/** @file Parser: @b string parser class. Copyright (c) 2001-2026 Art. Lebedev Studio (https://www.artlebedev.com) Authors: Konstantin Morshnev , Alexandr Petrosian */ #include "classes.h" #include "pa_vmethod_frame.h" #include "pa_base64.h" #include "pa_request.h" #include "pa_vdouble.h" #include "pa_vint.h" #include "pa_vtable.h" #include "pa_vbool.h" #include "pa_string.h" #include "pa_varray.h" #include "pa_sql_connection.h" #include "pa_dictionary.h" #include "pa_vmethod_frame.h" #include "pa_vregex.h" #include "pa_charsets.h" volatile const char * IDENT_STRING_C="$Id: string.C,v 1.267 2026/04/25 13:38:46 moko Exp $"; // class class MString: public Methoded { public: MString(); }; // global variable DECLARE_CLASS_VAR(string, new MString); // void class, inherited from string and thus should be inited afterwards class MVoid: public Methoded { public: MVoid(); }; // void global variable should be after string global variable DECLARE_CLASS_VAR(void, new MVoid); // defines for statics #define MATCH_VAR_NAME "match" #define TRIM_START_OPTION "left" #define TRIM_END_OPTION "right" #define TRIM_BOTH_OPTION "both" #define MODE_APPEND "append" #define UNESCAPE_MODE_JS "js" #define UNESCAPE_MODE_URI "uri" // statics static const String match_var_name(MATCH_VAR_NAME); // methods static void _length(Request& r, MethodParams&) { double result=(double)GET_SELF(r, VString).string().length(r.charsets.source()); r.write(*new VDouble(result)); } static void _int(Request& r, MethodParams& params) { const String& self_string=GET_SELF(r, VString).string(); if(self_string.is_empty()) { if(params.count()>0) r.write(*new VInt(params.as_wint(0, "default must be int", r))); // (default) else throw Exception(PARSER_RUNTIME, 0, "unable to convert empty string without default specified"); } else { try { r.write(*new VInt(self_string.as_wint())); } catch(...) { // convert problem if(params.count()>0) r.write(*new VInt(params.as_wint(0, "default must be int", r))); // (default) else rethrow; // we have a problem when no default } } } static void _double(Request& r, MethodParams& params) { const String& self_string=GET_SELF(r, VString).string(); if(self_string.is_empty()) { if(params.count()>0) r.write(*new VDouble(params.as_double(0, "default must be double", r))); // (default) else throw Exception(PARSER_RUNTIME, 0, "unable to convert empty string without default specified"); } else { try { r.write(*new VDouble(self_string.as_double())); } catch(...) { // convert problem if(params.count()>0) r.write(*new VDouble(params.as_double(0, "default must be double", r))); // (default) else rethrow; // we have a problem when no default } } } static void _bool(Request& r, MethodParams& params) { const String& self_string=GET_SELF(r, VString).string(); bool converted; const char *str=self_string.cstr(); if(self_string.is_empty()) { if(params.count()>0) converted=params.as_bool(0, "default must be bool", r); // (default) else throw Exception(PARSER_RUNTIME, 0, "unable to convert empty string without default specified"); } else if( (str[0]=='T' || str[0]=='t') && (str[1]=='R' || str[1]=='r') && (str[2]=='U' || str[2]=='u') && (str[3]=='E' || str[3]=='e') && str[4]==0 ) { // "true" converted=true; } else if( (str[0]=='F' || str[0]=='f') && (str[1]=='A' || str[1]=='a') && (str[2]=='L' || str[2]=='l') && (str[3]=='S' || str[3]=='s') && (str[4]=='E' || str[4]=='e') && str[5]==0 ) { // "false" converted=false; } else { try { converted=self_string.as_bool(); } catch(...) { // convert problem if(params.count()>0) converted=params.as_bool(0, "default must be bool", r); // (default) else rethrow; // we have a problem when no default } } r.write(VBool::get(converted)); } /*not static*/void _string_format(Request& r, MethodParams& params) { Value& fmt_maybe_code=params[0]; // for some time due to stupid {} in original design const String& fmt=r.process_to_string(fmt_maybe_code); const char* buf=format_double(r.get_self().as_double(), fmt.trim().cstrm()); r.write(String(buf)); } static void _left(Request& r, MethodParams& params) { int sn=params.as_int(0, "n must be int", r); const String& string=GET_SELF(r, VString).string(); r.write(sn<0 ? string : string.mid(r.charsets.source(), 0, sn)); } static void _right(Request& r, MethodParams& params) { int sn=params.as_int(0, "n must be int", r); if(sn>0){ size_t n=sn; const String& string=GET_SELF(r, VString).string(); size_t length=string.length(r.charsets.source()); r.write(n=0", begin); size_t end; size_t length=0; if(params.count()>1) { int n=params.as_int(1, "n must be int", r); if(n<0) throw Exception(PARSER_RUNTIME, 0, "n(%d) must be >=0", n); end=begin+n; } else { length=string.length(r.charsets.source()); end=length; } r.write(string.mid(r.charsets.source(), begin, end, length)); } static void _pos(Request& r, MethodParams& params) { Value& substr=params.as_no_junction(0, "substr must not be code"); const String& string=GET_SELF(r, VString).string(); int offset=0; if(params.count()>1){ offset=params.as_int(1, "n must be int", r); if(offset<0) throw Exception(PARSER_RUNTIME, 0, "n(%d) must be >=0", offset); } r.write(*new VInt((int)string.pos(r.charsets.source(), substr.as_string(), offset))); } struct Split_action_info { const String& src; ArrayString &result; Split_action_info(const String& s, ArrayString& r) : src(s), result(r) {} }; static void split_action(Table& , ArrayString* row, int prestart, int prefinish, int poststart, int postfinish, void *info) { Split_action_info& ai=*static_cast(info); if(row) { // begin&middle // piece from last match['prestart'] to beginning of this match['prefinish'] ai.result += &ai.src.mid(prestart, prefinish); } else // end if(poststart != postfinish) ai.result += &ai.src.mid(poststart, postfinish); } static void split_list(Value& delim_value, const String& string, ArrayString& result) { if(VRegex *vregex=dynamic_cast(&delim_value)){ vregex->study(); int matches_count=0; Split_action_info ai(string, result); string.match(vregex, split_action, &ai, matches_count); } else string.split(result, 0, delim_value.as_string()); } #define SPLIT_LEFT 0x0001 #define SPLIT_RIGHT 0x0010 #define SPLIT_HORIZONTAL 0x0100 #define SPLIT_VERTICAL 0x1000 #define SPLIT_ARRAY 0x10000 static int split_options(const String* options) { struct Split_option { const char* keyL; const char* keyU; int setBit; int checkBit; } split_option[]={ {"l", "L", SPLIT_LEFT, SPLIT_RIGHT}, // 0xAVHRL {"r", "R", SPLIT_RIGHT, SPLIT_LEFT}, {"h", "H", SPLIT_HORIZONTAL, SPLIT_VERTICAL | SPLIT_ARRAY}, {"v", "V", SPLIT_VERTICAL, SPLIT_HORIZONTAL | SPLIT_ARRAY}, {"a", "A", SPLIT_ARRAY, SPLIT_VERTICAL | SPLIT_HORIZONTAL}, {0, 0, 0, 0} }; int result=0; if(options) { for(Split_option *o=split_option; o->keyL; o++) if(options->pos(o->keyL)!=STRING_NOT_FOUND || (o->keyU && options->pos(o->keyU)!=STRING_NOT_FOUND)) { if(result & o->checkBit) throw Exception(PARSER_RUNTIME, options, "conflicting split options"); result |= o->setBit; } } return result; } static Table& split_vertical(ArrayString& pieces, bool right, const String* column_name) { Table::columns_type columns(new ArrayString); *columns+=column_name; Table& table=*new Table(columns, pieces.count()); if(right) { // right for(int i=pieces.count(); --i>=0; ) { Table::element_type row(new ArrayString); *row+=pieces[i]; table+=row; } } else { // left for(ArrayString::Iterator i(pieces); i; ) { Table::element_type row(new