lib/SIL/SILWitnessTable.cpp - third_party/swift - Git at Google

 //===--- SILWitnessTable.cpp - Defines the SILWitnessTable class ----------===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
 // Licensed under Apache License v2.0 with Runtime Library Exception
 //
 // See https://swift.org/LICENSE.txt for license information
 // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines the SILWitnessTable class, which is used to map a protocol
 // conformance for a type to its implementing SILFunctions. This information is
 // used by IRGen to create witness tables for protocol dispatch.
 //
 // It can also be used by generic specialization and existential
 // devirtualization passes to promote witness_method instructions to static
 // function_refs.
 //
 //===----------------------------------------------------------------------===//

 #define DEBUG_TYPE "sil-witness-table"
 #include "swift/SIL/SILWitnessTable.h"
 #include "swift/AST/ASTMangler.h"
 #include "swift/AST/Module.h"
 #include "swift/AST/ProtocolConformance.h"
 #include "swift/SIL/SILModule.h"
 #include "llvm/ADT/SmallString.h"

 using namespace swift;

 static std::string mangleConstant(RootProtocolConformance *C) {
   Mangle::ASTMangler Mangler;
   return Mangler.mangleWitnessTable(C);
 }

 DeclContext *SILWitnessTable::getDeclContext() const {
   return getConformance()->getDeclContext();
 }

 ProtocolDecl *SILWitnessTable::getProtocol() const {
   return getConformance()->getProtocol();
 }

 CanType SILWitnessTable::getConformingType() const {
   return getConformance()->getType()->getCanonicalType();
 }

 void SILWitnessTable::addWitnessTable() {
   // Make sure we have not seen this witness table yet.
   assert(Mod.WitnessTableMap.find(Conformance) ==
          Mod.WitnessTableMap.end() && "Attempting to create duplicate "
          "witness table.");
   Mod.WitnessTableMap[Conformance] = this;
   Mod.witnessTables.push_back(this);
 }

 SILWitnessTable *SILWitnessTable::create(
     SILModule &M, SILLinkage Linkage, IsSerialized_t Serialized,
     RootProtocolConformance *Conformance,
     ArrayRef<SILWitnessTable::Entry> entries,
     ArrayRef<ConditionalConformance> conditionalConformances) {
   assert(Conformance && "Cannot create a witness table for a null "
          "conformance.");

   // Create the mangled name of our witness table...
   Identifier Name = M.getASTContext().getIdentifier(mangleConstant(Conformance));

   LLVM_DEBUG(llvm::dbgs() << "SILWitnessTable Creating: " << Name.str() << '\n');

   // Allocate the witness table and initialize it.
   void *buf = M.allocate(sizeof(SILWitnessTable), alignof(SILWitnessTable));
   SILWitnessTable *wt = ::new (buf)
       SILWitnessTable(M, Linkage, Serialized, Name.str(), Conformance, entries,
                       conditionalConformances);

   wt->addWitnessTable();

   // Return the resulting witness table.
   return wt;
 }

 SILWitnessTable *
 SILWitnessTable::create(SILModule &M, SILLinkage Linkage,
                         RootProtocolConformance *Conformance) {
   assert(Conformance && "Cannot create a witness table for a null "
          "conformance.");

   // Create the mangled name of our witness table...
   Identifier Name = M.getASTContext().getIdentifier(mangleConstant(Conformance));


   // Allocate the witness table and initialize it.
   void *buf = M.allocate(sizeof(SILWitnessTable), alignof(SILWitnessTable));
   SILWitnessTable *wt = ::new (buf) SILWitnessTable(M, Linkage, Name.str(),
                                                     Conformance);

   wt->addWitnessTable();

   // Return the resulting witness table.
   return wt;
 }

 SILWitnessTable::SILWitnessTable(
     SILModule &M, SILLinkage Linkage, IsSerialized_t Serialized, StringRef N,
     RootProtocolConformance *Conformance, ArrayRef<Entry> entries,
     ArrayRef<ConditionalConformance> conditionalConformances)
     : Mod(M), Name(N), Linkage(Linkage), Conformance(Conformance), Entries(),
       ConditionalConformances(), IsDeclaration(true), Serialized(false) {
   convertToDefinition(entries, conditionalConformances, Serialized);
 }

 SILWitnessTable::SILWitnessTable(SILModule &M, SILLinkage Linkage, StringRef N,
                                  RootProtocolConformance *Conformance)
     : Mod(M), Name(N), Linkage(Linkage), Conformance(Conformance), Entries(),
       ConditionalConformances(), IsDeclaration(true), Serialized(false) {}

 SILWitnessTable::~SILWitnessTable() {
   if (isDeclaration())
     return;

