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6d5e369a10
to load/store i64 values. Since there's no current support to explicitly declare such restrictions, implement it by using specific hardcoded register pairs during isel. llvm-svn: 132248
443 lines
20 KiB
TableGen
443 lines
20 KiB
TableGen
//===- IntrinsicsARM.td - Defines ARM intrinsics -----------*- 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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// This file defines all of the ARM-specific intrinsics.
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//
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//===----------------------------------------------------------------------===//
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//===----------------------------------------------------------------------===//
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// TLS
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let TargetPrefix = "arm" in { // All intrinsics start with "llvm.arm.".
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def int_arm_thread_pointer : GCCBuiltin<"__builtin_thread_pointer">,
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Intrinsic<[llvm_ptr_ty], [], [IntrNoMem]>;
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}
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//===----------------------------------------------------------------------===//
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// Saturating Arithmentic
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let TargetPrefix = "arm" in { // All intrinsics start with "llvm.arm.".
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def int_arm_qadd : GCCBuiltin<"__builtin_arm_qadd">,
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Intrinsic<[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty],
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[IntrNoMem, Commutative]>;
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def int_arm_qsub : GCCBuiltin<"__builtin_arm_qsub">,
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Intrinsic<[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty], [IntrNoMem]>;
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def int_arm_ssat : GCCBuiltin<"__builtin_arm_ssat">,
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Intrinsic<[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty], [IntrNoMem]>;
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def int_arm_usat : GCCBuiltin<"__builtin_arm_usat">,
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Intrinsic<[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty], [IntrNoMem]>;
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}
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//===----------------------------------------------------------------------===//
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// Load and Store exclusive doubleword
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let TargetPrefix = "arm" in { // All intrinsics start with "llvm.arm.".
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def int_arm_strexd : Intrinsic<[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty,
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llvm_ptr_ty], [IntrReadWriteArgMem]>;
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def int_arm_ldrexd : Intrinsic<[llvm_i32_ty, llvm_i32_ty], [llvm_ptr_ty],
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[IntrReadArgMem]>;
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}
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//===----------------------------------------------------------------------===//
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// VFP
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let TargetPrefix = "arm" in { // All intrinsics start with "llvm.arm.".
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def int_arm_get_fpscr : GCCBuiltin<"__builtin_arm_get_fpscr">,
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Intrinsic<[llvm_i32_ty], [], [IntrNoMem]>;
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def int_arm_set_fpscr : GCCBuiltin<"__builtin_arm_set_fpscr">,
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Intrinsic<[], [llvm_i32_ty], []>;
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def int_arm_vcvtr : Intrinsic<[llvm_float_ty], [llvm_anyfloat_ty],
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[IntrNoMem]>;
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def int_arm_vcvtru : Intrinsic<[llvm_float_ty], [llvm_anyfloat_ty],
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[IntrNoMem]>;
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}
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//===----------------------------------------------------------------------===//
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// Coprocessor
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let TargetPrefix = "arm" in { // All intrinsics start with "llvm.arm.".
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// Move to coprocessor
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def int_arm_mcr : GCCBuiltin<"__builtin_arm_mcr">,
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Intrinsic<[], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty,
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llvm_i32_ty, llvm_i32_ty, llvm_i32_ty], []>;
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def int_arm_mcr2 : GCCBuiltin<"__builtin_arm_mcr2">,
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Intrinsic<[], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty,
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llvm_i32_ty, llvm_i32_ty, llvm_i32_ty], []>;
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// Move from coprocessor
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def int_arm_mrc : GCCBuiltin<"__builtin_arm_mrc">,
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Intrinsic<[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty,
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llvm_i32_ty, llvm_i32_ty], []>;
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def int_arm_mrc2 : GCCBuiltin<"__builtin_arm_mrc2">,
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Intrinsic<[llvm_i32_ty], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty,
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llvm_i32_ty, llvm_i32_ty], []>;
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// Coprocessor data processing
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def int_arm_cdp : GCCBuiltin<"__builtin_arm_cdp">,
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Intrinsic<[], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty,
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llvm_i32_ty, llvm_i32_ty, llvm_i32_ty], []>;
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def int_arm_cdp2 : GCCBuiltin<"__builtin_arm_cdp2">,
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Intrinsic<[], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty,
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llvm_i32_ty, llvm_i32_ty, llvm_i32_ty], []>;
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// Move from two registers to coprocessor
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def int_arm_mcrr : GCCBuiltin<"__builtin_arm_mcrr">,
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Intrinsic<[], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty,
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llvm_i32_ty, llvm_i32_ty], []>;
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def int_arm_mcrr2 : GCCBuiltin<"__builtin_arm_mcrr2">,
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Intrinsic<[], [llvm_i32_ty, llvm_i32_ty, llvm_i32_ty,
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llvm_i32_ty, llvm_i32_ty], []>;
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}
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//===----------------------------------------------------------------------===//
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// Advanced SIMD (NEON)
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let TargetPrefix = "arm" in { // All intrinsics start with "llvm.arm.".
