[286] | 1 | // This file is a part of Framsticks SDK. http://www.framsticks.com/ |
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| 2 | // Copyright (C) 1999-2015 Maciej Komosinski and Szymon Ulatowski. |
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| 3 | // See LICENSE.txt for details. |
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[109] | 4 | |
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| 5 | #ifndef _SSTRING_H_ |
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| 6 | #define _SSTRING_H_ |
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| 7 | |
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[385] | 8 | #define SSTRING_SIMPLE |
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[109] | 9 | |
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| 10 | #ifdef SSTRING_SIMPLE |
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| 11 | |
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| 12 | // simple sstring implementation using direct character arrays |
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| 13 | // - duplicate = copy all characters |
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| 14 | // - no mutex needed |
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| 15 | |
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| 16 | #include "sstring-simple.h" |
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| 17 | |
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| 18 | #else |
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| 19 | /////////////////////////////////////////////////////////////////////////// |
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| 20 | // old sstring implementation using SBuf references |
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| 21 | // - duplicate = copy buffer pointer |
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| 22 | // - mutex required to be thread safe |
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| 23 | |
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[247] | 24 | #include <stdint.h> |
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[109] | 25 | #include <string.h> |
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| 26 | #include <stdlib.h> |
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| 27 | #include <stdio.h> |
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| 28 | |
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| 29 | class ExtValue; //this include would result in recurrent inclusion: #include "extvalue.h" |
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| 30 | class ExtObject; |
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| 31 | |
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| 32 | class SBuf |
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| 33 | { |
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[793] | 34 | char *txt; |
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| 35 | int used; ///< data size |
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| 36 | int size; ///< buffer size, not including \0, special case: 0==buffer not allocated |
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| 37 | int refcount; ///< buffer is used by 'refcount' objects. |
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| 38 | void initEmpty(); |
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| 39 | void ensureSize(int wantsize); |
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| 40 | void copyFrom(const char* ch, int chlen = -1); |
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| 41 | void freeBuf(); |
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| 42 | void append(const char* ch, int chlen = -1); |
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| 43 | static SBuf &empty(); |
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| 44 | SBuf(int initsize); |
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| 45 | friend class SString; |
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| 46 | SBuf(const SBuf& b) {} |
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[109] | 47 | public: |
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[793] | 48 | SBuf(); |
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| 49 | ~SBuf(); |
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| 50 | uint32_t hash() const; // 32-bit FNV-1 hash -> http://en.wikipedia.org/wiki/Fowler_Noll_Vo_hash |
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[109] | 51 | }; |
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| 52 | |
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| 53 | /// (not so) simple text string class |
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| 54 | |
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| 55 | class SString |
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| 56 | { |
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| 57 | private: |
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[793] | 58 | SBuf *buf; ///< buffer |
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| 59 | int appending; ///< append mode, changes can occur after character # 'appending' |
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| 60 | //int memhint; |
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[109] | 61 | |
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[793] | 62 | void initEmpty(); |
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| 63 | int guessMemSize(int request); |
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| 64 | void copyFrom(SString &from); ///< copy from SString, reference if possible |
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| 65 | void detach(); ///< detach from shared buffer, if any |
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| 66 | void detachEmpty(int ensuresize = 0); ///< detach and make empty |
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| 67 | void detachCopy(int ensuresize = 0); ///< detach and make private copy |
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[109] | 68 | |
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| 69 | public: |
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[793] | 70 | SString(); ///< make an empty string |
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| 71 | SString(const char*t, int t_len = -1); ///< make a string from char* |
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| 72 | SString(int x); ///< string with initial buffer size |
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| 73 | SString(const SString& from); ///< duplicate string |
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| 74 | SString(SString&& from); ///< move |
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| 75 | ~SString(); |
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[109] | 76 | |
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[793] | 77 | void copyFrom(const char* ch, int chlen = -1); ///< copy string, length of -1 == unknown |
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[109] | 78 | |
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[793] | 79 | void* operator new(size_t s, void* mem){ return mem; } |
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[109] | 80 | #ifdef _MSC_VER |
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[793] | 81 | void operator delete(void* mem, void* t) {} |
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[109] | 82 | #endif |
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[793] | 83 | void* operator new(size_t s){ return malloc(sizeof(SString)); } |
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| 84 | void operator delete(void* mem) { free(mem); } |
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[109] | 85 | |
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[793] | 86 | int len() const { return buf->used; } ///< get string length |
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| 87 | void shrink(); ///< free unnecessary buffer |
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[109] | 88 | |
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[793] | 89 | /// after this call, you can modify sstring directly. |
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| 90 | /// returned value is the pointer to the internal buffer. |
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| 91 | /// <B>ensuresize</B> is minimal value of bytes you need, |
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| 92 | /// the buffer will be resized as needed. |
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| 93 | /// all "direct" operations have to leave the buffer with trailing '\0' |
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| 94 | /// at the end. endWrite() will search for this value in order to determine |
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| 95 | /// new string length. |
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| 96 | /// <P>Sample:<CODE> |
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| 97 | /// SString t; |
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| 98 | /// sprintf(t.directWrite(50),"a=%d,b=%f",a,b); |
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| 99 | /// t.endWrite();</CODE> |
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| 100 | char *directWrite(int ensuresize = -1); |
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| 101 | //char *directWrite(); |
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| 102 | /// like directWrite, but it returns the pointer to the first char after current string |
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| 103 | /// for easy appending. <B>maxappend</B> is minimum of character in buffer |
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| 104 | /// that can be appended after this call. |
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| 105 | /// <P>Sample:<CODE> |
