/* * Copyright 2010 Jerome Glisse * * 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 * on the rights to use, copy, modify, merge, publish, distribute, sub * license, 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 NON-INFRINGEMENT. IN NO EVENT SHALL * THE AUTHOR(S) AND/OR THEIR SUPPLIERS 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. */ #include "pipe/p_shader_tokens.h" #include "tgsi/tgsi_info.h" #include "tgsi/tgsi_parse.h" #include "tgsi/tgsi_scan.h" #include "tgsi/tgsi_dump.h" #include "util/u_format.h" #include "r600_pipe.h" #include "r600_asm.h" #include "r600_sq.h" #include "r600_formats.h" #include "r600_opcodes.h" #include "r600d.h" #include #include #include /* CAYMAN notes Why CAYMAN got loops for lots of instructions is explained here. -These 8xx t-slot only ops are implemented in all vector slots. MUL_LIT, FLT_TO_UINT, INT_TO_FLT, UINT_TO_FLT These 8xx t-slot only opcodes become vector ops, with all four slots expecting the arguments on sources a and b. Result is broadcast to all channels. MULLO_INT, MULHI_INT, MULLO_UINT, MULHI_UINT These 8xx t-slot only opcodes become vector ops in the z, y, and x slots. EXP_IEEE, LOG_IEEE/CLAMPED, RECIP_IEEE/CLAMPED/FF/INT/UINT/_64/CLAMPED_64 RECIPSQRT_IEEE/CLAMPED/FF/_64/CLAMPED_64 SQRT_IEEE/_64 SIN/COS The w slot may have an independent co-issued operation, or if the result is required to be in the w slot, the opcode above may be issued in the w slot as well. The compiler must issue the source argument to slots z, y, and x */ static int r600_pipe_shader(struct pipe_context *ctx, struct r600_pipe_shader *shader) { struct r600_pipe_context *rctx = (struct r600_pipe_context *)ctx; struct r600_shader *rshader = &shader->shader; uint32_t *ptr; int i; /* copy new shader */ if (shader->bo == NULL) { shader->bo = (struct r600_resource*) pipe_buffer_create(ctx->screen, PIPE_BIND_CUSTOM, PIPE_USAGE_IMMUTABLE, rshader->bc.ndw * 4); if (shader->bo == NULL) { return -ENOMEM; } ptr = (uint32_t*)rctx->ws->buffer_map(shader->bo->buf, rctx->ctx.cs, PIPE_TRANSFER_WRITE); if (R600_BIG_ENDIAN) { for (i = 0; i < rshader->bc.ndw; ++i) { ptr[i] = bswap_32(rshader->bc.bytecode[i]); } } else { memcpy(ptr, rshader->bc.bytecode, rshader->bc.ndw * sizeof(*ptr)); } rctx->ws->buffer_unmap(shader->bo->buf); } /* build state */ switch (rshader->processor_type) { case TGSI_PROCESSOR_VERTEX: if (rctx->chip_class >= EVERGREEN) { evergreen_pipe_shader_vs(ctx, shader); } else { r600_pipe_shader_vs(ctx, shader); } break; case TGSI_PROCESSOR_FRAGMENT: if (rctx->chip_class >= EVERGREEN) { evergreen_pipe_shader_ps(ctx, shader); } else { r600_pipe_shader_ps(ctx, shader); } break; default: return -EINVAL; } return 0; } static int r600_shader_from_tgsi(struct r600_pipe_context * rctx, struct r600_pipe_shader *pipeshader); int r600_pipe_shader_create(struct pipe_context *ctx, struct r600_pipe_shader *shader) { static int dump_shaders = -1; struct r600_pipe_context *rctx = (struct r600_pipe_context *)ctx; int r; /* Would like some magic "get_bool_option_once" routine. */ if (dump_shaders == -1) dump_shaders = debug_get_bool_option("R600_DUMP_SHADERS", FALSE); if (dump_shaders) { fprintf(stderr, "--------------------------------------------------------------\n"); tgsi_dump(shader->tokens, 0); } r = r600_shader_from_tgsi(rctx, shader); if (r) { R600_ERR("translation from TGSI failed !\n"); return r; } r = r600_bytecode_build(&shader->shader.bc); if (r) { R600_ERR("building bytecode failed !\n"); return r; } if (dump_shaders) { r600_bytecode_dump(&shader->shader.bc); fprintf(stderr, "______________________________________________________________\n"); } return r600_pipe_shader(ctx, shader); } void r600_pipe_shader_destroy(struct pipe_context *ctx, struct r600_pipe_shader *shader) { pipe_resource_reference((struct pipe_resource**)&shader->bo, NULL); r600_bytecode_clear(&shader->shader.bc); memset(&shader->shader,0,sizeof(struct r600_shader)); } /* * tgsi -> r600 shader */ struct r600_shader_tgsi_instruction; struct r600_shader_src { unsigned sel; unsigned swizzle[4]; unsigned neg; unsigned abs; unsigned rel; uint32_t value[4]; }; struct r600_shader_ctx { struct tgsi_shader_info info; struct tgsi_parse_context parse; const struct tgsi_token *tokens; unsigned type; unsigned file_offset[TGSI_FILE_COUNT]; unsigned temp_reg; unsigned ar_reg; struct r600_shader_tgsi_instruction *inst_info; struct r600_bytecode *bc; struct r600_shader *shader; struct r600_shader_src src[4]; u32 *literals; u32 nliterals; u32 max_driver_temp_used; /* needed for evergreen interpolation */ boolean input_centroid; boolean input_linear; boolean input_perspective; int num_interp_gpr; }; struct r600_shader_tgsi_instruction { unsigned tgsi_opcode; unsigned is_op3; unsigned r600_opcode; int (*process)(struct r600_shader_ctx *ctx); }; static struct r600_shader_tgsi_instruction r600_shader_tgsi_instruction[], eg_shader_tgsi_instruction[], cm_shader_tgsi_instruction[]; static int tgsi_helper_tempx_replicate(struct r600_shader_ctx *ctx); static int tgsi_is_supported(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *i = &ctx->parse.FullToken.FullInstruction; int j; if (i->Instruction.NumDstRegs > 1) { R600_ERR("too many dst (%d)\n", i->Instruction.NumDstRegs); return -EINVAL; } if (i->Instruction.Predicate) { R600_ERR("predicate unsupported\n"); return -EINVAL; } #if 0 if (i->Instruction.Label) { R600_ERR("label unsupported\n"); return -EINVAL; } #endif for (j = 0; j < i->Instruction.NumSrcRegs; j++) { if (i->Src[j].Register.Dimension) { R600_ERR("unsupported src %d (dimension %d)\n", j, i->Src[j].Register.Dimension); return -EINVAL; } } for (j = 0; j < i->Instruction.NumDstRegs; j++) { if (i->Dst[j].Register.Dimension) { R600_ERR("unsupported dst (dimension)\n"); return -EINVAL; } } return 0; } static int evergreen_interp_alu(struct r600_shader_ctx *ctx, int input) { int i, r; struct r600_bytecode_alu alu; int gpr = 0, base_chan = 0; int ij_index = 0; if (ctx->shader->input[input].interpolate == TGSI_INTERPOLATE_PERSPECTIVE) { ij_index = 0; if (ctx->shader->input[input].centroid) ij_index++; } else if (ctx->shader->input[input].interpolate == TGSI_INTERPOLATE_LINEAR) { ij_index = 0; /* if we have perspective add one */ if (ctx->input_perspective) { ij_index++; /* if we have perspective centroid */ if (ctx->input_centroid) ij_index++; } if (ctx->shader->input[input].centroid) ij_index++; } /* work out gpr and base_chan from index */ gpr = ij_index / 2; base_chan = (2 * (ij_index % 2)) + 1; for (i = 0; i < 8; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); if (i < 4) alu.inst = EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INTERP_ZW; else alu.inst = EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INTERP_XY; if ((i > 1) && (i < 6)) { alu.dst.sel = ctx->shader->input[input].gpr; alu.dst.write = 1; } alu.dst.chan = i % 4; alu.src[0].sel = gpr; alu.src[0].chan = (base_chan - (i % 2)); alu.src[1].sel = V_SQ_ALU_SRC_PARAM_BASE + ctx->shader->input[input].lds_pos; alu.bank_swizzle_force = SQ_ALU_VEC_210; if ((i % 4) == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int evergreen_interp_flat(struct r600_shader_ctx *ctx, int input) { int i, r; struct r600_bytecode_alu alu; for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INTERP_LOAD_P0; alu.dst.sel = ctx->shader->input[input].gpr; alu.dst.write = 1; alu.dst.chan = i; alu.src[0].sel = V_SQ_ALU_SRC_PARAM_BASE + ctx->shader->input[input].lds_pos; alu.src[0].chan = i; if (i == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } /* * Special export handling in shaders * * shader export ARRAY_BASE for EXPORT_POS: * 60 is position * 61 is misc vector * 62, 63 are clip distance vectors * * The use of the values exported in 61-63 are controlled by PA_CL_VS_OUT_CNTL: * VS_OUT_MISC_VEC_ENA - enables the use of all fields in export 61 * USE_VTX_POINT_SIZE - point size in the X channel of export 61 * USE_VTX_EDGE_FLAG - edge flag in the Y channel of export 61 * USE_VTX_RENDER_TARGET_INDX - render target index in the Z channel of export 61 * USE_VTX_VIEWPORT_INDX - viewport index in the W channel of export 61 * USE_VTX_KILL_FLAG - kill flag in the Z channel of export 61 (mutually * exclusive from render target index) * VS_OUT_CCDIST0_VEC_ENA/VS_OUT_CCDIST1_VEC_ENA - enable clip distance vectors * * * shader export ARRAY_BASE for EXPORT_PIXEL: * 0-7 CB targets * 61 computed Z vector * * The use of the values exported in the computed Z vector are controlled * by DB_SHADER_CONTROL: * Z_EXPORT_ENABLE - Z as a float in RED * STENCIL_REF_EXPORT_ENABLE - stencil ref as int in GREEN * COVERAGE_TO_MASK_ENABLE - alpha to mask in ALPHA * MASK_EXPORT_ENABLE - pixel sample mask in BLUE * DB_SOURCE_FORMAT - export control restrictions * */ /* Map name/sid pair from tgsi to the 8-bit semantic index for SPI setup */ static int r600_spi_sid(struct r600_shader_io * io) { int index, name = io->name; /* These params are handled differently, they don't need * semantic indices, so we'll use 0 for them. */ if (name == TGSI_SEMANTIC_POSITION || name == TGSI_SEMANTIC_PSIZE || name == TGSI_SEMANTIC_FACE) index = 0; else { if (name == TGSI_SEMANTIC_GENERIC) { /* For generic params simply use sid from tgsi */ index = io->sid; } else { /* FIXME: two-side rendering is broken in r600g, this will * keep old functionality */ if (name == TGSI_SEMANTIC_BCOLOR) name = TGSI_SEMANTIC_COLOR; /* For non-generic params - pack name and sid into 8 bits */ index = 0x80 | (name<<3) | (io->sid); } /* Make sure that all really used indices have nonzero value, so * we can just compare it to 0 later instead of comparing the name * with different values to detect special cases. */ index++; } return index; }; static int tgsi_declaration(struct r600_shader_ctx *ctx) { struct tgsi_full_declaration *d = &ctx->parse.FullToken.FullDeclaration; unsigned i; int r; switch (d->Declaration.File) { case TGSI_FILE_INPUT: i = ctx->shader->ninput++; ctx->shader->input[i].name = d->Semantic.Name; ctx->shader->input[i].sid = d->Semantic.Index; ctx->shader->input[i].spi_sid = r600_spi_sid(&ctx->shader->input[i]); ctx->shader->input[i].interpolate = d->Declaration.Interpolate; ctx->shader->input[i].centroid = d->Declaration.Centroid; ctx->shader->input[i].gpr = ctx->file_offset[TGSI_FILE_INPUT] + d->Range.First; if (ctx->type == TGSI_PROCESSOR_FRAGMENT && ctx->bc->chip_class >= EVERGREEN) { /* turn input into interpolate on EG */ if (ctx->shader->input[i].spi_sid) { ctx->shader->input[i].lds_pos = ctx->shader->nlds++; if (ctx->shader->input[i].interpolate > 0) { evergreen_interp_alu(ctx, i); } else { evergreen_interp_flat(ctx, i); } } } break; case TGSI_FILE_OUTPUT: i = ctx->shader->noutput++; ctx->shader->output[i].name = d->Semantic.Name; ctx->shader->output[i].sid = d->Semantic.Index; ctx->shader->output[i].spi_sid = r600_spi_sid(&ctx->shader->output[i]); ctx->shader->output[i].gpr = ctx->file_offset[TGSI_FILE_OUTPUT] + d->Range.First; ctx->shader->output[i].interpolate = d->Declaration.Interpolate; break; case TGSI_FILE_CONSTANT: case TGSI_FILE_TEMPORARY: case TGSI_FILE_SAMPLER: case TGSI_FILE_ADDRESS: break; case TGSI_FILE_SYSTEM_VALUE: if (d->Semantic.Name == TGSI_SEMANTIC_INSTANCEID) { struct r600_bytecode_alu alu; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_INT_TO_FLT); alu.src[0].sel = 0; alu.src[0].chan = 3; alu.dst.sel = 0; alu.dst.chan = 3; alu.dst.write = 1; alu.last = 1; if ((r = r600_bytecode_add_alu(ctx->bc, &alu))) return r; break; } default: R600_ERR("unsupported file %d declaration\n", d->Declaration.File); return -EINVAL; } return 0; } static int r600_get_temp(struct r600_shader_ctx *ctx) { return ctx->temp_reg + ctx->max_driver_temp_used++; } /* * for evergreen we need to scan the shader to find the number of GPRs we need to * reserve for interpolation. * * we need to know if we are going to emit * any centroid inputs * if perspective and linear are required */ static int evergreen_gpr_count(struct r600_shader_ctx *ctx) { int i; int num_baryc; ctx->input_linear = FALSE; ctx->input_perspective = FALSE; ctx->input_centroid = FALSE; ctx->num_interp_gpr = 1; /* any centroid inputs */ for (i = 0; i < ctx->info.num_inputs; i++) { /* skip position/face */ if (ctx->info.input_semantic_name[i] == TGSI_SEMANTIC_POSITION || ctx->info.input_semantic_name[i] == TGSI_SEMANTIC_FACE) continue; if (ctx->info.input_interpolate[i] == TGSI_INTERPOLATE_LINEAR) ctx->input_linear = TRUE; if (ctx->info.input_interpolate[i] == TGSI_INTERPOLATE_PERSPECTIVE) ctx->input_perspective = TRUE; if (ctx->info.input_centroid[i]) ctx->input_centroid = TRUE; } num_baryc = 0; /* ignoring sample for now */ if (ctx->input_perspective) num_baryc++; if (ctx->input_linear) num_baryc++; if (ctx->input_centroid) num_baryc *= 2; ctx->num_interp_gpr += (num_baryc + 1) >> 1; /* TODO PULL MODEL and LINE STIPPLE, FIXED PT POS */ return ctx->num_interp_gpr; } static void tgsi_src(struct r600_shader_ctx *ctx, const struct tgsi_full_src_register *tgsi_src, struct r600_shader_src *r600_src) { memset(r600_src, 0, sizeof(*r600_src)); r600_src->swizzle[0] = tgsi_src->Register.SwizzleX; r600_src->swizzle[1] = tgsi_src->Register.SwizzleY; r600_src->swizzle[2] = tgsi_src->Register.SwizzleZ; r600_src->swizzle[3] = tgsi_src->Register.SwizzleW; r600_src->neg = tgsi_src->Register.Negate; r600_src->abs = tgsi_src->Register.Absolute; if (tgsi_src->Register.File == TGSI_FILE_IMMEDIATE) { int index; if ((tgsi_src->Register.SwizzleX == tgsi_src->Register.SwizzleY) && (tgsi_src->Register.SwizzleX == tgsi_src->Register.SwizzleZ) && (tgsi_src->Register.SwizzleX == tgsi_src->Register.SwizzleW)) { index = tgsi_src->Register.Index * 4 + tgsi_src->Register.SwizzleX; r600_bytecode_special_constants(ctx->literals[index], &r600_src->sel, &r600_src->neg); if (r600_src->sel != V_SQ_ALU_SRC_LITERAL) return; } index = tgsi_src->Register.Index; r600_src->sel = V_SQ_ALU_SRC_LITERAL; memcpy(r600_src->value, ctx->literals + index * 4, sizeof(r600_src->value)); } else if (tgsi_src->Register.File == TGSI_FILE_SYSTEM_VALUE) { /* assume we wan't TGSI_SEMANTIC_INSTANCEID here */ r600_src->swizzle[0] = 3; r600_src->swizzle[1] = 3; r600_src->swizzle[2] = 3; r600_src->swizzle[3] = 3; r600_src->sel = 0; } else { if (tgsi_src->Register.Indirect) r600_src->rel = V_SQ_REL_RELATIVE; r600_src->sel = tgsi_src->Register.Index; r600_src->sel += ctx->file_offset[tgsi_src->Register.File]; } } static int tgsi_fetch_rel_const(struct r600_shader_ctx *ctx, unsigned int offset, unsigned int dst_reg) { struct r600_bytecode_vtx vtx; unsigned int ar_reg; int r; if (offset) { struct r600_bytecode_alu alu; memset(&alu, 0, sizeof(alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD_INT); alu.src[0].sel = ctx->ar_reg; alu.src[1].sel = V_SQ_ALU_SRC_LITERAL; alu.src[1].value = offset; alu.dst.sel = dst_reg; alu.dst.write = 1; alu.last = 1; if ((r = r600_bytecode_add_alu(ctx->bc, &alu))) return r; ar_reg = dst_reg; } else { ar_reg = ctx->ar_reg; } memset(&vtx, 0, sizeof(vtx)); vtx.fetch_type = 2; /* VTX_FETCH_NO_INDEX_OFFSET */ vtx.src_gpr = ar_reg; vtx.mega_fetch_count = 16; vtx.dst_gpr = dst_reg; vtx.dst_sel_x = 0; /* SEL_X */ vtx.dst_sel_y = 1; /* SEL_Y */ vtx.dst_sel_z = 2; /* SEL_Z */ vtx.dst_sel_w = 3; /* SEL_W */ vtx.data_format = FMT_32_32_32_32_FLOAT; vtx.num_format_all = 2; /* NUM_FORMAT_SCALED */ vtx.format_comp_all = 1; /* FORMAT_COMP_SIGNED */ vtx.srf_mode_all = 1; /* SRF_MODE_NO_ZERO */ vtx.endian = r600_endian_swap(32); if ((r = r600_bytecode_add_vtx(ctx->bc, &vtx))) return r; return 0; } static int tgsi_split_constant(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, j, k, nconst, r; for (i = 0, nconst = 0; i < inst->Instruction.NumSrcRegs; i++) { if (inst->Src[i].Register.File == TGSI_FILE_CONSTANT) { nconst++; } tgsi_src(ctx, &inst->Src[i], &ctx->src[i]); } for (i = 0, j = nconst - 1; i < inst->Instruction.NumSrcRegs; i++) { if (inst->Src[i].Register.File != TGSI_FILE_CONSTANT) { continue; } if (ctx->src[i].rel) { int treg = r600_get_temp(ctx); if ((r = tgsi_fetch_rel_const(ctx, ctx->src[i].sel - 512, treg))) return r; ctx->src[i].sel = treg; ctx->src[i].rel = 0; j--; } else if (j > 0) { int treg = r600_get_temp(ctx); for (k = 0; k < 4; k++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.src[0].sel = ctx->src[i].sel; alu.src[0].chan = k; alu.src[0].rel = ctx->src[i].rel; alu.dst.sel = treg; alu.dst.chan = k; alu.dst.write = 1; if (k == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } ctx->src[i].sel = treg; ctx->src[i].rel =0; j--; } } return 0; } /* need to move any immediate into a temp - for trig functions which use literal for PI stuff */ static int tgsi_split_literal_constant(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, j, k, nliteral, r; for (i = 0, nliteral = 0; i < inst->Instruction.NumSrcRegs; i++) { if (ctx->src[i].sel == V_SQ_ALU_SRC_LITERAL) { nliteral++; } } for (i = 0, j = nliteral - 1; i < inst->Instruction.NumSrcRegs; i++) { if (j > 0 && ctx->src[i].sel == V_SQ_ALU_SRC_LITERAL) { int treg = r600_get_temp(ctx); for (k = 0; k < 4; k++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.src[0].sel = ctx->src[i].sel; alu.src[0].chan = k; alu.src[0].value = ctx->src[i].value[k]; alu.dst.sel = treg; alu.dst.chan = k; alu.dst.write = 1; if (k == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } ctx->src[i].sel = treg; j--; } } return 0; } static int r600_shader_from_tgsi(struct r600_pipe_context * rctx, struct r600_pipe_shader *pipeshader) { struct r600_shader *shader = &pipeshader->shader; struct tgsi_token *tokens = pipeshader->tokens; struct tgsi_full_immediate *immediate; struct tgsi_full_property *property; struct r600_shader_ctx ctx; struct r600_bytecode_output output[32]; unsigned output_done, noutput; unsigned opcode; int i, j, r = 0, pos0; ctx.bc = &shader->bc; ctx.shader = shader; r600_bytecode_init(ctx.bc, rctx->chip_class); ctx.tokens = tokens; tgsi_scan_shader(tokens, &ctx.info); tgsi_parse_init(&ctx.parse, tokens); ctx.type = ctx.parse.FullHeader.Processor.Processor; shader->processor_type = ctx.type; ctx.bc->type = shader->processor_type; shader->clamp_color = (((ctx.type == TGSI_PROCESSOR_FRAGMENT) && rctx->clamp_fragment_color) || ((ctx.type == TGSI_PROCESSOR_VERTEX) && rctx->clamp_vertex_color)); shader->nr_cbufs = rctx->nr_cbufs; /* register allocations */ /* Values [0,127] correspond to GPR[0..127]. * Values [128,159] correspond to constant buffer bank 0 * Values [160,191] correspond to constant buffer bank 1 * Values [256,511] correspond to cfile constants c[0..255]. (Gone on EG) * Values [256,287] correspond to constant buffer bank 2 (EG) * Values [288,319] correspond to constant buffer bank 3 (EG) * Other special values are shown in the list below. * 244 ALU_SRC_1_DBL_L: special constant 1.0 double-float, LSW. (RV670+) * 245 ALU_SRC_1_DBL_M: special constant 1.0 double-float, MSW. (RV670+) * 246 ALU_SRC_0_5_DBL_L: special constant 0.5 double-float, LSW. (RV670+) * 247 ALU_SRC_0_5_DBL_M: special constant 0.5 double-float, MSW. (RV670+) * 248 SQ_ALU_SRC_0: special constant 0.0. * 249 SQ_ALU_SRC_1: special constant 1.0 float. * 250 SQ_ALU_SRC_1_INT: special constant 1 integer. * 251 SQ_ALU_SRC_M_1_INT: special constant -1 integer. * 252 SQ_ALU_SRC_0_5: special constant 0.5 float. * 253 SQ_ALU_SRC_LITERAL: literal constant. * 254 SQ_ALU_SRC_PV: previous vector result. * 255 SQ_ALU_SRC_PS: previous scalar result. */ for (i = 0; i < TGSI_FILE_COUNT; i++) { ctx.file_offset[i] = 0; } if (ctx.type == TGSI_PROCESSOR_VERTEX) { ctx.file_offset[TGSI_FILE_INPUT] = 1; if (ctx.bc->chip_class >= EVERGREEN) { r600_bytecode_add_cfinst(ctx.bc, EG_V_SQ_CF_WORD1_SQ_CF_INST_CALL_FS); } else { r600_bytecode_add_cfinst(ctx.bc, V_SQ_CF_WORD1_SQ_CF_INST_CALL_FS); } } if (ctx.type == TGSI_PROCESSOR_FRAGMENT && ctx.bc->chip_class >= EVERGREEN) { ctx.file_offset[TGSI_FILE_INPUT] = evergreen_gpr_count(&ctx); } ctx.file_offset[TGSI_FILE_OUTPUT] = ctx.file_offset[TGSI_FILE_INPUT] + ctx.info.file_max[TGSI_FILE_INPUT] + 1; ctx.file_offset[TGSI_FILE_TEMPORARY] = ctx.file_offset[TGSI_FILE_OUTPUT] + ctx.info.file_max[TGSI_FILE_OUTPUT] + 1; /* Outside the GPR range. This will be translated to one of the * kcache banks later. */ ctx.file_offset[TGSI_FILE_CONSTANT] = 512; ctx.file_offset[TGSI_FILE_IMMEDIATE] = V_SQ_ALU_SRC_LITERAL; ctx.ar_reg = ctx.file_offset[TGSI_FILE_TEMPORARY] + ctx.info.file_max[TGSI_FILE_TEMPORARY] + 1; ctx.temp_reg = ctx.ar_reg + 1; ctx.nliterals = 0; ctx.literals = NULL; shader->fs_write_all = FALSE; while (!tgsi_parse_end_of_tokens(&ctx.parse)) { tgsi_parse_token(&ctx.parse); switch (ctx.parse.FullToken.Token.Type) { case TGSI_TOKEN_TYPE_IMMEDIATE: immediate = &ctx.parse.FullToken.FullImmediate; ctx.literals = realloc(ctx.literals, (ctx.nliterals + 1) * 16); if(ctx.literals == NULL) { r = -ENOMEM; goto out_err; } ctx.literals[ctx.nliterals * 4 + 0] = immediate->u[0].Uint; ctx.literals[ctx.nliterals * 4 + 1] = immediate->u[1].Uint; ctx.literals[ctx.nliterals * 4 + 2] = immediate->u[2].Uint; ctx.literals[ctx.nliterals * 4 + 3] = immediate->u[3].Uint; ctx.nliterals++; break; case TGSI_TOKEN_TYPE_DECLARATION: r = tgsi_declaration(&ctx); if (r) goto out_err; break; case TGSI_TOKEN_TYPE_INSTRUCTION: r = tgsi_is_supported(&ctx); if (r) goto out_err; ctx.max_driver_temp_used = 0; /* reserve first tmp for everyone */ r600_get_temp(&ctx); opcode = ctx.parse.FullToken.FullInstruction.Instruction.Opcode; if ((r = tgsi_split_constant(&ctx))) goto out_err; if ((r = tgsi_split_literal_constant(&ctx))) goto out_err; if (ctx.bc->chip_class == CAYMAN) ctx.inst_info = &cm_shader_tgsi_instruction[opcode]; else if (ctx.bc->chip_class >= EVERGREEN) ctx.inst_info = &eg_shader_tgsi_instruction[opcode]; else ctx.inst_info = &r600_shader_tgsi_instruction[opcode]; r = ctx.inst_info->process(&ctx); if (r) goto out_err; break; case TGSI_TOKEN_TYPE_PROPERTY: property = &ctx.parse.FullToken.FullProperty; if (property->Property.PropertyName == TGSI_PROPERTY_FS_COLOR0_WRITES_ALL_CBUFS) { if (property->u[0].Data == 1) shader->fs_write_all = TRUE; } break; default: R600_ERR("unsupported token type %d\n", ctx.parse.FullToken.Token.Type); r = -EINVAL; goto out_err; } } noutput = shader->noutput; /* clamp color outputs */ if (shader->clamp_color) { for (i = 0; i < noutput; i++) { if (shader->output[i].name == TGSI_SEMANTIC_COLOR || shader->output[i].name == TGSI_SEMANTIC_BCOLOR) { int j; for (j = 0; j < 4; j++) { struct r600_bytecode_alu alu; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); /* MOV_SAT R, R */ alu.inst = BC_INST(ctx.bc, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.dst.sel = shader->output[i].gpr; alu.dst.chan = j; alu.dst.write = 1; alu.dst.clamp = 1; alu.src[0].sel = alu.dst.sel; alu.src[0].chan = j; if (j == 3) { alu.last = 1; } r = r600_bytecode_add_alu(ctx.bc, &alu); if (r) return r; } } } } /* export output */ j = 0; for (i = 0, pos0 = 0; i < noutput; i++) { memset(&output[i], 0, sizeof(struct r600_bytecode_output)); output[i + j].gpr = shader->output[i].gpr; output[i + j].elem_size = 3; output[i + j].swizzle_x = 0; output[i + j].swizzle_y = 1; output[i + j].swizzle_z = 2; output[i + j].swizzle_w = 3; output[i + j].burst_count = 1; output[i + j].barrier = 1; output[i + j].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_PARAM; output[i + j].array_base = i - pos0; output[i + j].inst = BC_INST(ctx.bc, V_SQ_CF_ALLOC_EXPORT_WORD1_SQ_CF_INST_EXPORT); switch (ctx.type) { case TGSI_PROCESSOR_VERTEX: if (shader->output[i].name == TGSI_SEMANTIC_POSITION) { output[i + j].array_base = 60; output[i + j].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_POS; /* position doesn't count in array_base */ pos0++; } if (shader->output[i].name == TGSI_SEMANTIC_PSIZE) { output[i + j].array_base = 61; output[i + j].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_POS; /* position doesn't count in array_base */ pos0++; } break; case TGSI_PROCESSOR_FRAGMENT: if (shader->output[i].name == TGSI_SEMANTIC_COLOR) { output[i + j].array_base = shader->output[i].sid; output[i + j].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_PIXEL; if (shader->fs_write_all && (rctx->chip_class >= EVERGREEN)) { for (j = 1; j < shader->nr_cbufs; j++) { memset(&output[i + j], 0, sizeof(struct r600_bytecode_output)); output[i + j].gpr = shader->output[i].gpr; output[i + j].elem_size = 3; output[i + j].swizzle_x = 0; output[i + j].swizzle_y = 1; output[i + j].swizzle_z = 2; output[i + j].swizzle_w = 3; output[i + j].burst_count = 1; output[i + j].barrier = 1; output[i + j].array_base = shader->output[i].sid + j; output[i + j].inst = BC_INST(ctx.bc, V_SQ_CF_ALLOC_EXPORT_WORD1_SQ_CF_INST_EXPORT); output[i + j].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_PIXEL; } j = shader->nr_cbufs-1; } } else if (shader->output[i].name == TGSI_SEMANTIC_POSITION) { output[i + j].array_base = 61; output[i + j].swizzle_x = 2; output[i + j].swizzle_y = 7; output[i + j].swizzle_z = output[i + j].swizzle_w = 7; output[i + j].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_PIXEL; } else if (shader->output[i].name == TGSI_SEMANTIC_STENCIL) { output[i + j].array_base = 61; output[i + j].swizzle_x = 7; output[i + j].swizzle_y = 1; output[i + j].swizzle_z = output[i + j].swizzle_w = 7; output[i + j].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_PIXEL; } else { R600_ERR("unsupported fragment output name %d\n", shader->output[i].name); r = -EINVAL; goto out_err; } break; default: R600_ERR("unsupported processor type %d\n", ctx.type); r = -EINVAL; goto out_err; } } noutput += j; /* add fake param output for vertex shader if no param is exported */ if (ctx.type == TGSI_PROCESSOR_VERTEX) { for (i = 0, pos0 = 0; i < noutput; i++) { if (output[i].type == V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_PARAM) { pos0 = 1; break; } } if (!pos0) { memset(&output[i], 0, sizeof(struct r600_bytecode_output)); output[i].gpr = 0; output[i].elem_size = 3; output[i].swizzle_x = 0; output[i].swizzle_y = 1; output[i].swizzle_z = 2; output[i].swizzle_w = 3; output[i].burst_count = 1; output[i].barrier = 1; output[i].