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1 //===-- VE.h - Top-level interface for VE representation --------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 //
9 // This file contains the entry points for global functions defined in the LLVM
10 // VE back-end.
11 //
12 //===----------------------------------------------------------------------===//
13 
14 #ifndef LLVM_LIB_TARGET_VE_VE_H
15 #define LLVM_LIB_TARGET_VE_VE_H
16 
17 #include "MCTargetDesc/VEMCTargetDesc.h"
18 #include "llvm/ADT/StringSwitch.h"
19 #include "llvm/Support/ErrorHandling.h"
20 #include "llvm/Target/TargetMachine.h"
21 
22 namespace llvm {
23 class FunctionPass;
24 class VETargetMachine;
25 class formatted_raw_ostream;
26 class AsmPrinter;
27 class MCInst;
28 class MachineInstr;
29 
30 FunctionPass *createVEISelDag(VETargetMachine &TM);
31 FunctionPass *createVEPromoteToI1Pass();
32 FunctionPass *createLVLGenPass();
33 
34 void LowerVEMachineInstrToMCInst(const MachineInstr *MI, MCInst &OutMI,
35                                  AsmPrinter &AP);
36 } // namespace llvm
37 
38 namespace llvm {
39 // Enums corresponding to VE condition codes, both icc's and fcc's.  These
40 // values must be kept in sync with the ones in the .td file.
41 namespace VECC {
42 enum CondCode {
43   // Integer comparison
44   CC_IG = 0,  // Greater
45   CC_IL = 1,  // Less
46   CC_INE = 2, // Not Equal
47   CC_IEQ = 3, // Equal
48   CC_IGE = 4, // Greater or Equal
49   CC_ILE = 5, // Less or Equal
50 
51   // Floating point comparison
52   CC_AF = 0 + 6,     // Never
53   CC_G = 1 + 6,      // Greater
54   CC_L = 2 + 6,      // Less
55   CC_NE = 3 + 6,     // Not Equal
56   CC_EQ = 4 + 6,     // Equal
57   CC_GE = 5 + 6,     // Greater or Equal
58   CC_LE = 6 + 6,     // Less or Equal
59   CC_NUM = 7 + 6,    // Number
60   CC_NAN = 8 + 6,    // NaN
61   CC_GNAN = 9 + 6,   // Greater or NaN
62   CC_LNAN = 10 + 6,  // Less or NaN
63   CC_NENAN = 11 + 6, // Not Equal or NaN
64   CC_EQNAN = 12 + 6, // Equal or NaN
65   CC_GENAN = 13 + 6, // Greater or Equal or NaN
66   CC_LENAN = 14 + 6, // Less or Equal or NaN
67   CC_AT = 15 + 6,    // Always
68   UNKNOWN
69 };
70 }
71 // Enums corresponding to VE Rounding Mode.  These values must be kept in
72 // sync with the ones in the .td file.
73 namespace VERD {
74 enum RoundingMode {
75   RD_NONE = 0, // According to PSW
76   RD_RZ = 8,   // Round toward Zero
77   RD_RP = 9,   // Round toward Plus infinity
78   RD_RM = 10,  // Round toward Minus infinity
79   RD_RN = 11,  // Round to Nearest (ties to Even)
80   RD_RA = 12,  // Round to Nearest (ties to Away)
81   UNKNOWN
82 };
83 }
84 
VECondCodeToString(VECC::CondCode CC)85 inline static const char *VECondCodeToString(VECC::CondCode CC) {
86   switch (CC) {
87   case VECC::CC_IG:    return "gt";
88   case VECC::CC_IL:    return "lt";
89   case VECC::CC_INE:   return "ne";
90   case VECC::CC_IEQ:   return "eq";
91   case VECC::CC_IGE:   return "ge";
92   case VECC::CC_ILE:   return "le";
93   case VECC::CC_AF:    return "af";
94   case VECC::CC_G:     return "gt";
95   case VECC::CC_L:     return "lt";
96   case VECC::CC_NE:    return "ne";
97   case VECC::CC_EQ:    return "eq";
98   case VECC::CC_GE:    return "ge";
99   case VECC::CC_LE:    return "le";
100   case VECC::CC_NUM:   return "num";
101   case VECC::CC_NAN:   return "nan";
102   case VECC::CC_GNAN:  return "gtnan";
103   case VECC::CC_LNAN:  return "ltnan";
104   case VECC::CC_NENAN: return "nenan";
105   case VECC::CC_EQNAN: return "eqnan";
106   case VECC::CC_GENAN: return "genan";
107   case VECC::CC_LENAN: return "lenan";
108   case VECC::CC_AT:    return "at";
109   default:
110     llvm_unreachable("Invalid cond code");
111   }
112 }
113 
