diff options
Diffstat (limited to 'src/mesa')
-rw-r--r-- | src/mesa/shader/slang/slang_emit.c | 625 |
1 files changed, 381 insertions, 244 deletions
diff --git a/src/mesa/shader/slang/slang_emit.c b/src/mesa/shader/slang/slang_emit.c index 827760c917a..482e3e825c1 100644 --- a/src/mesa/shader/slang/slang_emit.c +++ b/src/mesa/shader/slang/slang_emit.c @@ -108,6 +108,30 @@ writemask_to_swizzle(GLuint writemask) /** + * Convert a swizzle mask to a writemask. + * Note that the slang_ir_storage->Swizzle field can represent either a + * swizzle mask or a writemask, depending on how it's used. For example, + * when we parse "direction.yz" alone, we don't know whether .yz is a + * writemask or a swizzle. In this case, we encode ".yz" in store->Swizzle + * as a swizzle mask (.yz?? actually). Later, if direction.yz is used as + * an R-value, we use store->Swizzle as-is. Otherwise, if direction.yz is + * used as an L-value, we convert it to a writemask. + */ +static GLuint +swizzle_to_writemask(GLuint swizzle) +{ + GLuint i, writemask = 0x0; + for (i = 0; i < 4; i++) { + GLuint swz = GET_SWZ(swizzle, i); + if (swz <= SWIZZLE_W) { + writemask |= (1 << swz); + } + } + return writemask; +} + + +/** * Swizzle a swizzle (function composition). * That is, return swz2(swz1), or said another way: swz1.szw2 * Example: swizzle_swizzle(".zwxx", ".xxyw") yields ".zzwx" @@ -256,6 +280,7 @@ storage_to_dst_reg(struct prog_dst_register *dst, const slang_ir_storage *st, assert(size >= 1); assert(size <= 4); +#if 0 if (size == 1) { GLuint comp = GET_SWZ(swizzle, 0); assert(comp < 4); @@ -264,6 +289,14 @@ storage_to_dst_reg(struct prog_dst_register *dst, const slang_ir_storage *st, else { dst->WriteMask = writemask; } +#elif 1 + if (swizzle != SWIZZLE_XYZW) { + dst->WriteMask = swizzle_to_writemask(swizzle); + } + else { + dst->WriteMask = writemask; + } +#endif } @@ -309,38 +342,28 @@ storage_to_src_reg(struct prog_src_register *src, const slang_ir_storage *st) /* - * Setup an instrucion src register to point to a scalar constant. + * Setup storage pointing to a scalar constant/literal. */ static void -constant_to_src_reg(struct prog_src_register *src, GLfloat val, - slang_emit_info *emitInfo) +constant_to_storage(slang_emit_info *emitInfo, + GLfloat val, + slang_ir_storage *store) { - GLuint zeroSwizzle; - GLint zeroReg; + GLuint swizzle; + GLint reg; GLfloat value[4]; value[0] = val; - zeroReg = _mesa_add_unnamed_constant(emitInfo->prog->Parameters, - value, 1, &zeroSwizzle); - assert(zeroReg >= 0); + reg = _mesa_add_unnamed_constant(emitInfo->prog->Parameters, + value, 1, &swizzle); - src->File = PROGRAM_CONSTANT; - src->Index = zeroReg; - src->Swizzle = zeroSwizzle; + memset(store, 0, sizeof(*store)); + store->File = PROGRAM_CONSTANT; + store->Index = reg; + store->Swizzle = swizzle; } -static void -address_to_dst_reg(struct prog_dst_register *dst, GLuint index) -{ - assert(index == 0); /* only one address reg at this time */ - dst->File = PROGRAM_ADDRESS; - dst->Index = index; - dst->WriteMask = WRITEMASK_X; -} - - - /** * Add new instruction at end of given program. * \param prog the program to append instruction onto @@ -376,6 +399,96 @@ new_instruction(slang_emit_info *emitInfo, gl_inst_opcode opcode) /** + * Emit a new instruction with given opcode, operands. + */ +static struct prog_instruction * +emit_instruction(slang_emit_info *emitInfo, + gl_inst_opcode opcode, + const slang_ir_storage *dst, + const slang_ir_storage *src1, + const slang_ir_storage *src2, + const slang_ir_storage *src3) +{ + struct gl_program *prog = emitInfo->prog; + struct prog_instruction *inst; + + prog->Instructions = _mesa_realloc_instructions(prog->Instructions, + prog->NumInstructions, + prog->NumInstructions + 1); + inst = prog->Instructions + prog->NumInstructions; + prog->NumInstructions++; + + _mesa_init_instructions(inst, 1); + inst->Opcode = opcode; + inst->BranchTarget = -1; /* invalid */ + + if (dst) { + GLuint writemask; + switch (dst->Size) { + case 4: + writemask = WRITEMASK_XYZW; + break; + case 3: + writemask = WRITEMASK_XYZ; + break; + case 2: + writemask = WRITEMASK_XY; + break; + case 1: + writemask = WRITEMASK_X << GET_SWZ(dst->Swizzle, 0); + break; + default: + writemask = WRITEMASK_XYZW; + assert(0); + } + storage_to_dst_reg(&inst->DstReg, dst, writemask); + } + + if (src1) + storage_to_src_reg(&inst->SrcReg[0], src1); + if (src2) + storage_to_src_reg(&inst->SrcReg[1], src2); + if (src3) + storage_to_src_reg(&inst->SrcReg[2], src3); + + return inst; +} + + +/** + * Emit an ARL instruction. + */ +static struct prog_instruction * +emit_arl_instruction(slang_emit_info *emitInfo, + GLint addrReg, + const slang_ir_storage *src) +{ + struct prog_instruction *inst; + + assert(addrReg == 0); /* only one addr reg at this time */ + inst = new_instruction(emitInfo, OPCODE_ARL); + storage_to_src_reg(&inst->SrcReg[0], src); + inst->DstReg.File = PROGRAM_ADDRESS; + inst->DstReg.Index = addrReg; + inst->DstReg.WriteMask = WRITEMASK_X; + return inst; +} + + + +/** + * Put a comment on the given instruction. + */ +static void +inst_comment(struct prog_instruction *inst, const char *comment) +{ + if (inst) + inst->Comment = _mesa_strdup(comment); +} + + + +/** * Return pointer to last instruction in program. */ static struct prog_instruction * @@ -531,12 +644,10 @@ instruction_annotation(gl_inst_opcode opcode, char *dstAnnot, * Emit an instruction that's just a comment. */ static struct prog_instruction * -emit_comment(slang_emit_info *emitInfo, const char *s) +emit_comment(slang_emit_info *emitInfo, const char *comment) { struct prog_instruction *inst = new_instruction(emitInfo, OPCODE_NOP); - if (inst) { - inst->Comment = _mesa_strdup(s); - } + inst_comment(inst, comment); return inst; } @@ -548,22 +659,13 @@ emit_comment(slang_emit_info *emitInfo, const char *s) static struct prog_instruction * emit_arith(slang_emit_info *emitInfo, slang_ir_node *n) { - struct prog_instruction *inst; const slang_ir_info *info = _slang_ir_info(n->Opcode); - char *srcAnnot[3], *dstAnnot; + struct prog_instruction *inst; GLuint i; - slang_ir_node *temps[3]; - - /* we'll save pointers to nodes/storage to free in temps[] until - * the very end. - */ - temps[0] = temps[1] = temps[2] = NULL; assert(info); assert(info->InstOpcode != OPCODE_NOP); - srcAnnot[0] = srcAnnot[1] = srcAnnot[2] = dstAnnot = NULL; - #if PEEPHOLE_OPTIMIZATIONS /* Look for MAD opportunity */ if (info->NumParams == 2 && @@ -572,85 +674,67 @@ emit_arith(slang_emit_info *emitInfo, slang_ir_node *n) emit(emitInfo, n->Children[0]->Children[0]); /* A */ emit(emitInfo, n->Children[0]->Children[1]); /* B */ emit(emitInfo, n->Children[1]); /* C */ - /* generate MAD instruction */ - inst = new_instruction(emitInfo, OPCODE_MAD); - /* operands: A, B, C: */ - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Children[0]->Store); - storage_to_src_reg(&inst->SrcReg[1], n->Children[0]->Children[1]->Store); - storage_to_src_reg(&inst->SrcReg[2], n->Children[1]->Store); - temps[0] = n->Children[0]->Children[0]; - temps[1] = n->Children[0]->Children[1]; - temps[2] = n->Children[1]; - } - else if (info->NumParams == 2 && - n->Opcode == IR_ADD && n->Children[1]->Opcode == IR_MUL) { + alloc_node_storage(emitInfo, n, -1); /* dest */ + + inst = emit_instruction(emitInfo, + OPCODE_MAD, + n->Store, + n->Children[0]->Children[0]->Store, + n->Children[0]->Children[1]->Store, + n->Children[1]->Store); + + free_node_storage(emitInfo->vt, n->Children[0]->Children[0]); + free_node_storage(emitInfo->vt, n->Children[0]->Children[1]); + free_node_storage(emitInfo->vt, n->Children[1]); + return