ArrayString); *row+=i.next(); table+=row; } } return table; } static Table& split_horizontal(ArrayString& pieces, bool right) { Table& table=*new Table(Table::columns_type(0) /* nameless */); Table::element_type row(new ArrayString(pieces.count())); if(right) { // right for(int i=pieces.count(); --i>=0; ) *row+=pieces[i]; } else { // left for(ArrayString::Iterator i(pieces); i; ) *row+=i.next(); } table+=row; return table; } static VArray& split_array(ArrayString& pieces, bool right) { VArray& result=*new VArray(pieces.count()); ArrayValue &array=result.array(); if(right) { // right for(int i=pieces.count(); --i>=0; ) array+=new VString(*pieces[i]); } else { // left for(ArrayString::Iterator i(pieces); i; ) array+=new VString(*i.next()); } return result; } static void split_with_options(Request& r, MethodParams& params, int bits) { const String& string=GET_SELF(r, VString).string(); size_t params_count=params.count(); ArrayString pieces; split_list(params.as_no_junction(0, "delimiter must not be code"), string, pieces); if(!bits) { const String* options=0; if(params_count>1) options=¶ms.as_string(1, OPTIONS_MUST_NOT_BE_CODE); bits=split_options(options); } bool right=(bits & SPLIT_RIGHT) != 0; bool horizontal=(bits & SPLIT_HORIZONTAL) !=0; bool array=(bits & SPLIT_ARRAY) !=0; const String* column_name=0; if(params_count>2){ column_name=¶ms.as_string(2, COLUMN_NAME_MUST_BE_STRING); if (horizontal && !column_name->is_empty()) throw Exception(PARSER_RUNTIME, column_name, "column name cannot be specified when splitting into a table horizontal row"); if (array && !column_name->is_empty()) throw Exception(PARSER_RUNTIME, column_name, "column name cannot be specified when splitting into an array"); } if(array){ r.write(split_array(pieces, right)); } else { if(!column_name || column_name->is_empty()) column_name=new String("piece"); Table& table=horizontal ? split_horizontal(pieces, right) : split_vertical(pieces, right, column_name); r.write(*new VTable(&table)); } } static void _split(Request& r, MethodParams& params) { split_with_options(r, params, 0 /* maybe-determine from param #2 */); } static void _lsplit(Request& r, MethodParams& params) { split_with_options(r, params, SPLIT_LEFT); } static void _rsplit(Request& r, MethodParams& params) { split_with_options(r, params, SPLIT_RIGHT); } static void search_action(Table& table, Table::element_type row, int, int, int, int, void *) { if(row) table+=row; } #ifndef DOXYGEN struct Replace_action_info { Request* request; const String* src; String* dest; VTable* vtable; Value* replacement_code; }; #endif /// @todo they can do $global[$result] there, getting pointer to later-invalid local var, kill this static void replace_action(Table& table, ArrayString* row, int prestart, int prefinish, int poststart, int postfinish, void *info) { Replace_action_info& ai=*static_cast(info); if(row) { // begin&middle // piece from last match['prestart'] to beginning of this match['prefinish'] if(prestart!=prefinish) *ai.dest << ai.src->mid(prestart, prefinish);//ai.dest->APPEND_CONST("-"); // store found parts in one-record VTable if(table.count()) // middle table.put(0, row); else // begin table+=row; { // execute 'replacement_code' in 'table' context if(ai.replacement_code){ ai.vtable->set_table(table); *ai.dest << ai.request->process_to_string(*ai.replacement_code); } } } else // end *ai.dest << ai.src->mid(poststart, postfinish); } static void _match(Request& r, MethodParams& params) { size_t params_count=params.count(); Value& regexp=params.as_no_junction(0, "regexp must not be code"); Value* options=(params_count>1)?