1 //===-- HexagonRegisterInfo.td - Hexagon Register defs -----*- tablegen -*-===//
3 // The LLVM Compiler Infrastructure
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
8 //===----------------------------------------------------------------------===//
10 //===----------------------------------------------------------------------===//
11 // Declarations that describe the Hexagon register file.
12 //===----------------------------------------------------------------------===//
14 let Namespace = "Hexagon" in {
16 class HexagonReg<bits<5> num, string n, list<string> alt = [],
17 list<Register> alias = []> : Register<n, alt> {
19 let HWEncoding{4-0} = num;
22 class HexagonDoubleReg<bits<5> num, string n, list<Register> subregs,
23 list<string> alt = []> :
24 RegisterWithSubRegs<n, subregs> {
26 let HWEncoding{4-0} = num;
29 // Registers are identified with 5-bit ID numbers.
30 // Ri - 32-bit integer registers.
31 class Ri<bits<5> num, string n, list<string> alt = []> :
32 HexagonReg<num, n, alt>;
34 // Rf - 32-bit floating-point registers.
35 class Rf<bits<5> num, string n> : HexagonReg<num, n>;
37 // Rd - 64-bit registers.
38 class Rd<bits<5> num, string n, list<Register> subregs,
39 list<string> alt = []> :
40 HexagonDoubleReg<num, n, subregs, alt> {
41 let SubRegs = subregs;
44 // Rp - predicate registers
45 class Rp<bits<5> num, string n> : HexagonReg<num, n>;
48 // Rq - vector predicate registers
49 class Rq<bits<3> num, string n> : Register<n, []> {
50 let HWEncoding{2-0} = num;
53 // Rc - control registers
54 class Rc<bits<5> num, string n,
55 list<string> alt = [], list<Register> alias = []> :
56 HexagonReg<num, n, alt, alias>;
58 // Rcc - 64-bit control registers.
59 class Rcc<bits<5> num, string n, list<Register> subregs,
60 list<string> alt = []> :
61 HexagonDoubleReg<num, n, subregs, alt> {
62 let SubRegs = subregs;
65 // Mx - address modifier registers
66 class Mx<bits<1> num, string n> : Register<n, []> {
67 let HWEncoding{0} = num;
70 // Rg - Guest/Hypervisor registers
71 class Rg<bits<5> num, string n,
72 list<string> alt = [], list<Register> alias = []> :
73 HexagonReg<num, n, alt, alias>;
75 // Rgg - 64-bit Guest/Hypervisor registers
76 class Rgg<bits<5> num, string n, list<Register> subregs> :
77 HexagonDoubleReg<num, n, subregs> {
78 let SubRegs = subregs;
81 def isub_lo : SubRegIndex<32>;
82 def isub_hi : SubRegIndex<32, 32>;
83 def vsub_lo : SubRegIndex<512>;
84 def vsub_hi : SubRegIndex<512, 512>;
85 def subreg_overflow : SubRegIndex<1, 0>;
89 def R#i : Ri<i, "r"#i>, DwarfRegNum<[i]>;
92 def R29 : Ri<29, "r29", ["sp"]>, DwarfRegNum<[29]>;
93 def R30 : Ri<30, "r30", ["fp"]>, DwarfRegNum<[30]>;
94 def R31 : Ri<31, "r31", ["lr"]>, DwarfRegNum<[31]>;
96 // Aliases of the R* registers used to hold 64-bit int values (doubles).
