Annotation of parser3/src/classes/hash.C, revision 1.145
1.1 paf 1: /** @file
2: Parser: @b hash parser class.
3:
1.141 moko 4: Copyright (c) 2001-2017 Art. Lebedev Studio (http://www.artlebedev.com)
1.35 paf 5: Author: Alexandr Petrosian <paf@design.ru> (http://paf.design.ru)
1.41 paf 6: */
1.1 paf 7:
8: #include "classes.h"
1.57 paf 9: #include "pa_vmethod_frame.h"
10:
1.1 paf 11: #include "pa_request.h"
1.122 moko 12: #include "pa_charsets.h"
1.1 paf 13: #include "pa_vhash.h"
1.6 parser 14: #include "pa_vvoid.h"
1.2 parser 15: #include "pa_sql_connection.h"
1.9 parser 16: #include "pa_vtable.h"
1.22 parser 17: #include "pa_vbool.h"
1.26 paf 18: #include "pa_vmethod_frame.h"
1.2 parser 19:
1.145 ! moko 20: volatile const char * IDENT_HASH_C="$Id: hash.C,v 1.144 2019/09/06 10:17:07 moko Exp $";
1.113 moko 21:
1.1 paf 22: // class
23:
1.57 paf 24: class MHash: public Methoded {
1.2 parser 25: public: // VStateless_class
1.103 misha 26: Value* create_new_value(Pool&) { return new VHash(); }
1.2 parser 27:
1.1 paf 28: public:
1.57 paf 29: MHash();
1.1 paf 30: };
31:
1.57 paf 32: // global variable
33:
1.126 moko 34: DECLARE_CLASS_VAR(hash, new MHash);
1.57 paf 35:
1.1 paf 36: // methods
37:
1.11 parser 38: #ifndef DOXYGEN
1.52 paf 39: class Hash_sql_event_handlers: public SQL_Driver_query_event_handlers {
1.57 paf 40: bool distinct;
41: HashStringValue& rows_hash;
1.86 misha 42: Value* row_value;
1.57 paf 43: int column_index;
1.86 misha 44: ArrayString& columns;
45: bool one_bool_column;
1.67 paf 46: static VBool only_one_column_value;
1.86 misha 47: Table2hash_value_type value_type;
48: int columns_count;
49: public:
50: Table* empty;
1.11 parser 51: public:
1.145 ! moko 52: Hash_sql_event_handlers(bool adistinct, HashStringValue& arows_hash, Table2hash_value_type avalue_type):
1.49 paf 53: distinct(adistinct),
1.11 parser 54: rows_hash(arows_hash),
1.86 misha 55: row_value(0),
1.67 paf 56: column_index(0),
1.139 moko 57: columns(*new ArrayString),
1.86 misha 58: one_bool_column(false),
1.139 moko 59: value_type(avalue_type),
1.86 misha 60: empty(0) {
1.11 parser 61: }
1.86 misha 62:
1.109 misha 63: bool add_column(SQL_Error& error, const char* str, size_t ) {
1.53 paf 64: try {
1.107 moko 65: columns+=new String(str, String::L_TAINTED /* no length as 0x00 can be inside */);
1.53 paf 66: return false;
67: } catch(...) {
1.142 moko 68: error=SQL_Error("exception occurred in Hash_sql_event_handlers::add_column");
1.53 paf 69: return true;
70: }
1.11 parser 71: }
1.86 misha 72:
1.53 paf 73: bool before_rows(SQL_Error& error) {
1.67 paf 74: if(columns.count()<1) {
1.145 ! moko 75: error=SQL_Error("no columns");
1.53 paf 76: return true;
77: }
1.86 misha 78: switch(value_type){
79: case C_STRING: {
80: if(columns.count()>2){
1.145 ! moko 81: error=SQL_Error("only 2 columns allowed for $.type[string].");
1.86 misha 82: return true;
83: }
84: }
85: case C_TABLE: {
86: // create empty table which we'll copy later
87: empty=new Table(&columns);
88: columns_count=columns.count();
89: }
90: case C_HASH: {
91: one_bool_column=columns.count()==1;
92: }
93: }
1.53 paf 94: return false;
1.11 parser 95: }
1.86 misha 96:
1.53 paf 97: bool add_row(SQL_Error& /*error*/) {
1.11 parser 98: column_index=0;
1.53 paf 99: return false;
1.11 parser 100: }
1.86 misha 101:
1.116 misha 102: bool add_row_cell(SQL_Error& error, const char *str, size_t ) {
1.53 paf 103: try {
1.145 ! moko 104: const String& cell=str ? *new String(str, String::L_TAINTED /* no length as 0x00 can be inside */) : String::Empty;
1.86 misha 105:
1.69 paf 106: bool duplicate=false;
1.86 misha 107: if(one_bool_column) {
1.69 paf 108: duplicate=rows_hash.put_dont_replace(cell, &only_one_column_value); // put. existed?
