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llvm / llvm / refs/heads/release_23 / . / utils / TableGen / LLVMCConfigurationEmitter.cpp
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//===- LLVMCConfigurationEmitter.cpp - Generate LLVMC config --------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open
// Source License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This tablegen backend is responsible for emitting LLVMC configuration code.
//
//===----------------------------------------------------------------------===//
#include "LLVMCConfigurationEmitter.h"
#include "Record.h"
#include "llvm/ADT/IntrusiveRefCntPtr.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/Support/Streams.h"
#include <algorithm>
#include <cassert>
#include <functional>
#include <string>
using namespace llvm;
namespace {
//===----------------------------------------------------------------------===//
/// Typedefs
typedef std::vector<Record*> RecordVector;
typedef std::vector<std::string> StrVector;
//===----------------------------------------------------------------------===//
/// Constants
// Indentation strings.
const char * Indent1 = " ";
const char * Indent2 = " ";
const char * Indent3 = " ";
const char * Indent4 = " ";
// Default help string.
const char * DefaultHelpString = "NO HELP MESSAGE PROVIDED";
// Name for the "sink" option.
const char * SinkOptionName = "AutoGeneratedSinkOption";
//===----------------------------------------------------------------------===//
/// Helper functions
std::string InitPtrToString(Init* ptr) {
StringInit& val = dynamic_cast<StringInit&>(*ptr);
return val.getValue();
}
int InitPtrToInt(Init* ptr) {
IntInit& val = dynamic_cast<IntInit&>(*ptr);
return val.getValue();
}
const DagInit& InitPtrToDagInitRef(Init* ptr) {
DagInit& val = dynamic_cast<DagInit&>(*ptr);
return val;
}
// checkNumberOfArguments - Ensure that the number of args in d is
// less than or equal to min_arguments, otherwise throw an exception .
void checkNumberOfArguments (const DagInit* d, unsigned min_arguments) {
if (d->getNumArgs() < min_arguments)
throw "Property " + d->getOperator()->getAsString()
+ " has too few arguments!";
}
//===----------------------------------------------------------------------===//
/// Back-end specific code
// A command-line option can have one of the following types:
//
// Switch - a simple switch w/o arguments, e.g. -O2
//
// Parameter - an option that takes one(and only one) argument, e.g. -o file,
// --output=file
//
// ParameterList - same as Parameter, but more than one occurence
// of the option is allowed, e.g. -lm -lpthread
//
// Prefix - argument is everything after the prefix,
// e.g. -Wa,-foo,-bar, -DNAME=VALUE
//
// PrefixList - same as Prefix, but more than one option occurence is
// allowed
namespace OptionType {
enum OptionType { Switch, Parameter, ParameterList, Prefix, PrefixList};
}
bool IsListOptionType (OptionType::OptionType t) {
return (t == OptionType::ParameterList || t == OptionType::PrefixList);
}
// Code duplication here is necessary because one option can affect
// several tools and those tools may have different actions associated
// with this option. GlobalOptionDescriptions are used to generate
// the option registration code, while ToolOptionDescriptions are used
// to generate tool-specific code.
/// OptionDescription - Base class for option descriptions.
struct OptionDescription {
OptionType::OptionType Type;
std::string Name;
OptionDescription(OptionType::OptionType t = OptionType::Switch,
const std::string& n = "")
: Type(t), Name(n)
{}
const char* GenTypeDeclaration() const {
switch (Type) {
case OptionType::PrefixList:
case OptionType::ParameterList:
return "cl::list<std::string>";
case OptionType::Switch:
return "cl::opt<bool>";
case OptionType::Parameter:
case OptionType::Prefix:
default:
return "cl::opt<std::string>";
}
}
std::string GenVariableName() const {
switch (Type) {
case OptionType::Switch:
return "AutoGeneratedSwitch" + Name;
case OptionType::Prefix:
return "AutoGeneratedPrefix" + Name;
case OptionType::PrefixList:
return "AutoGeneratedPrefixList" + Name;
case OptionType::Parameter:
return "AutoGeneratedParameter" + Name;
case OptionType::ParameterList:
default:
return "AutoGeneratedParameterList" + Name;
}
}
};
// Global option description.
namespace GlobalOptionDescriptionFlags {
enum GlobalOptionDescriptionFlags { Required = 0x1 };
}
struct GlobalOptionDescription : public OptionDescription {
std::string Help;
unsigned Flags;
// We need to provide a default constructor because
// StringMap can only store DefaultConstructible objects.
