class R600Reg <string name, bits<16> encoding> : Register<name> {
let Namespace = "AMDGPU";
let HWEncoding = encoding;
}
class R600RegWithChan <string name, bits<9> sel, string chan> :
Register <name> {
field bits<2> chan_encoding = !if(!eq(chan, "X"), 0,
!if(!eq(chan, "Y"), 1,
!if(!eq(chan, "Z"), 2,
!if(!eq(chan, "W"), 3, 0))));
let HWEncoding{8-0} = sel;
let HWEncoding{10-9} = chan_encoding;
let Namespace = "AMDGPU";
}
class R600Reg_128<string n, list<Register> subregs, bits<16> encoding> :
RegisterWithSubRegs<n, subregs> {
field bits<2> chan_encoding = 0;
let Namespace = "AMDGPU";
let SubRegIndices = [sub0, sub1, sub2, sub3];
let HWEncoding{8-0} = encoding{8-0};
let HWEncoding{10-9} = chan_encoding;
}
class R600Reg_64<string n, list<Register> subregs, bits<16> encoding> :
RegisterWithSubRegs<n, subregs> {
field bits<2> chan_encoding = 0;
let Namespace = "AMDGPU";
let SubRegIndices = [sub0, sub1];
let HWEncoding = encoding;
let HWEncoding{8-0} = encoding{8-0};
let HWEncoding{10-9} = chan_encoding;
}
class R600Reg_64Vertical<int lo, int hi, string chan> : R600Reg_64 <
"V"#lo#hi#"_"#chan,
[!cast<Register>("T"#lo#"_"#chan), !cast<Register>("T"#hi#"_"#chan)],
lo
>;
foreach Index = 0-127 in {
foreach Chan = [ "X", "Y", "Z", "W" ] in {
// 32-bit Temporary Registers
def T#Index#_#Chan : R600RegWithChan <"T"#Index#"."#Chan, Index, Chan>;
// Indirect addressing offset registers
def Addr#Index#_#Chan : R600RegWithChan <"T("#Index#" + AR.x)."#Chan,
Index, Chan>;
}
// 128-bit Temporary Registers
def T#Index#_XYZW : R600Reg_128 <"T"#Index#"",
[!cast<Register>("T"#Index#"_X"),
!cast<Register>("T"#Index#"_Y"),
!cast<Register>("T"#Index#"_Z"),
!cast<Register>("T"#Index#"_W")],
Index>;
def T#Index#_XY : R600Reg_64 <"T"#Index#"",
[!cast<Register>("T"#Index#"_X"),
!cast<Register>("T"#Index#"_Y")],
Index>;
}
foreach Chan = [ "X", "Y", "Z", "W"] in {
let chan_encoding = !if(!eq(Chan, "X"), 0,
!if(!eq(Chan, "Y"), 1,
!if(!eq(Chan, "Z"), 2,
!if(!eq(Chan, "W"), 3, 0)))) in {
def V0123_#Chan : R600Reg_128 <"V0123_"#Chan,
[!cast<Register>("T0_"#Chan),
!cast<Register>("T1_"#Chan),
!cast<Register>("T2_"#Chan),
!cast<Register>("T3_"#Chan)],
0>;
def V01_#Chan : R600Reg_64Vertical<0, 1, Chan>;
def V23_#Chan : R600Reg_64Vertical<2, 3, Chan>;
}
}
// KCACHE_BANK0
foreach Index = 159-128 in {
foreach Chan = [ "X", "Y", "Z", "W" ] in {
// 32-bit Temporary Registers
def KC0_#Index#_#Chan : R600RegWithChan <"KC0["#!add(Index,-128)#"]."#Chan, Index, Chan>;
}
// 128-bit Temporary Registers
def KC0_#Index#_XYZW : R600Reg_128 <"KC0["#!add(Index, -128)#"].XYZW",
[!cast<Register>("KC0_"#Index#"_X"),
!cast<Register>("KC0_"#Index#"_Y"),
!cast<Register>("KC0_"#Index#"_Z"),
!cast<Register>("KC0_"#Index#"_W")],
Index>;
}
// KCACHE_BANK1
foreach Index = 191-160 in {
foreach Chan = [ "X", "Y", "Z", "W" ] in {
// 32-bit Temporary Registers
def KC1_#Index#_#Chan : R600RegWithChan <"KC1["#!add(Index,-160)#"]."#Chan, Index, Chan>;
}
// 128-bit Temporary Registers
def KC1_#Index#_XYZW : R600Reg_128 <"KC1["#!add(Index, -160)#"].XYZW",
[!cast<Register>("KC1_"#Index#"_X"),
!cast<Register>("KC1_"#Index#"_Y"),
!cast<Register>("KC1_"#Index#"_Z"),
!cast<Register>("KC1_"#Index#"_W")],
Index>;
}
// Array Base Register holding input in FS
foreach Index = 448-480 in {
def ArrayBase#Index : R600Reg<"ARRAY_BASE", Index>;
}
// Special Registers
def OQA : R600Reg<"OQA", 219>;
def OQB : R600Reg<"OQB", 220>;
def OQAP : R600Reg<"OQAP", 221>;
def OQBP : R600Reg<"OQAP", 222>;
def LDS_DIRECT_A : R600Reg<"LDS_DIRECT_A", 223>;
def LDS_DIRECT_B : R600Reg<"LDS_DIRECT_B", 224>;
def ZERO : R600Reg<"0.0", 248>;
def ONE : R600Reg<"1.0", 249>;
def NEG_ONE : R600Reg<"-1.0", 249>;
def ONE_INT : R600Reg<"1", 250>;
def HALF : R600Reg<"0.5", 252>;
def NEG_HALF : R600Reg<"-0.5", 252>;
def ALU_LITERAL_X : R600RegWithChan<"literal.x", 253, "X">;
def ALU_LITERAL_Y : R600RegWithChan<"literal.y", 253, "Y">;
def ALU_LITERAL_Z : R600RegWithChan<"literal.z", 253, "Z">;
