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/*
* Copyright 2011 Christoph Bumiller
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*/
#include "codegen/nv50_ir.h"
#include "codegen/nv50_ir_target.h"
namespace nv50_ir {
const uint8_t Target::operationSrcNr[] =
{
0, 0, // NOP, PHI
0, 0, 0, 0, // UNION, SPLIT, MERGE, CONSTRAINT
1, 1, 2, // MOV, LOAD, STORE
2, 2, 2, 2, 2, 3, 3, 3, // ADD, SUB, MUL, DIV, MOD, MAD, FMA, SAD
1, 1, 1, // ABS, NEG, NOT
2, 2, 2, 2, 2, // AND, OR, XOR, SHL, SHR
2, 2, 1, // MAX, MIN, SAT
1, 1, 1, 1, // CEIL, FLOOR, TRUNC, CVT
3, 3, 3, 2, 3, 3, // SET_AND,OR,XOR, SET, SELP, SLCT
1, 1, 1, 1, 1, 1, // RCP, RSQ, LG2, SIN, COS, EX2
1, 1, 1, 1, 1, 2, // EXP, LOG, PRESIN, PREEX2, SQRT, POW
0, 0, 0, 0, 0, // BRA, CALL, RET, CONT, BREAK,
0, 0, 0, // PRERET,CONT,BREAK
0, 0, 0, 0, 0, 0, // BRKPT, JOINAT, JOIN, DISCARD, EXIT, MEMBAR
1, 1, 1, 2, 1, 2, // VFETCH, PFETCH, AFETCH, EXPORT, LINTERP, PINTERP
1, 1, // EMIT, RESTART
1, 1, 1, // TEX, TXB, TXL,
1, 1, 1, 1, 1, 1, 2, // TXF, TXQ, TXD, TXG, TXLQ, TEXCSAA, TEXPREP
1, 1, 2, 2, 2, 2, 2, // SULDB, SULDP, SUSTB, SUSTP, SUREDB, SUREDP, SULEA
3, 3, 3, 1, 3, // SUBFM, SUCLAMP, SUEAU, SUQ, MADSP
0, // TEXBAR
1, 1, // DFDX, DFDY
1, 2, 1, 2, 0, 0, // RDSV, WRSV, PIXLD, QUADOP, QUADON, QUADPOP
2, 3, 2, 1, 3, // POPCNT, INSBF, EXTBF, BFIND, PERMT
2, 2, // ATOM, BAR
2, 2, 2, 2, 3, 2, // VADD, VAVG, VMIN, VMAX, VSAD, VSET,
2, 2, 2, 1, // VSHR, VSHL, VSEL, CCTL
3, // SHFL
1, // VOTE
0
};
const OpClass Target::operationClass[] =
{
// NOP; PHI; UNION, SPLIT, MERGE, CONSTRAINT
OPCLASS_OTHER,
OPCLASS_PSEUDO,
OPCLASS_PSEUDO, OPCLASS_PSEUDO, OPCLASS_PSEUDO, OPCLASS_PSEUDO,
// MOV; LOAD; STORE
OPCLASS_MOVE,
OPCLASS_LOAD,
OPCLASS_STORE,
// ADD, SUB, MUL; DIV, MOD; MAD, FMA, SAD
OPCLASS_ARITH, OPCLASS_ARITH, OPCLASS_ARITH,
OPCLASS_ARITH, OPCLASS_ARITH,
OPCLASS_ARITH, OPCLASS_ARITH, OPCLASS_ARITH,
// ABS, NEG; NOT, AND, OR, XOR; SHL, SHR
OPCLASS_CONVERT, OPCLASS_CONVERT,
OPCLASS_LOGIC, OPCLASS_LOGIC, OPCLASS_LOGIC, OPCLASS_LOGIC,
OPCLASS_SHIFT, OPCLASS_SHIFT,
// MAX, MIN
OPCLASS_COMPARE, OPCLASS_COMPARE,
// SAT, CEIL, FLOOR, TRUNC; CVT
OPCLASS_CONVERT, OPCLASS_CONVERT, OPCLASS_CONVERT, OPCLASS_CONVERT,
OPCLASS_CONVERT,
// SET(AND,OR,XOR); SELP, SLCT
OPCLASS_COMPARE, OPCLASS_COMPARE, OPCLASS_COMPARE, OPCLASS_COMPARE,
OPCLASS_COMPARE, OPCLASS_COMPARE,
// RCP, RSQ, LG2, SIN, COS; EX2, EXP, LOG, PRESIN, PREEX2; SQRT, POW
OPCLASS_SFU, OPCLASS_SFU, OPCLASS_SFU, OPCLASS_SFU, OPCLASS_SFU,
OPCLASS_SFU, OPCLASS_SFU, OPCLASS_SFU, OPCLASS_SFU, OPCLASS_SFU,