GlobalOptionDescription() : OptionDescription(), Flags(0)
{}
GlobalOptionDescription (OptionType::OptionType t, const std::string& n)
: OptionDescription(t, n), Help(DefaultHelpString), Flags(0)
{}
bool isRequired() const {
return Flags & GlobalOptionDescriptionFlags::Required;
}
void setRequired() {
Flags |= GlobalOptionDescriptionFlags::Required;
}
/// Merge - Merge two option descriptions.
void Merge (const GlobalOptionDescription& other)
{
if (other.Type != Type)
throw "Conflicting definitions for the option " + Name + "!";
if (Help == DefaultHelpString)
Help = other.Help;
else if (other.Help != DefaultHelpString) {
llvm::cerr << "Warning: more than one help string defined for option "
+ Name + "\n";
}
Flags |= other.Flags;
}
};
/// GlobalOptionDescriptions - A GlobalOptionDescription array
/// together with some flags affecting generation of option
/// declarations.
struct GlobalOptionDescriptions {
typedef StringMap<GlobalOptionDescription> container_type;
typedef container_type::const_iterator const_iterator;
/// Descriptions - A list of GlobalOptionDescriptions.
container_type Descriptions;
/// HasSink - Should the emitter generate a "cl::sink" option?
bool HasSink;
const GlobalOptionDescription& FindOption(const std::string& OptName) const {
const_iterator I = Descriptions.find(OptName);
if (I != Descriptions.end())
return I->second;
else
throw OptName + ": no such option!";
}
// Support for STL-style iteration
const_iterator begin() const { return Descriptions.begin(); }
const_iterator end() const { return Descriptions.end(); }
};
// Tool-local option description.
// Properties without arguments are implemented as flags.
namespace ToolOptionDescriptionFlags {
enum ToolOptionDescriptionFlags { StopCompilation = 0x1,
Forward = 0x2, UnpackValues = 0x4};
}
namespace OptionPropertyType {
enum OptionPropertyType { AppendCmd };
}
typedef std::pair<OptionPropertyType::OptionPropertyType, std::string>
OptionProperty;
typedef SmallVector<OptionProperty, 4> OptionPropertyList;
struct ToolOptionDescription : public OptionDescription {
unsigned Flags;
OptionPropertyList Props;
// StringMap can only store DefaultConstructible objects
ToolOptionDescription() : OptionDescription(), Flags(0) {}
ToolOptionDescription (OptionType::OptionType t, const std::string& n)
: OptionDescription(t, n)
{}
// Various boolean properties
bool isStopCompilation() const {
return Flags & ToolOptionDescriptionFlags::StopCompilation;
}
void setStopCompilation() {
Flags |= ToolOptionDescriptionFlags::StopCompilation;
}
bool isForward() const {
return Flags & ToolOptionDescriptionFlags::Forward;
}
void setForward() {
Flags |= ToolOptionDescriptionFlags::Forward;
}
bool isUnpackValues() const {
return Flags & ToolOptionDescriptionFlags::UnpackValues;
}
void setUnpackValues() {
Flags |= ToolOptionDescriptionFlags::UnpackValues;
}
void AddProperty (OptionPropertyType::OptionPropertyType t,
const std::string& val)
{
Props.push_back(std::make_pair(t, val));
}
};
typedef StringMap<ToolOptionDescription> ToolOptionDescriptions;
// Tool information record
namespace ToolFlags {
enum ToolFlags { Join = 0x1, Sink = 0x2 };
}
struct ToolProperties : public RefCountedBase<ToolProperties> {
std::string Name;
StrVector CmdLine;
std::string InLanguage;
std::string OutLanguage;
std::string OutputSuffix;
unsigned Flags;
ToolOptionDescriptions OptDescs;
// Various boolean properties
void setSink() { Flags |= ToolFlags::Sink; }
bool isSink() const { return Flags & ToolFlags::Sink; }
void setJoin() { Flags |= ToolFlags::Join; }
bool isJoin() const { return Flags & ToolFlags::Join; }
// Default ctor here is needed because StringMap can only store
// DefaultConstructible objects
ToolProperties() : Flags(0) {}
ToolProperties (const std::string& n) : Name(n), Flags(0) {}
};
/// ToolPropertiesList - A list of Tool information records
/// IntrusiveRefCntPtrs are used here because StringMap has no copy
/// constructor (and we want to avoid copying ToolProperties anyway).
typedef std::vector<IntrusiveRefCntPtr<ToolProperties> > ToolPropertiesList;
/// CollectProperties - Function object for iterating over a list of
/// tool property records.
class CollectProperties {
private:
/// Implementation details
/// PropertyHandler - a function that extracts information
/// about a given tool property from its DAG representation
typedef void (CollectProperties::*PropertyHandler)(const DagInit*);
/// PropertyHandlerMap - A map from property names to property
/// handlers.
typedef StringMap<PropertyHandler> PropertyHandlerMap;
/// OptionPropertyHandler - a function that extracts information
/// about a given option property from its DAG representation.
typedef void (CollectProperties::* OptionPropertyHandler)
(const DagInit*, GlobalOptionDescription &);
/// OptionPropertyHandlerMap - A map from option property names to
/// option property handlers
typedef StringMap<OptionPropertyHandler> OptionPropertyHandlerMap;
// Static maps from strings to CollectProperties methods("handlers")
static PropertyHandlerMap propertyHandlers_;
static OptionPropertyHandlerMap optionPropertyHandlers_;
static bool staticMembersInitialized_;
/// This is where the information is stored
/// toolProps_ - Properties of the current Tool.
ToolProperties& toolProps_;
/// optDescs_ - OptionDescriptions table (used to register options
/// globally).