109: } else if(column_index==0) {
1.86 misha 110: switch(value_type){
111: case C_HASH: {
112: VHash* row_vhash=new VHash;
113: row_value=row_vhash;
114: duplicate=rows_hash.put_dont_replace(cell, row_vhash); // put. existed?
115: break;
116: }
117: case C_STRING: {
118: VString* row_vstring=new VString();
119: row_value=row_vstring;
120: duplicate=rows_hash.put_dont_replace(cell, row_vstring); // put. existed?
121: break;
122: }
123: case C_TABLE: {
124: VTable* vtable=(VTable*)rows_hash.get(cell);
125: Table* table;
126:
127: if(vtable) { // table with this key exist?
128: if(!distinct) {
129: duplicate=true;
130: break;
131: }
132: table=vtable->get_table();
133: } else {
134: // no? creating table of same structure as source
135: Table::Action_options table_options(0, 0);
136: table=new Table(*empty, table_options/*no rows, just structure*/);
137: vtable=new VTable(table);
138: rows_hash.put(cell, vtable); // put
139: }
140: ArrayString* row=new ArrayString(columns_count);
141: row_value=(Value*)row;
142: *row+=&cell;
143: *table+=row;
144: break;
145: }
146: }
147: } else {
148: switch(value_type) {
149: case C_HASH: {
150: row_value->get_hash()->put(*columns[column_index], new VString(cell));
151: break;
152: }
153: case C_STRING: {
154: VString* row_string=(VString*)row_value;
155: row_string->set_string(cell);
156: break;
157: }
158: case C_TABLE: {
159: ArrayString* row=(ArrayString*)row_value;
160: *row+=&cell;
161: break;
162: }
163: }
164: }
1.69 paf 165:
166: if(duplicate & !distinct) {
1.145 ! moko 167: error=SQL_Error("duplicate key");
1.69 paf 168: return true;
169: }
170:
1.53 paf 171: column_index++;
172: return false;
173: } catch(...) {
1.142 moko 174: error=SQL_Error("exception occurred in Hash_sql_event_handlers::add_row_cell");
1.53 paf 175: return true;
176: }
1.11 parser 177: }
178:
179: };
1.67 paf 180: VBool Hash_sql_event_handlers::only_one_column_value(true);
181:
1.11 parser 182: #endif
183:
1.57 paf 184: static void _create_or_add(Request& r, MethodParams& params) {
185: if(params.count()) {
1.111 misha 186: Value& vsrc=params.as_no_junction(0, PARAM_MUST_BE_HASH);
1.130 moko 187: VHashBase& self=GET_SELF(r, VHashBase);
188: HashStringValue* self_hash=&(self.hash());
1.115 moko 189: HashStringValue* src_hash;
190:
1.130 moko 191: if(VHashBase* src=static_cast<VHashBase*>(vsrc.as(VHASH_TYPE))) {
1.127 moko 192: src_hash=&(src->hash());
1.115 moko 193:
194: if(src_hash==self_hash) // same: doing nothing
1.66 paf 195: return;
1.72 paf 196:
1.115 moko 197: if(Value* vdefault=src->get_default())
1.129 moko 198: self.set_default(vdefault);
1.115 moko 199: } else {
200: src_hash=vsrc.get_hash();
1.66 paf 201: }
1.115 moko 202:
203: if(src_hash)
1.138 moko 204: for(HashStringValue::Iterator i(*src_hash); i; i.next())
205: self_hash->put(i.key(), i.value());
1.20 parser 206: }
207: }
1.22 parser 208:
1.57 paf 209: static void _sub(Request& r, MethodParams& params) {
1.114 misha 210: if(HashStringValue* src=params.as_hash(0, "param")) {
1.130 moko 211: HashStringValue* self=&(GET_SELF(r, VHashBase).hash());
1.66 paf 212: if(src==self) { // same: clearing
213: self->clear();
214: return;
215: }
1.138 moko 216: for(HashStringValue::Iterator i(*src); i; i.next())
217: self->remove(i.key());
1.66 paf 218: }
1.57 paf 219: }
220:
1.130 moko 221: static void copy_all_dontoverwrite_to(HashStringValue::key_type key, HashStringValue::value_type value, HashStringValue* dest) {
1.57 paf 222: dest->put_dont_replace(key, value);
1.22 parser 223: }
1.57 paf 224: static void _union(Request& r, MethodParams& params) {
1.22 parser 225: // dest = copy of self
1.130 moko 226: Value& result=*new VHash(GET_SELF(r, VHashBase).hash());
1.22 parser 227: // dest += b