OPCLASS_SFU, OPCLASS_SFU,
// BRA, CALL, RET; CONT, BREAK, PRE(RET,CONT,BREAK); BRKPT, JOINAT, JOIN
OPCLASS_FLOW, OPCLASS_FLOW, OPCLASS_FLOW,
OPCLASS_FLOW, OPCLASS_FLOW, OPCLASS_FLOW, OPCLASS_FLOW, OPCLASS_FLOW,
OPCLASS_FLOW, OPCLASS_FLOW, OPCLASS_FLOW,
// DISCARD, EXIT
OPCLASS_FLOW, OPCLASS_FLOW,
// MEMBAR
OPCLASS_CONTROL,
// VFETCH, PFETCH, AFETCH, EXPORT
OPCLASS_LOAD, OPCLASS_OTHER, OPCLASS_OTHER, OPCLASS_STORE,
// LINTERP, PINTERP
OPCLASS_SFU, OPCLASS_SFU,
// EMIT, RESTART
OPCLASS_CONTROL, OPCLASS_CONTROL,
// TEX, TXB, TXL, TXF; TXQ, TXD, TXG, TXLQ; TEXCSAA, TEXPREP
OPCLASS_TEXTURE, OPCLASS_TEXTURE, OPCLASS_TEXTURE, OPCLASS_TEXTURE,
OPCLASS_TEXTURE, OPCLASS_TEXTURE, OPCLASS_TEXTURE, OPCLASS_TEXTURE,
OPCLASS_TEXTURE, OPCLASS_TEXTURE,
// SULDB, SULDP, SUSTB, SUSTP; SUREDB, SUREDP, SULEA
OPCLASS_SURFACE, OPCLASS_SURFACE, OPCLASS_ATOMIC, OPCLASS_SURFACE,
OPCLASS_SURFACE, OPCLASS_SURFACE, OPCLASS_SURFACE,
// SUBFM, SUCLAMP, SUEAU, SUQ, MADSP
OPCLASS_OTHER, OPCLASS_OTHER, OPCLASS_OTHER, OPCLASS_OTHER, OPCLASS_ARITH,
// TEXBAR
OPCLASS_OTHER,
// DFDX, DFDY, RDSV, WRSV; PIXLD, QUADOP, QUADON, QUADPOP
OPCLASS_OTHER, OPCLASS_OTHER, OPCLASS_OTHER, OPCLASS_OTHER,
OPCLASS_OTHER, OPCLASS_OTHER, OPCLASS_CONTROL, OPCLASS_CONTROL,
// POPCNT, INSBF, EXTBF, BFIND; PERMT
OPCLASS_BITFIELD, OPCLASS_BITFIELD, OPCLASS_BITFIELD, OPCLASS_BITFIELD,
OPCLASS_BITFIELD,
// ATOM, BAR
OPCLASS_ATOMIC, OPCLASS_CONTROL,
// VADD, VAVG, VMIN, VMAX
OPCLASS_VECTOR, OPCLASS_VECTOR, OPCLASS_VECTOR, OPCLASS_VECTOR,
// VSAD, VSET, VSHR, VSHL
OPCLASS_VECTOR, OPCLASS_VECTOR, OPCLASS_VECTOR, OPCLASS_VECTOR,
// VSEL, CCTL
OPCLASS_VECTOR, OPCLASS_CONTROL,
// SHFL
OPCLASS_OTHER,
// VOTE
OPCLASS_OTHER,
OPCLASS_PSEUDO // LAST
};
extern Target *getTargetGM107(unsigned int chipset);
extern Target *getTargetNVC0(unsigned int chipset);
extern Target *getTargetNV50(unsigned int chipset);
Target *Target::create(unsigned int chipset)
{
STATIC_ASSERT(Elements(operationSrcNr) == OP_LAST + 1);
STATIC_ASSERT(Elements(operationClass) == OP_LAST + 1);
switch (chipset & ~0xf) {
case 0x110:
case 0x120:
return getTargetGM107(chipset);
case 0xc0:
case 0xd0:
case 0xe0:
case 0xf0:
case 0x100:
return getTargetNVC0(chipset);
case 0x50:
case 0x80:
case 0x90:
case 0xa0:
return getTargetNV50(chipset);
default:
ERROR("unsupported target: NV%x\n", chipset);
return 0;
}
}
void Target::destroy(Target *targ)
{
delete targ;
}
CodeEmitter::CodeEmitter(const Target *target) : targ(target), interpInfo(NULL)
{
}
void
CodeEmitter::setCodeLocation(void *ptr, uint32_t size)
