diff options
Diffstat (limited to 'src/gallium/auxiliary/tgsi/tgsi_exec.c')
| -rw-r--r-- | src/gallium/auxiliary/tgsi/tgsi_exec.c | 2958 |
1 files changed, 1662 insertions, 1296 deletions
diff --git a/src/gallium/auxiliary/tgsi/tgsi_exec.c b/src/gallium/auxiliary/tgsi/tgsi_exec.c index c79c56debd6..2bcb33392a8 100644 --- a/src/gallium/auxiliary/tgsi/tgsi_exec.c +++ b/src/gallium/auxiliary/tgsi/tgsi_exec.c @@ -2,6 +2,7 @@ * * Copyright 2007-2008 Tungsten Graphics, Inc., Cedar Park, Texas. * All Rights Reserved. + * Copyright 2009-2010 VMware, Inc. All rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the @@ -60,21 +61,337 @@ #include "util/u_memory.h" #include "util/u_math.h" -#define FAST_MATH 1 -/** for tgsi_full_instruction::Flags */ -#define SOA_DEPENDENCY_FLAG 0x1 +#define FAST_MATH 1 #define TILE_TOP_LEFT 0 #define TILE_TOP_RIGHT 1 #define TILE_BOTTOM_LEFT 2 #define TILE_BOTTOM_RIGHT 3 +static void +micro_abs(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = fabsf(src->f[0]); + dst->f[1] = fabsf(src->f[1]); + dst->f[2] = fabsf(src->f[2]); + dst->f[3] = fabsf(src->f[3]); +} + +static void +micro_arl(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = (int)floorf(src->f[0]); + dst->i[1] = (int)floorf(src->f[1]); + dst->i[2] = (int)floorf(src->f[2]); + dst->i[3] = (int)floorf(src->f[3]); +} + +static void +micro_arr(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = (int)floorf(src->f[0] + 0.5f); + dst->i[1] = (int)floorf(src->f[1] + 0.5f); + dst->i[2] = (int)floorf(src->f[2] + 0.5f); + dst->i[3] = (int)floorf(src->f[3] + 0.5f); +} + +static void +micro_ceil(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = ceilf(src->f[0]); + dst->f[1] = ceilf(src->f[1]); + dst->f[2] = ceilf(src->f[2]); + dst->f[3] = ceilf(src->f[3]); +} + +static void +micro_cos(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = cosf(src->f[0]); + dst->f[1] = cosf(src->f[1]); + dst->f[2] = cosf(src->f[2]); + dst->f[3] = cosf(src->f[3]); +} + +static void +micro_ddx(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = + dst->f[1] = + dst->f[2] = + dst->f[3] = src->f[TILE_BOTTOM_RIGHT] - src->f[TILE_BOTTOM_LEFT]; +} + +static void +micro_ddy(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = + dst->f[1] = + dst->f[2] = + dst->f[3] = src->f[TILE_BOTTOM_LEFT] - src->f[TILE_TOP_LEFT]; +} + +static void +micro_exp2(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ +#if FAST_MATH + dst->f[0] = util_fast_exp2(src->f[0]); + dst->f[1] = util_fast_exp2(src->f[1]); + dst->f[2] = util_fast_exp2(src->f[2]); + dst->f[3] = util_fast_exp2(src->f[3]); +#else +#if DEBUG + /* Inf is okay for this instruction, so clamp it to silence assertions. */ + uint i; + union tgsi_exec_channel clamped; + + for (i = 0; i < 4; i++) { + if (src->f[i] > 127.99999f) { + clamped.f[i] = 127.99999f; + } else if (src->f[i] < -126.99999f) { + clamped.f[i] = -126.99999f; + } else { + clamped.f[i] = src->f[i]; + } + } + src = &clamped; +#endif /* DEBUG */ + + dst->f[0] = powf(2.0f, src->f[0]); + dst->f[1] = powf(2.0f, src->f[1]); + dst->f[2] = powf(2.0f, src->f[2]); + dst->f[3] = powf(2.0f, src->f[3]); +#endif /* FAST_MATH */ +} + +static void +micro_flr(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = floorf(src->f[0]); + dst->f[1] = floorf(src->f[1]); + dst->f[2] = floorf(src->f[2]); + dst->f[3] = floorf(src->f[3]); +} + +static void +micro_frc(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src->f[0] - floorf(src->f[0]); + dst->f[1] = src->f[1] - floorf(src->f[1]); + dst->f[2] = src->f[2] - floorf(src->f[2]); + dst->f[3] = src->f[3] - floorf(src->f[3]); +} + +static void +micro_iabs(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = src->i[0] >= 0 ? src->i[0] : -src->i[0]; + dst->i[1] = src->i[1] >= 0 ? src->i[1] : -src->i[1]; + dst->i[2] = src->i[2] >= 0 ? src->i[2] : -src->i[2]; + dst->i[3] = src->i[3] >= 0 ? src->i[3] : -src->i[3]; +} + +static void +micro_ineg(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = -src->i[0]; + dst->i[1] = -src->i[1]; + dst->i[2] = -src->i[2]; + dst->i[3] = -src->i[3]; +} + +static void +micro_lg2(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ +#if FAST_MATH + dst->f[0] = util_fast_log2(src->f[0]); + dst->f[1] = util_fast_log2(src->f[1]); + dst->f[2] = util_fast_log2(src->f[2]); + dst->f[3] = util_fast_log2(src->f[3]); +#else + dst->f[0] = logf(src->f[0]) * 1.442695f; + dst->f[1] = logf(src->f[1]) * 1.442695f; + dst->f[2] = logf(src->f[2]) * 1.442695f; + dst->f[3] = logf(src->f[3]) * 1.442695f; +#endif +} + +static void +micro_lrp(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src[0].f[0] * (src[1].f[0] - src[2].f[0]) + src[2].f[0]; + dst->f[1] = src[0].f[1] * (src[1].f[1] - src[2].f[1]) + src[2].f[1]; + dst->f[2] = src[0].f[2] * (src[1].f[2] - src[2].f[2]) + src[2].f[2]; + dst->f[3] = src[0].f[3] * (src[1].f[3] - src[2].f[3]) + src[2].f[3]; +} + +static void +micro_mad(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src[0].f[0] * src[1].f[0] + src[2].f[0]; + dst->f[1] = src[0].f[1] * src[1].f[1] + src[2].f[1]; + dst->f[2] = src[0].f[2] * src[1].f[2] + src[2].f[2]; + dst->f[3] = src[0].f[3] * src[1].f[3] + src[2].f[3]; +} + +static void +micro_mov(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src->u[0]; + dst->u[1] = src->u[1]; + dst->u[2] = src->u[2]; + dst->u[3] = src->u[3]; +} + +static void +micro_rcp(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = 1.0f / src->f[0]; + dst->f[1] = 1.0f / src->f[1]; + dst->f[2] = 1.0f / src->f[2]; + dst->f[3] = 1.0f / src->f[3]; +} + +static void +micro_rnd(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = floorf(src->f[0] + 0.5f); + dst->f[1] = floorf(src->f[1] + 0.5f); + dst->f[2] = floorf(src->f[2] + 0.5f); + dst->f[3] = floorf(src->f[3] + 0.5f); +} + +static void +micro_rsq(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = 1.0f / sqrtf(fabsf(src->f[0])); + dst->f[1] = 1.0f / sqrtf(fabsf(src->f[1])); + dst->f[2] = 1.0f / sqrtf(fabsf(src->f[2])); + dst->f[3] = 1.0f / sqrtf(fabsf(src->f[3])); +} + +static void +micro_seq(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src[0].f[0] == src[1].f[0] ? 1.0f : 0.0f; + dst->f[1] = src[0].f[1] == src[1].f[1] ? 1.0f : 0.0f; + dst->f[2] = src[0].f[2] == src[1].f[2] ? 1.0f : 0.0f; + dst->f[3] = src[0].f[3] == src[1].f[3] ? 1.0f : 0.0f; +} + +static void +micro_sge(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src[0].f[0] >= src[1].f[0] ? 1.0f : 0.0f; + dst->f[1] = src[0].f[1] >= src[1].f[1] ? 1.0f : 0.0f; + dst->f[2] = src[0].f[2] >= src[1].f[2] ? 1.0f : 0.0f; + dst->f[3] = src[0].f[3] >= src[1].f[3] ? 1.0f : 0.0f; +} + +static void +micro_sgn(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src->f[0] < 0.0f ? -1.0f : src->f[0] > 0.0f ? 1.0f : 0.0f; + dst->f[1] = src->f[1] < 0.0f ? -1.0f : src->f[1] > 0.0f ? 1.0f : 0.0f; + dst->f[2] = src->f[2] < 0.0f ? -1.0f : src->f[2] > 0.0f ? 1.0f : 0.0f; + dst->f[3] = src->f[3] < 0.0f ? -1.0f : src->f[3] > 0.0f ? 1.0f : 0.0f; +} + +static void +micro_sgt(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src[0].f[0] > src[1].f[0] ? 1.0f : 0.0f; + dst->f[1] = src[0].f[1] > src[1].f[1] ? 1.0f : 0.0f; + dst->f[2] = src[0].f[2] > src[1].f[2] ? 1.0f : 0.0f; + dst->f[3] = src[0].f[3] > src[1].f[3] ? 1.0f : 0.0f; +} + +static void +micro_sin(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = sinf(src->f[0]); + dst->f[1] = sinf(src->f[1]); + dst->f[2] = sinf(src->f[2]); + dst->f[3] = sinf(src->f[3]); +} + +static void +micro_sle(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src[0].f[0] <= src[1].f[0] ? 1.0f : 0.0f; + dst->f[1] = src[0].f[1] <= src[1].f[1] ? 1.0f : 0.0f; + dst->f[2] = src[0].f[2] <= src[1].f[2] ? 1.0f : 0.0f; + dst->f[3] = src[0].f[3] <= src[1].f[3] ? 1.0f : 0.0f; +} + +static void +micro_slt(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src[0].f[0] < src[1].f[0] ? 1.0f : 0.0f; + dst->f[1] = src[0].f[1] < src[1].f[1] ? 1.0f : 0.0f; + dst->f[2] = src[0].f[2] < src[1].f[2] ? 1.0f : 0.0f; + dst->f[3] = src[0].f[3] < src[1].f[3] ? 1.0f : 0.0f; +} + +static void +micro_sne(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = src[0].f[0] != src[1].f[0] ? 1.0f : 0.0f; + dst->f[1] = src[0].f[1] != src[1].f[1] ? 1.0f : 0.0f; + dst->f[2] = src[0].f[2] != src[1].f[2] ? 1.0f : 0.0f; + dst->f[3] = src[0].f[3] != src[1].f[3] ? 1.0f : 0.0f; +} + +static void +micro_trunc(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = (float)(int)src->f[0]; + dst->f[1] = (float)(int)src->f[1]; + dst->f[2] = (float)(int)src->f[2]; + dst->f[3] = (float)(int)src->f[3]; +} + + #define CHAN_X 0 #define CHAN_Y 1 #define CHAN_Z 2 #define CHAN_W 3 +enum tgsi_exec_datatype { + TGSI_EXEC_DATA_FLOAT, + TGSI_EXEC_DATA_INT, + TGSI_EXEC_DATA_UINT +}; + /* * Shorthand locations of various utility registers (_I = Index, _C = Channel) */ @@ -107,12 +424,13 @@ #define TEMP_HALF_I TGSI_EXEC_TEMP_HALF_I #define TEMP_HALF_C TGSI_EXEC_TEMP_HALF_C #define TEMP_R0 TGSI_EXEC_TEMP_R0 +#define TEMP_P0 TGSI_EXEC_TEMP_P0 #define IS_CHANNEL_ENABLED(INST, CHAN)\ - ((INST).FullDstRegisters[0].DstRegister.WriteMask & (1 << (CHAN))) + ((INST).Dst[0].Register.WriteMask & (1 << (CHAN))) #define IS_CHANNEL_ENABLED2(INST, CHAN)\ - ((INST).FullDstRegisters[1].DstRegister.WriteMask & (1 << (CHAN))) + ((INST).Dst[1].Register.WriteMask & (1 << (CHAN))) #define FOR_EACH_ENABLED_CHANNEL(INST, CHAN)\ for (CHAN = 0; CHAN < NUM_CHANNELS; CHAN++)\ @@ -125,23 +443,19 @@ /** The execution mask depends on the conditional mask and the loop mask */ #define UPDATE_EXEC_MASK(MACH) \ - MACH->ExecMask = MACH->CondMask & MACH->LoopMask & MACH->ContMask & MACH->FuncMask + MACH->ExecMask = MACH->CondMask & MACH->LoopMask & MACH->ContMask & MACH->Switch.mask & MACH->FuncMask static const union tgsi_exec_channel ZeroVec = { { 0.0, 0.0, 0.0, 0.0 } }; -#ifdef DEBUG -static void -check_inf_or_nan(const union tgsi_exec_channel *chan) -{ - assert(!util_is_inf_or_nan(chan->f[0])); - assert(!util_is_inf_or_nan(chan->f[1])); - assert(!util_is_inf_or_nan(chan->f[2])); - assert(!util_is_inf_or_nan(chan->f[3])); -} -#endif +#define CHECK_INF_OR_NAN(chan) do {\ + assert(!util_is_inf_or_nan((chan)->f[0]));\ + assert(!util_is_inf_or_nan((chan)->f[1]));\ + assert(!util_is_inf_or_nan((chan)->f[2]));\ + assert(!util_is_inf_or_nan((chan)->f[3]));\ + } while (0) #ifdef DEBUG @@ -190,7 +504,7 @@ tgsi_check_soa_dependencies(const struct tgsi_full_instruction *inst) { uint i, chan; - uint writemask = inst->FullDstRegisters[0].DstRegister.WriteMask; + uint writemask = inst->Dst[0].Register.WriteMask; if (writemask == TGSI_WRITEMASK_X || writemask == TGSI_WRITEMASK_Y || writemask == TGSI_WRITEMASK_Z || @@ -202,17 +516,16 @@ tgsi_check_soa_dependencies(const struct tgsi_full_instruction *inst) /* loop over src regs */ for (i = 0; i < inst->Instruction.NumSrcRegs; i++) { - if ((inst->FullSrcRegisters[i].SrcRegister.File == - inst->FullDstRegisters[0].DstRegister.File) && - (inst->FullSrcRegisters[i].SrcRegister.Index == - inst->FullDstRegisters[0].DstRegister.Index)) { + if ((inst->Src[i].Register.File == + inst->Dst[0].Register.File) && + (inst->Src[i].Register.Index == + inst->Dst[0].Register.Index)) { /* loop over dest channels */ uint channelsWritten = 0x0; FOR_EACH_ENABLED_CHANNEL(*inst, chan) { /* check if we're reading a channel that's been written */ - uint swizzle = tgsi_util_get_full_src_register_extswizzle(&inst->FullSrcRegisters[i], chan); - if (swizzle <= TGSI_SWIZZLE_W && - (channelsWritten & (1 << swizzle))) { + uint swizzle = tgsi_util_get_full_src_register_swizzle(&inst->Src[i], chan); + if (channelsWritten & (1 << swizzle)) { return TRUE; } @@ -295,6 +608,14 @@ tgsi_exec_machine_bind_shader( * sizeof(struct tgsi_full_declaration)); maxDeclarations += 10; } + if (parse.FullToken.FullDeclaration.Declaration.File == TGSI_FILE_OUTPUT) { + unsigned reg; + for (reg = parse.FullToken.FullDeclaration.Range.First; + reg <= parse.FullToken.FullDeclaration.Range.Last; + ++reg) { + ++mach->NumOutputs; + } + } memcpy(declarations + numDeclarations, &parse.FullToken.FullDeclaration, sizeof(declarations[0])); @@ -332,20 +653,6 @@ tgsi_exec_machine_bind_shader( maxInstructions += 10; } - if (tgsi_check_soa_dependencies(&parse.FullToken.FullInstruction)) { - uint opcode = parse.FullToken.FullInstruction.Instruction.Opcode; - parse.FullToken.FullInstruction.Flags = SOA_DEPENDENCY_FLAG; - /* XXX we only handle SOA dependencies properly for MOV/SWZ - * at this time! - */ - if (opcode != TGSI_OPCODE_MOV && opcode != TGSI_OPCODE_SWZ) { - debug_printf("Warning: