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2968943463
convention. Patch by David Terei! git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@98212 91177308-0d34-0410-b5e6-96231b3b80d8
345 lines
13 KiB
TableGen
345 lines
13 KiB
TableGen
//===- X86CallingConv.td - Calling Conventions X86 32/64 ---*- 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 describes the calling conventions for the X86-32 and X86-64
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// architectures.
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//
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//===----------------------------------------------------------------------===//
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/// CCIfSubtarget - Match if the current subtarget has a feature F.
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class CCIfSubtarget<string F, CCAction A>
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: CCIf<!strconcat("State.getTarget().getSubtarget<X86Subtarget>().", F), A>;
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//===----------------------------------------------------------------------===//
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// Return Value Calling Conventions
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//===----------------------------------------------------------------------===//
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// Return-value conventions common to all X86 CC's.
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def RetCC_X86Common : CallingConv<[
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// Scalar values are returned in AX first, then DX. For i8, the ABI
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// requires the values to be in AL and AH, however this code uses AL and DL
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// instead. This is because using AH for the second register conflicts with
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// the way LLVM does multiple return values -- a return of {i16,i8} would end
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// up in AX and AH, which overlap. Front-ends wishing to conform to the ABI
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// for functions that return two i8 values are currently expected to pack the
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// values into an i16 (which uses AX, and thus AL:AH).
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CCIfType<[i8] , CCAssignToReg<[AL, DL]>>,
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CCIfType<[i16], CCAssignToReg<[AX, DX]>>,
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CCIfType<[i32], CCAssignToReg<[EAX, EDX]>>,
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CCIfType<[i64], CCAssignToReg<[RAX, RDX]>>,
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// Vector types are returned in XMM0 and XMM1, when they fit. XMMM2 and XMM3
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// can only be used by ABI non-compliant code. If the target doesn't have XMM
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// registers, it won't have vector types.
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CCIfType<[v16i8, v8i16, v4i32, v2i64, v4f32, v2f64],
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CCAssignToReg<[XMM0,XMM1,XMM2,XMM3]>>,
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// MMX vector types are always returned in MM0. If the target doesn't have
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// MM0, it doesn't support these vector types.
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CCIfType<[v8i8, v4i16, v2i32, v1i64, v2f32], CCAssignToReg<[MM0]>>,
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// Long double types are always returned in ST0 (even with SSE).
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CCIfType<[f80], CCAssignToReg<[ST0, ST1]>>
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]>;
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// X86-32 C return-value convention.
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def RetCC_X86_32_C : CallingConv<[
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// The X86-32 calling convention returns FP values in ST0, unless marked
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// with "inreg" (used here to distinguish one kind of reg from another,
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// weirdly; this is really the sse-regparm calling convention) in which
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// case they use XMM0, otherwise it is the same as the common X86 calling
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// conv.
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CCIfInReg<CCIfSubtarget<"hasSSE2()",
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CCIfType<[f32, f64], CCAssignToReg<[XMM0,XMM1,XMM2]>>>>,
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CCIfType<[f32,f64], CCAssignToReg<[ST0, ST1]>>,
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CCDelegateTo<RetCC_X86Common>
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]>;
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// X86-32 FastCC return-value convention.
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def RetCC_X86_32_Fast : CallingConv<[
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// The X86-32 fastcc returns 1, 2, or 3 FP values in XMM0-2 if the target has
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// SSE2.
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// This can happen when a float, 2 x float, or 3 x float vector is split by
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// target lowering, and is returned in 1-3 sse regs.
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CCIfType<[f32], CCIfSubtarget<"hasSSE2()", CCAssignToReg<[XMM0,XMM1,XMM2]>>>,
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CCIfType<[f64], CCIfSubtarget<"hasSSE2()", CCAssignToReg<[XMM0,XMM1,XMM2]>>>,
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// For integers, ECX can be used as an extra return register
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CCIfType<[i8], CCAssignToReg<[AL, DL, CL]>>,
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CCIfType<[i16], CCAssignToReg<[AX, DX, CX]>>,
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CCIfType<[i32], CCAssignToReg<[EAX, EDX, ECX]>>,
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// Otherwise, it is the same as the common X86 calling convention.
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CCDelegateTo<RetCC_X86Common>
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]>;
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// X86-64 C return-value convention.