def ALU_LITERAL_W : R600RegWithChan<"literal.w", 253, "W">;
def PV_X : R600RegWithChan<"PV.X", 254, "X">;
def PV_Y : R600RegWithChan<"PV.Y", 254, "Y">;
def PV_Z : R600RegWithChan<"PV.Z", 254, "Z">;
def PV_W : R600RegWithChan<"PV.W", 254, "W">;
def PS: R600Reg<"PS", 255>;
def PREDICATE_BIT : R600Reg<"PredicateBit", 0>;
def PRED_SEL_OFF: R600Reg<"Pred_sel_off", 0>;
def PRED_SEL_ZERO : R600Reg<"Pred_sel_zero", 2>;
def PRED_SEL_ONE : R600Reg<"Pred_sel_one", 3>;
def AR_X : R600Reg<"AR.x", 0>;
def INDIRECT_BASE_ADDR : R600Reg <"INDIRECT_BASE_ADDR", 0>;
def R600_ArrayBase : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "ArrayBase%u", 448, 480))> {
let Weight = 0;
}
// special registers for ALU src operands
// const buffer reference, SRCx_SEL contains index
def ALU_CONST : R600Reg<"CBuf", 0>;
// interpolation param reference, SRCx_SEL contains index
def ALU_PARAM : R600Reg<"Param", 0>;
let Weight = 0 in {
let isAllocatable = 0 in {
def R600_Addr : RegisterClass <"AMDGPU", [i32], 32, (add (sequence "Addr%u_X", 0, 127))>;
// We only use Addr_[YZW] for vertical vectors.
// FIXME if we add more vertical vector registers we will need to ad more
// registers to these classes.
def R600_Addr_Y : RegisterClass <"AMDGPU", [i32], 32, (add Addr0_Y)>;
def R600_Addr_Z : RegisterClass <"AMDGPU", [i32], 32, (add Addr0_Z)>;
def R600_Addr_W : RegisterClass <"AMDGPU", [i32], 32, (add Addr0_W)>;
def R600_LDS_SRC_REG : RegisterClass<"AMDGPU", [i32], 32,
(add OQA, OQB, OQAP, OQBP, LDS_DIRECT_A, LDS_DIRECT_B)>;
def R600_KC0_X : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "KC0_%u_X", 128, 159))>;
def R600_KC0_Y : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "KC0_%u_Y", 128, 159))>;
def R600_KC0_Z : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "KC0_%u_Z", 128, 159))>;
def R600_KC0_W : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "KC0_%u_W", 128, 159))>;
def R600_KC0 : RegisterClass <"AMDGPU", [f32, i32], 32,
(interleave R600_KC0_X, R600_KC0_Y,
R600_KC0_Z, R600_KC0_W)>;
def R600_KC1_X : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "KC1_%u_X", 160, 191))>;
def R600_KC1_Y : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "KC1_%u_Y", 160, 191))>;
def R600_KC1_Z : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "KC1_%u_Z", 160, 191))>;
def R600_KC1_W : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "KC1_%u_W", 160, 191))>;
def R600_KC1 : RegisterClass <"AMDGPU", [f32, i32], 32,
(interleave R600_KC1_X, R600_KC1_Y,
R600_KC1_Z, R600_KC1_W)>;
} // End isAllocatable = 0
def R600_TReg32_X : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "T%u_X", 0, 127), AR_X)>;
def R600_TReg32_Y : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "T%u_Y", 0, 127))>;
def R600_TReg32_Z : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "T%u_Z", 0, 127))>;
def R600_TReg32_W : RegisterClass <"AMDGPU", [f32, i32], 32,
(add (sequence "T%u_W", 0, 127))>;
def R600_TReg32 : RegisterClass <"AMDGPU", [f32, i32], 32,
(interleave R600_TReg32_X, R600_TReg32_Y,
R600_TReg32_Z, R600_TReg32_W)>;
def R600_Reg32 : RegisterClass <"AMDGPU", [f32, i32], 32, (add
R600_TReg32,
R600_ArrayBase,
R600_Addr,
R600_KC0, R600_KC1,
ZERO, HALF, ONE, ONE_INT, PV_X, ALU_LITERAL_X, NEG_ONE, NEG_HALF,
ALU_CONST, ALU_PARAM, OQAP, INDIRECT_BASE_ADDR
)>;
def R600_Predicate : RegisterClass <"AMDGPU", [i32], 32, (add
PRED_SEL_OFF, PRED_SEL_ZERO, PRED_SEL_ONE)>;
def R600_Predicate_Bit: RegisterClass <"AMDGPU", [i32], 32, (add
PREDICATE_BIT)>;
def R600_Reg128 : RegisterClass<"AMDGPU", [v4f32, v4i32], 128,
(add (sequence "T%u_XYZW", 0, 127))> {
let CopyCost = -1;
}
def R600_Reg128Vertical : RegisterClass<"AMDGPU", [v4f32, v4i32], 128,
(add V0123_W, V0123_Z, V0123_Y, V0123_X)
>;
def R600_Reg64 : RegisterClass<"AMDGPU", [v2f32, v2i32, i64, f64], 64,
(add (sequence "T%u_XY", 0, 63))>;
def R600_Reg64Vertical : RegisterClass<"AMDGPU", [v2f32, v2i32], 64,
(add V01_X, V01_Y, V01_Z, V01_W,
V23_X, V23_Y, V23_Z, V23_W)>;
} // End let Weight = 0