def ADDRri : ComplexPattern<iPTR, 2, "SelectADDRri", [frameindex], []>;
// Address operands
+def SparcMEMrrAsmOperand : AsmOperandClass {
+ let Name = "MEMrr";
+ let ParserMethod = "parseMEMOperand";
+}
+
+def SparcMEMriAsmOperand : AsmOperandClass {
+ let Name = "MEMri";
+ let ParserMethod = "parseMEMOperand";
+}
+
def MEMrr : Operand<iPTR> {
let PrintMethod = "printMemOperand";
let MIOperandInfo = (ops ptr_rc, ptr_rc);
+ let ParserMatchClass = SparcMEMrrAsmOperand;
}
def MEMri : Operand<iPTR> {
let PrintMethod = "printMemOperand";
let MIOperandInfo = (ops ptr_rc, i32imm);
+ let ParserMatchClass = SparcMEMriAsmOperand;
}
def TLSSym : Operand<iPTR>;
// Branch targets have OtherVT type.
-def brtarget : Operand<OtherVT>;
-def calltarget : Operand<i32>;
+def brtarget : Operand<OtherVT> {
+ let EncoderMethod = "getBranchTargetOpValue";
+}
+
+def calltarget : Operand<i32> {
+ let EncoderMethod = "getCallTargetOpValue";
+}
// Operand for printing out a condition code.
let PrintMethod = "printCCOperand" in
[SDNPHasChain, SDNPOptInGlue, SDNPOutGlue,
SDNPVariadic]>;
-def getPCX : Operand<i32> {
+def getPCX : Operand<iPTR> {
let PrintMethod = "printGetPCX";
}
multiclass F3_12<string OpcStr, bits<6> Op3Val, SDNode OpNode,
RegisterClass RC, ValueType Ty, Operand immOp> {
def rr : F3_1<2, Op3Val,
- (outs RC:$dst), (ins RC:$b, RC:$c),
- !strconcat(OpcStr, " $b, $c, $dst"),
- [(set Ty:$dst, (OpNode Ty:$b, Ty:$c))]>;
+ (outs RC:$rd), (ins RC:$rs1, RC:$rs2),
+ !strconcat(OpcStr, " $rs1, $rs2, $rd"),
+ [(set Ty:$rd, (OpNode Ty:$rs1, Ty:$rs2))]>;
def ri : F3_2<2, Op3Val,
- (outs RC:$dst), (ins RC:$b, immOp:$c),
- !strconcat(OpcStr, " $b, $c, $dst"),
- [(set Ty:$dst, (OpNode Ty:$b, (Ty simm13:$c)))]>;
+ (outs RC:$rd), (ins RC:$rs1, immOp:$simm13),
+ !strconcat(OpcStr, " $rs1, $simm13, $rd"),
+ [(set Ty:$rd, (OpNode Ty:$rs1, (Ty simm13:$simm13)))]>;
}
/// F3_12np multiclass - Define a normal F3_1/F3_2 pattern in one shot, with no
/// pattern.
multiclass F3_12np<string OpcStr, bits<6> Op3Val> {
def rr : F3_1<2, Op3Val,
- (outs IntRegs:$dst), (ins IntRegs:$b, IntRegs:$c),
- !strconcat(OpcStr, " $b, $c, $dst"), []>;
+ (outs IntRegs:$rd), (ins IntRegs:$rs1, IntRegs:$rs2),
+ !strconcat(OpcStr, " $rs1, $rs2, $rd"), []>;
def ri : F3_2<2, Op3Val,
- (outs IntRegs:$dst), (ins IntRegs:$b, i32imm:$c),
- !strconcat(OpcStr, " $b, $c, $dst"), []>;
+ (outs IntRegs:$rd), (ins IntRegs:$rs1, i32imm:$simm13),
+ !strconcat(OpcStr, " $rs1, $simm13, $rd"), []>;
+}
+
+// Load multiclass - Define both Reg+Reg/Reg+Imm patterns in one shot.
+multiclass Load<string OpcStr, bits<6> Op3Val, SDPatternOperator OpNode,
+ RegisterClass RC, ValueType Ty> {
+ def rr : F3_1<3, Op3Val,
+ (outs RC:$dst), (ins MEMrr:$addr),
+ !strconcat(OpcStr, " [$addr], $dst"),
+ [(set Ty:$dst, (OpNode ADDRrr:$addr))]>;
+ def ri : F3_2<3, Op3Val,
+ (outs RC:$dst), (ins MEMri:$addr),
+ !strconcat(OpcStr, " [$addr], $dst"),
+ [(set Ty:$dst, (OpNode ADDRri:$addr))]>;
+}
+
+// Store multiclass - Define both Reg+Reg/Reg+Imm patterns in one shot.
+multiclass Store<string OpcStr, bits<6> Op3Val, SDPatternOperator OpNode,
+ RegisterClass RC, ValueType Ty> {
+ def rr : F3_1<3, Op3Val,
+ (outs), (ins MEMrr:$addr, RC:$rd),
+ !strconcat(OpcStr, " $rd, [$addr]"),
+ [(OpNode Ty:$rd, ADDRrr:$addr)]>;
+ def ri : F3_2<3, Op3Val,
+ (outs), (ins MEMri:$addr, RC:$rd),
+ !strconcat(OpcStr, " $rd, [$addr]"),
+ [(OpNode Ty:$rd, ADDRri:$addr)]>;
}
//===----------------------------------------------------------------------===//
// Pseudo instructions.
class Pseudo<dag outs, dag ins, string asmstr, list<dag> pattern>
- : InstSP<outs, ins, asmstr, pattern>;
+ : InstSP<outs, ins, asmstr, pattern> {
+ let isCodeGenOnly = 1;
+ let isPseudo = 1;
+}
// GETPCX for PIC
let Defs = [O7] in {
[(set f128:$dst, (SPselectfcc f128:$T, f128:$F, imm:$Cond))]>;
}
+// JMPL Instruction.
