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sparse, llvm: Use LLVMInt1Type() in sym_basetype_type()
[smatch.git] / linearize.h
blob424ba9709f5db5065f6dc808bd7e76b6c61f5b10
1 #ifndef LINEARIZE_H
2 #define LINEARIZE_H
3
4 #include "lib.h"
5 #include "allocate.h"
6 #include "token.h"
7 #include "parse.h"
8 #include "symbol.h"
9
10 struct instruction;
11 DECLARE_PTR_LIST(pseudo_ptr_list, pseudo_t);
12
13 struct pseudo_user {
14 struct instruction *insn;
15 pseudo_t *userp;
16 };
17
18 DECLARE_ALLOCATOR(pseudo_user);
19 DECLARE_PTR_LIST(pseudo_user_list, struct pseudo_user);
20
21
22 enum pseudo_type {
23 PSEUDO_VOID,
24 PSEUDO_REG,
25 PSEUDO_SYM,
26 PSEUDO_VAL,
27 PSEUDO_ARG,
28 PSEUDO_PHI,
29 };
30
31 struct pseudo {
32 int nr;
33 enum pseudo_type type;
34 struct pseudo_user_list *users;
35 struct ident *ident;
36 union {
37 struct symbol *sym;
38 struct instruction *def;
39 long long value;
40 };
41 void *priv;
42 };
43
44 extern struct pseudo void_pseudo;
45
46 #define VOID (&void_pseudo)
47
48 struct multijmp {
49 struct basic_block *target;
50 int begin, end;
51 };
52
53 struct asm_constraint {
54 pseudo_t pseudo;
55 const char *constraint;
56 const struct ident *ident;
57 };
58
59 DECLARE_ALLOCATOR(asm_constraint);
60 DECLARE_PTR_LIST(asm_constraint_list, struct asm_constraint);
61
62 struct asm_rules {
63 struct asm_constraint_list *inputs;
64 struct asm_constraint_list *outputs;
65 struct asm_constraint_list *clobbers;
66 };
67
68 DECLARE_ALLOCATOR(asm_rules);
69
70 struct instruction {
71 unsigned opcode:8,
72 size:24;
73 struct basic_block *bb;
74 struct position pos;
75 struct symbol *type;
76 union {
77 pseudo_t target;
78 pseudo_t cond; /* for branch and switch */
79 };
80 union {
81 struct /* entrypoint */ {
82 struct pseudo_list *arg_list;
83 };
84 struct /* branch */ {
85 struct basic_block *bb_true, *bb_false;
86 };
87 struct /* switch */ {
88 struct multijmp_list *multijmp_list;
89 };
90 struct /* phi_node */ {
91 struct pseudo_list *phi_list;
92 };
93 struct /* phi source */ {
94 pseudo_t phi_src;
95 struct instruction_list *phi_users;
96 };
97 struct /* unops */ {
98 pseudo_t src;
99 struct symbol *orig_type; /* casts */
100 unsigned int offset; /* memops */
101 };
102 struct /* binops and sel */ {
103 pseudo_t src1, src2, src3;
104 };
105 struct /* slice */ {
106 pseudo_t base;
107 unsigned from, len;
108 };
109 struct /* multijump */ {
110 int begin, end;
111 };
112 struct /* setval */ {
113 pseudo_t symbol; /* Subtle: same offset as "src" !! */
114 struct expression *val;
115 };
116 struct /* call */ {
117 pseudo_t func;
118 struct pseudo_list *arguments;
119 };
120 struct /* context */ {
121 int increment;
122 int check;
123 struct expression *context_expr;
124 };
125 struct /* asm */ {
126 const char *string;
127 struct asm_rules *asm_rules;
128 };
129 };
130 };
131
132 enum opcode {
133 OP_BADOP,
134
135 /* Entry */
136 OP_ENTRY,
137
138 /* Terminator */
139 OP_TERMINATOR,
140 OP_RET = OP_TERMINATOR,
141 OP_BR,
142 OP_SWITCH,
143 OP_INVOKE,
144 OP_COMPUTEDGOTO,
145 OP_UNWIND,
146 OP_TERMINATOR_END = OP_UNWIND,
147
148 /* Binary */
149 OP_BINARY,
150 OP_ADD = OP_BINARY,
151 OP_SUB,
152 OP_MULU, OP_MULS,
153 OP_DIVU, OP_DIVS,
154 OP_MODU, OP_MODS,
155 OP_SHL,
156 OP_LSR, OP_ASR,
157
158 /* Logical */
159 OP_AND,
160 OP_OR,
161 OP_XOR,
162 OP_AND_BOOL,
163 OP_OR_BOOL,
164 OP_BINARY_END = OP_OR_BOOL,
165
166 /* Binary comparison */
167 OP_BINCMP,
168 OP_SET_EQ = OP_BINCMP,
169 OP_SET_NE,
170 OP_SET_LE,
171 OP_SET_GE,
172 OP_SET_LT,
173 OP_SET_GT,
174 OP_SET_B,
175 OP_SET_A,
176 OP_SET_BE,
177 OP_SET_AE,
178 OP_BINCMP_END = OP_SET_AE,
179
180 /* Uni */
181 OP_NOT,
182 OP_NEG,
183
184 /* Select - three input values */
185 OP_SEL,
186
187 /* Memory */
188 OP_MALLOC,
189 OP_FREE,
190 OP_ALLOCA,
191 OP_LOAD,
192 OP_STORE,
193 OP_SETVAL,
194 OP_SYMADDR,
195 OP_GET_ELEMENT_PTR,
196
197 /* Other */
198 OP_PHI,
199 OP_PHISOURCE,
200 OP_CAST,
201 OP_SCAST,
202 OP_FPCAST,
203 OP_PTRCAST,
204 OP_INLINED_CALL,
205 OP_CALL,
206 OP_VANEXT,
207 OP_VAARG,
208 OP_SLICE,
209 OP_SNOP,
210 OP_LNOP,
211 OP_NOP,
212 OP_DEATHNOTE,