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// The following classes do not correspond directly to GCC builtins.
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class Neon_1Arg_Intrinsic
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: Intrinsic<[llvm_anyvector_ty], [LLVMMatchType<0>], [IntrNoMem]>;
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class Neon_1Arg_Narrow_Intrinsic
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: Intrinsic<[llvm_anyvector_ty],
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[LLVMExtendedElementVectorType<0>], [IntrNoMem]>;
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class Neon_2Arg_Intrinsic
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: Intrinsic<[llvm_anyvector_ty], [LLVMMatchType<0>, LLVMMatchType<0>],
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[IntrNoMem]>;
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class Neon_2Arg_Narrow_Intrinsic
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: Intrinsic<[llvm_anyvector_ty],
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[LLVMExtendedElementVectorType<0>,
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LLVMExtendedElementVectorType<0>],
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[IntrNoMem]>;
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class Neon_2Arg_Long_Intrinsic
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: Intrinsic<[llvm_anyvector_ty],
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[LLVMTruncatedElementVectorType<0>,
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LLVMTruncatedElementVectorType<0>],
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[IntrNoMem]>;
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class Neon_3Arg_Intrinsic
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: Intrinsic<[llvm_anyvector_ty],
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[LLVMMatchType<0>, LLVMMatchType<0>, LLVMMatchType<0>],
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[IntrNoMem]>;
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class Neon_3Arg_Long_Intrinsic
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: Intrinsic<[llvm_anyvector_ty],
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[LLVMMatchType<0>,
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LLVMTruncatedElementVectorType<0>,
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LLVMTruncatedElementVectorType<0>],
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[IntrNoMem]>;
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class Neon_CvtFxToFP_Intrinsic
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: Intrinsic<[llvm_anyfloat_ty], [llvm_anyint_ty, llvm_i32_ty], [IntrNoMem]>;
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class Neon_CvtFPToFx_Intrinsic
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: Intrinsic<[llvm_anyint_ty], [llvm_anyfloat_ty, llvm_i32_ty], [IntrNoMem]>;
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// The table operands for VTBL and VTBX consist of 1 to 4 v8i8 vectors.
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// Besides the table, VTBL has one other v8i8 argument and VTBX has two.
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// Overall, the classes range from 2 to 6 v8i8 arguments.
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class Neon_Tbl2Arg_Intrinsic
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: Intrinsic<[llvm_v8i8_ty],
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[llvm_v8i8_ty, llvm_v8i8_ty], [IntrNoMem]>;
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class Neon_Tbl3Arg_Intrinsic
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: Intrinsic<[llvm_v8i8_ty],
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[llvm_v8i8_ty, llvm_v8i8_ty, llvm_v8i8_ty], [IntrNoMem]>;
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class Neon_Tbl4Arg_Intrinsic
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: Intrinsic<[llvm_v8i8_ty],
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[llvm_v8i8_ty, llvm_v8i8_ty, llvm_v8i8_ty, llvm_v8i8_ty],
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[IntrNoMem]>;
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class Neon_Tbl5Arg_Intrinsic
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: Intrinsic<[llvm_v8i8_ty],
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[llvm_v8i8_ty, llvm_v8i8_ty, llvm_v8i8_ty, llvm_v8i8_ty,
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llvm_v8i8_ty], [IntrNoMem]>;
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class Neon_Tbl6Arg_Intrinsic
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: Intrinsic<[llvm_v8i8_ty],
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[llvm_v8i8_ty, llvm_v8i8_ty, llvm_v8i8_ty, llvm_v8i8_ty,
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llvm_v8i8_ty, llvm_v8i8_ty], [IntrNoMem]>;
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}
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// Arithmetic ops
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let Properties = [IntrNoMem, Commutative] in {
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// Vector Add.
