lyx_mirror/src/support/lstrings.C
Lars Gullik Bjønnes a654de29ea ws cleanup
git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@3802 a592a061-630c-0410-9148-cb99ea01b6c8
2002-03-21 17:09:55 +00:00

635 lines
13 KiB
C

/* This file is part of
* ======================================================
*
* LyX, The Document Processor
*
* Copyright 1995 Matthias Ettrich
* Copyright 1995-2001 The LyX Team.
*
* ====================================================== */
#include <config.h>
#ifdef __GNUG__
#pragma implementation
#endif
#include <algorithm>
#include <cctype>
#include <cstdlib>
#include "LString.h"
#include "lstrings.h"
#include "LRegex.h"
#include "LAssert.h"
#include "debug.h"
using std::count;
using std::transform;
#ifndef CXX_GLOBAL_CSTD
using std::tolower;
using std::toupper;
using std::strlen;
#endif
int compare_no_case(string const & s, string const & s2)
{
string::const_iterator p = s.begin();
string::const_iterator p2 = s2.begin();
while (p != s.end() && p2 != s2.end()) {
int const lc1 = tolower(*p);
int const lc2 = tolower(*p2);
if (lc1 != lc2)
return (lc1 < lc2) ? -1 : 1;
++p;
++p2;
}
if (s.size() == s2.size())
return 0;
if (s.size() < s2.size())
return -1;
return 1;
}
namespace {
int ascii_tolower(int c) {
if (c >= 'A' && c <= 'Z')
return c - 'A' + 'a';
return c;
}
}
int compare_ascii_no_case(string const & s, string const & s2)
{
string::const_iterator p = s.begin();
string::const_iterator p2 = s2.begin();
while (p != s.end() && p2 != s2.end()) {
int const lc1 = ascii_tolower(*p);
int const lc2 = ascii_tolower(*p2);
if (lc1 != lc2)
return (lc1 < lc2) ? -1 : 1;
++p;
++p2;
}
if (s.size() == s2.size())
return 0;
if (s.size() < s2.size())
return -1;
return 1;
}
int compare_no_case(string const & s, string const & s2, unsigned int len)
{
string::const_iterator p = s.begin();
string::const_iterator p2 = s2.begin();
unsigned int i = 0;
while (i < len && p != s.end() && p2 != s2.end()) {
int const lc1 = tolower(*p);
int const lc2 = tolower(*p2);
if (lc1 != lc2)
return (lc1 < lc2) ? -1 : 1;
++i;
++p;
++p2;
}
if (s.size() >= len && s2.size() >= len)
return 0;
if (s.size() < s2.size())
return -1;
return 1;
}
bool isStrInt(string const & str)
{
if (str.empty()) return false;
// Remove leading and trailing white space chars.
string const tmpstr = frontStrip(strip(str, ' '), ' ');
if (tmpstr.empty()) return false;
string::const_iterator cit = tmpstr.begin();
if ((*cit) == '-') ++cit;
string::const_iterator end = tmpstr.end();
for (; cit != end; ++cit) {
if (!isdigit((*cit))) return false;
}
return true;
}
bool isStrUnsignedInt(string const & str)
{
if (str.empty()) return false;
// Remove leading and trailing white space chars.
string const tmpstr = frontStrip(strip(str, ' '), ' ');
if (tmpstr.empty()) return false;
string::const_iterator cit = tmpstr.begin();
string::const_iterator end = tmpstr.end();
for (; cit != end; ++cit) {
if (!isdigit((*cit))) return false;
}
return true;
}
int strToInt(string const & str)
{
if (isStrInt(str)) {
// Remove leading and trailing white space chars.
string const tmpstr = frontStrip(strip(str, ' '), ' ');
// Do the conversion proper.
return lyx::atoi(tmpstr);
} else {
return 0;
}
}
unsigned int strToUnsignedInt(string const & str)
{
if (isStrUnsignedInt(str)) {
// Remove leading and trailing white space chars.
string const tmpstr = frontStrip(strip(str, ' '), ' ');
// Do the conversion proper.
return lyx::atoi(tmpstr);
} else {
return 0;
}
}
bool isStrDbl(string const & str)
{
if (str.empty()) return false;
// Remove leading and trailing white space chars.
string const tmpstr = frontStrip(strip(str, ' '), ' ');
if (tmpstr.empty()) return false;
// if (1 < tmpstr.count('.')) return false;
string::const_iterator cit = tmpstr.begin();
bool found_dot(false);
if ((*cit) == '-') ++cit;
string::const_iterator end = tmpstr.end();
for (; cit != end; ++cit) {
if (!isdigit((*cit))
&& '.' != (*cit)) {
return false;
}
if ('.' == (*cit)) {
if (found_dot) {
return false;
} else {
found_dot = true;
}
}
}
return true;
}
double strToDbl(string const & str)
{
if (isStrDbl(str)) {
// Remove leading and trailing white space chars.