213 OP_ASM,
214
215 /* Sparse tagging (line numbers, context, whatever) */
216 OP_CONTEXT,
217 OP_RANGE,
218
219 /* Needed to translate SSA back to normal form */
220 OP_COPY,
221 };
222
223 struct basic_block_list;
224 struct instruction_list;
225
226 struct basic_block {
227 struct position pos;
228 unsigned long generation;
229 int context;
230 struct entrypoint *ep;
231 struct basic_block_list *parents; /* sources */
232 struct basic_block_list *children; /* destinations */
233 struct instruction_list *insns; /* Linear list of instructions */
234 struct pseudo_list *needs, *defines;
235 void *priv;
236 };
237
238 static inline int is_branch_goto(struct instruction *br)
239 {
240 return br && br->opcode==OP_BR && (!br->bb_true || !br->bb_false);
241 }
242
243 static inline void add_bb(struct basic_block_list **list, struct basic_block *bb)
244 {
245 add_ptr_list(list, bb);
246 }
247
248 static inline void add_instruction(struct instruction_list **list, struct instruction *insn)
249 {
250 add_ptr_list(list, insn);
251 }
252
253 static inline void add_multijmp(struct multijmp_list **list, struct multijmp *multijmp)
254 {
255 add_ptr_list(list, multijmp);
256 }
257
258 static inline pseudo_t *add_pseudo(struct pseudo_list **list, pseudo_t pseudo)
259 {
260 return add_ptr_list(list, pseudo);
261 }
262
263 static inline int remove_pseudo(struct pseudo_list **list, pseudo_t pseudo)
264 {
265 return delete_ptr_list_entry((struct ptr_list **)list, pseudo, 0) != 0;
266 }
267
268 static inline int bb_terminated(struct basic_block *bb)
269 {
270 struct instruction *insn;
271 if (!bb)
272 return 0;
273 insn = last_instruction(bb->insns);
274 return insn && insn->opcode >= OP_TERMINATOR
275 && insn->opcode <= OP_TERMINATOR_END;
276 }
277
278 static inline int bb_reachable(struct basic_block *bb)
279 {
280 return bb != NULL;
281 }
282
283 static inline void add_pseudo_ptr(pseudo_t *ptr, struct pseudo_ptr_list **list)
284 {
285 add_ptr_list(list, ptr);
286 }
287
288 static inline void add_pseudo_user_ptr(struct pseudo_user *user, struct pseudo_user_list **list)
289 {
290 add_ptr_list(list, user);
291 }
292
293 static inline int has_use_list(pseudo_t p)
294 {
295 return (p && p->type != PSEUDO_VOID && p->type != PSEUDO_VAL);
296 }
297
298 static inline struct pseudo_user *alloc_pseudo_user(struct instruction *insn, pseudo_t *pp)
299 {
300 struct pseudo_user *user = __alloc_pseudo_user(0);
301 user->userp = pp;
302 user->insn = insn;
303 return user;
304 }
305
306 static inline void use_pseudo(struct instruction *insn, pseudo_t p, pseudo_t *pp)
307 {
308 *pp = p;
309 if (has_use_list(p))
310 add_pseudo_user_ptr(alloc_pseudo_user(insn, pp), &p->users);
311 }
312
313 static inline void remove_bb_from_list(struct basic_block_list **list, struct basic_block *entry, int count)
314 {
315 delete_ptr_list_entry((struct ptr_list **)list, entry, count);
316 }
317
318 static inline void replace_bb_in_list(struct basic_block_list **list,
319 struct basic_block *old, struct basic_block *new, int count)
320 {
321 replace_ptr_list_entry((struct ptr_list **)list, old, new, count);
322 }
323
324 struct entrypoint {
325 struct symbol *name;
326 struct symbol_list *syms;
327 struct pseudo_list *accesses;
328 struct basic_block_list *bbs;
329 struct basic_block *active;
330 struct instruction *entry;
331 };
332
333 extern void insert_select(struct basic_block *bb, struct instruction *br, struct instruction *phi, pseudo_t if_true, pseudo_t if_false);
334 extern void insert_branch(struct basic_block *bb, struct instruction *br, struct basic_block *target);
335
336 pseudo_t alloc_phi(struct basic_block *source, pseudo_t pseudo, int size);
337 pseudo_t alloc_pseudo(struct instruction *def);
338 pseudo_t value_pseudo(long long val);
339
340 struct entrypoint *linearize_symbol(struct symbol *sym);
341 int unssa(struct entrypoint *ep);
342 void show_entry(struct entrypoint *ep);
343 const char *show_pseudo(pseudo_t pseudo);
344 void show_bb(struct basic_block *bb);
345 const char *show_instruction(struct instruction *insn);
346
347 #endif /* LINEARIZE_H */
348
Static analysis for C