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def int_arm_neon_vhadds : Neon_2Arg_Intrinsic;
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def int_arm_neon_vhaddu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vrhadds : Neon_2Arg_Intrinsic;
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def int_arm_neon_vrhaddu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqadds : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqaddu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vaddhn : Neon_2Arg_Narrow_Intrinsic;
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def int_arm_neon_vraddhn : Neon_2Arg_Narrow_Intrinsic;
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// Vector Multiply.
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def int_arm_neon_vmulp : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqdmulh : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqrdmulh : Neon_2Arg_Intrinsic;
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def int_arm_neon_vmulls : Neon_2Arg_Long_Intrinsic;
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def int_arm_neon_vmullu : Neon_2Arg_Long_Intrinsic;
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def int_arm_neon_vmullp : Neon_2Arg_Long_Intrinsic;
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def int_arm_neon_vqdmull : Neon_2Arg_Long_Intrinsic;
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// Vector Multiply and Accumulate/Subtract.
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def int_arm_neon_vqdmlal : Neon_3Arg_Long_Intrinsic;
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def int_arm_neon_vqdmlsl : Neon_3Arg_Long_Intrinsic;
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// Vector Maximum.
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def int_arm_neon_vmaxs : Neon_2Arg_Intrinsic;
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def int_arm_neon_vmaxu : Neon_2Arg_Intrinsic;
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// Vector Minimum.
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def int_arm_neon_vmins : Neon_2Arg_Intrinsic;
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def int_arm_neon_vminu : Neon_2Arg_Intrinsic;
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// Vector Reciprocal Step.
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def int_arm_neon_vrecps : Neon_2Arg_Intrinsic;
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// Vector Reciprocal Square Root Step.
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def int_arm_neon_vrsqrts : Neon_2Arg_Intrinsic;
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}
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// Vector Subtract.
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def int_arm_neon_vhsubs : Neon_2Arg_Intrinsic;
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def int_arm_neon_vhsubu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqsubs : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqsubu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vsubhn : Neon_2Arg_Narrow_Intrinsic;
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def int_arm_neon_vrsubhn : Neon_2Arg_Narrow_Intrinsic;
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// Vector Absolute Compare.
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let TargetPrefix = "arm" in {
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def int_arm_neon_vacged : Intrinsic<[llvm_v2i32_ty],
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[llvm_v2f32_ty, llvm_v2f32_ty],
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[IntrNoMem]>;
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def int_arm_neon_vacgeq : Intrinsic<[llvm_v4i32_ty],
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[llvm_v4f32_ty, llvm_v4f32_ty],
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[IntrNoMem]>;
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def int_arm_neon_vacgtd : Intrinsic<[llvm_v2i32_ty],
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[llvm_v2f32_ty, llvm_v2f32_ty],
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[IntrNoMem]>;
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def int_arm_neon_vacgtq : Intrinsic<[llvm_v4i32_ty],
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[llvm_v4f32_ty, llvm_v4f32_ty],
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[IntrNoMem]>;
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}
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// Vector Absolute Differences.
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def int_arm_neon_vabds : Neon_2Arg_Intrinsic;
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def int_arm_neon_vabdu : Neon_2Arg_Intrinsic;
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// Vector Pairwise Add.
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def int_arm_neon_vpadd : Neon_2Arg_Intrinsic;
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// Vector Pairwise Add Long.
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// Note: This is different than the other "long" NEON intrinsics because
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// the result vector has half as many elements as the source vector.
