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|
/**************************************************************************
*
* Copyright 2007 Tungsten Graphics, Inc., Cedar Park, Texas.
* All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sub license, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice (including the
* next paragraph) shall be included in all copies or substantial portions
* of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
* IN NO EVENT SHALL TUNGSTEN GRAPHICS AND/OR ITS SUPPLIERS BE LIABLE FOR
* ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
**************************************************************************/
/*
* Authors:
* Zack Rusin zack@tungstengraphics.com
*/
#ifdef MESA_LLVM
#include "gallivm.h"
#include "instructions.h"
#include "storage.h"
#include "pipe/p_context.h"
#include "pipe/tgsi/exec/tgsi_exec.h"
#include "pipe/tgsi/exec/tgsi_token.h"
#include "pipe/tgsi/exec/tgsi_build.h"
#include "pipe/tgsi/exec/tgsi_util.h"
#include "pipe/tgsi/exec/tgsi_parse.h"
#include "pipe/tgsi/exec/tgsi_dump.h"
#include <llvm/Module.h>
#include <llvm/CallingConv.h>
#include <llvm/Constants.h>
#include <llvm/DerivedTypes.h>
#include <llvm/Instructions.h>
#include <llvm/ModuleProvider.h>
#include <llvm/Pass.h>
#include <llvm/PassManager.h>
#include <llvm/ParameterAttributes.h>
#include <llvm/Support/PatternMatch.h>
#include <llvm/ExecutionEngine/JIT.h>
#include <llvm/ExecutionEngine/Interpreter.h>
#include <llvm/ExecutionEngine/GenericValue.h>
#include <llvm/Support/MemoryBuffer.h>
#include <llvm/LinkAllPasses.h>
#include <llvm/Analysis/Verifier.h>
#include <llvm/Analysis/LoopPass.h>
#include <llvm/Target/TargetData.h>
#include <llvm/Bitcode/ReaderWriter.h>
#include <sstream>
#include <fstream>
#include <iostream>
struct gallivm_interpolate {
int attrib;
int chan;
int type;
};
struct gallivm_prog {
llvm::Module *module;
void *function;
int num_consts;
int id;
enum gallivm_shader_type type;
struct gallivm_interpolate interpolators[32*4]; //FIXME: this might not be enough for some shaders
int num_interp;
};
struct gallivm_cpu_engine {
llvm::ExecutionEngine *engine;
};
using namespace llvm;
#include "llvm_base_shader.cpp"
static int GLOBAL_ID = 0;
static inline void AddStandardCompilePasses(PassManager &PM) {
PM.add(createVerifierPass()); // Verify that input is correct
PM.add(createLowerSetJmpPass()); // Lower llvm.setjmp/.longjmp
//PM.add(createStripSymbolsPass(true));
PM.add(createRaiseAllocationsPass()); // call %malloc -> malloc inst
PM.add(createCFGSimplificationPass()); // Clean up disgusting code
PM.add(createPromoteMemoryToRegisterPass());// Kill useless allocas
PM.add(createGlobalOptimizerPass()); // Optimize out global vars
PM.add(createGlobalDCEPass()); // Remove unused fns and globs
PM.add(createIPConstantPropagationPass());// IP Constant Propagation
PM.add(createDeadArgEliminationPass()); // Dead argument elimination
PM.add(createInstructionCombiningPass()); // Clean up after IPCP & DAE
PM.add(createCFGSimplificationPass()); // Clean up after IPCP & DAE
PM.add(createPruneEHPass()); // Remove dead EH info
PM.add(createFunctionInliningPass()); // Inline small functions
PM.add(createArgumentPromotionPass()); // Scalarize uninlined fn args
PM.add(createTailDuplicationPass()); // Simplify cfg by copying code
PM.add(createInstructionCombiningPass()); // Cleanup for scalarrepl.
