aco/spill: only prevent rematerializable vars from being DCE'd if they haven't been renamed

The small DCE of the spiller only removes the original instructions of rematerialized variables in case they are unused. If a variable has been renamed, it cannot match any original instruction anymore. Thus, the lookup is then unnecessary and can be omitted. No fossil-db changes. Reviewed-by: Rhys Perry <pendingchaos02@gmail.com> Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/8055>
2020-12-11 19:37:50 +01:00 · 2020-12-11 19:37:50 +01:00 · ef4101d6d7
parent 0bccfd86f6
commit ef4101d6d7
1 changed files with 16 additions and 21 deletions
--- a/src/amd/compiler/aco_spill.cpp
+++ b/src/amd/compiler/aco_spill.cpp
@ -816,12 +816,6 @@ void add_coupling_code(spill_ctx& ctx, Block* block, unsigned block_idx)
          phi->opcode != aco_opcode::p_linear_phi)
         break;

-      /* prevent it's definining instruction from being DCE'd if it could be rematerialized */
-      for (const Operand& op : phi->operands) {
-         if (op.isTemp() && ctx.remat.count(op.getTemp()))
-            ctx.remat_used[ctx.remat[op.getTemp()].instr] = true;
-      }
-
      /* if the phi is not spilled, add to instructions */
      if (ctx.spills_entry[block_idx].find(phi->definitions[0].getTemp()) == ctx.spills_entry[block_idx].end()) {
         instructions.emplace_back(std::move(phi));
@ -839,6 +833,11 @@ void add_coupling_code(spill_ctx& ctx, Block* block, unsigned block_idx)
         assert(phi->operands[i].isTemp() && phi->operands[i].isKill());
         Temp var = phi->operands[i].getTemp();

+         std::map<Temp, Temp>::iterator rename_it = ctx.renames[pred_idx].find(var);
+         /* prevent the definining instruction from being DCE'd if it could be rematerialized */
+         if (rename_it == ctx.renames[preds[i]].end() && ctx.remat.count(var))
+            ctx.remat_used[ctx.remat[var].instr] = true;
+
         /* build interferences between the phi def and all spilled variables at the predecessor blocks */
         for (std::pair<Temp, uint32_t> pair : ctx.spills_exit[pred_idx]) {
            if (var == pair.first)
@ -855,7 +854,6 @@ void add_coupling_code(spill_ctx& ctx, Block* block, unsigned block_idx)
         }

         /* rename if necessary */
-         std::map<Temp, Temp>::iterator rename_it = ctx.renames[pred_idx].find(var);
         if (rename_it != ctx.renames[pred_idx].end()) {
            var = rename_it->second;
            ctx.renames[pred_idx].erase(rename_it);
@ -946,6 +944,9 @@ void add_coupling_code(spill_ctx& ctx, Block* block, unsigned block_idx)
            std::map<Temp, Temp>::iterator it = ctx.renames[pred_idx].find(phi->operands[i].getTemp());
            if (it != ctx.renames[pred_idx].end())
               phi->operands[i].setTemp(it->second);
+            /* prevent the definining instruction from being DCE'd if it could be rematerialized */
+            else if (ctx.remat.count(phi->operands[i].getTemp()))
+               ctx.remat_used[ctx.remat[phi->operands[i].getTemp()].instr] = true;
            continue;
         }

@ -1035,12 +1036,16 @@ void add_coupling_code(spill_ctx& ctx, Block* block, unsigned block_idx)
         rename = ctx.program->allocateTmp(pair.first.regClass());
         for (unsigned i = 0; i < phi->operands.size(); i++) {
            Temp tmp;
-            if (ctx.renames[preds[i]].find(pair.first) != ctx.renames[preds[i]].end())
+            if (ctx.renames[preds[i]].find(pair.first) != ctx.renames[preds[i]].end()) {
               tmp = ctx.renames[preds[i]][pair.first];
-            else if (preds[i] >= block_idx)
+            } else if (preds[i] >= block_idx) {
               tmp = rename;
-            else
+            } else {
               tmp = pair.first;
+               /* prevent the definining instruction from being DCE'd if it could be rematerialized */
+               if (ctx.remat.count(tmp))
+                  ctx.remat_used[ctx.remat[tmp].instr] = true;
+            }
            phi->operands[i] = Operand(tmp);
         }
         phi->definitions[0] = Definition(rename);
@ -1103,7 +1108,7 @@ void process_block(spill_ctx& ctx, unsigned block_idx, Block* block,
            if (ctx.renames[block_idx].find(op.getTemp()) != ctx.renames[block_idx].end())
               op.setTemp(ctx.renames[block_idx][op.getTemp()]);
            /* prevent it's definining instruction from being DCE'd if it could be rematerialized */
-            if (ctx.remat.count(op.getTemp()))
+            else if (ctx.remat.count(op.getTemp()))
               ctx.remat_used[ctx.remat[op.getTemp()].instr] = true;
            continue;
         }
@ -1245,16 +1250,6 @@ void spill_block(spill_ctx& ctx, unsigned block_idx)
   /* add coupling code to all loop header predecessors */
   add_coupling_code(ctx, loop_header, loop_header->index);

-   /* update remat_used for phis added in add_coupling_code() */
-   for (aco_ptr<Instruction>& instr : loop_header->instructions) {
-      if (!is_phi(instr))
-         break;
-      for (const Operand& op : instr->operands) {
-         if (op.isTemp() && ctx.remat.count(op.getTemp()))
-            ctx.remat_used[ctx.remat[op.getTemp()].instr] = true;
-      }
-   }
-
   /* propagate new renames through loop: i.e. repair the SSA */
   renames.swap(ctx.renames[loop_header->index]);
   for (std::pair<Temp, Temp> rename : renames) {