class Immediate<ValueType vt, code pred, SDNodeXForm xform, string asmop>
: PatLeaf<(vt imm), pred, xform>, Operand<vt> {
let PrintMethod = "print"##asmop##"Operand";
+ let DecoderMethod = "decode"##asmop##"Operand";
let ParserMatchClass = !cast<AsmOperandClass>(asmop);
}
// Constructs an operand for a PC-relative address with address type VT.
// ASMOP is the associated asm operand.
class PCRelOperand<ValueType vt, AsmOperandClass asmop> : Operand<vt> {
+ let PrintMethod = "printPCRelOperand";
let ParserMatchClass = asmop;
}
// address with address size VT. SELF is the name of the operand and
// ASMOP is the associated asm operand.
class PCRelAddress<ValueType vt, string self, AsmOperandClass asmop>
- : ComplexPattern<vt, 1, "selectPCRelAddress", [z_pcrel_wrapper]>,
+ : ComplexPattern<vt, 1, "selectPCRelAddress",
+ [z_pcrel_wrapper, z_pcrel_offset]>,
PCRelOperand<vt, asmop> {
let MIOperandInfo = (ops !cast<Operand>(self));
}
// Constructs an AsmOperandClass for addressing mode FORMAT, treating the
// registers as having BITSIZE bits and displacements as having DISPSIZE bits.
-class AddressAsmOperand<string format, string bitsize, string dispsize>
+// LENGTH is "LenN" for addresses with an N-bit length field, otherwise it
+// is "".
+class AddressAsmOperand<string format, string bitsize, string dispsize,
+ string length = "">
: AsmOperandClass {
- let Name = format##bitsize##"Disp"##dispsize;
+ let Name = format##bitsize##"Disp"##dispsize##length;
let ParserMethod = "parse"##format##bitsize;
let RenderMethod = "add"##format##"Operands";
}
// Constructs both a DAG pattern and instruction operand for an addressing mode.
-// The mode is selected by custom code in select<TYPE><DISPSIZE><SUFFIX>()
-// and encoded by custom code in get<FORMAT><DISPSIZE>Encoding().
-// The address registers have BITSIZE bits and displacements have
-// DISPSIZE bits. NUMOPS is the number of operands that make up an
-// address and OPERANDS lists the types of those operands using (ops ...).
-// FORMAT is the type of addressing mode, which needs to match the names
-// used in AddressAsmOperand.
-class AddressingMode<string type, string bitsize, string dispsize,
- string suffix, int numops, string format, dag operands>
+// FORMAT, BITSIZE, DISPSIZE and LENGTH are the parameters to an associated
+// AddressAsmOperand. OPERANDS is a list of NUMOPS individual operands
+// (base register, displacement, etc.). SELTYPE is the type of the memory
+// operand for selection purposes; sometimes we want different selection
+// choices for the same underlying addressing mode. SUFFIX is similarly
+// a suffix appended to the displacement for selection purposes;
+// e.g. we want to reject small 20-bit displacements if a 12-bit form
+// also exists, but we want to accept them otherwise.
+class AddressingMode<string seltype, string bitsize, string dispsize,
+ string suffix, string length, int numops, string format,
+ dag operands>
: ComplexPattern<!cast<ValueType>("i"##bitsize), numops,
- "select"##type##dispsize##suffix,
+ "select"##seltype##dispsize##suffix##length,
[add, sub, or, frameindex, z_adjdynalloc]>,
Operand<!cast<ValueType>("i"##bitsize)> {
let PrintMethod = "print"##format##"Operand";
- let EncoderMethod = "get"##format##dispsize##"Encoding";
+ let EncoderMethod = "get"##format##dispsize##length##"Encoding";
+ let DecoderMethod =
+ "decode"##format##bitsize##"Disp"##dispsize##length##"Operand";
let MIOperandInfo = operands;
let ParserMatchClass =
- !cast<AddressAsmOperand>(format##bitsize##"Disp"##dispsize);
+ !cast<AddressAsmOperand>(format##bitsize##"Disp"##dispsize##length);
}
// An addressing mode with a base and displacement but no index.
class BDMode<string type, string bitsize, string dispsize, string suffix>
- : AddressingMode<type, bitsize, dispsize, suffix, 2, "BDAddr",
+ : AddressingMode<type, bitsize, dispsize, suffix, "", 2, "BDAddr",
(ops !cast<RegisterOperand>("ADDR"##bitsize),
!cast<Immediate>("disp"##dispsize##"imm"##bitsize))>;
// An addressing mode with a base, displacement and index.
class BDXMode<string type, string bitsize, string dispsize, string suffix>
- : AddressingMode<type, bitsize, dispsize, suffix, 3, "BDXAddr",
+ : AddressingMode<type, bitsize, dispsize, suffix, "", 3, "BDXAddr",
(ops !cast<RegisterOperand>("ADDR"##bitsize),
!cast<Immediate>("disp"##dispsize##"imm"##bitsize),
!cast<RegisterOperand>("ADDR"##bitsize))>;
+// A BDMode paired with an immediate length operand of LENSIZE bits.
