, adjust the blend op so that we'll treat * it as always 1. */ if (PICT_FORMAT_A(dst_format) == 0 && R600BlendOp[op].dst_alpha) { if (sblend == (BLEND_DST_ALPHA << COLOR_SRCBLEND_shift)) sblend = (BLEND_ONE << COLOR_SRCBLEND_shift); else if (sblend == (BLEND_ONE_MINUS_DST_ALPHA << COLOR_SRCBLEND_shift)) sblend = (BLEND_ZERO << COLOR_SRCBLEND_shift); } /* If the source alpha is being used, then we should only be in a case where * the source blend factor is 0, and the source blend value is the mask * channels multiplied by the source picture's alpha. */ if (pMask && pMask->componentAlpha && R600BlendOp[op].src_alpha) { if (dblend == (BLEND_SRC_ALPHA << COLOR_DESTBLEND_shift)) { dblend = (BLEND_SRC_COLOR << COLOR_DESTBLEND_shift); } else if (dblend == (BLEND_ONE_MINUS_SRC_ALPHA << COLOR_DESTBLEND_shift)) { dblend = (BLEND_ONE_MINUS_SRC_COLOR << COLOR_DESTBLEND_shift); } } return sblend | dblend; } static Bool R600GetDestFormat(PicturePtr pDstPicture, uint32_t *dst_format) { switch (pDstPicture->format) { case PICT_a8r8g8b8: case PICT_x8r8g8b8: *dst_format = COLOR_8_8_8_8; break; case PICT_r5g6b5: *dst_format = COLOR_5_6_5; break; case PICT_a1r5g5b5: case PICT_x1r5g5b5: *dst_format = COLOR_1_5_5_5; break; case PICT_a8: *dst_format = COLOR_8; break; default: RADEON_FALLBACK(("Unsupported dest format 0x%x\n", (int)pDstPicture->format)); } return TRUE; } static Bool R600CheckCompositeTexture(PicturePtr pPict, PicturePtr pDstPict, int op, int unit) { int w = pPict->pDrawable->width; int h = pPict->pDrawable->height; unsigned int i; int max_tex_w, max_tex_h; max_tex_w = 8192; max_tex_h = 8192; if ((w > max_tex_w) || (h > max_tex_h)) RADEON_FALLBACK(("Picture w/h too large (%dx%d)\n", w, h)); for (i = 0; i < sizeof(R600TexFormats) / sizeof(R600TexFormats[0]); i++) { if (R600TexFormats[i].fmt == pPict->format) break; } if (i == sizeof(R600TexFormats) / sizeof(R600TexFormats[0])) RADEON_FALLBACK(("Unsupported picture format 0x%x\n", (int)pPict->format)); if (pPict->filter != PictFilterNearest && pPict->filter != PictFilterBilinear) RADEON_FALLBACK(("Unsupported filter 0x%x\n", pPict->filter)); /* for REPEAT_NONE, Render semantics are that sampling outside the source * picture results in alpha=0 pixels. We can implement this with a border color * *if* our source texture has an alpha channel, otherwise we need to fall * back. If we're not transformed then we hope that upper layers have clipped * rendering to the bounds of the source drawable, in which case it doesn't * matter. I have not, however, verified that the X server always does such * clipping. */ //FIXME R6xx if (pPict->transform != 0 && !pPict->repeat && PICT_FORMAT_A(pPict->format) == 0) { if (!(((op == PictOpSrc) || (op == PictOpClear)) && (PICT_FORMAT_A(pDstPict->format) == 0))) RADEON_FALLBACK(("REPEAT_NONE unsupported for transformed xRGB source\n")); } return TRUE; } static Bool R600TextureSetup(PicturePtr pPict, PixmapPtr pPix, int unit) { ScrnInfoPtr pScrn = xf86Screens[pPix->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; int w = pPict->pDrawable->width; int h = pPict->pDrawable->height; unsigned int i; tex_resource_t tex_res; tex_sampler_t tex_samp; CLEAR (tex_res); CLEAR (tex_samp); for (i = 0; i < sizeof(R600TexFormats) / sizeof(R600TexFormats[0]); i++) { if (R600TexFormats[i].fmt == pPict->format) break; } accel_state->texW[unit] = w; accel_state->texH[unit] = h; //ErrorF("Tex %d setup %dx%d\n", unit, w, h); accel_state->src_pitch[unit] = exaGetPixmapPitch(pPix) / (pPix->drawable.bitsPerPixel / 8); accel_state->src_size[unit] = exaGetPixmapPitch(pPix) * h; accel_state->src_mc_addr[unit] = exaGetPixmapOffset(pPix) + info->fbLocation + pScrn->fbOffset; /* flush texture cache */ cp_set_surface_sync(pScrn, accel_state->ib, TC_ACTION_ENA_bit, accel_state->src_size[unit], accel_state->src_mc_addr[unit]); /* Texture */ tex_res.id = unit; tex_res.w = w; tex_res.h = h; tex_res.pitch = accel_state->src_pitch[unit]; tex_res.depth = 0; tex_res.dim = SQ_TEX_DIM_2D; tex_res.base = accel_state->src_mc_addr[unit]; tex_res.mip_base = accel_state->src_mc_addr[unit]; tex_res.format = R600TexFormats[i].card_fmt; tex_res.request_size = 1; /* component swizzles */ switch (pPict->format) { case PICT_a1r5g5b5: case PICT_a8r8g8b8: tex_res.dst_sel_x = SQ_SEL_Z; //R tex_res.dst_sel_y = SQ_SEL_Y; //G tex_res.dst_sel_z = SQ_SEL_X; //B tex_res.dst_sel_w = SQ_SEL_W; //A break; case PICT_a8b8g8r8: tex_res.dst_sel_x = SQ_SEL_X; //R tex_res.dst_sel_y = SQ_SEL_Y; //G tex_res.dst_sel_z = SQ_SEL_Z; //B tex_res.dst_sel_w = SQ_SEL_W; //A break; case PICT_x8b8g8r8: tex_res.dst_sel_x = SQ_SEL_X; //R tex_res.dst_sel_y = SQ_SEL_Y; //G tex_res.dst_sel_z = SQ_SEL_Z; //B tex_res.dst_sel_w = SQ_SEL_1; //A break; case PICT_x1r5g5b5: case PICT_x8r8g8b8: tex_res.dst_sel_x = SQ_SEL_Z; //R tex_res.dst_sel_y = SQ_SEL_Y; //G tex_res.dst_sel_z = SQ_SEL_X; //B tex_res.dst_sel_w = SQ_SEL_1; //A break; case PICT_r5g6b5: tex_res.dst_sel_x = SQ_SEL_Z; //R tex_res.dst_sel_y = SQ_SEL_Y; //G tex_res.dst_sel_z = SQ_SEL_X; //B tex_res.dst_sel_w = SQ_SEL_1; //A break; case PICT_a8: tex_res.dst_sel_x = SQ_SEL_0; //R tex_res.dst_sel_y = SQ_SEL_0; //G tex_res.dst_sel_z = SQ_SEL_0; //B tex_res.dst_sel_w = SQ_SEL_X; //A break; default: RADEON_FALLBACK(("Bad format 0x%x\n", pPict->format)); } tex_res.base_level = 0; tex_res.last_level = 0; tex_res.perf_modulation = 0; set_tex_resource (pScrn, accel_state->ib, &tex_res); tex_samp.id = unit; tex_samp.border_color = SQ_TEX_BORDER_COLOR_TRANS_BLACK; if (pPict->repeat) { switch (pPict->repeatType) { case RepeatNormal: tex_samp.clamp_x = SQ_TEX_WRAP; tex_samp.clamp_y = SQ_TEX_WRAP; break; case RepeatPad: tex_samp.clamp_x = SQ_TEX_CLAMP_LAST_TEXEL; tex_samp.clamp_y = SQ_TEX_CLAMP_LAST_TEXEL; break; case RepeatReflect: tex_samp.clamp_x = SQ_TEX_MIRROR; tex_samp.clamp_y = SQ_TEX_MIRROR; break; case RepeatNone: tex_samp.clamp_x = SQ_TEX_CLAMP_BORDER; tex_samp.clamp_y = SQ_TEX_CLAMP_BORDER; break; default: RADEON_FALLBACK(("Bad repeat 0x%x\n", pPict->repeatType)); } } else { tex_samp.clamp_x = SQ_TEX_CLAMP_BORDER; tex_samp.clamp_y = SQ_TEX_CLAMP_BORDER; } switch (pPict->filter) { case PictFilterNearest: tex_samp.xy_mag_filter = SQ_TEX_XY_FILTER_POINT; tex_samp.xy_min_filter = SQ_TEX_XY_FILTER_POINT; break; case PictFilterBilinear: tex_samp.xy_mag_filter = SQ_TEX_XY_FILTER_BILINEAR; tex_samp.xy_min_filter = SQ_TEX_XY_FILTER_BILINEAR; break; default: RADEON_FALLBACK(("Bad filter 0x%x\n", pPict->filter)); } tex_samp.clamp_z = SQ_TEX_WRAP; tex_samp.z_filter = SQ_TEX_Z_FILTER_NONE; tex_samp.mip_filter = 0; /* no mipmap */ set_tex_sampler (pScrn, accel_state->ib, &tex_samp); if (pPict->transform != 0) { accel_state->is_transform[unit] = TRUE; accel_state->transform[unit] = pPict->transform; } else accel_state->is_transform[unit] = FALSE; return TRUE; } static Bool R600CheckComposite(int op, PicturePtr pSrcPicture, PicturePtr pMaskPicture, PicturePtr pDstPicture) { uint32_t tmp1; // ScreenPtr pScreen = pDstPicture->pDrawable->pScreen; PixmapPtr pSrcPixmap, pDstPixmap; // ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum]; // RADEONInfoPtr info = RADEONPTR(pScrn); int max_tex_w, max_tex_h, max_dst_w, max_dst_h; /* Check for unsupported compositing operations. */ if (op >= (int) (sizeof(R600BlendOp) / sizeof(R600BlendOp[0]))) RADEON_FALLBACK(("Unsupported Composite op 0x%x\n", op)); pSrcPixmap = RADEONGetDrawablePixmap(pSrcPicture->pDrawable); max_tex_w = 8192; max_tex_h = 8192; max_dst_w = 8192; max_dst_h = 8192; if (pSrcPixmap->drawable.width >= max_tex_w || pSrcPixmap->drawable.height >= max_tex_h) { RADEON_FALLBACK(("Source w/h too large (%d,%d).