1 //===--- TargetInfo.h - Expose information about the target -----*- C++ -*-===// 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 /// \file 11 /// \brief Defines the clang::TargetInfo interface. 12 /// 13 //===----------------------------------------------------------------------===// 14 15 #ifndef LLVM_CLANG_BASIC_TARGETINFO_H 16 #define LLVM_CLANG_BASIC_TARGETINFO_H 17 18 #include "clang/Basic/AddressSpaces.h" 19 #include "clang/Basic/LLVM.h" 20 #include "clang/Basic/Specifiers.h" 21 #include "clang/Basic/TargetCXXABI.h" 22 #include "clang/Basic/TargetOptions.h" 23 #include "clang/Basic/VersionTuple.h" 24 #include "llvm/ADT/IntrusiveRefCntPtr.h" 25 #include "llvm/ADT/APInt.h" 26 #include "llvm/ADT/SmallSet.h" 27 #include "llvm/ADT/StringMap.h" 28 #include "llvm/ADT/StringRef.h" 29 #include "llvm/ADT/StringSwitch.h" 30 #include "llvm/ADT/Triple.h" 31 #include "llvm/Support/DataTypes.h" 32 #include <cassert> 33 #include <string> 34 #include <vector> 35 36 namespace llvm { 37 struct fltSemantics; 38 } 39 40 namespace clang { 41 class DiagnosticsEngine; 42 class LangOptions; 43 class MacroBuilder; 44 class SourceLocation; 45 class SourceManager; 46 47 namespace Builtin { struct Info; } 48 49 /// \brief Exposes information about the current target. 50 /// 51 class TargetInfo : public RefCountedBase<TargetInfo> { 52 std::shared_ptr<TargetOptions> TargetOpts; 53 llvm::Triple Triple; 54 protected: 55 // Target values set by the ctor of the actual target implementation. Default 56 // values are specified by the TargetInfo constructor. 57 bool BigEndian; 58 bool TLSSupported; 59 bool NoAsmVariants; // True if {|} are normal characters. 60 unsigned char PointerWidth, PointerAlign; 61 unsigned char BoolWidth, BoolAlign; 62 unsigned char IntWidth, IntAlign; 63 unsigned char HalfWidth, HalfAlign; 64 unsigned char FloatWidth, FloatAlign; 65 unsigned char DoubleWidth, DoubleAlign; 66 unsigned char LongDoubleWidth, LongDoubleAlign; 67 unsigned char LargeArrayMinWidth, LargeArrayAlign; 68 unsigned char LongWidth, LongAlign; 69 unsigned char LongLongWidth, LongLongAlign; 70 unsigned char SuitableAlign; 71 unsigned char DefaultAlignForAttributeAligned; 72 unsigned char MinGlobalAlign; 73 unsigned char MaxAtomicPromoteWidth, MaxAtomicInlineWidth; 74 unsigned short MaxVectorAlign; 75 unsigned short MaxTLSAlign; 76 unsigned short SimdDefaultAlign; 77 const char *DataLayoutString; 78 const char *UserLabelPrefix; 79 const char *MCountName; 80 const llvm::fltSemantics *HalfFormat, *FloatFormat, *DoubleFormat, 81 *LongDoubleFormat; 82 unsigned char RegParmMax, SSERegParmMax; 83 TargetCXXABI TheCXXABI; 84 const LangAS::Map *AddrSpaceMap; 85 86 mutable StringRef PlatformName; 87 mutable VersionTuple PlatformMinVersion; 88 89 unsigned HasAlignMac68kSupport : 1; 90 unsigned RealTypeUsesObjCFPRet : 3; 91 unsigned ComplexLongDoubleUsesFP2Ret : 1; 92 93 unsigned HasBuiltinMSVaList : 1; 94 95 // TargetInfo Constructor. Default initializes all fields. 96 TargetInfo(const llvm::Triple &T); 97 98 public: 99 /// \brief Construct a target for the given options. 100 /// 101 /// \param Opts - The options to use to initialize the target. The target may 102 /// modify the options to canonicalize the target feature information to match 103 /// what the backend expects. 104 static TargetInfo * 105 CreateTargetInfo(DiagnosticsEngine &Diags, 106 const std::shared_ptr<TargetOptions> &Opts); 107 108 virtual ~TargetInfo(); 109 110 /// \brief Retrieve the target options. getTargetOpts()111 TargetOptions &getTargetOpts() const { 112 assert(TargetOpts && "Missing target options"); 113 return *TargetOpts; 114 } 115 116 ///===---- Target Data Type Query Methods -------------------------------===// 117 enum IntType { 118 NoInt = 0, 119 SignedChar, 120 UnsignedChar, 121 SignedShort, 122 UnsignedShort, 123 SignedInt, 124 UnsignedInt, 125 SignedLong, 126 UnsignedLong, 127 SignedLongLong, 128 UnsignedLongLong 129 }; 130 131 enum RealType { 132 NoFloat = 255, 133 Float = 0, 134 Double, 135 LongDouble 136 }; 137 138 /// \brief The different kinds of __builtin_va_list types defined by 139 /// the target implementation. 