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Issue 12427: Merge regexp2000 back into bleeding_edge (Closed) Base URL: http://v8.googlecode.com/svn/branches/bleeding_edge/
Patch Set: Created 12 years ago
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« src/interpreter-irregexp.h ('K') | « src/interpreter-irregexp.h ('k') | src/jsregexp.h » ('j') | src/jsregexp.h » ('J')
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1 // Copyright 2008 the V8 project authors. All rights reserved.
2 // Redistribution and use in source and binary forms, with or without
3 // modification, are permitted provided that the following conditions are
4 // met:
5 //
6 // * Redistributions of source code must retain the above copyright
7 // notice, this list of conditions and the following disclaimer.
8 // * Redistributions in binary form must reproduce the above
9 // copyright notice, this list of conditions and the following
10 // disclaimer in the documentation and/or other materials provided
11 // with the distribution.
12 // * Neither the name of Google Inc. nor the names of its
13 // contributors may be used to endorse or promote products derived
14 // from this software without specific prior written permission.
15 //
16 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
17 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
18 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
19 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
20 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
21 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
22 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
26 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27
28 // A simple interpreter for the Irregexp byte code.
29
30
31 #include "v8.h"
32 #include "utils.h"
33 #include "ast.h"
34 #include "bytecodes-irregexp.h"
35 #include "interpreter-irregexp.h"
36
37
38 namespace v8 { namespace internal {
39
40
41 #ifdef DEBUG
42 static void TraceInterpreter(const byte* code_base,
43 const byte* pc,
44 int stack_depth,
45 int current_position,
46 int bytecode_length,
47 const char* bytecode_name) {
48 if (FLAG_trace_regexp_bytecodes) {
49 PrintF("pc = %02x, sp = %d, current = %d, bc = %s",
50 pc - code_base,
Mads Ager (chromium) 2008/11/25 21:09:41 Indentation one space off for all arguments except
Erik Corry 2008/11/26 12:18:36 Fixed.
51 stack_depth,
52 current_position,
53 bytecode_name);
54 for (int i = 1; i < bytecode_length; i++) {
55 printf(", %02x", pc[i]);
56 }
57 printf("\n");
58 }
59 }
60
61
62 # define BYTECODE(name) case BC_##name: \
Mads Ager (chromium) 2008/11/25 21:09:41 No space between # and define. The indentation se
Erik Corry 2008/11/26 12:18:36 I like indenting #if in an analogous way to the in
63 TraceInterpreter(code_base, \
64 pc, \
65 backtrack_sp - backtrack_stack, \
66 current, \
67 BC_##name##_LENGTH, \
68 #name);
69 #else
70 # define BYTECODE(name) case BC_##name: // NOLINT
Mads Ager (chromium) 2008/11/25 21:09:41 Remove space between # and define.
Erik Corry 2008/11/26 12:18:36 Fixed.
71 #endif
72
73
74
75 static bool RawMatch(const byte* code_base,
76 Vector<const uc16> subject,
77 int* registers,
78 int current) {
79 const byte* pc = code_base;
80 static const int kBacktrackStackSize = 10000;
81 int backtrack_stack[kBacktrackStackSize];
82 int backtrack_stack_space = kBacktrackStackSize;
83 int* backtrack_sp = backtrack_stack;
84 int current_char = -1;
85 #ifdef DEBUG
86 if (FLAG_trace_regexp_bytecodes) {
87 PrintF("\n\nStart bytecode interpreter\n\n");
88 }
89 #endif
90 while (true) {
91 switch (*pc) {
92 BYTECODE(BREAK)
93 UNREACHABLE();
94 return false;
95 BYTECODE(PUSH_CP)
96 if (--backtrack_stack_space < 0) {
97 return false; // No match on backtrack stack overflow.
98 }
99 *backtrack_sp++ = current + Load32(pc + 1);
100 pc += BC_PUSH_CP_LENGTH;
101 break;
102 BYTECODE(PUSH_BT)
103 if (--backtrack_stack_space < 0) {
104 return false; // No match on backtrack stack overflow.
105 }
106 *backtrack_sp++ = Load32(pc + 1);
107 pc += BC_PUSH_BT_LENGTH;
108 break;
109 BYTECODE(PUSH_REGISTER)
110 if (--backtrack_stack_space < 0) {
111 return false; // No match on backtrack stack overflow.
