/** @file Parser: string class decl. Copyright (c) 2001-2026 Art. Lebedev Studio (https://www.artlebedev.com) Authors: Konstantin Morshnev , Alexandr Petrosian */ #ifndef PA_STRING_H #define PA_STRING_H #define IDENT_PA_STRING_H "$Id: pa_string.h,v 1.241 2026/04/25 13:38:46 moko Exp $" // includes #include "pa_types.h" #include "pa_int.h" #include "pa_array.h" extern "C" { // cord's author forgot to do that #define CORD_NO_IO #include "../lib/cord/include/cord.h" #ifdef CORD_CAT_OPTIMIZATION #define CORD_cat(x, y) CORD_cat_optimized(x, y) #define CORD_cat_char_star(x, y, leny) CORD_cat_char_star_optimized(x, y, leny) #endif } // defines // cache hash code in String::Body for faster hash access #define HASH_CODE_CACHING // cache String::Body.length() for char* strings only, CORDs have own length #define STRING_LENGTH_CACHING // cord extension /* Returns true if x does contain */ /* char not_c at positions i..i+n. Value i,i+n must be < CORD_len(x). */ int CORD_range_contains_chr_greater_then(CORD x, size_t i, size_t n, int c); size_t CORD_block_count(CORD x); // forwards class Charset; class Table; class SQL_Connection; class Dictionary; class Request_charsets; class String; class VRegex; #ifdef NDEBUG typedef Array ArrayString; #else class ArrayString : public Array { public: inline ArrayString(size_t initial=0) : Array(initial){ } inline Array& operator+=(element_type src) { assert(src != NULL); return Array::operator+=(src); } inline element_type get(size_t index) const { element_type result=Array::get(index); assert(result != NULL); return result; } }; #endif // generally useful /// this is result of pos functions which mean that substr were not found #define STRING_NOT_FOUND ((size_t)-1) /// CORD can't be empty string, thus checking it in assigment #define AS_CORD(v) ((v) && *(v) ? (CORD)(v):0) /** String which knows the lang of all it's langs. All pieces remember - whether they are tainted or not, and the lang which should be used to detaint them */ class String: public PA_Object { friend class StringSplitHelper; public: /** piece is tainted or not. the lang to use when detaint remember to change String_Untaint_lang_name @ untaint.C along WARNING WARNING WARNING WARNING WARNING WARNING pos function compares(<=) languages, that is used in searching for table column separator being L_CLEAN or L_AS_IS. they search for AS_IS, meaning AS_IS|CLEAN [doing <=L_AS_IS check]. letters assigned for debugging, but it's important for no language-letter come before L_AS_IS other then L_CLEAN WARNING WARNING WARNING WARNING WARNING WARNING */ #if _MSC_VER >= 1900 /// required for VS2015+ to make sizeof(Languages::opt) == sizeof(CORD), will be 16 byte under x64 without it enum Language : size_t { #else enum Language { #endif L_UNSPECIFIED=0, ///< no real string has parts of this lange: it's just convinient to check when string's empty // these two must go before others, there are checks for >L_AS_IS L_CLEAN='0', ///< clean WARNING: read above warning before changing L_AS_IS='A', ///< leave all characters intact WARNING: read above warning before changing L_TAINTED='T', ///< tainted, untaint lang as assigned later // untaint langs. assigned by ^untaint[lang]{...} L_FILE_SPEC='F', ///< file specification L_HTTP_HEADER='h', ///< text in HTTP response header L_MAIL_HEADER='m', ///< text in mail header L_URI='U', ///< text in uri L_SQL='Q', ///< ^table:sql body L_JS='J', ///< JavaScript code L_XML='X', ///< ^xdoc:create xml L_HTML='H', ///< HTML code L_REGEX='R', ///< RegExp L_JSON='S', ///< JSON code L_HTTP_COOKIE='C', ///< cookies encoded as %uXXXX for compartibility with js functions encode/decode L_PARSER_CODE='p', ///< ^process body // READ WARNING ABOVE BEFORE ADDING ANYTHING L_OPTIMIZE_BIT = 0x80 ///< flag, requiring cstr whitespace optimization }; enum Trim_kind { TRIM_BOTH, TRIM_START, TRIM_END }; class Body; union Languages { struct { #ifdef PA_LITTLE_ENDIAN Language lang:8; size_t is_not_just_lang:sizeof(CORD)*8-8; #elif defined(PA_BIG_ENDIAN) size_t is_not_just_lang:sizeof(CORD)*8-8; Language lang:8; #else # error word endianness not determined for some obscure reason #endif } opt; CORD langs; CORD make_langs(const Body& current) const { return opt.is_not_just_lang?langs:CORD_chars((char)opt.lang, current.length()); } CORD