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1410a2c906
This means the output of LowerFormalArguments returns a lowered SDValue with the correct type (expected in SelectionDAGBuilder). Without this, an assertion under a DEBUG macro triggers when those types are passed on the stack. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@210102 91177308-0d34-0410-b5e6-96231b3b80d8
237 lines
12 KiB
TableGen
237 lines
12 KiB
TableGen
//=- AArch64CallingConv.td - Calling Conventions for AArch64 -*- 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 AArch64 architecture.
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//
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//===----------------------------------------------------------------------===//
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/// CCIfAlign - Match of the original alignment of the arg
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class CCIfAlign<string Align, CCAction A> :
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CCIf<!strconcat("ArgFlags.getOrigAlign() == ", Align), A>;
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/// CCIfBigEndian - Match only if we're in big endian mode.
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class CCIfBigEndian<CCAction A> :
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CCIf<"State.getTarget().getDataLayout()->isBigEndian()", A>;
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//===----------------------------------------------------------------------===//
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// ARM AAPCS64 Calling Convention
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//===----------------------------------------------------------------------===//
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def CC_AArch64_AAPCS : CallingConv<[
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CCIfType<[v2f32], CCBitConvertToType<v2i32>>,
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CCIfType<[v2f64, v4f32], CCBitConvertToType<v2i64>>,
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// Big endian vectors must be passed as if they were 1-element vectors so that
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// their lanes are in a consistent order.
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CCIfBigEndian<CCIfType<[v2i32, v2f32, v4i16, v4f16, v8i8],
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CCBitConvertToType<f64>>>,
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CCIfBigEndian<CCIfType<[v2i64, v2f64, v4i32, v4f32, v8i16, v8f16, v16i8],
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CCBitConvertToType<f128>>>,
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// An SRet is passed in X8, not X0 like a normal pointer parameter.
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CCIfSRet<CCIfType<[i64], CCAssignToRegWithShadow<[X8], [W8]>>>,
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// Put ByVal arguments directly on the stack. Minimum size and alignment of a
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// slot is 64-bit.
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CCIfByVal<CCPassByVal<8, 8>>,
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// Handle i1, i8, i16, i32, i64, f32, f64 and v2f64 by passing in registers,
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// up to eight each of GPR and FPR.
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CCIfType<[i1, i8, i16], CCPromoteToType<i32>>,
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CCIfType<[i32], CCAssignToRegWithShadow<[W0, W1, W2, W3, W4, W5, W6, W7],
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[X0, X1, X2, X3, X4, X5, X6, X7]>>,
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// i128 is split to two i64s, we can't fit half to register X7.
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CCIfType<[i64], CCIfSplit<CCAssignToRegWithShadow<[X0, X2, X4, X6],
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[X0, X1, X3, X5]>>>,
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// i128 is split to two i64s, and its stack alignment is 16 bytes.
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CCIfType<[i64], CCIfSplit<CCAssignToStackWithShadow<8, 16, [X7]>>>,
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CCIfType<[i64], CCAssignToRegWithShadow<[X0, X1, X2, X3, X4, X5, X6, X7],
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[W0, W1, W2, W3, W4, W5, W6, W7]>>,
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CCIfType<[f32], CCAssignToRegWithShadow<[S0, S1, S2, S3, S4, S5, S6, S7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[f64], CCAssignToRegWithShadow<[D0, D1, D2, D3, D4, D5, D6, D7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[v1i64, v2i32, v4i16, v8i8, v1f64, v2f32],
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CCAssignToRegWithShadow<[D0, D1, D2, D3, D4, D5, D6, D7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[f128, v2i64, v4i32, v8i16, v16i8, v4f32, v2f64],
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CCAssignToReg<[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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// If more than will fit in registers, pass them on the stack instead.
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CCIfType<[i1, i8, i16], CCAssignToStack<8, 8>>,
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CCIfType<[i32, f32], CCAssignToStack<8, 8>>,
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CCIfType<[i64, f64, v1f64, v2f32, v1i64, v2i32, v4i16, v8i8],
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CCAssignToStack<8, 8>>,
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CCIfType<[f128, v2i64, v4i32, v8i16, v16i8, v4f32, v2f64],
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CCAssignToStack<16, 16>>
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]>;
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def RetCC_AArch64_AAPCS : CallingConv<[
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CCIfType<[v2f32], CCBitConvertToType<v2i32>>,
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CCIfType<[v2f64, v4f32], CCBitConvertToType<v2i64>>,
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// Big endian vectors must be passed as if they were 1-element vectors so that
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// their lanes are in a consistent order.
