1
0
mirror of https://github.com/RPCS3/llvm-mirror.git synced 2024-11-23 11:13:28 +01:00
llvm-mirror/utils/TableGen/DirectiveEmitter.cpp
Valentin Clement 49cf4f2457 [openacc][openmp] Reduce number of generated file and prefer inclusion of .inc
Follow up from D92955 and D83636. This patch makes the base cpp files
OMP.cpp and ACC.cpp normal files and they now include the XXX.inc file
generated by tablegen. This reduces the number of file generated by the
DirectiveEmitter backend and makes it closer to the proposal in D83636.

Reviewed By: Meinersbur

Differential Revision: https://reviews.llvm.org/D93560
2021-03-23 09:16:53 -04:00

806 lines
28 KiB
C++

//===- DirectiveEmitter.cpp - Directive Language Emitter ------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// DirectiveEmitter uses the descriptions of directives and clauses to construct
// common code declarations to be used in Frontends.
//
//===----------------------------------------------------------------------===//
#include "llvm/TableGen/DirectiveEmitter.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/TableGen/Error.h"
#include "llvm/TableGen/Record.h"
#include "llvm/TableGen/TableGenBackend.h"
using namespace llvm;
namespace {
// Simple RAII helper for defining ifdef-undef-endif scopes.
class IfDefScope {
public:
IfDefScope(StringRef Name, raw_ostream &OS) : Name(Name), OS(OS) {
OS << "#ifdef " << Name << "\n"
<< "#undef " << Name << "\n";
}
~IfDefScope() { OS << "\n#endif // " << Name << "\n\n"; }
private:
StringRef Name;
raw_ostream &OS;
};
} // end anonymous namespace
namespace llvm {
// Generate enum class
void GenerateEnumClass(const std::vector<Record *> &Records, raw_ostream &OS,
StringRef Enum, StringRef Prefix,
const DirectiveLanguage &DirLang) {
OS << "\n";
OS << "enum class " << Enum << " {\n";
for (const auto &R : Records) {
BaseRecord Rec{R};
OS << " " << Prefix << Rec.getFormattedName() << ",\n";
}
OS << "};\n";
OS << "\n";
OS << "static constexpr std::size_t " << Enum
<< "_enumSize = " << Records.size() << ";\n";
// Make the enum values available in the defined namespace. This allows us to
// write something like Enum_X if we have a `using namespace <CppNamespace>`.
// At the same time we do not loose the strong type guarantees of the enum
// class, that is we cannot pass an unsigned as Directive without an explicit
// cast.
if (DirLang.hasMakeEnumAvailableInNamespace()) {
OS << "\n";
for (const auto &R : Records) {
BaseRecord Rec{R};
OS << "constexpr auto " << Prefix << Rec.getFormattedName() << " = "
<< "llvm::" << DirLang.getCppNamespace() << "::" << Enum
<< "::" << Prefix << Rec.getFormattedName() << ";\n";
}
}
}
// Generate enums for values that clauses can take.
// Also generate function declarations for get<Enum>Name(StringRef Str).