1.114 misha 228: if(HashStringValue* src=params.as_hash(0, "param"))
1.77 paf 229: src->for_each<HashStringValue*>(copy_all_dontoverwrite_to, result.get_hash());
1.22 parser 230:
231: // return result
1.137 moko 232: r.write(result);
1.22 parser 233: }
234:
235: #ifndef DOXYGEN
236: struct Copy_intersection_to_info {
1.57 paf 237: HashStringValue* b;
238: HashStringValue* dest;
1.22 parser 239: };
240: #endif
1.130 moko 241: static void copy_intersection_to(HashStringValue::key_type key, HashStringValue::value_type value, Copy_intersection_to_info *info) {
1.57 paf 242: if(info->b->get(key))
243: info->dest->put_dont_replace(key, value);
1.22 parser 244: }
1.57 paf 245: static void _intersection(Request& r, MethodParams& params) {
246: Value& result=*new VHash;
1.22 parser 247: // dest += b
1.114 misha 248: if(HashStringValue* b=params.as_hash(0, "param")) {
1.57 paf 249: Copy_intersection_to_info info={b, result.get_hash()};
1.130 moko 250: GET_SELF(r, VHashBase).hash().for_each<Copy_intersection_to_info*>(copy_intersection_to, &info);
1.22 parser 251: }
252:
253: // return result
1.137 moko 254: r.write(result);
1.22 parser 255: }
256:
1.130 moko 257: static bool intersects( HashStringValue::key_type key, HashStringValue::value_type /*value*/, HashStringValue* b) {
1.57 paf 258: return b->get(key)!=0;
1.22 parser 259: }
260:
1.57 paf 261: static void _intersects(Request& r, MethodParams& params) {
262: bool result=false;
263:
1.119 misha 264: if(HashStringValue* b=params.as_hash(0, "param")) {
1.130 moko 265: HashStringValue* self=&(GET_SELF(r, VHashBase).hash());
1.120 misha 266: if(b==self) {
1.137 moko 267: r.write(VBool::get(true));
1.120 misha 268: return;
269: }
1.119 misha 270: result=self->first_that<HashStringValue*>(intersects, b)!=0;
271: }
1.22 parser 272:
273: // return result
1.137 moko 274: r.write(VBool::get(result));
1.22 parser 275: }
276:
277:
1.81 misha 278: extern Table2hash_value_type get_value_type(Value& vvalue_type);
1.71 paf 279: extern int marshal_binds(HashStringValue& hash, SQL_Driver::Placeholder*& placeholders);
280: extern void unmarshal_bind_updates(HashStringValue& hash, int placeholder_count, SQL_Driver::Placeholder* placeholders);
281:
1.57 paf 282: static void _sql(Request& r, MethodParams& params) {
283: Value& statement=params.as_junction(0, "statement must be code");
1.2 parser 284:
1.71 paf 285: HashStringValue* bind=0;
1.87 misha 286: ulong limit=SQL_NO_LIMIT;
1.33 paf 287: ulong offset=0;
1.49 paf 288: bool distinct=false;
1.81 misha 289: Table2hash_value_type value_type=C_HASH;
1.110 misha 290: if(params.count()>1)
1.114 misha 291: if(HashStringValue* options=params.as_hash(1, "sql options")) {
1.110 misha 292: int valid_options=0;
293: if(Value* vbind=options->get(sql_bind_name)) {
294: valid_options++;
295: bind=vbind->get_hash();
296: }
297: if(Value* vlimit=options->get(sql_limit_name)) {
298: valid_options++;
1.133 moko 299: limit=(ulong)r.process(*vlimit).as_double();
1.110 misha 300: }
301: if(Value* voffset=options->get(sql_offset_name)) {
302: valid_options++;
1.133 moko 303: offset=(ulong)r.process(*voffset).as_double();
1.110 misha 304: }
305: if(Value* vdistinct=options->get(sql_distinct_name)) {
306: valid_options++;
1.133 moko 307: distinct=r.process(*vdistinct).as_bool();
1.110 misha 308: }
309: if(Value* vvalue_type=options->get(sql_value_type_name)) {
310: valid_options++;
1.133 moko 311: value_type=get_value_type(r.process(*vvalue_type));
1.110 misha 312: }
313: if(valid_options!=options->count())
314: throw Exception(PARSER_RUNTIME, 0, CALLED_WITH_INVALID_OPTION);
315: }
1.2 parser 316:
1.71 paf 317: SQL_Driver::Placeholder* placeholders=0;
318: uint placeholders_count=0;
319: if(bind)
320: placeholders_count=marshal_binds(*bind, placeholders);
321:
1.37 paf 322: const String& statement_string=r.process_to_string(statement);
1.136 moko 323: const char* statement_cstr=statement_string.untaint_cstr(String::L_SQL, r.connection());
1.97 misha 324:
1.130 moko 325: HashStringValue& hash=GET_SELF(r, VHashBase).hash();
1.145 ! moko 326: hash.clear();
! 327: Hash_sql_event_handlers handlers(distinct, hash, value_type);
! 328:
! 329: r.connection()->query(statement_cstr, placeholders_count, placeholders, offset, limit, handlers, statement_string);
1.71 paf 330:
331: if(bind)
332: unmarshal_bind_updates(*bind, placeholders_count, placeholders);
1.2 parser 333: }
334:
1.130 moko 335: static void keys_collector(HashStringValue::key_type key, HashStringValue::value_type, Table *table) {
1.100 misha 336: Table::element_type row(new ArrayString(1));
1.57 paf 337: *row+=new String(key, String::L_TAINTED);
338: *table+=row;
1.9 parser 339: }
1.68 paf 340: static void _keys(Request& r, MethodParams& params) {
341: const String* keys_column_name;
342: if(params.count()>0)
1.81 misha 343: keys_column_name=¶ms.as_string(0, COLUMN_NAME_MUST_BE_STRING);
1.68 paf 344: else
345: keys_column_name=new String("key");
346:
1.101 misha 347: Table::columns_type columns(new ArrayString(1));
1.68 paf 348: *columns+=keys_column_name;
1.57 paf 349: Table* table=new Table(columns);
1.9 parser 350:
1.130 moko 351: GET_SELF(r, VHashBase).hash().for_each<Table*>(keys_collector, table);
1.9 parser 352:
1.137 moko 353: r.write(*new VTable(table));
1.9 parser 354: }
355:
1.57 paf 356: static void _count(Request& r, MethodParams&) {
1.137 moko 357: r.write(*new VInt(GET_SELF(r, VHashBase).hash().count()));
1.16 parser 358: }
359:
1.57 paf 360: static void _delete(Request& r, MethodParams& params) {
1.119 misha 361: if(params.count()>0)
1.130 moko 362: GET_SELF(r, VHashBase).hash().remove(params.as_string(0, "key must be string"));
1.119 misha 363: else
1.130 moko 364: GET_SELF(r, VHashBase).hash().clear();
1.25 paf 365: }
366:
1.82 misha 367: static void _contains(Request& r, MethodParams& params) {
1.130 moko 368: VHashBase& self=GET_SELF(r, VHashBase);
1.129 moko 369: const String& key_name=params.as_string(0, "key must be string");
370: bool result=SYMBOLS_EQ(key_name,_DEFAULT_SYMBOL) ? (self.get_default() != 0) : self.hash().contains(key_name);
1.137 moko 371: r.write(VBool::get(result));
1.80 misha 372: }
373:
1.57 paf 374: static void _foreach(Request& r, MethodParams& params) {
1.102 misha 375: InCycle temp(r);
1.77 paf 376:
1.128 moko 377: const String* key_var_name=¶ms.as_string(0, "key-var name must be string");
378: const String* value_var_name=¶ms.as_string(1, "value-var name must be string");
379: Value* body_code=¶ms.as_junction(2, "body must be code");
1.134 moko 380: Value* delim_maybe_code=params.count()>3?¶ms[3]:0;
1.128 moko 381: Value& caller=*r.get_method_frame()->caller();
1.85 misha 382:
1.128 moko 383: if(key_var_name->is_empty()) key_var_name=0;
384: if(value_var_name->is_empty()) value_var_name=0;
1.57 paf 385:
1.130 moko 386: HashStringValue& hash=GET_SELF(r, VHashBase).hash();
1.128 moko 387:
388: if(delim_maybe_code){ // delimiter set
389: bool need_delim=false;;
390: for(HashStringValue::Iterator i(hash); i; i.next()){
391: if(key_var_name){
392: VString* vkey=new VString(*new String(i.key(), String::L_TAINTED));
393: r.put_element(caller, *key_var_name, vkey);
394: }
395:
396: if(value_var_name)
397: r.put_element(caller, *value_var_name, i.value());
398:
1.132 moko 399: Value& sv_processed=r.process(*body_code);
1.140 moko 400: TempSkip4Delimiter skip(r);
1.128 moko 401:
402: const String* s_processed=sv_processed.get_string();
403: if(s_processed && !s_processed->is_empty()) { // we have body
404: if(need_delim) // need delim & iteration produced string?