PM.add(createCFGSimplificationPass()); // Merge & remove BBs
PM.add(createScalarReplAggregatesPass()); // Break up aggregate allocas
PM.add(createInstructionCombiningPass()); // Combine silly seq's
PM.add(createCondPropagationPass()); // Propagate conditionals
PM.add(createTailCallEliminationPass()); // Eliminate tail calls
PM.add(createCFGSimplificationPass()); // Merge & remove BBs
PM.add(createReassociatePass()); // Reassociate expressions
PM.add(createLoopRotatePass());
PM.add(createLICMPass()); // Hoist loop invariants
PM.add(createLoopUnswitchPass()); // Unswitch loops.
PM.add(createLoopIndexSplitPass()); // Index split loops.
PM.add(createInstructionCombiningPass()); // Clean up after LICM/reassoc
PM.add(createIndVarSimplifyPass()); // Canonicalize indvars
PM.add(createLoopUnrollPass()); // Unroll small loops
PM.add(createInstructionCombiningPass()); // Clean up after the unroller
PM.add(createGVNPass()); // Remove redundancies
PM.add(createSCCPPass()); // Constant prop with SCCP
// Run instcombine after redundancy elimination to exploit opportunities
// opened up by them.
PM.add(createInstructionCombiningPass());
PM.add(createCondPropagationPass()); // Propagate conditionals
PM.add(createDeadStoreEliminationPass()); // Delete dead stores
PM.add(createAggressiveDCEPass()); // SSA based 'Aggressive DCE'
PM.add(createCFGSimplificationPass()); // Merge & remove BBs
PM.add(createSimplifyLibCallsPass()); // Library Call Optimizations
PM.add(createDeadTypeEliminationPass()); // Eliminate dead types
PM.add(createConstantMergePass()); // Merge dup global constants
}
static inline void
add_interpolator(struct gallivm_prog *prog,
struct gallivm_interpolate *interp)
{
prog->interpolators[prog->num_interp] = *interp;
++prog->num_interp;
}
static void
translate_declaration(struct gallivm_prog *prog,
llvm::Module *module,
Storage *storage,
struct tgsi_full_declaration *decl,
struct tgsi_full_declaration *fd)
{
if (decl->Declaration.File == TGSI_FILE_INPUT) {
unsigned first, last, mask;
uint interp_method;
assert(decl->Declaration.Declare == TGSI_DECLARE_RANGE);
first = decl->u.DeclarationRange.First;
last = decl->u.DeclarationRange.Last;
mask = decl->Declaration.UsageMask;
/* Do not touch WPOS.xy */
if (first == 0) {
mask &= ~TGSI_WRITEMASK_XY;
if (mask == TGSI_WRITEMASK_NONE) {
first++;
if (first > last) {
return;
}
}
}
interp_method = decl->Interpolation.Interpolate;
if (mask == TGSI_WRITEMASK_XYZW) {
unsigned i, j;
for (i = first; i <= last; i++) {
for (j = 0; j < NUM_CHANNELS; j++) {
//interp( mach, i, j );
struct gallivm_interpolate interp;
interp.type = interp_method;
interp.attrib = i;
interp.chan = j;
add_interpolator(prog, &interp);
}
}
} else {
unsigned i, j;
for( j = 0; j < NUM_CHANNELS; j++ ) {
if( mask & (1 << j) ) {
for( i = first; i <= last; i++ ) {
struct gallivm_interpolate interp;
interp.type = interp_method;
interp.attrib = i;
interp.chan = j;
add_interpolator(prog, &interp);
}
}
}
}
}
}
static void
translate_immediate(Storage *storage,
struct tgsi_full_immediate *imm)
{
float vec[4];
int i;
for (i = 0; i < imm->Immediate.Size - 1; ++i) {
