//======================================================================== // // GooString.h // // Simple variable-length string type. // // Copyright 1996-2003 Glyph & Cog, LLC // //======================================================================== //======================================================================== // // Modified under the Poppler project - http://poppler.freedesktop.org // // All changes made under the Poppler project to this file are licensed // under GPL version 2 or later // // Copyright (C) 2006 Kristian Høgsberg // Copyright (C) 2006 Krzysztof Kowalczyk // Copyright (C) 2008-2010, 2012 Albert Astals Cid // // To see a description of the changes please see the Changelog file that // came with your tarball or type make ChangeLog if you are building from git // //======================================================================== #ifndef GooString_H #define GooString_H #ifdef USE_GCC_PRAGMAS #pragma interface #endif #include // for LLONG_MAX and ULLONG_MAX #include #include // for NULL #include "gtypes.h" class GooString { public: // Create an empty string. GooString(); // Create a string from a C string. explicit GooString(const char *sA); // Create a string from chars at . This string // can contain null characters. GooString(const char *sA, int lengthA); // Create a string from chars at in . GooString(GooString *str, int idx, int lengthA); // Set content of a string to concatination of and . They can both // be NULL. if or is CALC_STRING_LEN, then length of the string // will be calculated with strlen(). Otherwise we assume they are a valid // length of string (or its substring) GooString* Set(const char *s1, int s1Len=CALC_STRING_LEN, const char *s2=NULL, int s2Len=CALC_STRING_LEN); // Copy a string. explicit GooString(const GooString *str); GooString *copy() const { return new GooString(this); } // Concatenate two strings. GooString(GooString *str1, GooString *str2); // Convert an integer to a string. static GooString *fromInt(int x); // Create a formatted string. Similar to printf, but without the // string overflow issues. Formatting elements consist of: // {:[][.]} // where: // - is the argument number (arg 0 is the first argument // following the format string) -- NB: args must be first used in // order; they can be reused in any order // - is the field width -- negative to reverse the alignment; // starting with a leading zero to zero-fill (for integers) // - is the number of digits to the right of the decimal // point (for floating point numbers) // - is one of: // d, x, o, b -- int in decimal, hex, octal, binary // ud, ux, uo, ub -- unsigned int // ld, lx, lo, lb, uld, ulx, ulo, ulb -- long, unsigned long // lld, llx, llo, llb, ulld, ullx, ullo, ullb // -- long long, unsigned long long // f, g -- double // c -- char // s -- string (char *) // t -- GooString * // w -- blank space; arg determines width // To get literal curly braces, use {{ or }}. static GooString *format(const char *fmt, ...); static GooString *formatv(const char *fmt, va_list argList); // Destructor. ~GooString(); // Get length. int getLength() { return length; } // Get C string. char *getCString() const { return s; } // Get th character. char getChar(int i) { return s[i]; } // Change th character. void setChar(int i, char c) { s[i] = c; } // Clear string to zero length. GooString *clear(); // Append a character or string. GooString *append(char c); GooString *append(GooString *str); GooString *append(const char *str, int lengthA=CALC_STRING_LEN); // Append a formatted string. GooString *appendf(const char *fmt, ...); GooString *appendfv(const char *fmt, va_list argList); // Insert a character or string. GooString *insert(int i, char c); GooString *insert(int i, GooString *str); GooString *insert(int i, const char *str, int lengthA=CALC_STRING_LEN); // Delete a character or range of characters. GooString *del(int i, int n = 1); // Convert string to all-upper/all-lower case. GooString *upperCase(); GooString *lowerCase(); // Compare two strings: -1:< 0:= +1:> int cmp(GooString *str) const; int cmpN(GooString *str, int n) const; int cmp(const char *sA) const; int cmpN(const char *sA, int n) const; GBool hasUnicodeMarker(void); // Sanitizes the string so that it does // not contain any ( ) < > [ ] { } / % // The postscript mode also has some more strict checks // The caller owns the return value GooString *sanitizedName(GBool psmode); private: GooString(const GooString &other); GooString& operator=(const GooString &other); // you can tweak this number for a different speed/memory usage tradeoffs. // In libc malloc() rounding is 16 so it's best to choose a value that // results in sizeof(GooString) be a multiple of 16. // 24 makes sizeof(GooString) to be 32. static const int STR_STATIC_SIZE = 24; // a special value telling that the length of the string is not given // so it must be calculated from the strings static const int CALC_STRING_LEN = -1; int roundedSize(int len); char sStatic[STR_STATIC_SIZE]; int length; char *s; void resize(int newLength); #ifdef LLONG_MAX static void formatInt(long long x, char *buf, int bufSize, GBool zeroFill, int width, int base, char **p, int *len); #else static void formatInt(long x, char *buf, int bufSize, GBool zeroFill, int width, int base, char **p, int *len); #endif #ifdef ULLONG_MAX static void formatUInt(unsigned long long x, char *buf, int bufSize, GBool zeroFill, int width, int base, char **p, int *len); #else static void formatUInt(Gulong x, char *buf, int bufSize, GBool zeroFill, int width, int base, char **p, int *len); #endif static void formatDouble(double x, char *buf, int bufSize, int prec, GBool trim, char **p, int *len); static void formatDoubleSmallAware(double x, char *buf, int bufSize, int prec, GBool trim, char **p, int *len); }; #endif