\n", pSrcPixmap->drawable.width, pSrcPixmap->drawable.height)); } pDstPixmap = RADEONGetDrawablePixmap(pDstPicture->pDrawable); if (pDstPixmap->drawable.width >= max_dst_w || pDstPixmap->drawable.height >= max_dst_h) { RADEON_FALLBACK(("Dest w/h too large (%d,%d).\n", pDstPixmap->drawable.width, pDstPixmap->drawable.height)); } if (pMaskPicture) { PixmapPtr pMaskPixmap = RADEONGetDrawablePixmap(pMaskPicture->pDrawable); if (pMaskPixmap->drawable.width >= max_tex_w || pMaskPixmap->drawable.height >= max_tex_h) { RADEON_FALLBACK(("Mask w/h too large (%d,%d).\n", pMaskPixmap->drawable.width, pMaskPixmap->drawable.height)); } if (pMaskPicture->componentAlpha) { /* Check if it's component alpha that relies on a source alpha and * on the source value. We can only get one of those into the * single source value that we get to blend with. */ if (R600BlendOp[op].src_alpha && (R600BlendOp[op].blend_cntl & COLOR_SRCBLEND_mask) != (BLEND_ZERO << COLOR_SRCBLEND_shift)) { RADEON_FALLBACK(("Component alpha not supported with source " "alpha and source value blending.\n")); } } if (!R600CheckCompositeTexture(pMaskPicture, pDstPicture, op, 1)) return FALSE; } if (!R600CheckCompositeTexture(pSrcPicture, pDstPicture, op, 0)) return FALSE; if (!R600GetDestFormat(pDstPicture, &tmp1)) return FALSE; return TRUE; } static Bool R600PrepareComposite(int op, PicturePtr pSrcPicture, PicturePtr pMaskPicture, PicturePtr pDstPicture, PixmapPtr pSrc, PixmapPtr pMask, PixmapPtr pDst) { ScrnInfoPtr pScrn = xf86Screens[pSrc->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; uint32_t blendcntl, dst_format; cb_config_t cb_conf; shader_config_t vs_conf, ps_conf; int i = 0; uint32_t ps[24]; //return FALSE; if (pMask) accel_state->has_mask = TRUE; else accel_state->has_mask = FALSE; accel_state->dst_mc_addr = exaGetPixmapOffset(pDst) + info->fbLocation + pScrn->fbOffset; accel_state->dst_pitch = exaGetPixmapPitch(pDst) / (pDst->drawable.bitsPerPixel / 8); accel_state->dst_size = exaGetPixmapPitch(pDst) * pDst->drawable.height; accel_state->src_mc_addr[0] = exaGetPixmapOffset(pSrc) + info->fbLocation + pScrn->fbOffset; accel_state->src_pitch[0] = exaGetPixmapPitch(pSrc) / (pSrc->drawable.bitsPerPixel / 8); accel_state->src_size[0] = exaGetPixmapPitch(pSrc) * pSrc->drawable.height; if (accel_state->dst_pitch & 7) RADEON_FALLBACK(("Bad dst pitch 0x%x\n", (int)accel_state->dst_pitch)); if (accel_state->dst_mc_addr & 0xff) RADEON_FALLBACK(("Bad destination offset 0x%x\n", (int)accel_state->dst_mc_addr)); if (accel_state->src_pitch[0] & 7) RADEON_FALLBACK(("Bad src pitch 0x%x\n", (int)accel_state->src_pitch[0])); if (accel_state->src_mc_addr[0] & 0xff) RADEON_FALLBACK(("Bad src offset 0x%x\n", (int)accel_state->src_mc_addr[0])); if (!R600GetDestFormat(pDstPicture, &dst_format)) return FALSE; if (pMask) { int src_a, src_r, src_g, src_b; int mask_a, mask_r, mask_g, mask_b; accel_state->src_mc_addr[1] = exaGetPixmapOffset(pMask) + info->fbLocation + pScrn->fbOffset; accel_state->src_pitch[1] = exaGetPixmapPitch(pMask) / (pMask->drawable.bitsPerPixel / 8); accel_state->src_size[1] = exaGetPixmapPitch(pMask) * pMask->drawable.height; if (accel_state->src_pitch[1] & 7) RADEON_FALLBACK(("Bad mask pitch 0x%x\n", (int)accel_state->src_pitch[1])); if (accel_state->src_mc_addr[1] & 0xff) RADEON_FALLBACK(("Bad mask offset 0x%x\n", (int)accel_state->src_mc_addr[1])); /* setup pixel shader */ if (PICT_FORMAT_RGB(pSrcPicture->format) == 0) { //src_color = R300_ALU_RGB_0_0; src_r = SQ_SEL_0; src_g = SQ_SEL_0; src_b = SQ_SEL_0; } else { //src_color = R300_ALU_RGB_SRC0_RGB; src_r = SQ_SEL_X; src_g = SQ_SEL_Y; src_b = SQ_SEL_Z; } if (PICT_FORMAT_A(pSrcPicture->format) == 0) { //src_alpha = R300_ALU_ALPHA_1_0; src_a = SQ_SEL_1; } else { //src_alpha = R300_ALU_ALPHA_SRC0_A; src_a = SQ_SEL_W; } if (pMaskPicture->componentAlpha) { if (R600BlendOp[op].src_alpha) { if (PICT_FORMAT_A(pSrcPicture->format) == 0) { //src_color = R300_ALU_RGB_1_0; //src_alpha = R300_ALU_ALPHA_1_0; src_r = SQ_SEL_1; src_g = SQ_SEL_1; src_b = SQ_SEL_1; src_a = SQ_SEL_1; } else { //src_color = R300_ALU_RGB_SRC0_AAA; //src_alpha = R300_ALU_ALPHA_SRC0_A; src_r = SQ_SEL_W; src_g = SQ_SEL_W; src_b = SQ_SEL_W; src_a = SQ_SEL_W; } //mask_color = R300_ALU_RGB_SRC1_RGB; mask_r = SQ_SEL_X; mask_g = SQ_SEL_Y; mask_b = SQ_SEL_Z; if (PICT_FORMAT_A(pMaskPicture->format) == 0) { //mask_alpha = R300_ALU_ALPHA_1_0; mask_a = SQ_SEL_1; } else { //mask_alpha = R300_ALU_ALPHA_SRC1_A; mask_a = SQ_SEL_W; } } else { //src_color = R300_ALU_RGB_SRC0_RGB; src_r = SQ_SEL_X; src_g = SQ_SEL_Y; src_b = SQ_SEL_Z; if (PICT_FORMAT_A(pSrcPicture->format) == 0) { //src_alpha = R300_ALU_ALPHA_1_0; src_a = SQ_SEL_1; } else { //src_alpha = R300_ALU_ALPHA_SRC0_A; src_a = SQ_SEL_W; } //mask_color = R300_ALU_RGB_SRC1_RGB; mask_r = SQ_SEL_X; mask_g = SQ_SEL_Y; mask_b = SQ_SEL_Z; if (PICT_FORMAT_A(pMaskPicture->format) == 0) { //mask_alpha = R300_ALU_ALPHA_1_0; mask_a = SQ_SEL_1; } else { //mask_alpha = R300_ALU_ALPHA_SRC1_A; mask_a = SQ_SEL_W; } } } else { if (PICT_FORMAT_A(pMaskPicture->format) == 0) { //mask_color = R300_ALU_RGB_1_0; mask_r = SQ_SEL_1; mask_g = SQ_SEL_1; mask_b = SQ_SEL_1; } else { //mask_color = R300_ALU_RGB_SRC1_AAA; mask_r = SQ_SEL_W; mask_g = SQ_SEL_W; mask_b = SQ_SEL_W; } if (PICT_FORMAT_A(pMaskPicture->format) == 0) { //mask_alpha = R300_ALU_ALPHA_1_0; mask_a = SQ_SEL_1; } else { //mask_alpha = R300_ALU_ALPHA_SRC1_A; mask_a = SQ_SEL_W; } } //0 ps[i++] = CF_DWORD0(ADDR(8)); ps[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(2), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_TEX), WHOLE_QUAD_MODE(0), BARRIER(1)); // 1 ps[i++] = CF_ALU_DWORD0(ADDR(3), KCACHE_BANK0(0), KCACHE_BANK1(0), KCACHE_MODE0(SQ_CF_KCACHE_NOP)); ps[i++] = CF_ALU_DWORD1(KCACHE_MODE1(SQ_CF_KCACHE_NOP), KCACHE_ADDR0(0), KCACHE_ADDR1(0), I_COUNT(4), USES_WATERFALL(0), CF_INST(SQ_CF_INST_ALU), WHOLE_QUAD_MODE(0), BARRIER(1)); //2 ps[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_PIXEL_MRT0), TYPE(SQ_EXPORT_PIXEL), RW_GPR(2), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(1)); ps[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); // 3 - alu 0 // MUL gpr[2].x gpr[1].x gpr[0].x ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_MUL), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 4 - alu 1 // MUL gpr[2].y gpr[1].y gpr[0].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Y), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_MUL), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(1)); // 5 - alu 2 // MUL gpr[2].z gpr[1].z gpr[0].z ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_MUL), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(1)); // 6 - alu 3 // MUL gpr[2].w gpr[1].w gpr[0].