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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 {
FixupDataFixupData62    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 {
FixupEntryFixupEntry74    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 *);
~CodeEmitter()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);
getCodeLocation()106    inline void *getCodeLocation() const { return code; }
getCodeSize()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 
getRelocInfo()112    inline void *getRelocInfo() const { return relocInfo; }
113 
114    bool addInterp(int ipa, int reg, FixupApply apply);
getFixupInfo()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:
Target(bool m,bool j,bool s)160    Target(bool m, bool j, bool s) : hasJoin(m), joinAnterior(j), hasSWSched(s) { }
~Target()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
getChipset()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 
parseDriverInfo(const struct nv50_ir_prog_info * info)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;
isPostMultiplySupported(operation op,float f,int & e)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)
canDualIssue(const Instruction * insn,const Instruction * next)227    virtual bool canDualIssue(const Instruction *insn,
228                              const Instruction *next) const { return false; }
getLatency(const Instruction *)229    virtual int getLatency(const Instruction *) const { return 1; }
getThroughput(const Instruction *)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 
getOpSrcNr(operation op)245    static inline uint8_t getOpSrcNr(operation op)
246    {
247       return operationSrcNr[op];
248    }
getOpClass(operation op)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 
getOpInfo(const Instruction * insn)263 const Target::OpInfo& Target::getOpInfo(const Instruction *insn) const
264 {
265    return opInfo[MIN2(insn->op, OP_LAST)];
266 }
267 
getOpInfo(const operation op)268 const Target::OpInfo& Target::getOpInfo(const operation op) const
269 {
270    return opInfo[op];
271 }
272 
nativeFile(DataFile f)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