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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.
*/
#ifndef __NV50_IR_BUILD_UTIL__
#define __NV50_IR_BUILD_UTIL__
namespace nv50_ir {
class BuildUtil
{
public:
BuildUtil();
BuildUtil(Program *);
inline void setProgram(Program *);
inline Program *getProgram() const { return prog; }
inline Function *getFunction() const { return func; }
// keeps inserting at head/tail of block
inline void setPosition(BasicBlock *, bool tail);
// position advances only if @after is true
inline void setPosition(Instruction *, bool after);
inline BasicBlock *getBB() { return bb; }
inline void insert(Instruction *);
inline void remove(Instruction *i) { assert(i->bb == bb); bb->remove(i); }
inline LValue *getScratch(int size = 4, DataFile = FILE_GPR);
// scratch value for a single assignment:
inline LValue *getSSA(int size = 4, DataFile = FILE_GPR);
inline Instruction *mkOp(operation, DataType, Value *);
Instruction *mkOp1(operation, DataType, Value *, Value *);
Instruction *mkOp2(operation, DataType, Value *, Value *, Value *);
Instruction *mkOp3(operation, DataType, Value *, Value *, Value *, Value *);
LValue *mkOp1v(operation, DataType, Value *, Value *);
LValue *mkOp2v(operation, DataType, Value *, Value *, Value *);
LValue *mkOp3v(operation, DataType, Value *, Value *, Value *, Value *);
Instruction *mkLoad(DataType, Value *dst, Symbol *, Value *ptr);
Instruction *mkStore(operation, DataType, Symbol *, Value *ptr, Value *val);
LValue *mkLoadv(DataType, Symbol *, Value *ptr);
Instruction *mkMov(Value *, Value *, DataType = TYPE_U32);
Instruction *mkMovToReg(int id, Value *);
Instruction *mkMovFromReg(Value *, int id);
Instruction *mkInterp(unsigned mode, Value *, int32_t offset, Value *rel);
Instruction *mkFetch(Value *, DataType, DataFile, int32_t offset,
Value *attrRel, Value *primRel);
Instruction *mkCvt(operation, DataType, Value *, DataType, Value *);
CmpInstruction *mkCmp(operation, CondCode, DataType,
Value *,
DataType, Value *, Value *, Value * = NULL);
TexInstruction *mkTex(operation, TexTarget,
uint16_t tic, uint16_t tsc,
const std::vector<Value *> &def,
const std::vector<Value *> &src);
Instruction *mkQuadop(uint8_t qop, Value *, uint8_t l, Value *, Value *);
FlowInstruction *mkFlow(operation, void *target, CondCode, Value *pred);
Instruction *mkSelect(Value *pred, Value *dst, Value *trSrc, Value *flSrc);
Instruction *mkSplit(Value *half[2], uint8_t halfSize, Value *);
void mkClobber(DataFile file, uint32_t regMask, int regUnitLog2);
ImmediateValue *mkImm(float);
ImmediateValue *mkImm(uint32_t);
ImmediateValue *mkImm(uint64_t);
ImmediateValue *mkImm(int i) { return mkImm((uint32_t)i); }
Value *loadImm(Value *dst, float);
Value *loadImm(Value *dst, uint32_t);
Value *loadImm(Value *dst, uint64_t);
Value *loadImm(Value *dst, int i) { return loadImm(dst, (uint32_t)i); }
// returns high part of the operation
static Instruction *split64BitOpPostRA(Function *, Instruction *,
Value *zero, Value *carry);
struct Location
{
Location(unsigned array, unsigned arrayIdx, unsigned i, unsigned c)
: array(array), arrayIdx(arrayIdx), i(i), c(c) { }
Location(const Location &l)
: array(l.array), arrayIdx(l.arrayIdx), i(l.i), c(l.c) { }
bool operator==(const Location &l) const
{
return
array == l.array && arrayIdx == l.arrayIdx && i == l.i && c == l.c;
}
bool operator<(const Location &l) const
{
return array != l.array ? array < l.array :
arrayIdx != l.arrayIdx ? arrayIdx < l.arrayIdx :
i != l.i ? i < l.i :
c != l.c ? c < l.c :
false;
}
unsigned array, arrayIdx, i, c;
};
typedef bimap<Location, Value *> ValueMap;
class DataArray
{
public:
DataArray(BuildUtil *bld) : up(bld) { }