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CCIfBigEndian<CCIfType<[v2i32, v2f32, v4i16, v4f16, v8i8],
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CCBitConvertToType<f64>>>,
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CCIfBigEndian<CCIfType<[v2i64, v2f64, v4i32, v4f32, v8i16, v8f16, v16i8],
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CCBitConvertToType<f128>>>,
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CCIfType<[i32], CCAssignToRegWithShadow<[W0, W1, W2, W3, W4, W5, W6, W7],
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[X0, X1, X2, X3, X4, X5, X6, X7]>>,
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CCIfType<[i64], CCAssignToRegWithShadow<[X0, X1, X2, X3, X4, X5, X6, X7],
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[W0, W1, W2, W3, W4, W5, W6, W7]>>,
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CCIfType<[f32], CCAssignToRegWithShadow<[S0, S1, S2, S3, S4, S5, S6, S7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[f64], CCAssignToRegWithShadow<[D0, D1, D2, D3, D4, D5, D6, D7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[v1i64, v2i32, v4i16, v8i8, v1f64, v2f32],
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CCAssignToRegWithShadow<[D0, D1, D2, D3, D4, D5, D6, D7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[f128, v2i64, v4i32, v8i16, v16i8, v4f32, v2f64],
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CCAssignToReg<[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>
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]>;
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// Darwin uses a calling convention which differs in only two ways
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// from the standard one at this level:
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// + i128s (i.e. split i64s) don't need even registers.
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// + Stack slots are sized as needed rather than being at least 64-bit.
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def CC_AArch64_DarwinPCS : CallingConv<[
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CCIfType<[v2f32], CCBitConvertToType<v2i32>>,
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CCIfType<[v2f64, v4f32, f128], CCBitConvertToType<v2i64>>,
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// An SRet is passed in X8, not X0 like a normal pointer parameter.
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CCIfSRet<CCIfType<[i64], CCAssignToRegWithShadow<[X8], [W8]>>>,
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// Put ByVal arguments directly on the stack. Minimum size and alignment of a
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// slot is 64-bit.
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CCIfByVal<CCPassByVal<8, 8>>,
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// Handle i1, i8, i16, i32, i64, f32, f64 and v2f64 by passing in registers,
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// up to eight each of GPR and FPR.
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CCIfType<[i1, i8, i16], CCPromoteToType<i32>>,
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CCIfType<[i32], CCAssignToRegWithShadow<[W0, W1, W2, W3, W4, W5, W6, W7],
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[X0, X1, X2, X3, X4, X5, X6, X7]>>,
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// i128 is split to two i64s, we can't fit half to register X7.
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CCIfType<[i64],
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CCIfSplit<CCAssignToRegWithShadow<[X0, X1, X2, X3, X4, X5, X6],
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[W0, W1, W2, W3, W4, W5, W6]>>>,
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// i128 is split to two i64s, and its stack alignment is 16 bytes.
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CCIfType<[i64], CCIfSplit<CCAssignToStackWithShadow<8, 16, [X7]>>>,
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CCIfType<[i64], CCAssignToRegWithShadow<[X0, X1, X2, X3, X4, X5, X6, X7],
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[W0, W1, W2, W3, W4, W5, W6, W7]>>,
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CCIfType<[f32], CCAssignToRegWithShadow<[S0, S1, S2, S3, S4, S5, S6, S7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[f64], CCAssignToRegWithShadow<[D0, D1, D2, D3, D4, D5, D6, D7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[v1i64, v2i32, v4i16, v8i8, v1f64, v2f32],
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CCAssignToRegWithShadow<[D0, D1, D2, D3, D4, D5, D6, D7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[v2i64, v4i32, v8i16, v16i8, v4f32, v2f64],
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CCAssignToReg<[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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// If more than will fit in registers, pass them on the stack instead.
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CCIf<"ValVT == MVT::i1 || ValVT == MVT::i8", CCAssignToStack<1, 1>>,
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CCIf<"ValVT == MVT::i16", CCAssignToStack<2, 2>>,
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CCIfType<[i32, f32], CCAssignToStack<4, 4>>,
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CCIfType<[i64, f64, v1f64, v2f32, v1i64, v2i32, v4i16, v8i8],
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CCAssignToStack<8, 8>>,
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CCIfType<[v2i64, v4i32, v8i16, v16i8, v4f32, v2f64], CCAssignToStack<16, 16>>
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]>;
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def CC_AArch64_DarwinPCS_VarArg : CallingConv<[
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CCIfType<[v2f32], CCBitConvertToType<v2i32>>,
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CCIfType<[v2f64, v4f32, f128], CCBitConvertToType<v2i64>>,
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// Handle all scalar types as either i64 or f64.
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CCIfType<[i8, i16, i32], CCPromoteToType<i64>>,
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CCIfType<[f32], CCPromoteToType<f64>>,
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// Everything is on the stack.