SOA dependency in instruction" - " is not handled:\n"); - tgsi_dump_instruction(&parse.FullToken.FullInstruction, - numInstructions); - } - } - memcpy(instructions + numInstructions, &parse.FullToken.FullInstruction, sizeof(instructions[0])); @@ -353,6 +660,9 @@ tgsi_exec_machine_bind_shader( numInstructions++; break; + case TGSI_TOKEN_TYPE_PROPERTY: + break; + default: assert( 0 ); } @@ -386,6 +696,8 @@ tgsi_exec_machine_create( void ) memset(mach, 0, sizeof(*mach)); mach->Addrs = &mach->Temps[TGSI_EXEC_TEMP_ADDR]; + mach->MaxGeometryShaderOutputs = TGSI_MAX_TOTAL_VERTICES; + mach->Predicates = &mach->Temps[TGSI_EXEC_TEMP_P0]; /* Setup constants. */ for( i = 0; i < 4; i++ ) { @@ -426,18 +738,6 @@ tgsi_exec_machine_destroy(struct tgsi_exec_machine *mach) align_free(mach); } - -static void -micro_abs( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = fabsf( src->f[0] ); - dst->f[1] = fabsf( src->f[1] ); - dst->f[2] = fabsf( src->f[2] ); - dst->f[3] = fabsf( src->f[3] ); -} - static void micro_add( union tgsi_exec_channel *dst, @@ -450,76 +750,6 @@ micro_add( dst->f[3] = src0->f[3] + src1->f[3]; } -#if 0 -static void -micro_iadd( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->i[0] = src0->i[0] + src1->i[0]; - dst->i[1] = src0->i[1] + src1->i[1]; - dst->i[2] = src0->i[2] + src1->i[2]; - dst->i[3] = src0->i[3] + src1->i[3]; -} -#endif - -static void -micro_and( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->u[0] = src0->u[0] & src1->u[0]; - dst->u[1] = src0->u[1] & src1->u[1]; - dst->u[2] = src0->u[2] & src1->u[2]; - dst->u[3] = src0->u[3] & src1->u[3]; -} - -static void -micro_ceil( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = ceilf( src->f[0] ); - dst->f[1] = ceilf( src->f[1] ); - dst->f[2] = ceilf( src->f[2] ); - dst->f[3] = ceilf( src->f[3] ); -} - -static void -micro_cos( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = cosf( src->f[0] ); - dst->f[1] = cosf( src->f[1] ); - dst->f[2] = cosf( src->f[2] ); - dst->f[3] = cosf( src->f[3] ); -} - -static void -micro_ddx( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = - dst->f[1] = - dst->f[2] = - dst->f[3] = src->f[TILE_BOTTOM_RIGHT] - src->f[TILE_BOTTOM_LEFT]; -} - -static void -micro_ddy( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = - dst->f[1] = - dst->f[2] = - dst->f[3] = src->f[TILE_TOP_LEFT] - src->f[TILE_BOTTOM_LEFT]; -} - static void micro_div( union tgsi_exec_channel *dst, @@ -540,81 +770,6 @@ micro_div( } } -#if 0 -static void -micro_udiv( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->u[0] = src0->u[0] / src1->u[0]; - dst->u[1] = src0->u[1] / src1->u[1]; - dst->u[2] = src0->u[2] / src1->u[2]; - dst->u[3] = src0->u[3] / src1->u[3]; -} -#endif - -static void -micro_eq( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1, - const union tgsi_exec_channel *src2, - const union tgsi_exec_channel *src3 ) -{ - dst->f[0] = src0->f[0] == src1->f[0] ? src2->f[0] : src3->f[0]; - dst->f[1] = src0->f[1] == src1->f[1] ? src2->f[1] : src3->f[1]; - dst->f[2] = src0->f[2] == src1->f[2] ? src2->f[2] : src3->f[2]; - dst->f[3] = src0->f[3] == src1->f[3] ? src2->f[3] : src3->f[3]; -} - -#if 0 -static void -micro_ieq( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1, - const union tgsi_exec_channel *src2, - const union tgsi_exec_channel *src3 ) -{ - dst->i[0] = src0->i[0] == src1->i[0] ? src2->i[0] : src3->i[0]; - dst->i[1] = src0->i[1] == src1->i[1] ? src2->i[1] : src3->i[1]; - dst->i[2] = src0->i[2] == src1->i[2] ? src2->i[2] : src3->i[2]; - dst->i[3] = src0->i[3] == src1->i[3] ? src2->i[3] : src3->i[3]; -} -#endif - -static void -micro_exp2( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src) -{ -#if FAST_MATH - dst->f[0] = util_fast_exp2( src->f[0] ); - dst->f[1] = util_fast_exp2( src->f[1] ); - dst->f[2] = util_fast_exp2( src->f[2] ); - dst->f[3] = util_fast_exp2( src->f[3] ); -#else - dst->f[0] = powf( 2.0f, src->f[0] ); - dst->f[1] = powf( 2.0f, src->f[1] ); - dst->f[2] = powf( 2.0f, src->f[2] ); - dst->f[3] = powf( 2.0f, src->f[3] ); -#endif -} - -#if 0 -static void -micro_f2ut( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->u[0] = (uint) src->f[0]; - dst->u[1] = (uint) src->f[1]; - dst->u[2] = (uint) src->f[2]; - dst->u[3] = (uint) src->f[3]; -} -#endif - static void micro_float_clamp(union tgsi_exec_channel *dst, const union tgsi_exec_channel *src) @@ -642,71 +797,6 @@ micro_float_clamp(union tgsi_exec_channel *dst, } static void -micro_flr( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = floorf( src->f[0] ); - dst->f[1] = floorf( src->f[1] ); - dst->f[2] = floorf( src->f[2] ); - dst->f[3] = floorf( src->f[3] ); -} - -static void -micro_frc( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = src->f[0] - floorf( src->f[0] ); - dst->f[1] = src->f[1] - floorf( src->f[1] ); - dst->f[2] = src->f[2] - floorf( src->f[2] ); - dst->f[3] = src->f[3] - floorf( src->f[3] ); -} - -static void -micro_i2f( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = (float) src->i[0]; - dst->f[1] = (float) src->i[1]; - dst->f[2] = (float) src->i[2]; - dst->f[3] = (float) src->i[3]; -} - -static void -micro_lg2( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ -#if FAST_MATH - dst->f[0] = util_fast_log2( src->f[0] ); - dst->f[1] = util_fast_log2( src->f[1] ); - dst->f[2] = util_fast_log2( src->f[2] ); - dst->f[3] = util_fast_log2( src->f[3] ); -#else - dst->f[0] = logf( src->f[0] ) * 1.442695f; - dst->f[1] = logf( src->f[1] ) * 1.442695f; - dst->f[2] = logf( src->f[2] ) * 1.442695f; - dst->f[3] = logf( src->f[3] ) * 1.442695f; -#endif -} - -static void -micro_le( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1, - const union tgsi_exec_channel *src2, - const union tgsi_exec_channel *src3 ) -{ - dst->f[0] = src0->f[0] <= src1->f[0] ? src2->f[0] : src3->f[0]; - dst->f[1] = src0->f[1] <= src1->f[1] ? src2->f[1] : src3->f[1]; - dst->f[2] = src0->f[2] <= src1->f[2] ? src2->f[2] : src3->f[2]; - dst->f[3] = src0->f[3] <= src1->f[3] ? src2->f[3] : src3->f[3]; -} - -static void micro_lt( union tgsi_exec_channel *dst, const union tgsi_exec_channel *src0, @@ -720,38 +810,6 @@ micro_lt( dst->f[3] = src0->f[3] < src1->f[3] ? src2->f[3] : src3->f[3]; } -#if 0 -static void -micro_ilt( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1, - const union tgsi_exec_channel *src2, - const union tgsi_exec_channel *src3 ) -{ - dst->i[0] = src0->i[0] < src1->i[0] ? src2->i[0] : src3->i[0]; - dst->i[1] = src0->i[1] < src1->i[1] ? src2->i[1] : src3->i[1]; - dst->i[2] = src0->i[2] < src1->i[2] ? src2->i[2] : src3->i[2]; - dst->i[3] = src0->i[3] < src1->i[3] ? src2->i[3] : src3->i[3]; -} -#endif - -#if 0 -static void -micro_ult( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1, - const union tgsi_exec_channel *src2, - const union tgsi_exec_channel *src3 ) -{ - dst->u[0] = src0->u[0] < src1->u[0] ? src2->u[0] : src3->u[0]; - dst->u[1] = src0->u[1] < src1->u[1] ? src2->u[1] : src3->u[1]; - dst->u[2] = src0->u[2] < src1->u[2] ? src2->u[2] : src3->u[2]; - dst->u[3] = src0->u[3] < src1->u[3] ? src2->u[3] : src3->u[3]; -} -#endif - static void micro_max( union tgsi_exec_channel *dst, @@ -764,34 +822,6 @@ micro_max( dst->f[3] = src0->f[3] > src1->f[3] ? src0->f[3] : src1->f[3]; } -#if 0 -static void -micro_imax( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->i[0] = src0->i[0] > src1->i[0] ? src0->i[0] : src1->i[0]; - dst->i[1] = src0->i[1] > src1->i[1] ? src0->i[1] : src1->i[1]; - dst->i[2] = src0->i[2] > src1->i[2] ? src0->i[2] : src1->i[2]; - dst->i[3] = src0->i[3] > src1->i[3] ? src0->i[3] : src1->i[3]; -} -#endif - -#if 0 -static void -micro_umax( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->u[0] = src0->u[0] > src1->u[0] ? src0->u[0] : src1->u[0]; - dst->u[1] = src0->u[1] > src1->u[1] ? src0->u[1] : src1->u[1]; - dst->u[2] = src0->u[2] > src1->u[2] ? src0->u[2] : src1->u[2]; - dst->u[3] = src0->u[3] > src1->u[3] ? src0->u[3] : src1->u[3]; -} -#endif - static void micro_min( union tgsi_exec_channel *dst, @@ -804,48 +834,6 @@ micro_min( dst->f[3] = src0->f[3] < src1->f[3] ? src0->f[3] : src1->f[3]; } -#if 0 -static void -micro_imin( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->i[0] = src0->i[0] < src1->i[0] ? src0->i[0] : src1->i[0]; - dst->i[1] = src0->i[1] < src1->i[1] ? src0->i[1] : src1->i[1]; - dst->i[2] = src0->i[2] < src1->i[2] ? src0->i[2] : src1->i[2]; - dst->i[3] = src0->i[3] < src1->i[3] ? src0->i[3] : src1->i[3]; -} -#endif - -#if 0 -static void -micro_umin( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->u[0] = src0->u[0] < src1->u[0] ? src0->u[0] : src1->u[0]; - dst->u[1] = src0->u[1] < src1->u[1] ? src0->u[1] : src1->u[1]; - dst->u[2] = src0->u[2] < src1->u[2] ? src0->u[2] : src1->u[2]; - dst->u[3] = src0->u[3] < src1->u[3] ? src0->u[3] : src1->u[3]; -} -#endif - -#if 0 -static void -micro_umod( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->u[0] = src0->u[0] % src1->u[0]; - dst->u[1] = src0->u[1] % src1->u[1]; - dst->u[2] = src0->u[2] % src1->u[2]; - dst->u[3] = src0->u[3] % src1->u[3]; -} -#endif - static void micro_mul( union tgsi_exec_channel *dst, @@ -860,20 +848,6 @@ micro_mul( #if 0 static void -micro_imul( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->i[0] = src0->i[0] * src1->i[0]; - dst->i[1] = src0->i[1] * src1->i[1]; - dst->i[2] = src0->i[2] * src1->i[2]; - dst->i[3] = src0->i[3] * src1->i[3]; -} -#endif - -#if 0 -static void micro_imul64( union tgsi_exec_channel *dst0, union tgsi_exec_channel *dst1, @@ -937,42 +911,6 @@ micro_neg( dst->f[3] = -src->f[3]; } -#if 0 -static void -micro_ineg( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->i[0] = -src->i[0]; - dst->i[1] = -src->i[1]; - dst->i[2] = -src->i[2]; - dst->i[3] = -src->i[3]; -} -#endif - -static void -micro_not( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->u[0] = ~src->u[0]; - dst->u[1] = ~src->u[1]; - dst->u[2] = ~src->u[2]; - dst->u[3] = ~src->u[3]; -} - -static void -micro_or( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->u[0] = src0->u[0] | src1->u[0]; - dst->u[1] = src0->u[1] | src1->u[1]; - dst->u[2] = src0->u[2] | src1->u[2]; - dst->u[3] = src0->u[3] | src1->u[3]; -} - static void micro_pow( union tgsi_exec_channel *dst, @@ -993,88 +931,6 @@ micro_pow( } static void -micro_rnd( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = floorf( src->f[0] + 0.5f ); - dst->f[1] = floorf( src->f[1] + 0.5f ); - dst->f[2] = floorf( src->f[2] + 0.5f ); - dst->f[3] = floorf( src->f[3] + 0.5f ); -} - -static void -micro_sgn( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = src->f[0] < 0.0f ? -1.0f : src->f[0] > 0.0f ? 1.0f : 0.0f; - dst->f[1] = src->f[1] < 0.0f ? -1.0f : src->f[1] > 0.0f ? 1.0f : 0.0f; - dst->f[2] = src->f[2] < 0.0f ? -1.0f : src->f[2] > 0.0f ? 1.0f : 0.0f; - dst->f[3] = src->f[3] < 0.0f ? -1.0f : src->f[3] > 0.0f ? 