+class BDLMode<string type, string bitsize, string dispsize, string suffix,
+ string lensize>
+ : AddressingMode<type, bitsize, dispsize, suffix, "Len"##lensize, 3,
+ "BDLAddr",
+ (ops !cast<RegisterOperand>("ADDR"##bitsize),
+ !cast<Immediate>("disp"##dispsize##"imm"##bitsize),
+ !cast<Immediate>("imm"##bitsize))>;
+
//===----------------------------------------------------------------------===//
// Extracting immediate operands from nodes
// These all create MVT::i64 nodes to ensure the value is not sign-extended
def S32Imm : ImmediateAsmOperand<"S32Imm">;
def U32Imm : ImmediateAsmOperand<"U32Imm">;
-//===----------------------------------------------------------------------===//
-// 8-bit immediates
-//===----------------------------------------------------------------------===//
-
-def uimm8zx4 : Immediate<i8, [{
- return isUInt<4>(N->getZExtValue());
-}], NOOP_SDNodeXForm, "U4Imm">;
-
-def uimm8zx6 : Immediate<i8, [{
- return isUInt<6>(N->getZExtValue());
-}], NOOP_SDNodeXForm, "U6Imm">;
-
-def simm8 : Immediate<i8, [{}], SIMM8, "S8Imm">;
-def uimm8 : Immediate<i8, [{}], UIMM8, "U8Imm">;
-
//===----------------------------------------------------------------------===//
// i32 immediates
//===----------------------------------------------------------------------===//
}], LH16, "U16Imm">;
// Short immediates
+def imm32zx4 : Immediate<i32, [{
+ return isUInt<4>(N->getZExtValue());
+}], NOOP_SDNodeXForm, "U4Imm">;
+
+def imm32zx6 : Immediate<i32, [{
+ return isUInt<6>(N->getZExtValue());
+}], NOOP_SDNodeXForm, "U6Imm">;
+
def imm32sx8 : Immediate<i32, [{
return isInt<8>(N->getSExtValue());
}], SIMM8, "S8Imm">;
return isInt<8>(N->getSExtValue());
}], SIMM8, "S8Imm">;
+def imm64zx8 : Immediate<i64, [{
+ return isUInt<8>(N->getSExtValue());
+}], UIMM8, "U8Imm">;
+
def imm64sx16 : Immediate<i64, [{
return isInt<16>(N->getSExtValue());
}], SIMM16, "S16Imm">;
return isUInt<32>(-N->getSExtValue());
}], NEGIMM32, "U32Imm">;
-def imm64 : ImmLeaf<i64, [{}]>;
+def imm64 : ImmLeaf<i64, [{}]>, Operand<i64>;
//===----------------------------------------------------------------------===//
// Floating-point immediates
// and multiplied by 2.
def brtarget16 : PCRelOperand<OtherVT, PCRel16> {
let EncoderMethod = "getPC16DBLEncoding";
+ let DecoderMethod = "decodePC16DBLOperand";
}
def brtarget32 : PCRelOperand<OtherVT, PCRel32> {
let EncoderMethod = "getPC32DBLEncoding";
+ let DecoderMethod = "decodePC32DBLOperand";
}
// A PC-relative offset of a global value. The offset is sign-extended
// and multiplied by 2.
def pcrel32 : PCRelAddress<i64, "pcrel32", PCRel32> {
let EncoderMethod = "getPC32DBLEncoding";
-}
-
-// A PC-relative offset of a global value when the value is used as a
-// call target. The offset is sign-extended and multiplied by 2.