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def RetCC_X86_64_C : CallingConv<[
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// The X86-64 calling convention always returns FP values in XMM0.
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CCIfType<[f32], CCAssignToReg<[XMM0, XMM1]>>,
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CCIfType<[f64], CCAssignToReg<[XMM0, XMM1]>>,
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// MMX vector types are always returned in XMM0 except for v1i64 which is
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// returned in RAX. This disagrees with ABI documentation but is bug
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// compatible with gcc.
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CCIfType<[v1i64], CCAssignToReg<[RAX]>>,
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CCIfType<[v8i8, v4i16, v2i32, v2f32], CCAssignToReg<[XMM0, XMM1]>>,
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CCDelegateTo<RetCC_X86Common>
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]>;
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// X86-Win64 C return-value convention.
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def RetCC_X86_Win64_C : CallingConv<[
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// The X86-Win64 calling convention always returns __m64 values in RAX.
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CCIfType<[v8i8, v4i16, v2i32, v1i64], CCBitConvertToType<i64>>,
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// And FP in XMM0 only.
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CCIfType<[f32], CCAssignToReg<[XMM0]>>,
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CCIfType<[f64], CCAssignToReg<[XMM0]>>,
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// Otherwise, everything is the same as 'normal' X86-64 C CC.
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CCDelegateTo<RetCC_X86_64_C>
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]>;
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// This is the root return-value convention for the X86-32 backend.
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def RetCC_X86_32 : CallingConv<[
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// If FastCC, use RetCC_X86_32_Fast.
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CCIfCC<"CallingConv::Fast", CCDelegateTo<RetCC_X86_32_Fast>>,
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// Otherwise, use RetCC_X86_32_C.
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CCDelegateTo<RetCC_X86_32_C>
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]>;
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// This is the root return-value convention for the X86-64 backend.
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def RetCC_X86_64 : CallingConv<[
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// Mingw64 and native Win64 use Win64 CC
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CCIfSubtarget<"isTargetWin64()", CCDelegateTo<RetCC_X86_Win64_C>>,
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// Otherwise, drop to normal X86-64 CC
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CCDelegateTo<RetCC_X86_64_C>
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]>;
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// This is the return-value convention used for the entire X86 backend.
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def RetCC_X86 : CallingConv<[
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CCIfSubtarget<"is64Bit()", CCDelegateTo<RetCC_X86_64>>,
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CCDelegateTo<RetCC_X86_32>
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]>;
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//===----------------------------------------------------------------------===//
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// X86-64 Argument Calling Conventions
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//===----------------------------------------------------------------------===//
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def CC_X86_64_C : CallingConv<[
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// Handles byval parameters.
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CCIfByVal<CCPassByVal<8, 8>>,
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// Promote i8/i16 arguments to i32.
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CCIfType<[i8, i16], CCPromoteToType<i32>>,
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// The 'nest' parameter, if any, is passed in R10.
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CCIfNest<CCAssignToReg<[R10]>>,
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// The first 6 v1i64 vector arguments are passed in GPRs on Darwin.
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CCIfType<[v1i64],
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CCIfSubtarget<"isTargetDarwin()",
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CCBitConvertToType<i64>>>,
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// The first 6 integer arguments are passed in integer registers.
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CCIfType<[i32], CCAssignToReg<[EDI, ESI, EDX, ECX, R8D, R9D]>>,
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CCIfType<[i64], CCAssignToReg<[RDI, RSI, RDX, RCX, R8 , R9 ]>>,
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// The first 8 MMX (except for v1i64) vector arguments are passed in XMM
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// registers on Darwin.
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CCIfType<[v8i8, v4i16, v2i32, v2f32],
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CCIfSubtarget<"isTargetDarwin()",
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CCIfSubtarget<"hasSSE2()",
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CCPromoteToType<v2i64>>>>,
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// The first 8 FP/Vector arguments are passed in XMM registers.
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CCIfType<[f32, f64, v16i8, v8i16, v4i32, v2i64, v4f32, v2f64],
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CCIfSubtarget<"hasSSE1()",
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CCAssignToReg<[XMM0, XMM1, XMM2, XMM3, XMM4, XMM5, XMM6, XMM7]>>>,
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// Integer/FP values get stored in stack slots that are 8 bytes in size and
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// 8-byte aligned if there are no more registers to hold them.