void GenerateEnumClauseVal(const std::vector<Record *> &Records,
raw_ostream &OS, const DirectiveLanguage &DirLang,
std::string &EnumHelperFuncs) {
for (const auto &R : Records) {
Clause C{R};
const auto &ClauseVals = C.getClauseVals();
if (ClauseVals.size() <= 0)
continue;
const auto &EnumName = C.getEnumName();
if (EnumName.size() == 0) {
PrintError("enumClauseValue field not set in Clause" +
C.getFormattedName() + ".");
return;
}
OS << "\n";
OS << "enum class " << EnumName << " {\n";
for (const auto &CV : ClauseVals) {
ClauseVal CVal{CV};
OS << " " << CV->getName() << "=" << CVal.getValue() << ",\n";
}
OS << "};\n";
if (DirLang.hasMakeEnumAvailableInNamespace()) {
OS << "\n";
for (const auto &CV : ClauseVals) {
OS << "constexpr auto " << CV->getName() << " = "
<< "llvm::" << DirLang.getCppNamespace() << "::" << EnumName
<< "::" << CV->getName() << ";\n";
}
EnumHelperFuncs += (llvm::Twine(EnumName) + llvm::Twine(" get") +
llvm::Twine(EnumName) + llvm::Twine("(StringRef);\n"))
.str();
EnumHelperFuncs +=
(llvm::Twine("llvm::StringRef get") + llvm::Twine(DirLang.getName()) +
llvm::Twine(EnumName) + llvm::Twine("Name(") +
llvm::Twine(EnumName) + llvm::Twine(");\n"))
.str();
}
}
}
bool HasDuplicateClauses(const std::vector<Record *> &Clauses,
const Directive &Directive,
llvm::StringSet<> &CrtClauses) {
bool HasError = false;
for (const auto &C : Clauses) {
VersionedClause VerClause{C};
const auto insRes = CrtClauses.insert(VerClause.getClause().getName());
if (!insRes.second) {
PrintError("Clause " + VerClause.getClause().getRecordName() +
" already defined on directive " + Directive.getRecordName());
HasError = true;
}
}
return HasError;
}
// Check for duplicate clauses in lists. Clauses cannot appear twice in the
// three allowed list. Also, since required implies allowed, clauses cannot
// appear in both the allowedClauses and requiredClauses lists.
bool HasDuplicateClausesInDirectives(const std::vector<Record *> &Directives) {
bool HasDuplicate = false;
for (const auto &D : Directives) {
Directive Dir{D};
llvm::StringSet<> Clauses;
// Check for duplicates in the three allowed lists.
if (HasDuplicateClauses(Dir.getAllowedClauses(), Dir, Clauses) ||
HasDuplicateClauses(Dir.getAllowedOnceClauses(), Dir, Clauses) ||
HasDuplicateClauses(Dir.getAllowedExclusiveClauses(), Dir, Clauses)) {
HasDuplicate = true;
}
// Check for duplicate between allowedClauses and required
Clauses.clear();
if (HasDuplicateClauses(Dir.getAllowedClauses(), Dir, Clauses) ||
HasDuplicateClauses(Dir.getRequiredClauses(), Dir, Clauses)) {
HasDuplicate = true;
}
if (HasDuplicate)
PrintFatalError("One or more clauses are defined multiple times on"
" directive " +
Dir.getRecordName());
}
return HasDuplicate;
}
// Check consitency of records. Return true if an error has been detected.
// Return false if the records are valid.
bool DirectiveLanguage::HasValidityErrors() const {
if (getDirectiveLanguages().size() != 1) {
PrintFatalError("A single definition of DirectiveLanguage is needed.");
return true;
}
return HasDuplicateClausesInDirectives(getDirectives());
}
// Generate the declaration section for the enumeration in the directive