GlobalOptionDescriptions& optDescs_;
public:
explicit CollectProperties (ToolProperties& p, GlobalOptionDescriptions& d)
: toolProps_(p), optDescs_(d)
{
if (!staticMembersInitialized_) {
// Init tool property handlers
propertyHandlers_["cmd_line"] = &CollectProperties::onCmdLine;
propertyHandlers_["in_language"] = &CollectProperties::onInLanguage;
propertyHandlers_["join"] = &CollectProperties::onJoin;
propertyHandlers_["out_language"] = &CollectProperties::onOutLanguage;
propertyHandlers_["output_suffix"] = &CollectProperties::onOutputSuffix;
propertyHandlers_["parameter_option"]
= &CollectProperties::onParameter;
propertyHandlers_["parameter_list_option"] =
&CollectProperties::onParameterList;
propertyHandlers_["prefix_option"] = &CollectProperties::onPrefix;
propertyHandlers_["prefix_list_option"] =
&CollectProperties::onPrefixList;
propertyHandlers_["sink"] = &CollectProperties::onSink;
propertyHandlers_["switch_option"] = &CollectProperties::onSwitch;
// Init option property handlers
optionPropertyHandlers_["append_cmd"] = &CollectProperties::onAppendCmd;
optionPropertyHandlers_["forward"] = &CollectProperties::onForward;
optionPropertyHandlers_["help"] = &CollectProperties::onHelp;
optionPropertyHandlers_["required"] = &CollectProperties::onRequired;
optionPropertyHandlers_["stop_compilation"] =
&CollectProperties::onStopCompilation;
optionPropertyHandlers_["unpack_values"] =
&CollectProperties::onUnpackValues;
staticMembersInitialized_ = true;
}
}
/// operator() - Gets called for every tool property; Just forwards
/// to the corresponding property handler.
void operator() (Init* i) {
const DagInit& d = InitPtrToDagInitRef(i);
const std::string& property_name = d.getOperator()->getAsString();
PropertyHandlerMap::iterator method
= propertyHandlers_.find(property_name);
if (method != propertyHandlers_.end()) {
PropertyHandler h = method->second;
(this->*h)(&d);
}
else {
throw "Unknown tool property: " + property_name + "!";
}
}
private:
/// Property handlers --
/// Functions that extract information about tool properties from
/// DAG representation.
void onCmdLine (const DagInit* d) {
checkNumberOfArguments(d, 1);
SplitString(InitPtrToString(d->getArg(0)), toolProps_.CmdLine);
if (toolProps_.CmdLine.empty())
throw "Tool " + toolProps_.Name + " has empty command line!";
}
void onInLanguage (const DagInit* d) {
checkNumberOfArguments(d, 1);
toolProps_.InLanguage = InitPtrToString(d->getArg(0));
}
void onJoin (const DagInit* d) {
checkNumberOfArguments(d, 0);
toolProps_.setJoin();
}
void onOutLanguage (const DagInit* d) {
checkNumberOfArguments(d, 1);
toolProps_.OutLanguage = InitPtrToString(d->getArg(0));
}
void onOutputSuffix (const DagInit* d) {
checkNumberOfArguments(d, 1);
toolProps_.OutputSuffix = InitPtrToString(d->getArg(0));
}
void onSink (const DagInit* d) {
checkNumberOfArguments(d, 0);
optDescs_.HasSink = true;
toolProps_.setSink();
}
void onSwitch (const DagInit* d) {
addOption(d, OptionType::Switch);
}
void onParameter (const DagInit* d) {
addOption(d, OptionType::Parameter);
}
void onParameterList (const DagInit* d) {
addOption(d, OptionType::ParameterList);
}
void onPrefix (const DagInit* d) {
addOption(d, OptionType::Prefix);
}
void onPrefixList (const DagInit* d) {
addOption(d, OptionType::PrefixList);
}
/// Option property handlers --
/// Methods that handle properties that are common for all types of
/// options (like append_cmd, stop_compilation)
void onAppendCmd (const DagInit* d, GlobalOptionDescription& o) {
checkNumberOfArguments(d, 1);
std::string const& cmd = InitPtrToString(d->getArg(0));
toolProps_.OptDescs[o.Name].AddProperty(OptionPropertyType::AppendCmd, cmd);
}
void onForward (const DagInit* d, GlobalOptionDescription& o) {
checkNumberOfArguments(d, 0);
toolProps_.OptDescs[o.Name].setForward();
}
void onHelp (const DagInit* d, GlobalOptionDescription& o) {
checkNumberOfArguments(d, 1);
const std::string& help_message = InitPtrToString(d->getArg(0));
o.Help = help_message;
}
void onRequired (const DagInit* d, GlobalOptionDescription& o) {
checkNumberOfArguments(d, 0);
o.setRequired();
}
void onStopCompilation (const DagInit* d, GlobalOptionDescription& o) {
checkNumberOfArguments(d, 0);
if (o.Type != OptionType::Switch)
throw std::string("Only options of type Switch can stop compilation!");
toolProps_.OptDescs[o.Name].setStopCompilation();
}
void onUnpackValues (const DagInit* d, GlobalOptionDescription& o) {
checkNumberOfArguments(d, 0);
toolProps_.OptDescs[o.Name].setUnpackValues();
}
/// Helper functions
// Add an option of type t
void addOption (const DagInit* d, OptionType::OptionType t) {
checkNumberOfArguments(d, 2);
const std::string& name = InitPtrToString(d->getArg(0));
GlobalOptionDescription o(t, name);
toolProps_.OptDescs[name].Type = t;
toolProps_.OptDescs[name].Name = name;
processOptionProperties(d, o);
insertDescription(o);
}
// Insert new GlobalOptionDescription into GlobalOptionDescriptions list
void insertDescription (const GlobalOptionDescription& o)
{
if (optDescs_.Descriptions.count(o.Name)) {
GlobalOptionDescription& D = optDescs_.Descriptions[o.Name];
D.Merge(o);
}
else {
optDescs_.Descriptions[o.Name] = o;
}
}
/// processOptionProperties - Go through the list of option
/// properties and call a corresponding handler for each.
