From: Daniel Schürmann Date: Wed, 30 Oct 2019 13:42:00 +0000 (+0100) Subject: aco: ensure that spilled VGPR reloads are done after p_logical_start X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=aded548e6600b5684e7d278799e9aa8d44779f39;p=mesa.git aco: ensure that spilled VGPR reloads are done after p_logical_start Reviewed-by: Rhys Perry --- diff --git a/src/amd/compiler/aco_spill.cpp b/src/amd/compiler/aco_spill.cpp index b684d560abf..0d6ea9271e4 100644 --- a/src/amd/compiler/aco_spill.cpp +++ b/src/amd/compiler/aco_spill.cpp @@ -656,11 +656,45 @@ void add_coupling_code(spill_ctx& ctx, Block* block, unsigned block_idx) /* branch block: TODO take other branch into consideration */ if (block->linear_preds.size() == 1 && !(block->kind & block_kind_loop_exit)) { assert(ctx.processed[block->linear_preds[0]]); + assert(ctx.register_demand[block_idx].size() == block->instructions.size()); + std::vector reg_demand; + unsigned insert_idx = 0; + unsigned pred_idx = block->linear_preds[0]; + + for (std::pair> live : ctx.next_use_distances_start[block_idx]) { + if (!live.first.is_linear()) + continue; + /* still spilled */ + if (ctx.spills_entry[block_idx].find(live.first) != ctx.spills_entry[block_idx].end()) + continue; + + /* in register at end of predecessor */ + if (ctx.spills_exit[pred_idx].find(live.first) == ctx.spills_exit[pred_idx].end()) { + std::map::iterator it = ctx.renames[pred_idx].find(live.first); + if (it != ctx.renames[pred_idx].end()) + ctx.renames[block_idx].insert(*it); + continue; + } + + /* variable is spilled at predecessor and live at current block: create reload instruction */ + Temp new_name = {ctx.program->allocateId(), live.first.regClass()}; + aco_ptr reload = do_reload(ctx, live.first, new_name, ctx.spills_exit[pred_idx][live.first]); + instructions.emplace_back(std::move(reload)); + reg_demand.push_back(RegisterDemand()); + ctx.renames[block_idx][live.first] = new_name; + } if (block->logical_preds.size() == 1) { + do { + assert(insert_idx < block->instructions.size()); + instructions.emplace_back(std::move(block->instructions[insert_idx])); + reg_demand.push_back(ctx.register_demand[block_idx][insert_idx]); + insert_idx++; + } while (instructions.back()->opcode != aco_opcode::p_logical_start); + unsigned pred_idx = block->logical_preds[0]; for (std::pair> live : ctx.next_use_distances_start[block_idx]) { - if (live.first.type() == RegType::sgpr) + if (live.first.is_linear()) continue; /* still spilled */ if (ctx.spills_entry[block_idx].find(live.first) != ctx.spills_entry[block_idx].end()) @@ -678,45 +712,20 @@ void add_coupling_code(spill_ctx& ctx, Block* block, unsigned block_idx) Temp new_name = {ctx.program->allocateId(), live.first.regClass()}; aco_ptr reload = do_reload(ctx, live.first, new_name, ctx.spills_exit[pred_idx][live.first]); instructions.emplace_back(std::move(reload)); + reg_demand.emplace_back(reg_demand.back()); ctx.renames[block_idx][live.first] = new_name; } } - unsigned pred_idx = block->linear_preds[0]; - for (std::pair> live : ctx.next_use_distances_start[block_idx]) { - if (live.first.type() == RegType::vgpr) - continue; - /* still spilled */ - if (ctx.spills_entry[block_idx].find(live.first) != ctx.spills_entry[block_idx].end()) - continue; - - /* in register at end of predecessor */ - if (ctx.spills_exit[pred_idx].find(live.first) == ctx.spills_exit[pred_idx].end()) { - std::map::iterator it = ctx.renames[pred_idx].find(live.first); - if (it != ctx.renames[pred_idx].end()) - ctx.renames[block_idx].insert(*it); - continue; - } - - /* variable is spilled at predecessor and live at current block: create reload instruction */ - Temp new_name = {ctx.program->allocateId(), live.first.regClass()}; - aco_ptr reload = do_reload(ctx, live.first, new_name, ctx.spills_exit[pred_idx][live.first]); - instructions.emplace_back(std::move(reload)); - ctx.renames[block_idx][live.first] = new_name; - } - /* combine new reload instructions with original block */ if (!instructions.empty()) { - unsigned insert_idx = 0; - while (block->instructions[insert_idx]->opcode == aco_opcode::p_phi || - block->instructions[insert_idx]->opcode == aco_opcode::p_linear_phi) { - insert_idx++; - } - ctx.register_demand[block->index].insert(std::next(ctx.register_demand[block->index].begin(), insert_idx), - instructions.size(), RegisterDemand()); - block->instructions.insert(std::next(block->instructions.begin(), insert_idx), - std::move_iterator>::iterator>(instructions.begin()), - std::move_iterator>::iterator>(instructions.end())); + reg_demand.insert(reg_demand.end(), std::next(ctx.register_demand[block->index].begin(), insert_idx), + ctx.register_demand[block->index].end()); + ctx.register_demand[block_idx] = std::move(reg_demand); + instructions.insert(instructions.end(), + std::move_iterator>::iterator>(std::next(block->instructions.begin(), insert_idx)), + std::move_iterator>::iterator>(block->instructions.end())); + block->instructions = std::move(instructions); } return; }