#pragma once #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #endif //===-- llvm/FMF.h - Fast math flags subclass -------------------*- 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 defines the fast math flags. // //===----------------------------------------------------------------------===// #ifndef LLVM_IR_FMF_H #define LLVM_IR_FMF_H #include "llvm/Support/raw_ostream.h" namespace llvm { /// Convenience struct for specifying and reasoning about fast-math flags. class FastMathFlags { private: friend class FPMathOperator; unsigned Flags = 0; FastMathFlags(unsigned F) { // If all 7 bits are set, turn this into -1. If the number of bits grows, // this must be updated. This is intended to provide some forward binary // compatibility insurance for the meaning of 'fast' in case bits are added. if (F == 0x7F) Flags = ~0U; else Flags = F; } public: // This is how the bits are used in Value::SubclassOptionalData so they // should fit there too. // WARNING: We're out of space. SubclassOptionalData only has 7 bits. New // functionality will require a change in how this information is stored. enum { AllowReassoc = (1 << 0), NoNaNs = (1 << 1), NoInfs = (1 << 2), NoSignedZeros = (1 << 3), AllowReciprocal = (1 << 4), AllowContract = (1 << 5), ApproxFunc = (1 << 6) }; FastMathFlags() = default; static FastMathFlags getFast() { FastMathFlags FMF; FMF.setFast(); return FMF; } bool any() const { return Flags != 0; } bool none() const { return Flags == 0; } bool all() const { return Flags == ~0U; } void clear() { Flags = 0; } void set() { Flags = ~0U; } /// Flag queries bool allowReassoc() const { return 0 != (Flags & AllowReassoc); } bool noNaNs() const { return 0 != (Flags & NoNaNs); } bool noInfs() const { return 0 != (Flags & NoInfs); } bool noSignedZeros() const { return 0 != (Flags & NoSignedZeros); } bool allowReciprocal() const { return 0 != (Flags & AllowReciprocal); } bool allowContract() const { return 0 != (Flags & AllowContract); } bool approxFunc() const { return 0 != (Flags & ApproxFunc); } /// 'Fast' means all bits are set. bool isFast() const { return all(); } /// Flag setters void setAllowReassoc(bool B = true) { Flags = (Flags & ~AllowReassoc) | B * AllowReassoc; } void setNoNaNs(bool B = true) { Flags = (Flags & ~NoNaNs) | B * NoNaNs; } void setNoInfs(bool B = true) { Flags = (Flags & ~NoInfs) | B * NoInfs; } void setNoSignedZeros(bool B = true) { Flags = (Flags & ~NoSignedZeros) | B * NoSignedZeros; } void setAllowReciprocal(bool B = true) { Flags = (Flags & ~AllowReciprocal) | B * AllowReciprocal; } void setAllowContract(bool B = true) { Flags = (Flags & ~AllowContract) | B * AllowContract; } void setApproxFunc(bool B = true) { Flags = (Flags & ~ApproxFunc) | B * ApproxFunc; } void setFast(bool B = true) { B ? set() : clear(); } void operator&=(const FastMathFlags &OtherFlags) { Flags &= OtherFlags.Flags; } void operator|=(const FastMathFlags &OtherFlags) { Flags |= OtherFlags.Flags; } bool operator!=(const FastMathFlags &OtherFlags) const { return Flags != OtherFlags.Flags; } /// Print fast-math flags to \p O. void print(raw_ostream &O) const; }; inline raw_ostream &operator<<(raw_ostream &O, FastMathFlags FMF) { FMF.print(O); return O; } } // end namespace llvm #endif // LLVM_IR_FMF_H #ifdef __GNUC__ #pragma GCC diagnostic pop #endif