1 //===--- Types.cpp - Driver input & temporary type information ------------===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 10 #include "clang/Driver/Types.h" 11 #include "llvm/ADT/STLExtras.h" 12 #include "llvm/ADT/StringSwitch.h" 13 #include <cassert> 14 #include <string.h> 15 16 using namespace clang::driver; 17 using namespace clang::driver::types; 18 19 struct TypeInfo { 20 const char *Name; 21 const char *Flags; 22 const char *TempSuffix; 23 ID PreprocessedType; 24 }; 25 26 static const TypeInfo TypeInfos[] = { 27 #define TYPE(NAME, ID, PP_TYPE, TEMP_SUFFIX, FLAGS) \ 28 { NAME, FLAGS, TEMP_SUFFIX, TY_##PP_TYPE, }, 29 #include "clang/Driver/Types.def" 30 #undef TYPE 31 }; 32 static const unsigned numTypes = llvm::array_lengthof(TypeInfos); 33 34 static const TypeInfo &getInfo(unsigned id) { 35 assert(id > 0 && id - 1 < numTypes && "Invalid Type ID."); 36 return TypeInfos[id - 1]; 37 } 38 39 const char *types::getTypeName(ID Id) { 40 return getInfo(Id).Name; 41 } 42 43 types::ID types::getPreprocessedType(ID Id) { 44 return getInfo(Id).PreprocessedType; 45 } 46 47 const char *types::getTypeTempSuffix(ID Id, bool CLMode) { 48 if (Id == TY_Object && CLMode) 49 return "obj"; 50 if (Id == TY_Image && CLMode) 51 return "exe"; 52 if (Id == TY_PP_Asm && CLMode) 53 return "asm"; 54 return getInfo(Id).TempSuffix; 55 } 56 57 bool types::onlyAssembleType(ID Id) { 58 return strchr(getInfo(Id).Flags, 'a'); 59 } 60 61 bool types::onlyPrecompileType(ID Id) { 62 return strchr(getInfo(Id).Flags, 'p'); 63 } 64 65 bool types::canTypeBeUserSpecified(ID Id) { 66 return strchr(getInfo(Id).Flags, 'u'); 67 } 68 69 bool types::appendSuffixForType(ID Id) { 70 return strchr(getInfo(Id).Flags, 'A'); 71 } 72 73 bool types::canLipoType(ID Id) { 74 return (Id == TY_Nothing || 75 Id == TY_Image || 76 Id == TY_Object || 77 Id == TY_LTO_BC); 78 } 79 80 bool types::isAcceptedByClang(ID Id) { 81 switch (Id) { 82 default: 83 return false; 84 85 case TY_Asm: 86 case TY_C: case TY_PP_C: 87 case TY_CL: 88 case TY_CUDA: 89 case TY_ObjC: case TY_PP_ObjC: case TY_PP_ObjC_Alias: 90 case TY_CXX: case TY_PP_CXX: 91 case TY_ObjCXX: case TY_PP_ObjCXX: case TY_PP_ObjCXX_Alias: 92 case TY_CHeader: case TY_PP_CHeader: 93 case TY_CLHeader: 94 case TY_ObjCHeader: case TY_PP_ObjCHeader: 95 case TY_CXXHeader: case TY_PP_CXXHeader: 96 case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader: 97 case TY_AST: case TY_ModuleFile: 98 case TY_LLVM_IR: case TY_LLVM_BC: 99 return true; 100 } 101 } 102 103 bool types::isObjC(ID Id) { 104 switch (Id) { 105 default: 106 return false; 107 108 case TY_ObjC: case TY_PP_ObjC: case TY_PP_ObjC_Alias: 109 case TY_ObjCXX: case TY_PP_ObjCXX: 110 case TY_ObjCHeader: case TY_PP_ObjCHeader: 111 case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader: case TY_PP_ObjCXX_Alias: 112 return true; 113 } 114 } 115 116 bool types::isCXX(ID Id) { 117 switch (Id) { 118 default: 119 return false; 120 121 case TY_CXX: case TY_PP_CXX: 