Operand op;
Definition def;
unsigned uses;
- unsigned size;
+ unsigned bytes;
};
void handle_operands(std::map<PhysReg, copy_operation>& copy_map, lower_context* ctx, chip_class chip_class, Pseudo_instruction *pi)
if (it->second.uses == 0) {
/* try to coalesce 32-bit sgpr copies to 64-bit copies */
- if (it->second.def.getTemp().type() == RegType::sgpr && it->second.size == 1 &&
+ if (it->second.def.getTemp().type() == RegType::sgpr && it->second.bytes == 4 &&
!it->second.op.isConstant() && it->first % 2 == it->second.op.physReg() % 2) {
PhysReg other_def_reg = PhysReg{it->first % 2 ? it->first - 1 : it->first + 1};
PhysReg other_op_reg = PhysReg{it->first % 2 ? it->second.op.physReg() - 1 : it->second.op.physReg() + 1};
std::map<PhysReg, copy_operation>::iterator other = copy_map.find(other_def_reg);
- if (other != copy_map.end() && !other->second.uses && other->second.size == 1 &&
+ if (other != copy_map.end() && !other->second.uses && other->second.bytes == 4 &&
other->second.op.physReg() == other_op_reg && !other->second.op.isConstant()) {
std::map<PhysReg, copy_operation>::iterator to_erase = it->first % 2 ? it : other;
it = it->first % 2 ? other : it;
copy_map.erase(to_erase);
- it->second.size = 2;
+ it->second.bytes = 8;
}
}
if (it->second.def.physReg() == scc) {
bld.sopc(aco_opcode::s_cmp_lg_i32, it->second.def, it->second.op, Operand(0u));
preserve_scc = true;
- } else if (it->second.size == 2 && it->second.def.getTemp().type() == RegType::sgpr) {
+ } else if (it->second.bytes == 8 && it->second.def.getTemp().type() == RegType::sgpr) {
bld.sop1(aco_opcode::s_mov_b64, it->second.def, Operand(it->second.op.physReg(), s2));
- } else if (it->second.size == 2 && it->second.op.isConstant()) {
+ } else if (it->second.bytes == 8 && it->second.op.isConstant()) {
uint64_t val = it->second.op.constantValue64();
bld.vop1(aco_opcode::v_mov_b32, it->second.def, Operand((uint32_t)val));
bld.vop1(aco_opcode::v_mov_b32, Definition(PhysReg{it->second.def.physReg() + 1}, v1),
/* reduce the number of uses of the operand reg by one */
if (!it->second.op.isConstant()) {
- for (unsigned i = 0; i < it->second.size; i++) {
- target = copy_map.find(PhysReg{it->second.op.physReg() + i});
+ for (unsigned i = 0; i < it->second.bytes; i += 4) {
+ target = copy_map.find(PhysReg{it->second.op.physReg() + i/4});
if (target != copy_map.end())
target->second.uses--;
}
{
case aco_opcode::p_extract_vector:
{
- unsigned reg = instr->operands[0].physReg() + instr->operands[1].constantValue() * instr->definitions[0].size();
- RegClass rc = RegClass(instr->operands[0].getTemp().type(), 1);
- RegClass rc_def = RegClass(instr->definitions[0].getTemp().type(), 1);
+ PhysReg reg = instr->operands[0].physReg();
+ reg.reg_b += instr->operands[1].constantValue() * instr->definitions[0].bytes();
+
if (reg == instr->definitions[0].physReg())
break;
std::map<PhysReg, copy_operation> copy_operations;
+ RegClass rc = RegClass(instr->operands[0].getTemp().type(), 1);
+ RegClass rc_def = RegClass(instr->definitions[0].getTemp().type(), 1);
for (unsigned i = 0; i < instr->definitions[0].size(); i++) {
Definition def = Definition(PhysReg{instr->definitions[0].physReg() + i}, rc_def);
- copy_operations[def.physReg()] = {Operand(PhysReg{reg + i}, rc), def, 0, 1};
+ copy_operations[def.physReg()] = {Operand(PhysReg{reg + i}, rc), def, 0, 4};
}
handle_operands(copy_operations, &ctx, program->chip_class, pi);
break;
{
std::map<PhysReg, copy_operation> copy_operations;
RegClass rc_def = RegClass(instr->definitions[0].getTemp().type(), 1);
- unsigned reg_idx = 0;
+ PhysReg reg = instr->definitions[0].physReg();
for (const Operand& op : instr->operands) {
if (op.isConstant()) {
- const PhysReg reg = PhysReg{instr->definitions[0].physReg() + reg_idx};
- const Definition def = Definition(reg, rc_def);
- copy_operations[reg] = {op, def, 0, op.size()};
- reg_idx++;
+ const Definition def = Definition(reg, RegClass(instr->definitions[0].getTemp().type(), op.size()));