void setup(unsigned array, unsigned arrayIdx,
uint32_t base, int len, int vecDim, int eltSize,
DataFile file, int8_t fileIdx);
inline bool exists(ValueMap&, unsigned int i, unsigned int c);
Value *load(ValueMap&, int i, int c, Value *ptr);
void store(ValueMap&, int i, int c, Value *ptr, Value *value);
Value *acquire(ValueMap&, int i, int c);
private:
inline Value *lookup(ValueMap&, unsigned i, unsigned c);
inline Value *insert(ValueMap&, unsigned i, unsigned c, Value *v);
Symbol *mkSymbol(int i, int c);
private:
BuildUtil *up;
unsigned array, arrayIdx;
uint32_t baseAddr;
uint32_t arrayLen;
Symbol *baseSym;
uint8_t vecDim;
uint8_t eltSize; // in bytes
DataFile file;
bool regOnly;
};
Symbol *mkSymbol(DataFile file, int8_t fileIndex,
DataType ty, uint32_t baseAddress);
Symbol *mkSysVal(SVSemantic svName, uint32_t svIndex);
private:
void init(Program *);
void addImmediate(ImmediateValue *);
inline unsigned int u32Hash(uint32_t);
protected:
Program *prog;
Function *func;
Instruction *pos;
BasicBlock *bb;
bool tail;
#define NV50_IR_BUILD_IMM_HT_SIZE 256
ImmediateValue *imms[NV50_IR_BUILD_IMM_HT_SIZE];
unsigned int immCount;
};
unsigned int BuildUtil::u32Hash(uint32_t u)
{
return (u % 273) % NV50_IR_BUILD_IMM_HT_SIZE;
}
void BuildUtil::setProgram(Program *program)
{
prog = program;
}
void
BuildUtil::setPosition(BasicBlock *block, bool atTail)
{
bb = block;
prog = bb->getProgram();
func = bb->getFunction();
pos = NULL;
tail = atTail;
}
void
BuildUtil::setPosition(Instruction *i, bool after)
{
bb = i->bb;
prog = bb->getProgram();
func = bb->getFunction();
pos = i;
tail = after;
assert(bb);
}
LValue *
BuildUtil::getScratch(int size, DataFile f)
{
LValue *lval = new_LValue(func, f);
lval->reg.size = size;
return lval;
}
LValue *
BuildUtil::getSSA(int size, DataFile f)
{
LValue *lval = new_LValue(func, f);
lval->ssa = 1;
lval->reg.size = size;
return lval;
}
void BuildUtil::insert(Instruction *i)
{
if (!pos) {
tail ? bb->insertTail(i) : bb->insertHead(i);
} else {
if (tail) {
bb->insertAfter(pos, i);
pos = i;
} else {
bb->insertBefore(pos, i);
}
}
}
Instruction *
BuildUtil::mkOp(operation op, DataType ty, Value *dst)
{
Instruction *insn = new_Instruction(func, op, ty);
insn->setDef(0, dst);
insert(insn);
if (op == OP_DISCARD || op == OP_EXIT ||
op == OP_JOIN ||
op == OP_QUADON || op == OP_QUADPOP ||
op == OP_EMIT || op == OP_RESTART)
insn->fixed = 1;
return insn;
}
inline LValue *
BuildUtil::mkOp1v(operation op, DataType ty, Value *dst, Value *src)
{
mkOp1(op, ty, dst, src);
return dst->asLValue();
}
inline LValue *
BuildUtil::mkOp2v(operation op, DataType ty, Value *dst,
Value *src0, Value *src1)
{
mkOp2(op, ty, dst, src0, src1);
return dst->asLValue();
}
inline LValue *
BuildUtil::mkOp3v(operation op, DataType ty, Value *dst,
Value *src0, Value *src1, Value *src2)
{
mkOp3(op, ty, dst, src0, src1, src2);
return dst->asLValue();
}
inline LValue *
BuildUtil::mkLoadv(DataType ty, Symbol *mem, Value *ptr)
{
LValue *dst = getScratch();
mkLoad(ty, dst, mem, ptr);
return dst;
}
bool
BuildUtil::DataArray::exists(ValueMap &m, unsigned int i, unsigned int c)
{
assert(i < arrayLen && c < vecDim);
return !regOnly || m.r.count(Location(array, arrayIdx, i, c));
}
Value *
BuildUtil::DataArray::lookup(ValueMap &m, unsigned i, unsigned c)
{
ValueMap::r_iterator it = m.r.find(Location(array, arrayIdx, i, c));
return it != m.r.end() ? it->second : NULL;
}
Value *
BuildUtil::DataArray::insert(ValueMap &m, unsigned i, unsigned c, Value *v)
{
m.insert(Location(array, arrayIdx, i, c), v);
return v;
}
} // namespace nv50_ir
#endif // __NV50_IR_BUILD_UTIL_H__
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