140 enum BuiltinVaListKind { 141 /// typedef char* __builtin_va_list; 142 CharPtrBuiltinVaList = 0, 143 144 /// typedef void* __builtin_va_list; 145 VoidPtrBuiltinVaList, 146 147 /// __builtin_va_list as defind by the AArch64 ABI 148 /// http://infocenter.arm.com/help/topic/com.arm.doc.ihi0055a/IHI0055A_aapcs64.pdf 149 AArch64ABIBuiltinVaList, 150 151 /// __builtin_va_list as defined by the PNaCl ABI: 152 /// http://www.chromium.org/nativeclient/pnacl/bitcode-abi#TOC-Machine-Types 153 PNaClABIBuiltinVaList, 154 155 /// __builtin_va_list as defined by the Power ABI: 156 /// https://www.power.org 157 /// /resources/downloads/Power-Arch-32-bit-ABI-supp-1.0-Embedded.pdf 158 PowerABIBuiltinVaList, 159 160 /// __builtin_va_list as defined by the x86-64 ABI: 161 /// http://www.x86-64.org/documentation/abi.pdf 162 X86_64ABIBuiltinVaList, 163 164 /// __builtin_va_list as defined by ARM AAPCS ABI 165 /// http://infocenter.arm.com 166 // /help/topic/com.arm.doc.ihi0042d/IHI0042D_aapcs.pdf 167 AAPCSABIBuiltinVaList, 168 169 // typedef struct __va_list_tag 170 // { 171 // long __gpr; 172 // long __fpr; 173 // void *__overflow_arg_area; 174 // void *__reg_save_area; 175 // } va_list[1]; 176 SystemZBuiltinVaList 177 }; 178 179 protected: 180 IntType SizeType, IntMaxType, PtrDiffType, IntPtrType, WCharType, 181 WIntType, Char16Type, Char32Type, Int64Type, SigAtomicType, 182 ProcessIDType; 183 184 /// \brief Whether Objective-C's built-in boolean type should be signed char. 185 /// 186 /// Otherwise, when this flag is not set, the normal built-in boolean type is 187 /// used. 188 unsigned UseSignedCharForObjCBool : 1; 189 190 /// Control whether the alignment of bit-field types is respected when laying 191 /// out structures. If true, then the alignment of the bit-field type will be 192 /// used to (a) impact the alignment of the containing structure, and (b) 193 /// ensure that the individual bit-field will not straddle an alignment 194 /// boundary. 195 unsigned UseBitFieldTypeAlignment : 1; 196 197 /// \brief Whether zero length bitfields (e.g., int : 0;) force alignment of 198 /// the next bitfield. 199 /// 200 /// If the alignment of the zero length bitfield is greater than the member 201 /// that follows it, `bar', `bar' will be aligned as the type of the 202 /// zero-length bitfield. 203 unsigned UseZeroLengthBitfieldAlignment : 1; 204 205 /// If non-zero, specifies a fixed alignment value for bitfields that follow 206 /// zero length bitfield, regardless of the zero length bitfield type. 207 unsigned ZeroLengthBitfieldBoundary; 208 209 /// \brief Specify if mangling based on address space map should be used or 210 /// not for language specific address spaces 211 bool UseAddrSpaceMapMangling; 212 213 public: getSizeType()214 IntType getSizeType() const { return SizeType; } getIntMaxType()215 IntType getIntMaxType() const { return IntMaxType; } getUIntMaxType()216 IntType getUIntMaxType() const { 217 return getCorrespondingUnsignedType(IntMaxType); 218 } getPtrDiffType(unsigned AddrSpace)219 IntType getPtrDiffType(unsigned AddrSpace) const { 220 return AddrSpace == 0 ? PtrDiffType : getPtrDiffTypeV(AddrSpace); 221 } getIntPtrType()222 IntType getIntPtrType() const { return IntPtrType; } getUIntPtrType()223 IntType getUIntPtrType() const { 224 return getCorrespondingUnsignedType(IntPtrType); 225 } getWCharType()226 IntType getWCharType() const { return WCharType; } getWIntType()227 IntType getWIntType() const { return WIntType; } getChar16Type()228 IntType getChar16Type() const { return Char16Type; } getChar32Type()229 IntType getChar32Type() const { return Char32Type; } getInt64Type()230 IntType getInt64Type() const { return Int64Type; } getUInt64Type()231 IntType getUInt64Type() const { 232 return getCorrespondingUnsignedType(Int64Type); 233 } getSigAtomicType()234 IntType getSigAtomicType() const { return SigAtomicType; } getProcessIDType()235 IntType getProcessIDType() const { return ProcessIDType; } 236 getCorrespondingUnsignedType(IntType T)237 static IntType getCorrespondingUnsignedType(IntType T) { 238 switch (T) { 239 case SignedChar: 240 return UnsignedChar; 241 case SignedShort: 242 return UnsignedShort; 243 case SignedInt: 244 return UnsignedInt; 245 case SignedLong: 246 return UnsignedLong; 247 case SignedLongLong: 248 return UnsignedLongLong; 249 default: 250 llvm_unreachable("Unexpected signed integer type"); 251 } 252 } 253 254 /// \brief Return the width (in bits) of the specified integer type enum. 255 /// 256 /// For example, SignedInt -> getIntWidth(). 257 unsigned getTypeWidth(IntType T) const; 258 259 /// \brief Return integer type with specified width. 260 virtual IntType getIntTypeByWidth(unsigned BitWidth, bool IsSigned) const; 261 262 /// \brief Return the smallest integer type with at least the specified width. 263 virtual IntType getLeastIntTypeByWidth(unsigned BitWidth, 264 bool IsSigned) const; 265 266 /// \brief Return floating point type with specified width. 267 RealType getRealTypeByWidth(unsigned BitWidth) const; 268 269 /// \brief Return the alignment (in bits) of the specified integer type enum. 270 /// 271 /// For example, SignedInt -> getIntAlign(). 272 unsigned getTypeAlign(IntType T) const; 273 274 /// \brief Returns true if the type is signed; false otherwise. 