switch( imm->Immediate.DataType ) {
case TGSI_IMM_FLOAT32:
vec[i] = imm->u.ImmediateFloat32[i].Float;
break;
default:
assert( 0 );
}
}
storage->addImmediate(vec);
}
static inline llvm::Value *
swizzleVector(llvm::Value *val, struct tgsi_full_src_register *src,
Storage *storage)
{
int swizzle = 0;
int start = 1000;
const int NO_SWIZZLE = TGSI_SWIZZLE_X * 1000 + TGSI_SWIZZLE_Y * 100 +
TGSI_SWIZZLE_Z * 10 + TGSI_SWIZZLE_W;
for (int k = 0; k < 4; ++k) {
swizzle += tgsi_util_get_full_src_register_extswizzle(src, k) * start;
start /= 10;
}
if (swizzle != NO_SWIZZLE) {
/*fprintf(stderr, "XXXXXXXX swizzle = %d\n", swizzle);*/
val = storage->shuffleVector(val, swizzle);
}
return val;
}
static void
translate_instruction(llvm::Module *module,
Storage *storage,
Instructions *instr,
struct tgsi_full_instruction *inst,
struct tgsi_full_instruction *fi,
unsigned instno)
{
llvm::Value *inputs[4];
inputs[0] = 0;
inputs[1] = 0;
inputs[2] = 0;
inputs[3] = 0;
for (int i = 0; i < inst->Instruction.NumSrcRegs; ++i) {
struct tgsi_full_src_register *src = &inst->FullSrcRegisters[i];
llvm::Value *val = 0;
llvm::Value *indIdx = 0;
if (src->SrcRegister.Indirect) {
indIdx = storage->addrElement(src->SrcRegisterInd.Index);
indIdx = storage->extractIndex(indIdx);
}
if (src->SrcRegister.File == TGSI_FILE_CONSTANT) {
val = storage->constElement(src->SrcRegister.Index, indIdx);
} else if (src->SrcRegister.File == TGSI_FILE_INPUT) {
val = storage->inputElement(src->SrcRegister.Index, indIdx);
} else if (src->SrcRegister.File == TGSI_FILE_TEMPORARY) {
val = storage->tempElement(src->SrcRegister.Index);
} else if (src->SrcRegister.File == TGSI_FILE_OUTPUT) {
val = storage->outputElement(src->SrcRegister.Index, indIdx);
} else if (src->SrcRegister.File == TGSI_FILE_IMMEDIATE) {
val = storage->immediateElement(src->SrcRegister.Index);
} else {
fprintf(stderr, "ERROR: not supported llvm source %d\n", src->SrcRegister.File);
return;
}
inputs[i] = swizzleVector(val, src, storage);
}
/*if (inputs[0])
instr->printVector(inputs[0]);
if (inputs[1])
instr->printVector(inputs[1]);*/
llvm::Value *out = 0;
switch (inst->Instruction.Opcode) {
case TGSI_OPCODE_ARL: {
out = instr->arl(inputs[0]);
}
break;
case TGSI_OPCODE_MOV: {
out = inputs[0];
}
break;
case TGSI_OPCODE_LIT: {
out = instr->lit(inputs[0]);
}
break;
case TGSI_OPCODE_RCP: {
out = instr->rcp(inputs[0]);
}
break;
case TGSI_OPCODE_RSQ: {
out = instr->rsq(inputs[0]);
}
break;
case TGSI_OPCODE_EXP:
break;
case TGSI_OPCODE_LOG:
break;
case TGSI_OPCODE_MUL: {
out = instr->mul(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_ADD: {
out = instr->add(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_DP3: {
out = instr->dp3(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_DP4: {
out = instr->dp4(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_DST: {
out = instr->dst(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_MIN: {
out = instr->min(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_MAX: {
out = instr->max(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_SLT: {
out = instr->slt(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_SGE: {