+let isTerminator = 1, hasDelaySlot = 1, isBarrier = 1 in {
+ def JMPLrr: F3_1<2, 0b111000, (outs IntRegs:$dst), (ins MEMrr:$addr),
+ "jmpl $addr, $dst", []>;
+ def JMPLri: F3_2<2, 0b111000, (outs IntRegs:$dst), (ins MEMri:$addr),
+ "jmpl $addr, $dst", []>;
+}
// Section A.3 - Synthetic Instructions, p. 85
// special cases of JMPL:
-let isReturn = 1, isTerminator = 1, hasDelaySlot = 1, isBarrier = 1 in {
+let isReturn = 1, isTerminator = 1, hasDelaySlot = 1, isBarrier = 1,
+ isCodeGenOnly = 1 in {
let rd = 0, rs1 = 15 in
def RETL: F3_2<2, 0b111000, (outs), (ins i32imm:$val),
"jmp %o7+$val", [(retflag simm13:$val)]>;
}
// Section B.1 - Load Integer Instructions, p. 90
-def LDSBrr : F3_1<3, 0b001001,
- (outs IntRegs:$dst), (ins MEMrr:$addr),
- "ldsb [$addr], $dst",
- [(set i32:$dst, (sextloadi8 ADDRrr:$addr))]>;
-def LDSBri : F3_2<3, 0b001001,
- (outs IntRegs:$dst), (ins MEMri:$addr),
- "ldsb [$addr], $dst",
- [(set i32:$dst, (sextloadi8 ADDRri:$addr))]>;
-def LDSHrr : F3_1<3, 0b001010,
- (outs IntRegs:$dst), (ins MEMrr:$addr),
- "ldsh [$addr], $dst",
- [(set i32:$dst, (sextloadi16 ADDRrr:$addr))]>;
-def LDSHri : F3_2<3, 0b001010,
- (outs IntRegs:$dst), (ins MEMri:$addr),
- "ldsh [$addr], $dst",
- [(set i32:$dst, (sextloadi16 ADDRri:$addr))]>;
-def LDUBrr : F3_1<3, 0b000001,
- (outs IntRegs:$dst), (ins MEMrr:$addr),
- "ldub [$addr], $dst",
- [(set i32:$dst, (zextloadi8 ADDRrr:$addr))]>;
-def LDUBri : F3_2<3, 0b000001,
- (outs IntRegs:$dst), (ins MEMri:$addr),
- "ldub [$addr], $dst",
- [(set i32:$dst, (zextloadi8 ADDRri:$addr))]>;
-def LDUHrr : F3_1<3, 0b000010,
- (outs IntRegs:$dst), (ins MEMrr:$addr),
- "lduh [$addr], $dst",
- [(set i32:$dst, (zextloadi16 ADDRrr:$addr))]>;
-def LDUHri : F3_2<3, 0b000010,
- (outs IntRegs:$dst), (ins MEMri:$addr),
- "lduh [$addr], $dst",
- [(set i32:$dst, (zextloadi16 ADDRri:$addr))]>;
-def LDrr : F3_1<3, 0b000000,
- (outs IntRegs:$dst), (ins MEMrr:$addr),
- "ld [$addr], $dst",
- [(set i32:$dst, (load ADDRrr:$addr))]>;
-def LDri : F3_2<3, 0b000000,
- (outs IntRegs:$dst), (ins MEMri:$addr),
- "ld [$addr], $dst",
- [(set i32:$dst, (load ADDRri:$addr))]>;
+defm LDSB : Load<"ldsb", 0b001001, sextloadi8, IntRegs, i32>;
+defm LDSH : Load<"ldsh", 0b001010, sextloadi16, IntRegs, i32>;
+defm LDUB : Load<"ldub", 0b000001, zextloadi8, IntRegs, i32>;
+defm LDUH : Load<"lduh", 0b000010, zextloadi16, IntRegs, i32>;
+defm LD : Load<"ld", 0b000000, load, IntRegs, i32>;
// Section B.2 - Load Floating-point Instructions, p. 92
-def LDFrr : F3_1<3, 0b100000,
- (outs FPRegs:$dst), (ins MEMrr:$addr),
- "ld [$addr], $dst",
- [(set f32:$dst, (load ADDRrr:$addr))]>;
-def LDFri : F3_2<3, 0b100000,
- (outs FPRegs:$dst), (ins MEMri:$addr),
- "ld [$addr], $dst",
- [(set f32:$dst, (load ADDRri:$addr))]>;
-def LDDFrr : F3_1<3, 0b100011,
- (outs DFPRegs:$dst), (ins MEMrr:$addr),
- "ldd [$addr], $dst",
- [(set f64:$dst, (load ADDRrr:$addr))]>;
-def LDDFri : F3_2<3, 0b100011,
- (outs DFPRegs:$dst), (ins MEMri:$addr),
- "ldd [$addr], $dst",
- [(set f64:$dst, (load ADDRri:$addr))]>;
-def LDQFrr : F3_1<3, 0b100010,
- (outs QFPRegs:$dst), (ins MEMrr:$addr),