string const tmpstr = frontStrip(strip(str, ' '), ' ');
// Do the conversion proper.
return ::atof(tmpstr.c_str());
} else {
return 0.0;
}
}
char lowercase(char c)
{
return char(tolower(c));
}
char uppercase(char c)
{
return char(toupper(c));
}
namespace {
// since we cannot use std::tolower and std::toupper directly in the
// calls to std::transform yet, we use these helper clases. (Lgb)
struct local_lowercase {
char operator()(char c) const {
return tolower(c);
}
};
struct local_uppercase {
char operator()(char c) const {
return toupper(c);
}
};
} // end of anon namespace
string const lowercase(string const & a)
{
string tmp(a);
transform(tmp.begin(), tmp.end(), tmp.begin(), local_lowercase());
return tmp;
}
string const uppercase(string const & a)
{
string tmp(a);
transform(tmp.begin(), tmp.end(), tmp.begin(), local_uppercase());
return tmp;
}
bool prefixIs(string const & a, char const * pre)
{
lyx::Assert(pre);
size_t const l = strlen(pre);
string::size_type const alen = a.length();
if (l > alen || a.empty())
return false;
else {
#if !defined(USE_INCLUDED_STRING) && !defined(STD_STRING_IS_GOOD)
// Delete this code when the compilers get a bit better.
return ::strncmp(a.c_str(), pre, l) == 0;
#else
// This is the code that we really want to use
// but until gcc ships with a basic_string that
// implements std::string correctly we have to
// use the code above.
return a.compare(0, l, pre, l) == 0;
#endif
}
}
bool prefixIs(string const & a, string const & pre)
{
string::size_type const prelen = pre.length();
string::size_type const alen = a.length();
if (prelen > alen || a.empty())
return false;
else {
#if !defined(USE_INCLUDED_STRING) && !defined(STD_STRING_IS_GOOD)
return ::strncmp(a.c_str(), pre.c_str(), prelen) == 0;
#else
return a.compare(0, prelen, pre) == 0;
#endif
}
}
bool suffixIs(string const & a, char c)
{
if (a.empty()) return false;
return a[a.length() - 1] == c;
}
bool suffixIs(string const & a, char const * suf)
{
lyx::Assert(suf);
size_t const suflen = strlen(suf);
string::size_type const alen = a.length();
if (suflen > alen)
return false;
else {
#if !defined(USE_INCLUDED_STRING) && !defined(STD_STRING_IS_GOOD)
// Delete this code when the compilers get a bit better.
string tmp(a, alen - suflen);
return ::strncmp(tmp.c_str(), suf, suflen) == 0;
#else
// This is the code that we really want to use
// but until gcc ships with a basic_string that
// implements std::string correctly we have to
// use the code above.
return a.compare(alen - suflen, suflen, suf) == 0;
#endif
}
}
bool suffixIs(string const & a, string const & suf)
{
string::size_type const suflen = suf.length();
string::size_type const alen = a.length();
if (suflen > alen) {
return false;
} else {
#if !defined(USE_INCLUDED_STRING) && !defined(STD_STRING_IS_GOOD)
string tmp(a, alen - suflen);
return ::strncmp(tmp.c_str(), suf.c_str(), suflen) == 0;
#else
return a.compare(alen - suflen, suflen, suf) == 0;
#endif
}
}
bool contains(char const * a, string const & b)
{
lyx::Assert(a);
string const at(a);
return contains(at, b);
}
bool contains(string const & a, char const * b)
{
lyx::Assert(b);
string const bt(b);
return contains(a, bt);
}
bool contains(string const & a, string const & b)
{
if (a.empty())
return false;
return a.find(b) != string::npos;
}
bool contains(string const & a, char b)
{
if (a.empty())
return false;
return a.find(b) != string::npos;
}
bool contains(char const * a, char const * b)
{
lyx::Assert(a && b);
string const at(a);
string const bt(b);
return contains(at, bt);
}
bool containsOnly(string const & s, char const * cset)
{
lyx::Assert(cset);
return s.find_first_not_of(cset) == string::npos;
}
bool containsOnly(string const & s, string const & cset)
{
return s.find_first_not_of(cset) == string::npos;
}
bool containsOnly(char const * s, char const * cset)
{
lyx::Assert(s && cset);
return string(s).find_first_not_of(cset) == string::npos;
}
bool containsOnly(char const * s, string const & cset)
{
lyx::Assert(s);
return string(s).find_first_not_of(cset) == string::npos;
}
// ale970405+lasgoutt-970425
// rewritten to use new string (Lgb)
string const token(string const & a, char delim, int n)
{
if (a.empty()) return string();
string::size_type k = 0;
string::size_type i = 0;
// Find delimiter or end of string
for (; n--;)
if ((i = a.find(delim, i)) == string::npos)
break;
else
++i; // step delim
// i is now the n'th delim (or string::npos)
if (i == string::npos) return string();
k = a.find(delim, i);
// k is now the n'th + 1 delim (or string::npos)
return a.substr(i, k - i);
}
// this could probably be faster and/or cleaner, but it seems to work (JMarc)
// rewritten to use new string (Lgb)
int tokenPos(string const & a, char delim, string const & tok)
{
int i = 0;
string str(a);
string tmptok;
while (!str.empty()) {
str = split(str, tmptok, delim);
if (tok == tmptok)
return i;
++i;
}
return -1;
}
bool regexMatch(string const & a, string const & pattern)
{
// We massage the pattern a bit so that the usual
// shell pattern we all are used to will work.