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| 106 | /// SString t; |
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| 107 | /// sprintf(t.directAppend(10),"c=%d",c); |
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| 108 | /// t.endAppend();</CODE> |
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| 109 | char *directAppend(int maxappend = 0); |
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| 110 | /// update string length, after directWrite. |
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| 111 | /// you don't have to to call endWrite after directWrite if the string's length doesn't change. |
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| 112 | /// optional <B>newlength</B> parameter gives a chance to further optimize |
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| 113 | /// this operation if you know exact length of resulting string. |
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| 114 | /// <P>Sample:<CODE> |
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| 115 | /// SString t("samplestring"); |
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| 116 | /// strncpy(t.directWrite(50),src,bytecount); |
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| 117 | /// t.endWrite(bytecount);</CODE> |
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| 118 | void endWrite(int newlength = -1); |
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| 119 | /// update string length, after directAppend. |
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| 120 | /// you will usually need to call endAppend (or endWrite) after directAppend, |
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| 121 | /// because the purpose of directAppend is to change string's length. |
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| 122 | /// optional <B>appendlength</B> parameter gives a chance to further optimize |
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| 123 | /// this operation if you know exact length of the appended string. |
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| 124 | /// <P>Sample:<CODE> |
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| 125 | /// SString t("samplestring"); |
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| 126 | /// strncpy(t.directAppend(50),src,bytecount); |
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| 127 | /// t.endAppend(bytecount);</CODE> |
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| 128 | void endAppend(int appendlength = -1); |
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| 129 | /// argument is the amount of memory, that will be probably used |
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| 130 | /// by this string instance. string can use this value |
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| 131 | /// to optimize memory allocation (bigger chunks will be allocated). |
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| 132 | void memoryHint(int howbig); |
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| 133 | int directMaxLen() { return buf->size; } ///< when called after directWrite: max number of characters allowed (can be more than requested) |
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[109] | 134 | |
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[793] | 135 | /// find a character in SString. |
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| 136 | /// return index if the character was found or -1 otherwise. |
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| 137 | int indexOf(int character, int start = 0) const; |
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[109] | 138 | |
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[793] | 139 | /// find a substring. |
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| 140 | /// return index if the substring was found or -1 otherwise. |
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| 141 | int indexOf(const char *substring, int start = 0) const; |
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[109] | 142 | |
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[793] | 143 | /// find a substring. |
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| 144 | /// return index if the substring was found or -1 otherwise. |
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| 145 | int indexOf(const SString & substring, int start = 0) const; |
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[109] | 146 | |
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[793] | 147 | const char* c_str() const { return buf->txt; } ///< get SString's readonly buffer |
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| 148 | //operator char*() {detachCopy(len()); return buf->txt;} ///< get SString's writable buffer |
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| 149 | void operator=(const char*t); ///< assign from const char* |
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| 150 | //void operator=(int x) {free(txt);nowy(x);} ///< clear string and make new empty one |
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| 151 | void operator=(const SString &s); |
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[109] | 152 | |
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[793] | 153 | void append(const char *txt, int count); |
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| 154 | SString operator+(const SString &s) const; |
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| 155 | void operator+=(int x); ///< append x spaces after current string |
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| 156 | void operator+=(const char*); ///< append char* contents |
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| 157 | void operator+=(const SString&); ///< append other SString |
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[109] | 158 | |
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[793] | 159 | bool equals(const SString &s) const; ///< TRUE if equal |
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| 160 | bool operator==(const SString &s) const { return equals(s); } ///< TRUE if equal |
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| 161 | bool operator!=(const SString &s) const { return !equals(s); } |
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| 162 | const char* operator()(int p) const { return buf->txt + p; } ///< pointer to p'th character in SString |
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| 163 | char operator[](int i) const { return buf->txt[i]; } ///< get char like in array |
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[109] | 164 | |
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[793] | 165 | /// return a substring of the current string |
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| 166 | SString substr(int begin, int length = 1 << 30) const; |
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[109] | 167 | |
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[793] | 168 | /// simple tokenization: |
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| 169 | /// starting at <B>pos</B>, get next substring delimited by <B>separator</B> character |
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| 170 | /// and put it in output parameter <B>token</B>. |
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| 171 | /// <B>pos</B> is moved accordingly. |
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| 172 | /// returns <B>false</B> if no more tokens are available or <B>true</B> otherwise. |
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| 173 | bool getNextToken(int& pos, SString &token, char separator) const; |
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[109] | 174 | |
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[793] | 175 | void operator+=(char ch) { directAppend(1)[0] = ch; endAppend(1); } ///< append single character |
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[109] | 176 | |
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[793] | 177 | bool startsWith(const char *pattern) const; |
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| 178 | char charAt(int pos) const { return buf->txt[pos]; } |
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| 179 | uint32_t hash() const { return buf->hash(); } |
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[109] | 180 | |
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[793] | 181 | static SString valueOf(int); |
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| 182 | static SString valueOf(long); |
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| 183 | static SString valueOf(double); |
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| 184 | static SString valueOf(const SString&); //tylko do kompletu zeby mozna uzyc tej funkcji nie martwiac sie o typ argumentu |
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| 185 | static SString valueOf(const ExtValue&); //tylko do kompletu zeby mozna uzyc tej funkcji nie martwiac sie o typ argumentu |
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| 186 | static SString valueOf(const ExtObject&); //tylko do kompletu zeby mozna uzyc tej funkcji nie martwiac sie o typ argumentu |
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| 187 | static SString sprintf(const char* format, ...); |
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[109] | 188 | |
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[793] | 189 | static SString &empty(); |
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[109] | 190 | }; |
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| 191 | |
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| 192 | #endif //#ifdef SSTRING_SIMPLE |
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| 193 | |
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| 194 | #endif |
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