FindExternalVisibleDecls and FindExternalLexicalDecls are marked and given unique IDs, so that all logging done as part of their execution can be traced back to the proper call. Also there was some logging that really wasn't helpful in most cases so I disabled it unless verbose logging (log enable -v lldb expr) is enabled. llvm-svn: 141987
499 lines
14 KiB
C++
499 lines
14 KiB
C++
//===-- ASTResultSynthesizer.cpp --------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include "stdlib.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/Decl.h"
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#include "clang/AST/DeclCXX.h"
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#include "clang/AST/DeclGroup.h"
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#include "clang/AST/DeclObjC.h"
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#include "clang/AST/Expr.h"
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#include "clang/AST/Stmt.h"
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#include "clang/Parse/Parser.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/raw_ostream.h"
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#include "lldb/Core/Log.h"
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#include "lldb/Expression/ClangPersistentVariables.h"
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#include "lldb/Expression/ASTResultSynthesizer.h"
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#include "lldb/Symbol/ClangASTContext.h"
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using namespace llvm;
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using namespace clang;
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using namespace lldb_private;
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ASTResultSynthesizer::ASTResultSynthesizer(ASTConsumer *passthrough,
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TypeFromUser desired_type,
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ASTContext &scratch_ast_context,
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ClangPersistentVariables &persistent_vars) :
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m_ast_context (NULL),
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m_passthrough (passthrough),
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m_passthrough_sema (NULL),
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m_sema (NULL),
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m_desired_type (desired_type),
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m_scratch_ast_context (scratch_ast_context),
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m_persistent_vars (persistent_vars)
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{
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if (!m_passthrough)
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return;
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m_passthrough_sema = dyn_cast<SemaConsumer>(passthrough);
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}
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ASTResultSynthesizer::~ASTResultSynthesizer()
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{
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}
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void
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ASTResultSynthesizer::Initialize(ASTContext &Context)
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{
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m_ast_context = &Context;
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if (m_passthrough)
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m_passthrough->Initialize(Context);
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}
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void
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ASTResultSynthesizer::TransformTopLevelDecl(Decl* D)
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{
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lldb::LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS));
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if (NamedDecl *named_decl = dyn_cast<NamedDecl>(D))
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{
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if (log && log->GetVerbose())
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{
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if (named_decl->getIdentifier())
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log->Printf("TransformTopLevelDecl(%s)", named_decl->getIdentifier()->getNameStart());
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else if (ObjCMethodDecl *method_decl = dyn_cast<ObjCMethodDecl>(D))
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log->Printf("TransformTopLevelDecl(%s)", method_decl->getSelector().getAsString().c_str());
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else
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log->Printf("TransformTopLevelDecl(<complex>)");
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}
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}
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if (LinkageSpecDecl *linkage_spec_decl = dyn_cast<LinkageSpecDecl>(D))
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{
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RecordDecl::decl_iterator decl_iterator;
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for (decl_iterator = linkage_spec_decl->decls_begin();
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decl_iterator != linkage_spec_decl->decls_end();
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++decl_iterator)
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{
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TransformTopLevelDecl(*decl_iterator);
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}
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}
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else if (ObjCMethodDecl *method_decl = dyn_cast<ObjCMethodDecl>(D))
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{
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if (m_ast_context &&
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!method_decl->getSelector().getAsString().compare("$__lldb_expr:"))
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{
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RecordPersistentTypes(method_decl);
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SynthesizeObjCMethodResult(method_decl);
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}
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}
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else if (FunctionDecl *function_decl = dyn_cast<FunctionDecl>(D))
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{
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if (m_ast_context &&
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!function_decl->getNameInfo().getAsString().compare("$__lldb_expr"))
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{
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RecordPersistentTypes(function_decl);
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SynthesizeFunctionResult(function_decl);
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}
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}
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}
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void
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ASTResultSynthesizer::HandleTopLevelDecl(DeclGroupRef D)
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{
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DeclGroupRef::iterator decl_iterator;
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for (decl_iterator = D.begin();
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decl_iterator != D.end();
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++decl_iterator)
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{
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Decl *decl = *decl_iterator;
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TransformTopLevelDecl(decl);
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}
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if (m_passthrough)
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m_passthrough->HandleTopLevelDecl(D);
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}
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bool
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ASTResultSynthesizer::SynthesizeFunctionResult (FunctionDecl *FunDecl)
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{
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lldb::LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS));
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ASTContext &Ctx(*m_ast_context);
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if (!m_sema)
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return false;
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FunctionDecl *function_decl = FunDecl;
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if (!function_decl)
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return false;
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if (log && log->GetVerbose())
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{
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std::string s;
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raw_string_ostream os(s);
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Ctx.getTranslationUnitDecl()->print(os);