// language
void EmitDirectivesDecl(RecordKeeper &Records, raw_ostream &OS) {
const auto DirLang = DirectiveLanguage{Records};
if (DirLang.HasValidityErrors())
return;
OS << "#ifndef LLVM_" << DirLang.getName() << "_INC\n";
OS << "#define LLVM_" << DirLang.getName() << "_INC\n";
if (DirLang.hasEnableBitmaskEnumInNamespace())
OS << "\n#include \"llvm/ADT/BitmaskEnum.h\"\n";
OS << "\n";
OS << "namespace llvm {\n";
OS << "class StringRef;\n";
// Open namespaces defined in the directive language
llvm::SmallVector<StringRef, 2> Namespaces;
llvm::SplitString(DirLang.getCppNamespace(), Namespaces, "::");
for (auto Ns : Namespaces)
OS << "namespace " << Ns << " {\n";
if (DirLang.hasEnableBitmaskEnumInNamespace())
OS << "\nLLVM_ENABLE_BITMASK_ENUMS_IN_NAMESPACE();\n";
// Emit Directive enumeration
GenerateEnumClass(DirLang.getDirectives(), OS, "Directive",
DirLang.getDirectivePrefix(), DirLang);
// Emit Clause enumeration
GenerateEnumClass(DirLang.getClauses(), OS, "Clause",
DirLang.getClausePrefix(), DirLang);
// Emit ClauseVal enumeration
std::string EnumHelperFuncs;
GenerateEnumClauseVal(DirLang.getClauses(), OS, DirLang, EnumHelperFuncs);
// Generic function signatures
OS << "\n";
OS << "// Enumeration helper functions\n";
OS << "Directive get" << DirLang.getName()
<< "DirectiveKind(llvm::StringRef Str);\n";
OS << "\n";
OS << "llvm::StringRef get" << DirLang.getName()
<< "DirectiveName(Directive D);\n";
OS << "\n";
OS << "Clause get" << DirLang.getName()
<< "ClauseKind(llvm::StringRef Str);\n";
OS << "\n";
OS << "llvm::StringRef get" << DirLang.getName() << "ClauseName(Clause C);\n";
OS << "\n";
OS << "/// Return true if \\p C is a valid clause for \\p D in version \\p "
<< "Version.\n";
OS << "bool isAllowedClauseForDirective(Directive D, "
<< "Clause C, unsigned Version);\n";
OS << "\n";
if (EnumHelperFuncs.length() > 0) {
OS << EnumHelperFuncs;
OS << "\n";
}
// Closing namespaces
for (auto Ns : llvm::reverse(Namespaces))
OS << "} // namespace " << Ns << "\n";
OS << "} // namespace llvm\n";
OS << "#endif // LLVM_" << DirLang.getName() << "_INC\n";
}
// Generate function implementation for get<Enum>Name(StringRef Str)
void GenerateGetName(const std::vector<Record *> &Records, raw_ostream &OS,
StringRef Enum, const DirectiveLanguage &DirLang,
StringRef Prefix) {
OS << "\n";
OS << "llvm::StringRef llvm::" << DirLang.getCppNamespace() << "::get"
<< DirLang.getName() << Enum << "Name(" << Enum << " Kind) {\n";
OS << " switch (Kind) {\n";
for (const auto &R : Records) {
BaseRecord Rec{R};
OS << " case " << Prefix << Rec.getFormattedName() << ":\n";
OS << " return \"";
if (Rec.getAlternativeName().empty())
OS << Rec.getName();
else
OS << Rec.getAlternativeName();
OS << "\";\n";
}
OS << " }\n"; // switch
OS << " llvm_unreachable(\"Invalid " << DirLang.getName() << " " << Enum
<< " kind\");\n";
OS << "}\n";
}
// Generate function implementation for get<Enum>Kind(StringRef Str)
void GenerateGetKind(const std::vector<Record *> &Records, raw_ostream &OS,
StringRef Enum, const DirectiveLanguage &DirLang,
StringRef Prefix, bool ImplicitAsUnknown) {
auto DefaultIt = llvm::find_if(
