/* * Copyright © 2018 Valve Corporation * * SPDX-License-Identifier: MIT */ #ifndef ACO_DOMINANCE_CPP #define ACO_DOMINANCE_CPP #include "aco_ir.h" /* * Implements the algorithms for computing the dominator tree from * "A Simple, Fast Dominance Algorithm" by Cooper, Harvey, and Kennedy. * * Different from the paper, our CFG allows to compute the dominator tree * in a single pass as it is guaranteed that the dominating predecessors * are processed before the current block. */ namespace aco { void dominator_tree(Program* program) { for (unsigned i = 0; i < program->blocks.size(); i++) { Block& block = program->blocks[i]; /* If this block has no predecessor, it dominates itself by definition */ if (block.linear_preds.empty()) { block.linear_idom = block.index; block.logical_idom = block.index; continue; } int new_logical_idom = -1; int new_linear_idom = -1; for (unsigned pred_idx : block.logical_preds) { if ((int)program->blocks[pred_idx].logical_idom == -1) continue; if (new_logical_idom == -1) { new_logical_idom = pred_idx; continue; } while ((int)pred_idx != new_logical_idom) { if ((int)pred_idx > new_logical_idom) pred_idx = program->blocks[pred_idx].logical_idom; if ((int)pred_idx < new_logical_idom) new_logical_idom = program->blocks[new_logical_idom].logical_idom; } } for (unsigned pred_idx : block.linear_preds) { if ((int)program->blocks[pred_idx].linear_idom == -1) continue; if (new_linear_idom == -1) { new_linear_idom = pred_idx; continue; } while ((int)pred_idx != new_linear_idom) { if ((int)pred_idx > new_linear_idom) pred_idx = program->blocks[pred_idx].linear_idom; if ((int)pred_idx < new_linear_idom) new_linear_idom = program->blocks[new_linear_idom].linear_idom; } } block.logical_idom = new_logical_idom; block.linear_idom = new_linear_idom; } } } // namespace aco #endif