Annotation of parser3/src/include/pa_string.h, revision 1.144.2.28.2.33
1.41 paf 1: /** @file
1.43 paf 2: Parser: string class decl.
3:
1.144.2.18 paf 4: Copyright (c) 2001-2003 ArtLebedev Group (http://www.artlebedev.com)
1.124 paf 5: Author: Alexandr Petrosian <paf@design.ru> (http://paf.design.ru)
1.1 paf 6: */
7:
8: #ifndef PA_STRING_H
9: #define PA_STRING_H
1.140 paf 10:
1.144.2.28.2. 3(paf 11:3): static const char* IDENT_STRING_H="$Date: 2003/03/24 17:12:33 $";
1.144.2.10 paf 12:
13: // includes
1.1 paf 14:
1.144.2.12 paf 15: #include "pa_types.h"
16: #include "pa_array.h"
1.4 paf 17:
1.144.2.28.2. (paf 18:): extern "C" { // cord's author forgot to do that
19:): #include "cord.h"
20:): };
21:):
1.144.2.12 paf 22: // forwards
1.144.2.10 paf 23:
1.144.2.28 paf 24: class Charset;
1.144.2.28.2. (paf 25:): class Table;
1.144.2.5 paf 26: class SQL_Connection;
27: class Dictionary;
1.144.2.15 paf 28: class Request_charsets;
1.144.2.28.2. (paf 29:): class String;
7(paf 30:3): typedef Array<const String*> ArrayString;
1.144.2.5 paf 31:
32: // helpers
1.144.2.28.2. 0(paf 33:3): /*
(paf 34:): /// appends clean piece to String @see String::append
7(paf 35:3): #define APPEND_CLEAN(src, length) append(src, length, String::L_CLEAN)
(paf 36:): /// appends piece to String as-is @see String::append
7(paf 37:3): #define APPEND_AS_IS(src, length) append(src, length, String::L_AS_IS)
(paf 38:): /// appends tainted piece to String @see String::append
7(paf 39:3): #define APPEND_TAINTED(src, length) append(src, length, String::L_TAINTED)
(paf 40:): /// handy: appends const char* piece to String @see String::append
41:): #define APPEND_CONST(src) APPEND_AS_IS(src, 0)
0(paf 42:3): */
(paf 43:): /// this is result of pos functions which mean that substr were not found
44:): #define STRING_NOT_FOUND ((size_t)-1)
45:):
7(paf 46:3): class StringBody {
47:3):
48:3): CORD body;
49:3):
50:3): public:
51:3):
52:3): StringBody(): body(CORD_EMPTY) {}
53:3): StringBody(CORD abody): body(abody) {}
2(paf 54:3): explicit StringBody(const char* str, size_t length): body(CORD_EMPTY) {
55:3): append(str, length);
56:3): }
3(paf 57:3): explicit StringBody(int value);
7(paf 58:3):
59:3): void clear() { body=CORD_EMPTY; }
60:3):
61:3): bool operator! () const { return is_empty(); }
62:3):
63:3): uint hash_code() const;
64:3):
0(paf 65:3): const char* cstr() const { return CORD_to_const_char_star(body); }
1(paf 66:3): char* cstrm() const { return CORD_to_char_star(body); }
0(paf 67:3):
7(paf 68:3): size_t length() const { return CORD_len(body); }
69:3):
70:3): bool is_empty() const { return body==CORD_EMPTY; }
71:3):
72:3): void append(const char *str, size_t length) {
2(paf 73:3): body=CORD_cat_char_star(body, str, length);
7(paf 74:3): }
2(paf 75:3): void append(char c) { body=CORD_cat_char(body, c); }
76:3): void append(StringBody src) { body=CORD_cat(body, src.body); }
7(paf 77:3):
78:3): // could not figure out why this operator is needed [should do this chain: string->simple->==]
8(paf 79:3): bool operator < (const StringBody src) const { return CORD_cmp(body, src.body)<0; }
80:3): bool operator > (const StringBody src) const { return CORD_cmp(body, src.body)>0; }
81:3): bool operator <= (const StringBody src) const { return CORD_cmp(body, src.body)<=0; }
82:3): bool operator >= (const StringBody src) const { return CORD_cmp(body, src.body)>=0; }
83:3): bool operator != (const StringBody src) const { return CORD_cmp(body, src.body)!=0; }
84:3): bool operator == (const StringBody src) const { return CORD_cmp(body, src.body)==0; }
7(paf 85:3):
86:3): int ncmp(size_t x_begin, const StringBody y, size_t y_begin, size_t size) const {