///
/// Parameters:
/// name - option name
/// d - option property list
void processOptionProperties (const DagInit* d, GlobalOptionDescription& o) {
// First argument is option name
checkNumberOfArguments(d, 2);
for (unsigned B = 1, E = d->getNumArgs(); B!=E; ++B) {
const DagInit& option_property
= InitPtrToDagInitRef(d->getArg(B));
const std::string& option_property_name
= option_property.getOperator()->getAsString();
OptionPropertyHandlerMap::iterator method
= optionPropertyHandlers_.find(option_property_name);
if (method != optionPropertyHandlers_.end()) {
OptionPropertyHandler h = method->second;
(this->*h)(&option_property, o);
}
else {
throw "Unknown option property: " + option_property_name + "!";
}
}
}
};
// Static members of CollectProperties
CollectProperties::PropertyHandlerMap
CollectProperties::propertyHandlers_;
CollectProperties::OptionPropertyHandlerMap
CollectProperties::optionPropertyHandlers_;
bool CollectProperties::staticMembersInitialized_ = false;
/// CollectToolProperties - Gather information from the parsed
/// TableGen data (basically a wrapper for the CollectProperties
/// function object).
void CollectToolProperties (RecordVector::const_iterator B,
RecordVector::const_iterator E,
ToolPropertiesList& TPList,
GlobalOptionDescriptions& OptDescs)
{
// Iterate over a properties list of every Tool definition
for (;B!=E;++B) {
RecordVector::value_type T = *B;
ListInit* PropList = T->getValueAsListInit("properties");
IntrusiveRefCntPtr<ToolProperties>
ToolProps(new ToolProperties(T->getName()));
std::for_each(PropList->begin(), PropList->end(),
CollectProperties(*ToolProps, OptDescs));
TPList.push_back(ToolProps);
}
}
/// EmitForwardOptionPropertyHandlingCode - Helper function used to
/// implement EmitOptionPropertyHandlingCode(). Emits code for
/// handling the (forward) option property.
void EmitForwardOptionPropertyHandlingCode (const ToolOptionDescription& D,
std::ostream& O) {
switch (D.Type) {
case OptionType::Switch:
O << Indent3 << "vec.push_back(\"-" << D.Name << "\");\n";
break;
case OptionType::Parameter:
O << Indent3 << "vec.push_back(\"-" << D.Name << "\");\n";
O << Indent3 << "vec.push_back(" << D.GenVariableName() << ");\n";
break;
case OptionType::Prefix:
O << Indent3 << "vec.push_back(\"-" << D.Name << "\" + "
<< D.GenVariableName() << ");\n";
break;
case OptionType::PrefixList:
O << Indent3 << "for (" << D.GenTypeDeclaration()
<< "::iterator B = " << D.GenVariableName() << ".begin(),\n"
<< Indent3 << "E = " << D.GenVariableName() << ".end(); B != E; ++B)\n"
<< Indent4 << "vec.push_back(\"-" << D.Name << "\" + "
<< "*B);\n";
break;
case OptionType::ParameterList:
O << Indent3 << "for (" << D.GenTypeDeclaration()
<< "::iterator B = " << D.GenVariableName() << ".begin(),\n"
<< Indent3 << "E = " << D.GenVariableName()
<< ".end() ; B != E; ++B) {\n"
<< Indent4 << "vec.push_back(\"-" << D.Name << "\");\n"
<< Indent4 << "vec.push_back(*B);\n"
<< Indent3 << "}\n";
break;
}
}
/// EmitOptionPropertyHandlingCode - Helper function used by
/// EmitGenerateActionMethod(). Emits code that handles option
/// properties.
void EmitOptionPropertyHandlingCode (const ToolProperties& P,
const ToolOptionDescription& D,
std::ostream& O)
{
// Start of the if-clause.