97 let SubRegIndices = [isub_lo, isub_hi], CoveredBySubRegs = 1 in {
98 def D0 : Rd< 0, "r1:0", [R0, R1]>, DwarfRegNum<[32]>;
99 def D1 : Rd< 2, "r3:2", [R2, R3]>, DwarfRegNum<[34]>;
100 def D2 : Rd< 4, "r5:4", [R4, R5]>, DwarfRegNum<[36]>;
101 def D3 : Rd< 6, "r7:6", [R6, R7]>, DwarfRegNum<[38]>;
102 def D4 : Rd< 8, "r9:8", [R8, R9]>, DwarfRegNum<[40]>;
103 def D5 : Rd<10, "r11:10", [R10, R11]>, DwarfRegNum<[42]>;
104 def D6 : Rd<12, "r13:12", [R12, R13]>, DwarfRegNum<[44]>;
105 def D7 : Rd<14, "r15:14", [R14, R15]>, DwarfRegNum<[46]>;
106 def D8 : Rd<16, "r17:16", [R16, R17]>, DwarfRegNum<[48]>;
107 def D9 : Rd<18, "r19:18", [R18, R19]>, DwarfRegNum<[50]>;
108 def D10 : Rd<20, "r21:20", [R20, R21]>, DwarfRegNum<[52]>;
109 def D11 : Rd<22, "r23:22", [R22, R23]>, DwarfRegNum<[54]>;
110 def D12 : Rd<24, "r25:24", [R24, R25]>, DwarfRegNum<[56]>;
111 def D13 : Rd<26, "r27:26", [R26, R27]>, DwarfRegNum<[58]>;
112 def D14 : Rd<28, "r29:28", [R28, R29]>, DwarfRegNum<[60]>;
113 def D15 : Rd<30, "r31:30", [R30, R31], ["lr:fp"]>, DwarfRegNum<[62]>;
116 // Predicate registers.
117 def P0 : Rp<0, "p0">, DwarfRegNum<[63]>;
118 def P1 : Rp<1, "p1">, DwarfRegNum<[64]>;
119 def P2 : Rp<2, "p2">, DwarfRegNum<[65]>;
120 def P3 : Rp<3, "p3">, DwarfRegNum<[66]>;
122 // Fake register to represent USR.OVF bit. Artihmetic/saturating instruc-
123 // tions modify this bit, and multiple such instructions are allowed in the
124 // same packet. We need to ignore output dependencies on this bit, but not
125 // on the entire USR.
126 def USR_OVF : Rc<?, "usr.ovf">;
128 def USR : Rc<8, "usr", ["c8"]>, DwarfRegNum<[75]> {
129 let SubRegIndices = [subreg_overflow];
130 let SubRegs = [USR_OVF];
133 // Control registers.
134 def SA0: Rc<0, "sa0", ["c0"]>, DwarfRegNum<[67]>;
135 def LC0: Rc<1, "lc0", ["c1"]>, DwarfRegNum<[68]>;
136 def SA1: Rc<2, "sa1", ["c2"]>, DwarfRegNum<[69]>;
137 def LC1: Rc<3, "lc1", ["c3"]>, DwarfRegNum<[70]>;
138 def P3_0: Rc<4, "p3:0", ["c4"], [P0, P1, P2, P3]>,
140 // When defining more Cn registers, make sure to explicitly mark them
141 // as reserved in HexagonRegisterInfo.cpp.
142 def C5: Rc<5, "c5", ["c5"]>, DwarfRegNum<[72]>;
143 def M0: Rc<6, "m0", ["c6"]>, DwarfRegNum<[73]>;
144 def M1: Rc<7, "m1", ["c7"]>, DwarfRegNum<[74]>;
145 // Define C8 separately and make it aliased with USR.
146 // The problem is that USR has subregisters (e.g. overflow). If USR was
147 // specified as a subregister of C9_8, it would imply that subreg_overflow
148 // and isub_lo can be composed, which leads to all kinds of issues
150 def C8: Rc<8, "c8", [], [USR]>, DwarfRegNum<[75]>;
151 def PC: Rc<9, "pc", ["c9"]>, DwarfRegNum<[76]>;
152 def UGP: Rc<10, "ugp", ["c10"]>, DwarfRegNum<[77]>;
153 def GP: Rc<11, "gp", ["c11"]>, DwarfRegNum<[78]>;
154 def CS0: Rc<12, "cs0", ["c12"]>, DwarfRegNum<[79]>;
155 def CS1: Rc<13, "cs1", ["c13"]>, DwarfRegNum<[80]>;
156 def UPCYCLELO: Rc<14, "upcyclelo", ["c14"]>, DwarfRegNum<[81]>;
157 def UPCYCLEHI: Rc<15, "upcyclehi", ["c15"]>, DwarfRegNum<[82]>;
158 def FRAMELIMIT: Rc<16, "framelimit", ["c16"]>, DwarfRegNum<[83]>;
159 def FRAMEKEY: Rc<17, "framekey", ["c17"]>, DwarfRegNum<[84]>;
160 def PKTCOUNTLO: Rc<18, "pktcountlo", ["c18"]>, DwarfRegNum<[85]>;
161 def PKTCOUNTHI: Rc<19, "pktcounthi", ["c19"]>, DwarfRegNum<[86]>;
162 def UTIMERLO: Rc<30, "utimerlo", ["c30"]>, DwarfRegNum<[97]>;
163 def UTIMERHI: Rc<31, "utimerhi", ["c31"]>, DwarfRegNum<[98]>;
165 // Control registers pairs.
