//===-- X86.h - Top-level interface for X86 representation ------*- C++ -*-===// // // 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 // //===----------------------------------------------------------------------===// // // This file contains the entry points for global functions defined in the x86 // target library, as used by the LLVM JIT. // //===----------------------------------------------------------------------===// #ifndef LLVM_LIB_TARGET_X86_X86_H #define LLVM_LIB_TARGET_X86_X86_H #include "llvm/Support/CodeGen.h" namespace llvm { class FunctionPass; class InstructionSelector; class PassRegistry; class X86RegisterBankInfo; class X86Subtarget; class X86TargetMachine; /// This pass converts a legalized DAG into a X86-specific DAG, ready for /// instruction scheduling. FunctionPass *createX86ISelDag(X86TargetMachine &TM, CodeGenOpt::Level OptLevel); /// This pass initializes a global base register for PIC on x86-32. FunctionPass *createX86GlobalBaseRegPass(); /// This pass combines multiple accesses to local-dynamic TLS variables so that /// the TLS base address for the module is only fetched once per execution path /// through the function. FunctionPass *createCleanupLocalDynamicTLSPass(); /// This function returns a pass which converts floating-point register /// references and pseudo instructions into floating-point stack references and /// physical instructions. FunctionPass *createX86FloatingPointStackifierPass(); /// This pass inserts AVX vzeroupper instructions before each call to avoid /// transition penalty between functions encoded with AVX and SSE. FunctionPass *createX86IssueVZeroUpperPass(); /// This pass inserts ENDBR instructions before indirect jump/call /// destinations as part of CET IBT mechanism. FunctionPass *createX86IndirectBranchTrackingPass(); /// Return a pass that pads short functions with NOOPs. /// This will prevent a stall when returning on the Atom. FunctionPass *createX86PadShortFunctions(); /// Return a pass that selectively replaces certain instructions (like add, /// sub, inc, dec, some shifts, and some multiplies) by equivalent LEA /// instructions, in order to eliminate execution delays in some processors. FunctionPass *createX86FixupLEAs(); /// Return a pass that removes redundant LEA instructions and redundant address /// recalculations. FunctionPass *createX86OptimizeLEAs(); /// Return a pass that transforms setcc + movzx pairs into xor + setcc. FunctionPass *createX86FixupSetCC(); /// Return a pass that avoids creating store forward block issues in the hardware. FunctionPass *createX86AvoidStoreForwardingBlocks(); /// Return a pass that lowers EFLAGS copy pseudo instructions. FunctionPass *createX86FlagsCopyLoweringPass(); /// Return a pass that expands WinAlloca pseudo-instructions. FunctionPass *createX86WinAllocaExpander(); /// Return a pass that config the tile registers. FunctionPass *createX86TileConfigPass(); /// Return a pass that config the tile registers after fast reg allocation. FunctionPass *createX86FastTileConfigPass(); /// Return a pass that insert pseudo tile config instruction. FunctionPass *createX86PreTileConfigPass(); /// Return a pass that lower the tile copy instruction. FunctionPass *createX86LowerTileCopyPass(); /// Return a pass that inserts int3 at the end of the function if it ends with a /// CALL instruction. The pass does the same for each funclet as well. This /// ensures that the open interval of function start and end PCs contains all /// return addresses for the benefit of the Windows x64 unwinder. FunctionPass *createX86AvoidTrailingCallPass(); /// Return a pass that optimizes the code-size of x86 call sequences. This is /// done by replacing esp-relative movs with pushes. FunctionPass *createX86CallFrameOptimization(); /// Return an IR pass that inserts EH registration stack objects and explicit /// EH state updates. This pass must run after EH preparation, which does /// Windows-specific