O << Indent2 << "if (";
if (D.Type == OptionType::Switch)
O << D.GenVariableName();
else
O << '!' << D.GenVariableName() << ".empty()";
O <<") {\n";
// Handle option properties that take an argument.
for (OptionPropertyList::const_iterator B = D.Props.begin(),
E = D.Props.end(); B!=E; ++B) {
const OptionProperty& val = *B;
switch (val.first) {
// (append_cmd cmd) property
case OptionPropertyType::AppendCmd:
O << Indent3 << "vec.push_back(\"" << val.second << "\");\n";
break;
// Other properties with argument
default:
break;
}
}
// Handle flags
// (forward) property
if (D.isForward())
EmitForwardOptionPropertyHandlingCode(D, O);
// (unpack_values) property
if (D.isUnpackValues()) {
if (IsListOptionType(D.Type)) {
O << Indent3 << "for (" << D.GenTypeDeclaration()
<< "::iterator B = " << D.GenVariableName() << ".begin(),\n"
<< Indent3 << "E = " << D.GenVariableName()
<< ".end(); B != E; ++B)\n"
<< Indent4 << "llvm::SplitString(*B, vec, \",\");\n";
}
else if (D.Type == OptionType::Prefix || D.Type == OptionType::Parameter){
O << Indent3 << "llvm::SplitString("
<< D.GenVariableName() << ", vec, \",\");\n";
}
else {
// TOFIX: move this to the type-checking phase
throw std::string("Switches can't have unpack_values property!");
}
}
// End of the if-clause.
O << Indent2 << "}\n";
}
// EmitGenerateActionMethod - Emit one of two versions of the
// Tool::GenerateAction() method.
void EmitGenerateActionMethod (const ToolProperties& P, bool V, std::ostream& O)
{
if (V)
O << Indent1 << "Action GenerateAction(const PathVector& inFiles,\n";
else
O << Indent1 << "Action GenerateAction(const sys::Path& inFile,\n";
O << Indent2 << "const sys::Path& outFile) const\n"
<< Indent1 << "{\n"
<< Indent2 << "std::vector<std::string> vec;\n";
// Parse CmdLine tool property
if(P.CmdLine.empty())
throw "Tool " + P.Name + " has empty command line!";
StrVector::const_iterator I = P.CmdLine.begin();
++I;
for (StrVector::const_iterator E = P.CmdLine.end(); I != E; ++I) {
const std::string& cmd = *I;
O << Indent2;
if (cmd == "$INFILE") {
if (V)
O << "for (PathVector::const_iterator B = inFiles.begin()"
<< ", E = inFiles.end();\n"
<< Indent2 << "B != E; ++B)\n"
<< Indent3 << "vec.push_back(B->toString());\n";
else
O << "vec.push_back(inFile.toString());\n";
}
else if (cmd == "$OUTFILE") {
O << "vec.push_back(outFile.toString());\n";
}
else {
O << "vec.push_back(\"" << cmd << "\");\n";
}
}
// For every understood option, emit handling code.
for (ToolOptionDescriptions::const_iterator B = P.OptDescs.begin(),
E = P.OptDescs.end(); B != E; ++B) {
const ToolOptionDescription& val = B->second;
EmitOptionPropertyHandlingCode(P, val, O);
}
// Handle the Sink property.
if (P.isSink()) {
O << Indent2 << "if (!" << SinkOptionName << ".empty()) {\n"
<< Indent3 << "vec.insert(vec.end(), "
<< SinkOptionName << ".begin(), " << SinkOptionName << ".end());\n"
<< Indent2 << "}\n";
}
O << Indent2 << "return Action(\"" << P.CmdLine.at(0) << "\", vec);\n"
<< Indent1 << "}\n\n";
}
/// EmitGenerateActionMethods - Emit two GenerateAction() methods for
/// a given Tool class.
void EmitGenerateActionMethods (const ToolProperties& P, std::ostream& O) {
if (!P.isJoin())
O << Indent1 << "Action GenerateAction(const PathVector& inFiles,\n"
<< Indent2 << "const llvm::sys::Path& outFile) const\n"
<< Indent1 << "{\n"
<< Indent2 << "throw std::runtime_error(\"" << P.Name
<< " is not a Join tool!\");\n"
<< Indent1 << "}\n\n";
else
EmitGenerateActionMethod(P, true, O);
EmitGenerateActionMethod(P, false, O);
}
/// EmitIsLastMethod - Emit the IsLast() method for a given Tool
/// class.
void EmitIsLastMethod (const ToolProperties& P, std::ostream& O) {
O << Indent1 << "bool IsLast() const {\n"
<< Indent2 << "bool last = false;\n";
for (ToolOptionDescriptions::const_iterator B = P.OptDescs.begin(),
E = P.OptDescs.end(); B != E; ++B) {
const ToolOptionDescription& val = B->second;
if (val.isStopCompilation())
O << Indent2
<< "if (" << val.GenVariableName()
<< ")\n" << Indent3 << "last = true;\n";
}
O << Indent2 << "return last;\n"
<< Indent1 << "}\n\n";
}
/// EmitInOutLanguageMethods - Emit the [Input,Output]Language()
/// methods for a given Tool class.