275 static bool isTypeSigned(IntType T); 276 277 /// \brief Return the width of pointers on this target, for the 278 /// specified address space. getPointerWidth(unsigned AddrSpace)279 uint64_t getPointerWidth(unsigned AddrSpace) const { 280 return AddrSpace == 0 ? PointerWidth : getPointerWidthV(AddrSpace); 281 } getPointerAlign(unsigned AddrSpace)282 uint64_t getPointerAlign(unsigned AddrSpace) const { 283 return AddrSpace == 0 ? PointerAlign : getPointerAlignV(AddrSpace); 284 } 285 286 /// \brief Return the size of '_Bool' and C++ 'bool' for this target, in bits. getBoolWidth()287 unsigned getBoolWidth() const { return BoolWidth; } 288 289 /// \brief Return the alignment of '_Bool' and C++ 'bool' for this target. getBoolAlign()290 unsigned getBoolAlign() const { return BoolAlign; } 291 getCharWidth()292 unsigned getCharWidth() const { return 8; } // FIXME getCharAlign()293 unsigned getCharAlign() const { return 8; } // FIXME 294 295 /// \brief Return the size of 'signed short' and 'unsigned short' for this 296 /// target, in bits. getShortWidth()297 unsigned getShortWidth() const { return 16; } // FIXME 298 299 /// \brief Return the alignment of 'signed short' and 'unsigned short' for 300 /// this target. getShortAlign()301 unsigned getShortAlign() const { return 16; } // FIXME 302 303 /// getIntWidth/Align - Return the size of 'signed int' and 'unsigned int' for 304 /// this target, in bits. getIntWidth()305 unsigned getIntWidth() const { return IntWidth; } getIntAlign()306 unsigned getIntAlign() const { return IntAlign; } 307 308 /// getLongWidth/Align - Return the size of 'signed long' and 'unsigned long' 309 /// for this target, in bits. getLongWidth()310 unsigned getLongWidth() const { return LongWidth; } getLongAlign()311 unsigned getLongAlign() const { return LongAlign; } 312 313 /// getLongLongWidth/Align - Return the size of 'signed long long' and 314 /// 'unsigned long long' for this target, in bits. getLongLongWidth()315 unsigned getLongLongWidth() const { return LongLongWidth; } getLongLongAlign()316 unsigned getLongLongAlign() const { return LongLongAlign; } 317 318 /// \brief Determine whether the __int128 type is supported on this target. hasInt128Type()319 virtual bool hasInt128Type() const { 320 return getPointerWidth(0) >= 64; 321 } // FIXME 322 323 /// \brief Return the alignment that is suitable for storing any 324 /// object with a fundamental alignment requirement. getSuitableAlign()325 unsigned getSuitableAlign() const { return SuitableAlign; } 326 327 /// \brief Return the default alignment for __attribute__((aligned)) on 328 /// this target, to be used if no alignment value is specified. getDefaultAlignForAttributeAligned()329 unsigned getDefaultAlignForAttributeAligned() const { 330 return DefaultAlignForAttributeAligned; 331 } 332 333 /// getMinGlobalAlign - Return the minimum alignment of a global variable, 334 /// unless its alignment is explicitly reduced via attributes. getMinGlobalAlign()335 unsigned getMinGlobalAlign() const { return MinGlobalAlign; } 336 337 /// getWCharWidth/Align - Return the size of 'wchar_t' for this target, in 338 /// bits. getWCharWidth()339 unsigned getWCharWidth() const { return getTypeWidth(WCharType); } getWCharAlign()340 unsigned getWCharAlign() const { return getTypeAlign(WCharType); } 341 342 /// getChar16Width/Align - Return the size of 'char16_t' for this target, in 343 /// bits. getChar16Width()344 unsigned getChar16Width() const { return getTypeWidth(Char16Type); } getChar16Align()345 unsigned getChar16Align() const { return getTypeAlign(Char16Type); } 346 347 /// getChar32Width/Align - Return the size of 'char32_t' for this target, in 348 /// bits. getChar32Width()349 unsigned getChar32Width() const { return getTypeWidth(Char32Type); } getChar32Align()350 unsigned getChar32Align() const { return getTypeAlign(Char32Type); } 351 352 /// getHalfWidth/Align/Format - Return the size/align/format of 'half'. getHalfWidth()353 unsigned getHalfWidth() const { return HalfWidth; } getHalfAlign()354 unsigned getHalfAlign() const { return HalfAlign; } getHalfFormat()355 const llvm::fltSemantics &getHalfFormat() const { return *HalfFormat; } 356 357 /// getFloatWidth/Align/Format - Return the size/align/format of 'float'. getFloatWidth()358 unsigned getFloatWidth() const { return FloatWidth; } getFloatAlign()359 unsigned getFloatAlign() const { return FloatAlign; } getFloatFormat()360 const llvm::fltSemantics &getFloatFormat() const { return *FloatFormat; } 361 362 /// getDoubleWidth/Align/Format - Return the size/align/format of 'double'. getDoubleWidth()363 unsigned getDoubleWidth() const { return DoubleWidth; } getDoubleAlign()364 unsigned getDoubleAlign() const { return DoubleAlign; } getDoubleFormat()365 const llvm::fltSemantics &getDoubleFormat() const { return *DoubleFormat; } 366 367 /// getLongDoubleWidth/Align/Format - Return the size/align/format of 'long 368 /// double'. getLongDoubleWidth()369 unsigned getLongDoubleWidth() const { return LongDoubleWidth; } getLongDoubleAlign()370 unsigned getLongDoubleAlign() const { return