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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_INLINES_H__
#define __NV50_IR_INLINES_H__
static inline CondCode reverseCondCode(CondCode cc)
{
static const uint8_t ccRev[8] = { 0, 4, 2, 6, 1, 5, 3, 7 };
return static_cast<CondCode>(ccRev[cc & 7] | (cc & ~7));
}
static inline CondCode inverseCondCode(CondCode cc)
{
return static_cast<CondCode>(cc ^ 7);
}
static inline bool isMemoryFile(DataFile f)
{
return (f >= FILE_MEMORY_CONST && f <= FILE_MEMORY_LOCAL);
}
// contrary to asTex(), this will never include SULD/SUST
static inline bool isTextureOp(operation op)
{
return (op >= OP_TEX && op <= OP_TEXPREP);
}
static inline bool isSurfaceOp(operation op)
{
return (op >= OP_SULDB && op <= OP_SULEA);
}
static inline unsigned int typeSizeof(DataType ty)
{
switch (ty) {
case TYPE_U8:
case TYPE_S8:
return 1;
case TYPE_F16:
case TYPE_U16:
case TYPE_S16:
return 2;
case TYPE_F32:
case TYPE_U32:
case TYPE_S32:
return 4;
case TYPE_F64:
case TYPE_U64:
case TYPE_S64:
return 8;
case TYPE_B96:
return 12;
case TYPE_B128:
return 16;
default:
return 0;
}
}
static inline unsigned int typeSizeofLog2(DataType ty)
{
switch (ty) {
case TYPE_F16:
case TYPE_U16:
case TYPE_S16:
return 1;
case TYPE_F32:
case TYPE_U32:
case TYPE_S32:
return 2;
case TYPE_F64:
case TYPE_U64:
case TYPE_S64:
return 3;
case TYPE_B96:
case TYPE_B128:
return 4;
case TYPE_U8:
case TYPE_S8:
default:
return 0;
}
}
static inline DataType typeOfSize(unsigned int size,
bool flt = false, bool sgn = false)
{
switch (size) {
case 1: return sgn ? TYPE_S8 : TYPE_U8;
case 2: return flt ? TYPE_F16 : (sgn ? TYPE_S16 : TYPE_U16);
case 8: return flt ? TYPE_F64 : (sgn ? TYPE_S64 : TYPE_U64);
case 12: return TYPE_B96;
case 16: return TYPE_B128;
case 4:
return flt ? TYPE_F32 : (sgn ? TYPE_S32 : TYPE_U32);
default:
return TYPE_NONE;
}
}
static inline bool isFloatType(DataType ty)
{
return (ty >= TYPE_F16 && ty <= TYPE_F64);
}
static inline bool isSignedIntType(DataType ty)
{
return (ty == TYPE_S8 || ty == TYPE_S16 || ty == TYPE_S32);
}
static inline bool isSignedType(DataType ty)
{
switch (ty) {
case TYPE_NONE:
case TYPE_U8:
case TYPE_U16:
case TYPE_U32:
case TYPE_B96:
case TYPE_B128:
return false;
default:
return true;
}
}
static inline DataType intTypeToSigned(DataType ty)
{
switch (ty) {
case TYPE_U32: return TYPE_S32;
case TYPE_U16: return TYPE_S16;
case TYPE_U8: return TYPE_S8;
default:
return ty;
}
}
const ValueRef *ValueRef::getIndirect(int dim) const
{
return isIndirect(dim) ? &insn->src(indirect[dim]) : NULL;
}
DataFile ValueRef::getFile() const
{
return value ? value->reg.file : FILE_NULL;
}
unsigned int ValueRef::getSize() const
{
return value ? value->reg.size : 0;
}
Value *ValueRef::rep() const
{
assert(value);
return value->join;
}
Value *ValueDef::rep() const
{
assert(value);
return value->join;
}
DataFile ValueDef::getFile() const
{
return value ? value->reg.file : FILE_NULL;
}
unsigned int ValueDef::getSize() const
{
return value ? value->reg.size : 0;
}
void ValueDef::setSSA(LValue *lval)
{
origin = value->asLValue();
set(lval);
}
const LValue *ValueDef::preSSA() const
{
return origin;
}
Instruction *Value::getInsn() const
{
return defs.empty() ? NULL : defs.front()->getInsn();
}
Instruction *Value::getUniqueInsn() const
{
if (defs.empty())
return NULL;
// after regalloc, the definitions of coalesced values are linked
if (join != this) {
for (DefCIterator it = defs.begin(); it != defs.end(); ++it)
if ((*it)->get() == this)
return (*it)->getInsn();
// should be unreachable and trigger assertion at the end
}
#ifdef DEBUG
if (reg.data.id < 0) {
int n = 0;
for (DefCIterator it = defs.begin(); n < 2 && it != defs.end(); ++it)
if ((*it)->get() == this) // don't count joined values
++n;
if (n > 1)
WARN("value %%%i not uniquely defined\n", id); // return NULL ?