void EmitInOutLanguageMethods (const ToolProperties& P, std::ostream& O) {
O << Indent1 << "const char* InputLanguage() const {\n"
<< Indent2 << "return \"" << P.InLanguage << "\";\n"
<< Indent1 << "}\n\n";
O << Indent1 << "const char* OutputLanguage() const {\n"
<< Indent2 << "return \"" << P.OutLanguage << "\";\n"
<< Indent1 << "}\n\n";
}
/// EmitOutputSuffixMethod - Emit the OutputSuffix() method for a
/// given Tool class.
void EmitOutputSuffixMethod (const ToolProperties& P, std::ostream& O) {
O << Indent1 << "const char* OutputSuffix() const {\n"
<< Indent2 << "return \"" << P.OutputSuffix << "\";\n"
<< Indent1 << "}\n\n";
}
/// EmitNameMethod - Emit the Name() method for a given Tool class.
void EmitNameMethod (const ToolProperties& P, std::ostream& O) {
O << Indent1 << "const char* Name() const {\n"
<< Indent2 << "return \"" << P.Name << "\";\n"
<< Indent1 << "}\n\n";
}
/// EmitIsJoinMethod - Emit the IsJoin() method for a given Tool
/// class.
void EmitIsJoinMethod (const ToolProperties& P, std::ostream& O) {
O << Indent1 << "bool IsJoin() const {\n";
if (P.isJoin())
O << Indent2 << "return true;\n";
else
O << Indent2 << "return false;\n";
O << Indent1 << "}\n\n";
}
/// EmitToolClassDefinition - Emit a Tool class definition.
void EmitToolClassDefinition (const ToolProperties& P, std::ostream& O) {
if(P.Name == "root")
return;
// Header
O << "class " << P.Name << " : public ";
if (P.isJoin())
O << "JoinTool";
else
O << "Tool";
O << " {\npublic:\n";
EmitNameMethod(P, O);
EmitInOutLanguageMethods(P, O);
EmitOutputSuffixMethod(P, O);
EmitIsJoinMethod(P, O);
EmitGenerateActionMethods(P, O);
EmitIsLastMethod(P, O);
// Close class definition
O << "};\n\n";
}
/// EmitOptionDescriptions - Iterate over a list of option
/// descriptions and emit registration code.
void EmitOptionDescriptions (const GlobalOptionDescriptions& descs,
std::ostream& O)
{
// Emit static cl::Option variables
for (GlobalOptionDescriptions::const_iterator B = descs.begin(),
E = descs.end(); B!=E; ++B) {
const GlobalOptionDescription& val = B->second;
O << val.GenTypeDeclaration() << ' '
<< val.GenVariableName()
<< "(\"" << val.Name << '\"';
if (val.Type == OptionType::Prefix || val.Type == OptionType::PrefixList)
O << ", cl::Prefix";
if (val.isRequired()) {
switch (val.Type) {
case OptionType::PrefixList:
case OptionType::ParameterList:
O << ", cl::OneOrMore";
break;
default:
O << ", cl::Required";
}
}
O << ", cl::desc(\"" << val.Help << "\"));\n";
}
if (descs.HasSink)
O << "cl::list<std::string> " << SinkOptionName << "(cl::Sink);\n";
O << '\n';
}
/// EmitPopulateLanguageMap - Emit the PopulateLanguageMap() function.
void EmitPopulateLanguageMap (const RecordKeeper& Records, std::ostream& O)
{
// Get the relevant field out of RecordKeeper
Record* LangMapRecord = Records.getDef("LanguageMap");
if (!LangMapRecord)
throw std::string("Language map definition not found!");
ListInit* LangsToSuffixesList = LangMapRecord->getValueAsListInit("map");
if (!LangsToSuffixesList)
throw std::string("Error in the language map definition!");
// Generate code
O << "void llvmc::PopulateLanguageMap(LanguageMap& language_map) {\n";
for (unsigned i = 0; i < LangsToSuffixesList->size(); ++i) {
Record* LangToSuffixes = LangsToSuffixesList->getElementAsRecord(i);
const std::string& Lang = LangToSuffixes->getValueAsString("lang");
const ListInit* Suffixes = LangToSuffixes->getValueAsListInit("suffixes");
for (unsigned i = 0; i < Suffixes->size(); ++i)
O << Indent1 << "language_map[\""
<< InitPtrToString(Suffixes->getElement(i))
<< "\"] = \"" << Lang << "\";\n";
}
O << "}\n\n";
}
/// FillInToolToLang - Fills in two tables that map tool names to
/// (input, output) languages. Used by the typechecker.
void FillInToolToLang (const ToolPropertiesList& TPList,
StringMap<std::string>& ToolToInLang,
StringMap<std::string>& ToolToOutLang) {
for (ToolPropertiesList::const_iterator B = TPList.begin(), E = TPList.end();
B != E; ++B) {
const ToolProperties& P = *(*B);
ToolToInLang[P.Name] = P.InLanguage;
ToolToOutLang[P.Name] = P.OutLanguage;
}
}
/// TypecheckGraph - Check that names for output and input languages
/// on all edges do match.