out = instr->sge(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_MAD: {
out = instr->madd(inputs[0], inputs[1], inputs[2]);
}
break;
case TGSI_OPCODE_SUB: {
out = instr->sub(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_LERP: {
out = instr->lerp(inputs[0], inputs[1], inputs[2]);
}
break;
case TGSI_OPCODE_CND:
break;
case TGSI_OPCODE_CND0:
break;
case TGSI_OPCODE_DOT2ADD:
break;
case TGSI_OPCODE_INDEX:
break;
case TGSI_OPCODE_NEGATE:
break;
case TGSI_OPCODE_FRAC: {
out = instr->frc(inputs[0]);
}
break;
case TGSI_OPCODE_CLAMP:
break;
case TGSI_OPCODE_FLOOR: {
out = instr->floor(inputs[0]);
}
break;
case TGSI_OPCODE_ROUND:
break;
case TGSI_OPCODE_EXPBASE2: {
out = instr->ex2(inputs[0]);
}
break;
case TGSI_OPCODE_LOGBASE2: {
out = instr->lg2(inputs[0]);
}
break;
case TGSI_OPCODE_POWER: {
out = instr->pow(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_CROSSPRODUCT: {
out = instr->cross(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_MULTIPLYMATRIX:
break;
case TGSI_OPCODE_ABS: {
out = instr->abs(inputs[0]);
}
break;
case TGSI_OPCODE_RCC:
break;
case TGSI_OPCODE_DPH: {
out = instr->dph(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_COS: {
out = instr->cos(inputs[0]);
}
break;
case TGSI_OPCODE_DDX:
break;
case TGSI_OPCODE_DDY:
break;
case TGSI_OPCODE_KILP: {
out = instr->kilp(inputs[0]);
storage->setKilElement(out);
return;
}
break;
case TGSI_OPCODE_PK2H:
break;
case TGSI_OPCODE_PK2US:
break;
case TGSI_OPCODE_PK4B:
break;
case TGSI_OPCODE_PK4UB:
break;
case TGSI_OPCODE_RFL:
break;
case TGSI_OPCODE_SEQ:
break;
case TGSI_OPCODE_SFL:
break;
case TGSI_OPCODE_SGT: {
out = instr->sgt(inputs[0], inputs[1]);
}
break;
case TGSI_OPCODE_SIN: {
out = instr->sin(inputs[0]);
}
break;
case TGSI_OPCODE_SLE:
break;
case TGSI_OPCODE_SNE:
break;
case TGSI_OPCODE_STR:
break;
case TGSI_OPCODE_TEX:
break;
case TGSI_OPCODE_TXD:
break;
case TGSI_OPCODE_TXP:
break;
case TGSI_OPCODE_UP2H:
break;
case TGSI_OPCODE_UP2US:
break;
case TGSI_OPCODE_UP4B:
break;
case TGSI_OPCODE_UP4UB:
break;
case TGSI_OPCODE_X2D:
break;
case TGSI_OPCODE_ARA:
break;
case TGSI_OPCODE_ARR:
break;
case TGSI_OPCODE_BRA:
break;
case TGSI_OPCODE_CAL: {
instr->cal(inst->InstructionExtLabel.Label, storage->inputPtr());
return;
}
break;
case TGSI_OPCODE_RET: {
instr->end();
return;
}
break;
case TGSI_OPCODE_SSG:
break;
case TGSI_OPCODE_CMP: {
out = instr->cmp(inputs[0], inputs[1], inputs[2]);
}
break;
case TGSI_OPCODE_SCS: {
out = instr->scs(inputs[0]);
}
break;
case TGSI_OPCODE_TXB:
break;
case TGSI_OPCODE_NRM:
break;
case TGSI_OPCODE_DIV:
break;
case TGSI_OPCODE_DP2:
break;
case TGSI_OPCODE_TXL:
break;
case TGSI_OPCODE_BRK: {
instr->brk();
return;
}
break;
case TGSI_OPCODE_IF: {
instr->ifop(inputs[0]);
storage->setCurrentBlock(instr->currentBlock());
return; //just update the state
}
break;
case TGSI_OPCODE_LOOP:
break;
case TGSI_OPCODE_REP:
break;
case TGSI_OPCODE_ELSE: {
instr->elseop();
storage->setCurrentBlock(instr->currentBlock());
return; //only state update
}
break;
case TGSI_OPCODE_ENDIF: {
instr->endif();
storage->setCurrentBlock(instr->currentBlock());
return; //just update the state