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_PARAM; output[i].array_base = 0; output[i].inst = BC_INST(ctx.bc, V_SQ_CF_ALLOC_EXPORT_WORD1_SQ_CF_INST_EXPORT); noutput++; } } /* add fake pixel export */ if (ctx.type == TGSI_PROCESSOR_FRAGMENT && !noutput) { memset(&output[0], 0, sizeof(struct r600_bytecode_output)); output[0].gpr = 0; output[0].elem_size = 3; output[0].swizzle_x = 7; output[0].swizzle_y = 7; output[0].swizzle_z = 7; output[0].swizzle_w = 7; output[0].burst_count = 1; output[0].barrier = 1; output[0].type = V_SQ_CF_ALLOC_EXPORT_WORD0_SQ_EXPORT_PIXEL; output[0].array_base = 0; output[0].inst = BC_INST(ctx.bc, V_SQ_CF_ALLOC_EXPORT_WORD1_SQ_CF_INST_EXPORT); noutput++; } /* set export done on last export of each type */ for (i = noutput - 1, output_done = 0; i >= 0; i--) { if (ctx.bc->chip_class < CAYMAN) { if (i == (noutput - 1)) { output[i].end_of_program = 1; } } if (!(output_done & (1 << output[i].type))) { output_done |= (1 << output[i].type); output[i].inst = BC_INST(ctx.bc, V_SQ_CF_ALLOC_EXPORT_WORD1_SQ_CF_INST_EXPORT_DONE); } } /* add output to bytecode */ for (i = 0; i < noutput; i++) { r = r600_bytecode_add_output(ctx.bc, &output[i]); if (r) goto out_err; } /* add program end */ if (ctx.bc->chip_class == CAYMAN) cm_bytecode_add_cf_end(ctx.bc); free(ctx.literals); tgsi_parse_free(&ctx.parse); return 0; out_err: free(ctx.literals); tgsi_parse_free(&ctx.parse); return r; } static int tgsi_unsupported(struct r600_shader_ctx *ctx) { R600_ERR("%s tgsi opcode unsupported\n", tgsi_get_opcode_name(ctx->inst_info->tgsi_opcode)); return -EINVAL; } static int tgsi_end(struct r600_shader_ctx *ctx) { return 0; } static void r600_bytecode_src(struct r600_bytecode_alu_src *bc_src, const struct r600_shader_src *shader_src, unsigned chan) { bc_src->sel = shader_src->sel; bc_src->chan = shader_src->swizzle[chan]; bc_src->neg = shader_src->neg; bc_src->abs = shader_src->abs; bc_src->rel = shader_src->rel; bc_src->value = shader_src->value[bc_src->chan]; } static void r600_bytecode_src_set_abs(struct r600_bytecode_alu_src *bc_src) { bc_src->abs = 1; bc_src->neg = 0; } static void r600_bytecode_src_toggle_neg(struct r600_bytecode_alu_src *bc_src) { bc_src->neg = !bc_src->neg; } static void tgsi_dst(struct r600_shader_ctx *ctx, const struct tgsi_full_dst_register *tgsi_dst, unsigned swizzle, struct r600_bytecode_alu_dst *r600_dst) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; r600_dst->sel = tgsi_dst->Register.Index; r600_dst->sel += ctx->file_offset[tgsi_dst->Register.File]; r600_dst->chan = swizzle; r600_dst->write = 1; if (tgsi_dst->Register.Indirect) r600_dst->rel = V_SQ_REL_RELATIVE; if (inst->Instruction.Saturate) { r600_dst->clamp = 1; } } static int tgsi_last_instruction(unsigned writemask) { int i, lasti = 0; for (i = 0; i < 4; i++) { if (writemask & (1 << i)) { lasti = i; } } return lasti; } static int tgsi_op2_s(struct r600_shader_ctx *ctx, int swap, int trans_only) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, j, r; int lasti = tgsi_last_instruction(inst->Dst[0].Register.WriteMask); for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.inst = ctx->inst_info->r600_opcode; if (!swap) { for (j = 0; j < inst->Instruction.NumSrcRegs; j++) { r600_bytecode_src(&alu.src[j], &ctx->src[j], i); } } else { r600_bytecode_src(&alu.src[0], &ctx->src[1], i); r600_bytecode_src(&alu.src[1], &ctx->src[0], i); } /* handle some special cases */ switch (ctx->inst_info->tgsi_opcode) { case TGSI_OPCODE_SUB: r600_bytecode_src_toggle_neg(&alu.src[1]); break; case TGSI_OPCODE_ABS: r600_bytecode_src_set_abs(&alu.src[0]); break; default: break; } if (i == lasti || trans_only) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_op2(struct r600_shader_ctx *ctx) { return tgsi_op2_s(ctx, 0, 0); } static int tgsi_op2_swap(struct r600_shader_ctx *ctx) { return tgsi_op2_s(ctx, 1, 0); } static int tgsi_op2_trans(struct r600_shader_ctx *ctx) { return tgsi_op2_s(ctx, 0, 1); } static int tgsi_ineg(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r; int lasti = tgsi_last_instruction(inst->Dst[0].Register.WriteMask); for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = ctx->inst_info->r600_opcode; alu.src[0].sel = V_SQ_ALU_SRC_0; r600_bytecode_src(&alu.src[1], &ctx->src[0], i); tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); if (i == lasti) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int cayman_emit_float_instr(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; int i, j, r; struct r600_bytecode_alu alu; int last_slot = (inst->Dst[0].Register.WriteMask & 0x8) ? 4 : 3; for (i = 0 ; i < last_slot; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = ctx->inst_info->r600_opcode; for (j = 0; j < inst->Instruction.NumSrcRegs; j++) { r600_bytecode_src(&alu.src[j], &ctx->src[j], 0); } tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.write = (inst->Dst[0].Register.WriteMask >> i) & 1; if (i == last_slot - 1) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } /* * r600 - trunc to -PI..PI range * r700 - normalize by dividing by 2PI * see fdo bug 27901 */ static int tgsi_setup_trig(struct r600_shader_ctx *ctx) { static float half_inv_pi = 1.0 /(3.1415926535 * 2); static float double_pi = 3.1415926535 * 2; static float neg_pi = -3.1415926535; int r; struct r600_bytecode_alu alu; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD); alu.is_op3 = 1; alu.dst.chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.src[1].sel = V_SQ_ALU_SRC_LITERAL; alu.src[1].chan = 0; alu.src[1].value = *(uint32_t *)&half_inv_pi; alu.src[2].sel = V_SQ_ALU_SRC_0_5; alu.src[2].chan = 0; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FRACT); alu.dst.chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD); alu.is_op3 = 1; alu.dst.chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.src[1].sel = V_SQ_ALU_SRC_LITERAL; alu.src[1].chan = 0; alu.src[2].sel = V_SQ_ALU_SRC_LITERAL; alu.src[2].chan = 0; if (ctx->bc->chip_class == R600) { alu.src[1].value = *(uint32_t *)&double_pi; alu.src[2].value = *(uint32_t *)&neg_pi; } else { alu.src[1].sel = V_SQ_ALU_SRC_1; alu.src[2].sel = V_SQ_ALU_SRC_0_5; alu.src[2].neg = 1; } alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; return 0; } static int cayman_trig(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int last_slot = (inst->Dst[0].Register.WriteMask & 0x8) ? 4 : 3; int i, r; r = tgsi_setup_trig(ctx); if (r) return r; for (i = 0; i < last_slot; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = ctx->inst_info->r600_opcode; alu.dst.chan = i; tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.write = (inst->Dst[0].Register.WriteMask >> i) & 1; alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; if (i == last_slot - 1) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_trig(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r; int lasti = tgsi_last_instruction(inst->Dst[0].Register.WriteMask); r = tgsi_setup_trig(ctx); if (r) return r; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = ctx->inst_info->r600_opcode; alu.dst.chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; /* replicate result */ for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.src[0].sel = ctx->temp_reg; tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); if (i == lasti) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_scs(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r; /* We'll only need the trig stuff if we are going to write to the * X or Y components of the destination vector. */ if (likely(inst->Dst[0].Register.WriteMask & TGSI_WRITEMASK_XY)) { r = tgsi_setup_trig(ctx); if (r) return r; } /* dst.x = COS */ if (inst->Dst[0].Register.WriteMask & TGSI_WRITEMASK_X) { if (ctx->bc->chip_class == CAYMAN) { for (i = 0 ; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_COS); tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); if (i == 0) alu.dst.write = 1; else alu.dst.write = 0; alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_COS); tgsi_dst(ctx, &inst->Dst[0], 0, &alu.dst); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } /* dst.y = SIN */ if (inst->Dst[0].Register.WriteMask & TGSI_WRITEMASK_Y) { if (ctx->bc->chip_class == CAYMAN) { for (i = 0 ; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SIN); tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); if (i == 1) alu.dst.write = 1; else alu.dst.write = 0; alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SIN); tgsi_dst(ctx, &inst->Dst[0], 1, &alu.dst); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } /* dst.z = 0.0; */ if (inst->Dst[0].Register.WriteMask & TGSI_WRITEMASK_Z) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); tgsi_dst(ctx, &inst->Dst[0], 2, &alu.dst); alu.src[0].sel = V_SQ_ALU_SRC_0; alu.src[0].chan = 0; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* dst.w = 1.0; */ if (inst->Dst[0].Register.WriteMask & TGSI_WRITEMASK_W) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); tgsi_dst(ctx, &inst->Dst[0], 3, &alu.dst); alu.src[0].sel = V_SQ_ALU_SRC_1; alu.src[0].chan = 0; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_kill(struct r600_shader_ctx *ctx) { struct r600_bytecode_alu alu; int i, r; for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = ctx->inst_info->r600_opcode; alu.dst.chan = i; alu.src[0].sel = V_SQ_ALU_SRC_0; if (ctx->inst_info->tgsi_opcode == TGSI_OPCODE_KILP) { alu.src[1].sel = V_SQ_ALU_SRC_1; alu.src[1].neg = 1; } else { r600_bytecode_src(&alu.src[1], &ctx->src[0], i); } if (i == 3) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* kill must be last in ALU */ ctx->bc->force_add_cf = 1; ctx->shader->uses_kill = TRUE; return 0; } static int tgsi_lit(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int r; /* tmp.x = max(src.y, 0.0) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX); r600_bytecode_src(&alu.src[0], &ctx->src[0], 1); alu.src[1].sel = V_SQ_ALU_SRC_0; /*0.0*/ alu.src[1].chan = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 0; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; if (inst->Dst[0].Register.WriteMask & (1 << 2)) { int chan; int sel; int i; if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { /* tmp.z = log(tmp.x) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_CLAMPED); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 2) { alu.dst.write = 1; alu.last = 1; } else alu.dst.write = 0; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { /* tmp.z = log(tmp.x) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_CLAMPED); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 2; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } chan = alu.dst.chan; sel = alu.dst.sel; /* tmp.x = amd MUL_LIT(tmp.z, src.w, src.x ) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MUL_LIT); alu.src[0].sel = sel; alu.src[0].chan = chan; r600_bytecode_src(&alu.src[1], &ctx->src[0], 3); r600_bytecode_src(&alu.src[2], &ctx->src[0], 0); alu.dst.sel = ctx->temp_reg; alu.dst.chan = 0; alu.dst.write = 1; alu.is_op3 = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { /* dst.z = exp(tmp.x) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); if (i == 2) { alu.dst.write = 1; alu.last = 1; } else alu.dst.write = 0; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { /* dst.z = exp(tmp.x) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; tgsi_dst(ctx, &inst->Dst[0], 2, &alu.dst); alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } /* dst.x, <- 1.0 */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.src[0].sel = V_SQ_ALU_SRC_1; /*1.0*/ alu.src[0].chan = 0; tgsi_dst(ctx, &inst->Dst[0], 0, &alu.dst); alu.dst.write = (inst->Dst[0].Register.WriteMask >> 0) & 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; /* dst.y = max(src.x, 0.0) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.src[1].sel = V_SQ_ALU_SRC_0; /*0.0*/ alu.src[1].chan = 0; tgsi_dst(ctx, &inst->Dst[0], 1, &alu.dst); alu.dst.write = (inst->Dst[0].Register.WriteMask >> 1) & 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; /* dst.w, <- 1.0 */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.src[0].sel = V_SQ_ALU_SRC_1; alu.src[0].chan = 0; tgsi_dst(ctx, &inst->Dst[0], 3, &alu.dst); alu.dst.write = (inst->Dst[0].Register.WriteMask >> 3) & 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; return 0; } static int tgsi_rsq(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); /* FIXME: * For state trackers other than OpenGL, we'll want to use * _RECIPSQRT_IEEE instead. */ alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIPSQRT_CLAMPED); for (i = 0; i < inst->Instruction.NumSrcRegs; i++) { r600_bytecode_src(&alu.src[i], &ctx->src[i], 0); r600_bytecode_src_set_abs(&alu.src[i]); } alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; /* replicate result */ return tgsi_helper_tempx_replicate(ctx); } static int tgsi_helper_tempx_replicate(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r; for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.src[0].sel = ctx->temp_reg; alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.dst.chan = i; tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.write = (inst->Dst[0].Register.WriteMask >> i) & 1; if (i == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_trans_srcx_replicate(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = ctx->inst_info->r600_opcode; for (i = 0; i < inst->Instruction.NumSrcRegs; i++) { r600_bytecode_src(&alu.src[i], &ctx->src[i], 0); } alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; /* replicate result */ return tgsi_helper_tempx_replicate(ctx); } static int cayman_pow(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; int i, r; struct r600_bytecode_alu alu; int last_slot = (inst->Dst[0].Register.WriteMask & 0x8) ? 