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https://github.com/KhronosGroup/SPIRV-Tools
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df4198e50e
For some cases, we have DebugDecl invisible to a value assignment, but the value assignment information is important i.e., debugger cannot inspect the variable without the information. For example, a parameter of an inlined function must have its value assignment i.e., argument passing out of its function scope. If we simply remove DebugDecl because it is invisible to the argument passing, we cannot inspec the variable. This PR - Adds DebugValue for DebugDecl invisible to a value assignment. We use the value of the variable in the basic block that contains DebugDecl, which is found by ssa-rewrite. If the value instruction does not dominate DebugDecl, we use the value of the variable in the immediate dominator of the basic block. - Checks the visibility of DebugDecl for Phi value assignment based on the all value operands of the Phi. Since Phi just references multiple values from multiple basic blocks, scopes of value operands must be regarded as the scope of the Phi.
316 lines
13 KiB
C++
316 lines
13 KiB
C++
// Copyright (c) 2018 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_SSA_REWRITE_PASS_H_
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#define SOURCE_OPT_SSA_REWRITE_PASS_H_
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#include <queue>
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#include <string>
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#include <unordered_map>
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#include <unordered_set>
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#include <utility>
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#include <vector>
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#include "source/opt/basic_block.h"
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#include "source/opt/ir_context.h"
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#include "source/opt/mem_pass.h"
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namespace spvtools {
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namespace opt {
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// Utility class for passes that need to rewrite a function into SSA. This
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// converts load/store operations on function-local variables into SSA IDs,
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// which allows them to be the target of optimizing transformations.
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//
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// Store and load operations to these variables are converted into
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// operations on SSA IDs. Phi instructions are added when needed. See the
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// SSA construction paper for algorithmic details
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// (https://link.springer.com/chapter/10.1007/978-3-642-37051-9_6)
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class SSARewriter {
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public:
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SSARewriter(MemPass* pass) : pass_(pass) {}
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// Rewrites SSA-target variables in function |fp| into SSA. This is the
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// entry point for the SSA rewrite algorithm. SSA-target variables are
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// locally defined variables that meet the criteria set by IsSSATargetVar.
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//
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// Returns whether the function was modified or not, and whether or not the
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// rewrite was successful.
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Pass::Status RewriteFunctionIntoSSA(Function* fp);
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private:
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class PhiCandidate {
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public:
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explicit PhiCandidate(uint32_t var, uint32_t result, BasicBlock* block)
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: var_id_(var),
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result_id_(result),
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bb_(block),
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phi_args_(),
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copy_of_(0),
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is_complete_(false),
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users_() {}
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uint32_t var_id() const { return var_id_; }
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uint32_t result_id() const { return result_id_; }
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BasicBlock* bb() const { return bb_; }
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std::vector<uint32_t>& phi_args() { return phi_args_; }
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const std::vector<uint32_t>& phi_args() const { return phi_args_; }
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uint32_t copy_of() const { return copy_of_; }
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bool is_complete() const { return is_complete_; }
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std::vector<uint32_t>& users() { return users_; }
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const std::vector<uint32_t>& users() const { return users_; }
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// Marks this phi candidate as a trivial copy of |orig_id|.
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void MarkCopyOf(uint32_t orig_id) { copy_of_ = orig_id; }
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// Marks this phi candidate as incomplete.
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void MarkIncomplete() { is_complete_ = false; }
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// Marks this phi candidate as complete.
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void MarkComplete() { is_complete_ = true; }
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// Returns true if this Phi candidate is ready to be emitted.
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bool IsReady() const { return is_complete() && copy_of() == 0; }
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// Pretty prints this Phi candidate into a string and returns it. |cfg| is
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// needed to lookup basic block predecessors.
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std::string PrettyPrint(const CFG* cfg) const;
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// Registers |operand_id| as a user of this Phi candidate.
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void AddUser(uint32_t operand_id) { users_.push_back(operand_id); }
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private:
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// Variable ID that this Phi is merging.
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uint32_t var_id_;
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// SSA ID generated by this Phi (i.e., this is the result ID of the eventual
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// Phi instruction).
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uint32_t result_id_;
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// Basic block to hold this Phi.
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BasicBlock* bb_;
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// Vector of operands for every predecessor block of |bb|. This vector is
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// organized so that the Ith slot contains the argument coming from the Ith
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// predecessor of |bb|.
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std::vector<uint32_t> phi_args_;
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// If this Phi is a trivial copy of another Phi, this is the ID of the
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// original. If this is 0, it means that this is not a trivial Phi.