}
break;
case TGSI_OPCODE_ENDLOOP:
break;
case TGSI_OPCODE_ENDREP:
break;
case TGSI_OPCODE_PUSHA:
break;
case TGSI_OPCODE_POPA:
break;
case TGSI_OPCODE_CEIL:
break;
case TGSI_OPCODE_I2F:
break;
case TGSI_OPCODE_NOT:
break;
case TGSI_OPCODE_TRUNC: {
out = instr->trunc(inputs[0]);
}
break;
case TGSI_OPCODE_SHL:
break;
case TGSI_OPCODE_SHR:
break;
case TGSI_OPCODE_AND:
break;
case TGSI_OPCODE_OR:
break;
case TGSI_OPCODE_MOD:
break;
case TGSI_OPCODE_XOR:
break;
case TGSI_OPCODE_SAD:
break;
case TGSI_OPCODE_TXF:
break;
case TGSI_OPCODE_TXQ:
break;
case TGSI_OPCODE_CONT:
break;
case TGSI_OPCODE_EMIT:
break;
case TGSI_OPCODE_ENDPRIM:
break;
case TGSI_OPCODE_BGNLOOP2: {
instr->beginLoop();
storage->setCurrentBlock(instr->currentBlock());
return;
}
break;
case TGSI_OPCODE_BGNSUB: {
instr->bgnSub(instno);
storage->setCurrentBlock(instr->currentBlock());
storage->pushTemps();
return;
}
break;
case TGSI_OPCODE_ENDLOOP2: {
instr->endLoop();
storage->setCurrentBlock(instr->currentBlock());
return;
}
break;
case TGSI_OPCODE_ENDSUB: {
instr->endSub();
storage->setCurrentBlock(instr->currentBlock());
storage->popArguments();
storage->popTemps();
return;
}
break;
case TGSI_OPCODE_NOISE1:
break;
case TGSI_OPCODE_NOISE2:
break;
case TGSI_OPCODE_NOISE3:
break;
case TGSI_OPCODE_NOISE4:
break;
case TGSI_OPCODE_NOP:
break;
case TGSI_OPCODE_TEXBEM:
break;
case TGSI_OPCODE_TEXBEML:
break;
case TGSI_OPCODE_TEXREG2AR:
break;
case TGSI_OPCODE_TEXM3X2PAD:
break;
case TGSI_OPCODE_TEXM3X2TEX:
break;
case TGSI_OPCODE_TEXM3X3PAD:
break;
case TGSI_OPCODE_TEXM3X3TEX:
break;
case TGSI_OPCODE_TEXM3X3SPEC:
break;
case TGSI_OPCODE_TEXM3X3VSPEC:
break;
case TGSI_OPCODE_TEXREG2GB:
break;
case TGSI_OPCODE_TEXREG2RGB:
break;
case TGSI_OPCODE_TEXDP3TEX:
break;
case TGSI_OPCODE_TEXDP3:
break;
case TGSI_OPCODE_TEXM3X3:
break;
case TGSI_OPCODE_TEXM3X2DEPTH:
break;
case TGSI_OPCODE_TEXDEPTH:
break;
case TGSI_OPCODE_BEM:
break;
case TGSI_OPCODE_M4X3:
break;
case TGSI_OPCODE_M3X4:
break;
case TGSI_OPCODE_M3X3:
break;
case TGSI_OPCODE_M3X2:
break;
case TGSI_OPCODE_NRM4:
break;
case TGSI_OPCODE_CALLNZ:
break;
case TGSI_OPCODE_IFC:
break;
case TGSI_OPCODE_BREAKC:
break;
case TGSI_OPCODE_KIL:
break;
case TGSI_OPCODE_END:
instr->end();
return;
break;
default:
fprintf(stderr, "ERROR: Unknown opcode %d\n",
inst->Instruction.Opcode);
assert(0);
break;
}
if (!out) {
fprintf(stderr, "ERROR: unsupported opcode %d\n",
inst->Instruction.Opcode);
assert(!"Unsupported opcode");
}
/* # not sure if we need this */
switch( inst->Instruction.Saturate ) {
case TGSI_SAT_NONE:
break;
case TGSI_SAT_ZERO_ONE:
/*TXT( "_SAT" );*/
break;
case TGSI_SAT_MINUS_PLUS_ONE:
/*TXT( "_SAT[-1,1]" );*/
break;
default:
assert( 0 );
}
/* store results */
for (int i = 0; i < inst->Instruction.NumDstRegs; ++i) {
struct tgsi_full_dst_register *dst = &inst->FullDstRegisters[i];
if (dst->DstRegister.File == TGSI_FILE_OUTPUT) {
storage->setOutputElement(dst->DstRegister.Index, out, dst->DstRegister.WriteMask);
} else if (dst->DstRegister.File == TGSI_FILE_TEMPORARY) {
storage->setTempElement(dst->DstRegister.Index, out, dst->DstRegister.WriteMask);