make_langs(size_t aoffset, size_t alength) const { return opt.is_not_just_lang? CORD_substr(langs, aoffset, alength, 0) :CORD_chars((char)opt.lang, alength); } /// appending when 'langs' already contain something [simple cases handled elsewhere] void append(size_t current, const CORD to_nonempty_target_langs) { assert(langs); if(opt.is_not_just_lang) langs=CORD_cat(langs, to_nonempty_target_langs); else { assert(current); langs=CORD_cat(CORD_chars((char)opt.lang, current), to_nonempty_target_langs); } } void append(const Body& current, const CORD to_nonempty_target_langs) { assert(langs); if(opt.is_not_just_lang) langs=CORD_cat(langs, to_nonempty_target_langs); else { size_t current_size=current.length(); assert(current_size); langs=CORD_cat(CORD_chars((char)opt.lang, current_size), to_nonempty_target_langs); } } public: const char* visualize() const; void dump() const; Languages(): langs(0) {} Languages(Language alang) { opt.lang=alang; opt.is_not_just_lang=0; } /// MUST be called exactly prior to modification of current [uses it's length] void append(size_t current, Language alang, size_t length) { assert(alang); assert(length); if(!opt.is_not_just_lang) { if(opt.lang) { if(opt.lang==alang) // same language? ignoring return; } else { opt.lang=alang; // to uninitialized return; } } append(current, CORD_chars((char)alang, length)); } void append(const Body ¤t, Language alang, size_t length) { assert(alang); assert(length); if(!opt.is_not_just_lang) { if(opt.lang) { if(opt.lang==alang) // same language? ignoring return; } else { opt.lang=alang; // to uninitialized return; } } append(current, CORD_chars((char)alang, length)); } void appendHelper(const Body& current, Language alang, const Body &length_helper) { assert(alang); if(!opt.is_not_just_lang) { if(opt.lang) { if(opt.lang==alang) // same language? ignoring return; } else { opt.lang=alang; // to uninitialized return; } } append(current, CORD_chars((char)alang, length_helper.length())); } void appendHelper(const Body& current, const Languages &src, const Body& length_helper) { if(!langs){ langs=src.langs; // to uninitialized #ifdef CORD_CAT_OPTIMIZATION if(opt.is_not_just_lang && !CORD_IS_STRING(langs)) CORD_concatenation_protect(langs); #endif } else if(!src.opt.is_not_just_lang) appendHelper(current, src.opt.lang, length_helper); // simplifying when simple source else append(current, src.make_langs(length_helper)); } /// MUST be called exactly prior to modification of current [uses it's length] void append(const Body& current, const Languages src, size_t aoffset, size_t alength) { assert(alength); if(!langs) // to uninitialized? if(src.opt.is_not_just_lang) langs=CORD_substr(src.langs, aoffset, alength, 0); // to uninitialized complex else opt.lang=src.opt.lang; // to uninitialized simple else if(!opt.is_not_just_lang && !src.opt.is_not_just_lang && opt.lang==src.opt.lang) // both simple & of same language? return; // ignoring else append(current, src.make_langs(aoffset, alength)); } /// checks if we have lang<=alang all from aoffset to aoffset+alength bool check_lang(Language alang, size_t aoffset, size_t alength) const { if(alang==L_UNSPECIFIED) // ignore lang? return true; if(opt.is_not_just_lang) return CORD_range_contains_chr_greater_then(langs, aoffset, alength, (unsigned)alang)==0; else return (unsigned)opt.lang<=(unsigned)alang; } /// @returns count of blocks /// @todo currently there can be adjucent blocks of same language. someday merge them size_t count() const { return opt.is_not_just_lang? CORD_block_count(langs) : opt.lang? 1 : 0; }; template void for_each(size_t current, int callback(char, size_t, I), I info) const { if(opt.is_not_just_lang) CORD_block_iter(langs, 0, (CORD_block_iter_fn)callback, info); else callback(opt.lang, current, info); } template void for_each(const Body& current, int callback(char, size_t, I), I info) const { if(opt.is_not_just_lang) CORD_block_iter(langs, 0, (CORD_block_iter_fn)callback, info); else callback(opt.lang, current.length(), info); } bool invariant(size_t current_length) const { if(!langs) return current_length==0; if(opt.is_not_just_lang) return CORD_len(langs)==current_length; return true; // uncheckable, actually } }; struct C { const char *str; size_t length; C(): str(0), length(0) {} C(const char *astr, size_t