source/opt/debug_info_manager.h - external/github.com/KhronosGroup/SPIRV-Tools - Git at Google

 // Copyright (c) 2020 Google LLC
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef SOURCE_OPT_DEBUG_INFO_MANAGER_H_
 #define SOURCE_OPT_DEBUG_INFO_MANAGER_H_

 #include <unordered_map>
 #include <unordered_set>

 #include "source/opt/instruction.h"
 #include "source/opt/module.h"

 namespace spvtools {
 namespace opt {
 namespace analysis {

 // When an instruction of a callee function is inlined to its caller function,
 // we need the line and the scope information of the function call instruction
 // to generate DebugInlinedAt. This class keeps the data. For multiple inlining
 // of a single instruction, we have to create multiple DebugInlinedAt
 // instructions as a chain. This class keeps the information of the generated
 // DebugInlinedAt chains to reduce the number of chains.
 class DebugInlinedAtContext {
  public:
   explicit DebugInlinedAtContext(Instruction* call_inst)
       : call_inst_line_(call_inst->dbg_line_inst()),
         call_inst_scope_(call_inst->GetDebugScope()) {}

   const Instruction* GetLineOfCallInstruction() { return call_inst_line_; }
   const DebugScope& GetScopeOfCallInstruction() { return call_inst_scope_; }
   // Puts the DebugInlinedAt chain that is generated for the callee instruction
   // whose DebugInlinedAt of DebugScope is |callee_instr_inlined_at| into
   // |callee_inlined_at2chain_|.
   void SetDebugInlinedAtChain(uint32_t callee_instr_inlined_at,
                               uint32_t chain_head_id) {
     callee_inlined_at2chain_[callee_instr_inlined_at] = chain_head_id;
   }
   // Gets the DebugInlinedAt chain from |callee_inlined_at2chain_|.
   uint32_t GetDebugInlinedAtChain(uint32_t callee_instr_inlined_at) {
     auto chain_itr = callee_inlined_at2chain_.find(callee_instr_inlined_at);
     if (chain_itr != callee_inlined_at2chain_.end()) return chain_itr->second;
     return kNoInlinedAt;
   }

  private:
   // The line information of the function call instruction that will be
   // replaced by the callee function.
   const Instruction* call_inst_line_;

   // The scope information of the function call instruction that will be
   // replaced by the callee function.
   const DebugScope call_inst_scope_;

   // Map from DebugInlinedAt ids of callee to head ids of new generated
   // DebugInlinedAt chain.
   std::unordered_map<uint32_t, uint32_t> callee_inlined_at2chain_;
 };

 // A class for analyzing, managing, and creating OpenCL.DebugInfo.100 extension
 // instructions.
 class DebugInfoManager {
  public:
   // Constructs a debug information manager from the given |context|.
   DebugInfoManager(IRContext* context);

   DebugInfoManager(const DebugInfoManager&) = delete;
   DebugInfoManager(DebugInfoManager&&) = delete;
   DebugInfoManager& operator=(const DebugInfoManager&) = delete;
   DebugInfoManager& operator=(DebugInfoManager&&) = delete;

   friend bool operator==(const DebugInfoManager&, const DebugInfoManager&);
   friend bool operator!=(const DebugInfoManager& lhs,
                          const DebugInfoManager& rhs) {
     return !(lhs == rhs);
   }

   // Analyzes OpenCL.DebugInfo.100 instruction |dbg_inst|.
   void AnalyzeDebugInst(Instruction* dbg_inst);

   // Creates new DebugInlinedAt and returns its id. Its line operand is the
   // line number of |line| if |line| is not nullptr. Otherwise, its line operand
   // is the line number of lexical scope of |scope|. Its Scope and Inlined
   // operands are Scope and Inlined of |scope|.
   uint32_t CreateDebugInlinedAt(const Instruction* line,
                                 const DebugScope& scope);