LongDoubleAlign; } getLongDoubleFormat()371 const llvm::fltSemantics &getLongDoubleFormat() const { 372 return *LongDoubleFormat; 373 } 374 375 /// \brief Return true if the 'long double' type should be mangled like 376 /// __float128. useFloat128ManglingForLongDouble()377 virtual bool useFloat128ManglingForLongDouble() const { return false; } 378 379 /// \brief Return the value for the C99 FLT_EVAL_METHOD macro. getFloatEvalMethod()380 virtual unsigned getFloatEvalMethod() const { return 0; } 381 382 // getLargeArrayMinWidth/Align - Return the minimum array size that is 383 // 'large' and its alignment. getLargeArrayMinWidth()384 unsigned getLargeArrayMinWidth() const { return LargeArrayMinWidth; } getLargeArrayAlign()385 unsigned getLargeArrayAlign() const { return LargeArrayAlign; } 386 387 /// \brief Return the maximum width lock-free atomic operation which will 388 /// ever be supported for the given target getMaxAtomicPromoteWidth()389 unsigned getMaxAtomicPromoteWidth() const { return MaxAtomicPromoteWidth; } 390 /// \brief Return the maximum width lock-free atomic operation which can be 391 /// inlined given the supported features of the given target. getMaxAtomicInlineWidth()392 unsigned getMaxAtomicInlineWidth() const { return MaxAtomicInlineWidth; } 393 /// \brief Returns true if the given target supports lock-free atomic 394 /// operations at the specified width and alignment. hasBuiltinAtomic(uint64_t AtomicSizeInBits,uint64_t AlignmentInBits)395 virtual bool hasBuiltinAtomic(uint64_t AtomicSizeInBits, 396 uint64_t AlignmentInBits) const { 397 return AtomicSizeInBits <= AlignmentInBits && 398 AtomicSizeInBits <= getMaxAtomicInlineWidth() && 399 (AtomicSizeInBits <= getCharWidth() || 400 llvm::isPowerOf2_64(AtomicSizeInBits / getCharWidth())); 401 } 402 403 /// \brief Return the maximum vector alignment supported for the given target. getMaxVectorAlign()404 unsigned getMaxVectorAlign() const { return MaxVectorAlign; } 405 /// \brief Return default simd alignment for the given target. Generally, this 406 /// value is type-specific, but this alignment can be used for most of the 407 /// types for the given target. getSimdDefaultAlign()408 unsigned getSimdDefaultAlign() const { return SimdDefaultAlign; } 409 410 /// \brief Return the size of intmax_t and uintmax_t for this target, in bits. getIntMaxTWidth()411 unsigned getIntMaxTWidth() const { 412 return getTypeWidth(IntMaxType); 413 } 414 415 // Return the size of unwind_word for this target. getUnwindWordWidth()416 unsigned getUnwindWordWidth() const { return getPointerWidth(0); } 417 418 /// \brief Return the "preferred" register width on this target. getRegisterWidth()419 unsigned getRegisterWidth() const { 420 // Currently we assume the register width on the target matches the pointer 421 // width, we can introduce a new variable for this if/when some target wants 422 // it. 423 return PointerWidth; 424 } 425 426 /// \brief Returns the default value of the __USER_LABEL_PREFIX__ macro, 427 /// which is the prefix given to user symbols by default. 428 /// 429 /// On most platforms this is "_", but it is "" on some, and "." on others. getUserLabelPrefix()430 const char *getUserLabelPrefix() const { 431 return UserLabelPrefix; 432 } 433 434 /// \brief Returns the name of the mcount instrumentation function. getMCountName()435 const char *getMCountName() const { 436 return MCountName; 437 } 438 439 /// \brief Check if the Objective-C built-in boolean type should be signed 440 /// char. 441 /// 442 /// Otherwise, if this returns false, the normal built-in boolean type 443 /// should also be used for Objective-C. useSignedCharForObjCBool()444 bool useSignedCharForObjCBool() const { 445 return UseSignedCharForObjCBool; 446 } noSignedCharForObjCBool()447 void noSignedCharForObjCBool() { 448 UseSignedCharForObjCBool = false; 449 } 450 451 /// \brief Check whether the alignment of bit-field types is respected 452 /// when laying out structures. useBitFieldTypeAlignment()453 bool useBitFieldTypeAlignment() const { 454 return UseBitFieldTypeAlignment; 455 } 456 457 /// \brief Check whether zero length bitfields should force alignment of 458 /// the next member. useZeroLengthBitfieldAlignment()459 bool useZeroLengthBitfieldAlignment() const { 460 return UseZeroLengthBitfieldAlignment; 461 } 462 463 /// \brief Get the fixed alignment value in bits for a member that follows 464 /// a zero length bitfield. getZeroLengthBitfieldBoundary()465 unsigned getZeroLengthBitfieldBoundary() const { 466 return ZeroLengthBitfieldBoundary; 467 } 468 469 /// \brief Check whether this target support '\#pragma options align=mac68k'. hasAlignMac68kSupport()470 bool hasAlignMac68kSupport() const { 471 return HasAlignMac68kSupport; 472 } 473 474 /// \brief Return the user string for the specified integer type enum. 475 /// 476 /// For example, SignedShort -> "short". 