asize): str(astr), length(asize) {} explicit C(Body abody): str(abody.cstr()), length(abody.length()) {} }; struct Cm { char *str; size_t length; Cm(): str(0), length(0) {} Cm(char *astr, size_t asize): str(astr), length(asize) {} explicit Cm(Body abody): str(abody.cstrm()), length(abody.length()) {} }; class Body { CORD body; #ifdef HASH_CODE_CACHING // cached hash code is not reseted on write operations as test shows // that string body does not change after it is stored as a hash key mutable uint hash_code; #define INIT_HASH_CODE(c) ,hash_code(c) #define ZERO_HASH_CODE hash_code=0; #else #define INIT_HASH_CODE(c) #define ZERO_HASH_CODE #endif #ifdef STRING_LENGTH_CACHING // cached length is reseted on modification, used only for char*, not CORD mutable size_t string_length; #define INIT_LENGTH(l) ,string_length(l) #define ZERO_LENGTH string_length=0; #else #define INIT_LENGTH(l) #define ZERO_LENGTH #endif public: void dump() const; Body(): body(CORD_EMPTY) INIT_HASH_CODE(0) INIT_LENGTH(0) {} explicit Body(const char *abody): body(AS_CORD(abody)) INIT_HASH_CODE(0) INIT_LENGTH(0) {} explicit Body(CORD abody, uint ahash_code): body(abody) INIT_HASH_CODE(ahash_code) INIT_LENGTH(0) {} explicit Body(C ac): body(AS_CORD(ac.str)) INIT_HASH_CODE(0) INIT_LENGTH(ac.length) {} explicit Body(CORD abody): body(abody) INIT_HASH_CODE(0) INIT_LENGTH(0) { #ifdef CORD_CAT_OPTIMIZATION assert(!body // no body || *body // ordinary string || body[1]==1 // CONCAT_HDR || body[1]==3 // CONCAT_HDR_READ_ONLY || body[1]==4 // FN_HDR || body[1]==6 // SUBSTR_HDR ); #else assert(!body // no body || *body // ordinary string || body[1]==1 // CONCAT_HDR || body[1]==4 // FN_HDR || body[1]==6 // SUBSTR_HDR ); #endif } static Body uitoa(size_t aindex); void clear() { ZERO_LENGTH ZERO_HASH_CODE body=CORD_EMPTY; } bool operator! () const { return is_empty(); } inline CORD get_cord() const { return body; } uint get_hash_code() const; // never null const char* cstr() const { #ifdef STRING_LENGTH_CACHING string_length = length(); if(string_length){ const char *result=CORD_to_const_char_star(body, string_length); const_cast(this)->body=(CORD)result; return result; } #endif return CORD_to_const_char_star(body, length()); } // never null char* cstrm() const { return CORD_to_char_star(body, length()); } #ifdef STRING_LENGTH_CACHING void set_length(size_t alength){ string_length = alength; } size_t length() const { return body ? CORD_IS_STRING(body) ? string_length ? string_length : (string_length=strlen((const char *)body)) : CORD_len(body) : 0; } #else size_t length() const { return CORD_len(body); } #endif inline bool is_empty() const { return body==CORD_EMPTY; } void append_know_length(const char *str, size_t known_length) { if(known_length){ if(body){ body = CORD_cat_char_star(body, str, known_length); ZERO_LENGTH } else { body=(CORD)str; #ifdef STRING_LENGTH_CACHING string_length=known_length; #endif } } } void append_strdup_know_length(const char* str, size_t known_length) { if(known_length) append_know_length(pa_strdup(str, known_length), known_length); } void append(char c) { ZERO_LENGTH body=CORD_cat_char(body, c); } Body& operator << (const Body src) { ZERO_LENGTH body=CORD_cat(body, src.body); return *this; } Body& operator << (const char* str) { append_know_length(str, strlen(str)); return *this; } bool operator < (const Body src) const { return CORD_cmp(body, src.body)<0; } bool operator > (const Body src) const { return CORD_cmp(body, src.body)>0; } bool operator <= (const Body src) const { return CORD_cmp(body, src.body)<=0; } bool operator >= (const Body src) const { return CORD_cmp(body, src.body)>=0; } bool operator != (const Body src) const { return CORD_cmp(body, src.body)!=0; } bool operator == (const Body src) const { return CORD_cmp(body, src.body)==0; } bool operator != (const char *src) const { return CORD_cmp(body, AS_CORD(src))!