4 : 3; for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; alu.dst.write = 1; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* b * LOG2(a) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL); r600_bytecode_src(&alu.src[0], &ctx->src[1], 0); alu.src[1].sel = ctx->temp_reg; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; for (i = 0; i < last_slot; i++) { /* POW(a,b) = EXP2(b * LOG2(a))*/ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); alu.src[0].sel = ctx->temp_reg; tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.write = (inst->Dst[0].Register.WriteMask >> i) & 1; if (i == last_slot - 1) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_pow(struct r600_shader_ctx *ctx) { struct r600_bytecode_alu alu; int r; /* LOG2(a) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; /* b * LOG2(a) */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL); r600_bytecode_src(&alu.src[0], &ctx->src[1], 0); alu.src[1].sel = ctx->temp_reg; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; /* POW(a,b) = EXP2(b * LOG2(a))*/ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; return tgsi_helper_tempx_replicate(ctx); } static int tgsi_ssg(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r; /* tmp = (src > 0 ? 1 : src) */ for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_CNDGT); alu.is_op3 = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; r600_bytecode_src(&alu.src[0], &ctx->src[0], i); alu.src[1].sel = V_SQ_ALU_SRC_1; r600_bytecode_src(&alu.src[2], &ctx->src[0], i); if (i == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* dst = (-tmp > 0 ? -1 : tmp) */ for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_CNDGT); alu.is_op3 = 1; tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = i; alu.src[0].neg = 1; alu.src[1].sel = V_SQ_ALU_SRC_1; alu.src[1].neg = 1; alu.src[2].sel = ctx->temp_reg; alu.src[2].chan = i; if (i == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_helper_copy(struct r600_shader_ctx *ctx, struct tgsi_full_instruction *inst) { struct r600_bytecode_alu alu; int i, r; for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); if (!(inst->Dst[0].Register.WriteMask & (1 << i))) { alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP); alu.dst.chan = i; } else { alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = i; } if (i == 3) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_op3(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, j, r; int lasti = tgsi_last_instruction(inst->Dst[0].Register.WriteMask); for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = ctx->inst_info->r600_opcode; for (j = 0; j < inst->Instruction.NumSrcRegs; j++) { r600_bytecode_src(&alu.src[j], &ctx->src[j], i); } tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.chan = i; alu.dst.write = 1; alu.is_op3 = 1; if (i == lasti) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_dp(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, j, r; for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = ctx->inst_info->r600_opcode; for (j = 0; j < inst->Instruction.NumSrcRegs; j++) { r600_bytecode_src(&alu.src[j], &ctx->src[j], i); } tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.chan = i; alu.dst.write = (inst->Dst[0].Register.WriteMask >> i) & 1; /* handle some special cases */ switch (ctx->inst_info->tgsi_opcode) { case TGSI_OPCODE_DP2: if (i > 1) { alu.src[0].sel = alu.src[1].sel = V_SQ_ALU_SRC_0; alu.src[0].chan = alu.src[1].chan = 0; } break; case TGSI_OPCODE_DP3: if (i > 2) { alu.src[0].sel = alu.src[1].sel = V_SQ_ALU_SRC_0; alu.src[0].chan = alu.src[1].chan = 0; } break; case TGSI_OPCODE_DPH: if (i == 3) { alu.src[0].sel = V_SQ_ALU_SRC_1; alu.src[0].chan = 0; alu.src[0].neg = 0; } break; default: break; } if (i == 3) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static inline boolean tgsi_tex_src_requires_loading(struct r600_shader_ctx *ctx, unsigned index) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; return (inst->Src[index].Register.File != TGSI_FILE_TEMPORARY && inst->Src[index].Register.File != TGSI_FILE_INPUT) || ctx->src[index].neg || ctx->src[index].abs; } static inline unsigned tgsi_tex_get_src_gpr(struct r600_shader_ctx *ctx, unsigned index) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; return ctx->file_offset[inst->Src[index].Register.File] + inst->Src[index].Register.Index; } static int tgsi_tex(struct r600_shader_ctx *ctx) { static float one_point_five = 1.5f; struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_tex tex; struct r600_bytecode_alu alu; unsigned src_gpr; int r, i, j; int opcode; /* Texture fetch instructions can only use gprs as source. * Also they cannot negate the source or take the absolute value */ const boolean src_requires_loading = tgsi_tex_src_requires_loading(ctx, 0); boolean src_loaded = FALSE; unsigned sampler_src_reg = 1; u8 offset_x = 0, offset_y = 0, offset_z = 0; src_gpr = tgsi_tex_get_src_gpr(ctx, 0); if (inst->Instruction.Opcode == TGSI_OPCODE_TXF) { /* get offset values */ if (inst->Texture.NumOffsets) { assert(inst->Texture.NumOffsets == 1); offset_x = ctx->literals[inst->TexOffsets[0].Index + inst->TexOffsets[0].SwizzleX] << 1; offset_y = ctx->literals[inst->TexOffsets[0].Index + inst->TexOffsets[0].SwizzleY] << 1; offset_z = ctx->literals[inst->TexOffsets[0].Index + inst->TexOffsets[0].SwizzleZ] << 1; } } else if (inst->Instruction.Opcode == TGSI_OPCODE_TXD) { /* TGSI moves the sampler to src reg 3 for TXD */ sampler_src_reg = 3; for (i = 1; i < 3; i++) { /* set gradients h/v */ memset(&tex, 0, sizeof(struct r600_bytecode_tex)); tex.inst = (i == 1) ? SQ_TEX_INST_SET_GRADIENTS_H : SQ_TEX_INST_SET_GRADIENTS_V; tex.sampler_id = tgsi_tex_get_src_gpr(ctx, sampler_src_reg); tex.resource_id = tex.sampler_id + R600_MAX_CONST_BUFFERS; if (tgsi_tex_src_requires_loading(ctx, i)) { tex.src_gpr = r600_get_temp(ctx); tex.src_sel_x = 0; tex.src_sel_y = 1; tex.src_sel_z = 2; tex.src_sel_w = 3; for (j = 0; j < 4; j++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); r600_bytecode_src(&alu.src[0], &ctx->src[i], j); alu.dst.sel = tex.src_gpr; alu.dst.chan = j; if (j == 3) alu.last = 1; alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { tex.src_gpr = tgsi_tex_get_src_gpr(ctx, i); tex.src_sel_x = ctx->src[i].swizzle[0]; tex.src_sel_y = ctx->src[i].swizzle[1]; tex.src_sel_z = ctx->src[i].swizzle[2]; tex.src_sel_w = ctx->src[i].swizzle[3]; tex.src_rel = ctx->src[i].rel; } tex.dst_gpr = ctx->temp_reg; /* just to avoid confusing the asm scheduler */ tex.dst_sel_x = tex.dst_sel_y = tex.dst_sel_z = tex.dst_sel_w = 7; if (inst->Texture.Texture != TGSI_TEXTURE_RECT) { tex.coord_type_x = 1; tex.coord_type_y = 1; tex.coord_type_z = 1; tex.coord_type_w = 1; } r = r600_bytecode_add_tex(ctx->bc, &tex); if (r) return r; } } else if (inst->Instruction.Opcode == TGSI_OPCODE_TXP) { int out_chan; /* Add perspective divide */ if (ctx->bc->chip_class == CAYMAN) { out_chan = 2; for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 3); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 2) alu.last = 1; if (out_chan == i) alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { out_chan = 3; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 3); alu.dst.sel = ctx->temp_reg; alu.dst.chan = out_chan; alu.last = 1; alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = out_chan; r600_bytecode_src(&alu.src[1], &ctx->src[0], i); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.src[0].sel = V_SQ_ALU_SRC_1; alu.src[0].chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 3; alu.last = 1; alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; src_loaded = TRUE; src_gpr = ctx->temp_reg; } if (inst->Texture.Texture == TGSI_TEXTURE_CUBE) { static const unsigned src0_swizzle[] = {2, 2, 0, 1}; static const unsigned src1_swizzle[] = {1, 0, 2, 2}; /* tmp1.xyzw = CUBE(R0.zzxy, R0.yxzz) */ for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_CUBE); r600_bytecode_src(&alu.src[0], &ctx->src[0], src0_swizzle[i]); r600_bytecode_src(&alu.src[1], &ctx->src[0], src1_swizzle[i]); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 3) alu.last = 1; alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* tmp1.z = RCP_e(|tmp1.z|) */ if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 2; alu.src[0].abs = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 2) alu.dst.write = 1; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 2; alu.src[0].abs = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 2; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* MULADD R0.x, R0.x, PS1, (0x3FC00000, 1.5f).x * MULADD R0.y, R0.y, PS1, (0x3FC00000, 1.5f).x * muladd has no writemask, have to use another temp */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD); alu.is_op3 = 1; alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.src[1].sel = ctx->temp_reg; alu.src[1].chan = 2; alu.src[2].sel = V_SQ_ALU_SRC_LITERAL; alu.src[2].chan = 0; alu.src[2].value = *(uint32_t *)&one_point_five; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 0; alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD); alu.is_op3 = 1; alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 1; alu.src[1].sel = ctx->temp_reg; alu.src[1].chan = 2; alu.src[2].sel = V_SQ_ALU_SRC_LITERAL; alu.src[2].chan = 0; alu.src[2].value = *(uint32_t *)&one_point_five; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 1; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; src_loaded = TRUE; src_gpr = ctx->temp_reg; } if (src_requires_loading && !src_loaded) { for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); r600_bytecode_src(&alu.src[0], &ctx->src[0], i); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 3) alu.last = 1; alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } src_loaded = TRUE; src_gpr = ctx->temp_reg; } opcode = ctx->inst_info->r600_opcode; if (inst->Texture.Texture == TGSI_TEXTURE_SHADOW1D || inst->Texture.Texture == TGSI_TEXTURE_SHADOW2D || inst->Texture.Texture == TGSI_TEXTURE_SHADOWRECT || inst->Texture.Texture == TGSI_TEXTURE_SHADOW1D_ARRAY || inst->Texture.Texture == TGSI_TEXTURE_SHADOW2D_ARRAY) { switch (opcode) { case SQ_TEX_INST_SAMPLE: opcode = SQ_TEX_INST_SAMPLE_C; break; case SQ_TEX_INST_SAMPLE_L: opcode = SQ_TEX_INST_SAMPLE_C_L; break; case SQ_TEX_INST_SAMPLE_LB: opcode = SQ_TEX_INST_SAMPLE_C_LB; break; case SQ_TEX_INST_SAMPLE_G: opcode = SQ_TEX_INST_SAMPLE_C_G; break; } } memset(&tex, 0, sizeof(struct r600_bytecode_tex)); tex.inst = opcode; tex.sampler_id = tgsi_tex_get_src_gpr(ctx, sampler_src_reg); tex.resource_id = tex.sampler_id + R600_MAX_CONST_BUFFERS; tex.src_gpr = src_gpr; tex.dst_gpr = ctx->file_offset[inst->Dst[0].Register.File] + inst->Dst[0].Register.Index; tex.dst_sel_x = (inst->Dst[0].Register.WriteMask & 1) ? 0 : 7; tex.dst_sel_y = (inst->Dst[0].Register.WriteMask & 2) ? 1 : 7; tex.dst_sel_z = (inst->Dst[0].Register.WriteMask & 4) ? 2 : 7; tex.dst_sel_w = (inst->Dst[0].Register.WriteMask & 8) ? 