} else if (dst->DstRegister.File == TGSI_FILE_ADDRESS) {
storage->setAddrElement(dst->DstRegister.Index, out, dst->DstRegister.WriteMask);
} else {
fprintf(stderr, "ERROR: unsupported LLVM destination!");
assert(!"wrong destination");
}
}
}
static llvm::Module *
tgsi_to_llvm(struct gallivm_prog *prog, const struct tgsi_token *tokens)
{
llvm::Module *mod = createBaseShader();
struct tgsi_parse_context parse;
struct tgsi_full_instruction fi;
struct tgsi_full_declaration fd;
unsigned instno = 0;
Function* shader = mod->getFunction("execute_shader");
std::ostringstream stream;
stream << "execute_shader";
stream << prog->id;
std::string func_name = stream.str();
shader->setName(func_name.c_str());
Function::arg_iterator args = shader->arg_begin();
Value *ptr_INPUT = args++;
ptr_INPUT->setName("input");
BasicBlock *label_entry = new BasicBlock("entry", shader, 0);
tgsi_parse_init(&parse, tokens);
fi = tgsi_default_full_instruction();
fd = tgsi_default_full_declaration();
Storage storage(label_entry, ptr_INPUT);
Instructions instr(mod, shader, label_entry, &storage);
while(!tgsi_parse_end_of_tokens(&parse)) {
tgsi_parse_token(&parse);
switch (parse.FullToken.Token.Type) {
case TGSI_TOKEN_TYPE_DECLARATION:
translate_declaration(prog, mod, &storage,
&parse.FullToken.FullDeclaration,
&fd);
break;
case TGSI_TOKEN_TYPE_IMMEDIATE:
translate_immediate(&storage,
&parse.FullToken.FullImmediate);
break;
case TGSI_TOKEN_TYPE_INSTRUCTION:
translate_instruction(mod, &storage, &instr,
&parse.FullToken.FullInstruction,
&fi, instno);
++instno;
break;
default:
assert(0);
}
}
tgsi_parse_free(&parse);
prog->num_consts = storage.numConsts();
return mod;
}
/*!
Translates the TGSI tokens into LLVM format. Translated representation
is stored in the gallivm_prog and returned.
After calling this function the gallivm_prog can either be used with a custom
code generator to generate machine code for the GPU which the code generator
addresses or it can be jit compiled with gallivm_cpu_jit_compile and executed
with gallivm_prog_exec to run the module on the CPU.
*/
struct gallivm_prog *
gallivm_from_tgsi(const struct tgsi_token *tokens, enum gallivm_shader_type type)
{
std::cout << "Creating llvm from: " <<std::endl;
++GLOBAL_ID;
struct gallivm_prog *gallivm =
(struct gallivm_prog *)calloc(1, sizeof(struct gallivm_prog));
gallivm->id = GLOBAL_ID;
tgsi_dump(tokens, 0);
llvm::Module *mod = tgsi_to_llvm(gallivm, tokens);
gallivm->module = mod;
gallivm_prog_dump(gallivm, 0);
/* Run optimization passes over it */
PassManager passes;
passes.add(new TargetData(mod));
AddStandardCompilePasses(passes);
passes.run(*mod);
gallivm->module = mod;
gallivm->type = type;
gallivm_prog_dump(gallivm, 0);
return gallivm;
}
void gallivm_prog_delete(struct gallivm_prog *prog)
{
llvm::Module *mod = static_cast<llvm::Module*>(prog->module);
delete mod;
prog->module = 0;
prog->function = 0;
free(prog);
}
typedef void (*vertex_shader_runner)(float (*ainputs)[PIPE_MAX_SHADER_INPUTS][4],
float (*dests)[PIPE_MAX_SHADER_INPUTS][4],
float (*aconsts)[4],
int num_vertices,
int num_inputs,
int num_attribs,
int num_consts);
/*!