477 static const char *getTypeName(IntType T); 478 479 /// \brief Return the constant suffix for the specified integer type enum. 480 /// 481 /// For example, SignedLong -> "L". 482 const char *getTypeConstantSuffix(IntType T) const; 483 484 /// \brief Return the printf format modifier for the specified 485 /// integer type enum. 486 /// 487 /// For example, SignedLong -> "l". 488 static const char *getTypeFormatModifier(IntType T); 489 490 /// \brief Check whether the given real type should use the "fpret" flavor of 491 /// Objective-C message passing on this target. useObjCFPRetForRealType(RealType T)492 bool useObjCFPRetForRealType(RealType T) const { 493 return RealTypeUsesObjCFPRet & (1 << T); 494 } 495 496 /// \brief Check whether _Complex long double should use the "fp2ret" flavor 497 /// of Objective-C message passing on this target. useObjCFP2RetForComplexLongDouble()498 bool useObjCFP2RetForComplexLongDouble() const { 499 return ComplexLongDoubleUsesFP2Ret; 500 } 501 502 /// \brief Specify if mangling based on address space map should be used or 503 /// not for language specific address spaces useAddressSpaceMapMangling()504 bool useAddressSpaceMapMangling() const { 505 return UseAddrSpaceMapMangling; 506 } 507 508 ///===---- Other target property query methods --------------------------===// 509 510 /// \brief Appends the target-specific \#define values for this 511 /// target set to the specified buffer. 512 virtual void getTargetDefines(const LangOptions &Opts, 513 MacroBuilder &Builder) const = 0; 514 515 516 /// Return information about target-specific builtins for 517 /// the current primary target, and info about which builtins are non-portable 518 /// across the current set of primary and secondary targets. 519 virtual ArrayRef<Builtin::Info> getTargetBuiltins() const = 0; 520 521 /// The __builtin_clz* and __builtin_ctz* built-in 522 /// functions are specified to have undefined results for zero inputs, but 523 /// on targets that support these operations in a way that provides 524 /// well-defined results for zero without loss of performance, it is a good 525 /// idea to avoid optimizing based on that undef behavior. isCLZForZeroUndef()526 virtual bool isCLZForZeroUndef() const { return true; } 527 528 /// \brief Returns the kind of __builtin_va_list type that should be used 529 /// with this target. 530 virtual BuiltinVaListKind getBuiltinVaListKind() const = 0; 531 532 /// Returns whether or not type \c __builtin_ms_va_list type is 533 /// available on this target. hasBuiltinMSVaList()534 bool hasBuiltinMSVaList() const { return HasBuiltinMSVaList; } 535 536 /// \brief Returns whether the passed in string is a valid clobber in an 537 /// inline asm statement. 538 /// 539 /// This is used by Sema. 540 bool isValidClobber(StringRef Name) const; 541 542 /// \brief Returns whether the passed in string is a valid register name 543 /// according to GCC. 544 /// 545 /// This is used by Sema for inline asm statements. 546 bool isValidGCCRegisterName(StringRef Name) const; 547 548 /// \brief Returns the "normalized" GCC register name. 549 /// 550 /// For example, on x86 it will return "ax" when "eax" is passed in. 551 StringRef getNormalizedGCCRegisterName(StringRef Name) const; 552 553 struct ConstraintInfo { 554 enum { 555 CI_None = 0x00, 556 CI_AllowsMemory = 0x01, 557 CI_AllowsRegister = 0x02, 558 CI_ReadWrite = 0x04, // "+r" output constraint (read and write). 559 CI_HasMatchingInput = 0x08, // This output operand has a matching input. 560 CI_ImmediateConstant = 0x10, // This operand must be an immediate constant 561 CI_EarlyClobber = 0x20, // "&" output constraint (early clobber). 562 }; 563 unsigned Flags; 564 int TiedOperand; 565 struct { 566 int Min; 567 int Max; 568 } ImmRange; 569 llvm::SmallSet<int, 4> ImmSet; 570 571 std::string ConstraintStr; // constraint: "=rm" 572 std::string Name; // Operand name: [foo] with no []'s. 573 public: ConstraintInfoConstraintInfo574 ConstraintInfo(StringRef ConstraintStr, StringRef Name) 575 : Flags(0), TiedOperand(-1), ConstraintStr(ConstraintStr.str()), 576 Name(Name.str()) { 577 ImmRange.Min = ImmRange.Max = 0; 578 } 579 getConstraintStrConstraintInfo580 const std::string &getConstraintStr() const { return ConstraintStr; } getNameConstraintInfo581 const std::string &getName() const { return Name; } isReadWriteConstraintInfo582 bool isReadWrite() const { return (Flags & CI_ReadWrite) != 0; } earlyClobberConstraintInfo583 bool earlyClobber() { return (Flags & CI_EarlyClobber) != 0; } allowsRegisterConstraintInfo584 bool allowsRegister() const { return (Flags & CI_AllowsRegister) != 0; } allowsMemoryConstraintInfo585 bool allowsMemory() const { return (Flags & CI_AllowsMemory) != 0; } 586 587 /// \brief Return true if this output operand has a matching 588 /// (tied) input operand. hasMatchingInputConstraintInfo589 bool hasMatchingInput() const { return (Flags & CI_HasMatchingInput) != 0; } 590 591 /// \brief Return true if this input operand is a matching 592 /// constraint that ties it to an output operand. 