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CCIfType<[i32, i64, f32, f64], CCAssignToStack<8, 8>>,
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// Long doubles get stack slots whose size and alignment depends on the
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// subtarget.
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CCIfType<[f80], CCAssignToStack<0, 0>>,
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// Vectors get 16-byte stack slots that are 16-byte aligned.
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CCIfType<[v16i8, v8i16, v4i32, v2i64, v4f32, v2f64], CCAssignToStack<16, 16>>,
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// __m64 vectors get 8-byte stack slots that are 8-byte aligned.
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CCIfType<[v8i8, v4i16, v2i32, v1i64, v2f32], CCAssignToStack<8, 8>>
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]>;
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// Calling convention used on Win64
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def CC_X86_Win64_C : CallingConv<[
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// FIXME: Handle byval stuff.
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// FIXME: Handle varargs.
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// Promote i8/i16 arguments to i32.
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CCIfType<[i8, i16], CCPromoteToType<i32>>,
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// The 'nest' parameter, if any, is passed in R10.
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CCIfNest<CCAssignToReg<[R10]>>,
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// 128 bit vectors are passed by pointer
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CCIfType<[v16i8, v8i16, v4i32, v2i64, v4f32, v2f64], CCPassIndirect<i64>>,
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// The first 4 MMX vector arguments are passed in GPRs.
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CCIfType<[v8i8, v4i16, v2i32, v1i64, v2f32],
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CCBitConvertToType<i64>>,
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// The first 4 integer arguments are passed in integer registers.
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CCIfType<[i32], CCAssignToRegWithShadow<[ECX , EDX , R8D , R9D ],
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[XMM0, XMM1, XMM2, XMM3]>>,
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CCIfType<[i64], CCAssignToRegWithShadow<[RCX , RDX , R8 , R9 ],
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[XMM0, XMM1, XMM2, XMM3]>>,
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// The first 4 FP/Vector arguments are passed in XMM registers.
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CCIfType<[f32, f64, v16i8, v8i16, v4i32, v2i64, v4f32, v2f64],
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CCAssignToRegWithShadow<[XMM0, XMM1, XMM2, XMM3],
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[RCX , RDX , R8 , R9 ]>>,
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// Integer/FP values get stored in stack slots that are 8 bytes in size and
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// 8-byte aligned if there are no more registers to hold them.
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CCIfType<[i32, i64, f32, f64], CCAssignToStack<8, 8>>,
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// Long doubles get stack slots whose size and alignment depends on the
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// subtarget.
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CCIfType<[f80], CCAssignToStack<0, 0>>,
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// __m64 vectors get 8-byte stack slots that are 8-byte aligned.
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CCIfType<[v8i8, v4i16, v2i32, v1i64], CCAssignToStack<8, 8>>
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]>;
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def CC_X86_64_GHC : CallingConv<[
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// Promote i8/i16/i32 arguments to i64.
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CCIfType<[i8, i16, i32], CCPromoteToType<i64>>,
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// Pass in STG registers: Base, Sp, Hp, R1, R2, R3, R4, R5, R6, SpLim
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CCIfType<[i64],
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CCAssignToReg<[R13, RBP, R12, RBX, R14, RSI, RDI, R8, R9, R15]>>,
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// Pass in STG registers: F1, F2, F3, F4, D1, D2
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CCIfType<[f32, f64, v16i8, v8i16, v4i32, v2i64, v4f32, v2f64],
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CCIfSubtarget<"hasSSE1()",
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CCAssignToReg<[XMM1, XMM2, XMM3, XMM4, XMM5, XMM6]>>>
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]>;
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//===----------------------------------------------------------------------===//
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// X86 C Calling Convention
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//===----------------------------------------------------------------------===//
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/// CC_X86_32_Common - In all X86-32 calling conventions, extra integers and FP
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/// values are spilled on the stack, and the first 4 vector values go in XMM
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/// regs.
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def CC_X86_32_Common : CallingConv<[
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// Handles byval parameters.
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CCIfByVal<CCPassByVal<4, 4>>,
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// The first 3 float or double arguments, if marked 'inreg' and if the call
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// is not a vararg call and if SSE2 is available, are passed in SSE registers.