   // Clones DebugExpress instruction |dbg_expr| and add Deref Operation
   // in the front of the Operation list of |dbg_expr|.
   Instruction* DerefDebugExpression(Instruction* dbg_expr);

   // Returns a DebugInfoNone instruction.
   Instruction* GetDebugInfoNone();

   // Returns DebugInlinedAt whose id is |dbg_inlined_at_id|. If it does not
   // exist or it is not a DebugInlinedAt instruction, return nullptr.
   Instruction* GetDebugInlinedAt(uint32_t dbg_inlined_at_id);

   // Returns DebugFunction whose Function operand is |fn_id|. If it does not
   // exist, return nullptr.
   Instruction* GetDebugFunction(uint32_t fn_id) {
     auto dbg_fn_it = fn_id_to_dbg_fn_.find(fn_id);
     return dbg_fn_it == fn_id_to_dbg_fn_.end() ? nullptr : dbg_fn_it->second;
   }

   // Clones DebugInlinedAt whose id is |clone_inlined_at_id|. If
   // |clone_inlined_at_id| is not an id of DebugInlinedAt, returns nullptr.
   // If |insert_before| is given, inserts the new DebugInlinedAt before it.
   // Otherwise, inserts the new DebugInlinedAt into the debug instruction
   // section of the module.
   Instruction* CloneDebugInlinedAt(uint32_t clone_inlined_at_id,
                                    Instruction* insert_before = nullptr);

   // Returns the debug scope corresponding to an inlining instruction in the
   // scope |callee_instr_scope| into |inlined_at_ctx|. Generates all new
   // debug instructions needed to represent the scope.
   DebugScope BuildDebugScope(const DebugScope& callee_instr_scope,
                              DebugInlinedAtContext* inlined_at_ctx);

   // Returns DebugInlinedAt corresponding to inlining an instruction, which
   // was inlined at |callee_inlined_at|, into |inlined_at_ctx|. Generates all
   // new debug instructions needed to represent the DebugInlinedAt.
   uint32_t BuildDebugInlinedAtChain(uint32_t callee_inlined_at,
                                     DebugInlinedAtContext* inlined_at_ctx);

   // Returns true if there is a debug declaration instruction whose
   // 'Local Variable' operand is |variable_id|.
   bool IsVariableDebugDeclared(uint32_t variable_id);

   // Kills all debug declaration instructions with Deref whose 'Local Variable'
   // operand is |variable_id|.
   void KillDebugDeclares(uint32_t variable_id);

   // Generates a DebugValue instruction with value |value_id| for every local
   // variable that is in the scope of |scope_and_line| and whose memory is
   // |variable_id| and inserts it after the instruction |insert_pos|.
   void AddDebugValueIfVarDeclIsVisible(Instruction* scope_and_line,
                                        uint32_t variable_id, uint32_t value_id,
                                        Instruction* insert_pos);

   // Generates a DebugValue instruction with |dbg_local_var_id|, |value_id|,
   // |expr_id|, |index_id| operands and inserts it before |insert_before|.
   Instruction* AddDebugValueWithIndex(uint32_t dbg_local_var_id,
                                       uint32_t value_id, uint32_t expr_id,
                                       uint32_t index_id,
                                       Instruction* insert_before);

   // Erases |instr| from data structures of this class.
   void ClearDebugInfo(Instruction* instr);

   // Returns the id of Value operand if |inst| is DebugValue who has Deref
   // operation and its Value operand is a result id of OpVariable with
   // Function storage class. Otherwise, returns 0.
   uint32_t GetVariableIdOfDebugValueUsedForDeclare(Instruction* inst);

   // Converts DebugGlobalVariable |dbg_global_var| to a DebugLocalVariable and
   // creates a DebugDeclare mapping the new DebugLocalVariable to |local_var|.
   void ConvertDebugGlobalToLocalVariable(Instruction* dbg_global_var,
                                          Instruction* local_var);

   // Returns true if |instr| is a debug declaration instruction.
   bool IsDebugDeclare(Instruction* instr);