¶ms.as_no_junction(1, OPTIONS_MUST_NOT_BE_CODE):0; VRegex* vregex=dynamic_cast(®exp); VRegexCleaner vrcleaner; if(vregex){ if(options && options->is_defined()) throw Exception(PARSER_RUNTIME, 0, "you cannot specify regex-object and options together"); } else { vregex=new VRegex(r.charsets.source(), ®exp.as_string(), (options) ? (&options->as_string()) : 0); vregex->study(); vrcleaner.vregex=vregex; } const String& src=GET_SELF(r, VString).string(); int matches_count=0; if(params_count<3) { // search Table* table=src.match(vregex, search_action, 0, matches_count); if(table){ r.write(*new VTable(table)); } else { r.write(*new VInt(matches_count)); } } else { // replace Value* replacement_code=0; bool is_junction=false; Value* replacement=¶ms[2]; if(replacement->get_junction()){ replacement_code=replacement; is_junction=true; } else if(replacement->is_string()){ if(replacement->is_defined()) replacement_code=replacement; } else if(!replacement->is_void()) throw Exception(PARSER_RUNTIME, 0, "replacement option should be junction or string"); Value* default_code=(params_count==4) ? ¶ms.as_junction(3, "default value must be code") : 0; String result; VTable* vtable=new VTable; Replace_action_info info={ &r, &src, &result, vtable, replacement_code }; if(is_junction){ Temp_value_element temp(r, *replacement_code->get_junction()->method_frame, match_var_name, vtable); src.match(vregex, replace_action, &info, matches_count); } else { src.match(vregex, replace_action, &info, matches_count); } if(!matches_count && default_code) r.process_write(*default_code); else r.write(result); } } static void change_case(Request& r, MethodParams&, String::Change_case_kind kind) { const String& src=GET_SELF(r, VString).string(); r.write(src.change_case(r.charsets.source(), kind)); } static void _upper(Request& r, MethodParams& params) { change_case(r, params, String::CC_UPPER); } static void _lower(Request& r, MethodParams& params) { change_case(r, params, String::CC_LOWER); } #ifndef DOXYGEN class String_sql_event_handlers: public SQL_Driver_query_event_handlers { bool got_column; public: bool got_cell; const String* result; public: String_sql_event_handlers(): got_column(false), got_cell(false), result(&String::Empty) {} bool add_column(SQL_Error& error, const char* /*str*/, size_t /*length*/) { if(got_column) { error=SQL_Error("result must contain exactly one column"); return true; } got_column=true; return false; } bool before_rows(SQL_Error& /*error*/ ) { /* ignore */ return false; } bool add_row(SQL_Error& /*error*/) { /* ignore */ return false; } bool add_row_cell(SQL_Error& error, const char* str, size_t) { if(got_cell) { error=SQL_Error("result must contain no more than one row"); return true; } try { got_cell=true; result=new String(str, String::L_TAINTED /* no length as 0x00 can be inside */ ); return false; } catch(...) { error=SQL_Error("exception occurred in String_sql_event_handlers::add_row_cell"); return true; } } }; #endif extern int marshal_binds(HashStringValue& hash, SQL_Driver::Placeholder*& placeholders); extern void unmarshal_bind_updates(HashStringValue& hash, int placeholder_count, SQL_Driver::Placeholder* placeholders); const String* sql_result_string(Request& r, MethodParams& params, Value*& default_code) { Value& statement=params.as_junction(0, "statement must be code"); HashStringValue* bind=0; ulong limit=SQL_NO_LIMIT; ulong offset=0; default_code=0; if(params.count()>1) if(HashStringValue* options=params.as_hash(1, "sql options")) { int valid_options=0; if(Value* vbind=options->get(sql_bind_name)) { valid_options++; bind=vbind->get_hash(); } if(Value* vlimit=options->get(sql_limit_name)) { valid_options++; limit=(ulong)r.process(*vlimit).as_double(); } if(Value* voffset=options->get(sql_offset_name)) { valid_options++; offset=(ulong)r.process(*voffset).as_double(); } if((default_code=options->get(sql_default_name))) { valid_options++; } if(valid_options!