166 let SubRegIndices = [isub_lo, isub_hi], CoveredBySubRegs = 1 in {
167 def C1_0 : Rcc<0, "c1:0", [SA0, LC0], ["lc0:sa0"]>, DwarfRegNum<[67]>;
168 def C3_2 : Rcc<2, "c3:2", [SA1, LC1], ["lc1:sa1"]>, DwarfRegNum<[69]>;
169 def C5_4 : Rcc<4, "c5:4", [P3_0, C5]>, DwarfRegNum<[71]>;
170 def C7_6 : Rcc<6, "c7:6", [M0, M1], ["m1:0"]>, DwarfRegNum<[72]>;
171 // Use C8 instead of USR as a subregister of C9_8.
172 def C9_8 : Rcc<8, "c9:8", [C8, PC]>, DwarfRegNum<[74]>;
173 def C11_10 : Rcc<10, "c11:10", [UGP, GP]>, DwarfRegNum<[76]>;
174 def CS : Rcc<12, "c13:12", [CS0, CS1], ["cs1:0"]>, DwarfRegNum<[78]>;
175 def UPCYCLE: Rcc<14, "c15:14", [UPCYCLELO, UPCYCLEHI], ["upcycle"]>,
177 def C17_16 : Rcc<16, "c17:16", [FRAMELIMIT, FRAMEKEY]>, DwarfRegNum<[83]>;
178 def PKTCOUNT : Rcc<18, "c19:18", [PKTCOUNTLO, PKTCOUNTHI], ["pktcount"]>,
180 def UTIMER : Rcc<30, "c31:30", [UTIMERLO, UTIMERHI], ["utimer"]>,
184 foreach i = 0-31 in {
185 def V#i : Ri<i, "v"#i>, DwarfRegNum<[!add(i, 99)]>;
187 def VTMP : Ri<0, "vtmp">, DwarfRegNum<[131]>;
189 // Aliases of the V* registers used to hold double vec values.
190 let SubRegIndices = [vsub_lo, vsub_hi], CoveredBySubRegs = 1 in {
191 def W0 : Rd< 0, "v1:0", [V0, V1]>, DwarfRegNum<[99]>;
192 def W1 : Rd< 2, "v3:2", [V2, V3]>, DwarfRegNum<[101]>;
193 def W2 : Rd< 4, "v5:4", [V4, V5]>, DwarfRegNum<[103]>;
194 def W3 : Rd< 6, "v7:6", [V6, V7]>, DwarfRegNum<[105]>;
195 def W4 : Rd< 8, "v9:8", [V8, V9]>, DwarfRegNum<[107]>;
196 def W5 : Rd<10, "v11:10", [V10, V11]>, DwarfRegNum<[109]>;
197 def W6 : Rd<12, "v13:12", [V12, V13]>, DwarfRegNum<[111]>;
198 def W7 : Rd<14, "v15:14", [V14, V15]>, DwarfRegNum<[113]>;
199 def W8 : Rd<16, "v17:16", [V16, V17]>, DwarfRegNum<[115]>;
200 def W9 : Rd<18, "v19:18", [V18, V19]>, DwarfRegNum<[117]>;
201 def W10 : Rd<20, "v21:20", [V20, V21]>, DwarfRegNum<[119]>;
202 def W11 : Rd<22, "v23:22", [V22, V23]>, DwarfRegNum<[121]>;
203 def W12 : Rd<24, "v25:24", [V24, V25]>, DwarfRegNum<[123]>;
204 def W13 : Rd<26, "v27:26", [V26, V27]>, DwarfRegNum<[125]>;
205 def W14 : Rd<28, "v29:28", [V28, V29]>, DwarfRegNum<[127]>;
206 def W15 : Rd<30, "v31:30", [V30, V31]>, DwarfRegNum<[129]>;
209 // Vector Predicate registers.