{
code = reinterpret_cast<uint32_t *>(ptr);
codeSize = 0;
codeSizeLimit = size;
}
void
CodeEmitter::printBinary() const
{
uint32_t *bin = code - codeSize / 4;
INFO("program binary (%u bytes)", codeSize);
for (unsigned int pos = 0; pos < codeSize / 4; ++pos) {
if ((pos % 8) == 0)
INFO("\n");
INFO("%08x ", bin[pos]);
}
INFO("\n");
}
static inline uint32_t sizeToBundlesNVE4(uint32_t size)
{
return (size + 55) / 56;
}
void
CodeEmitter::prepareEmission(Program *prog)
{
for (ArrayList::Iterator fi = prog->allFuncs.iterator();
!fi.end(); fi.next()) {
Function *func = reinterpret_cast<Function *>(fi.get());
func->binPos = prog->binSize;
prepareEmission(func);
// adjust sizes & positions for schedulding info:
if (prog->getTarget()->hasSWSched) {
uint32_t adjPos = func->binPos;
BasicBlock *bb = NULL;
for (int i = 0; i < func->bbCount; ++i) {
bb = func->bbArray[i];
int32_t adjSize = bb->binSize;
if (adjPos % 64) {
adjSize -= 64 - adjPos % 64;
if (adjSize < 0)
adjSize = 0;
}
adjSize = bb->binSize + sizeToBundlesNVE4(adjSize) * 8;
bb->binPos = adjPos;
bb->binSize = adjSize;
adjPos += adjSize;
}
if (bb)
func->binSize = adjPos - func->binPos;
}
prog->binSize += func->binSize;
}
}
void
CodeEmitter::prepareEmission(Function *func)
{
func->bbCount = 0;
func->bbArray = new BasicBlock * [func->cfg.getSize()];
BasicBlock::get(func->cfg.getRoot())->binPos = func->binPos;
for (IteratorRef it = func->cfg.iteratorCFG(); !it->end(); it->next())
prepareEmission(BasicBlock::get(*it));
}
void
CodeEmitter::prepareEmission(BasicBlock *bb)
{
Instruction *i, *next;
Function *func = bb->getFunction();
int j;
unsigned int nShort;
for (j = func->bbCount - 1; j >= 0 && !func->bbArray[j]->binSize; --j);
for (; j >= 0; --j) {
BasicBlock *in = func->bbArray[j];
Instruction *exit = in->getExit();
if (exit && exit->op == OP_BRA && exit->asFlow()->target.bb == bb) {
in->binSize -= 8;
func->binSize -= 8;
for (++j; j < func->bbCount; ++j)
func->bbArray[j]->binPos -= 8;
in->remove(exit);
}
bb->binPos = in->binPos + in->binSize;
if (in->binSize) // no more no-op branches to bb
break;
}
func->bbArray[func->bbCount++] = bb;
if (!bb->getExit())
return;
// determine encoding size, try to group short instructions
nShort = 0;
for (i = bb->getEntry(); i; i = next) {
next = i->next;
if (i->op == OP_MEMBAR && !targ->isOpSupported(OP_MEMBAR, TYPE_NONE)) {
bb->remove(i);
continue;
}
i->encSize = getMinEncodingSize(i);
if (next && i->encSize < 8)
++nShort;
else
if ((nShort & 1) && next && getMinEncodingSize(next) == 4) {
if (i->isCommutationLegal(i->next)) {