This function is used to execute the gallivm_prog in software. Before calling
this function the gallivm_prog has to be JIT compiled with the gallivm_cpu_jit_compile
function.
*/
int gallivm_prog_exec(struct gallivm_prog *prog,
float (*inputs)[PIPE_MAX_SHADER_INPUTS][4],
float (*dests)[PIPE_MAX_SHADER_INPUTS][4],
float (*consts)[4],
int num_vertices,
int num_inputs,
int num_attribs)
{
vertex_shader_runner runner = reinterpret_cast<vertex_shader_runner>(prog->function);
assert(runner);
runner(inputs, dests, consts, num_vertices, num_inputs,
num_attribs, prog->num_consts);
return 0;
}
static inline void
constant_interpolation(float (*inputs)[16][4],
const struct tgsi_interp_coef *coefs,
unsigned attrib,
unsigned chan)
{
unsigned i;
for (i = 0; i < QUAD_SIZE; ++i) {
inputs[i][attrib][chan] = coefs[attrib].a0[chan];
}
}
static inline void
linear_interpolation(float (*inputs)[16][4],
const struct tgsi_interp_coef *coefs,
unsigned attrib,
unsigned chan)
{
unsigned i;
for( i = 0; i < QUAD_SIZE; i++ ) {
const float x = inputs[i][0][0];
const float y = inputs[i][0][1];
inputs[i][attrib][chan] =
coefs[attrib].a0[chan] +
coefs[attrib].dadx[chan] * x +
coefs[attrib].dady[chan] * y;
}
}
static inline void
perspective_interpolation(float (*inputs)[16][4],
const struct tgsi_interp_coef *coefs,
unsigned attrib,
unsigned chan )
{
unsigned i;
for( i = 0; i < QUAD_SIZE; i++ ) {
const float x = inputs[i][0][0];
const float y = inputs[i][0][1];
/* WPOS.w here is really 1/w */
const float w = 1.0f / inputs[i][0][3];
assert(inputs[i][0][3] != 0.0);
inputs[i][attrib][chan] =
(coefs[attrib].a0[chan] +
coefs[attrib].dadx[chan] * x +
coefs[attrib].dady[chan] * y) * w;
}
}
typedef int (*fragment_shader_runner)(float x, float y,
float (*dests)[16][4],
float (*inputs)[16][4],
int num_attribs,
float (*consts)[4], int num_consts,
struct tgsi_sampler *samplers);
int gallivm_fragment_shader_exec(struct gallivm_prog *prog,
float fx, float fy,
float (*dests)[16][4],
float (*inputs)[16][4],
float (*consts)[4],
struct tgsi_sampler *samplers)
{
fragment_shader_runner runner = reinterpret_cast<fragment_shader_runner>(prog->function);
assert(runner);
return runner(fx, fy, dests, inputs, prog->num_interp,
consts, prog->num_consts,
samplers);
}
void gallivm_prog_dump(struct gallivm_prog *prog, const char *file_prefix)
{
llvm::Module *mod;
if (!prog || !prog->module)
return;
mod = static_cast<llvm::Module*>(prog->module);
if (file_prefix) {
std::ostringstream stream;
stream << file_prefix;
stream << prog->id;
stream << ".ll";
std::string name = stream.str();
std::ofstream out(name.c_str());
if (!out) {
std::cerr<<"Can't open file : "<<stream.str()<<std::endl;;
return;
}
out << (*mod);
out.close();
} else {
const llvm::Module::FunctionListType &funcs = mod->getFunctionList();
llvm::Module::FunctionListType::const_iterator itr;
std::cout<<"; ---------- Start shader "<<prog->id<<std::endl;
for (itr = funcs.begin(); itr != funcs.end(); ++itr) {
const llvm::Function &func = (*itr);
std::string name = func.getName();
const llvm::Function *found = 0;
if (name.find("execute_shader") != std::string::npos ||
name.find("function") != std::string::npos)
found = &func;
if (found) {
std::cout<<*found<<std::endl;
}
}
std::cout<<"; ---------- End shader "<<prog->id<<std::endl;
}
}
static struct gallivm_cpu_engine *CPU = 0;
static inline llvm::Function *func_for_shader(struct gallivm_prog *prog)
{
llvm::Module *mod = prog->module;
llvm::Function *func = 0;
switch (prog->type) {
case GALLIVM_VS:
func = mod->getFunction("run_vertex_shader");
break;
case GALLIVM_FS:
func = mod->getFunction("run_fragment_shader");
break;
default:
assert(!"Unknown shader type!");
break;
}
return func;
}
/*!