Records, [](Record *R) { return R->getValueAsBit("isDefault") == true; });
if (DefaultIt == Records.end()) {
PrintError("At least one " + Enum + " must be defined as default.");
return;
}
BaseRecord DefaultRec{(*DefaultIt)};
OS << "\n";
OS << Enum << " llvm::" << DirLang.getCppNamespace() << "::get"
<< DirLang.getName() << Enum << "Kind(llvm::StringRef Str) {\n";
OS << " return llvm::StringSwitch<" << Enum << ">(Str)\n";
for (const auto &R : Records) {
BaseRecord Rec{R};
if (ImplicitAsUnknown && R->getValueAsBit("isImplicit")) {
OS << " .Case(\"" << Rec.getName() << "\"," << Prefix
<< DefaultRec.getFormattedName() << ")\n";
} else {
OS << " .Case(\"" << Rec.getName() << "\"," << Prefix
<< Rec.getFormattedName() << ")\n";
}
}
OS << " .Default(" << Prefix << DefaultRec.getFormattedName() << ");\n";
OS << "}\n";
}
// Generate function implementation for get<ClauseVal>Kind(StringRef Str)
void GenerateGetKindClauseVal(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
for (const auto &R : DirLang.getClauses()) {
Clause C{R};
const auto &ClauseVals = C.getClauseVals();
if (ClauseVals.size() <= 0)
continue;
auto DefaultIt = llvm::find_if(ClauseVals, [](Record *CV) {
return CV->getValueAsBit("isDefault") == true;
});
if (DefaultIt == ClauseVals.end()) {
PrintError("At least one val in Clause " + C.getFormattedName() +
" must be defined as default.");
return;
}
const auto DefaultName = (*DefaultIt)->getName();
const auto &EnumName = C.getEnumName();
if (EnumName.size() == 0) {
PrintError("enumClauseValue field not set in Clause" +
C.getFormattedName() + ".");
return;
}
OS << "\n";
OS << EnumName << " llvm::" << DirLang.getCppNamespace() << "::get"
<< EnumName << "(llvm::StringRef Str) {\n";
OS << " return llvm::StringSwitch<" << EnumName << ">(Str)\n";
for (const auto &CV : ClauseVals) {
ClauseVal CVal{CV};
OS << " .Case(\"" << CVal.getFormattedName() << "\"," << CV->getName()
<< ")\n";
}
OS << " .Default(" << DefaultName << ");\n";
OS << "}\n";
OS << "\n";
OS << "llvm::StringRef llvm::" << DirLang.getCppNamespace() << "::get"
<< DirLang.getName() << EnumName
<< "Name(llvm::" << DirLang.getCppNamespace() << "::" << EnumName
<< " x) {\n";
OS << " switch (x) {\n";
for (const auto &CV : ClauseVals) {
ClauseVal CVal{CV};
OS << " case " << CV->getName() << ":\n";
OS << " return \"" << CVal.getFormattedName() << "\";\n";
}
OS << " }\n"; // switch
OS << " llvm_unreachable(\"Invalid " << DirLang.getName() << " "
<< EnumName << " kind\");\n";
OS << "}\n";
}
}
void GenerateCaseForVersionedClauses(const std::vector<Record *> &Clauses,
raw_ostream &OS, StringRef DirectiveName,
const DirectiveLanguage &DirLang,
llvm::StringSet<> &Cases) {
for (const auto &C : Clauses) {
VersionedClause VerClause{C};
const auto ClauseFormattedName = VerClause.getClause().getFormattedName();
if (Cases.find(ClauseFormattedName) == Cases.end()) {
Cases.insert(ClauseFormattedName);
OS << " case " << DirLang.getClausePrefix() << ClauseFormattedName
<< ":\n";
OS << " return " << VerClause.getMinVersion()
<< " <= Version && " << VerClause.getMaxVersion() << " >= Version;\n";
}
}
}
// Generate the isAllowedClauseForDirective function implementation.
