void apply_sgprs(opt_ctx &ctx, aco_ptr<Instruction>& instr)
{
- /* apply sgprs */
- uint32_t sgpr_idx = 0;
- uint32_t sgpr_info_id = 0;
- bool has_sgpr = false;
- uint32_t sgpr_ssa_id = 0;
- /* find 'best' possible sgpr */
- for (unsigned i = 0; i < instr->operands.size(); i++)
- {
- if (instr->operands[i].isLiteral()) {
- has_sgpr = true;
- break;
- }
+ /* find candidates and create the set of sgprs already read */
+ unsigned sgpr_ids[2] = {0, 0};
+ uint32_t operand_mask = 0;
+ bool has_literal = false;
+ for (unsigned i = 0; i < instr->operands.size(); i++) {
+ if (instr->operands[i].isLiteral())
+ has_literal = true;
if (!instr->operands[i].isTemp())
continue;
if (instr->operands[i].getTemp().type() == RegType::sgpr) {
- has_sgpr = true;
- sgpr_ssa_id = instr->operands[i].tempId();
- continue;
+ if (instr->operands[i].tempId() != sgpr_ids[0])
+ sgpr_ids[!!sgpr_ids[0]] = instr->operands[i].tempId();
}
ssa_info& info = ctx.info[instr->operands[i].tempId()];
- if (info.is_temp() && info.temp.type() == RegType::sgpr) {
+ if (info.is_temp() && info.temp.type() == RegType::sgpr)
+ operand_mask |= 1u << i;
+ }
+ unsigned max_sgprs = 1;
+ if (has_literal)
+ max_sgprs--;
+
+ unsigned num_sgprs = !!sgpr_ids[0] + !!sgpr_ids[1];
+
+ /* keep on applying sgprs until there is nothing left to be done */
+ while (operand_mask) {
+ uint32_t sgpr_idx = 0;
+ uint32_t sgpr_info_id = 0;
+ uint32_t mask = operand_mask;
+ /* choose a sgpr */
+ while (mask) {
+ unsigned i = u_bit_scan(&mask);
uint16_t uses = ctx.uses[instr->operands[i].tempId()];
if (sgpr_info_id == 0 || uses < ctx.uses[sgpr_info_id]) {
sgpr_idx = i;
sgpr_info_id = instr->operands[i].tempId();
}
}
- }
- if (!has_sgpr && sgpr_info_id != 0) {
- ssa_info& info = ctx.info[sgpr_info_id];
+ operand_mask &= ~(1u << sgpr_idx);
+
+ /* Applying two sgprs require making it VOP3, so don't do it unless it's
+ * definitively beneficial.
+ * TODO: this is too conservative because later the use count could be reduced to 1 */
+ if (num_sgprs && ctx.uses[sgpr_info_id] > 1)
+ break;
+
+ Temp sgpr = ctx.info[sgpr_info_id].temp;
+ bool new_sgpr = sgpr.id() != sgpr_ids[0] && sgpr.id() != sgpr_ids[1];
+ if (new_sgpr && num_sgprs >= max_sgprs)
+ continue;
+
if (sgpr_idx == 0 || instr->isVOP3()) {
- instr->operands[sgpr_idx] = Operand(info.temp);
- ctx.uses[sgpr_info_id]--;
- ctx.uses[info.temp.id()]++;
+ instr->operands[sgpr_idx] = Operand(sgpr);
} else if (can_swap_operands(instr)) {
instr->operands[sgpr_idx] = instr->operands[0];
- instr->operands[0] = Operand(info.temp);
- ctx.uses[sgpr_info_id]--;
- ctx.uses[info.temp.id()]++;
+ instr->operands[0] = Operand(sgpr);
+ /* swap bits using a 4-entry LUT */
+ uint32_t swapped = (0x3120 >> (operand_mask & 0x3)) & 0xf;
+ operand_mask = (operand_mask & ~0x3) | swapped;
} else if (can_use_VOP3(instr)) {
to_VOP3(ctx, instr);
- instr->operands[sgpr_idx] = Operand(info.temp);
- ctx.uses[sgpr_info_id]--;
- ctx.uses[info.temp.id()]++;
+ instr->operands[sgpr_idx] = Operand(sgpr);
+ } else {
+ continue;
}
- /* we can have two sgprs on one instruction if it is the same sgpr! */
- } else if (sgpr_info_id != 0 &&
- sgpr_ssa_id == ctx.info[sgpr_info_id].temp.id() &&
- ctx.uses[sgpr_info_id] == 1 &&
- can_use_VOP3(instr)) {
- to_VOP3(ctx, instr);
- instr->operands[sgpr_idx] = Operand(ctx.info[sgpr_info_id].temp);
+ sgpr_ids[num_sgprs++] = sgpr.id();
ctx.uses[sgpr_info_id]--;
- ctx.uses[ctx.info[sgpr_info_id].temp.id()]++;
+ ctx.uses[sgpr.id()]++;
+
+ break; /* for testing purposes, only apply 1 new sgpr */
}
}
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