122 case TY_ObjCXX: case TY_PP_ObjCXX: case TY_PP_ObjCXX_Alias: 123 case TY_CXXHeader: case TY_PP_CXXHeader: 124 case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader: 125 case TY_CUDA: 126 return true; 127 } 128 } 129 130 types::ID types::lookupTypeForExtension(const char *Ext) { 131 return llvm::StringSwitch<types::ID>(Ext) 132 .Case("c", TY_C) 133 .Case("i", TY_PP_C) 134 .Case("m", TY_ObjC) 135 .Case("M", TY_ObjCXX) 136 .Case("h", TY_CHeader) 137 .Case("C", TY_CXX) 138 .Case("H", TY_CXXHeader) 139 .Case("f", TY_PP_Fortran) 140 .Case("F", TY_Fortran) 141 .Case("s", TY_PP_Asm) 142 .Case("asm", TY_PP_Asm) 143 .Case("S", TY_Asm) 144 .Case("o", TY_Object) 145 .Case("obj", TY_Object) 146 .Case("ii", TY_PP_CXX) 147 .Case("mi", TY_PP_ObjC) 148 .Case("mm", TY_ObjCXX) 149 .Case("bc", TY_LLVM_BC) 150 .Case("cc", TY_CXX) 151 .Case("CC", TY_CXX) 152 .Case("cl", TY_CL) 153 .Case("cp", TY_CXX) 154 .Case("cu", TY_CUDA) 155 .Case("hh", TY_CXXHeader) 156 .Case("ll", TY_LLVM_IR) 157 .Case("hpp", TY_CXXHeader) 158 .Case("ads", TY_Ada) 159 .Case("adb", TY_Ada) 160 .Case("ast", TY_AST) 161 .Case("c++", TY_CXX) 162 .Case("C++", TY_CXX) 163 .Case("cxx", TY_CXX) 164 .Case("cpp", TY_CXX) 165 .Case("CPP", TY_CXX) 166 .Case("CXX", TY_CXX) 167 .Case("for", TY_PP_Fortran) 168 .Case("FOR", TY_PP_Fortran) 169 .Case("fpp", TY_Fortran) 170 .Case("FPP", TY_Fortran) 171 .Case("f90", TY_PP_Fortran) 172 .Case("f95", TY_PP_Fortran) 173 .Case("F90", TY_Fortran) 174 .Case("F95", TY_Fortran) 175 .Case("mii", TY_PP_ObjCXX) 176 .Case("pcm", TY_ModuleFile) 177 .Case("pch", TY_PCH) 178 .Case("gch", TY_PCH) 179 .Default(TY_INVALID); 180 } 181 182 types::ID types::lookupTypeForTypeSpecifier(const char *Name) { 183 for (unsigned i=0; i<numTypes; ++i) { 184 types::ID Id = (types::ID) (i + 1); 185 if (canTypeBeUserSpecified(Id) && 186 strcmp(Name, getInfo(Id).Name) == 0) 187 return Id; 188 } 189 190 return TY_INVALID; 191 } 192 193 // FIXME: Why don't we just put this list in the defs file, eh. 194 void types::getCompilationPhases(ID Id, llvm::SmallVectorImpl<phases::ID> &P) { 195 if (Id != TY_Object) { 196 if (getPreprocessedType(Id) != TY_INVALID) { 197 P.push_back(phases::Preprocess); 198 } 199 200 if (onlyPrecompileType(Id)) { 201 P.push_back(phases::Precompile); 202 } else { 203 if (!onlyAssembleType(Id)) { 204 P.push_back(phases::Compile); 205 } 206 P.push_back(phases::Assemble); 207 } 208 } 209 if (!onlyPrecompileType(Id)) { 210 P.push_back(phases::Link); 211 } 212 assert(0 < P.size() && "Not enough phases in list"); 213 assert(P.size() <= phases::MaxNumberOfPhases && "Too many phases in list"); 214 return; 215 } 216 217 ID types::lookupCXXTypeForCType(ID Id) { 218 switch (Id) { 219 default: 220 return Id; 221 222 case types::TY_C: 223 return types::TY_CXX; 224 case types::TY_PP_C: 225 return types::TY_PP_CXX; 226 case types::TY_CHeader: 227 return types::TY_CXXHeader; 228 case types::TY_PP_CHeader: 229 return types::TY_PP_CXXHeader; 230 } 231 } 232