void GenerateIsAllowedClause(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
OS << "\n";
OS << "bool llvm::" << DirLang.getCppNamespace()
<< "::isAllowedClauseForDirective("
<< "Directive D, Clause C, unsigned Version) {\n";
OS << " assert(unsigned(D) <= llvm::" << DirLang.getCppNamespace()
<< "::Directive_enumSize);\n";
OS << " assert(unsigned(C) <= llvm::" << DirLang.getCppNamespace()
<< "::Clause_enumSize);\n";
OS << " switch (D) {\n";
for (const auto &D : DirLang.getDirectives()) {
Directive Dir{D};
OS << " case " << DirLang.getDirectivePrefix() << Dir.getFormattedName()
<< ":\n";
if (Dir.getAllowedClauses().size() == 0 &&
Dir.getAllowedOnceClauses().size() == 0 &&
Dir.getAllowedExclusiveClauses().size() == 0 &&
Dir.getRequiredClauses().size() == 0) {
OS << " return false;\n";
} else {
OS << " switch (C) {\n";
llvm::StringSet<> Cases;
GenerateCaseForVersionedClauses(Dir.getAllowedClauses(), OS,
Dir.getName(), DirLang, Cases);
GenerateCaseForVersionedClauses(Dir.getAllowedOnceClauses(), OS,
Dir.getName(), DirLang, Cases);
GenerateCaseForVersionedClauses(Dir.getAllowedExclusiveClauses(), OS,
Dir.getName(), DirLang, Cases);
GenerateCaseForVersionedClauses(Dir.getRequiredClauses(), OS,
Dir.getName(), DirLang, Cases);
OS << " default:\n";
OS << " return false;\n";
OS << " }\n"; // End of clauses switch
}
OS << " break;\n";
}
OS << " }\n"; // End of directives switch
OS << " llvm_unreachable(\"Invalid " << DirLang.getName()
<< " Directive kind\");\n";
OS << "}\n"; // End of function isAllowedClauseForDirective
}
// Generate a simple enum set with the give clauses.
void GenerateClauseSet(const std::vector<Record *> &Clauses, raw_ostream &OS,
StringRef ClauseSetPrefix, Directive &Dir,
const DirectiveLanguage &DirLang) {
OS << "\n";
OS << " static " << DirLang.getClauseEnumSetClass() << " " << ClauseSetPrefix
<< DirLang.getDirectivePrefix() << Dir.getFormattedName() << " {\n";
for (const auto &C : Clauses) {
VersionedClause VerClause{C};
OS << " llvm::" << DirLang.getCppNamespace()
<< "::Clause::" << DirLang.getClausePrefix()
<< VerClause.getClause().getFormattedName() << ",\n";
}
OS << " };\n";
}
// Generate an enum set for the 4 kinds of clauses linked to a directive.
void GenerateDirectiveClauseSets(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_FLANG_DIRECTIVE_CLAUSE_SETS", OS);
OS << "\n";
OS << "namespace llvm {\n";
// Open namespaces defined in the directive language.
llvm::SmallVector<StringRef, 2> Namespaces;
llvm::SplitString(DirLang.getCppNamespace(), Namespaces, "::");
for (auto Ns : Namespaces)
OS << "namespace " << Ns << " {\n";
for (const auto &D : DirLang.getDirectives()) {
Directive Dir{D};
OS << "\n";
OS << " // Sets for " << Dir.getName() << "\n";
GenerateClauseSet(Dir.getAllowedClauses(), OS, "allowedClauses_", Dir,
DirLang);
GenerateClauseSet(Dir.getAllowedOnceClauses(), OS, "allowedOnceClauses_",
Dir, DirLang);
GenerateClauseSet(Dir.getAllowedExclusiveClauses(), OS,
"allowedExclusiveClauses_", Dir, DirLang);
GenerateClauseSet(Dir.getRequiredClauses(), OS, "requiredClauses_", Dir,
DirLang);
}
// Closing namespaces
for (auto Ns : llvm::reverse(Namespaces))
OS << "} // namespace " << Ns << "\n";
OS << "} // namespace llvm\n";
}
// Generate a map of directive (key) with DirectiveClauses struct as values.
// The struct holds the 4 sets of enumeration for the 4 kinds of clauses
// allowances (allowed, allowed once, allowed exclusive and required).