   // Replace all uses of |before| id that is an operand of a DebugScope with
   // |after| id if those uses (instruction) return true for |predicate|.
   void ReplaceAllUsesInDebugScopeWithPredicate(
       uint32_t before, uint32_t after,
       const std::function<bool(Instruction*)>& predicate);

   // Removes uses of DebugScope |inst| from |scope_id_to_users_| or uses of
   // DebugInlinedAt |inst| from |inlinedat_id_to_users_|.
   void ClearDebugScopeAndInlinedAtUses(Instruction* inst);

  private:
   IRContext* context() { return context_; }

   // Analyzes OpenCL.DebugInfo.100 instructions in the given |module| and
   // populates data structures in this class.
   void AnalyzeDebugInsts(Module& module);

   // Returns the debug instruction whose id is |id|. Returns |nullptr| if one
   // does not exists.
   Instruction* GetDbgInst(uint32_t id);

   // Returns a DebugOperation instruction with OpCode Deref.
   Instruction* GetDebugOperationWithDeref();

   // Registers the debug instruction |inst| into |id_to_dbg_inst_| using id of
   // |inst| as a key.
   void RegisterDbgInst(Instruction* inst);

   // Register the DebugFunction instruction |inst|. The function referenced
   // in |inst| must not already be registered.
   void RegisterDbgFunction(Instruction* inst);

   // Register the DebugDeclare or DebugValue with Deref operation
   // |dbg_declare| into |var_id_to_dbg_decl_| using OpVariable id
   // |var_id| as a key.
   void RegisterDbgDeclare(uint32_t var_id, Instruction* dbg_declare);

   // Returns a DebugExpression instruction without Operation operands.
   Instruction* GetEmptyDebugExpression();

   // Returns true if a scope |ancestor| is |scope| or an ancestor scope
   // of |scope|.
   bool IsAncestorOfScope(uint32_t scope, uint32_t ancestor);

   // Returns true if the declaration of a local variable |dbg_declare|
   // is visible in the scope of an instruction |instr_scope_id|.
   bool IsDeclareVisibleToInstr(Instruction* dbg_declare,
                                uint32_t instr_scope_id);

   // Returns the parent scope of the scope |child_scope|.
   uint32_t GetParentScope(uint32_t child_scope);

   IRContext* context_;

   // Mapping from ids of OpenCL.DebugInfo.100 extension instructions
   // to their Instruction instances.
   std::unordered_map<uint32_t, Instruction*> id_to_dbg_inst_;

   // Mapping from function's ids to DebugFunction instructions whose
   // operand is the function.
   std::unordered_map<uint32_t, Instruction*> fn_id_to_dbg_fn_;

   // Mapping from variable or value ids to DebugDeclare or DebugValue
   // instructions whose operand is the variable or value.
   std::unordered_map<uint32_t, std::unordered_set<Instruction*>>
       var_id_to_dbg_decl_;

   // Mapping from DebugScope ids to users.
   std::unordered_map<uint32_t, std::unordered_set<Instruction*>>
       scope_id_to_users_;

   // Mapping from DebugInlinedAt ids to users.
   std::unordered_map<uint32_t, std::unordered_set<Instruction*>>
       inlinedat_id_to_users_;

   // DebugOperation whose OpCode is OpenCLDebugInfo100Deref.
   Instruction* deref_operation_;

   // DebugInfoNone instruction. We need only a single DebugInfoNone.
   // To reuse the existing one, we keep it using this member variable.
   Instruction* debug_info_none_inst_;

   // DebugExpression instruction without Operation operands. We need only
   // a single DebugExpression without Operation operands. To reuse the
   // existing one, we keep it using this member variable.
   Instruction* empty_debug_expr_inst_;
 };

 }  // namespace analysis
 }  // namespace opt
 }  // namespace spvtools

 #endif  // SOURCE_OPT_DEBUG_INFO_MANAGER_H_
	// Copyright (c) 2020 Google LLC
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef SOURCE_OPT_DEBUG_INFO_MANAGER_H_
	#define SOURCE_OPT_DEBUG_INFO_MANAGER_H_

