//======================================================================== // // GString.cc // // Simple variable-length string type. // // Copyright 1996-2003 Glyph & Cog, LLC // //======================================================================== #include #ifdef USE_GCC_PRAGMAS #pragma implementation #endif #include #include #include #include #include #include "gmem.h" #include "GString.h" //------------------------------------------------------------------------ union GStringFormatArg { int i; Guint ui; long l; Gulong ul; #ifdef LLONG_MAX long long ll; #endif #ifdef ULLONG_MAX unsigned long long ull; #endif double f; char c; char *s; GString *gs; }; enum GStringFormatType { fmtIntDecimal, fmtIntHex, fmtIntOctal, fmtIntBinary, fmtUIntDecimal, fmtUIntHex, fmtUIntOctal, fmtUIntBinary, fmtLongDecimal, fmtLongHex, fmtLongOctal, fmtLongBinary, fmtULongDecimal, fmtULongHex, fmtULongOctal, fmtULongBinary, #ifdef LLONG_MAX fmtLongLongDecimal, fmtLongLongHex, fmtLongLongOctal, fmtLongLongBinary, #endif #ifdef ULLONG_MAX fmtULongLongDecimal, fmtULongLongHex, fmtULongLongOctal, fmtULongLongBinary, #endif fmtDouble, fmtDoubleTrim, fmtChar, fmtString, fmtGString, fmtSpace }; static const char *formatStrings[] = { "d", "x", "o", "b", "ud", "ux", "uo", "ub", "ld", "lx", "lo", "lb", "uld", "ulx", "ulo", "ulb", #ifdef LLONG_MAX "lld", "llx", "llo", "llb", #endif #ifdef ULLONG_MAX "ulld", "ullx", "ullo", "ullb", #endif "f", "g", "c", "s", "t", "w", NULL }; //------------------------------------------------------------------------ static inline int size(int len) { int delta; for (delta = 8; delta < len && delta < 0x100000; delta <<= 1) ; // this is ((len + 1) + (delta - 1)) & ~(delta - 1) return (len + delta) & ~(delta - 1); } inline void GString::resize(int length1) { char *s1; if (!s) { s = new char[size(length1)]; } else if (size(length1) != size(length)) { s1 = new char[size(length1)]; if (length1 < length) { memcpy(s1, s, length1); s1[length1] = '\0'; } else { memcpy(s1, s, length + 1); } delete[] s; s = s1; } } GString::GString() { s = NULL; resize(length = 0); s[0] = '\0'; } GString::GString(const char *sA) { int n = (int)strlen(sA); s = NULL; resize(length = n); memcpy(s, sA, n + 1); } GString::GString(const char *sA, int lengthA) { s = NULL; resize(length = lengthA); memcpy(s, sA, length * sizeof(char)); s[length] = '\0'; } GString::GString(GString *str, int idx, int lengthA) { s = NULL; resize(length = lengthA); memcpy(s, str->getCString() + idx, length); s[length] = '\0'; } GString::GString(GString *str) { s = NULL; resize(length = str->getLength()); memcpy(s, str->getCString(), length + 1); } GString::GString(GString *str1, GString *str2) { int n1 = str1->getLength(); int n2 = str2->getLength(); s = NULL; resize(length = n1 + n2); memcpy(s, str1->getCString(), n1); memcpy(s + n1, str2->getCString(), n2 + 1); } GString *GString::fromInt(int x) { char buf[24]; // enough space for 64-bit ints plus a little extra char *p; int len; formatInt(x, buf, sizeof(buf), gFalse, 0, 10, &p, &len); return new GString(p, len); } GString *GString::format(const char *fmt, ...) { va_list argList; GString *s; s = new GString(); va_start(argList, fmt); s->appendfv(fmt, argList); va_end(argList); return s; } GString *GString::formatv(const char *fmt, va_list argList) { GString *s; s = new GString(); s->appendfv(fmt, argList); return s; } GString::~GString() { delete[] s; } GString *GString::clear() { s[length = 0] = '\0'; resize(0); return this; } GString *GString::append(char c) { resize(length + 1); s[length++] = c; s[length] = '\0'; return this; } GString *GString::append(GString *str) { int n = str->getLength(); resize(length + n); memcpy(s + length, str->getCString(), n + 1); length += n; return this; } GString *GString::append(const char *str) { int n = (int)strlen(str); resize(length + n); memcpy(s + length, str, n + 1); length += n; return this; } GString *GString::append(const char *str, int lengthA) { resize(length + lengthA); memcpy(s + length, str, lengthA); length += lengthA; s[length] = '\0'; return this; } GString *GString::appendf(const char *fmt, ...) { va_list argList; va_start(argList, fmt); appendfv(fmt, argList); va_end(argList); return this; } GString *GString::appendfv(const char *fmt, va_list argList) { GStringFormatArg *args; int argsLen, argsSize; GStringFormatArg arg; int idx, width, prec; GBool reverseAlign, zeroFill; GStringFormatType ft; char buf[65]; int len, i; const char *p0, *p1; char *str; argsLen = 0; argsSize = 8; args = (GStringFormatArg *)gmallocn(argsSize, sizeof(GStringFormatArg)); p0 = fmt; while (*p0) { if (*p0 == '{') { ++p0; if (*p0 == '{') { ++p0; append('{'); } else { // parse the format string if (!(*p0 >= '0' && *p0 <= '9')) { break; } idx = *p0 - '0'; for (++p0; *p0 >= '0' && *p0 <= '9'; ++p0) { idx = 10 * idx + (*p0 - '0'); } if (*p0 != ':') { break; } ++p0; if (*p0 == '-') { reverseAlign = gTrue; ++p0; } else { reverseAlign = gFalse; } width = 0; zeroFill = *p0 == '0'; for (; *p0 >= '0' && *p0 <= '9'; ++p0) { width = 10 * width + (*p0 - '0'); } if (width < 0) { width = 0; } if (*p0 == '.') { ++p0; prec = 0; for (; *p0 >= '0' && *p0 <= '9'; ++p0) { prec = 10 * prec + (*p0 - '0'); } } else { prec = 0; } for (ft = (GStringFormatType)0; formatStrings[ft]; ft = (GStringFormatType)(ft + 1)) { if (!strncmp(p0, formatStrings[ft], strlen(formatStrings[ft]))) { break; } } if (!formatStrings[ft]) { break; } p0 += strlen(formatStrings[ft]); if (*p0 != '}') { break; } ++p0; // fetch the argument if (idx > argsLen) { break; } if (idx == argsLen) { if (argsLen == argsSize) { argsSize *= 2; args = (GStringFormatArg *)greallocn(args, argsSize, sizeof(GStringFormatArg)); } switch (ft) { case fmtIntDecimal: case fmtIntHex: case fmtIntOctal: case fmtIntBinary: case fmtSpace: args[argsLen].i = va_arg(argList, int); break; case fmtUIntDecimal: case fmtUIntHex: case fmtUIntOctal: case fmtUIntBinary: args[argsLen].ui = va_arg(argList, Guint); break; case fmtLongDecimal: case fmtLongHex: case fmtLongOctal: case fmtLongBinary: args[argsLen].l = va_arg(argList, long); break; case fmtULongDecimal: case fmtULongHex: case fmtULongOctal: case fmtULongBinary: args[argsLen].ul = va_arg(argList, Gulong); break; #ifdef LLONG_MAX case fmtLongLongDecimal: case fmtLongLongHex: case fmtLongLongOctal: case fmtLongLongBinary: args[argsLen].ll = va_arg(argList, long long); break; #endif #ifdef ULLONG_MAX case fmtULongLongDecimal: case fmtULongLongHex: case fmtULongLongOctal: case fmtULongLongBinary: args[argsLen].ull = va_arg(argList, unsigned long long); break; #endif case fmtDouble: case fmtDoubleTrim: args[argsLen].f = va_arg(argList, double); break; case fmtChar: args[argsLen].c = (char)va_arg(argList, int); break; case fmtString: args[argsLen].s = va_arg(argList, char *); break; case fmtGString: args[argsLen].gs = va_arg(argList, GString *); break; } ++argsLen; } // format the argument arg = args[idx]; switch (ft) { case fmtIntDecimal: formatInt(arg.i, buf, sizeof(buf), zeroFill, width, 10, &str, &len); break; case fmtIntHex: formatInt(arg.i, buf, sizeof(buf), zeroFill, width, 16, &str, &len); break; case fmtIntOctal: formatInt(arg.i, buf, sizeof(buf), zeroFill, width, 8, &str, &len); break; case fmtIntBinary: formatInt(arg.i, buf, sizeof(buf), zeroFill, width, 2, &str, &len); break; case fmtUIntDecimal: formatUInt(arg.ui, buf, sizeof(buf), zeroFill, width, 10, &str, &len); break; case fmtUIntHex: formatUInt(arg.ui, buf, sizeof(buf), zeroFill, width, 16, &str, &len); break; case fmtUIntOctal: formatUInt(arg.ui, buf, sizeof(buf), zeroFill, width, 8, &str, &len); break; case fmtUIntBinary: formatUInt(arg.ui, buf, sizeof(buf), zeroFill, width, 2, &str, &len); break; case fmtLongDecimal: formatInt(arg.l, buf, sizeof(buf), zeroFill, width, 10, &str, &len); break; case fmtLongHex: formatInt(arg.l, buf, sizeof(buf), zeroFill, width, 16, &str, &len); break; case fmtLongOctal: formatInt(arg.l, buf, sizeof(buf), zeroFill, width, 8, &str, &len); break; case fmtLongBinary: formatInt(arg.l, buf, sizeof(buf), zeroFill, width, 2, &str, &len); break; case fmtULongDecimal: formatUInt(arg.ul, buf, sizeof(buf), zeroFill, width, 10, &str, &len); break; case fmtULongHex: formatUInt(arg.ul, buf, sizeof(buf), zeroFill, width, 16, &str, &len); break; case fmtULongOctal: formatUInt(arg.ul, buf, sizeof(buf), zeroFill, width, 8, &str, &len); break; case fmtULongBinary: formatUInt(arg.ul, buf, sizeof(buf), zeroFill, width, 2, &str, &len); break; #ifdef LLONG_MAX case fmtLongLongDecimal: formatInt(arg.ll, buf, sizeof(buf), zeroFill, width, 10, &str, &len); break; case fmtLongLongHex: formatInt(arg.ll, buf, sizeof(buf), zeroFill, width, 16, &str, &len); break; case fmtLongLongOctal: formatInt(arg.ll, buf, sizeof(buf), zeroFill, width, 8, &str, &len); break; case fmtLongLongBinary: formatInt(arg.ll, buf, sizeof(buf), zeroFill, width, 2, &str, &len); break; #endif #ifdef ULLONG_MAX case fmtULongLongDecimal: formatUInt(arg.ull, buf, sizeof(buf), zeroFill, width, 10, &str, &len); break; case fmtULongLongHex: formatUInt(arg.ull, buf, sizeof(buf), zeroFill, width, 16, &str, &len); break; case fmtULongLongOctal: formatUInt(arg.ull, buf, sizeof(buf), zeroFill, width, 8, &str, &len); break; case fmtULongLongBinary: formatUInt(arg.ull, buf, sizeof(buf), zeroFill, width, 2, &str, &len); break; #endif case fmtDouble: formatDouble(arg.f, buf, sizeof(buf), prec, gFalse, &str, &len); break; case fmtDoubleTrim: formatDouble(arg.f, buf, sizeof(buf), prec, gTrue, &str, &len); break; case fmtChar: buf[0] = arg.c; str = buf; len = 1; reverseAlign = !reverseAlign; break; case fmtString: str = arg.s; len = (int)strlen(str); reverseAlign = !reverseAlign; break; case fmtGString: str = arg.gs->getCString(); len = arg.gs->getLength(); reverseAlign = !reverseAlign; break; case fmtSpace: str = buf; len = 0; width = arg.i; break; } // append the formatted arg, handling width and alignment if (!reverseAlign && len < width) { for (i = len; i < width; ++i) { append(' '); } } append(str, len); if (reverseAlign && len < width) { for (i = len; i < width; ++i) { append(' '); } } } } else if (*p0 == '}') { ++p0; if (*p0 == '}') { ++p0; } append('}'); } else { for (p1 = p0 + 1; *p1 && *p1 != '{' && *p1 != '}'; ++p1) ; append(p0, (int)(p1 - p0)); p0 = p1; } } gfree(args); return this; } #ifdef LLONG_MAX void GString::formatInt(long long x, char *buf, int bufSize, GBool zeroFill, int width, int base, char **p, int *len) { #else void GString::formatInt(long x, char *buf, int bufSize, GBool zeroFill, int width, int base, char **p, int *len) { #endif static char vals[17] = "0123456789abcdef"; GBool neg; int start, i, j; i = bufSize; if ((neg = x < 0)) { x = -x; } start = neg ? 