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_W), SRC0_NEG(0), SRC1_SEL(0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_W), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_MUL), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(1)); // 7 ps[i++] = 0x00000000; ps[i++] = 0x00000000; //8/9 - src ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(0), DST_REL(ABSOLUTE), DST_SEL_X(src_r), DST_SEL_Y(src_g), DST_SEL_Z(src_b), DST_SEL_W(src_a), LOD_BIAS(0), COORD_TYPE_X(TEX_NORMALIZED), COORD_TYPE_Y(TEX_NORMALIZED), COORD_TYPE_Z(TEX_NORMALIZED), COORD_TYPE_W(TEX_NORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(0), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; //10/11 - mask ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(1), SRC_GPR(1), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(1), DST_REL(ABSOLUTE), DST_SEL_X(mask_r), DST_SEL_Y(mask_g), DST_SEL_Z(mask_b), DST_SEL_W(mask_a), LOD_BIAS(0), COORD_TYPE_X(TEX_NORMALIZED), COORD_TYPE_Y(TEX_NORMALIZED), COORD_TYPE_Z(TEX_NORMALIZED), COORD_TYPE_W(TEX_NORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(1), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; } else { int src_a, src_r, src_g, src_b; /* setup pixel shader */ if (PICT_FORMAT_RGB(pSrcPicture->format) == 0) { //src_color = R300_ALU_RGB_0_0; src_r = SQ_SEL_0; src_g = SQ_SEL_0; src_b = SQ_SEL_0; } else { //src_color = R300_ALU_RGB_SRC0_RGB; src_r = SQ_SEL_X; src_g = SQ_SEL_Y; src_b = SQ_SEL_Z; } if (PICT_FORMAT_A(pSrcPicture->format) == 0) { //src_alpha = R300_ALU_ALPHA_1_0; src_a = SQ_SEL_1; } else { //src_alpha = R300_ALU_ALPHA_SRC0_A; src_a = SQ_SEL_W; } //0 ps[i++] = CF_DWORD0(ADDR(2)); ps[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(1), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_TEX), WHOLE_QUAD_MODE(0), BARRIER(1)); //1 ps[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_PIXEL_MRT0), TYPE(SQ_EXPORT_PIXEL), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(1)); ps[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); //2/3 - src ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(0), DST_REL(ABSOLUTE), DST_SEL_X(src_r), DST_SEL_Y(src_g), DST_SEL_Z(src_b), DST_SEL_W(src_a), LOD_BIAS(0), COORD_TYPE_X(TEX_NORMALIZED), COORD_TYPE_Y(TEX_NORMALIZED), COORD_TYPE_Z(TEX_NORMALIZED), COORD_TYPE_W(TEX_NORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(0), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; } CLEAR (cb_conf); CLEAR (vs_conf); CLEAR (ps_conf); accel_state->ib = RADEONCPGetBuffer(pScrn); /* Init */ start_3d(pScrn, accel_state->ib); //cp_set_surface_sync(pScrn, accel_state->ib); set_default_state(pScrn, accel_state->ib); /* Scissor / viewport */ EREG(accel_state->ib, PA_CL_VTE_CNTL, VTX_XY_FMT_bit); EREG(accel_state->ib, PA_CL_CLIP_CNTL, CLIP_DISABLE_bit); // fix me if false discard buffer! if (!R600TextureSetup(pSrcPicture, pSrc, 0)) return FALSE; if (pMask != NULL) { // fix me if false discard buffer! if (!R600TextureSetup(pMaskPicture, pMask, 1)) return FALSE; } else { accel_state->is_transform[1] = FALSE; } if (pMask != NULL) accel_state->vs_mc_addr = info->fbLocation + pScrn->fbOffset + accel_state->shaders->offset + accel_state->comp_mask_vs_offset; else accel_state->vs_mc_addr = info->fbLocation + pScrn->fbOffset + accel_state->shaders->offset + accel_state->comp_vs_offset; memcpy ((char *)accel_state->ib->address + (accel_state->ib->total / 2) - 256, ps, sizeof(ps)); accel_state->ps_mc_addr = info->gartLocation + info->dri->bufStart + (accel_state->ib->idx * accel_state->ib->total) + (accel_state->ib->total / 2) - 256; accel_state->vs_size = 512; accel_state->ps_size = 512; /* Shader */ /* flush SQ cache */ cp_set_surface_sync(pScrn, accel_state->ib, SH_ACTION_ENA_bit, accel_state->vs_size, accel_state->vs_mc_addr); vs_conf.shader_addr = accel_state->vs_mc_addr; vs_conf.num_gprs = 3; vs_conf.stack_size = 0; vs_setup (pScrn, accel_state->ib, &vs_conf); /* flush SQ cache */ cp_set_surface_sync(pScrn, accel_state->ib, SH_ACTION_ENA_bit, accel_state->ps_size, accel_state->ps_mc_addr); ps_conf.shader_addr = accel_state->ps_mc_addr; ps_conf.num_gprs = 3; ps_conf.stack_size = 0; ps_conf.uncached_first_inst = 1; ps_conf.clamp_consts = 0; ps_conf.export_mode = 2; ps_setup (pScrn, accel_state->ib, &ps_conf); EREG(accel_state->ib, CB_SHADER_MASK, (0xf << OUTPUT0_ENABLE_shift)); EREG(accel_state->ib, R7xx_CB_SHADER_CONTROL, (RT0_ENABLE_bit)); blendcntl = R600GetBlendCntl(op, pMaskPicture, pDstPicture->format); if (info->ChipFamily == CHIP_FAMILY_R600) { // no per-MRT blend on R600 EREG(accel_state->ib, CB_COLOR_CONTROL, RADEON_ROP[3] | (1 << TARGET_BLEND_ENABLE_shift)); EREG(accel_state->ib, CB_BLEND_CONTROL, blendcntl); } else { EREG(accel_state->ib, CB_COLOR_CONTROL, (RADEON_ROP[3] | (1 << TARGET_BLEND_ENABLE_shift) | PER_MRT_BLEND_bit)); EREG(accel_state->ib, CB_BLEND0_CONTROL, blendcntl); } cb_conf.id = 0; cb_conf.w = accel_state->dst_pitch; cb_conf.h = pDst->drawable.height; cb_conf.base = accel_state->dst_mc_addr; cb_conf.format = dst_format; switch (pDstPicture->format) { case PICT_a8r8g8b8: //ErrorF("dst: PICT_a8r8g8b8\n"); cb_conf.comp_swap = 1; //ARGB break; case PICT_x8r8g8b8: //ErrorF("dst: PICT_x8r8g8b8\n"); cb_conf.comp_swap = 1; //ARGB break; case PICT_r5g6b5: //ErrorF("dst: PICT_r5g6b5\n"); cb_conf.comp_swap = 2; //RGB break; case PICT_a1r5g5b5: //ErrorF("dst: PICT_a1r5g5b5\n"); cb_conf.comp_swap = 1; //ARGB break; case PICT_x1r5g5b5: //ErrorF("dst: PICT_x1r5g5b5\n"); cb_conf.comp_swap = 1; //ARGB break; case PICT_a8: //ErrorF("dst: PICT_a8\n"); cb_conf.comp_swap = 3; //A break; default: cb_conf.comp_swap = 1; break; } cb_conf.source_format = 1; cb_conf.blend_clamp = 1; set_render_target(pScrn, accel_state->ib, &cb_conf); EREG(accel_state->ib, PA_SU_SC_MODE_CNTL, (FACE_bit | (POLYMODE_PTYPE__TRIANGLES << POLYMODE_FRONT_PTYPE_shift) | (POLYMODE_PTYPE__TRIANGLES << POLYMODE_BACK_PTYPE_shift))); EREG(accel_state->ib, DB_SHADER_CONTROL, ((1 << Z_ORDER_shift) | /* EARLY_Z_THEN_LATE_Z */ DUAL_EXPORT_ENABLE_bit)); /* Only useful if no depth export */ /* Interpolator setup */ if (pMask) { // export 2 tex coords from VS EREG(accel_state->ib, SPI_VS_OUT_CONFIG, ((2 - 1) << VS_EXPORT_COUNT_shift)); // src = semantic id 0; mask = semantic id 1 EREG(accel_state->ib, SPI_VS_OUT_ID_0, ((0 << SEMANTIC_0_shift) | (1 << SEMANTIC_1_shift))); // input 2 tex coords from VS EREG(accel_state->ib, SPI_PS_IN_CONTROL_0, (2 << NUM_INTERP_shift)); } else { // export 1 tex coords from VS EREG(accel_state->ib, SPI_VS_OUT_CONFIG, ((1 - 1) << VS_EXPORT_COUNT_shift)); // src = semantic id 0 EREG(accel_state->ib, SPI_VS_OUT_ID_0, (0 << SEMANTIC_0_shift)); // input 1 tex coords from VS EREG(accel_state->ib, SPI_PS_IN_CONTROL_0, (1 << NUM_INTERP_shift)); } EREG(accel_state->ib, SPI_PS_IN_CONTROL_1, 0); // SPI_PS_INPUT_CNTL_0 maps to GPR[0] - load with semantic id 0 EREG(accel_state->ib, SPI_PS_INPUT_CNTL_0 + (0 <<2), ((0 << SEMANTIC_shift) | (0x01 << DEFAULT_VAL_shift) | SEL_CENTROID_bit)); // SPI_PS_INPUT_CNTL_1 maps to GPR[1] - load with semantic id 1 EREG(accel_state->ib, SPI_PS_INPUT_CNTL_0 + (1 <<2), ((1 << SEMANTIC_shift) | (0x01 << DEFAULT_VAL_shift) | SEL_CENTROID_bit)); EREG(accel_state->ib, SPI_INTERP_CONTROL_0, 0); accel_state->vb_index = 0; return TRUE; } static void R600Composite(PixmapPtr pDst, int srcX, int srcY, int maskX, int maskY, int dstX, int dstY, int w, int h) { ScrnInfoPtr pScrn = xf86Screens[pDst->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; xPointFixed srcTopLeft, srcTopRight, srcBottomLeft, srcBottomRight; /* ErrorF("R600Composite (%d,%d) (%d,%d) (%d,%d) (%d,%d)\n", srcX, srcY, maskX, maskY,dstX, dstY, w, h); */ srcTopLeft.x = IntToxFixed(srcX); srcTopLeft.y = IntToxFixed(srcY); srcTopRight.x = IntToxFixed(srcX + w); srcTopRight.y = IntToxFixed(srcY); srcBottomLeft.x = IntToxFixed(srcX); srcBottomLeft.y = IntToxFixed(srcY + h); srcBottomRight.x = IntToxFixed(srcX + w); srcBottomRight.y = IntToxFixed(srcY + h); //XXX do transform in vertex shader if (accel_state->is_transform[0]) { transformPoint(accel_state->transform[0], &srcTopLeft); transformPoint(accel_state->transform[0], &srcTopRight); transformPoint(accel_state->transform[0], &srcBottomLeft); transformPoint(accel_state->transform[0], &srcBottomRight); } if (accel_state->has_mask) { struct r6xx_comp_mask_vertex *comp_vb; struct r6xx_comp_mask_vertex vertex[3]; xPointFixed maskTopLeft, maskTopRight, maskBottomLeft, maskBottomRight; if (((accel_state->vb_index + 3) * 24) > (accel_state->ib->total / 2)) { R600DoneComposite(pDst); accel_state->vb_index = 0; accel_state->ib = RADEONCPGetBuffer(pScrn); } comp_vb = (pointer)((char*)accel_state->ib->address + (accel_state->ib->total / 