- "ldq [$addr], $dst",
- [(set f128:$dst, (load ADDRrr:$addr))]>,
- Requires<[HasV9, HasHardQuad]>;
-def LDQFri : F3_2<3, 0b100010,
- (outs QFPRegs:$dst), (ins MEMri:$addr),
- "ldq [$addr], $dst",
- [(set f128:$dst, (load ADDRri:$addr))]>,
- Requires<[HasV9, HasHardQuad]>;
+defm LDF : Load<"ld", 0b100000, load, FPRegs, f32>;
+defm LDDF : Load<"ldd", 0b100011, load, DFPRegs, f64>;
+defm LDQF : Load<"ldq", 0b100010, load, QFPRegs, f128>,
+ Requires<[HasV9, HasHardQuad]>;
// Section B.4 - Store Integer Instructions, p. 95
-def STBrr : F3_1<3, 0b000101,
- (outs), (ins MEMrr:$addr, IntRegs:$rd),
- "stb $rd, [$addr]",
- [(truncstorei8 i32:$rd, ADDRrr:$addr)]>;
-def STBri : F3_2<3, 0b000101,
- (outs), (ins MEMri:$addr, IntRegs:$rd),
- "stb $rd, [$addr]",
- [(truncstorei8 i32:$rd, ADDRri:$addr)]>;
-def STHrr : F3_1<3, 0b000110,
- (outs), (ins MEMrr:$addr, IntRegs:$rd),
- "sth $rd, [$addr]",
- [(truncstorei16 i32:$rd, ADDRrr:$addr)]>;
-def STHri : F3_2<3, 0b000110,
- (outs), (ins MEMri:$addr, IntRegs:$rd),
- "sth $rd, [$addr]",
- [(truncstorei16 i32:$rd, ADDRri:$addr)]>;
-def STrr : F3_1<3, 0b000100,
- (outs), (ins MEMrr:$addr, IntRegs:$rd),
- "st $rd, [$addr]",
- [(store i32:$rd, ADDRrr:$addr)]>;
-def STri : F3_2<3, 0b000100,
- (outs), (ins MEMri:$addr, IntRegs:$rd),
- "st $rd, [$addr]",
- [(store i32:$rd, ADDRri:$addr)]>;
+defm STB : Store<"stb", 0b000101, truncstorei8, IntRegs, i32>;
+defm STH : Store<"sth", 0b000110, truncstorei16, IntRegs, i32>;
+defm ST : Store<"st", 0b000100, store, IntRegs, i32>;
// Section B.5 - Store Floating-point Instructions, p. 97
-def STFrr : F3_1<3, 0b100100,
- (outs), (ins MEMrr:$addr, FPRegs:$rd),
- "st $rd, [$addr]",
- [(store f32:$rd, ADDRrr:$addr)]>;
-def STFri : F3_2<3, 0b100100,
- (outs), (ins MEMri:$addr, FPRegs:$rd),
- "st $rd, [$addr]",
- [(store f32:$rd, ADDRri:$addr)]>;
-def STDFrr : F3_1<3, 0b100111,
- (outs), (ins MEMrr:$addr, DFPRegs:$rd),
- "std $rd, [$addr]",
- [(store f64:$rd, ADDRrr:$addr)]>;
-def STDFri : F3_2<3, 0b100111,
- (outs), (ins MEMri:$addr, DFPRegs:$rd),
- "std $rd, [$addr]",
- [(store f64:$rd, ADDRri:$addr)]>;
-def STQFrr : F3_1<3, 0b100110,
- (outs), (ins MEMrr:$addr, QFPRegs:$rd),
- "stq $rd, [$addr]",
- [(store f128:$rd, ADDRrr:$addr)]>,
- Requires<[HasV9, HasHardQuad]>;
-def STQFri : F3_2<3, 0b100110,
- (outs), (ins MEMri:$addr, QFPRegs:$rd),
- "stq $rd, [$addr]",
- [(store f128:$rd, ADDRri:$addr)]>,
- Requires<[HasV9, HasHardQuad]>;
+defm STF : Store<"st", 0b100100, store, FPRegs, f32>;
+defm STDF : Store<"std", 0b100111, store, DFPRegs, f64>;
+defm STQF : Store<"stq", 0b100110, store, QFPRegs, f128>,
+ Requires<[HasV9, HasHardQuad]>;
// Section B.9 - SETHI Instruction, p. 104
def SETHIi: F2_1<0b100,
defm AND : F3_12<"and", 0b000001, and, IntRegs, i32, i32imm>;
def ANDNrr : F3_1<2, 0b000101,
- (outs IntRegs:$dst), (ins IntRegs:$b, IntRegs:$c),
- "andn $b, $c, $dst",
- [(set i32:$dst, (and i32:$b, (not i32:$c)))]>;
+ (outs IntRegs:$rd), (ins IntRegs:$rs1, IntRegs:$rs2),
+ "andn $rs1, $rs2, $rd",
+ [(set i32:$rd, (and i32:$rs1, (not i32:$rs2)))]>;
def ANDNri : F3_2<2, 0b000101,