but architecture-neutral preparation. FunctionPass *createX86WinEHStatePass(); /// Return a Machine IR pass that expands X86-specific pseudo /// instructions into a sequence of actual instructions. This pass /// must run after prologue/epilogue insertion and before lowering /// the MachineInstr to MC. FunctionPass *createX86ExpandPseudoPass(); /// This pass converts X86 cmov instructions into branch when profitable. FunctionPass *createX86CmovConverterPass(); /// Return a Machine IR pass that selectively replaces /// certain byte and word instructions by equivalent 32 bit instructions, /// in order to eliminate partial register usage, false dependences on /// the upper portions of registers, and to save code size. FunctionPass *createX86FixupBWInsts(); /// Return a Machine IR pass that reassigns instruction chains from one domain /// to another, when profitable. FunctionPass *createX86DomainReassignmentPass(); /// This pass replaces EVEX encoded of AVX-512 instructiosn by VEX /// encoding when possible in order to reduce code size. FunctionPass *createX86EvexToVexInsts(); /// This pass creates the thunks for the retpoline feature. FunctionPass *createX86IndirectThunksPass(); /// This pass ensures instructions featuring a memory operand /// have distinctive (with respect to eachother) FunctionPass *createX86DiscriminateMemOpsPass(); /// This pass applies profiling information to insert cache prefetches. FunctionPass *createX86InsertPrefetchPass(); /// This pass insert wait instruction after X87 instructions which could raise /// fp exceptions when strict-fp enabled. FunctionPass *createX86InsertX87waitPass(); /// This pass optimizes arithmetic based on knowledge that is only used by /// a reduction sequence and is therefore safe to reassociate in interesting /// ways. FunctionPass *createX86PartialReductionPass(); InstructionSelector *createX86InstructionSelector(const X86TargetMachine &TM, X86Subtarget &, X86RegisterBankInfo &); FunctionPass *createX86LoadValueInjectionLoadHardeningPass(); FunctionPass *createX86LoadValueInjectionRetHardeningPass(); FunctionPass *createX86SpeculativeLoadHardeningPass(); FunctionPass *createX86SpeculativeExecutionSideEffectSuppression(); void initializeEvexToVexInstPassPass(PassRegistry &); void initializeFixupBWInstPassPass(PassRegistry &); void initializeFixupLEAPassPass(PassRegistry &); void initializeFPSPass(PassRegistry &); void initializeWinEHStatePassPass(PassRegistry &); void initializeX86AvoidSFBPassPass(PassRegistry &); void initializeX86AvoidTrailingCallPassPass(PassRegistry &); void initializeX86CallFrameOptimizationPass(PassRegistry &); void initializeX86CmovConverterPassPass(PassRegistry &); void initializeX86DomainReassignmentPass(PassRegistry &); void initializeX86ExecutionDomainFixPass(PassRegistry &); void initializeX86ExpandPseudoPass(PassRegistry &); void initializeX86FixupSetCCPassPass(PassRegistry &); void initializeX86FlagsCopyLoweringPassPass(PassRegistry &); void initializeX86LoadValueInjectionLoadHardeningPassPass(PassRegistry &); void initializeX86LoadValueInjectionRetHardeningPassPass(PassRegistry &); void initializeX86OptimizeLEAPassPass(PassRegistry &); void initializeX86PartialReductionPass(PassRegistry &); void initializeX86SpeculativeLoadHardeningPassPass(PassRegistry &); void initializeX86SpeculativeExecutionSideEffectSuppressionPass(PassRegistry &); void initializeX86PreTileConfigPass(PassRegistry &); void initializeX86FastTileConfigPass(PassRegistry &); void initializeX86TileConfigPass(PassRegistry &); void initializeX86LowerAMXTypeLegacyPassPass(PassRegistry &); void initializeX86PreAMXConfigPassPass(PassRegistry &); void initializeX86LowerTileCopyPass(PassRegistry &); void initializeX86LowerAMXIntrinsicsLegacyPassPass(PassRegistry &); namespace X86AS { enum : unsigned { GS = 256, FS = 257, SS = 258, PTR32_SPTR = 270, PTR32_UPTR = 271, PTR64 = 272 }; } // End X86AS namespace } // End llvm namespace #endif