2)); maskTopLeft.x = IntToxFixed(maskX); maskTopLeft.y = IntToxFixed(maskY); maskTopRight.x = IntToxFixed(maskX + w); maskTopRight.y = IntToxFixed(maskY); maskBottomLeft.x = IntToxFixed(maskX); maskBottomLeft.y = IntToxFixed(maskY + h); maskBottomRight.x = IntToxFixed(maskX + w); maskBottomRight.y = IntToxFixed(maskY + h); if (accel_state->is_transform[1]) { transformPoint(accel_state->transform[1], &maskTopLeft); transformPoint(accel_state->transform[1], &maskTopRight); transformPoint(accel_state->transform[1], &maskBottomLeft); transformPoint(accel_state->transform[1], &maskBottomRight); } vertex[0].x = (float)dstX; vertex[0].y = (float)dstY; vertex[0].src_s = xFixedToFloat(srcTopLeft.x) / accel_state->texW[0]; vertex[0].src_t = xFixedToFloat(srcTopLeft.y) / accel_state->texH[0]; vertex[0].mask_s = xFixedToFloat(maskTopLeft.x) / accel_state->texW[1]; vertex[0].mask_t = xFixedToFloat(maskTopLeft.y) / accel_state->texH[1]; vertex[1].x = (float)dstX; vertex[1].y = (float)(dstY + h); vertex[1].src_s = xFixedToFloat(srcBottomLeft.x) / accel_state->texW[0]; vertex[1].src_t = xFixedToFloat(srcBottomLeft.y) / accel_state->texH[0]; vertex[1].mask_s = xFixedToFloat(maskBottomLeft.x) / accel_state->texW[1]; vertex[1].mask_t = xFixedToFloat(maskBottomLeft.y) / accel_state->texH[1]; vertex[2].x = (float)(dstX + w); vertex[2].y = (float)(dstY + h); vertex[2].src_s = xFixedToFloat(srcBottomRight.x) / accel_state->texW[0]; vertex[2].src_t = xFixedToFloat(srcBottomRight.y) / accel_state->texH[0]; vertex[2].mask_s = xFixedToFloat(maskBottomRight.x) / accel_state->texW[1]; vertex[2].mask_t = xFixedToFloat(maskBottomRight.y) / accel_state->texH[1]; #ifdef SHOW_VERTEXES ErrorF("vertex 0: %d, %d, %f, %f, %f, %f\n", vertex[0].x, vertex[0].y, vertex[0].src_s, vertex[0].src_t, vertex[0].mask_s, vertex[0].mask_t); ErrorF("vertex 1: %d, %d, %f, %f, %f, %f\n", vertex[1].x, vertex[1].y, vertex[1].src_s, vertex[1].src_t, vertex[1].mask_s, vertex[1].mask_t); ErrorF("vertex 2: %d, %d, %f, %f, %f, %f\n", vertex[2].x, vertex[2].y, vertex[2].src_s, vertex[2].src_t, vertex[2].mask_s, vertex[2].mask_t); #endif // append to vertex buffer comp_vb[accel_state->vb_index++] = vertex[0]; comp_vb[accel_state->vb_index++] = vertex[1]; comp_vb[accel_state->vb_index++] = vertex[2]; } else { struct r6xx_comp_vertex *comp_vb; struct r6xx_comp_vertex vertex[3]; if (((accel_state->vb_index + 3) * 16) > (accel_state->ib->total / 2)) { R600DoneComposite(pDst); accel_state->vb_index = 0; accel_state->ib = RADEONCPGetBuffer(pScrn); } comp_vb = (pointer)((char*)accel_state->ib->address + (accel_state->ib->total / 2)); vertex[0].x = (float)dstX; vertex[0].y = (float)dstY; vertex[0].src_s = xFixedToFloat(srcTopLeft.x) / accel_state->texW[0]; vertex[0].src_t = xFixedToFloat(srcTopLeft.y) / accel_state->texH[0]; vertex[1].x = (float)dstX; vertex[1].y = (float)(dstY + h); vertex[1].src_s = xFixedToFloat(srcBottomLeft.x) / accel_state->texW[0]; vertex[1].src_t = xFixedToFloat(srcBottomLeft.y) / accel_state->texH[0]; vertex[2].x = (float)(dstX + w); vertex[2].y = (float)(dstY + h); vertex[2].src_s = xFixedToFloat(srcBottomRight.x) / accel_state->texW[0]; vertex[2].src_t = xFixedToFloat(srcBottomRight.y) / accel_state->texH[0]; // append to vertex buffer comp_vb[accel_state->vb_index++] = vertex[0]; comp_vb[accel_state->vb_index++] = vertex[1]; comp_vb[accel_state->vb_index++] = vertex[2]; #ifdef SHOW_VERTEXES ErrorF("vertex 0: %d, %d, %f, %f\n", vertex[0].x, vertex[0].y, vertex[0].src_s, vertex[0].src_t); ErrorF("vertex 1: %d, %d, %f, %f\n", vertex[1].x, vertex[1].y, vertex[1].src_s, vertex[1].src_t); ErrorF("vertex 2: %d, %d, %f, %f\n", vertex[2].x, vertex[2].y, vertex[2].src_s, vertex[2].src_t); #endif } } static void R600DoneComposite(PixmapPtr pDst) { ScrnInfoPtr pScrn = xf86Screens[pDst->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; draw_config_t draw_conf; vtx_resource_t vtx_res; CLEAR (draw_conf); CLEAR (vtx_res); if (accel_state->vb_index == 0) { R600IBDiscard(pScrn, accel_state->ib); return; } accel_state->vb_mc_addr = info->gartLocation + info->dri->bufStart + (accel_state->ib->idx * accel_state->ib->total) + (accel_state->ib->total / 2); /* Vertex buffer setup */ if (accel_state->has_mask) { accel_state->vb_size = accel_state->vb_index * 24; vtx_res.id = SQ_VTX_RESOURCE_vs; vtx_res.vtx_size_dw = 24 / 4; vtx_res.vtx_num_entries = accel_state->vb_size / 4; vtx_res.mem_req_size = 1; vtx_res.vb_addr = accel_state->vb_mc_addr; } else { accel_state->vb_size = accel_state->vb_index * 16; vtx_res.id = SQ_VTX_RESOURCE_vs; vtx_res.vtx_size_dw = 16 / 4; vtx_res.vtx_num_entries = accel_state->vb_size / 4; vtx_res.mem_req_size = 1; vtx_res.vb_addr = accel_state->vb_mc_addr; } /* flush vertex cache */ if ((info->ChipFamily == CHIP_FAMILY_RV610) || (info->ChipFamily == CHIP_FAMILY_RV620) || (info->ChipFamily == CHIP_FAMILY_RS780) || (info->ChipFamily == CHIP_FAMILY_RV710)) cp_set_surface_sync(pScrn, accel_state->ib, TC_ACTION_ENA_bit, accel_state->vb_size, accel_state->vb_mc_addr); else cp_set_surface_sync(pScrn, accel_state->ib, VC_ACTION_ENA_bit, accel_state->vb_size, accel_state->vb_mc_addr); set_vtx_resource (pScrn, accel_state->ib, &vtx_res); draw_conf.prim_type = DI_PT_RECTLIST; draw_conf.vgt_draw_initiator = DI_SRC_SEL_AUTO_INDEX; draw_conf.num_instances = 1; draw_conf.num_indices = vtx_res.vtx_num_entries / vtx_res.vtx_size_dw; draw_conf.index_type = DI_INDEX_SIZE_16_BIT; draw_auto(pScrn, accel_state->ib, &draw_conf); wait_3d_idle_clean(pScrn, accel_state->ib); cp_set_surface_sync(pScrn, accel_state->ib, (CB_ACTION_ENA_bit | CB0_DEST_BASE_ENA_bit), accel_state->dst_size, accel_state->dst_mc_addr); R600CPFlushIndirect(pScrn, accel_state->ib); } Bool R600CopyToVRAM(ScrnInfoPtr pScrn, char *src, int src_pitch, uint32_t dst_pitch, uint32_t dst_mc_addr, uint32_t dst_height, int bpp, int x, int y, int w, int h) { RADEONInfoPtr info = RADEONPTR(pScrn); uint32_t scratch_mc_addr; int wpass = w * (bpp/8); int scratch_pitch_bytes = (wpass + 255) & ~255; uint32_t scratch_pitch = scratch_pitch_bytes / (bpp / 8); int scratch_offset = 0, hpass, temph; char *dst; drmBufPtr scratch; if (dst_pitch & 7) return FALSE; if (dst_mc_addr & 0xff) return FALSE; scratch = RADEONCPGetBuffer(pScrn); if (scratch == NULL) return FALSE; scratch_mc_addr = info->gartLocation + info->dri->bufStart + (scratch->idx * scratch->total); temph = hpass = min(h, scratch->total/2 / scratch_pitch_bytes); dst = (char *)scratch->address; //memcopy from sys to scratch while (temph--) { memcpy (dst, src, wpass); src += src_pitch; dst += scratch_pitch_bytes; } while (h) { uint32_t offset = scratch_mc_addr + scratch_offset; int oldhpass = hpass; h -= oldhpass; temph = hpass = min(h, scratch->total/2 / scratch_pitch_bytes); if (hpass) { scratch_offset = scratch->total/2 - scratch_offset; dst = (char *)scratch->address + scratch_offset; // wait for the engine to be idle RADEONWaitForIdleCP(pScrn); //memcopy from sys to scratch while (temph--) { memcpy (dst, src, wpass); src += src_pitch; dst += scratch_pitch_bytes; } } //blit from scratch to vram R600DoPrepareCopy(pScrn, scratch_pitch, w, oldhpass, offset, bpp, dst_pitch, dst_height, dst_mc_addr, bpp, 3, 0xffffffff); R600AppendCopyVertex(pScrn, 0, 0, x, y, w, oldhpass); R600DoCopy(pScrn); y += oldhpass; } R600IBDiscard(pScrn, scratch); return TRUE; } static Bool R600UploadToScreen(PixmapPtr pDst, int x, int y, int w, int h, char *src, int src_pitch) { ScrnInfoPtr pScrn = xf86Screens[pDst->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); uint32_t dst_pitch = exaGetPixmapPitch(pDst) / (pDst->drawable.bitsPerPixel / 8); uint32_t dst_mc_addr = exaGetPixmapOffset(pDst) + info->fbLocation + pScrn->fbOffset; uint32_t dst_height = pDst->drawable.height; int bpp = pDst->drawable.bitsPerPixel; return R600CopyToVRAM(pScrn, src, src_pitch, dst_pitch, dst_mc_addr, dst_height, bpp, x, y, w, h); } static Bool R600DownloadFromScreen(PixmapPtr pSrc, int x, int y, int w, int h, char *dst, int dst_pitch) { ScrnInfoPtr pScrn = xf86Screens[pSrc->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); uint32_t src_pitch = exaGetPixmapPitch(pSrc) / (pSrc->drawable.bitsPerPixel / 8); uint32_t src_mc_addr = exaGetPixmapOffset(pSrc) + info->fbLocation + pScrn->fbOffset; uint32_t src_width = pSrc->drawable.width; uint32_t src_height = pSrc->drawable.height; int bpp = pSrc->drawable.bitsPerPixel; uint32_t scratch_mc_addr; int scratch_pitch_bytes = (dst_pitch + 255) & ~255; int scratch_offset = 0, hpass; uint32_t scratch_pitch = scratch_pitch_bytes / (bpp / 8); int wpass = w * (bpp/8); drmBufPtr scratch; if (src_pitch & 7) return FALSE; scratch = RADEONCPGetBuffer(pScrn); if (scratch == NULL) return FALSE; scratch_mc_addr = info->gartLocation + info->dri->bufStart + (scratch->idx * scratch->total); hpass = min(h, scratch->total/2 / scratch_pitch_bytes); //blit from vram to scratch R600DoPrepareCopy(pScrn, src_pitch, src_width, src_height, src_mc_addr, bpp, scratch_pitch, hpass, scratch_mc_addr, bpp, 3, 0xffffffff); R600AppendCopyVertex(pScrn, x, y, 0, 0, w, hpass); R600DoCopy(pScrn); while (h) { char *src = (char *)scratch->address + scratch_offset; int oldhpass = hpass; h -= oldhpass; y += oldhpass; hpass = min(h, scratch->total/2 / scratch_pitch_bytes); if (hpass) { scratch_offset = scratch->total/2 - scratch_offset; //blit from vram to scratch R600DoPrepareCopy(pScrn, src_pitch, src_width, src_height, src_mc_addr, bpp, scratch_pitch, hpass, scratch_mc_addr + scratch_offset, bpp, 3, 0xffffffff); R600AppendCopyVertex(pScrn, x, y, 0, 0, w, hpass); R600DoCopy(pScrn); } // wait for the engine to be idle RADEONWaitForIdleCP(pScrn); //memcopy from scratch to sys while (oldhpass--) { memcpy (dst, src, wpass); dst += dst_pitch; src += scratch_pitch_bytes; } } R600IBDiscard(pScrn, scratch); return TRUE; } static int R600MarkSync(ScreenPtr pScreen) { ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; return ++accel_state->exaSyncMarker; } static void R600Sync(ScreenPtr pScreen, int marker) { ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; if (accel_state->exaMarkerSynced != marker) { RADEONWaitForIdleCP(pScrn); accel_state->exaMarkerSynced = marker; } } static Bool R600LoadShaders(ScrnInfoPtr pScrn, ScreenPtr pScreen) { RADEONInfoPtr info = RADEONPTR(pScrn); struct radeon_accel_state *accel_state = info->accel_state; uint32_t *vs; uint32_t *ps; // 512 bytes per shader for now int size = 512 * 11; int i; accel_state->shaders = NULL; accel_state->shaders = exaOffscreenAlloc(pScreen, size, 256, TRUE, NULL, NULL); if (accel_state->shaders == NULL) return FALSE; vs = (pointer)((char *)info->FB + accel_state->shaders->offset); ps = (pointer)((char *)info->FB + accel_state->shaders->offset); accel_state->solid_vs_offset = 0; accel_state->solid_ps_offset = 512; accel_state->copy_vs_offset = 1024; accel_state->copy_ps_offset = 1536; accel_state->comp_vs_offset = 2048; accel_state->comp_ps_offset = 2560; accel_state->comp_mask_vs_offset = 3072; accel_state->comp_mask_ps_offset = 3584; accel_state->xv_vs_offset = 4096; accel_state->xv_ps_offset_packed = 4608; accel_state->xv_ps_offset_planar = 5120; // solid vs --------------------------------------- i = accel_state->solid_vs_offset / 4; //0 vs[i++] = CF_DWORD0(ADDR(4)); vs[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(1), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_VTX), WHOLE_QUAD_MODE(0), BARRIER(1)); //1 vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_POS0), TYPE(SQ_EXPORT_POS), RW_GPR(1), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); //2 - always export a param whether it's used or not vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(0), TYPE(SQ_EXPORT_PARAM), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(0), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(0)); //3 - padding vs[i++] = 0x00000000; vs[i++] = 0x00000000; //4/5 vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(8)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(1), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(0), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(1)); vs[i++] = VTX_DWORD_PAD; // solid ps --------------------------------------- i = accel_state->solid_ps_offset / 4; // 0 ps[i++] = CF_ALU_DWORD0(ADDR(2), KCACHE_BANK0(0), KCACHE_BANK1(0), KCACHE_MODE0(SQ_CF_KCACHE_NOP)); ps[i++] = CF_ALU_DWORD1(KCACHE_MODE1(SQ_CF_KCACHE_NOP), KCACHE_ADDR0(0), KCACHE_ADDR1(0), I_COUNT(4), USES_WATERFALL(0), CF_INST(SQ_CF_INST_ALU), WHOLE_QUAD_MODE(0), BARRIER(1)); // 1 ps[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_PIXEL_MRT0), TYPE(SQ_EXPORT_PIXEL), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(1)); ps[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); // 2 ps[i++] = ALU_DWORD0(SRC0_SEL(256), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_AR_X), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_MOV), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(0), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 3 ps[i++] = ALU_DWORD0(SRC0_SEL(256), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Y), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_AR_X), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_MOV), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(0), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(1)); // 4 ps[i++] = ALU_DWORD0(SRC0_SEL(256), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_AR_X), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_MOV), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(0), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(1)); // 5 ps[i++] = ALU_DWORD0(SRC0_SEL(256), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_W), SRC0_NEG(0), SRC1_SEL(0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_W), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_AR_X), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_MOV), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(0), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(1)); // copy vs --------------------------------------- i = accel_state->copy_vs_offset / 4; //0 vs[i++] = CF_DWORD0(ADDR(4)); vs[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(2), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_VTX), WHOLE_QUAD_MODE(0), BARRIER(1)); //1 vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_POS0), TYPE(SQ_EXPORT_POS), RW_GPR(1), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); //2 vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(0), TYPE(SQ_EXPORT_PARAM), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(0), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(0)); //3 vs[i++] = 0x00000000; vs[i++] = 0x00000000; //4/5 vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(16)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(1), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(0), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(1)); vs[i++] = VTX_DWORD_PAD; //6/7 vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(8)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(0), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(8), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(0)); vs[i++] = VTX_DWORD_PAD; // copy ps --------------------------------------- i = accel_state->copy_ps_offset / 4; // CF INST 0 