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llvm-mirror/lib/Target/Hexagon/HexagonCallingConv.td
Ikhlas Ajbar 123a690853 [Hexagon] Reducing minimum alignment requirement 
This patch reduces minimum alignment requirement to 1 byte for arguments
passed by value on stack.
2020-06-24 10:28:37 -05:00

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//===- HexagonCallingConv.td ----------------------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
class CCIfArgIsVarArg<CCAction A>
: CCIf<"State.isVarArg() && "
"ValNo >= static_cast<HexagonCCState&>(State)"
".getNumNamedVarArgParams()", A>;
def CC_HexagonStack: CallingConv<[
CCIfType<[i32,v2i16,v4i8],
CCAssignToStack<4,4>>,
CCIfType<[i64,v2i32,v4i16,v8i8],
CCAssignToStack<8,8>>
]>;
def CC_Hexagon_Legacy: CallingConv<[
CCIfType<[i1,i8,i16],
CCPromoteToType<i32>>,
CCIfType<[f32],
CCBitConvertToType<i32>>,
CCIfType<[f64],
CCBitConvertToType<i64>>,
CCIfByVal<
CCPassByVal<8,8>>,
CCIfArgIsVarArg<
CCDelegateTo<CC_HexagonStack>>,
// Pass split values in pairs, allocate odd register if necessary.
CCIfType<[i32],
CCIfSplit<
CCCustom<"CC_SkipOdd">>>,
CCIfType<[i32,v2i16,v4i8],
CCAssignToReg<[R0,R1,R2,R3,R4,R5]>>,
// Make sure to allocate any skipped 32-bit register, so it does not get
// allocated to a subsequent 32-bit value.
CCIfType<[i64,v2i32,v4i16,v8i8],
CCCustom<"CC_SkipOdd">>,
CCIfType<[i64,v2i32,v4i16,v8i8],
CCAssignToReg<[D0,D1,D2]>>,
CCDelegateTo<CC_HexagonStack>
]>;
def CC_Hexagon: CallingConv<[
CCIfType<[i1,i8,i16],
CCPromoteToType<i32>>,
CCIfType<[f32],
CCBitConvertToType<i32>>,
CCIfType<[f64],
CCBitConvertToType<i64>>,
CCIfByVal<
CCPassByVal<8,1>>,
CCIfArgIsVarArg<
CCDelegateTo<CC_HexagonStack>>,
// Pass split values in pairs, allocate odd register if necessary.
CCIfType<[i32],
CCIfSplit<
CCCustom<"CC_SkipOdd">>>,
CCIfType<[i32,v2i16,v4i8],
CCAssignToReg<[R0,R1,R2,R3,R4,R5]>>,
// Make sure to allocate any skipped 32-bit register, so it does not get
// allocated to a subsequent 32-bit value.
CCIfType<[i64,v2i32,v4i16,v8i8],
CCCustom<"CC_SkipOdd">>,
CCIfType<[i64,v2i32,v4i16,v8i8],
CCAssignToReg<[D0,D1,D2]>>,
CCDelegateTo<CC_HexagonStack>
]>;
def RetCC_Hexagon: CallingConv<[
CCIfType<[i1,i8,i16],
CCPromoteToType<i32>>,
CCIfType<[f32],
CCBitConvertToType<i32>>,
CCIfType<[f64],
CCBitConvertToType<i64>>,
// Small structures are returned in a pair of registers, (which is
// always r1:0). In such case, what is returned are two i32 values
// without any additional information (in ArgFlags) stating that
// they are parts of a structure. Because of that there is no way
// to differentiate that situation from an attempt to return two
// values, so always assign R0 and R1.
CCIfSplit<
CCAssignToReg<[R0,R1]>>,
CCIfType<[i32,v2i16,v4i8],
CCAssignToReg<[R0,R1]>>,
CCIfType<[i64,v2i32,v4i16,v8i8],
CCAssignToReg<[D0]>>
]>;
class CCIfHvx64<CCAction A>
: CCIf<"State.getMachineFunction().getSubtarget<HexagonSubtarget>()"
".useHVX64BOps()", A>;
class CCIfHvx128<CCAction A>
: CCIf<"State.getMachineFunction().getSubtarget<HexagonSubtarget>()"
".useHVX128BOps()", A>;
def CC_Hexagon_HVX: CallingConv<[
// HVX 64-byte mode
CCIfHvx64<
CCIfType<[v16i32,v32i16,v64i8],
CCAssignToReg<[V0,V1,V2,V3,V4,V5,V6,V7,V8,V9,V10,V11,V12,V13,V14,V15]>>>,
CCIfHvx64<
CCIfType<[v32i32,v64i16,v128i8],
CCAssignToReg<[W0,W1,W2,W3,W4,W5,W6,W7]>>>,
CCIfHvx64<
CCIfType<[v16i32,v32i16,v64i8],
CCAssignToStack<64,64>>>,
CCIfHvx64<
CCIfType<[v32i32,v64i16,v128i8],
CCAssignToStack<128,64>>>,
// HVX 128-byte mode
CCIfHvx128<
CCIfType<[v32i32,v64i16,v128i8],
CCAssignToReg<[V0,V1,V2,V3,V4,V5,V6,V7,V8,V9,V10,V11,V12,V13,V14,V15]>>>,
CCIfHvx128<
CCIfType<[v64i32,v128i16,v256i8],
CCAssignToReg<[W0,W1,W2,W3,W4,W5,W6,W7]>>>,
CCIfHvx128<
CCIfType<[v32i32,v64i16,v128i8],
CCAssignToStack<128,128>>>,
CCIfHvx128<
CCIfType<[v64i32,v128i16,v256i8],
CCAssignToStack<256,128>>>,
CCDelegateTo<CC_Hexagon>
]>;
def RetCC_Hexagon_HVX: CallingConv<[
// HVX 64-byte mode
CCIfHvx64<
CCIfType<[v16i32,v32i16,v64i8],
CCAssignToReg<[V0]>>>,
CCIfHvx64<
CCIfType<[v32i32,v64i16,v128i8],
CCAssignToReg<[W0]>>>,
// HVX 128-byte mode
CCIfHvx128<
CCIfType<[v32i32,v64i16,v128i8],
CCAssignToReg<[V0]>>>,
CCIfHvx128<
CCIfType<[v64i32,v128i16,v256i8],
CCAssignToReg<[W0]>>>,
CCDelegateTo<RetCC_Hexagon>
]>;
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