=0; } bool operator == (const char *src) const { return CORD_cmp(body, AS_CORD(src))==0; } int ncmp(size_t x_begin, const Body y, size_t y_begin, size_t size) const { return CORD_ncmp(body, x_begin, y.body, y_begin, size); } char fetch(size_t index) const { return CORD_fetch(body, index); } Body mid(size_t aindex, size_t alength) const { return Body(CORD_substr(body, aindex, alength, length())); } size_t pos(const char* substr, size_t offset=0) const { return CORD_str(body, offset, AS_CORD(substr), length()); } size_t pos(const Body substr, size_t offset=0) const { if(substr.is_empty()) return STRING_NOT_FOUND; // in this case CORD_str returns 0 [parser users got used to -1] // CORD_str checks for bad offset [CORD_chr does not] return CORD_str(body, offset, substr.body, length()); } size_t pos(char c, size_t offset=0) const { if(offset>=length()) // CORD_chr does not check that [and ABORT's in that case] return STRING_NOT_FOUND; return CORD_chr(body, offset, c); } size_t strrpbrk(const char* chars, size_t left, size_t right) const; size_t rskipchars(const char* chars, size_t left, size_t right) const; template int for_each(int (*f)(char c, I), I info) const { return CORD_iter(body, (CORD_iter_fn)f, (void*)info); } template int for_each(int (*f1)(char c, I), int (*f2)(const char* s, I), I info) const { return CORD_iter5(body, 0, (CORD_iter_fn)f1, (CORD_batched_iter_fn)f2, info); } void set_pos(CORD_pos& pos, size_t index) const { CORD_set_pos(pos, body, index); } /// @returns this or 0 or mid. if returns this or 0 out_* are not filled Body trim(Trim_kind kind=TRIM_BOTH, const char* chars=0, size_t* out_start=0, size_t* out_length=0, Charset* source_charset=0) const; }; private: Body body; ///< all characters of string Languages langs; ///< string characters lang void dump() const; #define ASSERT_STRING_INVARIANT(string) \ assert((string).langs.invariant((string).body.length())) public: static const String Empty; explicit String(){}; explicit String(const char* cstr, Language alang=L_CLEAN) : body(cstr){ if(body.get_cord()){ langs=alang; } } explicit String(C ac, Language alang=L_CLEAN) : body(ac){ if(body.get_cord()){ langs=alang; } } String(Body abody, Language alang): body(abody), langs(alang) { ASSERT_STRING_INVARIANT(*this); } String(const String& src): body(src.body), langs(src.langs) { ASSERT_STRING_INVARIANT(*this); } String(int value, const char *format); /// for convinient hash lookup #ifdef HASH_CODE_CACHING operator const Body&() const { return body; } #else operator const Body() const { return body; } #endif bool is_empty() const { return body.is_empty(); } size_t length() const { return body.length(); } size_t length(Charset& charset) const; /// convert to CORD forcing lang tainting Body cstr_to_string_body_taint(Language lang, SQL_Connection* connection=0, const Request_charsets *charsets=0) const; /// convert to CORD with tainting dirty to lang Body cstr_to_string_body_untaint(Language lang, SQL_Connection* connection=0, const Request_charsets *charsets=0) const; /// from body const char* cstr() const { return body.cstr(); } char* cstrm() const { return body.cstrm(); } /// convert to constant C string forcing lang tainting const char* taint_cstr(Language lang, SQL_Connection* connection=0, const Request_charsets *charsets=0) const { return cstr_to_string_body_taint(lang, connection, charsets).cstr(); } char *taint_cstrm(Language lang, SQL_Connection* connection=0, const Request_charsets *charsets=0) const { return cstr_to_string_body_taint(lang, connection, charsets).cstrm(); } /// convert to constant C string with tainting dirty to lang const char* untaint_cstr(Language lang, SQL_Connection* connection=0, const Request_charsets *charsets=0) const { return cstr_to_string_body_untaint(lang, connection, charsets).cstr(); } char *untaint_cstrm(Language lang, SQL_Connection* connection=0, const Request_charsets *charsets=0) const { return cstr_to_string_body_untaint(lang, connection, charsets).cstrm(); } const char* untaint_and_transcode_cstr(Language lang, const Request_charsets *charsets) const; bool is_not_just_lang() const { return langs.opt.is_not_just_lang !=0; } Language just_lang() const { return langs.opt.lang; } char* visualize_langs() const; /// puts pieces to buf Cm serialize(size_t prolog_size) const; /// appends pieces from buf to self bool deserialize(size_t prolog_size, void *buf, size_t buf_size); /// @see Body::append_know_length String& append_know_length(const char* str, size_t known_length, Language lang); /// @see Body::append_help_length String& append_help_length(const char* str, size_t helper_length, Language lang); String& append_strdup(const char* str, size_t helper_length, Language lang); bool operator == (const char* y) const { return body==Body(y); } bool operator != (const char* y) const { return body!