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os.flush();
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log->Printf("AST context before transforming:\n%s", s.c_str());
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}
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Stmt *function_body = function_decl->getBody();
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CompoundStmt *compound_stmt = dyn_cast<CompoundStmt>(function_body);
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bool ret = SynthesizeBodyResult (compound_stmt,
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function_decl);
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if (log && log->GetVerbose())
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{
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std::string s;
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raw_string_ostream os(s);
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function_decl->print(os);
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os.flush();
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log->Printf ("Transformed function AST:\n%s", s.c_str());
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}
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return ret;
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}
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bool
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ASTResultSynthesizer::SynthesizeObjCMethodResult (ObjCMethodDecl *MethodDecl)
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{
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lldb::LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS));
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ASTContext &Ctx(*m_ast_context);
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if (!m_sema)
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return false;
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if (!MethodDecl)
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return false;
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if (log && log->GetVerbose())
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{
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std::string s;
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raw_string_ostream os(s);
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Ctx.getTranslationUnitDecl()->print(os);
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os.flush();
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log->Printf("AST context before transforming:\n%s", s.c_str());
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}
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Stmt *method_body = MethodDecl->getBody();
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if (!method_body)
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return false;
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CompoundStmt *compound_stmt = dyn_cast<CompoundStmt>(method_body);
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bool ret = SynthesizeBodyResult (compound_stmt,
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MethodDecl);
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if (log)
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{
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std::string s;
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raw_string_ostream os(s);
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MethodDecl->print(os);
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os.flush();
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log->Printf("Transformed function AST:\n%s", s.c_str());
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}
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return ret;
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}
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bool
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ASTResultSynthesizer::SynthesizeBodyResult (CompoundStmt *Body,
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DeclContext *DC)
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{
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lldb::LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS));
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ASTContext &Ctx(*m_ast_context);
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if (!Body)
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return false;
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if (Body->body_empty())
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return false;
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Stmt **last_stmt_ptr = Body->body_end() - 1;
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Stmt *last_stmt = *last_stmt_ptr;
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while (dyn_cast<NullStmt>(last_stmt))
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{
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if (last_stmt_ptr != Body->body_begin())
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{
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last_stmt_ptr--;
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last_stmt = *last_stmt_ptr;
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}
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else
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{
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return false;
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}
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}
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Expr *last_expr = dyn_cast<Expr>(last_stmt);
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if (!last_expr)
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// No auxiliary variable necessary; expression returns void
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return true;
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// is_lvalue is used to record whether the expression returns an assignable Lvalue or an
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// Rvalue. This is relevant because they are handled differently.
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//
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// For Lvalues
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//
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// - In AST result synthesis (here!) the expression E is transformed into an initialization
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// T *$__lldb_expr_result_ptr = &E.
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//
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// - In structure allocation, a pointer-sized slot is allocated in the struct that is to be
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// passed into the expression.
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//
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// - In IR transformations, reads and writes to $__lldb_expr_result_ptr are redirected at
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// an entry in the struct ($__lldb_arg) passed into the expression. (Other persistent
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// variables are treated similarly, having been materialized as references, but in those
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// cases the value of the reference itself is never modified.)
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//
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// - During materialization, $0 (the result persistent variable) is ignored.
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//
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// - During dematerialization, $0 is marked up as a load address with value equal to the
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// contents of the structure entry.
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//
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// For Rvalues
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//
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// - In AST result synthesis the expression E is transformed into an initialization
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// static T $__lldb_expr_result = E.
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//
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// - In structure allocation, a pointer-sized slot is allocated in the struct that is to be
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// passed into the expression.
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//
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// - In IR transformations, an instruction is inserted at the beginning of the function to
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// dereference the pointer resident in the slot. Reads and writes to $__lldb_expr_result
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// are redirected at that dereferenced version. Guard variables for the static variable
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// are excised.
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//
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// - During materialization, $0 (the result persistent variable) is populated with the location
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// of a newly-allocated area of memory.
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//
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// - During dematerialization, $0 is ignored.
