1 /* 2 * Copyright 2011 Christoph Bumiller 3 * 4 * Permission is hereby granted, free of charge, to any person obtaining a 5 * copy of this software and associated documentation files (the "Software"), 6 * to deal in the Software without restriction, including without limitation 7 * the rights to use, copy, modify, merge, publish, distribute, sublicense, 8 * and/or sell copies of the Software, and to permit persons to whom the 9 * Software is furnished to do so, subject to the following conditions: 10 * 11 * The above copyright notice and this permission notice shall be included in 12 * all copies or substantial portions of the Software. 13 * 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 17 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR 18 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, 19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR 20 * OTHER DEALINGS IN THE SOFTWARE. 21 */ 22 23 #ifndef __NV50_IR_TARGET_H__ 24 #define __NV50_IR_TARGET_H__ 25 26 #include "codegen/nv50_ir.h" 27 28 namespace nv50_ir { 29 30 struct RelocInfo; 31 32 struct RelocEntry 33 { 34 enum Type 35 { 36 TYPE_CODE, 37 TYPE_BUILTIN, 38 TYPE_DATA 39 }; 40 41 uint32_t data; 42 uint32_t mask; 43 uint32_t offset; 44 int8_t bitPos; 45 Type type; 46 47 inline void apply(uint32_t *binary, const RelocInfo *info) const; 48 }; 49 50 struct RelocInfo 51 { 52 uint32_t codePos; 53 uint32_t libPos; 54 uint32_t dataPos; 55 56 uint32_t count; 57 58 RelocEntry entry[0]; 59 }; 60 61 struct FixupData { 62 FixupData(bool force, bool flat, uint8_t alphatest) : 63 force_persample_interp(force), flatshade(flat), alphatest(alphatest) {} 64 bool force_persample_interp; 65 bool flatshade; 66 uint8_t alphatest; 67 }; 68 69 struct FixupEntry; 70 typedef void (*FixupApply)(const FixupEntry*, uint32_t*, const FixupData&); 71 72 struct FixupEntry 73 { 74 FixupEntry(FixupApply apply, int ipa, int reg, int loc) : 75 apply(apply), ipa(ipa), reg(reg), loc(loc) {} 76 77 FixupApply apply; 78 union { 79 struct { 80 uint32_t ipa:4; // SC mode used to identify colors 81 uint32_t reg:8; // The reg used for perspective division 82 uint32_t loc:20; // Let's hope we don't have more than 1M-sized shaders 83 }; 84 uint32_t val; 85 }; 86 }; 87 88 struct FixupInfo 89 { 90 uint32_t count; 91 FixupEntry entry[0]; 92 }; 93 94 class CodeEmitter 95 { 96 public: 97 CodeEmitter(const Target *); 98 virtual ~CodeEmitter() { } 99 100 // returns whether the instruction was encodable and written 101 virtual bool emitInstruction(Instruction *) = 0; 102 103 virtual uint32_t getMinEncodingSize(const Instruction *) const = 0; 104 105 void setCodeLocation(void *, uint32_t size); 106 inline void *getCodeLocation() const { return code; } 107 inline uint32_t getCodeSize() const { return codeSize; } 108 109 bool addReloc(RelocEntry::Type, int w, uint32_t data, uint32_t m, 110 int s); 111 112 inline void *getRelocInfo() const { return relocInfo; } 113 114 bool addInterp(int ipa, int reg, FixupApply apply); 115 inline void *getFixupInfo() const { return fixupInfo; } 116 117 virtual void prepareEmission(Program *); 118 virtual void prepareEmission(Function *); 119 virtual void prepareEmission(BasicBlock *); 120 121 void printBinary() const; 122 123 protected: 124 const Target *targ; 125 126 uint32_t *code; 127 uint32_t codeSize; 128 uint32_t codeSizeLimit; 129 130 RelocInfo *relocInfo; 131 FixupInfo *fixupInfo; 132 }; 133 134 135 enum OpClass 136 { 137 OPCLASS_MOVE = 0, 138 OPCLASS_LOAD = 1, 139 OPCLASS_STORE = 2, 140 OPCLASS_ARITH = 3, 141 OPCLASS_SHIFT = 4, 142 OPCLASS_SFU = 5, 143 OPCLASS_LOGIC = 6, 144 OPCLASS_COMPARE = 7, 145 OPCLASS_CONVERT = 8, 146 OPCLASS_ATOMIC = 9, 147 OPCLASS_TEXTURE = 10, 148 OPCLASS_SURFACE = 11, 149 OPCLASS_FLOW = 12, 150 OPCLASS_PSEUDO = 14, 151 OPCLASS_VECTOR = 15, 152 OPCLASS_BITFIELD = 16, 153 OPCLASS_CONTROL = 17, 154 OPCLASS_OTHER = 18 155 }; 156 157 class Target 158 { 159 public: 160 Target(bool m, bool j, bool s) : hasJoin(m), joinAnterior(j), hasSWSched(s) { } 161 virtual ~Target() { } 162 163 static Target *create(uint32_t chipset); 164 static void destroy(Target *); 165 166 // 0x50 and 0x84 to 0xaf for nv50 167 // 0xc0 to 0xdf for nvc0 168 inline uint32_t getChipset() const { return chipset; } 169 170 virtual CodeEmitter *getCodeEmitter(Program::Type) = 0; 171 172 // Drivers should upload this so we can use it from all programs. 