=Body(y); } /// this starts with y bool starts_with(const char* y) const { return body.ncmp(0/*x_begin*/, Body(y), 0/*y_begin*/, strlen(y))==0; } /// x starts with this bool this_starts(const char* x) const { return Body(x).ncmp(0/*x_begin*/, body, 0/*y_begin*/, length())==0; } String& append_to(String& dest) const; String& append_to(String& dest, Language lang, bool forced=false) const; String& append(const String& src, Language lang, bool forced=false) { return src.append_to(*this, lang, forced); } String& append_quoted(const String* src, Language lang=L_JSON){ *this << "\""; if(src) this->append(*src, lang, true/*forced lang*/); *this << "\""; return *this; } String& operator << (const String& src) { return src.append_to(*this); } String& operator << (const char* src) { return append_help_length(src, 0, L_AS_IS); } String& operator << (const Body& src){ langs.appendHelper(body, L_AS_IS, src); body< (const String& src) const { return body>src.body; } bool operator <= (const String& src) const { return body<=src.body; } bool operator >= (const String& src) const { return body>=src.body; } bool operator != (const String& src) const { return body!=src.body; } bool operator == (const String& src) const { return body==src.body; } /// extracts [start, finish) piece of string String& mid(size_t substr_begin, size_t substr_end) const; String& mid(Charset& charset, size_t from, size_t to, size_t helper_length=0) const; /// return position of substr in string, -1 means "not found" [const char* version] size_t pos(const char* substr, size_t this_offset=0) const { return body.pos(substr, this_offset); } size_t pos(const Body substr, size_t this_offset=0) const { return body.pos(substr, this_offset); } size_t pos(const String& substr, size_t this_offset=0) const { return body.pos(substr.body, this_offset); } size_t pos(char c, size_t this_offset=0) const { return body.pos(c, this_offset); } /// ignore lang if it's L_UNSPECIFIED, otherwise look for substring that lies in ONE fragment in THAT lang size_t pos(const Body substr, size_t this_offset, Language lang) const; size_t pos(const String& substr, size_t this_offset, Language lang) const; size_t pos(Charset& charset, const String& substr, size_t this_offset=0, Language lang=L_UNSPECIFIED) const; size_t strrpbrk(const char* chars, size_t left=0) const { return (length()) ? body.strrpbrk(chars, left, length()-1) : STRING_NOT_FOUND; } size_t strrpbrk(const char* chars, size_t left, size_t right) const { return body.strrpbrk(chars, left, right); } size_t rskipchars(const char* chars, size_t left=0) const { return (length()) ? body.rskipchars(chars, left, length()-1) : STRING_NOT_FOUND; } size_t rskipchars(const char* chars, size_t left, size_t right) const { return body.rskipchars(chars, left, right); } void split(ArrayString& result, size_t pos_after, const char* delim, Language lang=L_UNSPECIFIED) const; void split(ArrayString& result, size_t pos_after, const String& delim, Language lang=L_UNSPECIFIED) const; typedef void (*Row_action)(Table& table, ArrayString* row, int prestart, int prefinish, int poststart, int postfinish, void *info); /** @return table of found items, if any. table format is defined and fixed[can be used by others]: @verbatim prematch/match/postmatch/1/2/3/... @endverbatim */ Table* match(VRegex* vregex, Row_action row_action, void *info, int& matches_count) const; enum Change_case_kind { CC_UPPER, CC_LOWER }; String& change_case(Charset& source_charset, Change_case_kind kind) const; const String& replace(const Dictionary& dict) const; const String& trim(Trim_kind kind=TRIM_BOTH, const char* chars=0, Charset* source_charset=0) const; double as_double() const { return pa_atod(cstr(), this); } int as_int() const { return pa_atoi(cstr(), 0, this); } pa_wint as_wint() const { return pa_atowi(cstr(), 0, this); } bool as_bool() const { return as_wint()!=0; } const String& escape(Charset& source_charset) const; private: //disabled String& operator = (const String&) { return *this; } }; #ifndef HASH_CODE_CACHING /// simple hash code of string. used by Hash inline uint hash_code(const String::Body self) { return self.get_hash_code(); } #endif #endif