void GenerateDirectiveClauseMap(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_FLANG_DIRECTIVE_CLAUSE_MAP", OS);
OS << "\n";
OS << "{\n";
for (const auto &D : DirLang.getDirectives()) {
Directive Dir{D};
OS << " {llvm::" << DirLang.getCppNamespace()
<< "::Directive::" << DirLang.getDirectivePrefix()
<< Dir.getFormattedName() << ",\n";
OS << " {\n";
OS << " llvm::" << DirLang.getCppNamespace() << "::allowedClauses_"
<< DirLang.getDirectivePrefix() << Dir.getFormattedName() << ",\n";
OS << " llvm::" << DirLang.getCppNamespace() << "::allowedOnceClauses_"
<< DirLang.getDirectivePrefix() << Dir.getFormattedName() << ",\n";
OS << " llvm::" << DirLang.getCppNamespace()
<< "::allowedExclusiveClauses_" << DirLang.getDirectivePrefix()
<< Dir.getFormattedName() << ",\n";
OS << " llvm::" << DirLang.getCppNamespace() << "::requiredClauses_"
<< DirLang.getDirectivePrefix() << Dir.getFormattedName() << ",\n";
OS << " }\n";
OS << " },\n";
}
OS << "}\n";
}
// Generate classes entry for Flang clauses in the Flang parse-tree
// If the clause as a non-generic class, no entry is generated.
// If the clause does not hold a value, an EMPTY_CLASS is used.
// If the clause class is generic then a WRAPPER_CLASS is used. When the value
// is optional, the value class is wrapped into a std::optional.
void GenerateFlangClauseParserClass(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_FLANG_CLAUSE_PARSER_CLASSES", OS);
OS << "\n";
for (const auto &C : DirLang.getClauses()) {
Clause Clause{C};
if (!Clause.getFlangClass().empty()) {
OS << "WRAPPER_CLASS(" << Clause.getFormattedParserClassName() << ", ";
if (Clause.isValueOptional() && Clause.isValueList()) {
OS << "std::optional<std::list<" << Clause.getFlangClass() << ">>";
} else if (Clause.isValueOptional()) {
OS << "std::optional<" << Clause.getFlangClass() << ">";
} else if (Clause.isValueList()) {
OS << "std::list<" << Clause.getFlangClass() << ">";
} else {
OS << Clause.getFlangClass();
}
} else {
OS << "EMPTY_CLASS(" << Clause.getFormattedParserClassName();
}
OS << ");\n";
}
}
// Generate a list of the different clause classes for Flang.
void GenerateFlangClauseParserClassList(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_FLANG_CLAUSE_PARSER_CLASSES_LIST", OS);
OS << "\n";
llvm::interleaveComma(DirLang.getClauses(), OS, [&](Record *C) {
Clause Clause{C};
OS << Clause.getFormattedParserClassName() << "\n";
});
}
// Generate dump node list for the clauses holding a generic class name.
void GenerateFlangClauseDump(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_FLANG_DUMP_PARSE_TREE_CLAUSES", OS);
OS << "\n";
for (const auto &C : DirLang.getClauses()) {
Clause Clause{C};
OS << "NODE(" << DirLang.getFlangClauseBaseClass() << ", "
<< Clause.getFormattedParserClassName() << ")\n";
}
}
// Generate Unparse functions for clauses classes in the Flang parse-tree
// If the clause is a non-generic class, no entry is generated.
void GenerateFlangClauseUnparse(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_FLANG_CLAUSE_UNPARSE", OS);
OS << "\n";
for (const auto &C : DirLang.getClauses()) {
Clause Clause{C};
if (!Clause.getFlangClass().empty()) {
if (Clause.isValueOptional() && Clause.getDefaultValue().empty()) {
OS << "void Unparse(const " << DirLang.getFlangClauseBaseClass()
<< "::" << Clause.getFormattedParserClassName() << " &x) {\n";
OS << " Word(\"" << Clause.getName().upper() << "\");\n";
OS << " Walk(\"(\", x.v, \")\");\n";
OS << "}\n";
} else if (Clause.isValueOptional()) {
OS << "void Unparse(const " << DirLang.getFlangClauseBaseClass()
<< "::" << Clause.getFormattedParserClassName() << " &x) {\n";
OS << " Word(\"" << Clause.getName().upper() << "\");\n";
OS << " Put(\"(\");\n";
OS << " if (x.v.has_value())\n";
if (Clause.isValueList())
OS << " Walk(x.v, \",\");\n";
else
OS << " Walk(x.v);\n";
OS << " else\n";
OS << " Put(\"" << Clause.getDefaultValue() << "\");\n";
OS << " Put(\")\");\n";
OS << "}\n";
} else {
OS << "void Unparse(const " << DirLang.getFlangClauseBaseClass()
<< "::" << Clause.getFormattedParserClassName() << " &x) {\n";
OS << " Word(\"" << Clause.getName().upper() << "\");\n";
OS << " Put(\"(\");\n";
if (Clause.isValueList())
OS << " Walk(x.v, \",\");\n";
else
OS << " Walk(x.v);\n";
OS << " Put(\")\");\n";
OS << "}\n";
}
} else {
OS << "void Before(const " << DirLang.getFlangClauseBaseClass()
<< "::" << Clause.getFormattedParserClassName() << " &) { Word(\""
<< Clause.getName().upper() << "\"); }\n";
}
}
}
// Generate check in the Enter functions for clauses classes.