1.137 moko 405: r.write(r.process(*delim_maybe_code));
1.128 moko 406: else
407: need_delim=true;
408: }
409:
1.137 moko 410: r.write(sv_processed);
1.128 moko 411:
1.140 moko 412: if(skip.check_break())
1.128 moko 413: break;
414: }
415: } else {
416: for(HashStringValue::Iterator i(hash); i; i.next()){
417: if(key_var_name){
418: VString* vkey=new VString(*new String(i.key(), String::L_TAINTED));
419: r.put_element(caller, *key_var_name, vkey);
420: }
421:
422: if(value_var_name)
423: r.put_element(caller, *value_var_name, i.value());
424:
425: r.process_write(*body_code);
426:
1.140 moko 427: if(r.check_skip_break())
1.128 moko 428: break;
429: }
430: }
1.26 paf 431: }
432:
1.121 misha 433: enum AtResultType {
434: AtResultTypeValue = 0,
435: AtResultTypeKey = 1,
436: AtResultTypeHash = 2
437: };
438:
439: inline Value& SingleElementHash(String::Body akey, Value* avalue) {
440: Value& result=*new VHash;
441: result.put_element(*new String(akey, String::L_TAINTED), avalue);
442: return result;
443: }
444:
1.122 moko 445: #ifndef DOXYGEN
1.143 moko 446: struct Hash_seq_item : public PA_Allocated {
1.122 moko 447: HashStringValue::Pair *hash_pair;
448: union {
449: const char *c_str;
450: double d;
451: } value;
452: };
453: #endif
454: static int sort_cmp_string(const void *a, const void *b) {
455: return strcmp(
456: static_cast<const Hash_seq_item *>(a)->value.c_str,
457: static_cast<const Hash_seq_item *>(b)->value.c_str
458: );
459: }
460: static int sort_cmp_double(const void *a, const void *b) {
461: double va=static_cast<const Hash_seq_item *>(a)->value.d;
462: double vb=static_cast<const Hash_seq_item *>(b)->value.d;
463: if(va<vb)
464: return -1;
465: else if(va>vb)
466: return +1;
467: else
468: return 0;
469: }
470: static void _sort(Request& r, MethodParams& params){
1.123 moko 471: #ifdef HASH_ORDER
1.122 moko 472: const String& key_var_name=params.as_string(0, "key-var name must be string");
473: const String& value_var_name=params.as_string(1, "value-var name must be string");
474: Value& key_maker=params.as_junction(2, "key-maker must be code");
1.139 moko 475: bool reverse=params.count()>3 /*..[desc|asc|]*/ && params.as_no_junction(3, "order must not be code").as_string()=="desc"; // default=asc
1.122 moko 476:
477: const String* key_var=key_var_name.is_empty()? 0 : &key_var_name;
478: const String* value_var=value_var_name.is_empty()? 0 : &value_var_name;
479: VMethodFrame* context=r.get_method_frame()->caller();
480:
1.130 moko 481: HashStringValue& hash=GET_SELF(r, VHashBase).hash();
1.122 moko 482: int count=hash.count();
483:
1.143 moko 484: Hash_seq_item* seq=new Hash_seq_item[count];
1.122 moko 485: int pos=0;
486: bool key_values_are_strings=true;
487:
488: for(HashStringValue::Iterator i(hash); i; i.next(), pos++ ){
489: if(key_var)
490: r.put_element(*context, *key_var, new VString(*new String(i.key(), String::L_TAINTED)));
491: if(value_var)
492: r.put_element(*context, *value_var, i.value());
493:
1.133 moko 494: Value& value=r.process(key_maker);
1.122 moko 495: if(pos==0) // determining key values type by first one
496: key_values_are_strings=value.is_string();
497:
498: seq[pos].hash_pair=i.pair();