1.0f : 0.0f; -} - -static void -micro_shl( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->i[0] = src0->i[0] << src1->i[0]; - dst->i[1] = src0->i[1] << src1->i[1]; - dst->i[2] = src0->i[2] << src1->i[2]; - dst->i[3] = src0->i[3] << src1->i[3]; -} - -static void -micro_ishr( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->i[0] = src0->i[0] >> src1->i[0]; - dst->i[1] = src0->i[1] >> src1->i[1]; - dst->i[2] = src0->i[2] >> src1->i[2]; - dst->i[3] = src0->i[3] >> src1->i[3]; -} - -static void -micro_trunc( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0 ) -{ - dst->f[0] = (float) (int) src0->f[0]; - dst->f[1] = (float) (int) src0->f[1]; - dst->f[2] = (float) (int) src0->f[2]; - dst->f[3] = (float) (int) src0->f[3]; -} - -#if 0 -static void -micro_ushr( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->u[0] = src0->u[0] >> src1->u[0]; - dst->u[1] = src0->u[1] >> src1->u[1]; - dst->u[2] = src0->u[2] >> src1->u[2]; - dst->u[3] = src0->u[3] >> src1->u[3]; -} -#endif - -static void -micro_sin( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = sinf( src->f[0] ); - dst->f[1] = sinf( src->f[1] ); - dst->f[2] = sinf( src->f[2] ); - dst->f[3] = sinf( src->f[3] ); -} - -static void micro_sqrt( union tgsi_exec_channel *dst, const union tgsi_exec_channel *src ) { @@ -1096,31 +952,6 @@ micro_sub( dst->f[3] = src0->f[3] - src1->f[3]; } -#if 0 -static void -micro_u2f( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src ) -{ - dst->f[0] = (float) src->u[0]; - dst->f[1] = (float) src->u[1]; - dst->f[2] = (float) src->u[2]; - dst->f[3] = (float) src->u[3]; -} -#endif - -static void -micro_xor( - union tgsi_exec_channel *dst, - const union tgsi_exec_channel *src0, - const union tgsi_exec_channel *src1 ) -{ - dst->u[0] = src0->u[0] ^ src1->u[0]; - dst->u[1] = src0->u[1] ^ src1->u[1]; - dst->u[2] = src0->u[2] ^ src1->u[2]; - dst->u[3] = src0->u[3] ^ src1->u[3]; -} - static void fetch_src_file_channel( const struct tgsi_exec_machine *mach, @@ -1130,10 +961,10 @@ fetch_src_file_channel( union tgsi_exec_channel *chan ) { switch( swizzle ) { - case TGSI_EXTSWIZZLE_X: - case TGSI_EXTSWIZZLE_Y: - case TGSI_EXTSWIZZLE_Z: - case TGSI_EXTSWIZZLE_W: + case TGSI_SWIZZLE_X: + case TGSI_SWIZZLE_Y: + case TGSI_SWIZZLE_Z: + case TGSI_SWIZZLE_W: switch( file ) { case TGSI_FILE_CONSTANT: assert(mach->Consts); @@ -1156,6 +987,7 @@ fetch_src_file_channel( break; case TGSI_FILE_INPUT: + case TGSI_FILE_SYSTEM_VALUE: chan->u[0] = mach->Inputs[index->i[0]].xyzw[swizzle].u[0]; chan->u[1] = mach->Inputs[index->i[1]].xyzw[swizzle].u[1]; chan->u[2] = mach->Inputs[index->i[2]].xyzw[swizzle].u[2]; @@ -1188,6 +1020,17 @@ fetch_src_file_channel( chan->u[3] = mach->Addrs[index->i[3]].xyzw[swizzle].u[3]; break; + case TGSI_FILE_PREDICATE: + assert(index->i[0] < TGSI_EXEC_NUM_PREDS); + assert(index->i[1] < TGSI_EXEC_NUM_PREDS); + assert(index->i[2] < TGSI_EXEC_NUM_PREDS); + assert(index->i[3] < TGSI_EXEC_NUM_PREDS); + chan->u[0] = mach->Predicates[0].xyzw[swizzle].u[0]; + chan->u[1] = mach->Predicates[0].xyzw[swizzle].u[1]; + chan->u[2] = mach->Predicates[0].xyzw[swizzle].u[2]; + chan->u[3] = mach->Predicates[0].xyzw[swizzle].u[3]; + break; + case TGSI_FILE_OUTPUT: /* vertex/fragment output vars can be read too */ chan->u[0] = mach->Outputs[index->i[0]].xyzw[swizzle].u[0]; @@ -1201,25 +1044,17 @@ fetch_src_file_channel( } break; - case TGSI_EXTSWIZZLE_ZERO: - *chan = mach->Temps[TEMP_0_I].xyzw[TEMP_0_C]; - break; - - case TGSI_EXTSWIZZLE_ONE: - *chan = mach->Temps[TEMP_1_I].xyzw[TEMP_1_C]; - break; - default: assert( 0 ); } } static void -fetch_source( - const struct tgsi_exec_machine *mach, - union tgsi_exec_channel *chan, - const struct tgsi_full_src_register *reg, - const uint chan_index ) +fetch_source(const struct tgsi_exec_machine *mach, + union tgsi_exec_channel *chan, + const struct tgsi_full_src_register *reg, + const uint chan_index, + enum tgsi_exec_datatype src_datatype) { union tgsi_exec_channel index; uint swizzle; @@ -1228,13 +1063,13 @@ fetch_source( * * file[1], * where: - * file = SrcRegister.File - * [1] = SrcRegister.Index + * file = Register.File + * [1] = Register.Index */ index.i[0] = index.i[1] = index.i[2] = - index.i[3] = reg->SrcRegister.Index; + index.i[3] = reg->Register.Index; /* There is an extra source register that indirectly subscripts * a register file. The direct index now becomes an offset @@ -1242,11 +1077,11 @@ fetch_source( * * file[ind[2].x+1], * where: - * ind = SrcRegisterInd.File - * [2] = SrcRegisterInd.Index - * .x = SrcRegisterInd.SwizzleX + * ind = Indirect.File + * [2] = Indirect.Index + * .x = Indirect.SwizzleX */ - if (reg->SrcRegister.Indirect) { + if (reg->Register.Indirect) { union tgsi_exec_channel index2; union tgsi_exec_channel indir_index; const uint execmask = mach->ExecMask; @@ -1256,22 +1091,22 @@ fetch_source( index2.i[0] = index2.i[1] = index2.i[2] = - index2.i[3] = reg->SrcRegisterInd.Index; + index2.i[3] = reg->Indirect.Index; /* get current value of address register[swizzle] */ - swizzle = tgsi_util_get_src_register_swizzle( ®->SrcRegisterInd, CHAN_X ); + swizzle = tgsi_util_get_src_register_swizzle( ®->Indirect, CHAN_X ); fetch_src_file_channel( mach, - reg->SrcRegisterInd.File, + reg->Indirect.File, swizzle, &index2, &indir_index ); /* add value of address register to the offset */ - index.i[0] += (int) indir_index.f[0]; - index.i[1] += (int) indir_index.f[1]; - index.i[2] += (int) indir_index.f[2]; - index.i[3] += (int) indir_index.f[3]; + index.i[0] += indir_index.i[0]; + index.i[1] += indir_index.i[1]; + index.i[2] += indir_index.i[2]; + index.i[3] += indir_index.i[3]; /* for disabled execution channels, zero-out the index to * avoid using a potential garbage value. @@ -1288,15 +1123,16 @@ fetch_source( * * file[1][3] == file[1*sizeof(file[1])+3], * where: - * [3] = SrcRegisterDim.Index + * [3] = Dimension.Index */ - if (reg->SrcRegister.Dimension) { + if (reg->Register.Dimension) { /* The size of the first-order array depends on the register file type. * We need to multiply the index to the first array to get an effective, * "flat" index that points to the beginning of the second-order array. */ - switch (reg->SrcRegister.File) { + switch (reg->Register.File) { case TGSI_FILE_INPUT: + case TGSI_FILE_SYSTEM_VALUE: index.i[0] *= TGSI_EXEC_MAX_INPUT_ATTRIBS; index.i[1] *= TGSI_EXEC_MAX_INPUT_ATTRIBS; index.i[2] *= TGSI_EXEC_MAX_INPUT_ATTRIBS; @@ -1312,10 +1148,10 @@ fetch_source( assert( 0 ); } - index.i[0] += reg->SrcRegisterDim.Index; - index.i[1] += reg->SrcRegisterDim.Index; - index.i[2] += reg->SrcRegisterDim.Index; - index.i[3] += reg->SrcRegisterDim.Index; + index.i[0] += reg->Dimension.Index; + index.i[1] += reg->Dimension.Index; + index.i[2] += reg->Dimension.Index; + index.i[3] += reg->Dimension.Index; /* Again, the second subscript index can be addressed indirectly * identically to the first one. @@ -1324,11 +1160,11 @@ fetch_source( * * file[1][ind[4].y+3], * where: - * ind = SrcRegisterDimInd.File - * [4] = SrcRegisterDimInd.Index - * .y = SrcRegisterDimInd.SwizzleX + * ind = DimIndirect.File + * [4] = DimIndirect.Index + * .y = DimIndirect.SwizzleX */ - if (reg->SrcRegisterDim.Indirect) { + if (reg->Dimension.Indirect) { union tgsi_exec_channel index2; union tgsi_exec_channel indir_index; const uint execmask = mach->ExecMask; @@ -1337,20 +1173,20 @@ fetch_source( index2.i[0] = index2.i[1] = index2.i[2] = - index2.i[3] = reg->SrcRegisterDimInd.Index; + index2.i[3] = reg->DimIndirect.Index; - swizzle = tgsi_util_get_src_register_swizzle( ®->SrcRegisterDimInd, CHAN_X ); + swizzle = tgsi_util_get_src_register_swizzle( ®->DimIndirect, CHAN_X ); fetch_src_file_channel( mach, - reg->SrcRegisterDimInd.File, + reg->DimIndirect.File, swizzle, &index2, &indir_index ); - index.i[0] += (int) indir_index.f[0]; - index.i[1] += (int) indir_index.f[1]; - index.i[2] += (int) indir_index.f[2]; - index.i[3] += (int) indir_index.f[3]; + index.i[0] += indir_index.i[0]; + index.i[1] += indir_index.i[1]; + index.i[2] += indir_index.i[2]; + index.i[3] += indir_index.i[3]; /* for disabled execution channels, zero-out the index to * avoid using a potential garbage value. @@ -1362,49 +1198,43 @@ fetch_source( } /* If by any chance there was a need for a 3D array of register - * files, we would have to check whether SrcRegisterDim is followed + * files, we would have to check whether Dimension is followed * by a dimension register and continue the saga. */ } - swizzle = tgsi_util_get_full_src_register_extswizzle( reg, chan_index ); + swizzle = tgsi_util_get_full_src_register_swizzle( reg, chan_index ); fetch_src_file_channel( mach, - reg->SrcRegister.File, + reg->Register.File, swizzle, &index, chan ); - switch (tgsi_util_get_full_src_register_sign_mode( reg, chan_index )) { - case TGSI_UTIL_SIGN_CLEAR: - micro_abs( chan, chan ); - break; - - case TGSI_UTIL_SIGN_SET: - micro_abs( chan, chan ); - micro_neg( chan, chan ); - break; - - case TGSI_UTIL_SIGN_TOGGLE: - micro_neg( chan, chan ); - break; - - case TGSI_UTIL_SIGN_KEEP: - break; + if (reg->Register.Absolute) { + if (src_datatype == TGSI_EXEC_DATA_FLOAT) { + micro_abs(chan, chan); + } else { + micro_iabs(chan, chan); + } } - if (reg->SrcRegisterExtMod.Complement) { - micro_sub( chan, &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], chan ); + if (reg->Register.Negate) { + if (src_datatype == TGSI_EXEC_DATA_FLOAT) { + micro_neg(chan, chan); + } else { + micro_ineg(chan, chan); + } } } static void -store_dest( - struct tgsi_exec_machine *mach, - const union tgsi_exec_channel *chan, - const struct tgsi_full_dst_register *reg, - const struct tgsi_full_instruction *inst, - uint chan_index ) +store_dest(struct tgsi_exec_machine *mach, + const union tgsi_exec_channel *chan, + const struct tgsi_full_dst_register *reg, + const struct tgsi_full_instruction *inst, + uint chan_index, + enum tgsi_exec_datatype dst_datatype) { uint i; union tgsi_exec_channel null; @@ -1413,9 +1243,9 @@ store_dest( int offset = 0; /* indirection offset */ int index; -#ifdef DEBUG - check_inf_or_nan(chan); -#endif + if (dst_datatype == TGSI_EXEC_DATA_FLOAT) { + CHECK_INF_OR_NAN(chan); + } /* There is an extra source register that indirectly subscripts * a register file. The direct index now becomes an offset @@ -1423,11 +1253,11 @@ store_dest( * * file[ind[2].x+1], * where: - * ind = DstRegisterInd.File - * [2] = DstRegisterInd.Index - * .x = DstRegisterInd.SwizzleX + * ind = Indirect.File + * [2] = Indirect.Index + * .x = Indirect.SwizzleX */ - if (reg->DstRegister.Indirect) { + if (reg->Register.Indirect) { union tgsi_exec_channel index; union tgsi_exec_channel indir_index; uint swizzle; @@ -1436,155 +1266,110 @@ store_dest( index.i[0] = index.i[1] = index.i[2] = - index.i[3] = reg->DstRegisterInd.Index; + index.i[3] = reg->Indirect.Index; /* get current value of address register[swizzle] */ - swizzle = tgsi_util_get_src_register_swizzle( ®->DstRegisterInd, CHAN_X ); + swizzle = tgsi_util_get_src_register_swizzle( ®->Indirect, CHAN_X ); /* fetch values from the address/indirection register */ fetch_src_file_channel( mach, - reg->DstRegisterInd.File, + reg->Indirect.File, swizzle, &index, &indir_index ); /* save indirection offset */ - offset = (int) indir_index.f[0]; + offset = indir_index.i[0]; } - switch (reg->DstRegister.File) { + switch (reg->Register.File) { case TGSI_FILE_NULL: dst = &null; break; case TGSI_FILE_OUTPUT: index = mach->Temps[TEMP_OUTPUT_I].xyzw[TEMP_OUTPUT_C].u[0] - + reg->DstRegister.Index; + + reg->Register.Index; dst = &mach->Outputs[offset + index].xyzw[chan_index]; +#if 0 + if (TGSI_PROCESSOR_GEOMETRY == mach->Processor) { + fprintf(stderr, "STORING OUT[%d] mask(%d), = (", offset + index, execmask); + for (i = 0; i < QUAD_SIZE; i++) + if (execmask & (1 << i)) + fprintf(stderr, "%f, ", chan->f[i]); + fprintf(stderr, ")\n"); + } +#endif break; case TGSI_FILE_TEMPORARY: - index = reg->DstRegister.Index; + index = reg->Register.Index; assert( index < TGSI_EXEC_NUM_TEMPS ); dst = &mach->Temps[offset + index].xyzw[chan_index]; break; case TGSI_FILE_ADDRESS: - index = reg->DstRegister.Index; + index = reg->Register.Index; dst = &mach->Addrs[index].xyzw[chan_index]; break; + case TGSI_FILE_LOOP: + assert(reg->Register.Index == 0); + assert(mach->LoopCounterStackTop > 0); + assert(chan_index == CHAN_X); + dst = &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[chan_index]; + break; + + case TGSI_FILE_PREDICATE: + index = reg->Register.Index; + assert(index < TGSI_EXEC_NUM_PREDS); + dst = &mach->Predicates[index].xyzw[chan_index]; + break; + default: assert( 0 ); return; } - if (inst->InstructionExtNv.CondFlowEnable) { - union tgsi_exec_channel *cc = &mach->Temps[TEMP_CC_I].xyzw[TEMP_CC_C]; + if (inst->Instruction.Predicate) { uint swizzle; - uint shift; - uint mask; - uint test; - - /* Only CC0 supported. - */ - assert( inst->InstructionExtNv.CondFlowIndex < 1 ); + union tgsi_exec_channel *pred; switch (chan_index) { case CHAN_X: - swizzle = inst->InstructionExtNv.CondSwizzleX; + swizzle = inst->Predicate.SwizzleX; break; case CHAN_Y: - swizzle = inst->InstructionExtNv.CondSwizzleY; + swizzle = inst->Predicate.SwizzleY; break; case CHAN_Z: - swizzle = inst->InstructionExtNv.CondSwizzleZ; + swizzle = inst->Predicate.SwizzleZ; break; case CHAN_W: - swizzle = inst->InstructionExtNv.CondSwizzleW; + swizzle = inst->Predicate.SwizzleW; break; default: - assert( 0 ); + assert(0); return; } - switch (swizzle) { - case TGSI_SWIZZLE_X: - shift = TGSI_EXEC_CC_X_SHIFT; - mask = TGSI_EXEC_CC_X_MASK; - break; - case TGSI_SWIZZLE_Y: - shift = TGSI_EXEC_CC_Y_SHIFT; - mask = TGSI_EXEC_CC_Y_MASK; - break; - case TGSI_SWIZZLE_Z: - shift = TGSI_EXEC_CC_Z_SHIFT; - mask = TGSI_EXEC_CC_Z_MASK; - break; - case TGSI_SWIZZLE_W: - shift = TGSI_EXEC_CC_W_SHIFT; - mask = TGSI_EXEC_CC_W_MASK; - break; - default: - assert( 0 ); - return; - } + assert(inst->Predicate.Index == 0); - switch (inst->InstructionExtNv.CondMask) { - case TGSI_CC_GT: - test = ~(TGSI_EXEC_CC_GT << shift) & mask; - for (i = 0; i < QUAD_SIZE; i++) - if (cc->u[i] & test) - execmask &= ~(1 << i); - break; + pred = &mach->Predicates[inst->Predicate.Index].xyzw[swizzle]; - case TGSI_CC_EQ: - test = ~(TGSI_EXEC_CC_EQ << shift) & mask; - for (i = 0; i < QUAD_SIZE; i++) - if (cc->u[i] & test) - execmask &= ~(1 << i); - break; - - case TGSI_CC_LT: - test = ~(TGSI_EXEC_CC_LT << shift) & mask; - for (i = 0; i < QUAD_SIZE; i++) - if (cc->u[i] & test) - execmask &= ~(1 << i); - break; - - case TGSI_CC_GE: - test = ~((TGSI_EXEC_CC_GT | TGSI_EXEC_CC_EQ) << shift) & mask; - for (i = 0; i < QUAD_SIZE; i++) - if (cc->u[i] & test) - execmask &= ~(1 << i); - break; - - case TGSI_CC_LE: - test = ~((TGSI_EXEC_CC_LT | TGSI_EXEC_CC_EQ) << shift) & mask; - for (i = 0; i < QUAD_SIZE; i++) - if (cc->u[i] & test) + if (inst->Predicate.Negate) { + for (i = 0; i < QUAD_SIZE; i++) { + if (pred->u[i]) { execmask &= ~(1 << i); - break; - - case TGSI_CC_NE: - test = ~((TGSI_EXEC_CC_GT | TGSI_EXEC_CC_LT | TGSI_EXEC_CC_UN) << shift) & mask; - for (i = 0; i < QUAD_SIZE; i++) - if (cc->u[i] & test) + } + } + } else { + for (i = 0; i < QUAD_SIZE; i++) { + if (!pred->u[i]) { execmask &= ~(1 << i); - break; - - case TGSI_CC_TR: - break; - - case TGSI_CC_FL: - for (i = 0; i < QUAD_SIZE; i++) - execmask &= ~(1 << i); - break; - - default: - assert( 0 ); - return; + } + } } } @@ -1622,58 +1407,13 @@ store_dest( default: assert( 0 ); } - - if (inst->InstructionExtNv.CondDstUpdate) { - union tgsi_exec_channel *cc = &mach->Temps[TEMP_CC_I].xyzw[TEMP_CC_C]; - uint shift; - uint mask; - - /* Only CC0 supported. - */ - assert( inst->InstructionExtNv.CondDstIndex < 1 ); - - switch (chan_index) { - case CHAN_X: - shift = TGSI_EXEC_CC_X_SHIFT; - mask = ~TGSI_EXEC_CC_X_MASK; - break; - case CHAN_Y: - shift = TGSI_EXEC_CC_Y_SHIFT; - mask = ~TGSI_EXEC_CC_Y_MASK; - break; - case CHAN_Z: - shift = TGSI_EXEC_CC_Z_SHIFT; - mask = ~TGSI_EXEC_CC_Z_MASK; - break; - case CHAN_W: - shift = TGSI_EXEC_CC_W_SHIFT; - mask = ~TGSI_EXEC_CC_W_MASK; - break; - default: - assert( 0 ); - return; - } - - for (i = 0; i < QUAD_SIZE; i++) - if (execmask & (1 << i)) { - cc->u[i] &= mask; - if (dst->f[i] < 0.0f) - cc->u[i] |= TGSI_EXEC_CC_LT << shift; - else if (dst->f[i] > 0.0f) - cc->u[i] |= TGSI_EXEC_CC_GT << shift; - else if (dst->f[i] == 0.0f) - cc->u[i] |= TGSI_EXEC_CC_EQ << shift; - else - cc->u[i] |= TGSI_EXEC_CC_UN << shift; - } - } } #define FETCH(VAL,INDEX,CHAN)\ - fetch_source (mach, VAL, &inst->FullSrcRegisters[INDEX], CHAN) + fetch_source(mach, VAL, &inst->Src[INDEX], CHAN, TGSI_EXEC_DATA_FLOAT) #define STORE(VAL,INDEX,CHAN)\ - store_dest (mach, VAL, &inst->FullDstRegisters[INDEX], inst, CHAN ) + store_dest(mach, VAL, &inst->Dst[INDEX], inst, CHAN, TGSI_EXEC_DATA_FLOAT) /** @@ -1689,10 +1429,8 @@ exec_kil(struct tgsi_exec_machine *mach, uint kilmask = 0; /* bit 0 = pixel 0, bit 1 = pixel 1, etc */ union tgsi_exec_channel r[1]; - /* This mask stores component bits that were already tested. Note that - * we test if the value is less than zero, so 1.0 and 0.0 need not to be - * tested. */ - uniquemask = (1 << TGSI_EXTSWIZZLE_ZERO) | (1 << TGSI_EXTSWIZZLE_ONE); + /* This mask stores component bits that were already tested. */ + uniquemask = 0; for (chan_index = 0; chan_index < 4; chan_index++) { @@ -1700,8 +1438,8 @@ exec_kil(struct tgsi_exec_machine *mach, uint i; /* unswizzle channel */ - swizzle = tgsi_util_get_full_src_register_extswizzle ( - &inst->FullSrcRegisters[0], + swizzle = tgsi_util_get_full_src_register_swizzle ( + &inst->Src[0], chan_index); /* check if the component has not been already tested */ @@ -1728,35 +1466,40 @@ exec_kilp(struct tgsi_exec_machine *mach, { uint kilmask; /* bit 0 = pixel 0, bit 1 = pixel 1, etc */ - if (inst->InstructionExtNv.CondFlowEnable) { - uint swizzle[4]; - uint chan_index; - - kilmask = 0x0; - - swizzle[0] = inst->InstructionExtNv.CondSwizzleX; - swizzle[1] = inst->InstructionExtNv.CondSwizzleY; - swizzle[2] = inst->InstructionExtNv.CondSwizzleZ; - swizzle[3] = inst->InstructionExtNv.CondSwizzleW; - - for (chan_index = 0; chan_index < 4; chan_index++) - { - uint i; + /* "unconditional" kil */ + kilmask = mach->ExecMask; + mach->Temps[TEMP_KILMASK_I].xyzw[TEMP_KILMASK_C].u[0] |= kilmask; +} - for (i = 0; i < 4; i++) { - /* TODO: evaluate the condition code */ - if (0) - kilmask |= 1 << i; - } - } - } - else { - /* "unconditional" kil */ - kilmask = mach->ExecMask; +static void +emit_vertex(struct tgsi_exec_machine *mach) +{ + /* FIXME: check for exec mask correctly + unsigned i; + for (i = 0; i < QUAD_SIZE; ++i) { + if ((mach->ExecMask & (1 << i))) + */ + if (mach->ExecMask) { + mach->Temps[TEMP_OUTPUT_I].xyzw[TEMP_OUTPUT_C].u[0] += mach->NumOutputs; + mach->Primitives[mach->Temps[TEMP_PRIMITIVE_I].xyzw[TEMP_PRIMITIVE_C].u[0]]++; } - mach->Temps[TEMP_KILMASK_I].xyzw[TEMP_KILMASK_C].u[0] |= kilmask; } +static void +emit_primitive(struct tgsi_exec_machine *mach) +{ + unsigned *prim_count = &mach->Temps[TEMP_PRIMITIVE_I].xyzw[TEMP_PRIMITIVE_C].u[0]; + /* FIXME: check for exec mask correctly + unsigned i; + for (i = 0; i < QUAD_SIZE; ++i) { + if ((mach->ExecMask & (1 << i))) + */ + if (mach->ExecMask) { + ++(*prim_count); + debug_assert((*prim_count * mach->NumOutputs) < mach->MaxGeometryShaderOutputs); + mach->Primitives[*prim_count] = 0; + } +} /* * Fetch a four texture samples using STR texture coordinates. @@ -1766,7 +1509,8 @@ fetch_texel( struct tgsi_sampler *sampler, const union tgsi_exec_channel *s, const union tgsi_exec_channel *t, const union tgsi_exec_channel *p, - float lodbias, /* XXX should be float[4] */ + const union tgsi_exec_channel *c0, + enum tgsi_sampler_control control, union tgsi_exec_channel *r, union tgsi_exec_channel *g, union tgsi_exec_channel *b, @@ -1775,7 +1519,7 @@ fetch_texel( struct tgsi_sampler *sampler, uint j; float rgba[NUM_CHANNELS][QUAD_SIZE]; - sampler->get_samples(sampler, s->f, t->f, p->f, lodbias, rgba); + sampler->get_samples(sampler, s->f, t->f, p->f, c0->f, control, rgba); for (j = 0; j < 4; j++) { r->f[j] = rgba[0][j]; @@ -1786,102 +1530,156 @@ fetch_texel( struct tgsi_sampler *sampler, } +#define TEX_MODIFIER_NONE 0 +#define TEX_MODIFIER_PROJECTED 1 +#define TEX_MODIFIER_LOD_BIAS 2 +#define TEX_MODIFIER_EXPLICIT_LOD 3 + + static void exec_tex(struct tgsi_exec_machine *mach, const struct tgsi_full_instruction *inst, - boolean biasLod, - boolean projected) + uint modifier) { - const uint unit = inst->FullSrcRegisters[1].SrcRegister.Index; + const uint unit = inst->Src[1].Register.Index; union tgsi_exec_channel r[4]; + const union tgsi_exec_channel *lod = &ZeroVec; + enum tgsi_sampler_control control; uint chan_index; - float lodBias; - /* debug_printf("Sampler %u unit %u\n", sampler, unit); */ + if (modifier != TEX_MODIFIER_NONE) { + FETCH(&r[3], 0, CHAN_W); + if (modifier != TEX_MODIFIER_PROJECTED) { + lod = &r[3]; + } + } + + if (modifier == TEX_MODIFIER_EXPLICIT_LOD) { + control = tgsi_sampler_lod_explicit; + } else { + control = tgsi_sampler_lod_bias; + } - switch (inst->InstructionExtTexture.Texture) { + switch (inst->Texture.Texture) { case TGSI_TEXTURE_1D: case TGSI_TEXTURE_SHADOW1D: - FETCH(&r[0], 0, CHAN_X); - if (projected) { - FETCH(&r[1], 0, CHAN_W); - micro_div( &r[0], &r[0], &r[1] ); - } - - if (biasLod) { - FETCH(&r[1], 0, CHAN_W); - lodBias = r[2].f[0]; + if (modifier == TEX_MODIFIER_PROJECTED) { + micro_div(&r[0], &r[0], &r[3]); } - else - lodBias = 0.0; fetch_texel(mach->Samplers[unit], - &r[0], &ZeroVec, &ZeroVec, lodBias, /* S, T, P, BIAS */ - &r[0], &r[1], &r[2], &r[3]); /* R, G, B, A */ + &r[0], &ZeroVec, &ZeroVec, lod, /* S, T, P, LOD */ + control, + &r[0], &r[1], &r[2], &r[3]); /* R, G, B, A */ break; case TGSI_TEXTURE_2D: case TGSI_TEXTURE_RECT: case TGSI_TEXTURE_SHADOW2D: case TGSI_TEXTURE_SHADOWRECT: - FETCH(&r[0], 0, CHAN_X); FETCH(&r[1], 0, CHAN_Y); FETCH(&r[2], 0, CHAN_Z); - if (projected) { - FETCH(&r[3], 0, CHAN_W); - micro_div( &r[0], &r[0], &r[3] ); - micro_div( &r[1], &r[1], &r[3] ); - micro_div( &r[2], &r[2], &r[3] ); - } - - if (biasLod) { - FETCH(&r[3], 0, CHAN_W); - lodBias = r[3].f[0]; + if (modifier == TEX_MODIFIER_PROJECTED) { + micro_div(&r[0], &r[0], &r[3]); + micro_div(&r[1], &r[1], &r[3]); + micro_div(&r[2], &r[2], &r[3]); } - else - lodBias = 0.0; fetch_texel(mach->Samplers[unit], - &r[0], &r[1], &r[2], lodBias, /* inputs */ + &r[0], &r[1], &r[2], lod, /* S, T, P, LOD */ + control, &r[0], &r[1], &r[2], &r[3]); /* outputs */ break; case TGSI_TEXTURE_3D: case TGSI_TEXTURE_CUBE: - FETCH(&r[0], 0, CHAN_X); FETCH(&r[1], 0, CHAN_Y); FETCH(&r[2], 0, CHAN_Z); - if (projected) { - FETCH(&r[3], 0, CHAN_W); - micro_div( &r[0], &r[0], &r[3] ); - micro_div( &r[1], &r[1], &r[3] ); - micro_div( &r[2], &r[2], &r[3] ); + if (modifier == TEX_MODIFIER_PROJECTED) { + micro_div(&r[0], &r[0], &r[3]); + micro_div(&r[1], &r[1], &r[3]); + micro_div(&r[2], &r[2], &r[3]); } - if (biasLod) { - FETCH(&r[3], 0, CHAN_W); - lodBias = r[3].f[0]; - } - else - lodBias = 0.0; + fetch_texel(mach->Samplers[unit], + &r[0], &r[1], &r[2], lod, + control, + &r[0], &r[1], &r[2], &r[3]); + break; + + default: + assert(0); + } + + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&r[chan_index], 0, chan_index); + } +} + +static void +exec_txd(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst) +{ + const uint unit = inst->Src[3].Register.Index; + union tgsi_exec_channel r[4]; + uint chan_index; + + /* + * XXX: This is fake TXD -- the derivatives are not taken into account, yet. + */ + + switch (inst->Texture.Texture) { + case TGSI_TEXTURE_1D: + case TGSI_TEXTURE_SHADOW1D: + + FETCH(&r[0], 0, CHAN_X); + + fetch_texel(mach->Samplers[unit], + &r[0], &ZeroVec, &ZeroVec, &ZeroVec, /* S, T, P, BIAS */ + tgsi_sampler_lod_bias, + &r[0], &r[1], &r[2], &r[3]); /* R, G, B, A */ + break; + + case TGSI_TEXTURE_2D: + case TGSI_TEXTURE_RECT: + case TGSI_TEXTURE_SHADOW2D: + case TGSI_TEXTURE_SHADOWRECT: + + FETCH(&r[0], 0, CHAN_X); + FETCH(&r[1], 0, CHAN_Y); + FETCH(&r[2], 0, CHAN_Z); fetch_texel(mach->Samplers[unit], - &r[0], &r[1], &r[2], lodBias, + &r[0], &r[1], &r[2], &ZeroVec, /* inputs */ + tgsi_sampler_lod_bias, + &r[0], &r[1], &r[2], &r[3]); /* outputs */ + break; + + case TGSI_TEXTURE_3D: + case TGSI_TEXTURE_CUBE: + + FETCH(&r[0], 0, CHAN_X); + FETCH(&r[1], 0, CHAN_Y); + FETCH(&r[2], 0, CHAN_Z); + + fetch_texel(mach->Samplers[unit], + &r[0], &r[1], &r[2], &ZeroVec, + tgsi_sampler_lod_bias, &r[0], &r[1], &r[2], &r[3]); break; default: - assert (0); + assert(0); } - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[chan_index], 0, chan_index ); + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&r[chan_index], 0, chan_index); } } @@ -1954,53 +1752,59 @@ typedef void (* eval_coef_func)( unsigned chan ); static void -exec_declaration( - struct tgsi_exec_machine *mach, - const struct tgsi_full_declaration *decl ) +exec_declaration(struct tgsi_exec_machine *mach, + const struct tgsi_full_declaration *decl) { - if( mach->Processor == TGSI_PROCESSOR_FRAGMENT ) { - if( decl->Declaration.File == TGSI_FILE_INPUT ) { - unsigned first, last, mask; - eval_coef_func eval; + if (mach->Processor == TGSI_PROCESSOR_FRAGMENT) { + if (decl->Declaration.File == TGSI_FILE_INPUT || + decl->Declaration.File == TGSI_FILE_SYSTEM_VALUE) { + uint first, last, mask; - first = decl->DeclarationRange.First; - last = decl->DeclarationRange.Last; + first = decl->Range.First; + last = decl->Range.Last; mask = decl->Declaration.UsageMask; - switch( decl->Declaration.Interpolate ) { - case TGSI_INTERPOLATE_CONSTANT: - eval = eval_constant_coef; - break; - - case TGSI_INTERPOLATE_LINEAR: - eval = eval_linear_coef; - break; + if (decl->Semantic.Name == TGSI_SEMANTIC_POSITION) { + assert(decl->Semantic.Index == 0); + assert(first == last); + assert(mask == TGSI_WRITEMASK_XYZW); - case TGSI_INTERPOLATE_PERSPECTIVE: - eval = eval_perspective_coef; - break; + mach->Inputs[first] = mach->QuadPos; + } else if (decl->Semantic.Name == TGSI_SEMANTIC_FACE) { + uint i; - default: - eval = NULL; - assert( 0 ); - } + assert(decl->Semantic.Index == 0); + assert(first == last); - if( mask == TGSI_WRITEMASK_XYZW ) { - unsigned i, j; - - for( i = first; i <= last; i++ ) { - for( j = 0; j < NUM_CHANNELS; j++ ) { - eval( mach, i, j ); - } + for (i = 0; i < QUAD_SIZE; i++) { + mach->Inputs[first].xyzw[0].f[i] = mach->Face; + } + } else { + eval_coef_func eval; + uint i, j; + + switch (decl->Declaration.Interpolate) { + case TGSI_INTERPOLATE_CONSTANT: + eval = eval_constant_coef; + break; + + case TGSI_INTERPOLATE_LINEAR: + eval = eval_linear_coef; + break; + + case TGSI_INTERPOLATE_PERSPECTIVE: + eval = eval_perspective_coef; + break; + + default: + assert(0); + return; } - } - else { - unsigned i, j; - for( j = 0; j < NUM_CHANNELS; j++ ) { - if( mask & (1 << j) ) { - for( i = first; i <= last; i++ ) { - eval( mach, i, j ); + for (j = 0; j < NUM_CHANNELS; j++) { + if (mask & (1 << j)) { + for (i = first; i <= last; i++) { + eval(mach, i, j); } } } @@ -2009,6 +1813,585 @@ exec_declaration( } } +typedef void (* micro_op)(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src); + +static void +exec_scalar_unary(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst, + micro_op op, + enum tgsi_exec_datatype dst_datatype, + enum tgsi_exec_datatype src_datatype) +{ + unsigned int chan; + union tgsi_exec_channel src; + union tgsi_exec_channel dst; + + fetch_source(mach, &src, &inst->Src[0], CHAN_X, src_datatype); + op(&dst, &src); + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &dst, &inst->Dst[0], inst, chan, dst_datatype); + } + } +} + +static void +exec_vector_unary(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst, + micro_op op, + enum tgsi_exec_datatype dst_datatype, + enum tgsi_exec_datatype src_datatype) +{ + unsigned int chan; + struct tgsi_exec_vector dst; + + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + union tgsi_exec_channel src; + + fetch_source(mach, &src, &inst->Src[0], chan, src_datatype); + op(&dst.xyzw[chan], &src); + } + } + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &dst.xyzw[chan], &inst->Dst[0], inst, chan, dst_datatype); + } + } +} + +static void +exec_vector_binary(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst, + micro_op op, + enum tgsi_exec_datatype dst_datatype, + enum tgsi_exec_datatype src_datatype) +{ + unsigned int chan; + struct tgsi_exec_vector dst; + + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + union tgsi_exec_channel src[2]; + + fetch_source(mach, &src[0], &inst->Src[0], chan, src_datatype); + fetch_source(mach, &src[1], &inst->Src[1], chan, src_datatype); + op(&dst.xyzw[chan], src); + } + } + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &dst.xyzw[chan], &inst->Dst[0], inst, chan, dst_datatype); + } + } +} + +static void +exec_vector_trinary(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst, + micro_op op, + enum tgsi_exec_datatype dst_datatype, + enum tgsi_exec_datatype src_datatype) +{ + unsigned int chan; + struct tgsi_exec_vector dst; + + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + union tgsi_exec_channel src[3]; + + fetch_source(mach, &src[0], &inst->Src[0], chan, src_datatype); + fetch_source(mach, &src[1], &inst->Src[1], chan, src_datatype); + fetch_source(mach, &src[2], &inst->Src[2], chan, src_datatype); + op(&dst.xyzw[chan], src); + } + } + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &dst.xyzw[chan], &inst->Dst[0], inst, chan, dst_datatype); + } + } +} + +static void +exec_dp3(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst) +{ + unsigned int chan; + union tgsi_exec_channel arg[3]; + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_X, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_X, TGSI_EXEC_DATA_FLOAT); + micro_mul(&arg[2], &arg[0], &arg[1]); + + for (chan = CHAN_Y; chan <= CHAN_Z; chan++) { + fetch_source(mach, &arg[0], &inst->Src[0], chan, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], chan, TGSI_EXEC_DATA_FLOAT); + micro_mad(&arg[2], arg); + } + + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &arg[2], &inst->Dst[0], inst, chan, TGSI_EXEC_DATA_FLOAT); + } + } +} + +static void +exec_dp4(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst) +{ + unsigned int chan; + union tgsi_exec_channel arg[3]; + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_X, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_X, TGSI_EXEC_DATA_FLOAT); + micro_mul(&arg[2], &arg[0], &arg[1]); + + for (chan = CHAN_Y; chan <= CHAN_W; chan++) { + fetch_source(mach, &arg[0], &inst->Src[0], chan, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], chan, TGSI_EXEC_DATA_FLOAT); + micro_mad(&arg[2], arg); + } + + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &arg[2], &inst->Dst[0], inst, chan, TGSI_EXEC_DATA_FLOAT); + } + } +} + +static void +exec_dp2a(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst) +{ + unsigned int chan; + union tgsi_exec_channel arg[3]; + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_X, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_X, TGSI_EXEC_DATA_FLOAT); + micro_mul(&arg[2], &arg[0], &arg[1]); + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_Y, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_Y, TGSI_EXEC_DATA_FLOAT); + micro_mad(&arg[0], arg); + + fetch_source(mach, &arg[1], &inst->Src[2], CHAN_X, TGSI_EXEC_DATA_FLOAT); + micro_add(&arg[0], &arg[0], &arg[1]); + + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &arg[0], &inst->Dst[0], inst, chan, TGSI_EXEC_DATA_FLOAT); + } + } +} + +static void +exec_dph(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst) +{ + unsigned int chan; + union tgsi_exec_channel arg[3]; + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_X, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_X, TGSI_EXEC_DATA_FLOAT); + micro_mul(&arg[2], &arg[0], &arg[1]); + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_Y, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_Y, TGSI_EXEC_DATA_FLOAT); + micro_mad(&arg[2], arg); + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_Z, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_Z, TGSI_EXEC_DATA_FLOAT); + micro_mad(&arg[0], arg); + + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_W, TGSI_EXEC_DATA_FLOAT); + micro_add(&arg[0], &arg[0], &arg[1]); + + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &arg[0], &inst->Dst[0], inst, chan, TGSI_EXEC_DATA_FLOAT); + } + } +} + +static void +exec_dp2(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst) +{ + unsigned int chan; + union tgsi_exec_channel arg[3]; + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_X, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_X, TGSI_EXEC_DATA_FLOAT); + micro_mul(&arg[2], &arg[0], &arg[1]); + + fetch_source(mach, &arg[0], &inst->Src[0], CHAN_Y, TGSI_EXEC_DATA_FLOAT); + fetch_source(mach, &arg[1], &inst->Src[1], CHAN_Y, TGSI_EXEC_DATA_FLOAT); + micro_mad(&arg[2], arg); + + for (chan = 0; chan < NUM_CHANNELS; chan++) { + if (inst->Dst[0].Register.WriteMask & (1 << chan)) { + store_dest(mach, &arg[2], &inst->Dst[0], inst, chan, TGSI_EXEC_DATA_FLOAT); + } + } +} + +static void +exec_break(struct tgsi_exec_machine *mach) +{ + if (mach->BreakType == TGSI_EXEC_BREAK_INSIDE_LOOP) { + /* turn off loop channels for each enabled exec channel */ + mach->LoopMask &= ~mach->ExecMask; + /* Todo: if mach->LoopMask == 0, jump to end of loop */ + UPDATE_EXEC_MASK(mach); + } else { + assert(mach->BreakType == TGSI_EXEC_BREAK_INSIDE_SWITCH); + + mach->Switch.mask = 0x0; + + UPDATE_EXEC_MASK(mach); + } +} + +static void +exec_switch(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst) +{ + assert(mach->SwitchStackTop < TGSI_EXEC_MAX_SWITCH_NESTING); + assert(mach->BreakStackTop < TGSI_EXEC_MAX_BREAK_STACK); + + mach->SwitchStack[mach->SwitchStackTop++] = mach->Switch; + fetch_source(mach, &mach->Switch.selector, &inst->Src[0], CHAN_X, TGSI_EXEC_DATA_UINT); + mach->Switch.mask = 0x0; + mach->Switch.defaultMask = 0x0; + + mach->BreakStack[mach->BreakStackTop++] = mach->BreakType; + mach->BreakType = TGSI_EXEC_BREAK_INSIDE_SWITCH; + + UPDATE_EXEC_MASK(mach); +} + +static void +exec_case(struct tgsi_exec_machine *mach, + const struct tgsi_full_instruction *inst) +{ + uint prevMask = mach->SwitchStack[mach->SwitchStackTop - 1].mask; + union tgsi_exec_channel src; + uint mask = 0; + + fetch_source(mach, &src, &inst->Src[0], CHAN_X, TGSI_EXEC_DATA_UINT); + + if (mach->Switch.selector.u[0] == src.u[0]) { + mask |= 0x1; + } + if (mach->Switch.selector.u[1] == src.u[1]) { + mask |= 0x2; + } + if (mach->Switch.selector.u[2] == src.u[2]) { + mask |= 0x4; + } + if (mach->Switch.selector.u[3] == src.u[3]) { + mask |= 0x8; + } + + mach->Switch.defaultMask |= mask; + + mach->Switch.mask |= mask & prevMask; + + UPDATE_EXEC_MASK(mach); +} + +static void +exec_default(struct tgsi_exec_machine *mach) +{ + uint prevMask = mach->SwitchStack[mach->SwitchStackTop - 1].mask; + + mach->Switch.mask |= ~mach->Switch.defaultMask & prevMask; + + UPDATE_EXEC_MASK(mach); +} + +static void +exec_endswitch(struct tgsi_exec_machine *mach) +{ + mach->Switch = mach->SwitchStack[--mach->SwitchStackTop]; + mach->BreakType = mach->BreakStack[--mach->BreakStackTop]; + + UPDATE_EXEC_MASK(mach); +} + +static void +micro_i2f(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = (float)src->i[0]; + dst->f[1] = (float)src->i[1]; + dst->f[2] = (float)src->i[2]; + dst->f[3] = (float)src->i[3]; +} + +static void +micro_not(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = ~src->u[0]; + dst->u[1] = ~src->u[1]; + dst->u[2] = ~src->u[2]; + dst->u[3] = ~src->u[3]; +} + +static void +micro_shl(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] << src[1].u[0]; + dst->u[1] = src[0].u[1] << src[1].u[1]; + dst->u[2] = src[0].u[2] << src[1].u[2]; + dst->u[3] = src[0].u[3] << src[1].u[3]; +} + +static void +micro_and(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] & src[1].u[0]; + dst->u[1] = src[0].u[1] & src[1].u[1]; + dst->u[2] = src[0].u[2] & src[1].u[2]; + dst->u[3] = src[0].u[3] & src[1].u[3]; +} + +static void +micro_or(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] | src[1].u[0]; + dst->u[1] = src[0].u[1] | src[1].u[1]; + dst->u[2] = src[0].u[2] | src[1].u[2]; + dst->u[3] = src[0].u[3] | src[1].u[3]; +} + +static void +micro_xor(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] ^ src[1].u[0]; + dst->u[1] = src[0].u[1] ^ src[1].u[1]; + dst->u[2] = src[0].u[2] ^ src[1].u[2]; + dst->u[3] = src[0].u[3] ^ src[1].u[3]; +} + +static void +micro_f2i(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = (int)src->f[0]; + dst->i[1] = (int)src->f[1]; + dst->i[2] = (int)src->f[2]; + dst->i[3] = (int)src->f[3]; +} + +static void +micro_idiv(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = src[0].i[0] / src[1].i[0]; + dst->i[1] = src[0].i[1] / src[1].i[1]; + dst->i[2] = src[0].i[2] / src[1].i[2]; + dst->i[3] = src[0].i[3] / src[1].i[3]; +} + +static void +micro_imax(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = src[0].i[0] > src[1].i[0] ? src[0].i[0] : src[1].i[0]; + dst->i[1] = src[0].i[1] > src[1].i[1] ? src[0].i[1] : src[1].i[1]; + dst->i[2] = src[0].i[2] > src[1].i[2] ? src[0].i[2] : src[1].i[2]; + dst->i[3] = src[0].i[3] > src[1].i[3] ? src[0].i[3] : src[1].i[3]; +} + +static void +micro_imin(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = src[0].i[0] < src[1].i[0] ? src[0].i[0] : src[1].i[0]; + dst->i[1] = src[0].i[1] < src[1].i[1] ? src[0].i[1] : src[1].i[1]; + dst->i[2] = src[0].i[2] < src[1].i[2] ? src[0].i[2] : src[1].i[2]; + dst->i[3] = src[0].i[3] < src[1].i[3] ? src[0].i[3] : src[1].i[3]; +} + +static void +micro_isge(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = src[0].i[0] >= src[1].i[0] ? -1 : 0; + dst->i[1] = src[0].i[1] >= src[1].i[1] ? -1 : 0; + dst->i[2] = src[0].i[2] >= src[1].i[2] ? -1 : 0; + dst->i[3] = src[0].i[3] >= src[1].i[3] ? -1 : 0; +} + +static void +micro_ishr(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = src[0].i[0] >> src[1].i[0]; + dst->i[1] = src[0].i[1] >> src[1].i[1]; + dst->i[2] = src[0].i[2] >> src[1].i[2]; + dst->i[3] = src[0].i[3] >> src[1].i[3]; +} + +static void +micro_islt(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->i[0] = src[0].i[0] < src[1].i[0] ? -1 : 0; + dst->i[1] = src[0].i[1] < src[1].i[1] ? -1 : 0; + dst->i[2] = src[0].i[2] < src[1].i[2] ? -1 : 0; + dst->i[3] = src[0].i[3] < src[1].i[3] ? -1 : 0; +} + +static void +micro_f2u(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = (uint)src->f[0]; + dst->u[1] = (uint)src->f[1]; + dst->u[2] = (uint)src->f[2]; + dst->u[3] = (uint)src->f[3]; +} + +static void +micro_u2f(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->f[0] = (float)src->u[0]; + dst->f[1] = (float)src->u[1]; + dst->f[2] = (float)src->u[2]; + dst->f[3] = (float)src->u[3]; +} + +static void +micro_uadd(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] + src[1].u[0]; + dst->u[1] = src[0].u[1] + src[1].u[1]; + dst->u[2] = src[0].u[2] + src[1].u[2]; + dst->u[3] = src[0].u[3] + src[1].u[3]; +} + +static void +micro_udiv(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] / src[1].u[0]; + dst->u[1] = src[0].u[1] / src[1].u[1]; + dst->u[2] = src[0].u[2] / src[1].u[2]; + dst->u[3] = src[0].u[3] / src[1].u[3]; +} + +static