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// The source and destination vector types must be specified separately.
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let TargetPrefix = "arm" in {
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def int_arm_neon_vpaddls : Intrinsic<[llvm_anyvector_ty], [llvm_anyvector_ty],
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[IntrNoMem]>;
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def int_arm_neon_vpaddlu : Intrinsic<[llvm_anyvector_ty], [llvm_anyvector_ty],
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[IntrNoMem]>;
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}
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// Vector Pairwise Add and Accumulate Long.
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// Note: This is similar to vpaddl but the destination vector also appears
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// as the first argument.
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let TargetPrefix = "arm" in {
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def int_arm_neon_vpadals : Intrinsic<[llvm_anyvector_ty],
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[LLVMMatchType<0>, llvm_anyvector_ty],
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[IntrNoMem]>;
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def int_arm_neon_vpadalu : Intrinsic<[llvm_anyvector_ty],
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[LLVMMatchType<0>, llvm_anyvector_ty],
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[IntrNoMem]>;
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}
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// Vector Pairwise Maximum and Minimum.
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def int_arm_neon_vpmaxs : Neon_2Arg_Intrinsic;
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def int_arm_neon_vpmaxu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vpmins : Neon_2Arg_Intrinsic;
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def int_arm_neon_vpminu : Neon_2Arg_Intrinsic;
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// Vector Shifts:
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//
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// The various saturating and rounding vector shift operations need to be
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// represented by intrinsics in LLVM, and even the basic VSHL variable shift
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// operation cannot be safely translated to LLVM's shift operators. VSHL can
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// be used for both left and right shifts, or even combinations of the two,
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// depending on the signs of the shift amounts. It also has well-defined
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// behavior for shift amounts that LLVM leaves undefined. Only basic shifts
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// by constants can be represented with LLVM's shift operators.
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//
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// The shift counts for these intrinsics are always vectors, even for constant
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// shifts, where the constant is replicated. For consistency with VSHL (and
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// other variable shift instructions), left shifts have positive shift counts
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// and right shifts have negative shift counts. This convention is also used
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// for constant right shift intrinsics, and to help preserve sanity, the
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// intrinsic names use "shift" instead of either "shl" or "shr". Where
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// applicable, signed and unsigned versions of the intrinsics are
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// distinguished with "s" and "u" suffixes. A few NEON shift instructions,
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// such as VQSHLU, take signed operands but produce unsigned results; these
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// use a "su" suffix.
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// Vector Shift.
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def int_arm_neon_vshifts : Neon_2Arg_Intrinsic;
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def int_arm_neon_vshiftu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vshiftls : Neon_2Arg_Long_Intrinsic;
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def int_arm_neon_vshiftlu : Neon_2Arg_Long_Intrinsic;
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def int_arm_neon_vshiftn : Neon_2Arg_Narrow_Intrinsic;
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// Vector Rounding Shift.
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def int_arm_neon_vrshifts : Neon_2Arg_Intrinsic;
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def int_arm_neon_vrshiftu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vrshiftn : Neon_2Arg_Narrow_Intrinsic;
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// Vector Saturating Shift.
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def int_arm_neon_vqshifts : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqshiftu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqshiftsu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqshiftns : Neon_2Arg_Narrow_Intrinsic;
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def int_arm_neon_vqshiftnu : Neon_2Arg_Narrow_Intrinsic;
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def int_arm_neon_vqshiftnsu : Neon_2Arg_Narrow_Intrinsic;
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// Vector Saturating Rounding Shift.
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def int_arm_neon_vqrshifts : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqrshiftu : Neon_2Arg_Intrinsic;
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def int_arm_neon_vqrshiftns : Neon_2Arg_Narrow_Intrinsic;
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def int_arm_neon_vqrshiftnu : Neon_2Arg_Narrow_Intrinsic;
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def int_arm_neon_vqrshiftnsu : Neon_2Arg_Narrow_Intrinsic;
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// Vector Shift and Insert.
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def int_arm_neon_vshiftins : Neon_3Arg_Intrinsic;
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// Vector Absolute Value and Saturating Absolute Value.