// TOFIX: check for cycles.
// TOFIX: check for multiple default edges.
void TypecheckGraph (Record* CompilationGraph,
const ToolPropertiesList& TPList) {
StringMap<std::string> ToolToInLang;
StringMap<std::string> ToolToOutLang;
FillInToolToLang(TPList, ToolToInLang, ToolToOutLang);
ListInit* edges = CompilationGraph->getValueAsListInit("edges");
StringMap<std::string>::iterator IAE = ToolToInLang.end();
StringMap<std::string>::iterator IBE = ToolToOutLang.end();
for (unsigned i = 0; i < edges->size(); ++i) {
Record* Edge = edges->getElementAsRecord(i);
Record* A = Edge->getValueAsDef("a");
Record* B = Edge->getValueAsDef("b");
StringMap<std::string>::iterator IA = ToolToOutLang.find(A->getName());
StringMap<std::string>::iterator IB = ToolToInLang.find(B->getName());
if(IA == IAE)
throw A->getName() + ": no such tool!";
if(IB == IBE)
throw B->getName() + ": no such tool!";
if(A->getName() != "root" && IA->second != IB->second)
throw "Edge " + A->getName() + "->" + B->getName()
+ ": output->input language mismatch";
if(B->getName() == "root")
throw std::string("Edges back to the root are not allowed!");
}
}
/// EmitEdgePropertyTest1Arg - Helper function used by
/// EmitEdgePropertyTest.
bool EmitEdgePropertyTest1Arg(const std::string& PropName,
const DagInit& Prop,
const GlobalOptionDescriptions& OptDescs,
std::ostream& O) {
checkNumberOfArguments(&Prop, 1);
const std::string& OptName = InitPtrToString(Prop.getArg(0));
if (PropName == "switch_on") {
const GlobalOptionDescription& OptDesc = OptDescs.FindOption(OptName);
if (OptDesc.Type != OptionType::Switch)
throw OptName + ": incorrect option type!";
O << OptDesc.GenVariableName();
return true;
} else if (PropName == "if_input_languages_contain") {
O << "InLangs.count(\"" << OptName << "\") != 0";
return true;
}
return false;
}
/// EmitEdgePropertyTest2Args - Helper function used by
/// EmitEdgePropertyTest.
bool EmitEdgePropertyTest2Args(const std::string& PropName,
const DagInit& Prop,
const GlobalOptionDescriptions& OptDescs,
std::ostream& O) {
checkNumberOfArguments(&Prop, 2);
const std::string& OptName = InitPtrToString(Prop.getArg(0));
const std::string& OptArg = InitPtrToString(Prop.getArg(1));
const GlobalOptionDescription& OptDesc = OptDescs.FindOption(OptName);
if (PropName == "parameter_equals") {
if (OptDesc.Type != OptionType::Parameter
&& OptDesc.Type != OptionType::Prefix)
throw OptName + ": incorrect option type!";
O << OptDesc.GenVariableName() << " == \"" << OptArg << "\"";
return true;
}
else if (PropName == "element_in_list") {
if (OptDesc.Type != OptionType::ParameterList
&& OptDesc.Type != OptionType::PrefixList)
throw OptName + ": incorrect option type!";
const std::string& VarName = OptDesc.GenVariableName();
O << "std::find(" << VarName << ".begin(),\n"
<< Indent3 << VarName << ".end(), \""
<< OptArg << "\") != " << VarName << ".end()";
return true;
}
return false;
}
// Forward declaration.
void EmitEdgePropertyTest(const DagInit& Prop,
const GlobalOptionDescriptions& OptDescs,
std::ostream& O);
/// EmitLogicalOperationTest - Helper function used by
/// EmitEdgePropertyTest.
void EmitLogicalOperationTest(const DagInit& Prop, const char* LogicOp,
const GlobalOptionDescriptions& OptDescs,
std::ostream& O) {
O << '(';
for (unsigned j = 0, NumArgs = Prop.getNumArgs(); j < NumArgs; ++j) {
const DagInit& InnerProp = InitPtrToDagInitRef(Prop.getArg(j));
EmitEdgePropertyTest(InnerProp, OptDescs, O);
if (j != NumArgs - 1)
O << ")\n" << Indent3 << ' ' << LogicOp << " (";
else
O << ')';
}
}
/// EmitEdgePropertyTest - Helper function used by EmitEdgeClass.
void EmitEdgePropertyTest(const DagInit& Prop,
const GlobalOptionDescriptions& OptDescs,
std::ostream& O) {
const std::string& PropName = Prop.getOperator()->getAsString();
if (PropName == "and")
EmitLogicalOperationTest(Prop, "&&", OptDescs, O);
else if (PropName == "or")
EmitLogicalOperationTest(Prop, "||", OptDescs, O);
else if (EmitEdgePropertyTest1Arg(PropName, Prop, OptDescs, O))
return;
else if (EmitEdgePropertyTest2Args(PropName, Prop, OptDescs, O))
return;
else
throw PropName + ": unknown edge property!";
}
/// EmitEdgeClass - Emit a single Edge# class.
void EmitEdgeClass(unsigned N, const std::string& Target,
ListInit* Props, const GlobalOptionDescriptions& OptDescs,
std::ostream& O) {
// Class constructor.