1 : 0; if (x == 0) { buf[--i] = '0'; } else { while (i > start && x) { buf[--i] = vals[x % base]; x /= base; } } if (zeroFill) { for (j = bufSize - i; i > start && j < width - start; ++j) { buf[--i] = '0'; } } if (neg) { buf[--i] = '-'; } *p = buf + i; *len = bufSize - i; } #ifdef ULLONG_MAX void GString::formatUInt(unsigned long long x, char *buf, int bufSize, GBool zeroFill, int width, int base, char **p, int *len) { #else void GString::formatUInt(Gulong x, char *buf, int bufSize, GBool zeroFill, int width, int base, char **p, int *len) { #endif static char vals[17] = "0123456789abcdef"; int i, j; i = bufSize; if (x == 0) { buf[--i] = '0'; } else { while (i > 0 && x) { buf[--i] = vals[x % base]; x /= base; } } if (zeroFill) { for (j = bufSize - i; i > 0 && j < width; ++j) { buf[--i] = '0'; } } *p = buf + i; *len = bufSize - i; } void GString::formatDouble(double x, char *buf, int bufSize, int prec, GBool trim, char **p, int *len) { GBool neg, started; double x2; int d, i, j; if ((neg = x < 0)) { x = -x; } x = floor(x * pow(10.0, prec) + 0.5); i = bufSize; started = !trim; for (j = 0; j < prec && i > 1; ++j) { x2 = floor(0.1 * (x + 0.5)); d = (int)floor(x - 10 * x2 + 0.5); if (started || d != 0) { buf[--i] = '0' + d; started = gTrue; } x = x2; } if (i > 1 && started) { buf[--i] = '.'; } if (i > 1) { do { x2 = floor(0.1 * (x + 0.5)); d = (int)floor(x - 10 * x2 + 0.5); buf[--i] = '0' + d; x = x2; } while (i > 1 && x); } if (neg) { buf[--i] = '-'; } *p = buf + i; *len = bufSize - i; } GString *GString::insert(int i, char c) { int j; resize(length + 1); for (j = length + 1; j > i; --j) s[j] = s[j-1]; s[i] = c; ++length; return this; } GString *GString::insert(int i, GString *str) { int n = str->getLength(); int j; resize(length + n); for (j = length; j >= i; --j) s[j+n] = s[j]; memcpy(s+i, str->getCString(), n); length += n; return this; } GString *GString::insert(int i, const char *str) { int n = (int)strlen(str); int j; resize(length + n); for (j = length; j >= i; --j) s[j+n] = s[j]; memcpy(s+i, str, n); length += n; return this; } GString *GString::insert(int i, const char *str, int lengthA) { int j; resize(length + lengthA); for (j = length; j >= i; --j) s[j+lengthA] = s[j]; memcpy(s+i, str, lengthA); length += lengthA; return this; } GString *GString::del(int i, int n) { int j; if (i >= 0 && n > 0 && i + n > 0) { if (i + n > length) { n = length - i; } for (j = i; j <= length - n; ++j) { s[j] = s[j + n]; } resize(length -= n); } return this; } GString *GString::upperCase() { int i; for (i = 0; i < length; ++i) { if (islower(s[i])) s[i] = toupper(s[i]); } return this; } GString *GString::lowerCase() { int i; for (i = 0; i < length; ++i) { if (isupper(s[i])) s[i] = tolower(s[i]); } return this; } int GString::cmp(GString *str) { int n1, n2, i, x; char *p1, *p2; n1 = length; n2 = str->length; for (i = 0, p1 = s, p2 = str->s; i < n1 && i < n2; ++i, ++p1, ++p2) { x = *p1 - *p2; if (x != 0) { return x; } } return n1 - n2; } int GString::cmpN(GString *str, int n) { int n1, n2, i, x; char *p1, *p2; n1 = length; n2 = str->length; for (i = 0, p1 = s, p2 = str->s; i < n1 && i < n2 && i < n; ++i, ++p1, ++p2) { x = *p1 - *p2; if (x != 0) { return x; } } if (i == n) { return 0; } return n1 - n2; } int GString::cmp(const char *sA) { int n1, i, x; const char *p1, *p2; n1 = length; for (i = 0, p1 = s, p2 = sA; i < n1 && *p2; ++i, ++p1, ++p2) { x = *p1 - *p2; if (x != 0) { return x; } } if (i < n1) { return 1; } if (*p2) { return -1; } return 0; } int GString::cmpN(const char *sA, int n) { int n1, i, x; const char *p1, *p2; n1 = length; for (i = 0, p1 = s, p2 = sA; i < n1 && *p2 && i < n; ++i, ++p1, ++p2) { x = *p1 - *p2; if (x != 0) { return x; } } if (i == n) { return 0; } if (i < n1) { return 1; } if (*p2) { return -1; } return 0; }