593 /// 594 /// If this returns true then getTiedOperand will indicate which output 595 /// operand this is tied to. hasTiedOperandConstraintInfo596 bool hasTiedOperand() const { return TiedOperand != -1; } getTiedOperandConstraintInfo597 unsigned getTiedOperand() const { 598 assert(hasTiedOperand() && "Has no tied operand!"); 599 return (unsigned)TiedOperand; 600 } 601 requiresImmediateConstantConstraintInfo602 bool requiresImmediateConstant() const { 603 return (Flags & CI_ImmediateConstant) != 0; 604 } isValidAsmImmediateConstraintInfo605 bool isValidAsmImmediate(const llvm::APInt &Value) const { 606 return (Value.sge(ImmRange.Min) && Value.sle(ImmRange.Max)) || 607 ImmSet.count(Value.getZExtValue()) != 0; 608 } 609 setIsReadWriteConstraintInfo610 void setIsReadWrite() { Flags |= CI_ReadWrite; } setEarlyClobberConstraintInfo611 void setEarlyClobber() { Flags |= CI_EarlyClobber; } setAllowsMemoryConstraintInfo612 void setAllowsMemory() { Flags |= CI_AllowsMemory; } setAllowsRegisterConstraintInfo613 void setAllowsRegister() { Flags |= CI_AllowsRegister; } setHasMatchingInputConstraintInfo614 void setHasMatchingInput() { Flags |= CI_HasMatchingInput; } setRequiresImmediateConstraintInfo615 void setRequiresImmediate(int Min, int Max) { 616 Flags |= CI_ImmediateConstant; 617 ImmRange.Min = Min; 618 ImmRange.Max = Max; 619 } setRequiresImmediateConstraintInfo620 void setRequiresImmediate(llvm::ArrayRef<int> Exacts) { 621 Flags |= CI_ImmediateConstant; 622 for (int Exact : Exacts) 623 ImmSet.insert(Exact); 624 } setRequiresImmediateConstraintInfo625 void setRequiresImmediate(int Exact) { 626 Flags |= CI_ImmediateConstant; 627 ImmSet.insert(Exact); 628 } setRequiresImmediateConstraintInfo629 void setRequiresImmediate() { 630 Flags |= CI_ImmediateConstant; 631 ImmRange.Min = INT_MIN; 632 ImmRange.Max = INT_MAX; 633 } 634 635 /// \brief Indicate that this is an input operand that is tied to 636 /// the specified output operand. 637 /// 638 /// Copy over the various constraint information from the output. setTiedOperandConstraintInfo639 void setTiedOperand(unsigned N, ConstraintInfo &Output) { 640 Output.setHasMatchingInput(); 641 Flags = Output.Flags; 642 TiedOperand = N; 643 // Don't copy Name or constraint string. 644 } 645 }; 646 647 /// \brief Validate register name used for global register variables. 648 /// 649 /// This function returns true if the register passed in RegName can be used 650 /// for global register variables on this target. In addition, it returns 651 /// true in HasSizeMismatch if the size of the register doesn't match the 652 /// variable size passed in RegSize. validateGlobalRegisterVariable(StringRef RegName,unsigned RegSize,bool & HasSizeMismatch)653 virtual bool validateGlobalRegisterVariable(StringRef RegName, 654 unsigned RegSize, 655 bool &HasSizeMismatch) const { 656 HasSizeMismatch = false; 657 return true; 658 } 659 660 // validateOutputConstraint, validateInputConstraint - Checks that 661 // a constraint is valid and provides information about it. 662 // FIXME: These should return a real error instead of just true/false. 663 bool validateOutputConstraint(ConstraintInfo &Info) const; 664 bool validateInputConstraint(MutableArrayRef<ConstraintInfo> OutputConstraints, 665 ConstraintInfo &info) const; 666 validateOutputSize(StringRef,unsigned)667 virtual bool validateOutputSize(StringRef /*Constraint*/, 668 unsigned /*Size*/) const { 669 return true; 670 } 671 validateInputSize(StringRef,unsigned)672 virtual bool validateInputSize(StringRef /*Constraint*/, 673 unsigned /*Size*/) const { 674 return true; 675 } 676 virtual bool validateConstraintModifier(StringRef,char,unsigned,std::string &)677 validateConstraintModifier(StringRef /*Constraint*/, 678 char /*Modifier*/, 679 unsigned /*Size*/, 680 std::string &/*SuggestedModifier*/) const { 681 return true; 682 } 683 virtual bool 684 validateAsmConstraint(const char *&Name, 685 TargetInfo::ConstraintInfo &info) const = 0; 686 687 bool resolveSymbolicName(const char *&Name, 688 ArrayRef<ConstraintInfo> OutputConstraints, 689 unsigned &Index) const; 690 691 // Constraint parm will be left pointing at the last character of 692 // the constraint. In practice, it won't be changed unless the 693 // constraint is longer than one character. convertConstraint(const char * & Constraint)694 virtual std::string convertConstraint(const char *&Constraint) const { 695 // 'p' defaults to 'r', but can be overridden by targets. 696 if (*Constraint == 'p') 697 return std::string("r"); 698 return std::string(1, *Constraint); 699 } 700 701 /// \brief Returns a string of target-specific clobbers, in LLVM format. 