ps[i++] = CF_DWORD0(ADDR(2)); ps[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(1), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_TEX), WHOLE_QUAD_MODE(0), BARRIER(1)); // CF INST 1 ps[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_PIXEL_MRT0), TYPE(SQ_EXPORT_PIXEL), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(1)); ps[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); // TEX INST 0 ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(0), DST_REL(ABSOLUTE), DST_SEL_X(SQ_SEL_X), //R DST_SEL_Y(SQ_SEL_Y), //G DST_SEL_Z(SQ_SEL_Z), //B DST_SEL_W(SQ_SEL_W), //A LOD_BIAS(0), COORD_TYPE_X(TEX_UNNORMALIZED), COORD_TYPE_Y(TEX_UNNORMALIZED), COORD_TYPE_Z(TEX_UNNORMALIZED), COORD_TYPE_W(TEX_UNNORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(0), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; // xv vs --------------------------------------- i = accel_state->xv_vs_offset / 4; //0 vs[i++] = CF_DWORD0(ADDR(4)); vs[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(2), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_VTX), WHOLE_QUAD_MODE(0), BARRIER(1)); //1 vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_POS0), TYPE(SQ_EXPORT_POS), RW_GPR(1), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); //2 vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(0), TYPE(SQ_EXPORT_PARAM), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(0), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(0)); //3 vs[i++] = 0x00000000; vs[i++] = 0x00000000; //4/5 vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(16)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(1), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(0), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(1)); vs[i++] = VTX_DWORD_PAD; //6/7 vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(8)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(0), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(8), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(0)); vs[i++] = VTX_DWORD_PAD; // xv ps packed ---------------------------------- i = accel_state->xv_ps_offset_packed / 4; // 0 ps[i++] = CF_DWORD0(ADDR(20)); ps[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(2), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_TEX), WHOLE_QUAD_MODE(0), BARRIER(0)); // 1 ps[i++] = CF_ALU_DWORD0(ADDR(3), KCACHE_BANK0(0), KCACHE_BANK1(0), KCACHE_MODE0(SQ_CF_KCACHE_NOP)); ps[i++] = CF_ALU_DWORD1(KCACHE_MODE1(SQ_CF_KCACHE_NOP), KCACHE_ADDR0(0), KCACHE_ADDR1(0), I_COUNT(16), USES_WATERFALL(0), CF_INST(SQ_CF_INST_ALU), WHOLE_QUAD_MODE(0), BARRIER(1)); // 2 ps[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_PIXEL_MRT0), TYPE(SQ_EXPORT_PIXEL), RW_GPR(2), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(3)); ps[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); /* Undo scaling of Y'CbCr values * Y' is scaled from 16:235 * Cb/Cr are scaled from 16:240 */ // 3 - alu 0 // MULADD gpr[1].x gpr[1].x c[3].x c[3].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(259), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP3(SRC2_SEL(259), SRC2_REL(ABSOLUTE), SRC2_ELEM(ELEM_Y), SRC2_NEG(0), ALU_INST(SQ_OP3_INST_MULADD), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(1), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 4 - alu 1 // MULADD gpr[1].y gpr[1].y c[3].z c[3].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(259), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP3(SRC2_SEL(259), SRC2_REL(ABSOLUTE), SRC2_ELEM(ELEM_W), SRC2_NEG(0), ALU_INST(SQ_OP3_INST_MULADD), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(1), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(0)); // 5 - alu 2 // MULADD gpr[1].z gpr[1].z c[3].z c[3].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(259), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP3(SRC2_SEL(259), SRC2_REL(ABSOLUTE), SRC2_ELEM(ELEM_W), SRC2_NEG(0), ALU_INST(SQ_OP3_INST_MULADD), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(1), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(0)); // 6 - alu 3 // MOV gpr[1].w 0.0 ps[i++] = ALU_DWORD0(SRC0_SEL(SQ_ALU_SRC_0), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(SQ_ALU_SRC_0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(1), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(0)); // 7 - alu 4 // DP4 gpr[2].x gpr[1].x c[0].x ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(256), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 8 - alu 5 // DP4 gpr[2].y gpr[1].y c[0].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(256), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Y), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(1)); // 9 - alu 6 // DP4 gpr[2].z gpr[1].z c[0].z ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(256), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(1)); // 10 - alu 7 // DP4 gpr[2].w gpr[1].w c[0].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_W), SRC0_NEG(0), SRC1_SEL(256), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_W), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_021), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(1)); // 11 - alu 8 // DP4 gpr[2].x gpr[1].x c[1].x ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(257), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 12 - alu 9 // DP4 gpr[2].y gpr[1].y c[1].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(257), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Y), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(1)); // 13 - alu 10 // DP4 gpr[2].z gpr[1].z c[1].z ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(257), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(1)); // 14 - alu 11 // DP4 gpr[2].w gpr[1].w c[1].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_W), SRC0_NEG(0), SRC1_SEL(257), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_W), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_021), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(1)); // 15 - alu 12 // DP4 gpr[2].x gpr[1].x c[2].x ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(258), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 16 - alu 13 // DP4 gpr[2].y gpr[1].y c[2].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(258), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Y), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(1)); // 17 - alu 14 // DP4 gpr[2].z gpr[1].z c[2].z ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(258), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(1)); // 18 - alu 15 // DP4 gpr[2].w gpr[1].w c[2].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_W), SRC0_NEG(0), SRC1_SEL(258), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_W), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_021), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(1)); // 19 - alignment ps[i++] = 0x00000000; ps[i++] = 0x00000000; // 20/21 - tex 0 ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(1), DST_REL(ABSOLUTE), DST_SEL_X(SQ_SEL_X), //R DST_SEL_Y(SQ_SEL_MASK), //G DST_SEL_Z(SQ_SEL_MASK), //B DST_SEL_W(SQ_SEL_1), //A LOD_BIAS(0), COORD_TYPE_X(TEX_NORMALIZED), COORD_TYPE_Y(TEX_NORMALIZED), COORD_TYPE_Z(TEX_NORMALIZED), COORD_TYPE_W(TEX_NORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(0), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; // 22/23 - tex 1 ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(1), SRC_GPR(0), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(1), DST_REL(ABSOLUTE), DST_SEL_X(SQ_SEL_MASK), //R DST_SEL_Y(SQ_SEL_X), //G DST_SEL_Z(SQ_SEL_Y), //B DST_SEL_W(SQ_SEL_MASK), //A LOD_BIAS(0), COORD_TYPE_X(TEX_NORMALIZED), COORD_TYPE_Y(TEX_NORMALIZED), COORD_TYPE_Z(TEX_NORMALIZED), COORD_TYPE_W(TEX_NORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(1), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; // xv ps planar ---------------------------------- i = accel_state->xv_ps_offset_planar / 4; // 0 ps[i++] = CF_DWORD0(ADDR(20)); ps[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(3), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_TEX), WHOLE_QUAD_MODE(0), BARRIER(0)); // 1 ps[i++] = CF_ALU_DWORD0(ADDR(3), KCACHE_BANK0(0), KCACHE_BANK1(0), KCACHE_MODE0(SQ_CF_KCACHE_NOP)); ps[i++] = CF_ALU_DWORD1(KCACHE_MODE1(SQ_CF_KCACHE_NOP), KCACHE_ADDR0(0), KCACHE_ADDR1(0), I_COUNT(16), USES_WATERFALL(0), CF_INST(SQ_CF_INST_ALU), WHOLE_QUAD_MODE(0), BARRIER(1)); // 2 ps[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_PIXEL_MRT0), TYPE(SQ_EXPORT_PIXEL), RW_GPR(2), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(3)); ps[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); /* Undo scaling of Y'CbCr values * Y' is scaled from 16:235 * Cb/Cr are scaled from 16:240 */ // 3 - alu 0 // MULADD gpr[1].x gpr[1].x c[3].x c[3].