inst; + } + + if (info->NumParams == 2 && + n->Opcode == IR_ADD && n->Children[1]->Opcode == IR_MUL) { /* found pattern IR_ADD(A, IR_MUL(B, C)) */ emit(emitInfo, n->Children[0]); /* A */ emit(emitInfo, n->Children[1]->Children[0]); /* B */ emit(emitInfo, n->Children[1]->Children[1]); /* C */ - /* generate MAD instruction */ - inst = new_instruction(emitInfo, OPCODE_MAD); - /* operands: B, C, A */ - storage_to_src_reg(&inst->SrcReg[0], n->Children[1]->Children[0]->Store); - storage_to_src_reg(&inst->SrcReg[1], n->Children[1]->Children[1]->Store); - storage_to_src_reg(&inst->SrcReg[2], n->Children[0]->Store); - temps[0] = n->Children[1]->Children[0]; - temps[1] = n->Children[1]->Children[1]; - temps[2] = n->Children[0]; + alloc_node_storage(emitInfo, n, -1); /* dest */ + + inst = emit_instruction(emitInfo, + OPCODE_MAD, + n->Store, + n->Children[1]->Children[0]->Store, + n->Children[1]->Children[1]->Store, + n->Children[0]->Store); + + free_node_storage(emitInfo->vt, n->Children[1]->Children[0]); + free_node_storage(emitInfo->vt, n->Children[1]->Children[1]); + free_node_storage(emitInfo->vt, n->Children[0]); + return inst; } - else #endif - { - /* normal case */ - /* gen code for children */ - for (i = 0; i < info->NumParams; i++) { - emit(emitInfo, n->Children[i]); - if (!n->Children[i] || !n->Children[i]->Store) { - /* error recovery */ - return NULL; - } + /* gen code for children, may involve temp allocation */ + for (i = 0; i < info->NumParams; i++) { + emit(emitInfo, n->Children[i]); + if (!n->Children[i] || !n->Children[i]->Store) { + /* error recovery */ + return NULL; } - - /* gen this instruction and src registers */ - inst = new_instruction(emitInfo, info->InstOpcode); - for (i = 0; i < info->NumParams; i++) - storage_to_src_reg(&inst->SrcReg[i], n->Children[i]->Store); - - /* annotation */ - for (i = 0; i < info->NumParams; i++) - srcAnnot[i] = storage_annotation(n->Children[i], emitInfo->prog); - - /* record (potential) temps to free */ - for (i = 0; i < info->NumParams; i++) - temps[i] = n->Children[i]; } /* result storage */ alloc_node_storage(emitInfo, n, -1); - assert(n->Store->Index >= 0); - if (n->Store->Size == 2) - n->Writemask = WRITEMASK_XY; - else if (n->Store->Size == 3) - n->Writemask = WRITEMASK_XYZ; - else if (n->Store->Size == 1) - n->Writemask = WRITEMASK_X << GET_SWZ(n->Store->Swizzle, 0); - - - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); + inst = emit_instruction(emitInfo, + info->InstOpcode, + n->Store, /* dest */ + (info->NumParams > 0 ? n->Children[0]->Store : NULL), + (info->NumParams > 1 ? n->Children[1]->Store : NULL), + (info->NumParams > 2 ? n->Children[2]->Store : NULL) + ); - dstAnnot = storage_annotation(n, emitInfo->prog); - - inst->Comment = instruction_annotation(inst->Opcode, dstAnnot, srcAnnot[0], - srcAnnot[1], srcAnnot[2]); - - /* really free temps now */ - for (i = 0; i < 3; i++) - if (temps[i]) - free_node_storage(emitInfo->vt, temps[i]); + /* free temps */ + for (i = 0; i < info->NumParams; i++) + free_node_storage(emitInfo->vt, n->Children[i]); - /*_mesa_print_instruction(inst);*/ return inst; } @@ -662,7 +746,7 @@ emit_arith(slang_emit_info *emitInfo, slang_ir_node *n) static struct prog_instruction * emit_compare(slang_emit_info *emitInfo, slang_ir_node *n) { - struct prog_instruction *inst; + struct prog_instruction *inst = NULL; GLint size; assert(n->Opcode == IR_EQUAL || n->Opcode == IR_NOTEQUAL); @@ -683,15 +767,20 @@ emit_compare(slang_emit_info *emitInfo, slang_ir_node *n) size = n->Children[0]->Store->Size; if (size == 1) { - gl_inst_opcode