=options->count()) throw Exception(PARSER_RUNTIME, 0, CALLED_WITH_INVALID_OPTION); } SQL_Driver::Placeholder* placeholders=0; uint placeholders_count=0; if(bind) placeholders_count=marshal_binds(*bind, placeholders); const String& statement_string=r.process_to_string(statement); const char* statement_cstr=statement_string.untaint_cstr(String::L_SQL, r.connection()); String_sql_event_handlers handlers; r.connection()->query(statement_cstr, placeholders_count, placeholders, offset, limit, handlers, statement_string); if(bind) unmarshal_bind_updates(*bind, placeholders_count, placeholders); if(!handlers.got_cell) return 0; // no lines, caller should return second param[default value] return handlers.result; } static void _sql(Request& r, MethodParams& params) { Value* default_code; const String* string=sql_result_string(r, params, default_code); if(!string) { if(default_code) { string=&r.process_to_string(*default_code); } else throw Exception(PARSER_RUNTIME, 0, "produced no result, but no default option specified"); } r.write(*string); } static void _replace(Request& r, MethodParams& params) { const String& src=GET_SELF(r, VString).string(); if(params.count()==1) { // ^string.replace[table] if(Table* table=params.as_table(0, "param")){ Dictionary dict(*table); r.write(src.replace(dict)); } else r.write(src); } else { // ^string.replace[from-string;to-string] Dictionary dict(params.as_string(0, "from must be string"), params.as_string(1, "to must be string")); r.write(src.replace(dict)); } } static void _save(Request& r, MethodParams& params) { bool do_append=false; Charset* asked_charset=0; size_t file_name_index=0; if(params.count()>1) { if(HashStringValue* options=params.as_no_junction(1, "second parameter should be string or hash").get_hash()){ // ^file.save[filespec;$.charset[] $.append(true)] int valid_options=0; if(Value* vcharset_name=options->get(PA_CHARSET_NAME)){ asked_charset=&pa_charsets.get(vcharset_name->as_string()); valid_options++; } if(Value* vappend=options->get(MODE_APPEND)){ do_append=vappend->as_bool(); valid_options++; } if(valid_options != options->count()) throw Exception(PARSER_RUNTIME, 0, CALLED_WITH_INVALID_OPTION); } else { // ^file.save[append;filespec] const String& mode=params.as_string(0, "mode must be string"); if(mode==MODE_APPEND){ do_append=true; file_name_index++; } else throw Exception(PARSER_RUNTIME, &mode, "unknown mode, must be 'append'"); } } const String& file_name=params.as_file_name(file_name_index); const String& src=GET_SELF(r, VString).string(); String::Body sbody=src.cstr_to_string_body_untaint(String::L_AS_IS, r.connection(false), &r.charsets); // write file_write(r.charsets, r.full_disk_path(file_name), sbody.cstr(), sbody.length(), true, do_append, asked_charset); } static void _normalize(Request& r, MethodParams&) { const String& src=GET_SELF(r, VString).string(); r.write(src); } static void _trim(Request& r, MethodParams& params) { const String& src=GET_SELF(r, VString).string(); String::Trim_kind kind=String::TRIM_BOTH; size_t params_count=params.count(); const char* chars=0; if(params_count>0) { const String& skind=params.as_string(0, "'where' must be string"); if(!skind.is_empty()) { if(skind==TRIM_BOTH_OPTION) kind=String::TRIM_BOTH; else if(skind==TRIM_START_OPTION || skind=="start") kind=String::TRIM_START; else if(skind==TRIM_END_OPTION || skind=="end") kind=String::TRIM_END; else if(params_count==1) chars=skind.cstr(); else throw Exception(PARSER_RUNTIME, &skind, "'kind' must be one of " TRIM_START_OPTION ", " TRIM_BOTH_OPTION ", " TRIM_END_OPTION); } if(params_count>1) { const