- (outs IntRegs:$dst), (ins IntRegs:$b, i32imm:$c),
- "andn $b, $c, $dst", []>;
+ (outs IntRegs:$rd), (ins IntRegs:$rs1, i32imm:$simm13),
+ "andn $rs1, $simm13, $rd", []>;
defm OR : F3_12<"or", 0b000010, or, IntRegs, i32, i32imm>;
def ORNrr : F3_1<2, 0b000110,
- (outs IntRegs:$dst), (ins IntRegs:$b, IntRegs:$c),
- "orn $b, $c, $dst",
- [(set i32:$dst, (or i32:$b, (not i32:$c)))]>;
+ (outs IntRegs:$rd), (ins IntRegs:$rs1, IntRegs:$rs2),
+ "orn $rs1, $rs2, $rd",
+ [(set i32:$rd, (or i32:$rs1, (not i32:$rs2)))]>;
def ORNri : F3_2<2, 0b000110,
- (outs IntRegs:$dst), (ins IntRegs:$b, i32imm:$c),
- "orn $b, $c, $dst", []>;
+ (outs IntRegs:$rd), (ins IntRegs:$rs1, i32imm:$simm13),
+ "orn $rs1, $simm13, $rd", []>;
defm XOR : F3_12<"xor", 0b000011, xor, IntRegs, i32, i32imm>;
def XNORrr : F3_1<2, 0b000111,
- (outs IntRegs:$dst), (ins IntRegs:$b, IntRegs:$c),
- "xnor $b, $c, $dst",
- [(set i32:$dst, (not (xor i32:$b, i32:$c)))]>;
+ (outs IntRegs:$rd), (ins IntRegs:$rs1, IntRegs:$rs2),
+ "xnor $rs1, $rs2, $rd",
+ [(set i32:$rd, (not (xor i32:$rs1, i32:$rs2)))]>;
def XNORri : F3_2<2, 0b000111,
- (outs IntRegs:$dst), (ins IntRegs:$b, i32imm:$c),
- "xnor $b, $c, $dst", []>;
+ (outs IntRegs:$rd), (ins IntRegs:$rs1, i32imm:$simm13),
+ "xnor $rs1, $simm13, $rd", []>;
// Section B.12 - Shift Instructions, p. 107
defm SLL : F3_12<"sll", 0b100101, shl, IntRegs, i32, i32imm>;
defm ADD : F3_12<"add", 0b000000, add, IntRegs, i32, i32imm>;
// "LEA" forms of add (patterns to make tblgen happy)
-let Predicates = [Is32Bit] in
+let Predicates = [Is32Bit], isCodeGenOnly = 1 in
def LEA_ADDri : F3_2<2, 0b000000,
(outs IntRegs:$dst), (ins MEMri:$addr),
"add ${addr:arith}, $dst",
let Defs = [ICC], rd = 0 in {
def CMPrr : F3_1<2, 0b010100,
- (outs), (ins IntRegs:$b, IntRegs:$c),
- "cmp $b, $c",
- [(SPcmpicc i32:$b, i32:$c)]>;
+ (outs), (ins IntRegs:$rs1, IntRegs:$rs2),
+ "cmp $rs1, $rs2",
+ [(SPcmpicc i32:$rs1, i32:$rs2)]>;
def CMPri : F3_2<2, 0b010100,
- (outs), (ins IntRegs:$b, i32imm:$c),
- "cmp $b, $c",
- [(SPcmpicc i32:$b, (i32 simm13:$c))]>;
+ (outs), (ins IntRegs:$rs1, i32imm:$simm13),
+ "cmp $rs1, $simm13",
+ [(SPcmpicc i32:$rs1, (i32 simm13:$simm13))]>;
}
-let Uses = [ICC], Defs = [ICC] in
- def SUBXCCrr: F3_1<2, 0b011100,
- (outs IntRegs:$dst), (ins IntRegs:$b, IntRegs:$c),
- "subxcc $b, $c, $dst", []>;
-
-
// Section B.18 - Multiply Instructions, p. 113
let Defs = [Y] in {
defm UMUL : F3_12np<"umul", 0b001010>;
}
// Indirect branch instructions.
-let isTerminator = 1, isBarrier = 1,
- hasDelaySlot = 1, isBranch =1,
- isIndirectBranch = 1, rd = 0 in {
+let isTerminator = 1, isBarrier = 1, hasDelaySlot = 1, isBranch =1,
+ isIndirectBranch = 1, rd = 0, isCodeGenOnly = 1 in {
def BINDrr : F3_1<2, 0b111000,
(outs), (ins MEMrr:$ptr),
"jmp $ptr",
let Inst{29-0} = disp;
}
- // indirect calls
- def JMPLrr : F3_1<2, 0b111000,
- (outs), (ins MEMrr:$ptr, variable_ops),
- "call $ptr",
- [(call ADDRrr:$ptr)]> { let rd = 15; }
- def JMPLri : F3_2<2, 0b111000,
- (outs), (ins MEMri:$ptr, variable_ops),
- "call $ptr",
- [(call ADDRri:$ptr)]> { let rd = 15; }
+ // indirect calls: special cases of JMPL.