210 def Q0 : Rq<0, "q0">, DwarfRegNum<[131]>;
211 def Q1 : Rq<1, "q1">, DwarfRegNum<[132]>;
212 def Q2 : Rq<2, "q2">, DwarfRegNum<[133]>;
213 def Q3 : Rq<3, "q3">, DwarfRegNum<[134]>;
216 def GELR: Rg<0, "gelr", ["g0"]>, DwarfRegNum<[220]>;
217 def GSR: Rg<1, "gsr", ["g1"]>, DwarfRegNum<[221]>;
218 def GOSP: Rg<2, "gosp", ["g2"]>, DwarfRegNum<[222]>;
219 def G3: Rg<3, "gbadva", ["g3"]>, DwarfRegNum<[223]>;
220 def G4: Rg<4, "g4">, DwarfRegNum<[224]>;
221 def G5: Rg<5, "g5">, DwarfRegNum<[225]>;
222 def G6: Rg<6, "g6">, DwarfRegNum<[226]>;
223 def G7: Rg<7, "g7">, DwarfRegNum<[227]>;
224 def G8: Rg<8, "g8">, DwarfRegNum<[228]>;
225 def G9: Rg<9, "g9">, DwarfRegNum<[229]>;
226 def G10: Rg<10, "g10">, DwarfRegNum<[230]>;
227 def G11: Rg<11, "g11">, DwarfRegNum<[231]>;
228 def G12: Rg<12, "g12">, DwarfRegNum<[232]>;
229 def G13: Rg<13, "g13">, DwarfRegNum<[233]>;
230 def G14: Rg<14, "g14">, DwarfRegNum<[234]>;
231 def G15: Rg<15, "g15">, DwarfRegNum<[235]>;
232 def GPMUCNT4: Rg<16, "gpmucnt4", ["g16"]>, DwarfRegNum<[236]>;
233 def GPMUCNT5: Rg<17, "gpmucnt5", ["g17"]>, DwarfRegNum<[237]>;
234 def GPMUCNT6: Rg<18, "gpmucnt6", ["g18"]>, DwarfRegNum<[238]>;
235 def GPMUCNT7: Rg<19, "gpmucnt7", ["g19"]>, DwarfRegNum<[239]>;
236 def G20: Rg<20, "g20">, DwarfRegNum<[240]>;
237 def G21: Rg<21, "g21">, DwarfRegNum<[241]>;
238 def G22: Rg<22, "g22">, DwarfRegNum<[242]>;
239 def G23: Rg<23, "g23">, DwarfRegNum<[243]>;
240 def GPCYCLELO: Rg<24, "gpcyclelo", ["g24"]>, DwarfRegNum<[244]>;
241 def GPCYCLEHI: Rg<25, "gpcyclehi", ["g25"]>, DwarfRegNum<[245]>;
242 def GPMUCNT0: Rg<26, "gpmucnt0", ["g26"]>, DwarfRegNum<[246]>;
243 def GPMUCNT1: Rg<27, "gpmucnt1", ["g27"]>, DwarfRegNum<[247]>;
244 def GPMUCNT2: Rg<28, "gpmucnt2", ["g28"]>, DwarfRegNum<[248]>;
245 def GPMUCNT3: Rg<29, "gpmucnt3", ["g29"]>, DwarfRegNum<[249]>;
246 def G30: Rg<30, "g30">, DwarfRegNum<[250]>;
247 def G31: Rg<31, "g31">, DwarfRegNum<[251]>;
249 // Guest Register Pairs
250 let SubRegIndices = [isub_lo, isub_hi], CoveredBySubRegs = 1 in {
251 def G1_0 : Rgg<0, "g1:0", [GELR, GSR]>, DwarfRegNum<[220]>;
252 def G3_2 : Rgg<2, "g3:2", [GOSP, G3]>, DwarfRegNum<[222]>;
253 def G5_4 : Rgg<4, "g5:4", [G4, G5]>, DwarfRegNum<[224]>;
254 def G7_6 : Rgg<6, "g7:6", [G6, G7]>, DwarfRegNum<[226]>;