112 }
113 *backtrack_sp++ = registers[pc[1]];
114 pc += BC_PUSH_REGISTER_LENGTH;
115 break;
116 BYTECODE(SET_REGISTER)
117 registers[pc[1]] = Load32(pc + 2);
118 pc += BC_SET_REGISTER_LENGTH;
119 break;
120 BYTECODE(ADVANCE_REGISTER)
121 registers[pc[1]] += Load32(pc + 2);
122 pc += BC_ADVANCE_REGISTER_LENGTH;
123 break;
124 BYTECODE(SET_REGISTER_TO_CP)
125 registers[pc[1]] = current + Load32(pc + 2);
126 pc += BC_SET_REGISTER_TO_CP_LENGTH;
127 break;
128 BYTECODE(SET_CP_TO_REGISTER)
129 current = registers[pc[1]];
130 pc += BC_SET_CP_TO_REGISTER_LENGTH;
131 break;
132 BYTECODE(SET_REGISTER_TO_SP)
133 registers[pc[1]] = backtrack_sp - backtrack_stack;
134 pc += BC_SET_REGISTER_TO_SP_LENGTH;
135 break;
136 BYTECODE(SET_SP_TO_REGISTER)
137 backtrack_sp = backtrack_stack + registers[pc[1]];
138 backtrack_stack_space = kBacktrackStackSize -
139 (backtrack_sp - backtrack_stack);
140 pc += BC_SET_SP_TO_REGISTER_LENGTH;
141 break;
142 BYTECODE(POP_CP)
143 backtrack_stack_space++;
144 --backtrack_sp;
145 current = *backtrack_sp;
146 pc += BC_POP_CP_LENGTH;
147 break;
148 BYTECODE(POP_BT)
149 backtrack_stack_space++;
150 --backtrack_sp;
151 pc = code_base + *backtrack_sp;
152 break;
153 BYTECODE(POP_REGISTER)
154 backtrack_stack_space++;
155 --backtrack_sp;
156 registers[pc[1]] = *backtrack_sp;
157 pc += BC_POP_REGISTER_LENGTH;
158 break;
159 BYTECODE(FAIL)
160 return false;
161 BYTECODE(SUCCEED)
162 return true;
163 BYTECODE(ADVANCE_CP)
164 current += Load32(pc + 1);
165 pc += BC_ADVANCE_CP_LENGTH;
166 break;
167 BYTECODE(GOTO)
168 pc = code_base + Load32(pc + 1);
169 break;
170 BYTECODE(LOAD_CURRENT_CHAR) {
171 int pos = current + Load32(pc + 1);
172 if (pos >= subject.length()) {
173 pc = code_base + Load32(pc + 5);
174 } else {
175 current_char = subject[pos];
176 pc += BC_LOAD_CURRENT_CHAR_LENGTH;
177 }
178 break;
179 }
180 BYTECODE(CHECK_CHAR) {
181 int c = Load16(pc + 1);
182 if (c == current_char) {
183 pc = code_base + Load32(pc + 3);
184 } else {
185 pc += BC_CHECK_CHAR_LENGTH;
186 }
187 break;
188 }
189 BYTECODE(CHECK_NOT_CHAR) {
190 int c = Load16(pc + 1);
191 if (c != current_char) {
192 pc = code_base + Load32(pc + 3);
193 } else {
194 pc += BC_CHECK_NOT_CHAR_LENGTH;
195 }
196 break;
197 }
198 BYTECODE(OR_CHECK_NOT_CHAR) {
199 int c = Load16(pc + 1);
200 if (c != (current_char | Load16(pc + 3))) {
201 pc = code_base + Load32(pc + 5);
202 } else {
203 pc += BC_OR_CHECK_NOT_CHAR_LENGTH;
204 }
205 break;
206 }
207 BYTECODE(MINUS_OR_CHECK_NOT_CHAR) {
208 int c = Load16(pc + 1);
209 int m = Load16(pc + 3);
210 if (c != ((current_char - m) | m)) {
211 pc = code_base + Load32(pc + 5);
212 } else {
213 pc += BC_MINUS_OR_CHECK_NOT_CHAR_LENGTH;
214 }
215 break;
216 }
217 BYTECODE(CHECK_LT) {
218 int limit = Load16(pc + 1);
219 if (current_char < limit) {
220 pc = code_base + Load32(pc + 3);
221 } else {
222 pc += BC_CHECK_LT_LENGTH;
223 }
224 break;
225 }
226 BYTECODE(CHECK_GT) {
227 int limit = Load16(pc + 1);
228 if (current_char > limit) {
229 pc = code_base + Load32(pc + 3);
230 } else {
231 pc += BC_CHECK_GT_LENGTH;
232 }
233 break;
234 }
235 BYTECODE(CHECK_REGISTER_LT)
236 if (registers[pc[1]] < Load16(pc + 2)) {
237 pc = code_base + Load32(pc + 4);
238 } else {
239 pc += BC_CHECK_REGISTER_LT_LENGTH;
240 }
241 break;
242 BYTECODE(CHECK_REGISTER_GE)
243 if (registers[pc[1]] >= Load16(pc + 2)) {
244 pc = code_base + Load32(pc + 4);
245 } else {
246 pc += BC_CHECK_REGISTER_GE_LENGTH;
247 }
248 break;
249 BYTECODE(LOOKUP_MAP1) {
250 // Look up character in a bitmap. If we find a 0, then jump to the
251 // location at pc + 7. Otherwise fall through!