void GenerateFlangClauseCheckPrototypes(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_FLANG_CLAUSE_CHECK_ENTER", OS);
OS << "\n";
for (const auto &C : DirLang.getClauses()) {
Clause Clause{C};
OS << "void Enter(const parser::" << DirLang.getFlangClauseBaseClass()
<< "::" << Clause.getFormattedParserClassName() << " &);\n";
}
}
// Generate the mapping for clauses between the parser class and the
// corresponding clause Kind
void GenerateFlangClauseParserKindMap(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_FLANG_CLAUSE_PARSER_KIND_MAP", OS);
OS << "\n";
for (const auto &C : DirLang.getClauses()) {
Clause Clause{C};
OS << "if constexpr (std::is_same_v<A, parser::"
<< DirLang.getFlangClauseBaseClass()
<< "::" << Clause.getFormattedParserClassName();
OS << ">)\n";
OS << " return llvm::" << DirLang.getCppNamespace()
<< "::Clause::" << DirLang.getClausePrefix() << Clause.getFormattedName()
<< ";\n";
}
OS << "llvm_unreachable(\"Invalid " << DirLang.getName()
<< " Parser clause\");\n";
}
// Generate the implementation section for the enumeration in the directive
// language
void EmitDirectivesFlangImpl(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
GenerateDirectiveClauseSets(DirLang, OS);
GenerateDirectiveClauseMap(DirLang, OS);
GenerateFlangClauseParserClass(DirLang, OS);
GenerateFlangClauseParserClassList(DirLang, OS);
GenerateFlangClauseDump(DirLang, OS);
GenerateFlangClauseUnparse(DirLang, OS);
GenerateFlangClauseCheckPrototypes(DirLang, OS);
GenerateFlangClauseParserKindMap(DirLang, OS);
}
void GenerateClauseClassMacro(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
// Generate macros style information for legacy code in clang
IfDefScope Scope("GEN_CLANG_CLAUSE_CLASS", OS);
OS << "\n";
OS << "#ifndef CLAUSE\n";
OS << "#define CLAUSE(Enum, Str, Implicit)\n";
OS << "#endif\n";
OS << "#ifndef CLAUSE_CLASS\n";
OS << "#define CLAUSE_CLASS(Enum, Str, Class)\n";
OS << "#endif\n";
OS << "#ifndef CLAUSE_NO_CLASS\n";
OS << "#define CLAUSE_NO_CLASS(Enum, Str)\n";
OS << "#endif\n";
OS << "\n";
OS << "#define __CLAUSE(Name, Class) \\\n";
OS << " CLAUSE(" << DirLang.getClausePrefix()
<< "##Name, #Name, /* Implicit */ false) \\\n";
OS << " CLAUSE_CLASS(" << DirLang.getClausePrefix()
<< "##Name, #Name, Class)\n";
OS << "#define __CLAUSE_NO_CLASS(Name) \\\n";
OS << " CLAUSE(" << DirLang.getClausePrefix()
<< "##Name, #Name, /* Implicit */ false) \\\n";
OS << " CLAUSE_NO_CLASS(" << DirLang.getClausePrefix() << "##Name, #Name)\n";
OS << "#define __IMPLICIT_CLAUSE_CLASS(Name, Str, Class) \\\n";