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(259), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP3(SRC2_SEL(259), SRC2_REL(ABSOLUTE), SRC2_ELEM(ELEM_Y), SRC2_NEG(0), ALU_INST(SQ_OP3_INST_MULADD), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(1), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 4 - alu 1 // MULADD gpr[1].y gpr[1].y c[3].z c[3].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(259), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP3(SRC2_SEL(259), SRC2_REL(ABSOLUTE), SRC2_ELEM(ELEM_W), SRC2_NEG(0), ALU_INST(SQ_OP3_INST_MULADD), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(1), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(0)); // 5 - alu 2 // MULADD gpr[1].z gpr[1].z c[3].z c[3].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(259), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP3(SRC2_SEL(259), SRC2_REL(ABSOLUTE), SRC2_ELEM(ELEM_W), SRC2_NEG(0), ALU_INST(SQ_OP3_INST_MULADD), BANK_SWIZZLE(SQ_ALU_VEC_012), DST_GPR(1), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(0)); // 6 - alu 3 // MOV gpr[1].w 0.0 ps[i++] = ALU_DWORD0(SRC0_SEL(SQ_ALU_SRC_0), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(SQ_ALU_SRC_0), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(1), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(0)); // 7 - alu 4 // DP4 gpr[2].x gpr[1].x c[0].x ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(256), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 8 - alu 5 // DP4 gpr[2].y gpr[1].y c[0].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(256), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Y), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(1)); // 9 - alu 6 // DP4 gpr[2].z gpr[1].z c[0].z ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(256), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(1)); // 10 - alu 7 // DP4 gpr[2].w gpr[1].w c[0].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_W), SRC0_NEG(0), SRC1_SEL(256), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_W), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_021), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(1)); // 11 - alu 8 // DP4 gpr[2].x gpr[1].x c[1].x ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(257), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 12 - alu 9 // DP4 gpr[2].y gpr[1].y c[1].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(257), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Y), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(1)); // 13 - alu 10 // DP4 gpr[2].z gpr[1].z c[1].z ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(257), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(1)); // 14 - alu 11 // DP4 gpr[2].w gpr[1].w c[1].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_W), SRC0_NEG(0), SRC1_SEL(257), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_W), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_021), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(1)); // 15 - alu 12 // DP4 gpr[2].x gpr[1].x c[2].x ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_X), SRC0_NEG(0), SRC1_SEL(258), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_X), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_X), CLAMP(1)); // 16 - alu 13 // DP4 gpr[2].y gpr[1].y c[2].y ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Y), SRC0_NEG(0), SRC1_SEL(258), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Y), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Y), CLAMP(1)); // 17 - alu 14 // DP4 gpr[2].z gpr[1].z c[2].z ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_Z), SRC0_NEG(0), SRC1_SEL(258), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_Z), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(0)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(1), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_102), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_Z), CLAMP(1)); // 18 - alu 15 // DP4 gpr[2].w gpr[1].w c[2].w ps[i++] = ALU_DWORD0(SRC0_SEL(1), SRC0_REL(ABSOLUTE), SRC0_ELEM(ELEM_W), SRC0_NEG(0), SRC1_SEL(258), SRC1_REL(ABSOLUTE), SRC1_ELEM(ELEM_W), SRC1_NEG(0), INDEX_MODE(SQ_INDEX_LOOP), PRED_SEL(SQ_PRED_SEL_OFF), LAST(1)); ps[i++] = ALU_DWORD1_OP2(info->ChipFamily, SRC0_ABS(0), SRC1_ABS(0), UPDATE_EXECUTE_MASK(0), UPDATE_PRED(0), WRITE_MASK(0), FOG_MERGE(0), OMOD(SQ_ALU_OMOD_OFF), ALU_INST(SQ_OP2_INST_DOT4), BANK_SWIZZLE(SQ_ALU_VEC_021), DST_GPR(2), DST_REL(ABSOLUTE), DST_ELEM(ELEM_W), CLAMP(1)); // 19 - alignment ps[i++] = 0x00000000; ps[i++] = 0x00000000; // 20/21 - tex 0 ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(1), DST_REL(ABSOLUTE), DST_SEL_X(SQ_SEL_X), //R DST_SEL_Y(SQ_SEL_MASK), //G DST_SEL_Z(SQ_SEL_MASK), //B DST_SEL_W(SQ_SEL_1), //A LOD_BIAS(0), COORD_TYPE_X(TEX_NORMALIZED), COORD_TYPE_Y(TEX_NORMALIZED), COORD_TYPE_Z(TEX_NORMALIZED), COORD_TYPE_W(TEX_NORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(0), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; // 22/23 - tex 1 ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(1), SRC_GPR(0), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(1), DST_REL(ABSOLUTE), DST_SEL_X(SQ_SEL_MASK), //R DST_SEL_Y(SQ_SEL_MASK), //G DST_SEL_Z(SQ_SEL_X), //B DST_SEL_W(SQ_SEL_MASK), //A LOD_BIAS(0), COORD_TYPE_X(TEX_NORMALIZED), COORD_TYPE_Y(TEX_NORMALIZED), COORD_TYPE_Z(TEX_NORMALIZED), COORD_TYPE_W(TEX_NORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(1), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; // 24/25 - tex 2 ps[i++] = TEX_DWORD0(TEX_INST(SQ_TEX_INST_SAMPLE), BC_FRAC_MODE(0), FETCH_WHOLE_QUAD(0), RESOURCE_ID(2), SRC_GPR(0), SRC_REL(ABSOLUTE), R7xx_ALT_CONST(0)); ps[i++] = TEX_DWORD1(DST_GPR(1), DST_REL(ABSOLUTE), DST_SEL_X(SQ_SEL_MASK), //R DST_SEL_Y(SQ_SEL_X), //G DST_SEL_Z(SQ_SEL_MASK), //B DST_SEL_W(SQ_SEL_MASK), //A LOD_BIAS(0), COORD_TYPE_X(TEX_NORMALIZED), COORD_TYPE_Y(TEX_NORMALIZED), COORD_TYPE_Z(TEX_NORMALIZED), COORD_TYPE_W(TEX_NORMALIZED)); ps[i++] = TEX_DWORD2(OFFSET_X(0), OFFSET_Y(0), OFFSET_Z(0), SAMPLER_ID(2), SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_0), SRC_SEL_W(SQ_SEL_1)); ps[i++] = TEX_DWORD_PAD; // comp mask vs --------------------------------------- i = accel_state->comp_mask_vs_offset / 4; //0 vs[i++] = CF_DWORD0(ADDR(4)); vs[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(3), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_VTX), WHOLE_QUAD_MODE(0), BARRIER(1)); //1 - dst vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_POS0), TYPE(SQ_EXPORT_POS), RW_GPR(2), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); //2 - src vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(0), TYPE(SQ_EXPORT_PARAM), RW_GPR(1), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT), WHOLE_QUAD_MODE(0), BARRIER(0)); //3 - mask vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(1), TYPE(SQ_EXPORT_PARAM), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(0)); //4/5 - dst vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(24)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(2), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(0), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(1)); vs[i++] = VTX_DWORD_PAD; //6/7 - src vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(8)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(1), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(8), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(0)); vs[i++] = VTX_DWORD_PAD; //8/9 - mask vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(8)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(0), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(16), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(0)); vs[i++] = VTX_DWORD_PAD; // comp mask vs --------------------------------------- i = accel_state->comp_mask_vs_offset / 4; //0 vs[i++] = CF_DWORD0(ADDR(4)); vs[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(3), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_VTX), WHOLE_QUAD_MODE(0), BARRIER(1)); //1 - dst vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_POS0), TYPE(SQ_EXPORT_POS), RW_GPR(2), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); //2 - src vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(0), TYPE(SQ_EXPORT_PARAM), RW_GPR(1), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT), WHOLE_QUAD_MODE(0), BARRIER(0)); //3 - mask vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(1), TYPE(SQ_EXPORT_PARAM), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(1), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(0)); //4/5 - dst vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(24)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(2), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(0), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(1)); vs[i++] = VTX_DWORD_PAD; //6/7 - src vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(8)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(1), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(8), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(0)); vs[i++] = VTX_DWORD_PAD; //8/9 - mask vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(8)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(0), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(16), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(0)); vs[i++] = VTX_DWORD_PAD; // comp mask ps --------------------------------------- // not yet // comp vs --------------------------------------- i = accel_state->comp_vs_offset / 4; //0 vs[i++] = CF_DWORD0(ADDR(4)); vs[i++] = CF_DWORD1(POP_COUNT(0), CF_CONST(0), COND(SQ_CF_COND_ACTIVE), I_COUNT(2), CALL_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_VTX), WHOLE_QUAD_MODE(0), BARRIER(1)); //1 - dst vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(CF_POS0), TYPE(SQ_EXPORT_POS), RW_GPR(1), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(0), END_OF_PROGRAM(0), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(1)); //2 - src vs[i++] = CF_ALLOC_IMP_EXP_DWORD0(ARRAY_BASE(0), TYPE(SQ_EXPORT_PARAM), RW_GPR(0), RW_REL(ABSOLUTE), INDEX_GPR(0), ELEM_SIZE(0)); vs[i++] = CF_ALLOC_IMP_EXP_DWORD1_SWIZ(SRC_SEL_X(SQ_SEL_X), SRC_SEL_Y(SQ_SEL_Y), SRC_SEL_Z(SQ_SEL_Z), SRC_SEL_W(SQ_SEL_W), R6xx_ELEM_LOOP(0), BURST_COUNT(0), END_OF_PROGRAM(1), VALID_PIXEL_MODE(0), CF_INST(SQ_CF_INST_EXPORT_DONE), WHOLE_QUAD_MODE(0), BARRIER(0)); //3 vs[i++] = 0x00000000; vs[i++] = 0x00000000; //4/5 - dst vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(16)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(1), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(0), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(1)); vs[i++] = VTX_DWORD_PAD; //6/7 - src vs[i++] = VTX_DWORD0(VTX_INST(SQ_VTX_INST_FETCH), FETCH_TYPE(SQ_VTX_FETCH_VERTEX_DATA), FETCH_WHOLE_QUAD(0), BUFFER_ID(0), SRC_GPR(0), SRC_REL(ABSOLUTE), SRC_SEL_X(SQ_SEL_X), MEGA_FETCH_COUNT(8)); vs[i++] = VTX_DWORD1_GPR(DST_GPR(0), DST_REL(0), DST_SEL_X(SQ_SEL_X), DST_SEL_Y(SQ_SEL_Y), DST_SEL_Z(SQ_SEL_0), DST_SEL_W(SQ_SEL_1), USE_CONST_FIELDS(0), DATA_FORMAT(FMT_32_32_FLOAT), //xxx NUM_FORMAT_ALL(SQ_NUM_FORMAT_NORM), //xxx FORMAT_COMP_ALL(SQ_FORMAT_COMP_SIGNED), //xxx SRF_MODE_ALL(SRF_MODE_ZERO_CLAMP_MINUS_ONE)); vs[i++] = VTX_DWORD2(OFFSET(8), ENDIAN_SWAP(ENDIAN_NONE), CONST_BUF_NO_STRIDE(0), MEGA_FETCH(0)); vs[i++] = VTX_DWORD_PAD; // comp ps --------------------------------------- // not yet return TRUE; } static Bool R600PrepareAccess(PixmapPtr pPix, int index) { ScrnInfoPtr pScrn = xf86Screens[pPix->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); unsigned char *RADEONMMIO = info->MMIO; //flush HDP read/write caches OUTREG(HDP_MEM_COHERENCY_FLUSH_CNTL, 0x1); return TRUE; } static void R600FinishAccess(PixmapPtr pPix, int index) { ScrnInfoPtr pScrn = xf86Screens[pPix->drawable.pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); unsigned char *RADEONMMIO = info->MMIO; //flush HDP read/write caches OUTREG(HDP_MEM_COHERENCY_FLUSH_CNTL, 0x1); } Bool R600DrawInit(ScreenPtr pScreen) { ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum]; RADEONInfoPtr info = RADEONPTR(pScrn); if (info->accel_state->exa == NULL) { xf86DrvMsg(pScreen->myNum, X_ERROR, "Memory map not set up\n"); return FALSE; } info->accel_state->exa->exa_major = EXA_VERSION_MAJOR; info->accel_state->exa->exa_minor = EXA_VERSION_MINOR; info->accel_state->exa->PrepareSolid = R600PrepareSolid; info->accel_state->exa->Solid = R600Solid; info->accel_state->exa->DoneSolid = R600DoneSolid; info->accel_state->exa->PrepareCopy = R600PrepareCopy; info->accel_state->exa->Copy = R600Copy; info->accel_state->exa->DoneCopy = R600DoneCopy; info->accel_state->exa->MarkSync = R600MarkSync; info->accel_state->exa->WaitMarker = R600Sync; info->accel_state->exa->PrepareAccess = R600PrepareAccess; info->accel_state->exa->FinishAccess = R600FinishAccess; info->accel_state->exa->UploadToScreen = R600UploadToScreen; info->accel_state->exa->DownloadFromScreen = R600DownloadFromScreen; info->accel_state->exa->flags = EXA_OFFSCREEN_PIXMAPS; #ifdef EXA_SUPPORTS_PREPARE_AUX info->accel_state->exa->flags |= EXA_SUPPORTS_PREPARE_AUX; #endif info->accel_state->exa->pixmapOffsetAlign = 256; info->accel_state->exa->pixmapPitchAlign = 256; info->accel_state->exa->CheckComposite = R600CheckComposite; info->accel_state->exa->PrepareComposite = R600PrepareComposite; info->accel_state->exa->Composite = R600Composite; info->accel_state->exa->DoneComposite = R600DoneComposite; #if EXA_VERSION_MAJOR > 2 || (EXA_VERSION_MAJOR == 2 && EXA_VERSION_MINOR >= 3) xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Setting EXA maxPitchBytes\n"); info->accel_state->exa->maxPitchBytes = 16320; info->accel_state->exa->maxX = 8192; #else info->accel_state->exa->maxX = 16320 / 4; #endif info->accel_state->exa->maxY = 8192; if (xf86ReturnOptValBool(info->Options, OPTION_EXA_VSYNC, FALSE)) { xf86DrvMsg(pScrn->scrnIndex, X_INFO, "EXA VSync enabled\n"); info->accel_state->vsync = TRUE; } else info->accel_state->vsync = FALSE; if (!exaDriverInit(pScreen, info->accel_state->exa)) { xfree(info->accel_state->exa); return FALSE; } if (!info->gartLocation) return FALSE; info->accel_state->XInited3D = FALSE; info->accel_state->copy_area = NULL; if (!R600LoadShaders(pScrn, pScreen)) return FALSE; exaMarkSync(pScreen); return TRUE; }