String& schars=params.as_string(1, "'chars' must be string"); if(!schars.is_empty()) chars=schars.cstr(); } } r.write(src.trim(kind, chars, &r.charsets.source())); } Base64Options base64_encode_options(Request& r, HashStringValue* options) { Base64Options result; if(options) { for(HashStringValue::Iterator i(*options); i; i.next()) { String::Body key=i.key(); Value* value=i.value(); if(key == "pad") { result.pad=r.process(*value).as_bool(); } else if(key == "wrap") { result.wrap=r.process(*value).as_bool(); } else if(key == "url-safe") { if(r.process(*value).as_bool()) result.set_url_safe_abc(); } else throw Exception(PARSER_RUNTIME, 0, CALLED_WITH_INVALID_OPTION); } } return result; } Base64Options base64_decode_options(Request& r, HashStringValue* options) { Base64Options result; if(options) { for(HashStringValue::Iterator i(*options); i; i.next() ) { String::Body key=i.key(); Value* value=i.value(); if(key == "pad") { result.pad=r.process(*value).as_bool(); } else if(key == "strict") { result.strict=r.process(*value).as_bool(); } else if(key == "url-safe") { if(r.process(*value).as_bool()) result.set_url_safe_abc(); } else throw Exception(PARSER_RUNTIME, 0, CALLED_WITH_INVALID_OPTION); } } return result; } static void _base64(Request& r, MethodParams& params) { if(&r.get_self() == string_class) { // decode: ^string:base64[encoded[;options]] const char* cstr=params.count() ? params.as_string(0, PARAMETER_MUST_BE_STRING).cstr() : ""; Base64Options options = base64_decode_options(r, params.count() > 1 ? params.as_hash(1) : NULL); char* decoded=0; size_t length=pa_base64_decode(cstr, strlen(cstr), decoded, options); if(decoded && length){ if(memchr(decoded, 0, length)) throw Exception(PARSER_RUNTIME, 0, "Invalid \\x00 character found while decoding to string. Decode to file instead."); fix_line_breaks(decoded, length); if(length) r.write(*new String(decoded, String::L_TAINTED)); } } else { // encode: ^str.base64[options] VString& self=GET_SELF(r, VString); const char* cstr=self.string().cstr(); Base64Options options = base64_encode_options(r, params.count() ? params.as_hash(0) : NULL); const char* encoded=pa_base64_encode(cstr, strlen(cstr), options); r.write(*new String(encoded, String::L_TAINTED /*once ?param=base64(something) was needed*/ )); } } static void _idna(Request& r, MethodParams& params) { if(&r.get_self() == string_class) { // decode: ^string:idna[encoded] const char* cstr=params.count() ? params.as_string(0, PARAMETER_MUST_BE_STRING).cstr() : ""; r.write(*new String(pa_idna_decode(cstr, r.charsets.source()), String::L_TAINTED)); } else { // encode: ^str.idna[] VString& self=GET_SELF(r, VString); const char* cstr=self.string().cstr(); r.write(*new String(pa_idna_encode(cstr, r.charsets.source()), String::L_TAINTED)); } } static void _js_escape(Request& r, MethodParams&){ const String& src=GET_SELF(r, VString).string(); r.write(src.escape(r.charsets.source())); } static void _js_unescape(Request& r, MethodParams& params){ const String& src=params.as_string(0, PARAMETER_MUST_BE_STRING); if(const char* result=unescape_chars(src.cstr(), src.length(), &r.charsets.source(), true)) r.write(*new String(result, String::L_TAINTED)); } static void _unescape(Request& r, MethodParams& params){ const String& mode=params.as_string(0, MODE_MUST_BE_STRING); const String& src=params.as_string(1, PARAMETER_MUST_BE_STRING); Charset* from_charset=&r.charsets.client(); if(params.count() > 2) if(HashStringValue* options=params.as_hash(2)) { int valid_options=0; if(Value* vcharset_name=options->get(PA_CHARSET_NAME)){ from_charset=&pa_charsets.get(vcharset_name->as_string()); valid_options++; } if(valid_options!