	#include <unordered_map>
	#include <unordered_set>

	#include "source/opt/instruction.h"
	#include "source/opt/module.h"

	namespace spvtools {
	namespace opt {
	namespace analysis {

	// When an instruction of a callee function is inlined to its caller function,
	// we need the line and the scope information of the function call instruction
	// to generate DebugInlinedAt. This class keeps the data. For multiple inlining
	// of a single instruction, we have to create multiple DebugInlinedAt
	// instructions as a chain. This class keeps the information of the generated
	// DebugInlinedAt chains to reduce the number of chains.
	class DebugInlinedAtContext {
	public:
	explicit DebugInlinedAtContext(Instruction* call_inst)
	: call_inst_line_(call_inst->dbg_line_inst()),
	call_inst_scope_(call_inst->GetDebugScope()) {}

	const Instruction* GetLineOfCallInstruction() { return call_inst_line_; }
	const DebugScope& GetScopeOfCallInstruction() { return call_inst_scope_; }
	// Puts the DebugInlinedAt chain that is generated for the callee instruction
	// whose DebugInlinedAt of DebugScope is \|callee_instr_inlined_at\| into
	// \|callee_inlined_at2chain_\|.
	void SetDebugInlinedAtChain(uint32_t callee_instr_inlined_at,
	uint32_t chain_head_id) {
	callee_inlined_at2chain_[callee_instr_inlined_at] = chain_head_id;
	}
	// Gets the DebugInlinedAt chain from \|callee_inlined_at2chain_\|.
	uint32_t GetDebugInlinedAtChain(uint32_t callee_instr_inlined_at) {
	auto chain_itr = callee_inlined_at2chain_.find(callee_instr_inlined_at);
	if (chain_itr != callee_inlined_at2chain_.end()) return chain_itr->second;
	return kNoInlinedAt;
	}

	private:
	// The line information of the function call instruction that will be
	// replaced by the callee function.
	const Instruction* call_inst_line_;

	// The scope information of the function call instruction that will be
	// replaced by the callee function.
	const DebugScope call_inst_scope_;

	// Map from DebugInlinedAt ids of callee to head ids of new generated
	// DebugInlinedAt chain.
	std::unordered_map<uint32_t, uint32_t> callee_inlined_at2chain_;
	};

	// A class for analyzing, managing, and creating OpenCL.DebugInfo.100 extension
	// instructions.
	class DebugInfoManager {
	public:
	// Constructs a debug information manager from the given \|context\|.
	DebugInfoManager(IRContext* context);

	DebugInfoManager(const DebugInfoManager&) = delete;
	DebugInfoManager(DebugInfoManager&&) = delete;
	DebugInfoManager& operator=(const DebugInfoManager&) = delete;
	DebugInfoManager& operator=(DebugInfoManager&&) = delete;

	friend bool operator==(const DebugInfoManager&, const DebugInfoManager&);
	friend bool operator!=(const DebugInfoManager& lhs,
	const DebugInfoManager& rhs) {
	return !(lhs == rhs);
	}

	// Analyzes OpenCL.DebugInfo.100 instruction \|dbg_inst\|.
	void AnalyzeDebugInst(Instruction* dbg_inst);

	// Creates new DebugInlinedAt and returns its id. Its line operand is the
	// line number of \|line\| if \|line\| is not nullptr. Otherwise, its line operand
	// is the line number of lexical scope of \|scope\|. Its Scope and Inlined
	// operands are Scope and Inlined of \|scope\|.
	uint32_t CreateDebugInlinedAt(const Instruction* line,
	const DebugScope& scope);

	// Clones DebugExpress instruction \|dbg_expr\| and add Deref Operation
	// in the front of the Operation list of \|dbg_expr\|.
	Instruction* DerefDebugExpression(Instruction* dbg_expr);