+ let isCodeGenOnly = 1, rd = 15 in {
+ def CALLrr : F3_1<2, 0b111000,
+ (outs), (ins MEMrr:$ptr, variable_ops),
+ "call $ptr",
+ [(call ADDRrr:$ptr)]>;
+ def CALLri : F3_2<2, 0b111000,
+ (outs), (ins MEMri:$ptr, variable_ops),
+ "call $ptr",
+ [(call ADDRri:$ptr)]>;
+ }
}
// Section B.28 - Read State Register Instructions
}
// Convert Integer to Floating-point Instructions, p. 141
def FITOS : F3_3u<2, 0b110100, 0b011000100,
- (outs FPRegs:$dst), (ins FPRegs:$src),
- "fitos $src, $dst",
- [(set FPRegs:$dst, (SPitof FPRegs:$src))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs2),
+ "fitos $rs2, $rd",
+ [(set FPRegs:$rd, (SPitof FPRegs:$rs2))]>;
def FITOD : F3_3u<2, 0b110100, 0b011001000,
- (outs DFPRegs:$dst), (ins FPRegs:$src),
- "fitod $src, $dst",
- [(set DFPRegs:$dst, (SPitof FPRegs:$src))]>;
+ (outs DFPRegs:$rd), (ins FPRegs:$rs2),
+ "fitod $rs2, $rd",
+ [(set DFPRegs:$rd, (SPitof FPRegs:$rs2))]>;
def FITOQ : F3_3u<2, 0b110100, 0b011001100,
- (outs QFPRegs:$dst), (ins FPRegs:$src),
- "fitoq $src, $dst",
- [(set QFPRegs:$dst, (SPitof FPRegs:$src))]>,
+ (outs QFPRegs:$rd), (ins FPRegs:$rs2),
+ "fitoq $rs2, $rd",
+ [(set QFPRegs:$rd, (SPitof FPRegs:$rs2))]>,
Requires<[HasHardQuad]>;
// Convert Floating-point to Integer Instructions, p. 142
def FSTOI : F3_3u<2, 0b110100, 0b011010001,
- (outs FPRegs:$dst), (ins FPRegs:$src),
- "fstoi $src, $dst",
- [(set FPRegs:$dst, (SPftoi FPRegs:$src))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs2),
+ "fstoi $rs2, $rd",
+ [(set FPRegs:$rd, (SPftoi FPRegs:$rs2))]>;
def FDTOI : F3_3u<2, 0b110100, 0b011010010,
- (outs FPRegs:$dst), (ins DFPRegs:$src),
- "fdtoi $src, $dst",
- [(set FPRegs:$dst, (SPftoi DFPRegs:$src))]>;
+ (outs FPRegs:$rd), (ins DFPRegs:$rs2),
+ "fdtoi $rs2, $rd",
+ [(set FPRegs:$rd, (SPftoi DFPRegs:$rs2))]>;
def FQTOI : F3_3u<2, 0b110100, 0b011010011,
- (outs FPRegs:$dst), (ins QFPRegs:$src),
- "fqtoi $src, $dst",
- [(set FPRegs:$dst, (SPftoi QFPRegs:$src))]>,
+ (outs FPRegs:$rd), (ins QFPRegs:$rs2),
+ "fqtoi $rs2, $rd",
+ [(set FPRegs:$rd, (SPftoi QFPRegs:$rs2))]>,
Requires<[HasHardQuad]>;
// Convert between Floating-point Formats Instructions, p. 143
def FSTOD : F3_3u<2, 0b110100, 0b011001001,
- (outs DFPRegs:$dst), (ins FPRegs:$src),
- "fstod $src, $dst",
- [(set f64:$dst, (fextend f32:$src))]>;
+ (outs DFPRegs:$rd), (ins FPRegs:$rs2),
+ "fstod $rs2, $rd",
+ [(set f64:$rd, (fextend f32:$rs2))]>;
def FSTOQ : F3_3u<2, 0b110100, 0b011001101,
- (outs QFPRegs:$dst), (ins FPRegs:$src),
- "fstoq $src, $dst",
- [(set f128:$dst, (fextend f32:$src))]>,
+ (outs QFPRegs:$rd), (ins FPRegs:$rs2),
+ "fstoq $rs2, $rd",
+ [(set f128:$rd, (fextend f32:$rs2))]>,
Requires<[HasHardQuad]>;
def FDTOS : F3_3u<2, 0b110100, 0b011000110,
- (outs FPRegs:$dst), (ins DFPRegs:$src),
- "fdtos $src, $dst",
- [(set f32:$dst, (fround f64:$src))]>;
-def FDTOQ : F3_3u<2, 0b110100, 0b01101110,
- (outs QFPRegs:$dst), (ins DFPRegs:$src),
- "fdtoq $src, $dst",
- [(set f128:$dst, (fextend f64:$src))]>,
+ (outs FPRegs:$rd), (ins DFPRegs:$rs2),
+ "fdtos $rs2, $rd",
+ [(set f32:$rd, (fround f64:$rs2))]>;
+def FDTOQ : F3_3u<2, 0b110100, 0b011001110,
+ (outs QFPRegs:$rd), (ins DFPRegs:$rs2),
+ "fdtoq $rs2, $rd",
+ [(set f128:$rd, (fextend f64:$rs2))]>,
Requires<[HasHardQuad]>;
def FQTOS : F3_3u<2, 0b110100, 0b011000111,
- (outs FPRegs:$dst), (ins QFPRegs:$src),
- "fqtos $src, $dst",
- [(set f32:$dst, (fround f128:$src))]>,
+ (outs FPRegs:$rd), (ins QFPRegs:$rs2),
+ "fqtos $rs2, $rd",
+ [(set f32:$rd, (fround f128:$rs2))]>,
Requires<[HasHardQuad]>;
def FQTOD : F3_3u<2, 0b110100, 0b011001011,
- (outs DFPRegs:$dst), (ins QFPRegs:$src),
- "fqtod $src, $dst",
- [(set f64:$dst, (fround f128:$src))]>,
+ (outs DFPRegs:$rd), (ins QFPRegs:$rs2),