stringToVEICondCode(StringRef S)114 inline static VECC::CondCode stringToVEICondCode(StringRef S) {
115   return StringSwitch<VECC::CondCode>(S)
116       .Case("gt", VECC::CC_IG)
117       .Case("lt", VECC::CC_IL)
118       .Case("ne", VECC::CC_INE)
119       .Case("eq", VECC::CC_IEQ)
120       .Case("ge", VECC::CC_IGE)
121       .Case("le", VECC::CC_ILE)
122       .Case("af", VECC::CC_AF)
123       .Case("at", VECC::CC_AT)
124       .Case("", VECC::CC_AT)
125       .Default(VECC::UNKNOWN);
126 }
127 
stringToVEFCondCode(StringRef S)128 inline static VECC::CondCode stringToVEFCondCode(StringRef S) {
129   return StringSwitch<VECC::CondCode>(S)
130       .Case("gt", VECC::CC_G)
131       .Case("lt", VECC::CC_L)
132       .Case("ne", VECC::CC_NE)
133       .Case("eq", VECC::CC_EQ)
134       .Case("ge", VECC::CC_GE)
135       .Case("le", VECC::CC_LE)
136       .Case("num", VECC::CC_NUM)
137       .Case("nan", VECC::CC_NAN)
138       .Case("gtnan", VECC::CC_GNAN)
139       .Case("ltnan", VECC::CC_LNAN)
140       .Case("nenan", VECC::CC_NENAN)
141       .Case("eqnan", VECC::CC_EQNAN)
142       .Case("genan", VECC::CC_GENAN)
143       .Case("lenan", VECC::CC_LENAN)
144       .Case("af", VECC::CC_AF)
145       .Case("at", VECC::CC_AT)
146       .Case("", VECC::CC_AT)
147       .Default(VECC::UNKNOWN);
148 }
149 
VECondCodeToVal(VECC::CondCode CC)150 inline static unsigned VECondCodeToVal(VECC::CondCode CC) {
151   switch (CC) {
152   case VECC::CC_IG:
153     return 1;
154   case VECC::CC_IL:
155     return 2;
156   case VECC::CC_INE:
157     return 3;
158   case VECC::CC_IEQ:
159     return 4;
160   case VECC::CC_IGE:
161     return 5;
162   case VECC::CC_ILE:
163     return 6;
164   case VECC::CC_AF:
165     return 0;
166   case VECC::CC_G:
167     return 1;
168   case VECC::CC_L:
169     return 2;
170   case VECC::CC_NE:
171     return 3;
172   case VECC::CC_EQ:
173     return 4;
174   case VECC::CC_GE:
175     return 5;
176   case VECC::CC_LE:
177     return 6;
178   case VECC::CC_NUM:
179     return 7;
180   case VECC::CC_NAN:
181     return 8;
182   case VECC::CC_GNAN:
183     return 9;
184   case VECC::CC_LNAN:
185     return 10;
186   case VECC::CC_NENAN:
187     return 11;
188   case VECC::CC_EQNAN:
189     return 12;
190   case VECC::CC_GENAN:
191     return 13;
192   case VECC::CC_LENAN:
193     return 14;
194   case VECC::CC_AT:
195     return 15;
196   default:
197     llvm_unreachable("Invalid cond code");
198   }
199 }
200 
VEValToCondCode(unsigned Val,bool IsInteger)201 inline static VECC::CondCode VEValToCondCode(unsigned Val, bool IsInteger) {
202   if (IsInteger) {
203     switch (Val) {
204     case 0:
205       return VECC::CC_AF;
206     case 1:
207       return VECC::CC_IG;
208     case 2:
209       return VECC::CC_IL;
210     case 3:
211       return VECC::CC_INE;
212     case 4:
213       return VECC::CC_IEQ;
214     case 5:
215       return VECC::CC_IGE;
216     case 6:
217       return VECC::CC_ILE;
218     case 15:
219       return VECC::CC_AT;
220     }
221   } else {
222     switch (Val) {
223     case 0:
224       return VECC::CC_AF;
225     case 1:
226       return VECC::CC_G;
227     case 2:
228       return VECC::CC_L;
229     case 3:
230       return VECC::CC_NE;
231     case 4:
232       return VECC::CC_EQ;
233     case 5:
234       return VECC::CC_GE;
235     case 6:
236       return VECC::CC_LE;
237     case 7:
238       return VECC::CC_NUM;
239     case 8:
240       return VECC::CC_NAN;
241     case 9:
242       return VECC::CC_GNAN;
243     case 10:
244       return VECC::CC_LNAN;
245     case 11:
246       return VECC::CC_NENAN;
247     case 12:
248       return VECC::CC_EQNAN;
249     case 13:
250       return VECC::CC_GENAN;
251     case 14:
252       return VECC::CC_LENAN;
253     case 15:
254       return VECC::CC_AT;
255     }
256   }
257   llvm_unreachable("Invalid cond code");
258 }
259 
VERDToString(VERD::RoundingMode R)260 inline static const char *VERDToString(VERD::RoundingMode R) {
261   switch (R) {
262   case VERD::RD_NONE:
263     return "";
264   case VERD::RD_RZ:
265     return ".rz";
266   case VERD::RD_RP:
267     return ".rp";
268   case VERD::RD_RM:
269     return ".rm";
270   case VERD::RD_RN:
271     return ".rn";
272   case VERD::RD_RA:
273     return ".ra";
274   default:
275     llvm_unreachable("Invalid branch predicate");
276   }
277 }
278 
stringToVERD(StringRef S)279 inline static VERD::RoundingMode stringToVERD(StringRef S) {
280   return StringSwitch<VERD::RoundingMode>(S)
281       .Case("", VERD::RD_NONE)
282       .Case(".rz", VERD::RD_RZ)
283       .Case(".rp", VERD::RD_RP)
284       .Case(".rm", VERD::RD_RM)
285       .Case(".rn", VERD::RD_RN)
286       .Case(".ra", VERD::RD_RA)
287       .Default(VERD::UNKNOWN);
288 }
289 
VERDToVal(VERD::RoundingMode R)290 inline static unsigned VERDToVal(VERD::RoundingMode R) {
291   switch (R) {
292   case VERD::RD_NONE:
293   case VERD::RD_RZ:
294   case VERD::RD_RP:
295   case VERD::RD_RM:
296   case VERD::RD_RN:
297   case VERD::RD_RA:
298     return static_cast<unsigned>(R);
299   default:
300     break;
301   }
302   llvm_unreachable("Invalid branch predicates");
303 }
304 
VEValToRD(unsigned Val)305 inline static VERD::RoundingMode VEValToRD(unsigned Val) {
306   switch (Val) {
307   case static_cast<unsigned>(VERD::RD_NONE):
308     return VERD::RD_NONE;
309   case static_cast<unsigned>(VERD::RD_RZ):
310     return VERD::RD_RZ;
311   case static_cast<unsigned>(VERD::RD_RP):
312     return VERD::RD_RP;
313   case static_cast<unsigned>(VERD::RD_RM):
314     return VERD::RD_RM;
315   case static_cast<unsigned>(VERD::RD_RN):
316     return VERD::RD_RN;
317   case static_cast<unsigned>(VERD::RD_RA):
318     return VERD::RD_RA;
319   default:
320     break;
321   }
322   llvm_unreachable("Invalid branch predicates");
323 }
324 
325 // MImm - Special immediate value of sequential bit stream of 0 or 1.
326 //   See VEInstrInfo.td for details.
isMImmVal(uint64_t Val)327 inline static bool isMImmVal(uint64_t Val) {
328   if (Val == 0) {
329     // (0)1 is 0
330     return true;
331   }
332   if (isMask_64(Val)) {
333     // (m)0 patterns
334     return true;
335   }
336   // (m)1 patterns
337   return (Val & (1UL << 63)) && isShiftedMask_64(Val);
338 }
339 
isMImm32Val(uint32_t Val)340 inline static bool isMImm32Val(uint32_t Val) {
341   if (Val == 0) {
342     // (0)1 is 0
343     return true;
344   }
345   if (isMask_32(Val)) {
346     // (m)0 patterns
347     return true;
348   }
349   // (m)1 patterns
350   return (Val & (1 << 31)) && isShiftedMask_32(Val);
351 }
352 
353 /// val2MImm - Convert an integer immediate value to target MImm immediate.
val2MImm(uint64_t Val)354 inline static uint64_t val2MImm(uint64_t Val) {
355   if (Val == 0)
356     return 0; // (0)1
357   if (Val & (1UL << 63))
358     return countLeadingOnes(Val);       // (m)1
359   return countLeadingZeros(Val) | 0x40; // (m)0
360 }
361 
362 /// mimm2Val - Convert a target MImm immediate to an integer immediate value.
mimm2Val(uint64_t Val)363 inline static uint64_t mimm2Val(uint64_t Val) {
364   if (Val == 0)
365     return 0; // (0)1
366   if ((Val & 0x40) == 0)
367     return (uint64_t)((1L << 63) >> (Val & 0x3f)); // (m)1
368   return ((uint64_t)(-1L) >> (Val & 0x3f));        // (m)0
369 }
370 
M0(unsigned Val)371 inline unsigned M0(unsigned Val) { return Val + 64; }
M1(unsigned Val)372 inline unsigned M1(unsigned Val) { return Val; }
373 
374 } // namespace llvm
375 #endif
376