87:3): return CORD_ncmp(body, x_begin, y.body, y_begin, size);
88:3): }
89:3):
90:3): char fetch(size_t index) const { return CORD_fetch(body, index); }
1(paf 91:3): StringBody mid(size_t index, size_t length) const { return CORD_substr(body, index, length); }
3(paf 92:3): size_t pos(const char* substr, size_t offset=0) const { return CORD_str(body, offset, substr); }
1(paf 93:3): size_t pos(const StringBody substr, size_t offset=0) const {
94:3): if(!substr.length())
95:3): return STRING_NOT_FOUND; // in this case CORD_str returns 0 [parser users got used to -1]
96:3): return CORD_str(body, offset, substr.body);
97:3): }
2(paf 98:3): size_t pos(char c,
99:3): size_t offset=0) const {
100:3): return CORD_chr(body, offset, c);
101:3): }
1(paf 102:3):
103:3): template<typename I> void for_each(int (*callback)(const char* s, I), I info) const {
104:3): CORD_iter5(body, 0, 0, (CORD_batched_iter_fn)callback, info);
105:3): }
106:3):
107:3): void set_pos(CORD_pos& pos, size_t index) const { CORD_set_pos(pos, body, index); }
7(paf 108:3):
109:3): };
(paf 110:):
1.144.2.2 paf 111: /**
112: String which knows the language of all it's fragments.
1.41 paf 113:
114: All pieces remember
115: - whether they are tainted or not,
116: and the language which should be used to detaint them
117: */
1.144.2.28.2. (paf 118:): class String: public PA_Object {
119:):
2(paf 120:3): // friend class StringBody;
7(paf 121:3):
1.144.2.2 paf 122: public:
1.1 paf 123:
1.106 parser 124: /** piece is tainted or not. the language to use when detaint
125: remember to change String_Untaint_lang_name @ untaint.C along
126: */
1.144.2.28.2. 7(paf 127:3): enum Language {
128:3): L_UNSPECIFIED=0, ///< zero value handy for hash lookup @see untaint_lang_name2enum
129:3): // these two must go before others, there are checks for >L_AS_IS
130:3): L_CLEAN, ///< clean
131:3): L_AS_IS, ///< leave all characters intact
1.122 paf 132:
1.144.2.28.2. 7(paf 133:3): L_PASS_APPENDED,
1.41 paf 134: /**<
135: leave language built into string being appended.
136: just a flag, that value not stored
137: */
1.144.2.28.2. 7(paf 138:3): L_TAINTED, ///< tainted, untaint language as assigned later
1.122 paf 139: // untaint languages. assigned by ^untaint[lang]{...}
1.144.2.28.2. 7(paf 140:3): L_FILE_SPEC, ///< file specification
141:3): L_HTTP_HEADER, ///< text in HTTP response header
142:3): L_MAIL_HEADER, ///< text in mail header
143:3): L_URI, ///< text in uri
144:3): L_TABLE, ///< ^table:set body
145:3): L_SQL, ///< ^table:sql body
146:3): L_JS, ///< JavaScript code
147:3): L_XML, ///< ^dom:set xml
148:3): L_HTML, ///< HTML code (for editing)
149:3): L_OPTIMIZE_BIT = 0x8000 ///< flag, requiring cstr whitespace optimization
1.27 paf 150: };
151:
1.144.2.28.2. (paf 152:): struct Fragment {
7(paf 153:3): Language lang; ///< untaint flag, later untaint language
0(paf 154:3): size_t length; ///< length
9(paf 155:3): Fragment(Language alang, size_t asize): lang(alang), length(asize) {
0(paf 156:3): #ifdef _DEBUG
9(paf 157:3): if(alang==L_UNSPECIFIED)
0(paf 158:3): _asm int 3; // MUST NOT
159:3): if(asize==(size_t)-1)
160:3): _asm int 3; // MUST NOT
161:3): #endif
9(paf 162:3): }
(paf 163:): };
164:):
165:): class ArrayFragment: public Array<Fragment> {
6(paf 166:3): void append(element_type src) {
(paf 167:): *static_cast<Array<Fragment> *>(this)+=src;
168:): }
6(paf 169:3): /// hiding from accidental USE, use append_positions
170:3): void append(const ArrayFragment& src, int offset, int limit) {
171:3): static_cast<Array<Fragment> *>(this)->append(src, offset, limit);
172:3): }
(paf 173:): public:
174:): ArrayFragment& operator += (element_type src) {
175:): if(count()) { // not empty?