	// Returns a DebugInfoNone instruction.
	Instruction* GetDebugInfoNone();

	// Returns DebugInlinedAt whose id is \|dbg_inlined_at_id\|. If it does not
	// exist or it is not a DebugInlinedAt instruction, return nullptr.
	Instruction* GetDebugInlinedAt(uint32_t dbg_inlined_at_id);

	// Returns DebugFunction whose Function operand is \|fn_id\|. If it does not
	// exist, return nullptr.
	Instruction* GetDebugFunction(uint32_t fn_id) {
	auto dbg_fn_it = fn_id_to_dbg_fn_.find(fn_id);
	return dbg_fn_it == fn_id_to_dbg_fn_.end() ? nullptr : dbg_fn_it->second;
	}

	// Clones DebugInlinedAt whose id is \|clone_inlined_at_id\|. If
	// \|clone_inlined_at_id\| is not an id of DebugInlinedAt, returns nullptr.
	// If \|insert_before\| is given, inserts the new DebugInlinedAt before it.
	// Otherwise, inserts the new DebugInlinedAt into the debug instruction
	// section of the module.
	Instruction* CloneDebugInlinedAt(uint32_t clone_inlined_at_id,
	Instruction* insert_before = nullptr);

	// Returns the debug scope corresponding to an inlining instruction in the
	// scope \|callee_instr_scope\| into \|inlined_at_ctx\|. Generates all new
	// debug instructions needed to represent the scope.
	DebugScope BuildDebugScope(const DebugScope& callee_instr_scope,
	DebugInlinedAtContext* inlined_at_ctx);

	// Returns DebugInlinedAt corresponding to inlining an instruction, which
	// was inlined at \|callee_inlined_at\|, into \|inlined_at_ctx\|. Generates all
	// new debug instructions needed to represent the DebugInlinedAt.
	uint32_t BuildDebugInlinedAtChain(uint32_t callee_inlined_at,
	DebugInlinedAtContext* inlined_at_ctx);

	// Returns true if there is a debug declaration instruction whose
	// 'Local Variable' operand is \|variable_id\|.
	bool IsVariableDebugDeclared(uint32_t variable_id);

	// Kills all debug declaration instructions with Deref whose 'Local Variable'
	// operand is \|variable_id\|.
	void KillDebugDeclares(uint32_t variable_id);

	// Generates a DebugValue instruction with value \|value_id\| for every local
	// variable that is in the scope of \|scope_and_line\| and whose memory is
	// \|variable_id\| and inserts it after the instruction \|insert_pos\|.
	void AddDebugValueIfVarDeclIsVisible(Instruction* scope_and_line,
	uint32_t variable_id, uint32_t value_id,
	Instruction* insert_pos);

	// Generates a DebugValue instruction with \|dbg_local_var_id\|, \|value_id\|,
	// \|expr_id\|, \|index_id\| operands and inserts it before \|insert_before\|.
	Instruction* AddDebugValueWithIndex(uint32_t dbg_local_var_id,
	uint32_t value_id, uint32_t expr_id,
	uint32_t index_id,
	Instruction* insert_before);

	// Erases \|instr\| from data structures of this class.
	void ClearDebugInfo(Instruction* instr);

	// Returns the id of Value operand if \|inst\| is DebugValue who has Deref
	// operation and its Value operand is a result id of OpVariable with
	// Function storage class. Otherwise, returns 0.
	uint32_t GetVariableIdOfDebugValueUsedForDeclare(Instruction* inst);

	// Converts DebugGlobalVariable \|dbg_global_var\| to a DebugLocalVariable and
	// creates a DebugDeclare mapping the new DebugLocalVariable to \|local_var\|.
	void ConvertDebugGlobalToLocalVariable(Instruction* dbg_global_var,
	Instruction* local_var);

	// Returns true if \|instr\| is a debug declaration instruction.
	bool IsDebugDeclare(Instruction* instr);