702 virtual const char *getClobbers() const = 0; 703 704 /// \brief Returns true if NaN encoding is IEEE 754-2008. 705 /// Only MIPS allows a different encoding. isNan2008()706 virtual bool isNan2008() const { 707 return true; 708 } 709 710 /// \brief Returns the target triple of the primary target. getTriple()711 const llvm::Triple &getTriple() const { 712 return Triple; 713 } 714 getDataLayoutString()715 const char *getDataLayoutString() const { 716 assert(DataLayoutString && "Uninitialized DataLayoutString!"); 717 return DataLayoutString; 718 } 719 720 struct GCCRegAlias { 721 const char * const Aliases[5]; 722 const char * const Register; 723 }; 724 725 struct AddlRegName { 726 const char * const Names[5]; 727 const unsigned RegNum; 728 }; 729 730 /// \brief Does this target support "protected" visibility? 731 /// 732 /// Any target which dynamic libraries will naturally support 733 /// something like "default" (meaning that the symbol is visible 734 /// outside this shared object) and "hidden" (meaning that it isn't) 735 /// visibilities, but "protected" is really an ELF-specific concept 736 /// with weird semantics designed around the convenience of dynamic 737 /// linker implementations. Which is not to suggest that there's 738 /// consistent target-independent semantics for "default" visibility 739 /// either; the entire thing is pretty badly mangled. hasProtectedVisibility()740 virtual bool hasProtectedVisibility() const { return true; } 741 742 /// \brief An optional hook that targets can implement to perform semantic 743 /// checking on attribute((section("foo"))) specifiers. 744 /// 745 /// In this case, "foo" is passed in to be checked. If the section 746 /// specifier is invalid, the backend should return a non-empty string 747 /// that indicates the problem. 748 /// 749 /// This hook is a simple quality of implementation feature to catch errors 750 /// and give good diagnostics in cases when the assembler or code generator 751 /// would otherwise reject the section specifier. 752 /// isValidSectionSpecifier(StringRef SR)753 virtual std::string isValidSectionSpecifier(StringRef SR) const { 754 return ""; 755 } 756 757 /// \brief Set forced language options. 758 /// 759 /// Apply changes to the target information with respect to certain 760 /// language options which change the target configuration. 761 virtual void adjust(const LangOptions &Opts); 762 763 /// \brief Initialize the map with the default set of target features for the 764 /// CPU this should include all legal feature strings on the target. 765 /// 766 /// \return False on error (invalid features). 767 virtual bool initFeatureMap(llvm::StringMap<bool> &Features, 768 DiagnosticsEngine &Diags, StringRef CPU, 769 const std::vector<std::string> &FeatureVec) const; 770 771 /// \brief Get the ABI currently in use. getABI()772 virtual StringRef getABI() const { return StringRef(); } 773 774 /// \brief Get the C++ ABI currently in use. getCXXABI()775 TargetCXXABI getCXXABI() const { 776 return TheCXXABI; 777 } 778 779 /// \brief Target the specified CPU. 780 /// 781 /// \return False on error (invalid CPU name). setCPU(const std::string & Name)782 virtual bool setCPU(const std::string &Name) { 783 return false; 784 } 785 786 /// \brief Use the specified ABI. 787 /// 788 /// \return False on error (invalid ABI name). setABI(const std::string & Name)789 virtual bool setABI(const std::string &Name) { 790 return false; 791 } 792 793 /// \brief Use the specified unit for FP math. 794 /// 795 /// \return False on error (invalid unit name). setFPMath(StringRef Name)796 virtual bool setFPMath(StringRef Name) { 797 return false; 798 } 799 800 /// \brief Enable or disable a specific target feature; 801 /// the feature name must be valid. setFeatureEnabled(llvm::StringMap<bool> & Features,StringRef Name,bool Enabled)802 virtual void setFeatureEnabled(llvm::StringMap<bool> &Features, 803 StringRef Name, 804 bool Enabled) const { 805 Features[Name] = Enabled; 806 } 807 808 /// \brief Perform initialization based on the user configured 809 /// set of features (e.g., +sse4). 810 /// 811 /// The list is guaranteed to have at most one entry per feature. 812 /// 813 /// The target may modify the features list, to change which options are 814 /// passed onwards to the backend. 815 /// FIXME: This part should be fixed so that we can change handleTargetFeatures 816 /// to merely a TargetInfo initialization routine. 