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uint32_t copy_of_;
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// False, if this Phi candidate has no arguments or at least one argument is
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// %0.
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bool is_complete_;
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// List of all users for this Phi instruction. Each element is the result ID
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// of the load instruction replaced by this Phi, or the result ID of a Phi
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// candidate that has this Phi in its list of operands.
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std::vector<uint32_t> users_;
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};
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// Type used to keep track of store operations in each basic block.
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typedef std::unordered_map<BasicBlock*,
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std::unordered_map<uint32_t, uint32_t>>
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BlockDefsMap;
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// Generates all the SSA rewriting decisions for basic block |bb|. This
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// populates the Phi candidate table (|phi_candidate_|) and the load
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// replacement table (|load_replacement_). Returns true if successful.
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bool GenerateSSAReplacements(BasicBlock* bb);
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// Seals block |bb|. Sealing a basic block means |bb| and all its
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// predecessors of |bb| have been scanned for loads/stores.
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void SealBlock(BasicBlock* bb);
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// Returns true if |bb| has been sealed.
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bool IsBlockSealed(BasicBlock* bb) { return sealed_blocks_.count(bb) != 0; }
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// Returns the Phi candidate with result ID |id| if it exists in the table
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// |phi_candidates_|. If no such Phi candidate exists, it returns nullptr.
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PhiCandidate* GetPhiCandidate(uint32_t id) {
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auto it = phi_candidates_.find(id);
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return (it != phi_candidates_.end()) ? &it->second : nullptr;
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}
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// Replaces all the users of Phi candidate |phi_cand| to be users of
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// |repl_id|.
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void ReplacePhiUsersWith(const PhiCandidate& phi_cand, uint32_t repl_id);
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// Returns the value ID that should replace the load ID in the given
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// replacement pair |repl|. The replacement is a pair (|load_id|, |val_id|).
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// If |val_id| is itself replaced by another value in the table, this function
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// will look the replacement for |val_id| until it finds one that is not
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// itself replaced. For instance, given:
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//
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// %34 = OpLoad %float %f1
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// OpStore %t %34
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// %36 = OpLoad %float %t
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//
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// Assume that %f1 is reached by a Phi candidate %42, the load
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// replacement table will have the following entries:
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//
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// %34 -> %42
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// %36 -> %34
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//
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// So, when looking for the replacement for %36, we should not use
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// %34. Rather, we should use %42. To do this, the chain of
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// replacements must be followed until we reach an element that has
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// no replacement.
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uint32_t GetReplacement(std::pair<uint32_t, uint32_t> repl);
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// Returns the argument at index |ix| from |phi_candidate|. If argument |ix|
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// comes from a trivial Phi, it follows the copy-of chain from that trivial
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// Phi until it finds the original Phi candidate.
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//
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// This is only valid after all Phi candidates have been completed. It can
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// only be called when generating the IR for these Phis.
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uint32_t GetPhiArgument(const PhiCandidate* phi_candidate, uint32_t ix);
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// Applies all the SSA replacement decisions. This replaces loads/stores to
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// SSA target variables with their corresponding SSA IDs, and inserts Phi
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// instructions for them.
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bool ApplyReplacements();
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// Registers a definition for variable |var_id| in basic block |bb| with
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// value |val_id|.
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void WriteVariable(uint32_t var_id, BasicBlock* bb, uint32_t val_id) {
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defs_at_block_[bb][var_id] = val_id;
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if (auto* pc = GetPhiCandidate(val_id)) {
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pc->AddUser(bb->id());
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}
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}
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// Returns the value of |var_id| at |bb| if |defs_at_block_| contains it.
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// Otherwise, returns 0.
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uint32_t GetValueAtBlock(uint32_t var_id, BasicBlock* bb);
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// Processes the store operation |inst| in basic block |bb|. This extracts
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// the variable ID being stored into, determines whether the variable is an
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// SSA-target variable, and, if it is, it stores its value in the
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// |defs_at_block_| map.
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void ProcessStore(Instruction* inst, BasicBlock* bb);
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// Processes the load operation |inst| in basic block |bb|. This extracts
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// the variable ID being stored into, determines whether the variable is an
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// SSA-target variable, and, if it is, it reads its reaching definition by
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// calling |GetReachingDef|. Returns true if successful.
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bool ProcessLoad(Instruction* inst, BasicBlock* bb);
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// Reads the current definition for variable |var_id| in basic block |bb|.