176:): // try to join with last
177:): Fragment& last=get(count()-1);
178:): if(last.lang==src.lang) {
0(paf 179:3): last.length+=src.length;
(paf 180:): return *this;
181:): }
182:): }
6(paf 183:3): append(src);
(paf 184:): return *this;
185:): }
6(paf 186:3): void append(const ArrayFragment& src) { append(src, 0, 0); }
187:3): void append_positions(const ArrayFragment& src, size_t substr_begin, size_t substr_end);
(paf 188:): };
189:):
190:): struct C {
191:): char *str;
0(paf 192:3): size_t length;
(paf 193:): operator char *() { return str; }
0(paf 194:3): C(char *astr, size_t asize): str(astr), length(asize) {}
(paf 195:): };
196:):
197:): private:
198:):
7(paf 199:3): StringBody body; ///< all characters of string
0(paf 200:3): ArrayFragment fragments; ///< fragment language+length info
(paf 201:):
1.8 paf 202: public:
203:
1.144.2.28.2. 1(paf 204:3): /// @todo check all places for length to be only HELPER length, and never be !=strlen(cstr)
0(paf 205:3): explicit String(const char* cstr=0, size_t helper_length=0, bool tainted=false);
1.14 paf 206: String(const String& src);
1.144.2.28.2. 7(paf 207:3): String(StringBody abody, Language alang): body(abody) {
208:3): fragments+=Fragment(alang, abody.length());
209:3): }
210:3):
211:3): /// for convinient hash lookup
2(paf 212:3): operator const StringBody() const { return body; }
7(paf 213:3):
214:3): bool is_empty() const { return body.is_empty(); }
215:3): size_t length() const { return body.length(); }
(paf 216:):
2(paf 217:3): /// convert to CORD. if 'lang' known, forcing 'lang' to it
1(paf 218:3): StringBody cstr_to_string_body(Language lang=L_AS_IS,
7(paf 219:3): SQL_Connection* connection=0,
(paf 220:): const Request_charsets *charsets=0) const;
221:):
2(paf 222:3): /// convert to constant C string. if 'lang' known, forcing 'lang' to it
7(paf 223:3): const char* cstr(Language lang=L_AS_IS,
224:3): SQL_Connection* connection=0,
1.144.2.14 paf 225: const Request_charsets *charsets=0) const {
1.144.2.28.2. 1(paf 226:3): return cstr_to_string_body(lang, connection, charsets).cstr();
(paf 227:): }
2(paf 228:3): /// convert to Modifiable C string. if 'lang' known, forcing 'lang' to it
7(paf 229:3): char *cstrm(Language lang=L_AS_IS,
230:3): SQL_Connection* connection=0,
(paf 231:): const Request_charsets *charsets=0) const {
1(paf 232:3): return cstr_to_string_body(lang, connection, charsets).cstrm();
1.144.2.9 paf 233: }
1.108 parser 234: /// puts pieces to buf
1.144.2.28.2. (paf 235:): C serialize(size_t prolog_size) const;
1.108 parser 236: /// appends pieces from buf to self
1.144.2.28.2. 4(paf 237:3): bool deserialize(size_t prolog_size, void *buf, size_t buf_size);
6(paf 238:3): /** append fragment,
9(paf 239:3): @c length can be zero, it will be autocalced
6(paf 240:3): when length<strlen(str) makes heap copy of @c str piece
1.46 paf 241: */
1.144.2.28.2. 9(paf 242:3): String& append(const char* str, size_t length, Language lang);
(paf 243:):
7(paf 244:3): bool operator == (const char* y) const { return body==StringBody(y); }
0(paf 245:3): bool operator != (const char* y) const { return body!=StringBody(y); }
(paf 246:):
247:): /// this starts with y
7(paf 248:3): bool starts_with(const char* y) const {
249:3): return body.ncmp(0/*x_begin*/, StringBody(y), 0/*y_begin*/, strlen(y))==0;
1.80 paf 250: }
1.144.2.28.2. 9(paf 251:3): /// x starts with this
252:3): bool this_starts(const char* x) const {
253:3): return StringBody(x).ncmp(0/*x_begin*/, body, 0/*y_begin*/, length())==0;
(paf 254:): }
1.80 paf 255:
1.144.2.28.2. 7(paf 256:3): String& append_to(String& dest, Language lang, bool forced) const;
257:3): String& append(const String& src, Language lang, bool forced=false) {
1.144.2.11 paf 258: return src.append_to(*this, lang, forced);
