/usr/include/llvm-3.6/llvm/Target/TargetCallingConv.td is in llvm-3.6-dev 1:3.6-2ubuntu1~trusty2.
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 | //===- TargetCallingConv.td - Target Calling Conventions ---*- tablegen -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the target-independent interfaces with which targets
// describe their calling conventions.
//
//===----------------------------------------------------------------------===//
class CCAction;
class CallingConv;
/// CCCustom - Calls a custom arg handling function.
class CCCustom<string fn> : CCAction {
string FuncName = fn;
}
/// CCPredicateAction - Instances of this class check some predicate, then
/// delegate to another action if the predicate is true.
class CCPredicateAction<CCAction A> : CCAction {
CCAction SubAction = A;
}
/// CCIfType - If the current argument is one of the specified types, apply
/// Action A.
class CCIfType<list<ValueType> vts, CCAction A> : CCPredicateAction<A> {
list<ValueType> VTs = vts;
}
/// CCIf - If the predicate matches, apply A.
class CCIf<string predicate, CCAction A> : CCPredicateAction<A> {
string Predicate = predicate;
}
/// CCIfByVal - If the current argument has ByVal parameter attribute, apply
/// Action A.
class CCIfByVal<CCAction A> : CCIf<"ArgFlags.isByVal()", A> {
}
/// CCIfConsecutiveRegs - If the current argument has InConsecutiveRegs
/// parameter attribute, apply Action A.
class CCIfConsecutiveRegs<CCAction A> : CCIf<"ArgFlags.isInConsecutiveRegs()", A> {
}
/// CCIfCC - Match if the current calling convention is 'CC'.
class CCIfCC<string CC, CCAction A>
: CCIf<!strconcat("State.getCallingConv() == ", CC), A> {}
/// CCIfInReg - If this argument is marked with the 'inreg' attribute, apply
/// the specified action.
class CCIfInReg<CCAction A> : CCIf<"ArgFlags.isInReg()", A> {}
/// CCIfNest - If this argument is marked with the 'nest' attribute, apply
/// the specified action.
class CCIfNest<CCAction A> : CCIf<"ArgFlags.isNest()", A> {}
/// CCIfSplit - If this argument is marked with the 'split' attribute, apply
/// the specified action.
class CCIfSplit<CCAction A> : CCIf<"ArgFlags.isSplit()", A> {}
/// CCIfSRet - If this argument is marked with the 'sret' attribute, apply
/// the specified action.
class CCIfSRet<CCAction A> : CCIf<"ArgFlags.isSRet()", A> {}
/// CCIfVarArg - If the current function is vararg - apply the action
class CCIfVarArg<CCAction A> : CCIf<"State.isVarArg()", A> {}
/// CCIfNotVarArg - If the current function is not vararg - apply the action
class CCIfNotVarArg<CCAction A> : CCIf<"!State.isVarArg()", A> {}
/// CCAssignToReg - This action matches if there is a register in the specified
/// list that is still available. If so, it assigns the value to the first
/// available register and succeeds.
class CCAssignToReg<list<Register> regList> : CCAction {
list<Register> RegList = regList;
}
/// CCAssignToRegWithShadow - Same as CCAssignToReg, but with list of registers
/// which became shadowed, when some register is used.
class CCAssignToRegWithShadow<list<Register> regList,
list<Register> shadowList> : CCAction {
list<Register> RegList = regList;
list<Register> ShadowRegList = shadowList;
}
/// CCAssignToStack - This action always matches: it assigns the value to a
/// stack slot of the specified size and alignment on the stack. If size is
/// zero then the ABI size is used; if align is zero then the ABI alignment
/// is used - these may depend on the target or subtarget.
class CCAssignToStack<int size, int align> : CCAction {
int Size = size;
int Align = align;
}
/// CCAssignToStackWithShadow - Same as CCAssignToStack, but with a list of
/// registers to be shadowed. Note that, unlike CCAssignToRegWithShadow, this
/// shadows ALL of the registers in shadowList.
class CCAssignToStackWithShadow<int size,
int align,
list<Register> shadowList> : CCAction {
int Size = size;
int Align = align;
list<Register> ShadowRegList = shadowList;
}
/// CCPassByVal - This action always matches: it assigns the value to a stack
/// slot to implement ByVal aggregate parameter passing. Size and alignment
/// specify the minimum size and alignment for the stack slot.
class CCPassByVal<int size, int align> : CCAction {
int Size = size;
int Align = align;
}
/// CCPromoteToType - If applied, this promotes the specified current value to
/// the specified type.
class CCPromoteToType<ValueType destTy> : CCAction {
ValueType DestTy = destTy;
}
/// CCPromoteToUpperBitsInType - If applied, this promotes the specified current
/// value to the specified type and shifts the value into the upper bits.
class CCPromoteToUpperBitsInType<ValueType destTy> : CCAction {
ValueType DestTy = destTy;
}
/// CCBitConvertToType - If applied, this bitconverts the specified current
/// value to the specified type.
class CCBitConvertToType<ValueType destTy> : CCAction {
ValueType DestTy = destTy;
}
/// CCPassIndirect - If applied, this stores the value to stack and passes the pointer
/// as normal argument.
class CCPassIndirect<ValueType destTy> : CCAction {
ValueType DestTy = destTy;
}
/// CCDelegateTo - This action invokes the specified sub-calling-convention. It
/// is successful if the specified CC matches.
class CCDelegateTo<CallingConv cc> : CCAction {
CallingConv CC = cc;
}
/// CallingConv - An instance of this is used to define each calling convention
/// that the target supports.
class CallingConv<list<CCAction> actions> {
list<CCAction> Actions = actions;
bit Custom = 0;
}
/// CustomCallingConv - An instance of this is used to declare calling
/// conventions that are implemented using a custom function of the same name.
class CustomCallingConv : CallingConv<[]> {
let Custom = 1;
}
/// CalleeSavedRegs - A list of callee saved registers for a given calling
/// convention. The order of registers is used by PrologEpilogInsertion when
/// allocation stack slots for saved registers.
///
/// For each CalleeSavedRegs def, TableGen will emit a FOO_SaveList array for
/// returning from getCalleeSavedRegs(), and a FOO_RegMask bit mask suitable for
/// returning from getCallPreservedMask().
class CalleeSavedRegs<dag saves> {
dag SaveList = saves;
// Registers that are also preserved across function calls, but should not be
// included in the generated FOO_SaveList array. These registers will be
// included in the FOO_RegMask bit mask. This can be used for registers that
// are saved automatically, like the SPARC register windows.
dag OtherPreserved;
}
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