OS << " CLAUSE(" << DirLang.getClausePrefix()
<< "##Name, Str, /* Implicit */ true) \\\n";
OS << " CLAUSE_CLASS(" << DirLang.getClausePrefix()
<< "##Name, Str, Class)\n";
OS << "#define __IMPLICIT_CLAUSE_NO_CLASS(Name, Str) \\\n";
OS << " CLAUSE(" << DirLang.getClausePrefix()
<< "##Name, Str, /* Implicit */ true) \\\n";
OS << " CLAUSE_NO_CLASS(" << DirLang.getClausePrefix() << "##Name, Str)\n";
OS << "\n";
for (const auto &R : DirLang.getClauses()) {
Clause C{R};
if (C.getClangClass().empty()) { // NO_CLASS
if (C.isImplicit()) {
OS << "__IMPLICIT_CLAUSE_NO_CLASS(" << C.getFormattedName() << ", \""
<< C.getFormattedName() << "\")\n";
} else {
OS << "__CLAUSE_NO_CLASS(" << C.getFormattedName() << ")\n";
}
} else { // CLASS
if (C.isImplicit()) {
OS << "__IMPLICIT_CLAUSE_CLASS(" << C.getFormattedName() << ", \""
<< C.getFormattedName() << "\", " << C.getClangClass() << ")\n";
} else {
OS << "__CLAUSE(" << C.getFormattedName() << ", " << C.getClangClass()
<< ")\n";
}
}
}
OS << "\n";
OS << "#undef __IMPLICIT_CLAUSE_NO_CLASS\n";
OS << "#undef __IMPLICIT_CLAUSE_CLASS\n";
OS << "#undef __CLAUSE\n";
OS << "#undef CLAUSE_NO_CLASS\n";
OS << "#undef CLAUSE_CLASS\n";
OS << "#undef CLAUSE\n";
}
// Generate the implemenation for the enumeration in the directive
// language. This code can be included in library.
void EmitDirectivesBasicImpl(const DirectiveLanguage &DirLang,
raw_ostream &OS) {
IfDefScope Scope("GEN_DIRECTIVES_IMPL", OS);
// getDirectiveKind(StringRef Str)
GenerateGetKind(DirLang.getDirectives(), OS, "Directive", DirLang,
DirLang.getDirectivePrefix(), /*ImplicitAsUnknown=*/false);
// getDirectiveName(Directive Kind)
GenerateGetName(DirLang.getDirectives(), OS, "Directive", DirLang,
DirLang.getDirectivePrefix());
// getClauseKind(StringRef Str)
GenerateGetKind(DirLang.getClauses(), OS, "Clause", DirLang,
DirLang.getClausePrefix(),
/*ImplicitAsUnknown=*/true);
// getClauseName(Clause Kind)
GenerateGetName(DirLang.getClauses(), OS, "Clause", DirLang,
DirLang.getClausePrefix());
// get<ClauseVal>Kind(StringRef Str)
GenerateGetKindClauseVal(DirLang, OS);
// isAllowedClauseForDirective(Directive D, Clause C, unsigned Version)
GenerateIsAllowedClause(DirLang, OS);
}
// Generate the implemenation section for the enumeration in the directive
// language.
void EmitDirectivesImpl(RecordKeeper &Records, raw_ostream &OS) {
const auto DirLang = DirectiveLanguage{Records};
if (DirLang.HasValidityErrors())
return;
EmitDirectivesFlangImpl(DirLang, OS);
GenerateClauseClassMacro(DirLang, OS);
EmitDirectivesBasicImpl(DirLang, OS);
}
} // namespace llvm