255 def G9_8 : Rgg<8, "g9:8", [G8, G9]>, DwarfRegNum<[228]>;
256 def G11_10 : Rgg<10, "g11:10", [G10, G11]>, DwarfRegNum<[230]>;
257 def G13_12 : Rgg<12, "g13:12", [G12, G13]>, DwarfRegNum<[232]>;
258 def G15_14 : Rgg<14, "g15:14", [G14, G15]>, DwarfRegNum<[234]>;
259 def G17_16 : Rgg<16, "g17:16", [GPMUCNT4, GPMUCNT5]>, DwarfRegNum<[236]>;
260 def G19_18 : Rgg<18, "g19:18", [GPMUCNT6, GPMUCNT7]>, DwarfRegNum<[238]>;
261 def G21_20 : Rgg<20, "g21:20", [G20, G21]>, DwarfRegNum<[240]>;
262 def G23_22 : Rgg<22, "g23:22", [G22, G23]>, DwarfRegNum<[242]>;
263 def G25_24 : Rgg<24, "g25:24", [GPCYCLELO, GPCYCLEHI]>, DwarfRegNum<[244]>;
264 def G27_26 : Rgg<26, "g27:26", [GPMUCNT0, GPMUCNT1]>, DwarfRegNum<[246]>;
265 def G29_28 : Rgg<28, "g29:28", [GPMUCNT2, GPMUCNT3]>, DwarfRegNum<[248]>;
266 def G31_30 : Rgg<30, "g31:30", [G30, G31]>, DwarfRegNum<[250]>;
273 def VecI1: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
274 [v512i1, v1024i1, v512i1]>;
275 def VecI8: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
276 [v64i8, v128i8, v64i8]>;
277 def VecI16: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
278 [v32i16, v64i16, v32i16]>;
279 def VecI32: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
280 [v16i32, v32i32, v16i32]>;
282 def VecPI8: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
283 [v128i8, v256i8, v128i8]>;
284 def VecPI16: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
285 [v64i16, v128i16, v64i16]>;
286 def VecPI32: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
287 [v32i32, v64i32, v32i32]>;
289 def VecQ8: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
290 [v64i1, v128i1, v64i1]>;
291 def VecQ16: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
292 [v32i1, v64i1, v32i1]>;
293 def VecQ32: ValueTypeByHwMode<[Hvx64, Hvx128, DefaultMode],
294 [v16i1, v32i1, v16i1]>;
296 // HVX register classes
300 // FIXME: the register order should be defined in terms of the preferred
301 // allocation order...
303 def IntRegs : RegisterClass<"Hexagon", [i32, f32, v4i8, v2i16], 32,
304 (add (sequence "R%u", 0, 9), (sequence "R%u", 12, 28),
305 R10, R11, R29, R30, R31)>;
307 // Registers are listed in reverse order for allocation preference reasons.