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def int_arm_neon_vabs : Neon_1Arg_Intrinsic;
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def int_arm_neon_vqabs : Neon_1Arg_Intrinsic;
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// Vector Saturating Negate.
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def int_arm_neon_vqneg : Neon_1Arg_Intrinsic;
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// Vector Count Leading Sign/Zero Bits.
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def int_arm_neon_vcls : Neon_1Arg_Intrinsic;
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def int_arm_neon_vclz : Neon_1Arg_Intrinsic;
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// Vector Count One Bits.
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def int_arm_neon_vcnt : Neon_1Arg_Intrinsic;
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// Vector Reciprocal Estimate.
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def int_arm_neon_vrecpe : Neon_1Arg_Intrinsic;
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// Vector Reciprocal Square Root Estimate.
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def int_arm_neon_vrsqrte : Neon_1Arg_Intrinsic;
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// Vector Conversions Between Floating-point and Fixed-point.
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def int_arm_neon_vcvtfp2fxs : Neon_CvtFPToFx_Intrinsic;
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def int_arm_neon_vcvtfp2fxu : Neon_CvtFPToFx_Intrinsic;
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def int_arm_neon_vcvtfxs2fp : Neon_CvtFxToFP_Intrinsic;
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def int_arm_neon_vcvtfxu2fp : Neon_CvtFxToFP_Intrinsic;
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// Vector Conversions Between Half-Precision and Single-Precision.
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def int_arm_neon_vcvtfp2hf
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: Intrinsic<[llvm_v4i16_ty], [llvm_v4f32_ty], [IntrNoMem]>;
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def int_arm_neon_vcvthf2fp
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: Intrinsic<[llvm_v4f32_ty], [llvm_v4i16_ty], [IntrNoMem]>;
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// Narrowing Saturating Vector Moves.
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def int_arm_neon_vqmovns : Neon_1Arg_Narrow_Intrinsic;
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def int_arm_neon_vqmovnu : Neon_1Arg_Narrow_Intrinsic;
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def int_arm_neon_vqmovnsu : Neon_1Arg_Narrow_Intrinsic;
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// Vector Table Lookup.
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// The first 1-4 arguments are the table.
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def int_arm_neon_vtbl1 : Neon_Tbl2Arg_Intrinsic;
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def int_arm_neon_vtbl2 : Neon_Tbl3Arg_Intrinsic;
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def int_arm_neon_vtbl3 : Neon_Tbl4Arg_Intrinsic;
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def int_arm_neon_vtbl4 : Neon_Tbl5Arg_Intrinsic;
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// Vector Table Extension.
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// Some elements of the destination vector may not be updated, so the original
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// value of that vector is passed as the first argument. The next 1-4
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// arguments after that are the table.
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def int_arm_neon_vtbx1 : Neon_Tbl3Arg_Intrinsic;
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def int_arm_neon_vtbx2 : Neon_Tbl4Arg_Intrinsic;
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def int_arm_neon_vtbx3 : Neon_Tbl5Arg_Intrinsic;
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def int_arm_neon_vtbx4 : Neon_Tbl6Arg_Intrinsic;
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let TargetPrefix = "arm" in {
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// De-interleaving vector loads from N-element structures.
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// Source operands are the address and alignment.
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def int_arm_neon_vld1 : Intrinsic<[llvm_anyvector_ty],
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|
[llvm_ptr_ty, llvm_i32_ty],
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|
[IntrReadArgMem]>;
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def int_arm_neon_vld2 : Intrinsic<[llvm_anyvector_ty, LLVMMatchType<0>],
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|
[llvm_ptr_ty, llvm_i32_ty],
|
|
[IntrReadArgMem]>;
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|
def int_arm_neon_vld3 : Intrinsic<[llvm_anyvector_ty, LLVMMatchType<0>,
|
|
LLVMMatchType<0>],
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|
[llvm_ptr_ty, llvm_i32_ty],
|
|
[IntrReadArgMem]>;
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|
def int_arm_neon_vld4 : Intrinsic<[llvm_anyvector_ty, LLVMMatchType<0>,
|
|
LLVMMatchType<0>, LLVMMatchType<0>],
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|
[llvm_ptr_ty, llvm_i32_ty],
|
|
[IntrReadArgMem]>;
|
|
|
|
// Vector load N-element structure to one lane.