+ copy_operations[reg] = {op, def, 0, op.bytes()};
+ reg.reg_b += op.bytes();
+ continue;
+ }
+ if (op.isUndefined()) {
+ reg.reg_b += op.bytes();
continue;
}
RegClass rc_op = RegClass(op.getTemp().type(), 1);
- for (unsigned j = 0; j < op.size(); j++)
- {
+ PhysReg def_reg = reg;
+ for (unsigned j = 0; j < op.size(); j++) {
const Operand copy_op = Operand(PhysReg{op.physReg() + j}, rc_op);
- const Definition def = Definition(PhysReg{instr->definitions[0].physReg() + reg_idx}, rc_def);
- copy_operations[def.physReg()] = {copy_op, def, 0, 1};
- reg_idx++;
+ const Definition def = Definition(def_reg, rc_def);
+ copy_operations[def.physReg()] = {copy_op, def, 0, 4};
+ def_reg.reg_b += 4;
}
+ reg.reg_b += op.bytes();
}
handle_operands(copy_operations, &ctx, program->chip_class, pi);
break;
case aco_opcode::p_split_vector:
{
std::map<PhysReg, copy_operation> copy_operations;
- RegClass rc_op = instr->operands[0].isConstant() ? s1 : RegClass(instr->operands[0].regClass().type(), 1);
- for (unsigned i = 0; i < instr->definitions.size(); i++) {
- unsigned k = instr->definitions[i].size();
- RegClass rc_def = RegClass(instr->definitions[i].getTemp().type(), 1);
- for (unsigned j = 0; j < k; j++) {
- Operand op = Operand(PhysReg{instr->operands[0].physReg() + (i*k+j)}, rc_op);
- Definition def = Definition(PhysReg{instr->definitions[i].physReg() + j}, rc_def);
- copy_operations[def.physReg()] = {op, def, 0, op.size()};
+ RegClass rc_op = RegClass(instr->operands[0].regClass().type(), 1);
+ PhysReg reg = instr->operands[0].physReg();
+
+ for (const Definition& def : instr->definitions) {
+ RegClass rc_def = RegClass(def.getTemp().type(), 1);
+ PhysReg op_reg = reg;
+ for (unsigned j = 0; j < def.size(); j++) {
+ const Operand op = Operand(op_reg, rc_op);
+ const Definition copy_def = Definition(PhysReg{def.physReg() + j}, rc_def);
+ copy_operations[copy_def.physReg()] = {op, copy_def, 0, 4};
+ op_reg.reg_b += 4;
}
+ reg.reg_b += def.bytes();
}
handle_operands(copy_operations, &ctx, program->chip_class, pi);
break;
case aco_opcode::p_wqm:
{
std::map<PhysReg, copy_operation> copy_operations;
- for (unsigned i = 0; i < instr->operands.size(); i++)
- {
+ for (unsigned i = 0; i < instr->operands.size(); i++) {
Operand operand = instr->operands[i];
if (operand.isConstant() || operand.size() == 1) {
- assert(instr->definitions[i].size() == operand.size());
- copy_operations[instr->definitions[i].physReg()] = {operand, instr->definitions[i], 0, operand.size()};
+ assert(instr->definitions[i].bytes() == operand.bytes());
+ copy_operations[instr->definitions[i].physReg()] = {operand, instr->definitions[i], 0, operand.bytes()};
} else {
RegClass def_rc = RegClass(instr->definitions[i].regClass().type(), 1);
RegClass op_rc = RegClass(operand.getTemp().type(), 1);
- for (unsigned j = 0; j < operand.size(); j++)
- {
+ for (unsigned j = 0; j < operand.size(); j++) {
Operand op = Operand(PhysReg{instr->operands[i].physReg() + j}, op_rc);
Definition def = Definition(PhysReg{instr->definitions[i].physReg() + j}, def_rc);
- copy_operations[def.physReg()] = {op, def, 0, 1};
+ copy_operations[def.physReg()] = {op, def, 0, 4};
}
}
}
Operand operand = instr->operands[0];
if (operand.isConstant() || operand.size() == 1) {
assert(instr->definitions[0].size() == 1);
- copy_operations[instr->definitions[0].physReg()] = {operand, instr->definitions[0], 0, operand.size()};
+ copy_operations[instr->definitions[0].physReg()] = {operand, instr->definitions[0], 0, operand.bytes()};
} else {
- for (unsigned i = 0; i < operand.size(); i++)
- {
+ for (unsigned i = 0; i < operand.size(); i++) {
Operand op = Operand(PhysReg{operand.physReg() + i}, s1);
Definition def = Definition(PhysReg{instr->definitions[0].physReg() + i}, s1);
- copy_operations[def.physReg()] = {op, def, 0, 1};
+ copy_operations[def.physReg()] = {op, def, 0, 4};
}
}
projects / mesa.git / commitdiff