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// If |var_id| is not defined in block |bb| it walks up the predecessors of
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// |bb|, creating new Phi candidates along the way, if needed.
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//
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// It returns the value for |var_id| from the RHS of the current reaching
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// definition for |var_id|.
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uint32_t GetReachingDef(uint32_t var_id, BasicBlock* bb);
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// Adds arguments to |phi_candidate| by getting the reaching definition of
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// |phi_candidate|'s variable on each of the predecessors of its basic
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// block. After populating the argument list, it determines whether all its
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// arguments are the same. If so, it returns the ID of the argument that
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// this Phi copies.
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uint32_t AddPhiOperands(PhiCandidate* phi_candidate);
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// Creates a Phi candidate instruction for variable |var_id| in basic block
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// |bb|.
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//
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// Since the rewriting algorithm may remove Phi candidates when it finds
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// them to be trivial, we avoid the expense of creating actual Phi
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// instructions by keeping a pool of Phi candidates (|phi_candidates_|)
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// during rewriting.
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//
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// Once the candidate Phi is created, it returns its ID.
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PhiCandidate& CreatePhiCandidate(uint32_t var_id, BasicBlock* bb);
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// Attempts to remove a trivial Phi candidate |phi_cand|. Trivial Phis are
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// those that only reference themselves and one other value |val| any number
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// of times. This will try to remove any other Phis that become trivial
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// after |phi_cand| is removed.
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//
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// If |phi_cand| is trivial, it returns the SSA ID for the value that should
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// replace it. Otherwise, it returns the SSA ID for |phi_cand|.
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uint32_t TryRemoveTrivialPhi(PhiCandidate* phi_cand);
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// Finalizes |phi_candidate| by replacing every argument that is still %0
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// with its reaching definition.
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void FinalizePhiCandidate(PhiCandidate* phi_candidate);
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// Finalizes processing of Phi candidates. Once the whole function has been
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// scanned for loads and stores, the CFG will still have some incomplete and
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// trivial Phis. This will add missing arguments and remove trivial Phi
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// candidates.
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void FinalizePhiCandidates();
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// Adds DebugValues for DebugDeclares in
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// |decls_invisible_to_value_assignment_|. Returns whether the function was
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// modified or not, and whether or not the conversion was successful.
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Pass::Status AddDebugValuesForInvisibleDebugDecls(Function* fp);
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// Prints the table of Phi candidates to std::cerr.
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void PrintPhiCandidates() const;
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// Prints the load replacement table to std::cerr.
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void PrintReplacementTable() const;
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// Map holding the value of every SSA-target variable at every basic block
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// where the variable is stored. defs_at_block_[block][var_id] = val_id
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// means that there is a store or Phi instruction for variable |var_id| at
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// basic block |block| with value |val_id|.
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BlockDefsMap defs_at_block_;
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// Map, indexed by Phi ID, holding all the Phi candidates created during SSA
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// rewriting. |phi_candidates_[id]| returns the Phi candidate whose result
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// is |id|.
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std::unordered_map<uint32_t, PhiCandidate> phi_candidates_;
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// Queue of incomplete Phi candidates. These are Phi candidates created at
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// unsealed blocks. They need to be completed before they are instantiated
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// in ApplyReplacements.
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std::queue<PhiCandidate*> incomplete_phis_;
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// List of completed Phi candidates. These are the only candidates that
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// will become real Phi instructions.
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std::vector<PhiCandidate*> phis_to_generate_;
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// SSA replacement table. This maps variable IDs, resulting from a load
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// operation, to the value IDs that will replace them after SSA rewriting.
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// After all the rewriting decisions are made, a final scan through the IR
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// is done to replace all uses of the original load ID with the value ID.
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std::unordered_map<uint32_t, uint32_t> load_replacement_;
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// Set of blocks that have been sealed already.
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std::unordered_set<BasicBlock*> sealed_blocks_;
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// Memory pass requesting the SSA rewriter.
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MemPass* pass_;
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// Set of DebugDeclare instructions that are not added as DebugValue because
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// they are invisible to the store or phi instructions.
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std::unordered_set<Instruction*> decls_invisible_to_value_assignment_;
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};
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class SSARewritePass : public MemPass {
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public:
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SSARewritePass() = default;
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const char* name() const override { return "ssa-rewrite"; }
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Status Process() override;
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};
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} // namespace opt
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} // namespace spvtools
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#endif // SOURCE_OPT_SSA_REWRITE_PASS_H_
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