173 // The address chosen is supplied to the relocation routine. 174 virtual void getBuiltinCode(const uint32_t **code, uint32_t *size) const = 0; 175 176 virtual void parseDriverInfo(const struct nv50_ir_prog_info *info) { 177 threads = info->prop.cp.numThreads; 178 if (threads == 0) 179 threads = info->target >= NVISA_GK104_CHIPSET ? 1024 : 512; 180 } 181 182 virtual bool runLegalizePass(Program *, CGStage stage) const = 0; 183 184 public: 185 struct OpInfo 186 { 187 OpInfo *variants; 188 operation op; 189 uint16_t srcTypes; 190 uint16_t dstTypes; 191 uint32_t immdBits; 192 uint8_t srcNr; 193 uint8_t srcMods[3]; 194 uint8_t dstMods; 195 uint16_t srcFiles[3]; 196 uint16_t dstFiles; 197 unsigned int minEncSize : 4; 198 unsigned int vector : 1; 199 unsigned int predicate : 1; 200 unsigned int commutative : 1; 201 unsigned int pseudo : 1; 202 unsigned int flow : 1; 203 unsigned int hasDest : 1; 204 unsigned int terminator : 1; 205 }; 206 207 inline const OpInfo& getOpInfo(const Instruction *) const; 208 inline const OpInfo& getOpInfo(const operation) const; 209 210 inline DataFile nativeFile(DataFile f) const; 211 212 virtual bool insnCanLoad(const Instruction *insn, int s, 213 const Instruction *ld) const = 0; 214 virtual bool insnCanLoadOffset(const Instruction *insn, int s, 215 int offset) const = 0; 216 virtual bool isOpSupported(operation, DataType) const = 0; 217 virtual bool isAccessSupported(DataFile, DataType) const = 0; 218 virtual bool isModSupported(const Instruction *, 219 int s, Modifier) const = 0; 220 virtual bool isSatSupported(const Instruction *) const = 0; 221 virtual bool isPostMultiplySupported(operation op, float f, 222 int& e) const { return false; } 223 virtual bool mayPredicate(const Instruction *, 224 const Value *) const = 0; 225 226 // whether @insn can be issued together with @next (order matters) 227 virtual bool canDualIssue(const Instruction *insn, 228 const Instruction *next) const { return false; } 229 virtual int getLatency(const Instruction *) const { return 1; } 230 virtual int getThroughput(const Instruction *) const { return 1; } 231 232 virtual unsigned int getFileSize(DataFile) const = 0; 233 virtual unsigned int getFileUnit(DataFile) const = 0; 234 235 virtual uint32_t getSVAddress(DataFile, const Symbol *) const = 0; 236 237 public: 238 const bool hasJoin; // true if instructions have a join modifier 239 const bool joinAnterior; // true if join is executed before the op 240 const bool hasSWSched; // true if code should provide scheduling data 241 242 static const uint8_t operationSrcNr[]; 243 static const OpClass operationClass[]; 244 245 static inline uint8_t getOpSrcNr(operation op) 246 { 247 return operationSrcNr[op]; 248 } 249 static inline OpClass getOpClass(operation op) 250 { 251 return operationClass[op]; 252 } 253 254 protected: 255 uint32_t chipset; 256 uint32_t threads; 257 258 DataFile nativeFileMap[DATA_FILE_COUNT]; 259 260 OpInfo opInfo[OP_LAST + 1]; 261 }; 262 263 const Target::OpInfo& Target::getOpInfo(const Instruction *insn) const 264 { 265 return opInfo[MIN2(insn->op, OP_LAST)]; 266 } 267 268 const Target::OpInfo& Target::getOpInfo(const operation op) const 269 { 270 return opInfo[op]; 271 } 272 273 inline DataFile Target::nativeFile(DataFile f) const 274 { 275 return nativeFileMap[f]; 276 } 277 278 } // namespace nv50_ir 279 280 #endif // __NV50_IR_TARGET_H__ 281