/* on GFX6/7, we need some small workarounds as there is no
* SDWA instruction to do partial register writes */
- if (ctx->program->chip_class < GFX8 && it->second.bytes == 2) {
+ if (ctx->program->chip_class < GFX8 && it->second.bytes < 4) {
if (it->first.byte() == 0 && it->second.op.physReg().byte() == 0 &&
!it->second.is_used && pi->opcode == aco_opcode::p_split_vector) {
/* Other operations might overwrite the high bits, so change all users
* of the high bits to the new target where they are still available.
* This mechanism depends on also emitting dead definitions. */
- PhysReg reg_hi = it->second.op.physReg().advance(2);
- std::map<PhysReg, copy_operation>::iterator other = copy_map.begin();
- for (other = copy_map.begin(); other != copy_map.end(); other++) {
- /* on GFX6/7, if the high bits are used as operand, they cannot be a target */
- if (other->second.op.physReg() == reg_hi) {
- other->second.op.setFixed(it->first.advance(2));
- break; /* break because an operand can only be used once */
+ PhysReg reg_hi = it->second.op.physReg().advance(it->second.bytes);
+ while (reg_hi != PhysReg(it->second.op.physReg().reg() + 1)) {
+ std::map<PhysReg, copy_operation>::iterator other = copy_map.begin();
+ for (other = copy_map.begin(); other != copy_map.end(); other++) {
+ /* on GFX6/7, if the high bits are used as operand, they cannot be a target */
+ if (other->second.op.physReg() == reg_hi) {
+ other->second.op.setFixed(it->first.advance(reg_hi.byte()));
+ break; /* break because an operand can only be used once */
+ }
}
+ reg_hi = reg_hi.advance(it->second.bytes);
}
- } else if (it->first.byte() == 2) {
+ } else if (it->first.byte()) {
+ assert(pi->opcode == aco_opcode::p_create_vector);
/* on GFX6/7, if we target an upper half where the lower half hasn't yet been handled,
* move to the target operand's high bits. This is save to do as it cannot be an operand */
PhysReg lo = PhysReg(it->first.reg());
std::map<PhysReg, copy_operation>::iterator other = copy_map.find(lo);
if (other != copy_map.end()) {
- PhysReg new_reg_hi = other->second.op.physReg().advance(2);
- assert(other->second.bytes == 2 && new_reg_hi.byte() == 2);
- it->second.def = Definition(new_reg_hi, v2b);
+ assert(other->second.bytes == it->first.byte());
+ PhysReg new_reg_hi = other->second.op.physReg().advance(it->first.byte());
+ it->second.def = Definition(new_reg_hi, it->second.def.regClass());
it->second.is_used = 0;
- other->second.bytes = 4;
- other->second.def.setTemp(Temp(other->second.def.tempId(), v1));
- other->second.op.setTemp(Temp(other->second.op.tempId(), v1));
+ other->second.bytes += it->second.bytes;
+ other->second.def.setTemp(Temp(other->second.def.tempId(), RegClass::get(RegType::vgpr, other->second.bytes)));
+ other->second.op.setTemp(Temp(other->second.op.tempId(), RegClass::get(RegType::vgpr, other->second.bytes)));
/* if the new target's high bits are also a target, change uses */
std::map<PhysReg, copy_operation>::iterator target = copy_map.find(new_reg_hi);
if (target != copy_map.end()) {
- target->second.uses[0]++;
- target->second.uses[1]++;
+ for (unsigned i = 0; i < it->second.bytes; i++)
+ target->second.uses[i]++;
}
}
}