bb->permuteAdjacent(i, next);
next->encSize = 4;
next = i;
i = i->prev;
++nShort;
} else
if (i->isCommutationLegal(i->prev) && next->next) {
bb->permuteAdjacent(i->prev, i);
next->encSize = 4;
next = next->next;
bb->binSize += 4;
++nShort;
} else {
i->encSize = 8;
i->prev->encSize = 8;
bb->binSize += 4;
nShort = 0;
}
} else {
i->encSize = 8;
if (nShort & 1) {
i->prev->encSize = 8;
bb->binSize += 4;
}
nShort = 0;
}
bb->binSize += i->encSize;
}
if (bb->getExit()->encSize == 4) {
assert(nShort);
bb->getExit()->encSize = 8;
bb->binSize += 4;
if ((bb->getExit()->prev->encSize == 4) && !(nShort & 1)) {
bb->binSize += 8;
bb->getExit()->prev->encSize = 8;
}
}
assert(!bb->getEntry() || (bb->getExit() && bb->getExit()->encSize == 8));
func->binSize += bb->binSize;
}
void
Program::emitSymbolTable(struct nv50_ir_prog_info *info)
{
unsigned int n = 0, nMax = allFuncs.getSize();
info->bin.syms =
(struct nv50_ir_prog_symbol *)MALLOC(nMax * sizeof(*info->bin.syms));
for (ArrayList::Iterator fi = allFuncs.iterator();
!fi.end();
fi.next(), ++n) {
Function *f = (Function *)fi.get();
assert(n < nMax);
info->bin.syms[n].label = f->getLabel();
info->bin.syms[n].offset = f->binPos;
}
info->bin.numSyms = n;
}
bool
Program::emitBinary(struct nv50_ir_prog_info *info)
{
CodeEmitter *emit = target->getCodeEmitter(progType);
emit->prepareEmission(this);
if (dbgFlags & NV50_IR_DEBUG_BASIC)
this->print();
if (!binSize) {
code = NULL;
return false;
}
code = reinterpret_cast<uint32_t *>(MALLOC(binSize));
if (!code)
return false;
emit->setCodeLocation(code, binSize);
info->bin.instructions = 0;
for (ArrayList::Iterator fi = allFuncs.iterator(); !fi.end(); fi.next()) {
Function *fn = reinterpret_cast<Function *>(fi.get());
assert(emit->getCodeSize() == fn->binPos);
for (int b = 0; b < fn->bbCount; ++b) {
for (Instruction *i = fn->bbArray[b]->getEntry(); i; i = i->next) {
emit->emitInstruction(i);
info->bin.instructions++;
if (i->sType == TYPE_F64 || i->dType == TYPE_F64)
info->io.fp64 = true;
}
}
}
info->bin.relocData = emit->getRelocInfo();
info->bin.interpData = emit->getInterpInfo();
emitSymbolTable(info);
// the nvc0 driver will print the binary iself together with the header
if ((dbgFlags & NV50_IR_DEBUG_BASIC) && getTarget()->getChipset() < 0xc0)
emit->printBinary();
delete emit;
return true;
}
#define RELOC_ALLOC_INCREMENT 8
bool
CodeEmitter::addReloc(RelocEntry::Type ty, int w, uint32_t data, uint32_t m,
int s)
{
unsigned int n = relocInfo ? relocInfo->count : 0;
if (!(n % RELOC_ALLOC_INCREMENT)) {