	// Replace all uses of \|before\| id that is an operand of a DebugScope with
	// \|after\| id if those uses (instruction) return true for \|predicate\|.
	void ReplaceAllUsesInDebugScopeWithPredicate(
	uint32_t before, uint32_t after,
	const std::function<bool(Instruction*)>& predicate);

	// Removes uses of DebugScope \|inst\| from \|scope_id_to_users_\| or uses of
	// DebugInlinedAt \|inst\| from \|inlinedat_id_to_users_\|.
	void ClearDebugScopeAndInlinedAtUses(Instruction* inst);

	private:
	IRContext* context() { return context_; }

	// Analyzes OpenCL.DebugInfo.100 instructions in the given \|module\| and
	// populates data structures in this class.
	void AnalyzeDebugInsts(Module& module);

	// Returns the debug instruction whose id is \|id\|. Returns \|nullptr\| if one
	// does not exists.
	Instruction* GetDbgInst(uint32_t id);

	// Returns a DebugOperation instruction with OpCode Deref.
	Instruction* GetDebugOperationWithDeref();

	// Registers the debug instruction \|inst\| into \|id_to_dbg_inst_\| using id of
	// \|inst\| as a key.
	void RegisterDbgInst(Instruction* inst);

	// Register the DebugFunction instruction \|inst\|. The function referenced
	// in \|inst\| must not already be registered.
	void RegisterDbgFunction(Instruction* inst);

	// Register the DebugDeclare or DebugValue with Deref operation
	// \|dbg_declare\| into \|var_id_to_dbg_decl_\| using OpVariable id
	// \|var_id\| as a key.
	void RegisterDbgDeclare(uint32_t var_id, Instruction* dbg_declare);

	// Returns a DebugExpression instruction without Operation operands.
	Instruction* GetEmptyDebugExpression();

	// Returns true if a scope \|ancestor\| is \|scope\| or an ancestor scope
	// of \|scope\|.
	bool IsAncestorOfScope(uint32_t scope, uint32_t ancestor);

	// Returns true if the declaration of a local variable \|dbg_declare\|
	// is visible in the scope of an instruction \|instr_scope_id\|.
	bool IsDeclareVisibleToInstr(Instruction* dbg_declare,
	uint32_t instr_scope_id);

	// Returns the parent scope of the scope \|child_scope\|.
	uint32_t GetParentScope(uint32_t child_scope);

	IRContext* context_;

	// Mapping from ids of OpenCL.DebugInfo.100 extension instructions
	// to their Instruction instances.
	std::unordered_map<uint32_t, Instruction*> id_to_dbg_inst_;

	// Mapping from function's ids to DebugFunction instructions whose
	// operand is the function.
	std::unordered_map<uint32_t, Instruction*> fn_id_to_dbg_fn_;

	// Mapping from variable or value ids to DebugDeclare or DebugValue
	// instructions whose operand is the variable or value.
	std::unordered_map<uint32_t, std::unordered_set<Instruction*>>
	var_id_to_dbg_decl_;

	// Mapping from DebugScope ids to users.
	std::unordered_map<uint32_t, std::unordered_set<Instruction*>>
	scope_id_to_users_;

	// Mapping from DebugInlinedAt ids to users.
	std::unordered_map<uint32_t, std::unordered_set<Instruction*>>
	inlinedat_id_to_users_;

	// DebugOperation whose OpCode is OpenCLDebugInfo100Deref.
	Instruction* deref_operation_;

	// DebugInfoNone instruction. We need only a single DebugInfoNone.
	// To reuse the existing one, we keep it using this member variable.
	Instruction* debug_info_none_inst_;

	// DebugExpression instruction without Operation operands. We need only
	// a single DebugExpression without Operation operands. To reuse the
	// existing one, we keep it using this member variable.
	Instruction* empty_debug_expr_inst_;
	};

	} // namespace analysis
	} // namespace opt
	} // namespace spvtools

	#endif // SOURCE_OPT_DEBUG_INFO_MANAGER_H_