O << "class Edge" << N << ": public Edge {\n"
<< "public:\n"
<< Indent1 << "Edge" << N << "() : Edge(\"" << Target
<< "\") {}\n\n"
// Function Weight().
<< Indent1 << "unsigned Weight(const InputLanguagesSet& InLangs) const {\n"
<< Indent2 << "unsigned ret = 0;\n";
// Emit tests for every edge property.
for (size_t i = 0, PropsSize = Props->size(); i < PropsSize; ++i) {
const DagInit& Prop = InitPtrToDagInitRef(Props->getElement(i));
const std::string& PropName = Prop.getOperator()->getAsString();
unsigned N = 2;
O << Indent2 << "if (";
if (PropName == "weight") {
checkNumberOfArguments(&Prop, 2);
N = InitPtrToInt(Prop.getArg(0));
const DagInit& InnerProp = InitPtrToDagInitRef(Prop.getArg(1));
EmitEdgePropertyTest(InnerProp, OptDescs, O);
}
else {
EmitEdgePropertyTest(Prop, OptDescs, O);
}
O << ")\n" << Indent3 << "ret += " << N << ";\n";
}
O << Indent2 << "return ret;\n"
<< Indent1 << "};\n\n};\n\n";
}
// Emit Edge* classes that represent graph edges.
void EmitEdgeClasses (Record* CompilationGraph,
const GlobalOptionDescriptions& OptDescs,
std::ostream& O) {
ListInit* edges = CompilationGraph->getValueAsListInit("edges");
for (unsigned i = 0; i < edges->size(); ++i) {
Record* Edge = edges->getElementAsRecord(i);
Record* B = Edge->getValueAsDef("b");
ListInit* Props = Edge->getValueAsListInit("props");
if (Props->empty())
continue;
EmitEdgeClass(i, B->getName(), Props, OptDescs, O);
}
}
/// EmitPopulateCompilationGraph - Emit the PopulateCompilationGraph()
/// function.
void EmitPopulateCompilationGraph (Record* CompilationGraph,
std::ostream& O)
{
ListInit* edges = CompilationGraph->getValueAsListInit("edges");
// Generate code
O << "void llvmc::PopulateCompilationGraph(CompilationGraph& G) {\n"
<< Indent1 << "PopulateLanguageMap(G.ExtsToLangs);\n\n";
// Insert vertices
RecordVector Tools = Records.getAllDerivedDefinitions("Tool");
if (Tools.empty())
throw std::string("No tool definitions found!");
for (RecordVector::iterator B = Tools.begin(), E = Tools.end(); B != E; ++B) {
const std::string& Name = (*B)->getName();
if(Name != "root")
O << Indent1 << "G.insertNode(new "
<< Name << "());\n";
}
O << '\n';
// Insert edges
for (unsigned i = 0; i < edges->size(); ++i) {
Record* Edge = edges->getElementAsRecord(i);
Record* A = Edge->getValueAsDef("a");
Record* B = Edge->getValueAsDef("b");
ListInit* Props = Edge->getValueAsListInit("props");
O << Indent1 << "G.insertEdge(\"" << A->getName() << "\", ";
if (Props->empty())
O << "new SimpleEdge(\"" << B->getName() << "\")";
else
O << "new Edge" << i << "()";
O << ");\n";
}
O << "}\n\n";
}
// End of anonymous namespace
}
/// run - The back-end entry point.
void LLVMCConfigurationEmitter::run (std::ostream &O) {
// Emit file header.
EmitSourceFileHeader("LLVMC Configuration Library", O);
// Get a list of all defined Tools.
RecordVector Tools = Records.getAllDerivedDefinitions("Tool");
if (Tools.empty())
throw std::string("No tool definitions found!");
// Gather information from the Tool description dags.
ToolPropertiesList tool_props;
GlobalOptionDescriptions opt_descs;
CollectToolProperties(Tools.begin(), Tools.end(), tool_props, opt_descs);
// Emit global option registration code.
EmitOptionDescriptions(opt_descs, O);
// Emit PopulateLanguageMap() function
// (a language map maps from file extensions to language names).
EmitPopulateLanguageMap(Records, O);
// Emit Tool classes.
for (ToolPropertiesList::const_iterator B = tool_props.begin(),
E = tool_props.end(); B!=E; ++B)
EmitToolClassDefinition(*(*B), O);
Record* CompilationGraphRecord = Records.getDef("CompilationGraph");
if (!CompilationGraphRecord)
throw std::string("Compilation graph description not found!");
// Typecheck the compilation graph.
TypecheckGraph(CompilationGraphRecord, tool_props);
// Emit Edge# classes.
EmitEdgeClasses(CompilationGraphRecord, opt_descs, O);
// Emit PopulateCompilationGraph() function.
EmitPopulateCompilationGraph(CompilationGraphRecord, O);
// EOF
}