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|
// Source operands are: the address, the N input vectors (since only one
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|
// lane is assigned), the lane number, and the alignment.
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|
def int_arm_neon_vld2lane : Intrinsic<[llvm_anyvector_ty, LLVMMatchType<0>],
|
|
[llvm_ptr_ty, LLVMMatchType<0>,
|
|
LLVMMatchType<0>, llvm_i32_ty,
|
|
llvm_i32_ty], [IntrReadArgMem]>;
|
|
def int_arm_neon_vld3lane : Intrinsic<[llvm_anyvector_ty, LLVMMatchType<0>,
|
|
LLVMMatchType<0>],
|
|
[llvm_ptr_ty, LLVMMatchType<0>,
|
|
LLVMMatchType<0>, LLVMMatchType<0>,
|
|
llvm_i32_ty, llvm_i32_ty],
|
|
[IntrReadArgMem]>;
|
|
def int_arm_neon_vld4lane : Intrinsic<[llvm_anyvector_ty, LLVMMatchType<0>,
|
|
LLVMMatchType<0>, LLVMMatchType<0>],
|
|
[llvm_ptr_ty, LLVMMatchType<0>,
|
|
LLVMMatchType<0>, LLVMMatchType<0>,
|
|
LLVMMatchType<0>, llvm_i32_ty,
|
|
llvm_i32_ty], [IntrReadArgMem]>;
|
|
|
|
// Interleaving vector stores from N-element structures.
|
|
// Source operands are: the address, the N vectors, and the alignment.
|
|
def int_arm_neon_vst1 : Intrinsic<[],
|
|
[llvm_ptr_ty, llvm_anyvector_ty,
|
|
llvm_i32_ty], [IntrReadWriteArgMem]>;
|
|
def int_arm_neon_vst2 : Intrinsic<[],
|
|
[llvm_ptr_ty, llvm_anyvector_ty,
|
|
LLVMMatchType<0>, llvm_i32_ty],
|
|
[IntrReadWriteArgMem]>;
|
|
def int_arm_neon_vst3 : Intrinsic<[],
|
|
[llvm_ptr_ty, llvm_anyvector_ty,
|
|
LLVMMatchType<0>, LLVMMatchType<0>,
|
|
llvm_i32_ty], [IntrReadWriteArgMem]>;
|
|
def int_arm_neon_vst4 : Intrinsic<[],
|
|
[llvm_ptr_ty, llvm_anyvector_ty,
|
|
LLVMMatchType<0>, LLVMMatchType<0>,
|
|
LLVMMatchType<0>, llvm_i32_ty],
|
|
[IntrReadWriteArgMem]>;
|
|
|
|
// Vector store N-element structure from one lane.
|
|
// Source operands are: the address, the N vectors, the lane number, and
|
|
// the alignment.
|
|
def int_arm_neon_vst2lane : Intrinsic<[],
|
|
[llvm_ptr_ty, llvm_anyvector_ty,
|
|
LLVMMatchType<0>, llvm_i32_ty,
|
|
llvm_i32_ty], [IntrReadWriteArgMem]>;
|
|
def int_arm_neon_vst3lane : Intrinsic<[],
|
|
[llvm_ptr_ty, llvm_anyvector_ty,
|
|
LLVMMatchType<0>, LLVMMatchType<0>,
|
|
llvm_i32_ty, llvm_i32_ty],
|
|
[IntrReadWriteArgMem]>;
|
|
def int_arm_neon_vst4lane : Intrinsic<[],
|
|
[llvm_ptr_ty, llvm_anyvector_ty,
|
|
LLVMMatchType<0>, LLVMMatchType<0>,
|
|
LLVMMatchType<0>, llvm_i32_ty,
|
|
llvm_i32_ty], [IntrReadWriteArgMem]>;
|
|
}
|