=options->count()) throw Exception(PARSER_RUNTIME, 0, CALLED_WITH_INVALID_OPTION); } bool mode_js; if(mode==UNESCAPE_MODE_JS){ mode_js=true; } else if(mode==UNESCAPE_MODE_URI){ mode_js=false; } else { throw Exception(PARSER_RUNTIME, &mode, "is an invalid mode, must be either '" UNESCAPE_MODE_JS "' or '" UNESCAPE_MODE_URI "'"); } const char* unescaped=unescape_chars(src.cstr(), src.length(), from_charset, mode_js); if(*unescaped){ const String* result=new String(Charset::transcode(unescaped, *from_charset, r.charsets.source()), String::L_TAINTED); r.write(*result); } } static void _contains(Request& r, MethodParams& params) { // empty or whitespace string is hash compatible GET_SELF(r, VString).get_element(params.as_string(0, "key must be string")); // ignoring result as it allways null r.write(VBool::get(false)); } // constructor MString::MString(): Methoded("string") { // ^string.length[] add_native_method("length", Method::CT_DYNAMIC, _length, 0, 0); // ^string.int[] // ^string.int(default) add_native_method("int", Method::CT_DYNAMIC, _int, 0, 1); // ^string.double[] // ^string.double(default) add_native_method("double", Method::CT_DYNAMIC, _double, 0, 1); // ^void.bool[] // ^void.bool(default) add_native_method("bool", Method::CT_DYNAMIC, _bool, 0, 1); // ^string.format[format] add_native_method("format", Method::CT_DYNAMIC, _string_format, 1, 1); // ^string.left(n) add_native_method("left", Method::CT_DYNAMIC, _left, 1, 1); // ^string.right(n) add_native_method("right", Method::CT_DYNAMIC, _right, 1, 1); // ^string.mid(p) // ^string.mid(p;n) add_native_method("mid", Method::CT_DYNAMIC, _mid, 1, 2); // ^string.pos[substr] // ^string.pos[substr](n) add_native_method("pos", Method::CT_DYNAMIC, _pos, 1, 2); // ^string.split[delim] // ^string.split[delim][options] // ^string.split[delim][options][column name] add_native_method("split", Method::CT_DYNAMIC, _split, 1, 3); // old names for backward compatibility // ^string.lsplit[delim] add_native_method("lsplit", Method::CT_DYNAMIC, _lsplit, 1, 1); // ^string.rsplit[delim] add_native_method("rsplit", Method::CT_DYNAMIC, _rsplit, 1, 1); // ^string.match[regexp][options] // ^string.match[regexp][options]{replacement-code} // ^string.match[regexp][options]{replacement-code}{code-if-nothing-is-found} add_native_method("match", Method::CT_DYNAMIC, _match, 1, 4); // ^string.upper[] add_native_method("upper", Method::CT_DYNAMIC, _upper, 0, 0); // ^string.lower[] add_native_method("lower", Method::CT_DYNAMIC, _lower, 0, 0); // ^string:sql{query} // ^string:sql{query}[options hash] add_native_method("sql", Method::CT_STATIC, _sql, 1, 2); // ^string.replace[table] add_native_method("replace", Method::CT_DYNAMIC, _replace, 1, 2); // ^string.save[append][file] // ^string.save[file] // ^string.save[file][$.append(true) $.charset[...]] add_native_method("save", Method::CT_DYNAMIC, _save, 1, 2); // ^string.normalize[] add_native_method("normalize", Method::CT_DYNAMIC, _normalize, 0, 0); // ^string.trim[[start|both|end][;chars]] add_native_method("trim", Method::CT_DYNAMIC, _trim, 0, 2); // ^string.base64[] << encode // ^string:base64[encoded string] << decode add_native_method("base64", Method::CT_ANY, _base64, 0, 2); // ^string.idna[] << encode // ^string:idna[encoded string] << decode add_native_method("idna", Method::CT_ANY, _idna, 0, 1); // ^string.js-escape[] add_native_method("js-escape", Method::CT_DYNAMIC, _js_escape, 0, 0); // ^string:js-unescape[escaped%uXXXXstring] add_native_method("js-unescape", Method::CT_STATIC, _js_unescape, 1, 1); // ^string:unescape[js|uri;escaped;$.charset[...]] add_native_method("unescape", Method::CT_STATIC, _unescape, 2, 3); // ^string.contains[key] for hash compatibility add_native_method("contains", Method::CT_DYNAMIC, _contains, 1, 1); }