opcode; - - opcode = n->Opcode == IR_EQUAL ? OPCODE_SEQ : OPCODE_SNE; - inst = new_instruction(emitInfo, opcode); - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Store); - storage_to_src_reg(&inst->SrcReg[1], n->Children[1]->Store); - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); + gl_inst_opcode opcode = n->Opcode == IR_EQUAL ? OPCODE_SEQ : OPCODE_SNE; + inst = emit_instruction(emitInfo, + opcode, + n->Store, /* dest */ + n->Children[0]->Store, + n->Children[1]->Store, + NULL); } else if (size <= 4) { + /* compare two vectors. + * Unfortunately, there's no instruction to compare vectors and + * return a scalar result. Do it with some compare and dot product + * instructions... + */ GLuint swizzle; gl_inst_opcode dotOp; slang_ir_storage tempStore; @@ -716,29 +805,37 @@ emit_compare(slang_emit_info *emitInfo, slang_ir_node *n) } /* Compute inequality (temp = (A != B)) */ - inst = new_instruction(emitInfo, OPCODE_SNE); - storage_to_dst_reg(&inst->DstReg, &tempStore, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Store); - storage_to_src_reg(&inst->SrcReg[1], n->Children[1]->Store); - inst->Comment = _mesa_strdup("Compare values"); + inst = emit_instruction(emitInfo, + OPCODE_SNE, + &tempStore, + n->Children[0]->Store, + n->Children[1]->Store, + NULL); + inst_comment(inst, "Compare values"); /* Compute val = DOT(temp, temp) (reduction) */ - inst = new_instruction(emitInfo, dotOp); - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], &tempStore); - storage_to_src_reg(&inst->SrcReg[1], &tempStore); + inst = emit_instruction(emitInfo, + dotOp, + n->Store, + &tempStore, + &tempStore, + NULL); inst->SrcReg[0].Swizzle = inst->SrcReg[1].Swizzle = swizzle; /*override*/ - inst->Comment = _mesa_strdup("Reduce vec to bool"); + inst_comment(inst, "Reduce vec to bool"); _slang_free_temp(emitInfo->vt, &tempStore); /* free temp */ if (n->Opcode == IR_EQUAL) { /* compute val = !val.x with SEQ val, val, 0; */ - inst = new_instruction(emitInfo, OPCODE_SEQ); - storage_to_src_reg(&inst->SrcReg[0], n->Store); - constant_to_src_reg(&inst->SrcReg[1], 0.0, emitInfo); - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - inst->Comment = _mesa_strdup("Invert true/false"); + slang_ir_storage zero; + constant_to_storage(emitInfo, 0.0, &zero); + inst = emit_instruction(emitInfo, + OPCODE_SEQ, + n->Store, /* dest */ + n->Store, + &zero, + NULL); + inst_comment(inst, "Invert true/false"); } } else { @@ -755,41 +852,54 @@ emit_compare(slang_emit_info *emitInfo, slang_ir_node *n) return NULL; for (i = 0; i < num; i++) { - /* SNE sneTemp, left[i], right[i] */ - inst = new_instruction(emitInfo, OPCODE_SNE); - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Store); - storage_to_src_reg(&inst->SrcReg[1], n->Children[1]->Store); - inst->SrcReg[0].Index += i; - inst->SrcReg[1].Index += i; + slang_ir_storage srcStore0 = *n->Children[0]->Store; + slang_ir_storage srcStore1 = *n->Children[1]->Store; + srcStore0.Index += i; + srcStore1.Index += i; + if (i == 0) { - storage_to_dst_reg(&inst->DstReg, &accTemp, WRITEMASK_XYZW); - inst->Comment = _mesa_strdup("Begin struct/array comparison"); + /* SNE accTemp, left[i], right[i] */ + inst = emit_instruction(emitInfo, OPCODE_SNE, + &accTemp, /* dest */ + &srcStore0, + &srcStore1, + NULL); + inst_comment(inst, "Begin struct/array comparison"); } else { - storage_to_dst_reg(&inst->DstReg, &sneTemp, WRITEMASK_XYZW); - + /* SNE sneTemp, left[i], right[i] */ + inst = emit_instruction(emitInfo, OPCODE_SNE, + &sneTemp, /* dest */ + &srcStore0, + &srcStore1, + NULL); /* ADD accTemp, accTemp, sneTemp; # like logical-OR */ - inst = new_instruction(emitInfo, OPCODE_ADD); - storage_to_dst_reg(&inst->DstReg, &accTemp, WRITEMASK_XYZW); - storage_to_src_reg(&inst->SrcReg[0], &accTemp); - storage_to_src_reg(&inst->SrcReg[1], &sneTemp); + inst = emit_instruction(emitInfo, OPCODE_ADD, + &accTemp, /* dest */ + &accTemp, + &sneTemp, + NULL); } } /* compute accTemp.x || accTemp.y || accTemp.z || accTemp.w with DOT4 */ - inst = new_instruction(emitInfo, OPCODE_DP4); - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], &accTemp); - storage_to_src_reg(&inst->SrcReg[1], &accTemp); - inst->Comment = _mesa_strdup("End struct/array comparison"); + inst = emit_instruction(emitInfo, OPCODE_DP4, + n->Store, + &accTemp, + &accTemp, + NULL); + inst_comment(inst, "End struct/array comparison"); if (n->Opcode == IR_EQUAL) { /* compute tmp.x = !tmp.x via tmp.x = (tmp.x == 0) */ - inst = new_instruction(emitInfo, OPCODE_SEQ); - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], n->Store); - constant_to_src_reg(&inst->SrcReg[1], 0.0, emitInfo); - inst->Comment = _mesa_strdup("Invert true/false"); + slang_ir_storage zero; + constant_to_storage(emitInfo, 0.0, &zero); + inst = emit_instruction(emitInfo, OPCODE_SEQ, + n->Store, /* dest */ + n->Store, + &zero, + NULL); + inst_comment(inst, "Invert true/false"); } _slang_free_temp(emitInfo->vt, &accTemp); @@ -865,16 +975,18 @@ emit_clamp(slang_emit_info *emitInfo, slang_ir_node *n) alloc_node_storage(emitInfo, &tmpNode, n->Store->Size); /* tmp = max(ch[0], ch[1]) */ - inst = new_instruction(emitInfo, OPCODE_MAX); - storage_to_dst_reg(&inst->DstReg, tmpNode.Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Store); - storage_to_src_reg(&inst->SrcReg[1], n->Children[1]->Store); + inst = emit_instruction(emitInfo, OPCODE_MAX, + tmpNode.Store, /* dest */ + n->Children[0]->Store, + n->Children[1]->Store, + NULL); /* n->dest = min(tmp, ch[2]) */ - inst = new_instruction(emitInfo, OPCODE_MIN); - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], tmpNode.Store); - storage_to_src_reg(&inst->SrcReg[1], n->Children[2]->Store); + inst = emit_instruction(emitInfo, OPCODE_MIN, + n->Store, /* dest */ + tmpNode.Store, + n->Children[2]->Store, + NULL); free_node_storage(emitInfo->vt, &tmpNode); @@ -896,9 +1008,12 @@ emit_negation(slang_emit_info *emitInfo, slang_ir_node *n) if (!alloc_node_storage(emitInfo, n, n->Children[0]->Store->Size)) return NULL; - inst = new_instruction(emitInfo, OPCODE_MOV); - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Store); + inst = emit_instruction(emitInfo, + OPCODE_MOV, + n->Store, /* dest */ + n->Children[0]->Store, + NULL, + NULL); inst->SrcReg[0].NegateBase = NEGATE_XYZW; return inst; } @@ -951,7 +1066,7 @@ emit_fcall(slang_emit_info *emitInfo, slang_ir_node *n) * really just a NOP to attach the label to. */ inst = new_instruction(emitInfo, OPCODE_BGNSUB); - inst->Comment = _mesa_strdup(n->Label->Name); + inst_comment(inst, n->Label->Name); } /* body of function: */ @@ -966,7 +1081,7 @@ emit_fcall(slang_emit_info *emitInfo, slang_ir_node *n) if (emitInfo->EmitBeginEndSub) { inst = new_instruction(emitInfo, OPCODE_ENDSUB); - inst->Comment = _mesa_strdup(n->Label->Name); + inst_comment(inst, n->Label->Name); } /* pop/restore cur program */ @@ -976,7 +1091,7 @@ emit_fcall(slang_emit_info *emitInfo, slang_ir_node *n) inst = new_instruction(emitInfo, OPCODE_CAL); /* The branch target is just the subroutine number (changed later) */ inst->BranchTarget = subroutineId; - inst->Comment = _mesa_strdup(n->Label->Name); + inst_comment(inst, n->Label->Name); assert(inst->BranchTarget >= 0); return inst; @@ -1022,28 +1137,33 @@ static struct prog_instruction * emit_tex(slang_emit_info *emitInfo, slang_ir_node *n) { struct prog_instruction *inst; - - (void) emit(emitInfo, n->Children[1]); + gl_inst_opcode opcode; if (n->Opcode == IR_TEX) { - inst = new_instruction(emitInfo, OPCODE_TEX); + opcode = OPCODE_TEX; } else if (n->Opcode == IR_TEXB) { - inst = new_instruction(emitInfo, OPCODE_TXB); + opcode = OPCODE_TXB; } else { assert(n->Opcode == IR_TEXP); - inst = new_instruction(emitInfo, OPCODE_TXP); + opcode = OPCODE_TXP; } + /* emit code for the texcoord operand */ + (void) emit(emitInfo, n->Children[1]); + + /* alloc storage for result of texture fetch */ if (!alloc_node_storage(emitInfo, n, 4)) return NULL; - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - - /* Child[1] is the coord */ - assert(n->Children[1]->Store->Index >= 0); - storage_to_src_reg(&inst->SrcReg[0], n->Children[1]->Store); + /* emit TEX instruction; Child[1] is the texcoord */ + inst = emit_instruction(emitInfo, + opcode, + n->Store, + n->Children[1]->Store, + NULL, + NULL); /* Child[0] is the sampler (a uniform which'll indicate the texture unit) */ assert(n->Children[0]->Store); @@ -1054,14 +1174,8 @@ emit_tex(slang_emit_info *emitInfo, slang_ir_node *n) assert(n->Children[0]->Store->Size <= TEXTURE_RECT_INDEX); inst->TexSrcTarget = n->Children[0]->Store->Size; -#if 0 - inst->TexSrcUnit = 27; /* Dummy value; the TexSrcUnit will be computed at - * link time, using the sampler uniform's value. - */ - inst->Sampler = n->Children[0]->Store->Index; /* i.e. uniform's index */ -#else inst->TexSrcUnit = n->Children[0]->Store->Index; /* i.e. uniform's index */ -#endif + return inst; } @@ -1118,6 +1232,11 @@ emit_copy(slang_emit_info *emitInfo, slang_ir_node *n) * Modify the RHS (and the prev instruction) to store its results * in the destination specified by n->Children[0]. * Then, this MOVE is a no-op. + * Ex: + * MUL tmp, x, y; + * MOV a, tmp; + * becomes: + * MUL a, x, y; */ if (n->Children[1]->Opcode != IR_SWIZZLE) _slang_free_temp(emitInfo->vt, n->Children[1]->Store); @@ -1127,9 +1246,12 @@ emit_copy(slang_emit_info *emitInfo, slang_ir_node *n) assert(n->Children[0]->Store->Index >= 0); /* use tighter writemask when possible */ - if (n->Writemask == WRITEMASK_XYZW) +#if 0 + if (n->Writemask == WRITEMASK_XYZW) { n->Writemask = inst->DstReg.WriteMask; - + printf("Narrow writemask to 0x%x\n", n->Writemask); + } +#endif storage_to_dst_reg(&inst->DstReg, n->Children[0]->Store, n->Writemask); return inst; } @@ -1146,10 +1268,12 @@ emit_copy(slang_emit_info *emitInfo, slang_ir_node *n) dstStore.Size = 4; srcStore.Size = 4; while (size >= 4) { - inst = new_instruction(emitInfo, OPCODE_MOV); - inst->Comment = _mesa_strdup("IR_COPY block"); - storage_to_dst_reg(&inst->DstReg, &dstStore, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], &srcStore); + inst = emit_instruction(emitInfo, OPCODE_MOV, + &dstStore, + &srcStore, + NULL, + NULL); + inst_comment(inst, "IR_COPY block"); srcStore.Index++; dstStore.Index++; size -= 4; @@ -1158,10 +1282,12 @@ emit_copy(slang_emit_info *emitInfo, slang_ir_node *n) else { /* single register move */ char *srcAnnot, *dstAnnot; - inst = new_instruction(emitInfo, OPCODE_MOV); assert(n->Children[0]->Store->Index >= 0); - storage_to_dst_reg(&inst->DstReg, n->Children[0]->Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], n->Children[1]->Store); + inst = emit_instruction(emitInfo, OPCODE_MOV, + n->Children[0]->Store, /* dest */ + n->Children[1]->Store, + NULL, + NULL); dstAnnot = storage_annotation(n->Children[0], emitInfo->prog); srcAnnot = storage_annotation(n->Children[1], emitInfo->prog); inst->Comment = instruction_annotation(inst->Opcode, dstAnnot, @@ -1218,12 +1344,14 @@ emit_cond(slang_emit_info *emitInfo, slang_ir_node *n) */ if (!alloc_node_storage(emitInfo, n, 1)) return NULL; - inst = new_instruction(emitInfo, OPCODE_MOV); + inst = emit_instruction(emitInfo, OPCODE_MOV, + n->Store, /* dest */ + n->Children[0]->Store, + NULL, + NULL); inst->CondUpdate = GL_TRUE; - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Store); + inst_comment(inst, "COND expr"); _slang_free_temp(emitInfo->vt, n->Store); - inst->Comment = _mesa_strdup("COND expr"); return inst; } } @@ -1253,6 +1381,7 @@ emit_not(slang_emit_info *emitInfo, slang_ir_node *n) { 0, 0 } }; struct prog_instruction *inst; + slang_ir_storage zero; GLuint i; /* child expr */ @@ -1275,13 +1404,17 @@ emit_not(slang_emit_info *emitInfo, slang_ir_node *n) if (!alloc_node_storage(emitInfo, n, n->Children[0]->Store->Size)) return NULL; - inst = new_instruction(emitInfo, OPCODE_SEQ); - storage_to_dst_reg(&inst->DstReg, n->Store, n->Writemask); - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Store); - constant_to_src_reg(&inst->SrcReg[1], 0.0, emitInfo); + constant_to_storage(emitInfo, 0.0, &zero); + inst = emit_instruction(emitInfo, + OPCODE_SEQ, + n->Store, + n->Children[0]->Store, + &zero, + NULL); + inst_comment(inst, "NOT"); + free_node_storage(emitInfo->vt, n->Children[0]); - inst->Comment = _mesa_strdup("NOT"); return inst; } @@ -1315,8 +1448,10 @@ emit_if(slang_emit_info *emitInfo, slang_ir_node *n) ifInstLoc = prog->NumInstructions; if (emitInfo->EmitHighLevelInstructions) { - struct prog_instruction *ifInst = new_instruction(emitInfo, OPCODE_IF); if (emitInfo->EmitCondCodes) { + /* IF condcode THEN ... */ + struct prog_instruction *ifInst; + ifInst = new_instruction(emitInfo, OPCODE_IF); ifInst->DstReg.CondMask = COND_NE; /* if cond is non-zero */ /* only test the cond code (1 of 4) that was updated by the * previous instruction. @@ -1324,15 +1459,19 @@ emit_if(slang_emit_info *emitInfo, slang_ir_node *n) ifInst->DstReg.CondSwizzle = writemask_to_swizzle(condWritemask); } else { - /* test reg.x */ - storage_to_src_reg(&ifInst->SrcReg[0], n->Children[0]->Store); + /* IF src[0] THEN ... */ + emit_instruction(emitInfo, OPCODE_IF, + NULL, /* dst */ + n->Children[0]->Store, /* op0 */ + NULL, + NULL); } } else { /* conditional jump to else, or endif */ struct prog_instruction *ifInst = new_instruction(emitInfo, OPCODE_BRA); ifInst->DstReg.CondMask = COND_EQ; /* BRA if cond is zero */ - ifInst->Comment = _mesa_strdup("if zero"); + inst_comment(ifInst, "if zero"); ifInst->DstReg.CondSwizzle = writemask_to_swizzle(condWritemask); } @@ -1349,7 +1488,7 @@ emit_if(slang_emit_info *emitInfo, slang_ir_node *n) /* jump to endif instruction */ struct prog_instruction *inst; inst = new_instruction(emitInfo, OPCODE_BRA); - inst->Comment = _mesa_strdup("else"); + inst_comment(inst, "else"); inst->DstReg.CondMask = COND_TR; /* always branch */ } prog->Instructions[ifInstLoc].BranchTarget = prog->NumInstructions; @@ -1520,8 +1659,11 @@ emit_cont_break_if_true(slang_emit_info *emitInfo, slang_ir_node *n) */ GLint ifInstLoc; ifInstLoc = emitInfo->prog->NumInstructions; - inst = new_instruction(emitInfo, OPCODE_IF); - storage_to_src_reg(&inst->SrcReg[0], n->Children[0]->Store); + inst = emit_instruction(emitInfo, OPCODE_IF, + NULL, /* dest */ + n->Children[0]->Store, + NULL, + NULL); n->InstLocation = emitInfo->prog->NumInstructions; inst = new_instruction(emitInfo, opcode); @@ -1583,11 +1725,13 @@ move_block(slang_emit_info *emitInfo, dstStore.Size = 4; srcStore.Size = 4; while (size >= 4) { - inst = new_instruction(emitInfo, OPCODE_MOV); - inst->Comment = _mesa_strdup("IR_COPY block"); - storage_to_dst_reg(&inst->DstReg, &dstStore, WRITEMASK_XYZW); - storage_to_src_reg(&inst->SrcReg[0], &srcStore); + inst = emit_instruction(emitInfo, OPCODE_MOV, + &dstStore, + &srcStore, + NULL, + NULL); inst->SrcReg[0].RelAddr = relAddr; + inst_comment(inst, "IR_COPY block"); srcStore.Index++; dstStore.Index++; size -= 4; @@ -1595,18 +1739,12 @@ move_block(slang_emit_info *emitInfo, } else { /* single register move */ - GLuint writemask; - if (size == 1) { - GLuint comp = GET_SWZ(src->Swizzle, 0); - assert(comp < 4); - writemask = WRITEMASK_X << comp; - } - else { - writemask = WRITEMASK_XYZW; - } - inst = new_instruction(emitInfo, OPCODE_MOV); - storage_to_dst_reg(&inst->DstReg, dst, writemask); - storage_to_src_reg(&inst->SrcReg[0], src); + inst = emit_instruction(emitInfo, + OPCODE_MOV, + dst, + src, + NULL, + NULL); inst->SrcReg[0].RelAddr = relAddr; } return inst; @@ -1617,26 +1755,28 @@ move_block(slang_emit_info *emitInfo, /** * Dereference array element. Just resolve storage for the array * element represented by this node. + * This is typically where Indirect addressing comes into play. + * See comments on struct slang_ir_storage. */ static struct prog_instruction * emit_array_element(slang_emit_info *emitInfo, slang_ir_node *n) { - slang_ir_storage *root; - assert(n->Opcode == IR_ELEMENT); assert(n->Store); assert(n->Store->File == PROGRAM_UNDEFINED); assert(n->Store->Parent); assert(n->Store->Size > 0); - root = n->Store; - while (root->Parent) - root = root->Parent; + { + slang_ir_storage *root = n->Store; + while (root->Parent) + root = root->Parent; - if (root->File == PROGRAM_STATE_VAR) { - GLint index = _slang_alloc_statevar(n, emitInfo->prog->Parameters); - assert(n->Store->Index == index); - return NULL; + if (root->File == PROGRAM_STATE_VAR) { + GLint index = _slang_alloc_statevar(n, emitInfo->prog->Parameters); + assert(n->Store->Index == index); + return NULL; + } } /* do codegen for array */ @@ -1668,30 +1808,30 @@ emit_array_element(slang_emit_info *emitInfo, slang_ir_node *n) if (n->Store->Size > 4) { /* need to multiply the index by the element size */ - GLint elemSize = (n->Store->Size + 3) / 4; - slang_ir_storage indexTemp; + const GLint elemSize = (n->Store->Size + 3) / 4; + slang_ir_storage indexTemp, elemSizeStore; + + /* constant containing the element size */ + constant_to_storage(emitInfo, (float) elemSize, &elemSizeStore); /* allocate 1 float indexTemp */ alloc_local_temp(emitInfo, &indexTemp, 1); /* MUL temp, index, elemSize */ - inst = new_instruction(emitInfo, OPCODE_MUL); - storage_to_dst_reg(&inst->DstReg, &indexTemp, WRITEMASK_X); - storage_to_src_reg(&inst->SrcReg[0], n->Children[1]->Store); - constant_to_src_reg(&inst->SrcReg[1], elemSize, emitInfo); + inst = emit_instruction(emitInfo, OPCODE_MUL, + &indexTemp, /* dest */ + n->Children[1]->Store, /* the index */ + &elemSizeStore, + NULL); /* load ADDR[0].X = temp */ - inst = new_instruction(emitInfo, OPCODE_ARL); - storage_to_src_reg(&inst->SrcReg[0], &indexTemp); - address_to_dst_reg(&inst->DstReg, 0); + inst = emit_arl_instruction(emitInfo, 0, &indexTemp); _slang_free_temp(emitInfo->vt, &indexTemp); } else { /* simply load address reg w/ array index */ - inst = new_instruction(emitInfo, OPCODE_ARL); - storage_to_src_reg(&inst->SrcReg[0], n->Children[1]->Store); - address_to_dst_reg(&inst->DstReg, 0); + inst = emit_arl_instruction(emitInfo, 0, n->Children[1]->Store); } /* copy from array element to temp storage */ @@ -1750,8 +1890,6 @@ emit_struct_field(slang_emit_info *emitInfo, slang_ir_node *n) static struct prog_instruction * emit_var_decl(slang_emit_info *emitInfo, slang_ir_node *n) { - struct prog_instruction *inst; - assert(n->Store); assert(n->Store->File != PROGRAM_UNDEFINED); assert(n->Store->Size > 0); @@ -1788,8 +1926,7 @@ emit_var_decl(slang_emit_info *emitInfo, slang_ir_node *n) _mesa_swizzle_string(n->Store->Swizzle, 0, GL_FALSE), (n->Var ? (char *) n->Var->a_name : "anonymous"), n->Store->Size); - inst = emit_comment(emitInfo, s); - return inst; + emit_comment(emitInfo, s); } return NULL; } |