size_t size = sizeof(RelocInfo) + n * sizeof(RelocEntry);
relocInfo = reinterpret_cast<RelocInfo *>(
REALLOC(relocInfo, n ? size : 0,
size + RELOC_ALLOC_INCREMENT * sizeof(RelocEntry)));
if (!relocInfo)
return false;
if (n == 0)
memset(relocInfo, 0, sizeof(RelocInfo));
}
++relocInfo->count;
relocInfo->entry[n].data = data;
relocInfo->entry[n].mask = m;
relocInfo->entry[n].offset = codeSize + w * 4;
relocInfo->entry[n].bitPos = s;
relocInfo->entry[n].type = ty;
return true;
}
bool
CodeEmitter::addInterp(int ipa, int reg, InterpApply apply)
{
unsigned int n = interpInfo ? interpInfo->count : 0;
if (!(n % RELOC_ALLOC_INCREMENT)) {
size_t size = sizeof(InterpInfo) + n * sizeof(InterpEntry);
interpInfo = reinterpret_cast<InterpInfo *>(
REALLOC(interpInfo, n ? size : 0,
size + RELOC_ALLOC_INCREMENT * sizeof(InterpEntry)));
if (!interpInfo)
return false;
if (n == 0)
memset(interpInfo, 0, sizeof(InterpInfo));
}
++interpInfo->count;
interpInfo->entry[n] = InterpEntry(ipa, reg, codeSize >> 2);
interpInfo->apply = apply;
return true;
}
void
RelocEntry::apply(uint32_t *binary, const RelocInfo *info) const
{
uint32_t value = 0;
switch (type) {
case TYPE_CODE: value = info->codePos; break;
case TYPE_BUILTIN: value = info->libPos; break;
case TYPE_DATA: value = info->dataPos; break;
default:
assert(0);
break;
}
value += data;
value = (bitPos < 0) ? (value >> -bitPos) : (value << bitPos);
binary[offset / 4] &= ~mask;
binary[offset / 4] |= value & mask;
}
} // namespace nv50_ir
#include "codegen/nv50_ir_driver.h"
extern "C" {
void
nv50_ir_relocate_code(void *relocData, uint32_t *code,
uint32_t codePos,
uint32_t libPos,
uint32_t dataPos)
{
nv50_ir::RelocInfo *info = reinterpret_cast<nv50_ir::RelocInfo *>(relocData);
info->codePos = codePos;
info->libPos = libPos;
info->dataPos = dataPos;
for (unsigned int i = 0; i < info->count; ++i)
info->entry[i].apply(code, info);
}
void
nv50_ir_change_interp(void *interpData, uint32_t *code,
bool force_persample_interp, bool flatshade)
{
nv50_ir::InterpInfo *info = reinterpret_cast<nv50_ir::InterpInfo *>(
interpData);
// force_persample_interp: all non-flat -> per-sample
// flatshade: all color -> flat
for (unsigned i = 0; i < info->count; ++i)
info->apply(&info->entry[i], code, force_persample_interp, flatshade);
}
void
nv50_ir_get_target_library(uint32_t chipset,
const uint32_t **code, uint32_t *size)
{
nv50_ir::Target *targ = nv50_ir::Target::create(chipset);
targ->getBuiltinCode(code, size);
nv50_ir::Target::destroy(targ);
}
}
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