308 def GeneralSubRegs : RegisterClass<"Hexagon", [i32], 32,
309 (add R23, R22, R21, R20, R19, R18, R17, R16,
310 R7, R6, R5, R4, R3, R2, R1, R0)>;
312 def IntRegsLow8 : RegisterClass<"Hexagon", [i32], 32,
313 (add R7, R6, R5, R4, R3, R2, R1, R0)> ;
315 def DoubleRegs : RegisterClass<"Hexagon", [i64, f64, v8i8, v4i16, v2i32], 64,
316 (add (sequence "D%u", 0, 4), (sequence "D%u", 6, 13), D5, D14, D15)>;
318 def GeneralDoubleLow8Regs : RegisterClass<"Hexagon", [i64], 64,
319 (add D11, D10, D9, D8, D3, D2, D1, D0)>;
321 def HvxVR : RegisterClass<"Hexagon", [VecI8, VecI16, VecI32], 512,
322 (add (sequence "V%u", 0, 31), VTMP)> {
323 let RegInfos = RegInfoByHwMode<[Hvx64, Hvx128, DefaultMode],
324 [RegInfo<512,512,512>, RegInfo<1024,1024,1024>, RegInfo<512,512,512>]>;
327 def HvxWR : RegisterClass<"Hexagon", [VecPI8, VecPI16, VecPI32], 1024,
328 (add (sequence "W%u", 0, 15))> {
329 let RegInfos = RegInfoByHwMode<[Hvx64, Hvx128, DefaultMode],
330 [RegInfo<1024,1024,1024>, RegInfo<2048,2048,2048>, RegInfo<1024,1024,1024>]>;
333 def HvxQR : RegisterClass<"Hexagon", [VecI1, VecQ8, VecQ16, VecQ32], 512,
334 (add Q0, Q1, Q2, Q3)> {
335 let RegInfos = RegInfoByHwMode<[Hvx64, Hvx128, DefaultMode],
336 [RegInfo<512,512,512>, RegInfo<1024,1024,1024>, RegInfo<512,512,512>]>;
340 def PredRegs : RegisterClass<"Hexagon",
341 [i1, v2i1, v4i1, v8i1, v4i8, v2i16, i32], 32, (add P0, P1, P2, P3)>;
344 def ModRegs : RegisterClass<"Hexagon", [i32], 32, (add M0, M1)>;
346 let Size = 32, isAllocatable = 0 in
347 def CtrRegs : RegisterClass<"Hexagon", [i32], 32,
348 (add LC0, SA0, LC1, SA1, P3_0, C5, C8, PC, UGP, GP, CS0, CS1,
349 UPCYCLELO, UPCYCLEHI,
350 FRAMELIMIT, FRAMEKEY, PKTCOUNTLO, PKTCOUNTHI, UTIMERLO, UTIMERHI,
353 let isAllocatable = 0 in
354 def UsrBits : RegisterClass<"Hexagon", [i1], 0, (add USR_OVF)>;
356 let Size = 64, isAllocatable = 0 in
357 def CtrRegs64 : RegisterClass<"Hexagon", [i64], 64,
358 (add C1_0, C3_2, C5_4, C7_6, C9_8, C11_10, CS, UPCYCLE, C17_16,
361 let Size = 32, isAllocatable = 0 in
362 def GuestRegs : RegisterClass<"Hexagon", [i32], 32,
363 (add GELR, GSR, GOSP,
364 (sequence "G%u", 3, 15),
365 GPMUCNT4, GPMUCNT5, GPMUCNT6, GPMUCNT7,
367 GPCYCLELO, GPCYCLEHI, GPMUCNT0, GPMUCNT1,
371 let Size = 64, isAllocatable = 0 in
372 def GuestRegs64 : RegisterClass<"Hexagon", [i64], 64,
374 G5_4, G7_6, G9_8, G11_10, G13_12, G15_14,
377 G25_24, G27_26, G29_28,
380 // These registers are new for v62 and onward.
381 // The function RegisterMatchesArch() uses this list for validation.
382 let isAllocatable = 0 in
383 def V62Regs : RegisterClass<"Hexagon", [i32], 32,
384 (add FRAMELIMIT, FRAMEKEY, C17_16, PKTCOUNTLO, PKTCOUNTHI, PKTCOUNT,
385 UTIMERLO, UTIMERHI, UTIMER)>;
387 // These registers are new for v65 and onward.
388 let Size = 32, isAllocatable = 0 in
389 def V65Regs : RegisterClass<"Hexagon", [i32], 32, (add VTMP)>;
393 : CalleeSavedRegs<(add R16, R17, R18, R19, R20, R21, R22, R23,
394 R24, R25, R26, R27)>;