499: if(key_values_are_strings)
500: seq[pos].value.c_str=value.as_string().cstr();
501: else
502: seq[pos].value.d=value.as_expr_result().as_double();
503: }
504:
505: // @todo: handle this elsewhere
506: if(r.charsets.source().NAME()=="KOI8-R" && key_values_are_strings)
507: for(pos=0; pos<count; pos++)
508: if(*seq[pos].value.c_str)
1.131 moko 509: seq[pos].value.c_str=Charset::transcode(seq[pos].value.c_str, r.charsets.source(), pa_UTF8_charset).cstr();
1.122 moko 510:
511: // sort keys
512: qsort(seq, count, sizeof(Hash_seq_item), key_values_are_strings?sort_cmp_string:sort_cmp_double);
513:
514: // reorder hash as required in 'seq'
515: hash.order_clear();
516: if(reverse)
517: for(pos=count-1; pos>=0; pos--)
518: hash.order_next(seq[pos].hash_pair);
519: else
520: for(pos=0; pos<count; pos++)
521: hash.order_next(seq[pos].hash_pair);
522:
523: delete[] seq;
1.123 moko 524: #endif
1.122 moko 525: }
526:
1.105 misha 527: static void _at(Request& r, MethodParams& params) {
1.130 moko 528: HashStringValue& hash=GET_SELF(r, VHashBase).hash();
1.105 misha 529: size_t count=hash.count();
530:
531: int pos=0;
532:
1.121 misha 533: // misha@
534: // I do not like that type is checked before whence.
1.133 moko 535: // But I do not like the idea to move it after whence (where process can be called) even more.
1.121 misha 536: AtResultType result_type=AtResultTypeValue;
537: if(params.count() > 1) {
538: const String& stype=params.as_string(1, "type must be string");
539: if(stype == "key")
540: result_type=AtResultTypeKey;
541: else if(stype == "hash")
542: result_type=AtResultTypeHash;
543: else if(stype != "value")
544: throw Exception(PARSER_RUNTIME, &stype, "type must be 'key', 'value' or 'hash'");
545: }
546:
1.134 moko 547: Value& vwhence=params[0];
1.121 misha 548: if(vwhence.is_string()) {
1.105 misha 549: const String& swhence=*vwhence.get_string();
550: if(swhence == "last")
551: pos=count-1;
552: else if(swhence != "first")
553: throw Exception(PARSER_RUNTIME,
554: &swhence,
555: "whence must be 'first', 'last' or expression");
556: } else {
1.133 moko 557: pos=r.process(vwhence).as_int();
1.105 misha 558: if(pos < 0)
559: pos+=count;
560: }
561:
1.106 misha 562: if(count && pos >= 0 && (size_t)pos < count){
1.121 misha 563: switch(result_type) {
564: case AtResultTypeKey:
565: {
1.123 moko 566: #ifdef HASH_ORDER
1.121 misha 567: if(pos == 0) {
1.137 moko 568: r.write(*new VString(*new String(hash.first_key(), String::L_TAINTED)));
1.121 misha 569: } else if((size_t)pos == count-1) {
1.137 moko 570: r.write(*new VString(*new String(hash.last_key(), String::L_TAINTED)));
1.123 moko 571: } else
572: #endif
573: {
1.121 misha 574: for(HashStringValue::Iterator i(hash); i; i.next(), pos-- )
575: if(!pos){
1.137 moko 576: r.write(*new VString(*new String(i.key(), String::L_TAINTED)));
1.121 misha 577: break;
578: }
579: }
1.105 misha 580: break;
581: }
1.121 misha 582: case AtResultTypeValue:
583: {
1.123 moko 584: #ifdef HASH_ORDER
1.121 misha 585: if(pos == 0) {
1.137 moko 586: r.write(*hash.first_value());
1.121 misha 587: } else if((size_t)pos == count-1) {
1.137 moko 588: r.write(*hash.last_value());
1.123 moko 589: } else
590: #endif