This function creates a CPU based execution engine for the given gallivm_prog.
gallivm_cpu_engine should be used as a singleton throughout the library. Before
executing gallivm_prog_exec one needs to call gallivm_cpu_jit_compile.
The gallivm_prog instance which is being passed to the constructor is being
automatically JIT compiled so one shouldn't call gallivm_cpu_jit_compile
with it again.
*/
struct gallivm_cpu_engine * gallivm_cpu_engine_create(struct gallivm_prog *prog)
{
struct gallivm_cpu_engine *cpu = (struct gallivm_cpu_engine *)
calloc(1, sizeof(struct gallivm_cpu_engine));
llvm::Module *mod = static_cast<llvm::Module*>(prog->module);
llvm::ExistingModuleProvider *mp = new llvm::ExistingModuleProvider(mod);
llvm::ExecutionEngine *ee = llvm::ExecutionEngine::create(mp, false);
cpu->engine = ee;
llvm::Function *func = func_for_shader(prog);
prog->function = ee->getPointerToFunctionOrStub(func);
CPU = cpu;
return cpu;
}
/*!
This function JIT compiles the given gallivm_prog with the given cpu based execution engine.
The reference to the generated machine code entry point will be stored
in the gallivm_prog program. After executing this function one can call gallivm_prog_exec
in order to execute the gallivm_prog on the CPU.
*/
void gallivm_cpu_jit_compile(struct gallivm_cpu_engine *cpu, struct gallivm_prog *prog)
{
llvm::Module *mod = static_cast<llvm::Module*>(prog->module);
llvm::ExistingModuleProvider *mp = new llvm::ExistingModuleProvider(mod);
llvm::ExecutionEngine *ee = cpu->engine;
assert(ee);
ee->addModuleProvider(mp);
llvm::Function *func = func_for_shader(prog);
prog->function = ee->getPointerToFunctionOrStub(func);
}
void gallivm_cpu_engine_delete(struct gallivm_cpu_engine *cpu)
{
free(cpu);
}
struct gallivm_cpu_engine * gallivm_global_cpu_engine()
{
return CPU;
}
void gallivm_prog_inputs_interpolate(struct gallivm_prog *prog,
float (*inputs)[16][4],
const struct tgsi_interp_coef *coef)
{
for (int i = 0; i < prog->num_interp; ++i) {
const gallivm_interpolate &interp = prog->interpolators[i];
switch (interp.type) {
case TGSI_INTERPOLATE_CONSTANT:
constant_interpolation(inputs, coef, interp.attrib, interp.chan);
break;
case TGSI_INTERPOLATE_LINEAR:
linear_interpolation(inputs, coef, interp.attrib, interp.chan);
break;
case TGSI_INTERPOLATE_PERSPECTIVE:
perspective_interpolation(inputs, coef, interp.attrib, interp.chan);
break;
default:
assert( 0 );
}
}
}
#endif /* MESA_LLVM */
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