+ "fqtod $rs2, $rd",
+ [(set f64:$rd, (fround f128:$rs2))]>,
Requires<[HasHardQuad]>;
// Floating-point Move Instructions, p. 144
def FMOVS : F3_3u<2, 0b110100, 0b000000001,
- (outs FPRegs:$dst), (ins FPRegs:$src),
- "fmovs $src, $dst", []>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs2),
+ "fmovs $rs2, $rd", []>;
def FNEGS : F3_3u<2, 0b110100, 0b000000101,
- (outs FPRegs:$dst), (ins FPRegs:$src),
- "fnegs $src, $dst",
- [(set f32:$dst, (fneg f32:$src))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs2),
+ "fnegs $rs2, $rd",
+ [(set f32:$rd, (fneg f32:$rs2))]>;
def FABSS : F3_3u<2, 0b110100, 0b000001001,
- (outs FPRegs:$dst), (ins FPRegs:$src),
- "fabss $src, $dst",
- [(set f32:$dst, (fabs f32:$src))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs2),
+ "fabss $rs2, $rd",
+ [(set f32:$rd, (fabs f32:$rs2))]>;
// Floating-point Square Root Instructions, p.145
def FSQRTS : F3_3u<2, 0b110100, 0b000101001,
- (outs FPRegs:$dst), (ins FPRegs:$src),
- "fsqrts $src, $dst",
- [(set f32:$dst, (fsqrt f32:$src))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs2),
+ "fsqrts $rs2, $rd",
+ [(set f32:$rd, (fsqrt f32:$rs2))]>;
def FSQRTD : F3_3u<2, 0b110100, 0b000101010,
- (outs DFPRegs:$dst), (ins DFPRegs:$src),
- "fsqrtd $src, $dst",
- [(set f64:$dst, (fsqrt f64:$src))]>;
+ (outs DFPRegs:$rd), (ins DFPRegs:$rs2),
+ "fsqrtd $rs2, $rd",
+ [(set f64:$rd, (fsqrt f64:$rs2))]>;
def FSQRTQ : F3_3u<2, 0b110100, 0b000101011,
- (outs QFPRegs:$dst), (ins QFPRegs:$src),
- "fsqrtq $src, $dst",
- [(set f128:$dst, (fsqrt f128:$src))]>,
+ (outs QFPRegs:$rd), (ins QFPRegs:$rs2),
+ "fsqrtq $rs2, $rd",
+ [(set f128:$rd, (fsqrt f128:$rs2))]>,
Requires<[HasHardQuad]>;
// Floating-point Add and Subtract Instructions, p. 146
def FADDS : F3_3<2, 0b110100, 0b001000001,
- (outs FPRegs:$dst), (ins FPRegs:$src1, FPRegs:$src2),
- "fadds $src1, $src2, $dst",
- [(set f32:$dst, (fadd f32:$src1, f32:$src2))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs1, FPRegs:$rs2),
+ "fadds $rs1, $rs2, $rd",
+ [(set f32:$rd, (fadd f32:$rs1, f32:$rs2))]>;
def FADDD : F3_3<2, 0b110100, 0b001000010,
- (outs DFPRegs:$dst), (ins DFPRegs:$src1, DFPRegs:$src2),
- "faddd $src1, $src2, $dst",
- [(set f64:$dst, (fadd f64:$src1, f64:$src2))]>;
+ (outs DFPRegs:$rd), (ins DFPRegs:$rs1, DFPRegs:$rs2),
+ "faddd $rs1, $rs2, $rd",
+ [(set f64:$rd, (fadd f64:$rs1, f64:$rs2))]>;
def FADDQ : F3_3<2, 0b110100, 0b001000011,
- (outs QFPRegs:$dst), (ins QFPRegs:$src1, QFPRegs:$src2),
- "faddq $src1, $src2, $dst",
- [(set f128:$dst, (fadd f128:$src1, f128:$src2))]>,
+ (outs QFPRegs:$rd), (ins QFPRegs:$rs1, QFPRegs:$rs2),
+ "faddq $rs1, $rs2, $rd",
+ [(set f128:$rd, (fadd f128:$rs1, f128:$rs2))]>,
Requires<[HasHardQuad]>;
def FSUBS : F3_3<2, 0b110100, 0b001000101,
- (outs FPRegs:$dst), (ins FPRegs:$src1, FPRegs:$src2),
- "fsubs $src1, $src2, $dst",
- [(set f32:$dst, (fsub f32:$src1, f32:$src2))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs1, FPRegs:$rs2),
+ "fsubs $rs1, $rs2, $rd",
+ [(set f32:$rd, (fsub f32:$rs1, f32:$rs2))]>;
def FSUBD : F3_3<2, 0b110100, 0b001000110,
- (outs DFPRegs:$dst), (ins DFPRegs:$src1, DFPRegs:$src2),
- "fsubd $src1, $src2, $dst",
- [(set f64:$dst, (fsub f64:$src1, f64:$src2))]>;
+ (outs DFPRegs:$rd), (ins DFPRegs:$rs1, DFPRegs:$rs2),
+ "fsubd $rs1, $rs2, $rd",
+ [(set f64:$rd, (fsub f64:$rs1, f64:$rs2))]>;
def FSUBQ : F3_3<2, 0b110100, 0b001000111,
- (outs QFPRegs:$dst), (ins QFPRegs:$src1, QFPRegs:$src2),
- "fsubq $src1, $src2, $dst",
- [(set f128:$dst, (fsub f128:$src1, f128:$src2))]>,
+ (outs QFPRegs:$rd), (ins QFPRegs:$rs1, QFPRegs:$rs2),
+ "fsubq $rs1, $rs2, $rd",
+ [(set f128:$rd, (fsub f128:$rs1, f128:$rs2))]>,
Requires<[HasHardQuad]>;