void +micro_umad(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] * src[1].u[0] + src[2].u[0]; + dst->u[1] = src[0].u[1] * src[1].u[1] + src[2].u[1]; + dst->u[2] = src[0].u[2] * src[1].u[2] + src[2].u[2]; + dst->u[3] = src[0].u[3] * src[1].u[3] + src[2].u[3]; +} + +static void +micro_umax(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] > src[1].u[0] ? src[0].u[0] : src[1].u[0]; + dst->u[1] = src[0].u[1] > src[1].u[1] ? src[0].u[1] : src[1].u[1]; + dst->u[2] = src[0].u[2] > src[1].u[2] ? src[0].u[2] : src[1].u[2]; + dst->u[3] = src[0].u[3] > src[1].u[3] ? src[0].u[3] : src[1].u[3]; +} + +static void +micro_umin(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] < src[1].u[0] ? src[0].u[0] : src[1].u[0]; + dst->u[1] = src[0].u[1] < src[1].u[1] ? src[0].u[1] : src[1].u[1]; + dst->u[2] = src[0].u[2] < src[1].u[2] ? src[0].u[2] : src[1].u[2]; + dst->u[3] = src[0].u[3] < src[1].u[3] ? src[0].u[3] : src[1].u[3]; +} + +static void +micro_umod(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] % src[1].u[0]; + dst->u[1] = src[0].u[1] % src[1].u[1]; + dst->u[2] = src[0].u[2] % src[1].u[2]; + dst->u[3] = src[0].u[3] % src[1].u[3]; +} + +static void +micro_umul(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] * src[1].u[0]; + dst->u[1] = src[0].u[1] * src[1].u[1]; + dst->u[2] = src[0].u[2] * src[1].u[2]; + dst->u[3] = src[0].u[3] * src[1].u[3]; +} + +static void +micro_useq(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] == src[1].u[0] ? ~0 : 0; + dst->u[1] = src[0].u[1] == src[1].u[1] ? ~0 : 0; + dst->u[2] = src[0].u[2] == src[1].u[2] ? ~0 : 0; + dst->u[3] = src[0].u[3] == src[1].u[3] ? ~0 : 0; +} + +static void +micro_usge(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] >= src[1].u[0] ? ~0 : 0; + dst->u[1] = src[0].u[1] >= src[1].u[1] ? ~0 : 0; + dst->u[2] = src[0].u[2] >= src[1].u[2] ? ~0 : 0; + dst->u[3] = src[0].u[3] >= src[1].u[3] ? ~0 : 0; +} + +static void +micro_ushr(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] >> src[1].u[0]; + dst->u[1] = src[0].u[1] >> src[1].u[1]; + dst->u[2] = src[0].u[2] >> src[1].u[2]; + dst->u[3] = src[0].u[3] >> src[1].u[3]; +} + +static void +micro_uslt(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] < src[1].u[0] ? ~0 : 0; + dst->u[1] = src[0].u[1] < src[1].u[1] ? ~0 : 0; + dst->u[2] = src[0].u[2] < src[1].u[2] ? ~0 : 0; + dst->u[3] = src[0].u[3] < src[1].u[3] ? ~0 : 0; +} + +static void +micro_usne(union tgsi_exec_channel *dst, + const union tgsi_exec_channel *src) +{ + dst->u[0] = src[0].u[0] != src[1].u[0] ? ~0 : 0; + dst->u[1] = src[0].u[1] != src[1].u[1] ? ~0 : 0; + dst->u[2] = src[0].u[2] != src[1].u[2] ? ~0 : 0; + dst->u[3] = src[0].u[3] != src[1].u[3] ? ~0 : 0; +} + static void exec_instruction( struct tgsi_exec_machine *mach, @@ -2017,51 +2400,24 @@ exec_instruction( { uint chan_index; union tgsi_exec_channel r[10]; + union tgsi_exec_channel d[8]; (*pc)++; switch (inst->Instruction.Opcode) { case TGSI_OPCODE_ARL: - case TGSI_OPCODE_FLR: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_flr( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_arl, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_MOV: - case TGSI_OPCODE_SWZ: - if (inst->Flags & SOA_DEPENDENCY_FLAG) { - /* Do all fetches into temp regs, then do all stores to avoid - * intermediate/accidental clobbering. This could be done all the - * time for MOV but for other instructions we'll need more temps... - */ - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[chan_index], 0, chan_index ); - } - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[chan_index], 0, chan_index ); - } - } - else { - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - STORE( &r[0], 0, chan_index ); - } - } + exec_vector_unary(mach, inst, micro_mov, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_LIT: - if (IS_CHANNEL_ENABLED( *inst, CHAN_X )) { - STORE( &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], 0, CHAN_X ); - } - if (IS_CHANNEL_ENABLED( *inst, CHAN_Y ) || IS_CHANNEL_ENABLED( *inst, CHAN_Z )) { FETCH( &r[0], 0, CHAN_X ); if (IS_CHANNEL_ENABLED( *inst, CHAN_Y )) { - micro_max( &r[0], &r[0], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C] ); - STORE( &r[0], 0, CHAN_Y ); + micro_max(&d[CHAN_Y], &r[0], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C]); } if (IS_CHANNEL_ENABLED( *inst, CHAN_Z )) { @@ -2072,34 +2428,30 @@ exec_instruction( micro_min( &r[2], &r[2], &mach->Temps[TEMP_128_I].xyzw[TEMP_128_C] ); micro_max( &r[2], &r[2], &mach->Temps[TEMP_M128_I].xyzw[TEMP_M128_C] ); micro_pow( &r[1], &r[1], &r[2] ); - micro_lt( &r[0], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C], &r[0], &r[1], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C] ); - STORE( &r[0], 0, CHAN_Z ); + micro_lt(&d[CHAN_Z], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C], &r[0], &r[1], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C]); } - } + if (IS_CHANNEL_ENABLED(*inst, CHAN_Y)) { + STORE(&d[CHAN_Y], 0, CHAN_Y); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_Z)) { + STORE(&d[CHAN_Z], 0, CHAN_Z); + } + } + if (IS_CHANNEL_ENABLED( *inst, CHAN_X )) { + STORE( &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], 0, CHAN_X ); + } if (IS_CHANNEL_ENABLED( *inst, CHAN_W )) { STORE( &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], 0, CHAN_W ); } break; case TGSI_OPCODE_RCP: - /* TGSI_OPCODE_RECIP */ - FETCH( &r[0], 0, CHAN_X ); - micro_div( &r[0], &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], &r[0] ); - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_scalar_unary(mach, inst, micro_rcp, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_RSQ: - /* TGSI_OPCODE_RECIPSQRT */ - FETCH( &r[0], 0, CHAN_X ); - micro_abs( &r[0], &r[0] ); - micro_sqrt( &r[0], &r[0] ); - micro_div( &r[0], &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], &r[0] ); - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_scalar_unary(mach, inst, micro_rsq, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_EXP: @@ -2144,14 +2496,13 @@ exec_instruction( break; case TGSI_OPCODE_MUL: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) - { + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { FETCH(&r[0], 0, chan_index); FETCH(&r[1], 1, chan_index); - - micro_mul( &r[0], &r[0], &r[1] ); - - STORE(&r[0], 0, chan_index); + micro_mul(&d[chan_index], &r[0], &r[1]); + } + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&d[chan_index], 0, chan_index); } break; @@ -2159,82 +2510,45 @@ exec_instruction( FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { FETCH( &r[0], 0, chan_index ); FETCH( &r[1], 1, chan_index ); - micro_add( &r[0], &r[0], &r[1] ); - STORE( &r[0], 0, chan_index ); + micro_add(&d[chan_index], &r[0], &r[1]); + } + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&d[chan_index], 0, chan_index); } break; case TGSI_OPCODE_DP3: - /* TGSI_OPCODE_DOT3 */ - FETCH( &r[0], 0, CHAN_X ); - FETCH( &r[1], 1, CHAN_X ); - micro_mul( &r[0], &r[0], &r[1] ); - - FETCH( &r[1], 0, CHAN_Y ); - FETCH( &r[2], 1, CHAN_Y ); - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FETCH( &r[1], 0, CHAN_Z ); - FETCH( &r[2], 1, CHAN_Z ); - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_dp3(mach, inst); break; - case TGSI_OPCODE_DP4: - /* TGSI_OPCODE_DOT4 */ - FETCH(&r[0], 0, CHAN_X); - FETCH(&r[1], 1, CHAN_X); - - micro_mul( &r[0], &r[0], &r[1] ); - - FETCH(&r[1], 0, CHAN_Y); - FETCH(&r[2], 1, CHAN_Y); - - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FETCH(&r[1], 0, CHAN_Z); - FETCH(&r[2], 1, CHAN_Z); - - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FETCH(&r[1], 0, CHAN_W); - FETCH(&r[2], 1, CHAN_W); - - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + case TGSI_OPCODE_DP4: + exec_dp4(mach, inst); break; case TGSI_OPCODE_DST: - if (IS_CHANNEL_ENABLED( *inst, CHAN_X )) { - STORE( &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], 0, CHAN_X ); - } - if (IS_CHANNEL_ENABLED( *inst, CHAN_Y )) { FETCH( &r[0], 0, CHAN_Y ); FETCH( &r[1], 1, CHAN_Y); - micro_mul( &r[0], &r[0], &r[1] ); - STORE( &r[0], 0, CHAN_Y ); + micro_mul(&d[CHAN_Y], &r[0], &r[1]); } - if (IS_CHANNEL_ENABLED( *inst, CHAN_Z )) { - FETCH( &r[0], 0, CHAN_Z ); - STORE( &r[0], 0, CHAN_Z ); + FETCH(&d[CHAN_Z], 0, CHAN_Z); } - if (IS_CHANNEL_ENABLED( *inst, CHAN_W )) { - FETCH( &r[0], 1, CHAN_W ); - STORE( &r[0], 0, CHAN_W ); + FETCH(&d[CHAN_W], 1, CHAN_W); + } + + if (IS_CHANNEL_ENABLED(*inst, CHAN_X)) { + STORE(&mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], 0, CHAN_X); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_Y)) { + STORE(&d[CHAN_Y], 0, CHAN_Y); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_Z)) { + STORE(&d[CHAN_Z], 0, CHAN_Z); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_W)) { + STORE(&d[CHAN_W], 0, CHAN_W); } break; @@ -2244,9 +2558,10 @@ exec_instruction( FETCH(&r[1], 1, chan_index); /* XXX use micro_min()?? */ - micro_lt( &r[0], &r[0], &r[1], &r[0], &r[1] ); - - STORE(&r[0], 0, chan_index); + micro_lt(&d[chan_index], &r[0], &r[1], &r[0], &r[1]); + } + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&d[chan_index], 0, chan_index); } break; @@ -2256,67 +2571,38 @@ exec_instruction( FETCH(&r[1], 1, chan_index); /* XXX use micro_max()?? */ - micro_lt( &r[0], &r[0], &r[1], &r[1], &r[0] ); - - STORE(&r[0], 0, chan_index ); + micro_lt(&d[chan_index], &r[0], &r[1], &r[1], &r[0] ); + } + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&d[chan_index], 0, chan_index); } break; case TGSI_OPCODE_SLT: - /* TGSI_OPCODE_SETLT */ - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_lt( &r[0], &r[0], &r[1], &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_slt, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_SGE: - /* TGSI_OPCODE_SETGE */ - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_le( &r[0], &r[1], &r[0], &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_sge, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_MAD: - /* TGSI_OPCODE_MADD */ - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_mul( &r[0], &r[0], &r[1] ); - FETCH( &r[1], 2, chan_index ); - micro_add( &r[0], &r[0], &r[1] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_trinary(mach, inst, micro_mad, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_SUB: FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { FETCH(&r[0], 0, chan_index); FETCH(&r[1], 1, chan_index); - - micro_sub( &r[0], &r[0], &r[1] ); - - STORE(&r[0], 0, chan_index); + micro_sub(&d[chan_index], &r[0], &r[1]); + } + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&d[chan_index], 0, chan_index); } break; case TGSI_OPCODE_LRP: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH(&r[0], 0, chan_index); - FETCH(&r[1], 1, chan_index); - FETCH(&r[2], 2, chan_index); - - micro_sub( &r[1], &r[1], &r[2] ); - micro_mul( &r[0], &r[0], &r[1] ); - micro_add( &r[0], &r[0], &r[2] ); - - STORE(&r[0], 0, chan_index); - } + exec_vector_trinary(mach, inst, micro_lrp, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_CND: @@ -2324,35 +2610,19 @@ exec_instruction( FETCH(&r[0], 0, chan_index); FETCH(&r[1], 1, chan_index); FETCH(&r[2], 2, chan_index); - micro_lt(&r[0], &mach->Temps[TEMP_HALF_I].xyzw[TEMP_HALF_C], &r[2], &r[0], &r[1]); - STORE(&r[0], 0, chan_index); + micro_lt(&d[chan_index], &mach->Temps[TEMP_HALF_I].xyzw[TEMP_HALF_C], &r[2], &r[0], &r[1]); + } + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&d[chan_index], 0, chan_index); } break; case TGSI_OPCODE_DP2A: - FETCH( &r[0], 0, CHAN_X ); - FETCH( &r[1], 1, CHAN_X ); - micro_mul( &r[0], &r[0], &r[1] ); - - FETCH( &r[1], 0, CHAN_Y ); - FETCH( &r[2], 1, CHAN_Y ); - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FETCH( &r[2], 2, CHAN_X ); - micro_add( &r[0], &r[0], &r[2] ); - - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_dp2a(mach, inst); break; case TGSI_OPCODE_FRC: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_frc( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_frc, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_CLAMP: @@ -2361,40 +2631,27 @@ exec_instruction( FETCH(&r[1], 1, chan_index); micro_max(&r[0], &r[0], &r[1]); FETCH(&r[1], 2, chan_index); - micro_min(&r[0], &r[0], &r[1]); - STORE(&r[0], 0, chan_index); + micro_min(&d[chan_index], &r[0], &r[1]); } + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&d[chan_index], 0, chan_index); + } + break; + + case TGSI_OPCODE_FLR: + exec_vector_unary(mach, inst, micro_flr, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_ROUND: - case