}
#endif
assert(defs.front()->get() == this);
return defs.front()->getInsn();
}
inline bool Instruction::constrainedDefs() const
{
return defExists(1) || op == OP_UNION;
}
Value *Instruction::getIndirect(int s, int dim) const
{
return srcs[s].isIndirect(dim) ? getSrc(srcs[s].indirect[dim]) : NULL;
}
Value *Instruction::getPredicate() const
{
return (predSrc >= 0) ? getSrc(predSrc) : NULL;
}
void Instruction::setFlagsDef(int d, Value *val)
{
if (val) {
if (flagsDef < 0)
flagsDef = d;
setDef(flagsDef, val);
} else {
if (flagsDef >= 0) {
setDef(flagsDef, NULL);
flagsDef = -1;
}
}
}
void Instruction::setFlagsSrc(int s, Value *val)
{
flagsSrc = s;
setSrc(flagsSrc, val);
}
Value *TexInstruction::getIndirectR() const
{
return tex.rIndirectSrc >= 0 ? getSrc(tex.rIndirectSrc) : NULL;
}
Value *TexInstruction::getIndirectS() const
{
return tex.rIndirectSrc >= 0 ? getSrc(tex.rIndirectSrc) : NULL;
}
CmpInstruction *Instruction::asCmp()
{
if (op >= OP_SET_AND && op <= OP_SLCT && op != OP_SELP)
return static_cast<CmpInstruction *>(this);
return NULL;
}
const CmpInstruction *Instruction::asCmp() const
{
if (op >= OP_SET_AND && op <= OP_SLCT && op != OP_SELP)
return static_cast<const CmpInstruction *>(this);
return NULL;
}
FlowInstruction *Instruction::asFlow()
{
if (op >= OP_BRA && op <= OP_JOIN)
return static_cast<FlowInstruction *>(this);
return NULL;
}
const FlowInstruction *Instruction::asFlow() const
{
if (op >= OP_BRA && op <= OP_JOIN)
return static_cast<const FlowInstruction *>(this);
return NULL;
}
TexInstruction *Instruction::asTex()
{
if (op >= OP_TEX && op <= OP_SULEA)
return static_cast<TexInstruction *>(this);
return NULL;
}
const TexInstruction *Instruction::asTex() const
{
if (op >= OP_TEX && op <= OP_SULEA)
return static_cast<const TexInstruction *>(this);
return NULL;
}
static inline Instruction *cloneForward(Function *ctx, Instruction *obj)
{
DeepClonePolicy<Function> pol(ctx);
for (int i = 0; obj->srcExists(i); ++i)
pol.set(obj->getSrc(i), obj->getSrc(i));
return obj->clone(pol);
}
// XXX: use a virtual function so we're really really safe ?
LValue *Value::asLValue()
{
if (reg.file >= FILE_GPR && reg.file <= FILE_ADDRESS)
return static_cast<LValue *>(this);
return NULL;
}
Symbol *Value::asSym()
{
if (reg.file >= FILE_MEMORY_CONST)
return static_cast<Symbol *>(this);
return NULL;
}
const Symbol *Value::asSym() const
{
if (reg.file >= FILE_MEMORY_CONST)
return static_cast<const Symbol *>(this);
return NULL;
}
void Symbol::setOffset(int32_t offset)
{
reg.data.offset = offset;
}
void Symbol::setAddress(Symbol *base, int32_t offset)
{
baseSym = base;
reg.data.offset = offset;
}
void Symbol::setSV(SVSemantic sv, uint32_t index)
{
reg.data.sv.sv = sv;
reg.data.sv.index = index;
}
ImmediateValue *Value::asImm()
{
if (reg.file == FILE_IMMEDIATE)
return static_cast<ImmediateValue *>(this);
return NULL;
}
const ImmediateValue *Value::asImm() const
{
if (reg.file == FILE_IMMEDIATE)
return static_cast<const ImmediateValue *>(this);
return NULL;
}
Value *Value::get(Iterator &it)
{
return reinterpret_cast<Value *>(it.get());
}
bool BasicBlock::reachableBy(const BasicBlock *by, const BasicBlock *term)
{
return cfg.reachableBy(&by->cfg, &term->cfg);
}
BasicBlock *BasicBlock::get(Iterator &iter)
{
return reinterpret_cast<BasicBlock *>(iter.get());
}
BasicBlock *BasicBlock::get(Graph::Node *node)
{
assert(node);
return reinterpret_cast<BasicBlock *>(node->data);
}
Function *Function::get(Graph::Node *node)
{
assert(node);
return reinterpret_cast<Function *>(node->data);
}
LValue *Function::getLValue(int id)
{
assert((unsigned int)id < (unsigned int)allLValues.getSize());
return reinterpret_cast<LValue *>(allLValues.get(id));
}
#endif // __NV50_IR_INLINES_H__
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