   // Drop the reference count of witness functions referenced by this table.
   for (auto entry : getEntries()) {
     switch (entry.getKind()) {
     case Method:
       if (entry.getMethodWitness().Witness) {
         entry.getMethodWitness().Witness->decrementRefCount();
       }
       break;
     case AssociatedType:
     case AssociatedTypeProtocol:
     case BaseProtocol:
     case Invalid:
       break;
     }
   }
 }

 void SILWitnessTable::convertToDefinition(
     ArrayRef<Entry> entries,
     ArrayRef<ConditionalConformance> conditionalConformances,
     IsSerialized_t isSerialized) {
   assert(isDeclaration() && "Definitions should never call this method.");
   IsDeclaration = false;
   assert(isSerialized != IsSerializable);
   Serialized = (isSerialized == IsSerialized);

   Entries = Mod.allocateCopy(entries);
   ConditionalConformances = Mod.allocateCopy(conditionalConformances);

   // Bump the reference count of witness functions referenced by this table.
   for (auto entry : getEntries()) {
     switch (entry.getKind()) {
     case Method:
       if (entry.getMethodWitness().Witness) {
         entry.getMethodWitness().Witness->incrementRefCount();
       }
       break;
     case AssociatedType:
     case AssociatedTypeProtocol:
     case BaseProtocol:
     case Invalid:
       break;
     }
   }
 }

 bool SILWitnessTable::conformanceIsSerialized(
     const RootProtocolConformance *conformance) {
   auto normalConformance = dyn_cast<NormalProtocolConformance>(conformance);
   if (normalConformance && normalConformance->isResilient())
     return false;

   if (conformance->getProtocol()->getEffectiveAccess() < AccessLevel::Public)
     return false;

   auto *nominal = conformance->getType()->getAnyNominal();
   return nominal->getEffectiveAccess() >= AccessLevel::Public;
 }

 bool SILWitnessTable::enumerateWitnessTableConditionalConformances(
     const ProtocolConformance *conformance,
     llvm::function_ref<bool(unsigned, CanType, ProtocolDecl *)> fn) {
   unsigned conformanceIndex = 0;
   for (auto req : conformance->getConditionalRequirements()) {
     if (req.getKind() != RequirementKind::Conformance)
       continue;

     auto proto = req.getSecondType()->castTo<ProtocolType>()->getDecl();

     if (Lowering::TypeConverter::protocolRequiresWitnessTable(proto)) {
       if (fn(conformanceIndex, req.getFirstType()->getCanonicalType(), proto))
         return true;

       conformanceIndex++;
     }
   }
   return false;
 }
	//===--- SILWitnessTable.cpp - Defines the SILWitnessTable class ----------===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
	// Licensed under Apache License v2.0 with Runtime Library Exception
	//
	// See https://swift.org/LICENSE.txt for license information
	// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines the SILWitnessTable class, which is used to map a protocol
	// conformance for a type to its implementing SILFunctions. This information is
	// used by IRGen to create witness tables for protocol dispatch.
	//
	// It can also be used by generic specialization and existential
	// devirtualization passes to promote witness_method instructions to static
	// function_refs.
	//
	//===----------------------------------------------------------------------===//

	#define DEBUG_TYPE "sil-witness-table"
	#include "swift/SIL/SILWitnessTable.h"
	#include "swift/AST/ASTMangler.h"
	#include "swift/AST/Module.h"
	#include "swift/AST/ProtocolConformance.h"
	#include "swift/SIL/SILModule.h"
	#include "llvm/ADT/SmallString.h"

	using namespace swift;

	static std::string mangleConstant(RootProtocolConformance *C) {
	Mangle::ASTMangler Mangler;
	return Mangler.mangleWitnessTable(C);
	}

	DeclContext *SILWitnessTable::getDeclContext() const {
	return getConformance()->getDeclContext();
	}

	ProtocolDecl *SILWitnessTable::getProtocol() const {
	return getConformance()->getProtocol();
	}

	CanType SILWitnessTable::getConformingType() const {
	return getConformance()->getType()->getCanonicalType();
	}

	void SILWitnessTable::addWitnessTable() {
	// Make sure we have not seen this witness table yet.
	assert(Mod.WitnessTableMap.find(Conformance) ==
	Mod.WitnessTableMap.end() && "Attempting to create duplicate "
	"witness table.");
	Mod.WitnessTableMap[Conformance] = this;
	Mod.witnessTables.push_back(this);
	}

	SILWitnessTable *SILWitnessTable::create(
	SILModule &M, SILLinkage Linkage, IsSerialized_t Serialized,
	RootProtocolConformance *Conformance,
	ArrayRef<SILWitnessTable::Entry> entries,
	ArrayRef<ConditionalConformance> conditionalConformances) {
	assert(Conformance && "Cannot create a witness table for a null "
	"conformance.");

	// Create the mangled name of our witness table...
	Identifier Name = M.getASTContext().getIdentifier(mangleConstant(Conformance));