259: }
1.144.2.28.2. 7(paf 260:3): String& operator << (const String& src) { return append(src, L_PASS_APPENDED); }
261:3): String& operator << (const char* src) { return append(src, 0, L_AS_IS); }
8(paf 262:3): String& operator << (const StringBody src) {
9(paf 263:3): body.append(src);
264:3): fragments+=Fragment(L_AS_IS, src.length());
265:3): return *this;
266:3): }
1.100 parser 267:
1.142 paf 268: /// extracts first char of a string, if any
269: char first_char() const {
1.144.2.28.2. 7(paf 270:3): return is_empty()?0:body.fetch(0);
1.142 paf 271: }
1.144.2.28.2. 8(paf 272:3):
273:3): bool operator < (const String& src) const { return body<src.body; }
274:3): bool operator > (const String& src) const { return body>src.body; }
275:3): bool operator <= (const String& src) const { return body<=src.body; }
276:3): bool operator >= (const String& src) const { return body>=src.body; }
277:3): bool operator != (const String& src) const { return body!=src.body; }
278:3): bool operator == (const String& src) const { return body==src.body; }
1.54 paf 279:
280: /// extracts [start, finish) piece of string
1.144.2.28.2. 2(paf 281:3): String& mid(size_t substr_begin, size_t substr_end) const;
(paf 282:):
283:): /**
7(paf 284:3): ignore lang if it's L_UNSPECIFIED
(paf 285:): but when specified: look for substring that lies in ONE fragment in THAT lang
286:): @return position of substr in string, -1 means "not found" [const char* version]
287:): */
1(paf 288:3): size_t pos(const StringBody substr,
7(paf 289:3): size_t this_offset=0, Language lang=L_UNSPECIFIED) const;
290:3): /// String version of @see pos(const char*, int, Language)
(paf 291:): size_t pos(const String& substr,
7(paf 292:3): size_t this_offset=0, Language lang=L_UNSPECIFIED) const;
2(paf 293:3): size_t pos(char c,
294:3): size_t this_offset=0) const {
295:3): return body.pos(c, this_offset);
296:3): }
1.62 paf 297:
1.144.2.22 paf 298: void split(ArrayString& result,
1.144.2.28.2. 2(paf 299:3): size_t& pos_after,
(paf 300:): const char* delim,
2(paf 301:3): Language lang=L_UNSPECIFIED, int limit=-1) const;
1.144.2.22 paf 302: void split(ArrayString& result,
1.144.2.28.2. 5(paf 303:3): size_t& pos_after,
1.62 paf 304: const String& delim,
1.144.2.28.2. 7(paf 305:3): Language lang=L_UNSPECIFIED, int limit=-1) const;
1.62 paf 306:
1.144.2.28.2. 6(paf 307:3): typedef void (*Row_action)(Table& table, ArrayString* row,
1.136 paf 308: int prestart, int prefinish,
309: int poststart, int postfinish,
1.144.2.9 paf 310: void *info);
1.87 parser 311: /**
1.144.2.5 paf 312: @return table of found items, if any.
1.87 parser 313: table format is defined and fixed[can be used by others]:
314: @verbatim
315: prematch/match/postmatch/1/2/3/...
316: @endverbatim
317: */
1.144.2.28.2. (paf 318:): Table* match(Charset& source_charset,
1.64 paf 319: const String& regexp,
1.144.2.28.2. 5(paf 320:3): const String* options,
1.99 parser 321: Row_action row_action, void *info,
1.144.2.27 paf 322: bool& just_matched) const;
1.87 parser 323: enum Change_case_kind {
324: CC_UPPER,
325: CC_LOWER
326: };
1.144.2.28.2. (paf 327:): String& change_case(Charset& source_charset,
5(paf 328:3): Change_case_kind kind) const;
(paf 329:): const String& replace(const Dictionary& dict) const;
330:): double as_double() const;
331:): int as_int() const;
1.137 paf 332:
1.7 paf 333: private: //disabled
334:
1.12 paf 335: String& operator = (const String&) { return *this; }
1.7 paf 336:
1.1 paf 337: };
1.144.2.7 paf 338:
339: /// simple hash code of string. used by Hash
1.144.2.28.2. 8(paf 340:3): inline uint hash_code(const StringBody self) {
1.144.2.7 paf 341: return self.hash_code();
342: }
1.1 paf 343:
344: #endif
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