TGSI_OPCODE_ARR: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_rnd( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_rnd, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_EX2: - FETCH(&r[0], 0, CHAN_X); - -#if FAST_MATH - micro_exp2( &r[0], &r[0] ); -#else - micro_pow( &r[0], &mach->Temps[TEMP_2_I].xyzw[TEMP_2_C], &r[0] ); -#endif - - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_scalar_unary(mach, inst, micro_exp2, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_LG2: - FETCH( &r[0], 0, CHAN_X ); - micro_lg2( &r[0], &r[0] ); - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_scalar_unary(mach, inst, micro_lg2, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_POW: @@ -2418,11 +2675,7 @@ exec_instruction( FETCH(&r[4], 1, CHAN_Y); micro_mul( &r[5], &r[3], &r[4] ); - micro_sub( &r[2], &r[2], &r[5] ); - - if (IS_CHANNEL_ENABLED( *inst, CHAN_X )) { - STORE( &r[2], 0, CHAN_X ); - } + micro_sub(&d[CHAN_X], &r[2], &r[5]); FETCH(&r[2], 1, CHAN_X); @@ -2431,34 +2684,29 @@ exec_instruction( FETCH(&r[5], 0, CHAN_X); micro_mul( &r[1], &r[1], &r[5] ); - micro_sub( &r[3], &r[3], &r[1] ); - - if (IS_CHANNEL_ENABLED( *inst, CHAN_Y )) { - STORE( &r[3], 0, CHAN_Y ); - } + micro_sub(&d[CHAN_Y], &r[3], &r[1]); micro_mul( &r[5], &r[5], &r[4] ); micro_mul( &r[0], &r[0], &r[2] ); - micro_sub( &r[5], &r[5], &r[0] ); + micro_sub(&d[CHAN_Z], &r[5], &r[0]); - if (IS_CHANNEL_ENABLED( *inst, CHAN_Z )) { - STORE( &r[5], 0, CHAN_Z ); + if (IS_CHANNEL_ENABLED(*inst, CHAN_X)) { + STORE(&d[CHAN_X], 0, CHAN_X); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_Y)) { + STORE(&d[CHAN_Y], 0, CHAN_Y); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_Z)) { + STORE(&d[CHAN_Z], 0, CHAN_Z); } - if (IS_CHANNEL_ENABLED( *inst, CHAN_W )) { STORE( &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], 0, CHAN_W ); } break; - case TGSI_OPCODE_ABS: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH(&r[0], 0, chan_index); - - micro_abs( &r[0], &r[0] ); - - STORE(&r[0], 0, chan_index); - } - break; + case TGSI_OPCODE_ABS: + exec_vector_unary(mach, inst, micro_abs, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); + break; case TGSI_OPCODE_RCC: FETCH(&r[0], 0, CHAN_X); @@ -2470,56 +2718,19 @@ exec_instruction( break; case TGSI_OPCODE_DPH: - FETCH(&r[0], 0, CHAN_X); - FETCH(&r[1], 1, CHAN_X); - - micro_mul( &r[0], &r[0], &r[1] ); - - FETCH(&r[1], 0, CHAN_Y); - FETCH(&r[2], 1, CHAN_Y); - - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FETCH(&r[1], 0, CHAN_Z); - FETCH(&r[2], 1, CHAN_Z); - - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FETCH(&r[1], 1, CHAN_W); - - micro_add( &r[0], &r[0], &r[1] ); - - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_dph(mach, inst); break; case TGSI_OPCODE_COS: - FETCH(&r[0], 0, CHAN_X); - - micro_cos( &r[0], &r[0] ); - - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_scalar_unary(mach, inst, micro_cos, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_DDX: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_ddx( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_ddx, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_DDY: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_ddy( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_ddy, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_KILP: @@ -2596,14 +2807,7 @@ exec_instruction( break; case TGSI_OPCODE_SEQ: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_eq( &r[0], &r[0], &r[1], - &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], - &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_seq, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_SFL: @@ -2613,38 +2817,19 @@ exec_instruction( break; case TGSI_OPCODE_SGT: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_le( &r[0], &r[0], &r[1], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C], &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_sgt, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_SIN: - FETCH( &r[0], 0, CHAN_X ); - micro_sin( &r[0], &r[0] ); - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_scalar_unary(mach, inst, micro_sin, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_SLE: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_le( &r[0], &r[0], &r[1], &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_sle, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_SNE: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_eq( &r[0], &r[0], &r[1], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C], &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_sne, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_STR: @@ -2657,14 +2842,14 @@ exec_instruction( /* simple texture lookup */ /* src[0] = texcoord */ /* src[1] = sampler unit */ - exec_tex(mach, inst, FALSE, FALSE); + exec_tex(mach, inst, TEX_MODIFIER_NONE); break; case TGSI_OPCODE_TXB: /* Texture lookup with lod bias */ /* src[0] = texcoord (src[0].w = LOD bias) */ /* src[1] = sampler unit */ - exec_tex(mach, inst, TRUE, FALSE); + exec_tex(mach, inst, TEX_MODIFIER_LOD_BIAS); break; case TGSI_OPCODE_TXD: @@ -2673,21 +2858,21 @@ exec_instruction( /* src[1] = d[strq]/dx */ /* src[2] = d[strq]/dy */ /* src[3] = sampler unit */ - assert (0); + exec_txd(mach, inst); break; case TGSI_OPCODE_TXL: /* Texture lookup with explit LOD */ /* src[0] = texcoord (src[0].w = LOD) */ /* src[1] = sampler unit */ - exec_tex(mach, inst, TRUE, FALSE); + exec_tex(mach, inst, TEX_MODIFIER_EXPLICIT_LOD); break; case TGSI_OPCODE_TXP: /* Texture lookup with projection */ /* src[0] = texcoord (src[0].w = projection) */ /* src[1] = sampler unit */ - exec_tex(mach, inst, FALSE, TRUE); + exec_tex(mach, inst, TEX_MODIFIER_PROJECTED); break; case TGSI_OPCODE_UP2H: @@ -2717,13 +2902,8 @@ exec_instruction( micro_mul(&r[3], &r[3], &r[1]); micro_add(&r[2], &r[2], &r[3]); FETCH(&r[3], 0, CHAN_X); - micro_add(&r[2], &r[2], &r[3]); - if (IS_CHANNEL_ENABLED(*inst, CHAN_X)) { - STORE(&r[2], 0, CHAN_X); - } - if (IS_CHANNEL_ENABLED(*inst, CHAN_Z)) { - STORE(&r[2], 0, CHAN_Z); - } + micro_add(&d[CHAN_X], &r[2], &r[3]); + } if (IS_CHANNEL_ENABLED(*inst, CHAN_Y) || IS_CHANNEL_ENABLED(*inst, CHAN_W)) { @@ -2733,13 +2913,20 @@ exec_instruction( micro_mul(&r[3], &r[3], &r[1]); micro_add(&r[2], &r[2], &r[3]); FETCH(&r[3], 0, CHAN_Y); - micro_add(&r[2], &r[2], &r[3]); - if (IS_CHANNEL_ENABLED(*inst, CHAN_Y)) { - STORE(&r[2], 0, CHAN_Y); - } - if (IS_CHANNEL_ENABLED(*inst, CHAN_W)) { - STORE(&r[2], 0, CHAN_W); - } + micro_add(&d[CHAN_Y], &r[2], &r[3]); + + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_X)) { + STORE(&d[CHAN_X], 0, CHAN_X); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_Y)) { + STORE(&d[CHAN_Y], 0, CHAN_Y); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_Z)) { + STORE(&d[CHAN_X], 0, CHAN_Z); + } + if (IS_CHANNEL_ENABLED(*inst, CHAN_W)) { + STORE(&d[CHAN_Y], 0, CHAN_W); } break; @@ -2747,6 +2934,10 @@ exec_instruction( assert (0); break; + case TGSI_OPCODE_ARR: + exec_vector_unary(mach, inst, micro_arr, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_FLOAT); + break; + case TGSI_OPCODE_BRA: assert (0); break; @@ -2766,6 +2957,8 @@ exec_instruction( mach->CallStack[mach->CallStackTop].CondStackTop = mach->CondStackTop; mach->CallStack[mach->CallStackTop].LoopStackTop = mach->LoopStackTop; mach->CallStack[mach->CallStackTop].ContStackTop = mach->ContStackTop; + mach->CallStack[mach->CallStackTop].SwitchStackTop = mach->SwitchStackTop; + mach->CallStack[mach->CallStackTop].BreakStackTop = mach->BreakStackTop; /* note that PC was already incremented above */ mach->CallStack[mach->CallStackTop].ReturnAddr = *pc; @@ -2773,16 +2966,21 @@ exec_instruction( /* Second, push the Cond, Loop, Cont, Func stacks */ assert(mach->CondStackTop < TGSI_EXEC_MAX_COND_NESTING); - mach->CondStack[mach->CondStackTop++] = mach->CondMask; assert(mach->LoopStackTop < TGSI_EXEC_MAX_LOOP_NESTING); - mach->LoopStack[mach->LoopStackTop++] = mach->LoopMask; assert(mach->ContStackTop < TGSI_EXEC_MAX_LOOP_NESTING); - mach->ContStack[mach->ContStackTop++] = mach->ContMask; + assert(mach->SwitchStackTop < TGSI_EXEC_MAX_SWITCH_NESTING); + assert(mach->BreakStackTop < TGSI_EXEC_MAX_BREAK_STACK); assert(mach->FuncStackTop < TGSI_EXEC_MAX_CALL_NESTING); + + mach->CondStack[mach->CondStackTop++] = mach->CondMask; + mach->LoopStack[mach->LoopStackTop++] = mach->LoopMask; + mach->ContStack[mach->ContStackTop++] = mach->ContMask; + mach->SwitchStack[mach->SwitchStackTop++] = mach->Switch; + mach->BreakStack[mach->BreakStackTop++] = mach->BreakType; mach->FuncStack[mach->FuncStackTop++] = mach->FuncMask; /* Finally, jump to the subroutine */ - *pc = inst->InstructionExtLabel.Label; + *pc = inst->Label.Label; } break; @@ -2811,6 +3009,12 @@ exec_instruction( mach->ContStackTop = mach->CallStack[mach->CallStackTop].ContStackTop; mach->ContMask = mach->ContStack[mach->ContStackTop]; + mach->SwitchStackTop = mach->CallStack[mach->CallStackTop].SwitchStackTop; + mach->Switch = mach->SwitchStack[mach->SwitchStackTop]; + + mach->BreakStackTop = mach->CallStack[mach->CallStackTop].BreakStackTop; + mach->BreakType = mach->BreakStack[mach->BreakStackTop]; + assert(mach->FuncStackTop > 0); mach->FuncMask = mach->FuncStack[--mach->FuncStackTop]; @@ -2821,12 +3025,7 @@ exec_instruction( break; case TGSI_OPCODE_SSG: - /* TGSI_OPCODE_SGN */ - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_sgn( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_sgn, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_CMP: @@ -2834,10 +3033,10 @@ exec_instruction( FETCH(&r[0], 0, chan_index); FETCH(&r[1], 1, chan_index); FETCH(&r[2], 2, chan_index); - - micro_lt( &r[0], &r[0], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C], &r[1], &r[2] ); - - STORE(&r[0], 0, chan_index); + micro_lt(&d[chan_index], &r[0], &mach->Temps[TEMP_0_I].xyzw[TEMP_0_C], &r[1], &r[2]); + } + FOR_EACH_ENABLED_CHANNEL(*inst, chan_index) { + STORE(&d[chan_index], 0, chan_index); } break; @@ -2933,18 +3132,7 @@ exec_instruction( break; case TGSI_OPCODE_DP2: - FETCH( &r[0], 0, CHAN_X ); - FETCH( &r[1], 1, CHAN_X ); - micro_mul( &r[0], &r[0], &r[1] ); - - FETCH( &r[1], 0, CHAN_Y ); - FETCH( &r[2], 1, CHAN_Y ); - micro_mul( &r[1], &r[1], &r[2] ); - micro_add( &r[0], &r[0], &r[1] ); - - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - STORE( &r[0], 0, chan_index ); - } + exec_dp2(mach, inst); break; case TGSI_OPCODE_IF: @@ -3010,71 +3198,31 @@ exec_instruction( break; case TGSI_OPCODE_CEIL: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_ceil( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_ceil, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_I2F: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_i2f( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_i2f, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_INT); break; case TGSI_OPCODE_NOT: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_not( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_not, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); break; case TGSI_OPCODE_TRUNC: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - micro_trunc( &r[0], &r[0] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_unary(mach, inst, micro_trunc, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_FLOAT); break; case TGSI_OPCODE_SHL: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_shl( &r[0], &r[0], &r[1] ); - STORE( &r[0], 0, chan_index ); - } - break; - - case TGSI_OPCODE_SHR: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_ishr( &r[0], &r[0], &r[1] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_shl, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); break; case TGSI_OPCODE_AND: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_and( &r[0], &r[0], &r[1] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_and, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); break; case TGSI_OPCODE_OR: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_or( &r[0], &r[0], &r[1] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_or, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); break; case TGSI_OPCODE_MOD: @@ -3082,12 +3230,7 @@ exec_instruction( break; case TGSI_OPCODE_XOR: - FOR_EACH_ENABLED_CHANNEL( *inst, chan_index ) { - FETCH( &r[0], 0, chan_index ); - FETCH( &r[1], 1, chan_index ); - micro_xor( &r[0], &r[0], &r[1] ); - STORE( &r[0], 0, chan_index ); - } + exec_vector_binary(mach, inst, micro_xor, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); break; case TGSI_OPCODE_SAD: @@ -3103,13 +3246,11 @@ exec_instruction( break; case TGSI_OPCODE_EMIT: - mach->Temps[TEMP_OUTPUT_I].xyzw[TEMP_OUTPUT_C].u[0] += 16; - mach->Primitives[mach->Temps[TEMP_PRIMITIVE_I].xyzw[TEMP_PRIMITIVE_C].u[0]]++; + emit_vertex(mach); break; case TGSI_OPCODE_ENDPRIM: - mach->Temps[TEMP_PRIMITIVE_I].xyzw[TEMP_PRIMITIVE_C].u[0]++; - mach->Primitives[mach->Temps[TEMP_PRIMITIVE_I].xyzw[TEMP_PRIMITIVE_C].u[0]] = 0; + emit_primitive(mach); break; case TGSI_OPCODE_BGNFOR: @@ -3117,43 +3258,62 @@ exec_instruction( for (chan_index = 0; chan_index < 3; chan_index++) { FETCH( &mach->LoopCounterStack[mach->LoopCounterStackTop].xyzw[chan_index], 0, chan_index ); } - STORE( &mach->LoopCounterStack[mach->LoopCounterStackTop].xyzw[CHAN_Y], 0, CHAN_X ); ++mach->LoopCounterStackTop; + STORE(&mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X], 0, CHAN_X); + /* update LoopMask */ + if (mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y].f[0] <= 0.0f) { + mach->LoopMask &= ~0x1; + } + if (mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y].f[1] <= 0.0f) { + mach->LoopMask &= ~0x2; + } + if (mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y].f[2] <= 0.0f) { + mach->LoopMask &= ~0x4; + } + if (mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y].f[3] <= 0.0f) { + mach->LoopMask &= ~0x8; + } + /* TODO: if mach->LoopMask == 0, jump to end of loop */ + UPDATE_EXEC_MASK(mach); /* fall-through (for now) */ case TGSI_OPCODE_BGNLOOP: /* push LoopMask and ContMasks */ assert(mach->LoopStackTop < TGSI_EXEC_MAX_LOOP_NESTING); - mach->LoopStack[mach->LoopStackTop++] = mach->LoopMask; assert(mach->ContStackTop < TGSI_EXEC_MAX_LOOP_NESTING); - mach->ContStack[mach->ContStackTop++] = mach->ContMask; assert(mach->LoopLabelStackTop < TGSI_EXEC_MAX_LOOP_NESTING); + assert(mach->BreakStackTop < TGSI_EXEC_MAX_BREAK_STACK); + + mach->LoopStack[mach->LoopStackTop++] = mach->LoopMask; + mach->ContStack[mach->ContStackTop++] = mach->ContMask; mach->LoopLabelStack[mach->LoopLabelStackTop++] = *pc - 1; + mach->BreakStack[mach->BreakStackTop++] = mach->BreakType; + mach->BreakType = TGSI_EXEC_BREAK_INSIDE_LOOP; break; case TGSI_OPCODE_ENDFOR: assert(mach->LoopCounterStackTop > 0); - micro_sub( &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X], - &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X], - &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C] ); + micro_sub(&mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y], + &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y], + &mach->Temps[TEMP_1_I].xyzw[TEMP_1_C]); /* update LoopMask */ - if( mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X].f[0] <= 0) { + if (mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y].f[0] <= 0.0f) { mach->LoopMask &= ~0x1; } - if( mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X].f[1] <= 0 ) { + if (mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y].f[1] <= 0.0f) { mach->LoopMask &= ~0x2; } - if( mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X].f[2] <= 0 ) { + if (mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y].f[2] <= 0.0f) { mach->LoopMask &= ~0x4; } - if( mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X].f[3] <= 0 ) { + if (mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y].f[3] <= 0.0f) { mach->LoopMask &= ~0x8; } - micro_add( &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y], - &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Y], - &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Z]); + micro_add(&mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X], + &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_X], + &mach->LoopCounterStack[mach->LoopCounterStackTop - 1].xyzw[CHAN_Z]); assert(mach->LoopLabelStackTop > 0); inst = mach->Instructions + mach->LoopLabelStack[mach->LoopLabelStackTop - 1]; - STORE( &mach->LoopCounterStack[mach->LoopCounterStackTop].xyzw[CHAN_Y], 0, CHAN_X ); + STORE(&mach->LoopCounterStack[mach->LoopCounterStackTop].xyzw[CHAN_X], 0, CHAN_X); /* Restore ContMask, but don't pop */ assert(mach->ContStackTop > 0); mach->ContMask = mach->ContStack[mach->ContStackTop - 1]; @@ -3174,6 +3334,8 @@ exec_instruction( --mach->LoopLabelStackTop; assert(mach->LoopCounterStackTop > 0); --mach->LoopCounterStackTop; + + mach->BreakType = mach->BreakStack[--mach->BreakStackTop]; } UPDATE_EXEC_MASK(mach); break; @@ -3197,15 +3359,14 @@ exec_instruction( mach->ContMask = mach->ContStack[--mach->ContStackTop]; assert(mach->LoopLabelStackTop > 0); --mach->LoopLabelStackTop; + + mach->BreakType = mach->BreakStack[--mach->BreakStackTop]; } UPDATE_EXEC_MASK(mach); break; case TGSI_OPCODE_BRK: - /* turn off loop channels for each enabled exec channel */ - mach->LoopMask &= ~mach->ExecMask; - /* Todo: if mach->LoopMask == 0, jump to end of loop */ - UPDATE_EXEC_MASK(mach); + exec_break(mach); break; case TGSI_OPCODE_CONT: @@ -3220,26 +3381,160 @@ exec_instruction( break; case TGSI_OPCODE_ENDSUB: - /* no-op */ + /* + * XXX: This really should be a no-op. We should never reach this opcode. + */ + + assert(mach->CallStackTop > 0); + mach->CallStackTop--; + + mach->CondStackTop = mach->CallStack[mach->CallStackTop].CondStackTop; + mach->CondMask = mach->CondStack[mach->CondStackTop]; + + mach->LoopStackTop = mach->CallStack[mach->CallStackTop].LoopStackTop; + mach->LoopMask = mach->LoopStack[mach->LoopStackTop]; + + mach->ContStackTop = mach->CallStack[mach->CallStackTop].ContStackTop; + mach->ContMask = mach->ContStack[mach->ContStackTop]; + + mach->SwitchStackTop = mach->CallStack[mach->CallStackTop].SwitchStackTop; + mach->Switch = mach->SwitchStack[mach->SwitchStackTop]; + + mach->BreakStackTop = mach->CallStack[mach->CallStackTop].BreakStackTop; + mach->BreakType = mach->BreakStack[mach->BreakStackTop]; + + assert(mach->FuncStackTop > 0); + mach->FuncMask = mach->FuncStack[--mach->FuncStackTop]; + + *pc = mach->CallStack[mach->CallStackTop].ReturnAddr; + + UPDATE_EXEC_MASK(mach); break; - case TGSI_OPCODE_NOISE1: - assert( 0 ); + case TGSI_OPCODE_NOP: break; - case TGSI_OPCODE_NOISE2: - assert( 0 ); + case TGSI_OPCODE_BREAKC: + FETCH(&r[0], 0, CHAN_X); + /* update CondMask */ + if (r[0].u[0] && (mach->ExecMask & 0x1)) { + mach->LoopMask &= ~0x1; + } + if (r[0].u[1] && (mach->ExecMask & 0x2)) { + mach->LoopMask &= ~0x2; + } + if (r[0].u[2] && (mach->ExecMask & 0x4)) { + mach->LoopMask &= ~0x4; + } + if (r[0].u[3] && (mach->ExecMask & 0x8)) { + mach->LoopMask &= ~0x8; + } + /* Todo: if mach->LoopMask == 0, jump to end of loop */ + UPDATE_EXEC_MASK(mach); break; - case TGSI_OPCODE_NOISE3: - assert( 0 ); + case TGSI_OPCODE_F2I: + exec_vector_unary(mach, inst, micro_f2i, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_FLOAT); break; - case TGSI_OPCODE_NOISE4: - assert( 0 ); + case TGSI_OPCODE_IDIV: + exec_vector_binary(mach, inst, micro_idiv, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_INT); break; - case TGSI_OPCODE_NOP: + case TGSI_OPCODE_IMAX: + exec_vector_binary(mach, inst, micro_imax, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_INT); + break; + + case TGSI_OPCODE_IMIN: + exec_vector_binary(mach, inst, micro_imin, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_INT); + break; + + case TGSI_OPCODE_INEG: + exec_vector_unary(mach, inst, micro_ineg, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_INT); + break; + + case TGSI_OPCODE_ISGE: + exec_vector_binary(mach, inst, micro_isge, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_INT); + break; + + case TGSI_OPCODE_ISHR: + exec_vector_binary(mach, inst, micro_ishr, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_INT); + break; + + case TGSI_OPCODE_ISLT: + exec_vector_binary(mach, inst, micro_islt, TGSI_EXEC_DATA_INT, TGSI_EXEC_DATA_INT); + break; + + case TGSI_OPCODE_F2U: + exec_vector_unary(mach, inst, micro_f2u, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_FLOAT); + break; + + case TGSI_OPCODE_U2F: + exec_vector_unary(mach, inst, micro_u2f, TGSI_EXEC_DATA_FLOAT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_UADD: + exec_vector_binary(mach, inst, micro_uadd, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_UDIV: + exec_vector_binary(mach, inst, micro_udiv, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_UMAD: + exec_vector_trinary(mach, inst, micro_umad, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_UMAX: + exec_vector_binary(mach, inst, micro_umax, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_UMIN: + exec_vector_binary(mach, inst, micro_umin, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_UMOD: + exec_vector_binary(mach, inst, micro_umod, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_UMUL: + exec_vector_binary(mach, inst, micro_umul, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_USEQ: + exec_vector_binary(mach, inst, micro_useq, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_USGE: + exec_vector_binary(mach, inst, micro_usge, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_USHR: + exec_vector_binary(mach, inst, micro_ushr, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_USLT: + exec_vector_binary(mach, inst, micro_uslt, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_USNE: + exec_vector_binary(mach, inst, micro_usne, TGSI_EXEC_DATA_UINT, TGSI_EXEC_DATA_UINT); + break; + + case TGSI_OPCODE_SWITCH: + exec_switch(mach, inst); + break; + + case TGSI_OPCODE_CASE: + exec_case(mach, inst); + break; + + case TGSI_OPCODE_DEFAULT: + exec_default(mach); + break; + + case TGSI_OPCODE_ENDSWITCH: + exec_endswitch(mach); break; default: @@ -3248,6 +3543,9 @@ exec_instruction( } +#define DEBUG_EXECUTION 0 + + /** * Run TGSI interpreter. * \return bitmask of "alive" quad components @@ -3264,9 +3562,13 @@ tgsi_exec_machine_run( struct tgsi_exec_machine *mach ) mach->FuncMask = 0xf; mach->ExecMask = 0xf; + mach->Switch.mask = 0xf; + assert(mach->CondStackTop == 0); assert(mach->LoopStackTop == 0); assert(mach->ContStackTop == 0); + assert(mach->SwitchStackTop == 0); + assert(mach->BreakStackTop == 0); assert(mach->CallStackTop == 0); mach->Temps[TEMP_KILMASK_I].xyzw[TEMP_KILMASK_C].u[0] = 0; @@ -3290,10 +3592,67 @@ tgsi_exec_machine_run( struct tgsi_exec_machine *mach ) exec_declaration( mach, mach->Declarations+i ); } - /* execute instructions, until pc is set to -1 */ - while (pc != -1) { - assert(pc < (int) mach->NumInstructions); - exec_instruction( mach, mach->Instructions + pc, &pc ); + { +#if DEBUG_EXECUTION + struct tgsi_exec_vector temps[TGSI_EXEC_NUM_TEMPS + TGSI_EXEC_NUM_TEMP_EXTRAS]; + struct tgsi_exec_vector outputs[PIPE_MAX_ATTRIBS]; + uint inst = 1; + + memcpy(temps, mach->Temps, sizeof(temps)); + memcpy(outputs, mach->Outputs, sizeof(outputs)); +#endif + + /* execute instructions, until pc is set to -1 */ + while (pc != -1) { + +#if DEBUG_EXECUTION + uint i; + + tgsi_dump_instruction(&mach->Instructions[pc], inst++); +#endif + + assert(pc < (int) mach->NumInstructions); + exec_instruction(mach, mach->Instructions + pc, &pc); + +#if DEBUG_EXECUTION + for (i = 0; i < TGSI_EXEC_NUM_TEMPS + TGSI_EXEC_NUM_TEMP_EXTRAS; i++) { + if (memcmp(&temps[i], &mach->Temps[i], sizeof(temps[i]))) { + uint j; + + memcpy(&temps[i], &mach->Temps[i], sizeof(temps[i])); + debug_printf("TEMP[%2u] = ", i); + for (j = 0; j < 4; j++) { + if (j > 0) { + debug_printf(" "); + } + debug_printf("(%6f %u, %6f %u, %6f %u, %6f %u)\n", + temps[i].xyzw[0].f[j], temps[i].xyzw[0].u[j], + temps[i].xyzw[1].f[j], temps[i].xyzw[1].u[j], + temps[i].xyzw[2].f[j], temps[i].xyzw[2].u[j], + temps[i].xyzw[3].f[j], temps[i].xyzw[3].u[j]); + } + } + } + for (i = 0; i < PIPE_MAX_ATTRIBS; i++) { + if (memcmp(&outputs[i], &mach->Outputs[i], sizeof(outputs[i]))) { + uint j; + + memcpy(&outputs[i], &mach->Outputs[i], sizeof(outputs[i])); + debug_printf("OUT[%2u] = ", i); + for (j = 0; j < 4; j++) { + if (j > 0) { + debug_printf(" "); + } + debug_printf("(%6f %u, %6f %u, %6f %u, %6f %u)\n", + outputs[i].xyzw[0].f[j], outputs[i].xyzw[0].u[j], + outputs[i].xyzw[1].f[j], outputs[i].xyzw[1].u[j], + outputs[i].xyzw[2].f[j], outputs[i].xyzw[2].u[j], + outputs[i].xyzw[3].f[j], outputs[i].xyzw[3].u[j]); + } + } + } +#endif + } } #if 0 @@ -3307,5 +3666,12 @@ tgsi_exec_machine_run( struct tgsi_exec_machine *mach ) } #endif + assert(mach->CondStackTop == 0); + assert(mach->LoopStackTop == 0); + assert(mach->ContStackTop == 0); + assert(mach->SwitchStackTop == 0); + assert(mach->BreakStackTop == 0); + assert(mach->CallStackTop == 0); + return ~mach->Temps[TEMP_KILMASK_I].xyzw[TEMP_KILMASK_C].u[0]; } |