// Floating-point Multiply and Divide Instructions, p. 147
def FMULS : F3_3<2, 0b110100, 0b001001001,
- (outs FPRegs:$dst), (ins FPRegs:$src1, FPRegs:$src2),
- "fmuls $src1, $src2, $dst",
- [(set f32:$dst, (fmul f32:$src1, f32:$src2))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs1, FPRegs:$rs2),
+ "fmuls $rs1, $rs2, $rd",
+ [(set f32:$rd, (fmul f32:$rs1, f32:$rs2))]>;
def FMULD : F3_3<2, 0b110100, 0b001001010,
- (outs DFPRegs:$dst), (ins DFPRegs:$src1, DFPRegs:$src2),
- "fmuld $src1, $src2, $dst",
- [(set f64:$dst, (fmul f64:$src1, f64:$src2))]>;
+ (outs DFPRegs:$rd), (ins DFPRegs:$rs1, DFPRegs:$rs2),
+ "fmuld $rs1, $rs2, $rd",
+ [(set f64:$rd, (fmul f64:$rs1, f64:$rs2))]>;
def FMULQ : F3_3<2, 0b110100, 0b001001011,
- (outs QFPRegs:$dst), (ins QFPRegs:$src1, QFPRegs:$src2),
- "fmulq $src1, $src2, $dst",
- [(set f128:$dst, (fmul f128:$src1, f128:$src2))]>,
+ (outs QFPRegs:$rd), (ins QFPRegs:$rs1, QFPRegs:$rs2),
+ "fmulq $rs1, $rs2, $rd",
+ [(set f128:$rd, (fmul f128:$rs1, f128:$rs2))]>,
Requires<[HasHardQuad]>;
def FSMULD : F3_3<2, 0b110100, 0b001101001,
- (outs DFPRegs:$dst), (ins FPRegs:$src1, FPRegs:$src2),
- "fsmuld $src1, $src2, $dst",
- [(set f64:$dst, (fmul (fextend f32:$src1),
- (fextend f32:$src2)))]>;
+ (outs DFPRegs:$rd), (ins FPRegs:$rs1, FPRegs:$rs2),
+ "fsmuld $rs1, $rs2, $rd",
+ [(set f64:$rd, (fmul (fextend f32:$rs1),
+ (fextend f32:$rs2)))]>;
def FDMULQ : F3_3<2, 0b110100, 0b001101110,
- (outs QFPRegs:$dst), (ins DFPRegs:$src1, DFPRegs:$src2),
- "fdmulq $src1, $src2, $dst",
- [(set f128:$dst, (fmul (fextend f64:$src1),
- (fextend f64:$src2)))]>,
+ (outs QFPRegs:$rd), (ins DFPRegs:$rs1, DFPRegs:$rs2),
+ "fdmulq $rs1, $rs2, $rd",
+ [(set f128:$rd, (fmul (fextend f64:$rs1),
+ (fextend f64:$rs2)))]>,
Requires<[HasHardQuad]>;
def FDIVS : F3_3<2, 0b110100, 0b001001101,
- (outs FPRegs:$dst), (ins FPRegs:$src1, FPRegs:$src2),
- "fdivs $src1, $src2, $dst",
- [(set f32:$dst, (fdiv f32:$src1, f32:$src2))]>;
+ (outs FPRegs:$rd), (ins FPRegs:$rs1, FPRegs:$rs2),
+ "fdivs $rs1, $rs2, $rd",
+ [(set f32:$rd, (fdiv f32:$rs1, f32:$rs2))]>;
def FDIVD : F3_3<2, 0b110100, 0b001001110,
- (outs DFPRegs:$dst), (ins DFPRegs:$src1, DFPRegs:$src2),
- "fdivd $src1, $src2, $dst",
- [(set f64:$dst, (fdiv f64:$src1, f64:$src2))]>;
+ (outs DFPRegs:$rd), (ins DFPRegs:$rs1, DFPRegs:$rs2),
+ "fdivd $rs1, $rs2, $rd",
+ [(set f64:$rd, (fdiv f64:$rs1, f64:$rs2))]>;
def FDIVQ : F3_3<2, 0b110100, 0b001001111,
- (outs QFPRegs:$dst), (ins QFPRegs:$src1, QFPRegs:$src2),
- "fdivq $src1, $src2, $dst",
- [(set f128:$dst, (fdiv f128:$src1, f128:$src2))]>,
+ (outs QFPRegs:$rd), (ins QFPRegs:$rs1, QFPRegs:$rs2),
+ "fdivq $rs1, $rs2, $rd",
+ [(set f128:$rd, (fdiv f128:$rs1, f128:$rs2))]>,
Requires<[HasHardQuad]>;
// Floating-point Compare Instructions, p. 148
let Defs = [FCC] in {
def FCMPS : F3_3c<2, 0b110101, 0b001010001,
- (outs), (ins FPRegs:$src1, FPRegs:$src2),
- "fcmps $src1, $src2",
- [(SPcmpfcc f32:$src1, f32:$src2)]>;
+ (outs), (ins FPRegs:$rs1, FPRegs:$rs2),
+ "fcmps $rs1, $rs2",
+ [(SPcmpfcc f32:$rs1, f32:$rs2)]>;
def FCMPD : F3_3c<2, 0b110101, 0b001010010,
- (outs), (ins DFPRegs:$src1, DFPRegs:$src2),
- "fcmpd $src1, $src2",
- [(SPcmpfcc f64:$src1, f64:$src2)]>;
+ (outs), (ins DFPRegs:$rs1, DFPRegs:$rs2),
+ "fcmpd $rs1, $rs2",
+ [(SPcmpfcc f64:$rs1, f64:$rs2)]>;
def FCMPQ : F3_3c<2, 0b110101, 0b001010011,
- (outs), (ins QFPRegs:$src1, QFPRegs:$src2),
- "fcmpq $src1, $src2",
- [(SPcmpfcc f128:$src1, f128:$src2)]>,
+ (outs), (ins QFPRegs:$rs1, QFPRegs:$rs2),
+ "fcmpq $rs1, $rs2",
+ [(SPcmpfcc f128:$rs1, f128:$rs2)]>,
Requires<[HasHardQuad]>;
}
//===----------------------------------------------------------------------===//
// Instructions for Thread Local Storage(TLS).