252 int index = current_char - Load16(pc + 1);
253 byte map = code_base[Load32(pc + 3) + (index >> 3)];
254 map = ((map >> (index & 7)) & 1);
255 if (map == 0) {
256 pc = code_base + Load32(pc + 7);
257 } else {
258 pc += BC_LOOKUP_MAP1_LENGTH;
259 }
260 break;
261 }
262 BYTECODE(LOOKUP_MAP2) {
263 // Look up character in a half-nibble map. If we find 00, then jump to
264 // the location at pc + 7. If we find 01 then jump to location at
265 // pc + 11, etc.
266 int index = (current_char - Load16(pc + 1)) << 1;
267 byte map = code_base[Load32(pc + 3) + (index >> 3)];
268 map = ((map >> (index & 7)) & 3);
269 if (map < 2) {
270 if (map == 0) {
271 pc = code_base + Load32(pc + 7);
272 } else {
273 pc = code_base + Load32(pc + 11);
274 }
275 } else {
276 if (map == 2) {
277 pc = code_base + Load32(pc + 15);
278 } else {
279 pc = code_base + Load32(pc + 19);
280 }
281 }
282 break;
283 }
284 BYTECODE(LOOKUP_MAP8) {
285 // Look up character in a byte map. Use the byte as an index into a
286 // table that follows this instruction immediately.
287 int index = current_char - Load16(pc + 1);
288 byte map = code_base[Load32(pc + 3) + index];
289 const byte* new_pc = code_base + Load32(pc + 7) + (map << 2);
290 pc = code_base + Load32(new_pc);
291 break;
292 }
293 BYTECODE(LOOKUP_HI_MAP8) {
294 // Look up high byte of this character in a byte map. Use the byte as
295 // an index into a table that follows this instruction immediately.
296 int index = (current_char >> 8) - pc[1];
297 byte map = code_base[Load32(pc + 2) + index];
298 const byte* new_pc = code_base + Load32(pc + 6) + (map << 2);
299 pc = code_base + Load32(new_pc);
300 break;
301 }
302 BYTECODE(CHECK_NOT_BACK_REF) {
303 int from = registers[pc[1]];
304 int len = registers[pc[1] + 1] - from;
305 if (current + len > subject.length()) {
306 pc = code_base + Load32(pc + 2);
307 break;
308 } else {
309 int i;
310 for (i = 0; i < len; i++) {
311 if (subject[from + i] != subject[current + i]) {
312 pc = code_base + Load32(pc + 2);
313 break;
314 }
315 }
316 if (i < len) break;
317 current += len;
318 }
319 pc += BC_CHECK_NOT_BACK_REF_LENGTH;
320 break;
321 }
322 default:
323 UNREACHABLE();
324 break;
325 }
326 }
327 }
328
329
330 bool IrregexpInterpreter::Match(Handle<ByteArray> code_array,
331 Handle<String> subject16,
332 int* registers,
333 int start_position) {
334 ASSERT(StringShape(*subject16).IsTwoByteRepresentation());
335 ASSERT(subject16->IsFlat(StringShape(*subject16)));
336
Mads Ager (chromium) 2008/11/25 21:09:41 Remove one of the empty lines?
Erik Corry 2008/11/26 12:18:36 Fixed.
337
338 AssertNoAllocation a;
339 const byte* code_base = code_array->GetDataStartAddress();
340 return RawMatch(code_base,
341 Vector<const uc16>(subject16->GetTwoByteData(),
342 subject16->length()),
343 registers,
344 start_position);
345 }
346
347 } } // namespace v8::internal
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« src/interpreter-irregexp.h ('K') | « src/interpreter-irregexp.h ('k') | src/jsregexp.h » ('j') | src/jsregexp.h » ('J')

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