817 /// 818 /// \return False on error. handleTargetFeatures(std::vector<std::string> & Features,DiagnosticsEngine & Diags)819 virtual bool handleTargetFeatures(std::vector<std::string> &Features, 820 DiagnosticsEngine &Diags) { 821 return true; 822 } 823 824 /// \brief Determine whether the given target has the given feature. hasFeature(StringRef Feature)825 virtual bool hasFeature(StringRef Feature) const { 826 return false; 827 } 828 829 // \brief Validate the contents of the __builtin_cpu_supports(const char*) 830 // argument. validateCpuSupports(StringRef Name)831 virtual bool validateCpuSupports(StringRef Name) const { return false; } 832 833 // \brief Returns maximal number of args passed in registers. getRegParmMax()834 unsigned getRegParmMax() const { 835 assert(RegParmMax < 7 && "RegParmMax value is larger than AST can handle"); 836 return RegParmMax; 837 } 838 839 /// \brief Whether the target supports thread-local storage. isTLSSupported()840 bool isTLSSupported() const { 841 return TLSSupported; 842 } 843 844 /// \brief Return the maximum alignment (in bits) of a TLS variable 845 /// 846 /// Gets the maximum alignment (in bits) of a TLS variable on this target. 847 /// Returns zero if there is no such constraint. getMaxTLSAlign()848 unsigned short getMaxTLSAlign() const { 849 return MaxTLSAlign; 850 } 851 852 /// \brief Whether the target supports SEH __try. isSEHTrySupported()853 bool isSEHTrySupported() const { 854 return getTriple().isOSWindows() && 855 (getTriple().getArch() == llvm::Triple::x86 || 856 getTriple().getArch() == llvm::Triple::x86_64); 857 } 858 859 /// \brief Return true if {|} are normal characters in the asm string. 860 /// 861 /// If this returns false (the default), then {abc|xyz} is syntax 862 /// that says that when compiling for asm variant #0, "abc" should be 863 /// generated, but when compiling for asm variant #1, "xyz" should be 864 /// generated. hasNoAsmVariants()865 bool hasNoAsmVariants() const { 866 return NoAsmVariants; 867 } 868 869 /// \brief Return the register number that __builtin_eh_return_regno would 870 /// return with the specified argument. getEHDataRegisterNumber(unsigned RegNo)871 virtual int getEHDataRegisterNumber(unsigned RegNo) const { 872 return -1; 873 } 874 875 /// \brief Return the section to use for C++ static initialization functions. getStaticInitSectionSpecifier()876 virtual const char *getStaticInitSectionSpecifier() const { 877 return nullptr; 878 } 879 getAddressSpaceMap()880 const LangAS::Map &getAddressSpaceMap() const { 881 return *AddrSpaceMap; 882 } 883 884 /// \brief Retrieve the name of the platform as it is used in the 885 /// availability attribute. getPlatformName()886 StringRef getPlatformName() const { return PlatformName; } 887 888 /// \brief Retrieve the minimum desired version of the platform, to 889 /// which the program should be compiled. getPlatformMinVersion()890 VersionTuple getPlatformMinVersion() const { return PlatformMinVersion; } 891 isBigEndian()892 bool isBigEndian() const { return BigEndian; } 893 894 enum CallingConvMethodType { 895 CCMT_Unknown, 896 CCMT_Member, 897 CCMT_NonMember 898 }; 899 900 /// \brief Gets the default calling convention for the given target and 901 /// declaration context. getDefaultCallingConv(CallingConvMethodType MT)902 virtual CallingConv getDefaultCallingConv(CallingConvMethodType MT) const { 903 // Not all targets will specify an explicit calling convention that we can 904 // express. This will always do the right thing, even though it's not 905 // an explicit calling convention. 906 return CC_C; 907 } 908 909 enum CallingConvCheckResult { 910 CCCR_OK, 911 CCCR_Warning, 912 CCCR_Ignore, 913 }; 914 915 /// \brief Determines whether a given calling convention is valid for the 916 /// target. A calling convention can either be accepted, produce a warning 917 /// and be substituted with the default calling convention, or (someday) 918 /// produce an error (such as using thiscall on a non-instance function). checkCallingConvention(CallingConv CC)919 virtual CallingConvCheckResult checkCallingConvention(CallingConv CC) const { 920 switch (CC) { 921 default: 922 return CCCR_Warning; 923 case CC_C: 924 return CCCR_OK; 925 } 926 } 927 928 /// Controls if __builtin_longjmp / __builtin_setjmp can be lowered to 929 /// llvm.eh.sjlj.longjmp / llvm.eh.sjlj.setjmp. hasSjLjLowering()930 virtual bool hasSjLjLowering() const { 931 return false; 932 } 933 934 protected: getPointerWidthV(unsigned AddrSpace)935 virtual uint64_t getPointerWidthV(unsigned AddrSpace) const { 936 return PointerWidth; 937 } getPointerAlignV(unsigned AddrSpace)938 virtual uint64_t getPointerAlignV(unsigned AddrSpace) const { 939 return PointerAlign; 940 } getPtrDiffTypeV(unsigned AddrSpace)941 virtual enum IntType getPtrDiffTypeV(unsigned AddrSpace) const { 942 return PtrDiffType; 943 } 944 virtual ArrayRef<const char *> getGCCRegNames() const = 0; 945 virtual ArrayRef<GCCRegAlias> getGCCRegAliases() const = 0; getGCCAddlRegNames()946 virtual ArrayRef<AddlRegName> getGCCAddlRegNames() const { 947 return None; 948 } 949 }; 950 951 } // end namespace clang 952 953 #endif 954