-def pcrel16call : PCRelAddress<i64, "pcrel16call", PCRel16> {
- let PrintMethod = "printCallOperand";
- let EncoderMethod = "getPLT16DBLEncoding";
-}
-def pcrel32call : PCRelAddress<i64, "pcrel32call", PCRel32> {
- let PrintMethod = "printCallOperand";
- let EncoderMethod = "getPLT32DBLEncoding";
+ let DecoderMethod = "decodePC32DBLOperand";
}
//===----------------------------------------------------------------------===//
def disp20imm32 : Operand<i32>;
def disp20imm64 : Operand<i64>;
-def BDAddr32Disp12 : AddressAsmOperand<"BDAddr", "32", "12">;
-def BDAddr32Disp20 : AddressAsmOperand<"BDAddr", "32", "20">;
-def BDAddr64Disp12 : AddressAsmOperand<"BDAddr", "64", "12">;
-def BDAddr64Disp20 : AddressAsmOperand<"BDAddr", "64", "20">;
-def BDXAddr64Disp12 : AddressAsmOperand<"BDXAddr", "64", "12">;
-def BDXAddr64Disp20 : AddressAsmOperand<"BDXAddr", "64", "20">;
+def BDAddr32Disp12 : AddressAsmOperand<"BDAddr", "32", "12">;
+def BDAddr32Disp20 : AddressAsmOperand<"BDAddr", "32", "20">;
+def BDAddr64Disp12 : AddressAsmOperand<"BDAddr", "64", "12">;
+def BDAddr64Disp20 : AddressAsmOperand<"BDAddr", "64", "20">;
+def BDXAddr64Disp12 : AddressAsmOperand<"BDXAddr", "64", "12">;
+def BDXAddr64Disp20 : AddressAsmOperand<"BDXAddr", "64", "20">;
+def BDLAddr64Disp12Len8 : AddressAsmOperand<"BDLAddr", "64", "12", "Len8">;
// DAG patterns and operands for addressing modes. Each mode has
-// the form <type><range><group> where:
+// the form <type><range><group>[<len>] where:
//
// <type> is one of:
// shift : base + displacement (32-bit)
// bdaddr : base + displacement
+// mviaddr : like bdaddr, but reject cases with a natural index
// bdxaddr : base + displacement + index
// laaddr : like bdxaddr, but used for Load Address operations
// dynalloc : base + displacement + index + ADJDYNALLOC
+// bdladdr : base + displacement with a length field
//
// <range> is one of:
// 12 : the displacement is an unsigned 12-bit value
// range value (12 or 20)
// only : used when there is no equivalent instruction with the opposite
// range value
-def shift12only : BDMode <"BDAddr", "32", "12", "Only">;
-def shift20only : BDMode <"BDAddr", "32", "20", "Only">;
-def bdaddr12only : BDMode <"BDAddr", "64", "12", "Only">;
-def bdaddr12pair : BDMode <"BDAddr", "64", "12", "Pair">;
-def bdaddr20only : BDMode <"BDAddr", "64", "20", "Only">;
-def bdaddr20pair : BDMode <"BDAddr", "64", "20", "Pair">;
-def bdxaddr12only : BDXMode<"BDXAddr", "64", "12", "Only">;
-def bdxaddr12pair : BDXMode<"BDXAddr", "64", "12", "Pair">;
-def bdxaddr20only : BDXMode<"BDXAddr", "64", "20", "Only">;
-def bdxaddr20only128 : BDXMode<"BDXAddr", "64", "20", "Only128">;
-def bdxaddr20pair : BDXMode<"BDXAddr", "64", "20", "Pair">;
-def dynalloc12only : BDXMode<"DynAlloc", "64", "12", "Only">;
-def laaddr12pair : BDXMode<"LAAddr", "64", "12", "Pair">;
-def laaddr20pair : BDXMode<"LAAddr", "64", "20", "Pair">;
+//
+// <len> is one of:
+//
+// <empty> : there is no length field
+// len8 : the length field is 8 bits, with a range of [1, 0x100].
+def shift12only : BDMode <"BDAddr", "32", "12", "Only">;
+def shift20only : BDMode <"BDAddr", "32", "20", "Only">;
+def bdaddr12only : BDMode <"BDAddr", "64", "12", "Only">;
+def bdaddr12pair : BDMode <"BDAddr", "64", "12", "Pair">;
+def bdaddr20only : BDMode <"BDAddr", "64", "20", "Only">;
+def bdaddr20pair : BDMode <"BDAddr", "64", "20", "Pair">;
+def mviaddr12pair : BDMode <"MVIAddr", "64", "12", "Pair">;
+def mviaddr20pair : BDMode <"MVIAddr", "64", "20", "Pair">;
+def bdxaddr12only : BDXMode<"BDXAddr", "64", "12", "Only">;
+def bdxaddr12pair : BDXMode<"BDXAddr", "64", "12", "Pair">;
+def bdxaddr20only : BDXMode<"BDXAddr", "64", "20", "Only">;
+def bdxaddr20only128 : BDXMode<"BDXAddr", "64", "20", "Only128">;
+def bdxaddr20pair : BDXMode<"BDXAddr", "64", "20", "Pair">;
+def dynalloc12only : BDXMode<"DynAlloc", "64", "12", "Only">;
+def laaddr12pair : BDXMode<"LAAddr", "64", "12", "Pair">;
+def laaddr20pair : BDXMode<"LAAddr", "64", "20", "Pair">;
+def bdladdr12onlylen8 : BDLMode<"BDLAddr", "64", "12", "Only", "8">;
//===----------------------------------------------------------------------===//
// Miscellaneous
let Name = "AccessReg";
let ParserMethod = "parseAccessReg";
}
-def access_reg : Immediate<i8, [{ return N->getZExtValue() < 16; }],
+def access_reg : Immediate<i32, [{ return N->getZExtValue() < 16; }],
NOOP_SDNodeXForm, "AccessReg"> {
let ParserMatchClass = AccessReg;
}
// A 4-bit condition-code mask.
-def cond4 : PatLeaf<(i8 imm), [{ return (N->getZExtValue() < 16); }]>,
- Operand<i8> {
+def cond4 : PatLeaf<(i32 imm), [{ return (N->getZExtValue() < 16); }]>,
+ Operand<i32> {
let PrintMethod = "printCond4Operand";
}