3 : 7; if (src_loaded) { tex.src_sel_x = 0; tex.src_sel_y = 1; tex.src_sel_z = 2; tex.src_sel_w = 3; } else { tex.src_sel_x = ctx->src[0].swizzle[0]; tex.src_sel_y = ctx->src[0].swizzle[1]; tex.src_sel_z = ctx->src[0].swizzle[2]; tex.src_sel_w = ctx->src[0].swizzle[3]; tex.src_rel = ctx->src[0].rel; } if (inst->Texture.Texture == TGSI_TEXTURE_CUBE) { tex.src_sel_x = 1; tex.src_sel_y = 0; tex.src_sel_z = 3; tex.src_sel_w = 1; } if (inst->Texture.Texture != TGSI_TEXTURE_RECT && inst->Texture.Texture != TGSI_TEXTURE_SHADOWRECT) { tex.coord_type_x = 1; tex.coord_type_y = 1; } tex.coord_type_z = 1; tex.coord_type_w = 1; tex.offset_x = offset_x; tex.offset_y = offset_y; tex.offset_z = offset_z; /* Put the depth for comparison in W. * TGSI_TEXTURE_SHADOW2D_ARRAY already has the depth in W. * Some instructions expect the depth in Z. */ if ((inst->Texture.Texture == TGSI_TEXTURE_SHADOW1D || inst->Texture.Texture == TGSI_TEXTURE_SHADOW2D || inst->Texture.Texture == TGSI_TEXTURE_SHADOWRECT || inst->Texture.Texture == TGSI_TEXTURE_SHADOW1D_ARRAY) && opcode != SQ_TEX_INST_SAMPLE_C_L && opcode != SQ_TEX_INST_SAMPLE_C_LB) { tex.src_sel_w = tex.src_sel_z; } if (inst->Texture.Texture == TGSI_TEXTURE_1D_ARRAY || inst->Texture.Texture == TGSI_TEXTURE_SHADOW1D_ARRAY) { if (opcode == SQ_TEX_INST_SAMPLE_C_L || opcode == SQ_TEX_INST_SAMPLE_C_LB) { /* the array index is read from Y */ tex.coord_type_y = 0; } else { /* the array index is read from Z */ tex.coord_type_z = 0; tex.src_sel_z = tex.src_sel_y; } } else if (inst->Texture.Texture == TGSI_TEXTURE_2D_ARRAY || inst->Texture.Texture == TGSI_TEXTURE_SHADOW2D_ARRAY) /* the array index is read from Z */ tex.coord_type_z = 0; r = r600_bytecode_add_tex(ctx->bc, &tex); if (r) return r; /* add shadow ambient support - gallium doesn't do it yet */ return 0; } static int tgsi_lrp(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int lasti = tgsi_last_instruction(inst->Dst[0].Register.WriteMask); unsigned i; int r; /* optimize if it's just an equal balance */ if (ctx->src[0].sel == V_SQ_ALU_SRC_0_5) { for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD); r600_bytecode_src(&alu.src[0], &ctx->src[1], i); r600_bytecode_src(&alu.src[1], &ctx->src[2], i); alu.omod = 3; tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.chan = i; if (i == lasti) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } /* 1 - src0 */ for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD); alu.src[0].sel = V_SQ_ALU_SRC_1; alu.src[0].chan = 0; r600_bytecode_src(&alu.src[1], &ctx->src[0], i); r600_bytecode_src_toggle_neg(&alu.src[1]); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == lasti) { alu.last = 1; } alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* (1 - src0) * src2 */ for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = i; r600_bytecode_src(&alu.src[1], &ctx->src[2], i); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == lasti) { alu.last = 1; } alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* src0 * src1 + (1 - src0) * src2 */ for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD); alu.is_op3 = 1; r600_bytecode_src(&alu.src[0], &ctx->src[0], i); r600_bytecode_src(&alu.src[1], &ctx->src[1], i); alu.src[2].sel = ctx->temp_reg; alu.src[2].chan = i; tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.chan = i; if (i == lasti) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_cmp(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r; int lasti = tgsi_last_instruction(inst->Dst[0].Register.WriteMask); for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_CNDGE); r600_bytecode_src(&alu.src[0], &ctx->src[0], i); r600_bytecode_src(&alu.src[1], &ctx->src[2], i); r600_bytecode_src(&alu.src[2], &ctx->src[1], i); tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.chan = i; alu.dst.write = 1; alu.is_op3 = 1; if (i == lasti) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int tgsi_xpd(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; static const unsigned int src0_swizzle[] = {2, 0, 1}; static const unsigned int src1_swizzle[] = {1, 2, 0}; struct r600_bytecode_alu alu; uint32_t use_temp = 0; int i, r; if (inst->Dst[0].Register.WriteMask != 0xf) use_temp = 1; for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL); if (i < 3) { r600_bytecode_src(&alu.src[0], &ctx->src[0], src0_swizzle[i]); r600_bytecode_src(&alu.src[1], &ctx->src[1], src1_swizzle[i]); } else { alu.src[0].sel = V_SQ_ALU_SRC_0; alu.src[0].chan = i; alu.src[1].sel = V_SQ_ALU_SRC_0; alu.src[1].chan = i; } alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; alu.dst.write = 1; if (i == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD); if (i < 3) { r600_bytecode_src(&alu.src[0], &ctx->src[0], src1_swizzle[i]); r600_bytecode_src(&alu.src[1], &ctx->src[1], src0_swizzle[i]); } else { alu.src[0].sel = V_SQ_ALU_SRC_0; alu.src[0].chan = i; alu.src[1].sel = V_SQ_ALU_SRC_0; alu.src[1].chan = i; } alu.src[2].sel = ctx->temp_reg; alu.src[2].neg = 1; alu.src[2].chan = i; if (use_temp) alu.dst.sel = ctx->temp_reg; else tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.dst.chan = i; alu.dst.write = 1; alu.is_op3 = 1; if (i == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } if (use_temp) return tgsi_helper_copy(ctx, inst); return 0; } static int tgsi_exp(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int r; int i; /* result.x = 2^floor(src); */ if (inst->Dst[0].Register.WriteMask & 1) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLOOR); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.dst.sel = ctx->temp_reg; alu.dst.chan = 0; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 0) alu.dst.write = 1; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 0; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } /* result.y = tmp - floor(tmp); */ if ((inst->Dst[0].Register.WriteMask >> 1) & 1) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FRACT); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.dst.sel = ctx->temp_reg; #if 0 r = tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); if (r) return r; #endif alu.dst.write = 1; alu.dst.chan = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* result.z = RoughApprox2ToX(tmp);*/ if ((inst->Dst[0].Register.WriteMask >> 2) & 0x1) { if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 2) { alu.dst.write = 1; alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.dst.chan = 2; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } /* result.w = 1.0;*/ if ((inst->Dst[0].Register.WriteMask >> 3) & 0x1) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.src[0].sel = V_SQ_ALU_SRC_1; alu.src[0].chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 3; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return tgsi_helper_copy(ctx, inst); } static int tgsi_log(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int r; int i; /* result.x = floor(log2(|src|)); */ if (inst->Dst[0].Register.WriteMask & 1) { if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); r600_bytecode_src_set_abs(&alu.src[0]); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 0) alu.dst.write = 1; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); r600_bytecode_src_set_abs(&alu.src[0]); alu.dst.sel = ctx->temp_reg; alu.dst.chan = 0; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLOOR); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 0; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* result.y = |src.x| / (2 ^ floor(log2(|src.x|))); */ if ((inst->Dst[0].Register.WriteMask >> 1) & 1) { if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); r600_bytecode_src_set_abs(&alu.src[0]); alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 1) alu.dst.write = 1; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); r600_bytecode_src_set_abs(&alu.src[0]); alu.dst.sel = ctx->temp_reg; alu.dst.chan = 1; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLOOR); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 1; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 1) alu.dst.write = 1; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 1; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = i; if (i == 1) alu.dst.write = 1; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_IEEE); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 1; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); r600_bytecode_src_set_abs(&alu.src[0]); alu.src[1].sel = ctx->temp_reg; alu.src[1].chan = 1; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 1; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* result.z = log2(|src|);*/ if ((inst->Dst[0].Register.WriteMask >> 2) & 1) { if (ctx->bc->chip_class == CAYMAN) { for (i = 0; i < 3; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); r600_bytecode_src_set_abs(&alu.src[0]); alu.dst.sel = ctx->temp_reg; if (i == 2) alu.dst.write = 1; alu.dst.chan = i; if (i == 2) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } else { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE); r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); r600_bytecode_src_set_abs(&alu.src[0]); alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.dst.chan = 2; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } } /* result.w = 1.0; */ if ((inst->Dst[0].Register.WriteMask >> 3) & 1) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV); alu.src[0].sel = V_SQ_ALU_SRC_1; alu.src[0].chan = 0; alu.dst.sel = ctx->temp_reg; alu.dst.chan = 3; alu.dst.write = 1; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return tgsi_helper_copy(ctx, inst); } static int tgsi_eg_arl(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int r; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); switch (inst->Instruction.Opcode) { case TGSI_OPCODE_ARL: alu.inst = EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLT_TO_INT_FLOOR; break; case TGSI_OPCODE_ARR: alu.inst = EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLT_TO_INT; break; case TGSI_OPCODE_UARL: break; default: assert(0); return -1; } if (alu.inst) { r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.last = 1; alu.dst.sel = ctx->ar_reg; alu.dst.write = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } /* TODO: Note that the MOVA can be avoided if we never use AR for * indexing non-CB registers in the current ALU clause. Similarly, we * need to load AR from ar_reg again if we started a new clause * between ARL and AR usage. The easy way to do that is to remove * the MOVA here, and load it for the first AR access after ar_reg * has been modified in each clause. */ memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOVA_INT; if (inst->Instruction.Opcode == TGSI_OPCODE_UARL) r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); else { alu.src[0].sel = ctx->ar_reg; alu.src[0].chan = 0; } alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; return 0; } static int tgsi_r600_arl(struct r600_shader_ctx *ctx) { /* TODO from r600c, ar values don't persist between clauses */ struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int r; switch (inst->Instruction.Opcode) { case TGSI_OPCODE_ARL: memset(&alu, 0, sizeof(alu)); alu.inst = V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLOOR; r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.dst.sel = ctx->ar_reg; alu.dst.write = 1; alu.last = 1; if ((r = r600_bytecode_add_alu(ctx->bc, &alu))) return r; memset(&alu, 0, sizeof(alu)); alu.inst = V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLT_TO_INT; alu.src[0].sel = ctx->ar_reg; alu.dst.sel = ctx->ar_reg; alu.dst.write = 1; alu.last = 1; if ((r = r600_bytecode_add_alu(ctx->bc, &alu))) return r; break; case TGSI_OPCODE_ARR: memset(&alu, 0, sizeof(alu)); alu.inst = V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLT_TO_INT; r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.dst.sel = ctx->ar_reg; alu.dst.write = 1; alu.last = 1; if ((r = r600_bytecode_add_alu(ctx->bc, &alu))) return r; break; case TGSI_OPCODE_UARL: break; default: assert(0); return -1; } memset(&alu, 0, sizeof(alu)); alu.inst = V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOVA_INT; if (inst->Instruction.Opcode == TGSI_OPCODE_UARL) r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); else alu.src[0].sel = ctx->ar_reg; alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; ctx->bc->cf_last->r6xx_uses_waterfall = 1; return 0; } static int tgsi_opdst(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, r = 0; for (i = 0; i < 4; i++) { memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL); tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); if (i == 0 || i == 3) { alu.src[0].sel = V_SQ_ALU_SRC_1; } else { r600_bytecode_src(&alu.src[0], &ctx->src[0], i); } if (i == 0 || i == 2) { alu.src[1].sel = V_SQ_ALU_SRC_1; } else { r600_bytecode_src(&alu.src[1], &ctx->src[1], i); } if (i == 3) alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static int emit_logic_pred(struct r600_shader_ctx *ctx, int opcode) { struct r600_bytecode_alu alu; int r; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.inst = opcode; alu.predicate = 1; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.dst.chan = 0; r600_bytecode_src(&alu.src[0], &ctx->src[0], 0); alu.src[1].sel = V_SQ_ALU_SRC_0; alu.src[1].chan = 0; alu.last = 1; r = r600_bytecode_add_alu_type(ctx->bc, &alu, CTX_INST(V_SQ_CF_ALU_WORD1_SQ_CF_INST_ALU_PUSH_BEFORE)); if (r) return r; return 0; } static int pops(struct r600_shader_ctx *ctx, int pops) { unsigned force_pop = ctx->bc->force_add_cf; if (!force_pop) { int alu_pop = 3; if (ctx->bc->cf_last) { if (ctx->bc->cf_last->inst == CTX_INST(V_SQ_CF_ALU_WORD1_SQ_CF_INST_ALU) << 3) alu_pop = 0; else if (ctx->bc->cf_last->inst == CTX_INST(V_SQ_CF_ALU_WORD1_SQ_CF_INST_ALU_POP_AFTER) << 3) alu_pop = 1; } alu_pop += pops; if (alu_pop == 1) { ctx->bc->cf_last->inst = CTX_INST(V_SQ_CF_ALU_WORD1_SQ_CF_INST_ALU_POP_AFTER) << 3; ctx->bc->force_add_cf = 1; } else if (alu_pop == 2) { ctx->bc->cf_last->inst = CTX_INST(V_SQ_CF_ALU_WORD1_SQ_CF_INST_ALU_POP2_AFTER) << 3; ctx->bc->force_add_cf = 1; } else { force_pop = 1; } } if (force_pop) { r600_bytecode_add_cfinst(ctx->bc, CTX_INST(V_SQ_CF_WORD1_SQ_CF_INST_POP)); ctx->bc->cf_last->pop_count = pops; ctx->bc->cf_last->cf_addr = ctx->bc->cf_last->id + 2; } return 0; } static inline void callstack_decrease_current(struct r600_shader_ctx *ctx, unsigned reason) { switch(reason) { case FC_PUSH_VPM: ctx->bc->callstack[ctx->bc->call_sp].current--; break; case FC_PUSH_WQM: case FC_LOOP: ctx->bc->callstack[ctx->bc->call_sp].current -= 4; break; case FC_REP: /* TOODO : for 16 vp asic should -= 2; */ ctx->bc->callstack[ctx->bc->call_sp].current --; break; } } static inline void callstack_check_depth(struct r600_shader_ctx *ctx, unsigned reason, unsigned check_max_only) { if (check_max_only) { int diff; switch (reason) { case FC_PUSH_VPM: diff = 1; break; case FC_PUSH_WQM: diff = 4; break; default: assert(0); diff = 0; } if ((ctx->bc->callstack[ctx->bc->call_sp].current + diff) > ctx->bc->callstack[ctx->bc->call_sp].max) { ctx->bc->callstack[ctx->bc->call_sp].max = ctx->bc->callstack[ctx->bc->call_sp].current + diff; } return; } switch (reason) { case FC_PUSH_VPM: ctx->bc->callstack[ctx->bc->call_sp].current++; break; case FC_PUSH_WQM: case FC_LOOP: ctx->bc->callstack[ctx->bc->call_sp].current += 4; break; case FC_REP: ctx->bc->callstack[ctx->bc->call_sp].current++; break; } if ((ctx->bc->callstack[ctx->bc->call_sp].current) > ctx->bc->callstack[ctx->bc->call_sp].max) { ctx->bc->callstack[ctx->bc->call_sp].max = ctx->bc->callstack[ctx->bc->call_sp].current; } } static void fc_set_mid(struct r600_shader_ctx *ctx, int fc_sp) { struct r600_cf_stack_entry *sp = &ctx->bc->fc_stack[fc_sp]; sp->mid = (struct r600_bytecode_cf **)realloc((void *)sp->mid, sizeof(struct r600_bytecode_cf *) * (sp->num_mid + 1)); sp->mid[sp->num_mid] = ctx->bc->cf_last; sp->num_mid++; } static void fc_pushlevel(struct r600_shader_ctx *ctx, int type) { ctx->bc->fc_sp++; ctx->bc->fc_stack[ctx->bc->fc_sp].type = type; ctx->bc->fc_stack[ctx->bc->fc_sp].start = ctx->bc->cf_last; } static void fc_poplevel(struct r600_shader_ctx *ctx) { struct r600_cf_stack_entry *sp = &ctx->bc->fc_stack[ctx->bc->fc_sp]; if (sp->mid) { free(sp->mid); sp->mid = NULL; } sp->num_mid = 0; sp->start = NULL; sp->type = 0; ctx->bc->fc_sp--; } #if 0 static int emit_return(struct r600_shader_ctx *ctx) { r600_bytecode_add_cfinst(ctx->bc, V_SQ_CF_WORD1_SQ_CF_INST_RETURN); return 0; } static int emit_jump_to_offset(struct r600_shader_ctx *ctx, int pops, int offset) { r600_bytecode_add_cfinst(ctx->bc, V_SQ_CF_WORD1_SQ_CF_INST_JUMP); ctx->bc->cf_last->pop_count = pops; /* TODO work out offset */ return 0; } static int emit_setret_in_loop_flag(struct r600_shader_ctx *ctx, unsigned flag_value) { return 0; } static void emit_testflag(struct r600_shader_ctx *ctx) { } static void emit_return_on_flag(struct r600_shader_ctx *ctx, unsigned ifidx) { emit_testflag(ctx); emit_jump_to_offset(ctx, 1, 4); emit_setret_in_loop_flag(ctx, V_SQ_ALU_SRC_0); pops(ctx, ifidx + 1); emit_return(ctx); } static void break_loop_on_flag(struct r600_shader_ctx *ctx, unsigned fc_sp) { emit_testflag(ctx); r600_bytecode_add_cfinst(ctx->bc, ctx->inst_info->r600_opcode); ctx->bc->cf_last->pop_count = 1; fc_set_mid(ctx, fc_sp); pops(ctx, 1); } #endif static int tgsi_if(struct r600_shader_ctx *ctx) { emit_logic_pred(ctx, CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_PRED_SETNE_INT)); r600_bytecode_add_cfinst(ctx->bc, CTX_INST(V_SQ_CF_WORD1_SQ_CF_INST_JUMP)); fc_pushlevel(ctx, FC_IF); callstack_check_depth(ctx, FC_PUSH_VPM, 0); return 0; } static int tgsi_else(struct r600_shader_ctx *ctx) { r600_bytecode_add_cfinst(ctx->bc, CTX_INST(V_SQ_CF_WORD1_SQ_CF_INST_ELSE)); ctx->bc->cf_last->pop_count = 1; fc_set_mid(ctx, ctx->bc->fc_sp); ctx->bc->fc_stack[ctx->bc->fc_sp].start->cf_addr = ctx->bc->cf_last->id; return 0; } static int tgsi_endif(struct r600_shader_ctx *ctx) { pops(ctx, 1); if (ctx->bc->fc_stack[ctx->bc->fc_sp].type != FC_IF) { R600_ERR("if/endif unbalanced in shader\n"); return -1; } if (ctx->bc->fc_stack[ctx->bc->fc_sp].mid == NULL) { ctx->bc->fc_stack[ctx->bc->fc_sp].start->cf_addr = ctx->bc->cf_last->id + 2; ctx->bc->fc_stack[ctx->bc->fc_sp].start->pop_count = 1; } else { ctx->bc->fc_stack[ctx->bc->fc_sp].mid[0]->cf_addr = ctx->bc->cf_last->id + 2; } fc_poplevel(ctx); callstack_decrease_current(ctx, FC_PUSH_VPM); return 0; } static int tgsi_bgnloop(struct r600_shader_ctx *ctx) { r600_bytecode_add_cfinst(ctx->bc, CTX_INST(V_SQ_CF_WORD1_SQ_CF_INST_LOOP_START_NO_AL)); fc_pushlevel(ctx, FC_LOOP); /* check stack depth */ callstack_check_depth(ctx, FC_LOOP, 0); return 0; } static int tgsi_endloop(struct r600_shader_ctx *ctx) { int i; r600_bytecode_add_cfinst(ctx->bc, CTX_INST(V_SQ_CF_WORD1_SQ_CF_INST_LOOP_END)); if (ctx->bc->fc_stack[ctx->bc->fc_sp].type != FC_LOOP) { R600_ERR("loop/endloop in shader code are not paired.\n"); return -EINVAL; } /* fixup loop pointers - from r600isa LOOP END points to CF after LOOP START, LOOP START point to CF after LOOP END BRK/CONT point to LOOP END CF */ ctx->bc->cf_last->cf_addr = ctx->bc->fc_stack[ctx->bc->fc_sp].start->id + 2; ctx->bc->fc_stack[ctx->bc->fc_sp].start->cf_addr = ctx->bc->cf_last->id + 2; for (i = 0; i < ctx->bc->fc_stack[ctx->bc->fc_sp].num_mid; i++) { ctx->bc->fc_stack[ctx->bc->fc_sp].mid[i]->cf_addr = ctx->bc->cf_last->id; } /* TODO add LOOPRET support */ fc_poplevel(ctx); callstack_decrease_current(ctx, FC_LOOP); return 0; } static int tgsi_loop_brk_cont(struct r600_shader_ctx *ctx) { unsigned int fscp; for (fscp = ctx->bc->fc_sp; fscp > 0; fscp--) { if (FC_LOOP == ctx->bc->fc_stack[fscp].type) break; } if (fscp == 0) { R600_ERR("Break not inside loop/endloop pair\n"); return -EINVAL; } r600_bytecode_add_cfinst(ctx->bc, ctx->inst_info->r600_opcode); ctx->bc->cf_last->pop_count = 1; fc_set_mid(ctx, fscp); pops(ctx, 1); callstack_check_depth(ctx, FC_PUSH_VPM, 1); return 0; } static int tgsi_umad(struct r600_shader_ctx *ctx) { struct tgsi_full_instruction *inst = &ctx->parse.FullToken.FullInstruction; struct r600_bytecode_alu alu; int i, j, r; int lasti = tgsi_last_instruction(inst->Dst[0].Register.WriteMask); /* src0 * src1 */ for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); alu.dst.chan = i; alu.dst.sel = ctx->temp_reg; alu.dst.write = 1; alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MULLO_UINT); for (j = 0; j < 2; j++) { r600_bytecode_src(&alu.src[j], &ctx->src[j], i); } alu.last = 1; r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } for (i = 0; i < lasti + 1; i++) { if (!(inst->Dst[0].Register.WriteMask & (1 << i))) continue; memset(&alu, 0, sizeof(struct r600_bytecode_alu)); tgsi_dst(ctx, &inst->Dst[0], i, &alu.dst); alu.inst = CTX_INST(V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD_INT); alu.src[0].sel = ctx->temp_reg; alu.src[0].chan = i; r600_bytecode_src(&alu.src[1], &ctx->src[2], i); if (i == lasti) { alu.last = 1; } r = r600_bytecode_add_alu(ctx->bc, &alu); if (r) return r; } return 0; } static struct r600_shader_tgsi_instruction r600_shader_tgsi_instruction[] = { {TGSI_OPCODE_ARL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_r600_arl}, {TGSI_OPCODE_MOV, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV, tgsi_op2}, {TGSI_OPCODE_LIT, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_lit}, /* FIXME: * For state trackers other than OpenGL, we'll want to use * _RECIP_IEEE instead. */ {TGSI_OPCODE_RCP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_CLAMPED, tgsi_trans_srcx_replicate}, {TGSI_OPCODE_RSQ, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_rsq}, {TGSI_OPCODE_EXP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_exp}, {TGSI_OPCODE_LOG, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_log}, {TGSI_OPCODE_MUL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL, tgsi_op2}, {TGSI_OPCODE_ADD, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD, tgsi_op2}, {TGSI_OPCODE_DP3, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_DP4, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_DST, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_opdst}, {TGSI_OPCODE_MIN, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MIN, tgsi_op2}, {TGSI_OPCODE_MAX, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX, tgsi_op2}, {TGSI_OPCODE_SLT, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT, tgsi_op2_swap}, {TGSI_OPCODE_SGE, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE, tgsi_op2}, {TGSI_OPCODE_MAD, 1, V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD, tgsi_op3}, {TGSI_OPCODE_SUB, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD, tgsi_op2}, {TGSI_OPCODE_LRP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_lrp}, {TGSI_OPCODE_CND, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {20, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DP2A, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {22, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {23, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_FRC, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FRACT, tgsi_op2}, {TGSI_OPCODE_CLAMP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_FLR, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLOOR, tgsi_op2}, {TGSI_OPCODE_ROUND, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RNDNE, tgsi_op2}, {TGSI_OPCODE_EX2, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE, tgsi_trans_srcx_replicate}, {TGSI_OPCODE_LG2, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE, tgsi_trans_srcx_replicate}, {TGSI_OPCODE_POW, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_pow}, {TGSI_OPCODE_XPD, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_xpd}, /* gap */ {32, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ABS, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV, tgsi_op2}, {TGSI_OPCODE_RCC, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DPH, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_COS, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_COS, tgsi_trig}, {TGSI_OPCODE_DDX, 0, SQ_TEX_INST_GET_GRADIENTS_H, tgsi_tex}, {TGSI_OPCODE_DDY, 0, SQ_TEX_INST_GET_GRADIENTS_V, tgsi_tex}, {TGSI_OPCODE_KILP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_KILLGT, tgsi_kill}, /* predicated kill */ {TGSI_OPCODE_PK2H, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK2US, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK4B, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK4UB, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_RFL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SEQ, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETE, tgsi_op2}, {TGSI_OPCODE_SFL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SGT, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT, tgsi_op2}, {TGSI_OPCODE_SIN, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SIN, tgsi_trig}, {TGSI_OPCODE_SLE, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE, tgsi_op2_swap}, {TGSI_OPCODE_SNE, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETNE, tgsi_op2}, {TGSI_OPCODE_STR, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_TEX, 0, SQ_TEX_INST_SAMPLE, tgsi_tex}, {TGSI_OPCODE_TXD, 0, SQ_TEX_INST_SAMPLE_G, tgsi_tex}, {TGSI_OPCODE_TXP, 0, SQ_TEX_INST_SAMPLE, tgsi_tex}, {TGSI_OPCODE_UP2H, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP2US, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP4B, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP4UB, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_X2D, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ARA, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ARR, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_r600_arl}, {TGSI_OPCODE_BRA, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CAL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_RET, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SSG, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_ssg}, {TGSI_OPCODE_CMP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_cmp}, {TGSI_OPCODE_SCS, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_scs}, {TGSI_OPCODE_TXB, 0, SQ_TEX_INST_SAMPLE_LB, tgsi_tex}, {TGSI_OPCODE_NRM, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DIV, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DP2, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_TXL, 0, SQ_TEX_INST_SAMPLE_L, tgsi_tex}, {TGSI_OPCODE_BRK, 0, V_SQ_CF_WORD1_SQ_CF_INST_LOOP_BREAK, tgsi_loop_brk_cont}, {TGSI_OPCODE_IF, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_if}, /* gap */ {75, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {76, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ELSE, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_else}, {TGSI_OPCODE_ENDIF, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_endif}, /* gap */ {79, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {80, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PUSHA, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_POPA, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CEIL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_I2F, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_INT_TO_FLT, tgsi_op2_trans}, {TGSI_OPCODE_NOT, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOT_INT, tgsi_op2}, {TGSI_OPCODE_TRUNC, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_TRUNC, tgsi_op2}, {TGSI_OPCODE_SHL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {88, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_AND, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_AND_INT, tgsi_op2}, {TGSI_OPCODE_OR, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_OR_INT, tgsi_op2}, {TGSI_OPCODE_MOD, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_XOR, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_XOR_INT, tgsi_op2}, {TGSI_OPCODE_SAD, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_TXF, 0, SQ_TEX_INST_LD, tgsi_tex}, {TGSI_OPCODE_TXQ, 0, SQ_TEX_INST_GET_TEXTURE_RESINFO, tgsi_tex}, {TGSI_OPCODE_CONT, 