591: {
1.121 misha 592: for(HashStringValue::Iterator i(hash); i; i.next(), pos-- )
593: if(!pos){
1.137 moko 594: r.write(*i.value());
1.121 misha 595: break;
596: }
597: }
598: break;
599: }
600: case AtResultTypeHash:
601: {
1.123 moko 602: #ifdef HASH_ORDER
1.121 misha 603: if(pos == 0) {
1.137 moko 604: r.write(SingleElementHash(hash.first_key(), hash.first_value()));
1.121 misha 605: } else if((size_t)pos == count-1) {
1.137 moko 606: r.write(SingleElementHash(hash.last_key(), hash.last_value()));
1.123 moko 607: } else
608: #endif
609: {
1.121 misha 610: for(HashStringValue::Iterator i(hash); i; i.next(), pos-- )
611: if(!pos){
1.137 moko 612: r.write(SingleElementHash(i.key(), i.value()));
1.121 misha 613: break;
614: }
615: }
616: break;
617: }
618: }
1.105 misha 619: }
620: }
621:
1.1 paf 622: // constructor
623:
1.57 paf 624: MHash::MHash(): Methoded("hash")
1.39 paf 625: {
1.21 parser 626: // ^hash::create[[copy_from]]
1.57 paf 627: add_native_method("create", Method::CT_DYNAMIC, _create_or_add, 0, 1);
1.22 parser 628: // ^hash.add[add_from]
1.57 paf 629: add_native_method("add", Method::CT_DYNAMIC, _create_or_add, 1, 1);
1.22 parser 630: // ^hash.sub[sub_from]
631: add_native_method("sub", Method::CT_DYNAMIC, _sub, 1, 1);
632: // ^a.union[b] = hash
633: add_native_method("union", Method::CT_DYNAMIC, _union, 1, 1);
634: // ^a.intersection[b] = hash
635: add_native_method("intersection", Method::CT_DYNAMIC, _intersection, 1, 1);
636: // ^a.intersects[b] = bool
637: add_native_method("intersects", Method::CT_DYNAMIC, _intersects, 1, 1);
1.25 paf 638:
639: // ^a.delete[key]
1.119 misha 640: add_native_method("delete", Method::CT_DYNAMIC, _delete, 0, 1);
1.2 parser 641:
1.82 misha 642: // ^a.contains[key]
643: add_native_method("contains", Method::CT_DYNAMIC, _contains, 1, 1);
644: // backward
645: add_native_method("contain", Method::CT_DYNAMIC, _contains, 1, 1);
1.80 misha 646:
647: // ^hash::sql[query][options hash]
1.33 paf 648: add_native_method("sql", Method::CT_DYNAMIC, _sql, 1, 2);
1.2 parser 649:
1.68 paf 650: // ^hash._keys[[column name]]
1.124 moko 651: add_native_method("_keys", Method::CT_DYNAMIC, _keys, 0, 1);
1.16 parser 652:
653: // ^hash._count[]
1.124 moko 654: add_native_method("_count", Method::CT_DYNAMIC, _count, 0, 0);
1.26 paf 655:
656: // ^hash.foreach[key;value]{code}[delim]
657: add_native_method("foreach", Method::CT_DYNAMIC, _foreach, 2+1, 2+1+1);
1.105 misha 658:
1.122 moko 659: // ^hash.sort[key;value]{string-key-maker}[[asc|desc]]
660: // ^hash.sort[key;value](numeric-key-maker)[[asc|desc]]
661: add_native_method("sort", Method::CT_DYNAMIC, _sort, 2+1, 2+1+1);
662:
1.121 misha 663: // ^hash._at[first|last[;'key'|'value'|'hash']]
664: // ^hash._at([-+]offset)[['key'|'value'|'hash']]
665: add_native_method("_at", Method::CT_DYNAMIC, _at, 1, 2);
1.124 moko 666:
667: #ifdef FEATURE_GET_ELEMENT4CALL
668: // aliases without "_"
669: add_native_method("keys", Method::CT_DYNAMIC, _keys, 0, 1);
670: add_native_method("count", Method::CT_DYNAMIC, _count, 0, 0);
671: add_native_method("at", Method::CT_DYNAMIC, _at, 1, 2);
672: #endif
673:
1.1 paf 674: }
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