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// i128 is split to two i64s, and its stack alignment is 16 bytes.
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CCIfType<[i64], CCIfSplit<CCAssignToStack<8, 16>>>,
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CCIfType<[i64, f64, v1i64, v2i32, v4i16, v8i8, v1f64, v2f32], CCAssignToStack<8, 8>>,
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CCIfType<[v2i64, v4i32, v8i16, v16i8, v4f32, v2f64], CCAssignToStack<16, 16>>
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]>;
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// The WebKit_JS calling convention only passes the first argument (the callee)
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// in register and the remaining arguments on stack. We allow 32bit stack slots,
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// so that WebKit can write partial values in the stack and define the other
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// 32bit quantity as undef.
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def CC_AArch64_WebKit_JS : CallingConv<[
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// Handle i1, i8, i16, i32, and i64 passing in register X0 (W0).
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CCIfType<[i1, i8, i16], CCPromoteToType<i32>>,
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CCIfType<[i32], CCAssignToRegWithShadow<[W0], [X0]>>,
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CCIfType<[i64], CCAssignToRegWithShadow<[X0], [W0]>>,
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// Pass the remaining arguments on the stack instead.
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CCIfType<[i32, f32], CCAssignToStack<4, 4>>,
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CCIfType<[i64, f64], CCAssignToStack<8, 8>>
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]>;
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def RetCC_AArch64_WebKit_JS : CallingConv<[
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CCIfType<[i32], CCAssignToRegWithShadow<[W0, W1, W2, W3, W4, W5, W6, W7],
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[X0, X1, X2, X3, X4, X5, X6, X7]>>,
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CCIfType<[i64], CCAssignToRegWithShadow<[X0, X1, X2, X3, X4, X5, X6, X7],
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[W0, W1, W2, W3, W4, W5, W6, W7]>>,
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CCIfType<[f32], CCAssignToRegWithShadow<[S0, S1, S2, S3, S4, S5, S6, S7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>,
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CCIfType<[f64], CCAssignToRegWithShadow<[D0, D1, D2, D3, D4, D5, D6, D7],
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[Q0, Q1, Q2, Q3, Q4, Q5, Q6, Q7]>>
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]>;
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// FIXME: LR is only callee-saved in the sense that *we* preserve it and are
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// presumably a callee to someone. External functions may not do so, but this
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// is currently safe since BL has LR as an implicit-def and what happens after a
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// tail call doesn't matter.
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//
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// It would be better to model its preservation semantics properly (create a
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// vreg on entry, use it in RET & tail call generation; make that vreg def if we
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// end up saving LR as part of a call frame). Watch this space...
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def CSR_AArch64_AAPCS : CalleeSavedRegs<(add LR, FP, X19, X20, X21, X22,
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X23, X24, X25, X26, X27, X28,
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D8, D9, D10, D11,
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D12, D13, D14, D15)>;
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// Constructors and destructors return 'this' in the iOS 64-bit C++ ABI; since
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// 'this' and the pointer return value are both passed in X0 in these cases,
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// this can be partially modelled by treating X0 as a callee-saved register;
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// only the resulting RegMask is used; the SaveList is ignored
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//
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// (For generic ARM 64-bit ABI code, clang will not generate constructors or
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// destructors with 'this' returns, so this RegMask will not be used in that
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// case)
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def CSR_AArch64_AAPCS_ThisReturn : CalleeSavedRegs<(add CSR_AArch64_AAPCS, X0)>;
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// The function used by Darwin to obtain the address of a thread-local variable
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// guarantees more than a normal AAPCS function. x16 and x17 are used on the
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// fast path for calculation, but other registers except X0 (argument/return)
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// and LR (it is a call, after all) are preserved.
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def CSR_AArch64_TLS_Darwin
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: CalleeSavedRegs<(add (sub (sequence "X%u", 1, 28), X16, X17),
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FP,
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(sequence "Q%u", 0, 31))>;
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// The ELF stub used for TLS-descriptor access saves every feasible
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// register. Only X0 and LR are clobbered.
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def CSR_AArch64_TLS_ELF
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: CalleeSavedRegs<(add (sequence "X%u", 1, 28), FP,
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(sequence "Q%u", 0, 31))>;
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def CSR_AArch64_AllRegs
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: CalleeSavedRegs<(add (sequence "W%u", 0, 30), WSP,
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(sequence "X%u", 0, 28), FP, LR, SP,
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(sequence "B%u", 0, 31), (sequence "H%u", 0, 31),
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(sequence "S%u", 0, 31), (sequence "D%u", 0, 31),
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(sequence "Q%u", 0, 31))>;
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