0, V_SQ_CF_WORD1_SQ_CF_INST_LOOP_CONTINUE, tgsi_loop_brk_cont}, {TGSI_OPCODE_EMIT, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDPRIM, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_BGNLOOP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_bgnloop}, {TGSI_OPCODE_BGNSUB, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDLOOP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_endloop}, {TGSI_OPCODE_ENDSUB, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {103, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {104, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {105, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {106, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_NOP, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {108, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {109, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {110, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {111, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_NRM4, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CALLNZ, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_IFC, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_BREAKC, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_KIL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_KILLGT, tgsi_kill}, /* conditional kill */ {TGSI_OPCODE_END, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_end}, /* aka HALT */ /* gap */ {118, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_F2I, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLT_TO_INT, tgsi_op2}, {TGSI_OPCODE_IDIV, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_IMAX, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX_INT, tgsi_op2}, {TGSI_OPCODE_IMIN, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MIN_INT, tgsi_op2}, {TGSI_OPCODE_INEG, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SUB_INT, tgsi_op2}, {TGSI_OPCODE_ISGE, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE_INT, tgsi_op2}, {TGSI_OPCODE_ISHR, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ISLT, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT_INT, tgsi_op2}, {TGSI_OPCODE_F2U, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLT_TO_UINT, tgsi_op2}, {TGSI_OPCODE_U2F, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_UINT_TO_FLT, tgsi_op2}, {TGSI_OPCODE_UADD, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD_INT, tgsi_op2}, {TGSI_OPCODE_UDIV, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMAD, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_umad}, {TGSI_OPCODE_UMAX, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX_UINT, tgsi_op2}, {TGSI_OPCODE_UMIN, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MIN_UINT, tgsi_op2}, {TGSI_OPCODE_UMOD, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMUL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MULLO_UINT, tgsi_op2}, {TGSI_OPCODE_USEQ, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETE_INT, tgsi_op2}, {TGSI_OPCODE_USGE, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE_UINT, tgsi_op2}, {TGSI_OPCODE_USHR, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_USLT, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT_INT, tgsi_op2_swap}, {TGSI_OPCODE_USNE, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETNE_INT, tgsi_op2_swap}, {TGSI_OPCODE_SWITCH, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CASE, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DEFAULT, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDSWITCH, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_LOAD, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_LOAD_MS, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_B, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_C, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_C_LZ, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_D, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_L, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_GATHER4, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_RESINFO, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_POS, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_INFO, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_UARL, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOVA_INT, tgsi_r600_arl}, {TGSI_OPCODE_UCMP, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_LAST, 0, V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, }; static struct r600_shader_tgsi_instruction eg_shader_tgsi_instruction[] = { {TGSI_OPCODE_ARL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_eg_arl}, {TGSI_OPCODE_MOV, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV, tgsi_op2}, {TGSI_OPCODE_LIT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_lit}, {TGSI_OPCODE_RCP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_IEEE, tgsi_trans_srcx_replicate}, {TGSI_OPCODE_RSQ, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIPSQRT_IEEE, tgsi_rsq}, {TGSI_OPCODE_EXP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_exp}, {TGSI_OPCODE_LOG, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_log}, {TGSI_OPCODE_MUL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL, tgsi_op2}, {TGSI_OPCODE_ADD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD, tgsi_op2}, {TGSI_OPCODE_DP3, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_DP4, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_DST, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_opdst}, {TGSI_OPCODE_MIN, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MIN, tgsi_op2}, {TGSI_OPCODE_MAX, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX, tgsi_op2}, {TGSI_OPCODE_SLT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT, tgsi_op2_swap}, {TGSI_OPCODE_SGE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE, tgsi_op2}, {TGSI_OPCODE_MAD, 1, EG_V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD, tgsi_op3}, {TGSI_OPCODE_SUB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD, tgsi_op2}, {TGSI_OPCODE_LRP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_lrp}, {TGSI_OPCODE_CND, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {20, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DP2A, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {22, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {23, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_FRC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FRACT, tgsi_op2}, {TGSI_OPCODE_CLAMP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_FLR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLOOR, tgsi_op2}, {TGSI_OPCODE_ROUND, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RNDNE, tgsi_op2}, {TGSI_OPCODE_EX2, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE, tgsi_trans_srcx_replicate}, {TGSI_OPCODE_LG2, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE, tgsi_trans_srcx_replicate}, {TGSI_OPCODE_POW, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_pow}, {TGSI_OPCODE_XPD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_xpd}, /* gap */ {32, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ABS, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV, tgsi_op2}, {TGSI_OPCODE_RCC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DPH, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_COS, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_COS, tgsi_trig}, {TGSI_OPCODE_DDX, 0, SQ_TEX_INST_GET_GRADIENTS_H, tgsi_tex}, {TGSI_OPCODE_DDY, 0, SQ_TEX_INST_GET_GRADIENTS_V, tgsi_tex}, {TGSI_OPCODE_KILP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_KILLGT, tgsi_kill}, /* predicated kill */ {TGSI_OPCODE_PK2H, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK2US, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK4B, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK4UB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_RFL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SEQ, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETE, tgsi_op2}, {TGSI_OPCODE_SFL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SGT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT, tgsi_op2}, {TGSI_OPCODE_SIN, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SIN, tgsi_trig}, {TGSI_OPCODE_SLE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE, tgsi_op2_swap}, {TGSI_OPCODE_SNE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETNE, tgsi_op2}, {TGSI_OPCODE_STR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_TEX, 0, SQ_TEX_INST_SAMPLE, tgsi_tex}, {TGSI_OPCODE_TXD, 0, SQ_TEX_INST_SAMPLE_G, tgsi_tex}, {TGSI_OPCODE_TXP, 0, SQ_TEX_INST_SAMPLE, tgsi_tex}, {TGSI_OPCODE_UP2H, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP2US, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP4B, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP4UB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_X2D, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ARA, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ARR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_eg_arl}, {TGSI_OPCODE_BRA, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CAL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_RET, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SSG, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_ssg}, {TGSI_OPCODE_CMP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_cmp}, {TGSI_OPCODE_SCS, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_scs}, {TGSI_OPCODE_TXB, 0, SQ_TEX_INST_SAMPLE_LB, tgsi_tex}, {TGSI_OPCODE_NRM, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DIV, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DP2, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_TXL, 0, SQ_TEX_INST_SAMPLE_L, tgsi_tex}, {TGSI_OPCODE_BRK, 0, EG_V_SQ_CF_WORD1_SQ_CF_INST_LOOP_BREAK, tgsi_loop_brk_cont}, {TGSI_OPCODE_IF, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_if}, /* gap */ {75, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {76, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ELSE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_else}, {TGSI_OPCODE_ENDIF, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_endif}, /* gap */ {79, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {80, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PUSHA, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_POPA, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CEIL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_I2F, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_INT_TO_FLT, tgsi_op2_trans}, {TGSI_OPCODE_NOT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOT_INT, tgsi_op2}, {TGSI_OPCODE_TRUNC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_TRUNC, tgsi_op2}, {TGSI_OPCODE_SHL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {88, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_AND, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_AND_INT, tgsi_op2}, {TGSI_OPCODE_OR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_OR_INT, tgsi_op2}, {TGSI_OPCODE_MOD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_XOR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_XOR_INT, tgsi_op2}, {TGSI_OPCODE_SAD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_TXF, 0, SQ_TEX_INST_LD, tgsi_tex}, {TGSI_OPCODE_TXQ, 0, SQ_TEX_INST_GET_TEXTURE_RESINFO, tgsi_tex}, {TGSI_OPCODE_CONT, 0, EG_V_SQ_CF_WORD1_SQ_CF_INST_LOOP_CONTINUE, tgsi_loop_brk_cont}, {TGSI_OPCODE_EMIT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDPRIM, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_BGNLOOP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_bgnloop}, {TGSI_OPCODE_BGNSUB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDLOOP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_endloop}, {TGSI_OPCODE_ENDSUB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {103, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {104, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {105, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {106, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_NOP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {108, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {109, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {110, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {111, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_NRM4, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CALLNZ, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_IFC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_BREAKC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_KIL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_KILLGT, tgsi_kill}, /* conditional kill */ {TGSI_OPCODE_END, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_end}, /* aka HALT */ /* gap */ {118, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_F2I, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLT_TO_INT, tgsi_op2}, {TGSI_OPCODE_IDIV, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_IMAX, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX_INT, tgsi_op2}, {TGSI_OPCODE_IMIN, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MIN_INT, tgsi_op2}, {TGSI_OPCODE_INEG, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SUB_INT, tgsi_ineg}, {TGSI_OPCODE_ISGE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE_INT, tgsi_op2}, {TGSI_OPCODE_ISHR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ISLT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT_INT, tgsi_op2_swap}, {TGSI_OPCODE_F2U, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_U2F, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_UINT_TO_FLT, tgsi_op2}, {TGSI_OPCODE_UADD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD_INT, tgsi_op2}, {TGSI_OPCODE_UDIV, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMAD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_umad}, {TGSI_OPCODE_UMAX, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX_UINT, tgsi_op2}, {TGSI_OPCODE_UMIN, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MIN_UINT, tgsi_op2}, {TGSI_OPCODE_UMOD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMUL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MULLO_UINT, tgsi_op2_trans}, {TGSI_OPCODE_USEQ, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETE_INT, tgsi_op2}, {TGSI_OPCODE_USGE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE_UINT, tgsi_op2}, {TGSI_OPCODE_USHR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_USLT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT_INT, tgsi_op2_swap}, {TGSI_OPCODE_USNE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETNE_INT, tgsi_op2}, {TGSI_OPCODE_SWITCH, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CASE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DEFAULT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDSWITCH, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_LOAD, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_LOAD_MS, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_B, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_C, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_C_LZ, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_D, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_L, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_GATHER4, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_RESINFO, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_POS, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_INFO, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_UARL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOVA_INT, tgsi_eg_arl}, {TGSI_OPCODE_UCMP, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_LAST, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, }; static struct r600_shader_tgsi_instruction cm_shader_tgsi_instruction[] = { {TGSI_OPCODE_ARL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_eg_arl}, {TGSI_OPCODE_MOV, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV, tgsi_op2}, {TGSI_OPCODE_LIT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_lit}, {TGSI_OPCODE_RCP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIP_IEEE, cayman_emit_float_instr}, {TGSI_OPCODE_RSQ, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RECIPSQRT_IEEE, cayman_emit_float_instr}, {TGSI_OPCODE_EXP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_exp}, {TGSI_OPCODE_LOG, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_log}, {TGSI_OPCODE_MUL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MUL, tgsi_op2}, {TGSI_OPCODE_ADD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD, tgsi_op2}, {TGSI_OPCODE_DP3, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_DP4, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_DST, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_opdst}, {TGSI_OPCODE_MIN, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MIN, tgsi_op2}, {TGSI_OPCODE_MAX, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX, tgsi_op2}, {TGSI_OPCODE_SLT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT, tgsi_op2_swap}, {TGSI_OPCODE_SGE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE, tgsi_op2}, {TGSI_OPCODE_MAD, 1, EG_V_SQ_ALU_WORD1_OP3_SQ_OP3_INST_MULADD, tgsi_op3}, {TGSI_OPCODE_SUB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_ADD, tgsi_op2}, {TGSI_OPCODE_LRP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_lrp}, {TGSI_OPCODE_CND, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {20, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DP2A, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {22, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {23, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_FRC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FRACT, tgsi_op2}, {TGSI_OPCODE_CLAMP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_FLR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_FLOOR, tgsi_op2}, {TGSI_OPCODE_ROUND, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_RNDNE, tgsi_op2}, {TGSI_OPCODE_EX2, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_EXP_IEEE, cayman_emit_float_instr}, {TGSI_OPCODE_LG2, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_LOG_IEEE, cayman_emit_float_instr}, {TGSI_OPCODE_POW, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, cayman_pow}, {TGSI_OPCODE_XPD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_xpd}, /* gap */ {32, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ABS, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MOV, tgsi_op2}, {TGSI_OPCODE_RCC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DPH, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_COS, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_COS, cayman_trig}, {TGSI_OPCODE_DDX, 0, SQ_TEX_INST_GET_GRADIENTS_H, tgsi_tex}, {TGSI_OPCODE_DDY, 0, SQ_TEX_INST_GET_GRADIENTS_V, tgsi_tex}, {TGSI_OPCODE_KILP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_KILLGT, tgsi_kill}, /* predicated kill */ {TGSI_OPCODE_PK2H, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK2US, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK4B, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PK4UB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_RFL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SEQ, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETE, tgsi_op2}, {TGSI_OPCODE_SFL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SGT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGT, tgsi_op2}, {TGSI_OPCODE_SIN, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SIN, cayman_trig}, {TGSI_OPCODE_SLE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETGE, tgsi_op2_swap}, {TGSI_OPCODE_SNE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_SETNE, tgsi_op2}, {TGSI_OPCODE_STR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_TEX, 0, SQ_TEX_INST_SAMPLE, tgsi_tex}, {TGSI_OPCODE_TXD, 0, SQ_TEX_INST_SAMPLE_G, tgsi_tex}, {TGSI_OPCODE_TXP, 0, SQ_TEX_INST_SAMPLE, tgsi_tex}, {TGSI_OPCODE_UP2H, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP2US, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP4B, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UP4UB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_X2D, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ARA, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ARR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_eg_arl}, {TGSI_OPCODE_BRA, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CAL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_RET, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SSG, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_ssg}, {TGSI_OPCODE_CMP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_cmp}, {TGSI_OPCODE_SCS, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_scs}, {TGSI_OPCODE_TXB, 0, SQ_TEX_INST_SAMPLE_LB, tgsi_tex}, {TGSI_OPCODE_NRM, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DIV, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DP2, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_DOT4, tgsi_dp}, {TGSI_OPCODE_TXL, 0, SQ_TEX_INST_SAMPLE_L, tgsi_tex}, {TGSI_OPCODE_BRK, 0, EG_V_SQ_CF_WORD1_SQ_CF_INST_LOOP_BREAK, tgsi_loop_brk_cont}, {TGSI_OPCODE_IF, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_if}, /* gap */ {75, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {76, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ELSE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_else}, {TGSI_OPCODE_ENDIF, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_endif}, /* gap */ {79, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {80, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_PUSHA, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_POPA, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CEIL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_I2F, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_NOT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOT_INT, tgsi_op2}, {TGSI_OPCODE_TRUNC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_TRUNC, tgsi_op2}, {TGSI_OPCODE_SHL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {88, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_AND, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_OR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_MOD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_XOR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_XOR_INT, tgsi_op2}, {TGSI_OPCODE_SAD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_TXF, 0, SQ_TEX_INST_LD, tgsi_tex}, {TGSI_OPCODE_TXQ, 0, SQ_TEX_INST_GET_TEXTURE_RESINFO, tgsi_tex}, {TGSI_OPCODE_CONT, 0, EG_V_SQ_CF_WORD1_SQ_CF_INST_LOOP_CONTINUE, tgsi_loop_brk_cont}, {TGSI_OPCODE_EMIT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDPRIM, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_BGNLOOP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_bgnloop}, {TGSI_OPCODE_BGNSUB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDLOOP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_endloop}, {TGSI_OPCODE_ENDSUB, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {103, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {104, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {105, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {106, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_NOP, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, /* gap */ {108, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {109, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {110, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {111, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_NRM4, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CALLNZ, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_IFC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_BREAKC, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_KIL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_KILLGT, tgsi_kill}, /* conditional kill */ {TGSI_OPCODE_END, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_end}, /* aka HALT */ /* gap */ {118, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_F2I, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_IDIV, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_IMAX, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MAX_INT, tgsi_op2}, {TGSI_OPCODE_IMIN, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_MIN_INT, tgsi_op2}, {TGSI_OPCODE_INEG, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ISGE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ISHR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ISLT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_F2U, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_U2F, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UADD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UDIV, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMAD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMAX, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMIN, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMOD, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_UMUL, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_USEQ, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_USGE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_USHR, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_USLT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_USNE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_SWITCH, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_CASE, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_DEFAULT, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_ENDSWITCH, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, {TGSI_OPCODE_LOAD, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_LOAD_MS, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_B, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_C, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_C_LZ, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_D, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_L, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_GATHER4, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_RESINFO, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_POS, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_SAMPLE_INFO, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_UARL, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_UCMP, 0, 0, tgsi_unsupported}, {TGSI_OPCODE_LAST, 0, EG_V_SQ_ALU_WORD1_OP2_SQ_OP2_INST_NOP, tgsi_unsupported}, };