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bool is_lvalue =
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(last_expr->getValueKind() == VK_LValue || last_expr->getValueKind() == VK_XValue) &&
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(last_expr->getObjectKind() == OK_Ordinary);
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QualType expr_qual_type = last_expr->getType();
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const clang::Type *expr_type = expr_qual_type.getTypePtr();
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if (!expr_type)
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return false;
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if (expr_type->isVoidType())
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return true;
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if (log)
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{
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std::string s = expr_qual_type.getAsString();
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log->Printf("Last statement is an %s with type: %s", (is_lvalue ? "lvalue" : "rvalue"), s.c_str());
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}
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clang::VarDecl *result_decl = NULL;
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if (is_lvalue)
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{
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IdentifierInfo *result_ptr_id;
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if (expr_type->isFunctionType())
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result_ptr_id = &Ctx.Idents.get("$__lldb_expr_result"); // functions actually should be treated like function pointers
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else
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result_ptr_id = &Ctx.Idents.get("$__lldb_expr_result_ptr");
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QualType ptr_qual_type = Ctx.getPointerType(expr_qual_type);
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result_decl = VarDecl::Create(Ctx,
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DC,
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SourceLocation(),
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SourceLocation(),
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result_ptr_id,
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ptr_qual_type,
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NULL,
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SC_Static,
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SC_Static);
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if (!result_decl)
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return false;
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ExprResult address_of_expr = m_sema->CreateBuiltinUnaryOp(SourceLocation(), UO_AddrOf, last_expr);
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m_sema->AddInitializerToDecl(result_decl, address_of_expr.take(), true, true);
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}
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else
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{
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IdentifierInfo &result_id = Ctx.Idents.get("$__lldb_expr_result");
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result_decl = VarDecl::Create(Ctx,
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DC,
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SourceLocation(),
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SourceLocation(),
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&result_id,
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expr_qual_type,
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NULL,
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SC_Static,
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SC_Static);
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if (!result_decl)
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return false;
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m_sema->AddInitializerToDecl(result_decl, last_expr, true, true);
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}
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DC->addDecl(result_decl);
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///////////////////////////////
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// call AddInitializerToDecl
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//
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//m_sema->AddInitializerToDecl(result_decl, last_expr);
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/////////////////////////////////
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// call ConvertDeclToDeclGroup
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//
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Sema::DeclGroupPtrTy result_decl_group_ptr;
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result_decl_group_ptr = m_sema->ConvertDeclToDeclGroup(result_decl);
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////////////////////////
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// call ActOnDeclStmt
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//
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StmtResult result_initialization_stmt_result(m_sema->ActOnDeclStmt(result_decl_group_ptr,
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SourceLocation(),
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SourceLocation()));
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////////////////////////////////////////////////
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// replace the old statement with the new one
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//
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*last_stmt_ptr = reinterpret_cast<Stmt*>(result_initialization_stmt_result.take());
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return true;
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}
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void
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ASTResultSynthesizer::HandleTranslationUnit(ASTContext &Ctx)
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{
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if (m_passthrough)
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m_passthrough->HandleTranslationUnit(Ctx);
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}
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void
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ASTResultSynthesizer::RecordPersistentTypes(DeclContext *FunDeclCtx)
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{
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typedef DeclContext::specific_decl_iterator<TypeDecl> TypeDeclIterator;
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for (TypeDeclIterator i = TypeDeclIterator(FunDeclCtx->decls_begin()),
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e = TypeDeclIterator(FunDeclCtx->decls_end());
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i != e;
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++i)
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{
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MaybeRecordPersistentType(*i);
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}
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}
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void
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ASTResultSynthesizer::MaybeRecordPersistentType(TypeDecl *D)
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{
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if (!D->getIdentifier())
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return;
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StringRef name = D->getName();
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if (name.size() == 0 || name[0] != '$')
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return;
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lldb::LogSP log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_EXPRESSIONS));
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ConstString name_cs(name.str().c_str());
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if (log)
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log->Printf ("Recording persistent type %s\n", name_cs.GetCString());
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Decl *D_scratch = ClangASTContext::CopyDecl(&m_scratch_ast_context,
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m_ast_context,
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D);
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TypeDecl *TD_scratch = dyn_cast<TypeDecl>(D_scratch);
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if (TD_scratch)
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m_persistent_vars.RegisterPersistentType(name_cs, TD_scratch);
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}
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void
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ASTResultSynthesizer::HandleTagDeclDefinition(TagDecl *D)
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{
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if (m_passthrough)
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m_passthrough->HandleTagDeclDefinition(D);
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}
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void
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ASTResultSynthesizer::CompleteTentativeDefinition(VarDecl *D)
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{
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if (m_passthrough)
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m_passthrough->CompleteTentativeDefinition(D);
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}
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void
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ASTResultSynthesizer::HandleVTable(CXXRecordDecl *RD, bool DefinitionRequired)
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{
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if (m_passthrough)
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m_passthrough->HandleVTable(RD, DefinitionRequired);
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}
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void
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ASTResultSynthesizer::PrintStats()
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{
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if (m_passthrough)
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m_passthrough->PrintStats();
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}
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void
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ASTResultSynthesizer::InitializeSema(Sema &S)
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{
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m_sema = &S;
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if (m_passthrough_sema)
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m_passthrough_sema->InitializeSema(S);
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}
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void
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ASTResultSynthesizer::ForgetSema()
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{
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m_sema = NULL;
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if (m_passthrough_sema)
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m_passthrough_sema->ForgetSema();
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}
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