71d29acecd
Summary: D11924 implemented part of the floating-point comparisons, this patch implements the rest: * Tell ISelLowering that all booleans are either 0 or 1. * Expand the eq/ne/lt/le/gt/ge floating-point comparisons to the canonical ones (similar to what Mips32r6InstrInfo.td does). * Add tests for ord/uno. * Add tests for ueq/one/ult/ule/ugt/uge. * Fix existing comparison tests to remove the (res & 1) code, which setBooleanContents stops from generating. Reviewers: sunfish Subscribers: llvm-commits, jfb Differential Revision: http://reviews.llvm.org/D11970 llvm-svn: 244779
60 lines
2.2 KiB
TableGen
60 lines
2.2 KiB
TableGen
// WebAssemblyInstrFloat.td-WebAssembly Float codegen support ---*- tablegen -*-
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file
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/// \brief WebAssembly Floating-point operand code-gen constructs.
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///
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//===----------------------------------------------------------------------===//
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defm FADD : BinaryFP<fadd>;
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defm FSUB : BinaryFP<fsub>;
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defm FMUL : BinaryFP<fmul>;
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defm FDIV : BinaryFP<fdiv>;
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defm FABS : UnaryFP<fabs>;
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defm FNEG : UnaryFP<fneg>;
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defm COPYSIGN : BinaryFP<fcopysign>;
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/*
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* TODO(jfb): add and test these:
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* defm CEIL : UnaryFP<fceil>;
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* defm FLOOR : UnaryFP<ffloor>;
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* defm TRUNC : UnaryFP<ftrunc>;
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* defm NEARESTINT : UnaryFP<fnearbyint>;
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*/
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defm EQ : ComparisonFP<SETOEQ>;
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defm NE : ComparisonFP<SETUNE>;
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defm LT : ComparisonFP<SETOLT>;
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defm LE : ComparisonFP<SETOLE>;
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defm GT : ComparisonFP<SETOGT>;
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defm GE : ComparisonFP<SETOGE>;
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// Don't care floating-point comparisons, supported via other comparisons.
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def : Pat<(seteq f32:$lhs, f32:$rhs), (EQ_F32 f32:$lhs, f32:$rhs)>;
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def : Pat<(setne f32:$lhs, f32:$rhs), (NE_F32 f32:$lhs, f32:$rhs)>;
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def : Pat<(setlt f32:$lhs, f32:$rhs), (LT_F32 f32:$lhs, f32:$rhs)>;
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def : Pat<(setle f32:$lhs, f32:$rhs), (LE_F32 f32:$lhs, f32:$rhs)>;
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def : Pat<(setgt f32:$lhs, f32:$rhs), (GT_F32 f32:$lhs, f32:$rhs)>;
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def : Pat<(setge f32:$lhs, f32:$rhs), (GE_F32 f32:$lhs, f32:$rhs)>;
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def : Pat<(seteq f64:$lhs, f64:$rhs), (EQ_F64 f64:$lhs, f64:$rhs)>;
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def : Pat<(setne f64:$lhs, f64:$rhs), (NE_F64 f64:$lhs, f64:$rhs)>;
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def : Pat<(setlt f64:$lhs, f64:$rhs), (LT_F64 f64:$lhs, f64:$rhs)>;
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def : Pat<(setle f64:$lhs, f64:$rhs), (LE_F64 f64:$lhs, f64:$rhs)>;
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def : Pat<(setgt f64:$lhs, f64:$rhs), (GT_F64 f64:$lhs, f64:$rhs)>;
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def : Pat<(setge f64:$lhs, f64:$rhs), (GE_F64 f64:$lhs, f64:$rhs)>;
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defm SQRT : UnaryFP<fsqrt>;
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/*
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* TODO(jfb): Add the following for 32-bit and 64-bit.
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*
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* float32.min: minimum (binary operator); if either operand is NaN, returns NaN
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* float32.max: maximum (binary operator); if either operand is NaN, returns NaN
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*/
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