//===----------------------------------------------------------------------===//
-
+let isCodeGenOnly = 1, isAsmParserOnly = 1 in {
def TLS_ADDrr : F3_1<2, 0b000000,
(outs IntRegs:$rd),
(ins IntRegs:$rs1, IntRegs:$rs2, TLSSym:$sym),
let op = 1;
let Inst{29-0} = disp;
}
+}
//===----------------------------------------------------------------------===//
// V9 Instructions
def FMOVQ_ICC
: F4_3<0b110101, 0b000011, (outs QFPRegs:$rd),
(ins QFPRegs:$rs2, QFPRegs:$f, CCOp:$cond),
- "fmovd$cond %icc, $rs2, $rd",
- [(set f128:$rd, (SPselecticc f128:$rs2, f128:$f, imm:$cond))]>;
+ "fmovq$cond %icc, $rs2, $rd",
+ [(set f128:$rd, (SPselecticc f128:$rs2, f128:$f, imm:$cond))]>,
+ Requires<[HasHardQuad]>;
}
let Uses = [FCC], opf_cc = 0b000 in {
def FMOVQ_FCC
: F4_3<0b110101, 0b000011, (outs QFPRegs:$rd),
(ins QFPRegs:$rs2, QFPRegs:$f, CCOp:$cond),
- "fmovd$cond %fcc0, $rs2, $rd",
- [(set f128:$rd, (SPselectfcc f128:$rs2, f128:$f, imm:$cond))]>;
+ "fmovq$cond %fcc0, $rs2, $rd",
+ [(set f128:$rd, (SPselectfcc f128:$rs2, f128:$f, imm:$cond))]>,
+ Requires<[HasHardQuad]>;
}
}
// Floating-Point Move Instructions, p. 164 of the V9 manual.
let Predicates = [HasV9] in {
def FMOVD : F3_3u<2, 0b110100, 0b000000010,
- (outs DFPRegs:$dst), (ins DFPRegs:$src),
- "fmovd $src, $dst", []>;
+ (outs DFPRegs:$rd), (ins DFPRegs:$rs2),
+ "fmovd $rs2, $rd", []>;
def FMOVQ : F3_3u<2, 0b110100, 0b000000011,
- (outs QFPRegs:$dst), (ins QFPRegs:$src),
- "fmovq $src, $dst", []>,
+ (outs QFPRegs:$rd), (ins QFPRegs:$rs2),
+ "fmovq $rs2, $rd", []>,
Requires<[HasHardQuad]>;
def FNEGD : F3_3u<2, 0b110100, 0b000000110,
- (outs DFPRegs:$dst), (ins DFPRegs:$src),
- "fnegd $src, $dst",
- [(set f64:$dst, (fneg f64:$src))]>;
+ (outs DFPRegs:$rd), (ins DFPRegs:$rs2),
+ "fnegd $rs2, $rd",
+ [(set f64:$rd, (fneg f64:$rs2))]>;
def FNEGQ : F3_3u<2, 0b110100, 0b000000111,
- (outs QFPRegs:$dst), (ins QFPRegs:$src),
- "fnegq $src, $dst",
- [(set f128:$dst, (fneg f128:$src))]>,
+ (outs QFPRegs:$rd), (ins QFPRegs:$rs2),
+ "fnegq $rs2, $rd",
+ [(set f128:$rd, (fneg f128:$rs2))]>,
Requires<[HasHardQuad]>;
def FABSD : F3_3u<2, 0b110100, 0b000001010,
- (outs DFPRegs:$dst), (ins DFPRegs:$src),
- "fabsd $src, $dst",
- [(set f64:$dst, (fabs f64:$src))]>;
+ (outs DFPRegs:$rd), (ins DFPRegs:$rs2),
+ "fabsd $rs2, $rd",
+ [(set f64:$rd, (fabs f64:$rs2))]>;
def FABSQ : F3_3u<2, 0b110100, 0b000001011,
- (outs QFPRegs:$dst), (ins QFPRegs:$src),
- "fabsq $src, $dst",
- [(set f128:$dst, (fabs f128:$src))]>,
+ (outs QFPRegs:$rd), (ins QFPRegs:$rs2),
+ "fabsq $rs2, $rd",
+ [(set f128:$rd, (fabs f128:$rs2))]>,
Requires<[HasHardQuad]>;
}
def MEMBARi : F3_2<2, 0b101000, (outs), (ins i32imm:$simm13),
"membar $simm13", []>;
-let Constraints = "$val = $rd" in {
+let Constraints = "$val = $dst" in {
def SWAPrr : F3_1<3, 0b001111,
- (outs IntRegs:$rd), (ins IntRegs:$val, MEMrr:$addr),
- "swap [$addr], $rd",
- [(set i32:$rd, (atomic_swap_32 ADDRrr:$addr, i32:$val))]>;
+ (outs IntRegs:$dst), (ins MEMrr:$addr, IntRegs:$val),
+ "swap [$addr], $dst",
+ [(set i32:$dst, (atomic_swap_32 ADDRrr:$addr, i32:$val))]>;
def SWAPri : F3_2<3, 0b001111,
- (outs IntRegs:$rd), (ins IntRegs:$val, MEMri:$addr),
- "swap [$addr], $rd",
- [(set i32:$rd, (atomic_swap_32 ADDRri:$addr, i32:$val))]>;
+ (outs IntRegs:$dst), (ins MEMri:$addr, IntRegs:$val),
+ "swap [$addr], $dst",
+ [(set i32:$dst, (atomic_swap_32 ADDRri:$addr, i32:$val))]>;
}
let Predicates = [HasV9], Constraints = "$swap = $rd" in
- def CASrr: F3_1<3, 0b111100,
+ def CASrr: F3_1_asi<3, 0b111100, 0b10000000,
(outs IntRegs:$rd), (ins IntRegs:$rs1, IntRegs:$rs2,
IntRegs:$swap),
"cas [$rs1], $rs2, $rd",
include "SparcInstr64Bit.td"
+include "SparcInstrAliases.td"
projects / oota-llvm.git / blobdiff