	LLVM_DEBUG(llvm::dbgs() << "SILWitnessTable Creating: " << Name.str() << '\n');

	// Allocate the witness table and initialize it.
	void *buf = M.allocate(sizeof(SILWitnessTable), alignof(SILWitnessTable));
	SILWitnessTable *wt = ::new (buf)
	SILWitnessTable(M, Linkage, Serialized, Name.str(), Conformance, entries,
	conditionalConformances);

	wt->addWitnessTable();

	// Return the resulting witness table.
	return wt;
	}

	SILWitnessTable *
	SILWitnessTable::create(SILModule &M, SILLinkage Linkage,
	RootProtocolConformance *Conformance) {
	assert(Conformance && "Cannot create a witness table for a null "
	"conformance.");

	// Create the mangled name of our witness table...
	Identifier Name = M.getASTContext().getIdentifier(mangleConstant(Conformance));


	// Allocate the witness table and initialize it.
	void *buf = M.allocate(sizeof(SILWitnessTable), alignof(SILWitnessTable));
	SILWitnessTable *wt = ::new (buf) SILWitnessTable(M, Linkage, Name.str(),
	Conformance);

	wt->addWitnessTable();

	// Return the resulting witness table.
	return wt;
	}

	SILWitnessTable::SILWitnessTable(
	SILModule &M, SILLinkage Linkage, IsSerialized_t Serialized, StringRef N,
	RootProtocolConformance *Conformance, ArrayRef<Entry> entries,
	ArrayRef<ConditionalConformance> conditionalConformances)
	: Mod(M), Name(N), Linkage(Linkage), Conformance(Conformance), Entries(),
	ConditionalConformances(), IsDeclaration(true), Serialized(false) {
	convertToDefinition(entries, conditionalConformances, Serialized);
	}

	SILWitnessTable::SILWitnessTable(SILModule &M, SILLinkage Linkage, StringRef N,
	RootProtocolConformance *Conformance)
	: Mod(M), Name(N), Linkage(Linkage), Conformance(Conformance), Entries(),
	ConditionalConformances(), IsDeclaration(true), Serialized(false) {}

	SILWitnessTable::~SILWitnessTable() {
	if (isDeclaration())
	return;

	// Drop the reference count of witness functions referenced by this table.
	for (auto entry : getEntries()) {
	switch (entry.getKind()) {
	case Method:
	if (entry.getMethodWitness().Witness) {
	entry.getMethodWitness().Witness->decrementRefCount();
	}
	break;
	case AssociatedType:
	case AssociatedTypeProtocol:
	case BaseProtocol:
	case Invalid:
	break;
	}
	}
	}

	void SILWitnessTable::convertToDefinition(
	ArrayRef<Entry> entries,
	ArrayRef<ConditionalConformance> conditionalConformances,
	IsSerialized_t isSerialized) {
	assert(isDeclaration() && "Definitions should never call this method.");
	IsDeclaration = false;
	assert(isSerialized != IsSerializable);
	Serialized = (isSerialized == IsSerialized);

	Entries = Mod.allocateCopy(entries);
	ConditionalConformances = Mod.allocateCopy(conditionalConformances);

	// Bump the reference count of witness functions referenced by this table.
	for (auto entry : getEntries()) {
	switch (entry.getKind()) {
	case Method:
	if (entry.getMethodWitness().Witness) {
	entry.getMethodWitness().Witness->incrementRefCount();
	}
	break;
	case AssociatedType:
	case AssociatedTypeProtocol:
	case BaseProtocol:
	case Invalid:
	break;
	}
	}
	}

	bool SILWitnessTable::conformanceIsSerialized(
	const RootProtocolConformance *conformance) {
	auto normalConformance = dyn_cast<NormalProtocolConformance>(conformance);
	if (normalConformance && normalConformance->isResilient())
	return false;

	if (conformance->getProtocol()->getEffectiveAccess() < AccessLevel::Public)
	return false;

	auto *nominal = conformance->getType()->getAnyNominal();
	return nominal->getEffectiveAccess() >= AccessLevel::Public;
	}

	bool SILWitnessTable::enumerateWitnessTableConditionalConformances(
	const ProtocolConformance *conformance,
	llvm::function_ref<bool(unsigned, CanType, ProtocolDecl *)> fn) {
	unsigned conformanceIndex = 0;
	for (auto req : conformance->getConditionalRequirements()) {
	if (req.getKind() != RequirementKind::Conformance)
	continue;

	auto proto = req.getSecondType()->castTo<ProtocolType>()->getDecl();

	if (Lowering::TypeConverter::protocolRequiresWitnessTable(proto)) {
	if (fn(conformanceIndex, req.getFirstType()->getCanonicalType(), proto))
	return true;

	conformanceIndex++;
	}
	}
	return false;
	}