mirror of
https://github.com/KhronosGroup/SPIRV-Tools
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c6422cff33
Suggested by Jakub as 'DoesBlockExist' was confusing.
198 lines
7.9 KiB
C++
198 lines
7.9 KiB
C++
// Copyright (c) 2021 Google LLC.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef SOURCE_OPT_CONTROL_DEPENDENCE_H_
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#define SOURCE_OPT_CONTROL_DEPENDENCE_H_
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#include <algorithm>
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#include <cstdint>
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#include <functional>
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#include <ostream>
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#include <unordered_map>
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#include <vector>
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#include "source/opt/cfg.h"
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#include "source/opt/dominator_analysis.h"
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namespace spvtools {
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namespace opt {
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class ControlDependence {
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public:
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// The label of the source of this dependence, i.e. the block on which the
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// target is dependent on.
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// A |source_bb_id| of 0 represents an "entry" dependence, meaning that the
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// execution of |target_bb_id| is only dependent on entry to the function.
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uint32_t source_bb_id() const { return source_bb_id_; }
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// The label of the target of this dependence, i.e. the block which is
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// dependent on the source.
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uint32_t target_bb_id() const { return target_bb_id_; }
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// The label of the target of the *branch* for this dependence.
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// Equal to the ID of the entry block for entry dependences.
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//
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// For example, for the partial CFG pictured below:
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// 1 ---> 2 ---> 4 ---> 6
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// \ \ ^
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// \-> 3 \-> 5 -----/
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// Block 6 is control dependent on block 1, but this dependence comes from the
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// branch 1 -> 2, so in this case the branch target ID would be 2.
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uint32_t branch_target_bb_id() const { return branch_target_bb_id_; }
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// Create a direct control dependence from BB ID |source| to |target|.
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ControlDependence(uint32_t source, uint32_t target)
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: source_bb_id_(source),
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target_bb_id_(target),
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branch_target_bb_id_(target) {}
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// Create a control dependence from BB ID |source| to |target| through the
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// branch from |source| to |branch_target|.
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ControlDependence(uint32_t source, uint32_t target, uint32_t branch_target)
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: source_bb_id_(source),
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target_bb_id_(target),
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branch_target_bb_id_(branch_target) {}
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// Gets the ID of the conditional value for the branch corresponding to this
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// control dependence. This is the first input operand for both
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// OpConditionalBranch and OpSwitch.
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// Returns 0 for entry dependences.
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uint32_t GetConditionID(const CFG& cfg) const;
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bool operator==(const ControlDependence& other) const;
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bool operator!=(const ControlDependence& other) const {
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return !(*this == other);
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}
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// Comparison operators, ordered lexicographically. Total ordering.
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bool operator<(const ControlDependence& other) const;
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bool operator>(const ControlDependence& other) const { return other < *this; }
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bool operator<=(const ControlDependence& other) const {
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return !(*this > other);
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}
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bool operator>=(const ControlDependence& other) const {
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return !(*this < other);
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}
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private:
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uint32_t source_bb_id_;
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uint32_t target_bb_id_;
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uint32_t branch_target_bb_id_;
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};
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// Prints |dep| to |os| in a human-readable way. For example,
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// 1->2 (target_bb_id = branch_target_bb_id = 2)
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// 3->4 through 5 (target_bb_id = 4, branch_target_bb_id = 5)
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std::ostream& operator<<(std::ostream& os, const ControlDependence& dep);
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// Represents the control dependence graph. A basic block is control dependent
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// on another if the result of that block (e.g. the condition of a conditional
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// branch) influences whether it is executed or not. More formally, a block A is
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// control dependent on B iff:
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// 1. there exists a path from A to the exit node that does *not* go through B
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// (i.e., A does not postdominate B), and
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// 2. there exists a path B -> b_1 -> ... -> b_n -> A such that A post-dominates
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// all nodes b_i.
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class ControlDependenceAnalysis {
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public:
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// Map basic block labels to control dependencies/dependents.
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// Not guaranteed to be in any particular order.
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using ControlDependenceList = std::vector<ControlDependence>;
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using ControlDependenceListMap =
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std::unordered_map<uint32_t, ControlDependenceList>;
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// 0, the label number for the pseudo entry block.
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// All control dependences on the pseudo entry block are of type kEntry, and
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// vice versa.
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static constexpr uint32_t kPseudoEntryBlock = 0;
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// Build the control dependence graph for the given control flow graph |cfg|
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// and corresponding post-dominator analysis |pdom|.
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void ComputeControlDependenceGraph(const CFG& cfg,
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const PostDominatorAnalysis& pdom);
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// Get the list of the nodes that depend on a block.
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// Return value is not guaranteed to be in any particular order.
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const ControlDependenceList& GetDependenceTargets(uint32_t block) const {
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return forward_nodes_.at(block);
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}
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// Get the list of the nodes on which a block depends on.
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// Return value is not guaranteed to be in any particular order.
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const ControlDependenceList& GetDependenceSources(uint32_t block) const {
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return reverse_nodes_.at(block);
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}
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// Runs the function |f| on each block label in the CDG. If any iteration
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// returns false, immediately stops iteration and returns false. Otherwise
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// returns true. Nodes are iterated in some undefined order, including the
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// pseudo-entry block.
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bool WhileEachBlockLabel(std::function<bool(uint32_t)> f) const {
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for (const auto& entry : forward_nodes_) {
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if (!f(entry.first)) {
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return false;
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}
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}
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return true;
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}
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// Runs the function |f| on each block label in the CDG. Nodes are iterated in
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// some undefined order, including the pseudo-entry block.
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void ForEachBlockLabel(std::function<void(uint32_t)> f) const {
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WhileEachBlockLabel([&f](uint32_t label) {
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f(label);
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return true;
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});
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}
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// Returns true if the block |id| exists in the control dependence graph.
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// This can be false even if the block exists in the function when it is part
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// of an infinite loop, since it is not part of the post-dominator tree.
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bool HasBlock(uint32_t id) const { return forward_nodes_.count(id) > 0; }
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// Returns true if block |a| is dependent on block |b|.
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bool IsDependent(uint32_t a, uint32_t b) const {
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if (!HasBlock(a)) return false;
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// BBs tend to have more dependents (targets) than they are dependent on
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// (sources), so search sources.
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const ControlDependenceList& a_sources = GetDependenceSources(a);
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return std::find_if(a_sources.begin(), a_sources.end(),
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[b](const ControlDependence& dep) {
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return dep.source_bb_id() == b;
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}) != a_sources.end();
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}
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private:
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// Computes the post-dominance frontiers (i.e. the reverse CDG) for each node
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// in the post-dominator tree. Only modifies reverse_nodes_; forward_nodes_ is
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// not modified.
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void ComputePostDominanceFrontiers(const CFG& cfg,
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const PostDominatorAnalysis& pdom);
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// Computes the post-dominance frontier for a specific node |pdom_node| in the
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// post-dominator tree. Result is placed in reverse_nodes_[pdom_node.id()].
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void ComputePostDominanceFrontierForNode(const CFG& cfg,
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const PostDominatorAnalysis& pdom,
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uint32_t function_entry,
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const DominatorTreeNode& pdom_node);
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// Computes the forward graph (forward_nodes_) from the reverse graph
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// (reverse_nodes_).
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void ComputeForwardGraphFromReverse();
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ControlDependenceListMap forward_nodes_;
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ControlDependenceListMap reverse_nodes_;
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};
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} // namespace opt
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} // namespace spvtools
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#endif // SOURCE_OPT_CONTROL_DEPENDENCE_H_
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