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CCIfNotVarArg<CCIfInReg<CCIfType<[f32,f64],
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CCIfSubtarget<"hasSSE2()",
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CCAssignToReg<[XMM0,XMM1,XMM2]>>>>>,
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// The first 3 __m64 (except for v1i64) vector arguments are passed in mmx
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// registers if the call is not a vararg call.
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CCIfNotVarArg<CCIfType<[v8i8, v4i16, v2i32, v2f32],
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CCAssignToReg<[MM0, MM1, MM2]>>>,
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// Integer/Float values get stored in stack slots that are 4 bytes in
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// size and 4-byte aligned.
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CCIfType<[i32, f32], CCAssignToStack<4, 4>>,
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// Doubles get 8-byte slots that are 4-byte aligned.
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CCIfType<[f64], CCAssignToStack<8, 4>>,
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// Long doubles get slots whose size depends on the subtarget.
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CCIfType<[f80], CCAssignToStack<0, 4>>,
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// The first 4 SSE vector arguments are passed in XMM registers.
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CCIfNotVarArg<CCIfType<[v16i8, v8i16, v4i32, v2i64, v4f32, v2f64],
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CCAssignToReg<[XMM0, XMM1, XMM2, XMM3]>>>,
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// Other SSE vectors get 16-byte stack slots that are 16-byte aligned.
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CCIfType<[v16i8, v8i16, v4i32, v2i64, v4f32, v2f64], CCAssignToStack<16, 16>>,
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// __m64 vectors get 8-byte stack slots that are 4-byte aligned. They are
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// passed in the parameter area.
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CCIfType<[v8i8, v4i16, v2i32, v1i64], CCAssignToStack<8, 4>>]>;
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def CC_X86_32_C : CallingConv<[
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// Promote i8/i16 arguments to i32.
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CCIfType<[i8, i16], CCPromoteToType<i32>>,
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// The 'nest' parameter, if any, is passed in ECX.
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CCIfNest<CCAssignToReg<[ECX]>>,
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// The first 3 integer arguments, if marked 'inreg' and if the call is not
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// a vararg call, are passed in integer registers.
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CCIfNotVarArg<CCIfInReg<CCIfType<[i32], CCAssignToReg<[EAX, EDX, ECX]>>>>,
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// Otherwise, same as everything else.
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CCDelegateTo<CC_X86_32_Common>
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]>;
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def CC_X86_32_FastCall : CallingConv<[
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// Promote i8/i16 arguments to i32.
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CCIfType<[i8, i16], CCPromoteToType<i32>>,
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// The 'nest' parameter, if any, is passed in EAX.
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CCIfNest<CCAssignToReg<[EAX]>>,
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// The first 2 integer arguments are passed in ECX/EDX
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CCIfType<[i32], CCAssignToReg<[ECX, EDX]>>,
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// Otherwise, same as everything else.
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CCDelegateTo<CC_X86_32_Common>
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]>;
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def CC_X86_32_FastCC : CallingConv<[
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// Handles byval parameters. Note that we can't rely on the delegation
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// to CC_X86_32_Common for this because that happens after code that
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// puts arguments in registers.
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CCIfByVal<CCPassByVal<4, 4>>,
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// Promote i8/i16 arguments to i32.
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CCIfType<[i8, i16], CCPromoteToType<i32>>,
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// The 'nest' parameter, if any, is passed in EAX.
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CCIfNest<CCAssignToReg<[EAX]>>,
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// The first 2 integer arguments are passed in ECX/EDX
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CCIfType<[i32], CCAssignToReg<[ECX, EDX]>>,
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// The first 3 float or double arguments, if the call is not a vararg
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// call and if SSE2 is available, are passed in SSE registers.
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CCIfNotVarArg<CCIfType<[f32,f64],
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CCIfSubtarget<"hasSSE2()",
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CCAssignToReg<[XMM0,XMM1,XMM2]>>>>,
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// Doubles get 8-byte slots that are 8-byte aligned.
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CCIfType<[f64], CCAssignToStack<8, 8>>,
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// Otherwise, same as everything else.
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CCDelegateTo<CC_X86_32_Common>
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]>;
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def CC_X86_32_GHC : CallingConv<[
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// Promote i8/i16 arguments to i32.
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CCIfType<[i8, i16], CCPromoteToType<i32>>,
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// Pass in STG registers: Base, Sp, Hp, R1
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CCIfType<[i32], CCAssignToReg<[EBX, EBP, EDI, ESI]>>
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]>;
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