// One nice thing about using a real regex is that
// things like "*.*[^~]" will work also.
// build the regex string.
string regex(pattern);
regex = subst(regex, ".", "\\.");
regex = subst(regex, "*", ".*");
LRegex reg(regex);
return reg.exact_match(a);
}
string const subst(string const & a, char oldchar, char newchar)
{
string tmp(a);
string::iterator lit = tmp.begin();
string::iterator end = tmp.end();
for (; lit != end; ++lit)
if ((*lit) == oldchar)
(*lit) = newchar;
return tmp;
}
string const subst(string const & a,
char const * oldstr, string const & newstr)
{
lyx::Assert(oldstr);
string lstr(a);
string::size_type i = 0;
string::size_type olen = strlen(oldstr);
while ((i = lstr.find(oldstr, i)) != string::npos) {
lstr.replace(i, olen, newstr);
i += newstr.length(); // We need to be sure that we dont
// use the same i over and over again.
}
return lstr;
}
string const subst(string const & a,
string const & oldstr, string const & newstr)
{
string lstr(a);
string::size_type i = 0;
string::size_type const olen = oldstr.length();
while ((i = lstr.find(oldstr, i)) != string::npos) {
lstr.replace(i, olen, newstr);
i += newstr.length(); // We need to be sure that we dont
// use the same i over and over again.
}
return lstr;
}
string const strip(string const & a, char c)
{
if (a.empty()) return a;
string tmp(a);
string::size_type i = tmp.find_last_not_of(c);
if (i == a.length() - 1) return tmp; // no c's at end of a
if (i != string::npos)
tmp.erase(i + 1, string::npos);
#if !defined(USE_INCLUDED_STRING) && !defined(STD_STRING_IS_GOOD)
/// Needed for broken string::find_last_not_of
else if (tmp[0] != c) {
if (a.length() == 1) return tmp;
tmp.erase(1, string::npos);
}
#endif
else
tmp.erase(); // only c in the whole string
return tmp;
}
string const frontStrip(string const & a, char const * p)
{
lyx::Assert(p);
if (a.empty() || !*p) return a;
string tmp(a);
string::size_type i = tmp.find_first_not_of(p);
if (i > 0)
tmp.erase(0, i);
return tmp;
}
string const frontStrip(string const & a, char c)
{
if (a.empty()) return a;
string tmp(a);
string::size_type i = tmp.find_first_not_of(c);
if (i > 0)
tmp.erase(0, i);
return tmp;
}
string const split(string const & a, string & piece, char delim)
{
string tmp;
string::size_type i = a.find(delim);
if (i == a.length() - 1) {
piece = a.substr(0, i);
} else if (i != string::npos) {
piece = a.substr(0, i);
tmp = a.substr(i + 1);
} else if (i == 0) {
piece.erase();
tmp = a.substr(i + 1);
} else {
piece = a;
}
return tmp;
}
string const split(string const & a, char delim)
{
string tmp;
string::size_type i = a.find(delim);
if (i != string::npos) // found delim
tmp = a.substr(i + 1);
return tmp;
}
// ale970521
string const rsplit(string const & a, string & piece, char delim)
{
string tmp;
string::size_type i = a.rfind(delim);
if (i != string::npos) { // delimiter was found
piece = a.substr(0, i);
tmp = a.substr(i + 1);
} else { // delimter was not found
piece.erase();
}
return tmp;
}
// This function escapes 8-bit characters and other problematic
// characters that cause problems in latex labels.
string const escape(string const & lab)
{
char hexdigit[16] = { '0', '1', '2', '3', '4', '5', '6', '7',
'8', '9', 'A', 'B', 'C', 'D', 'E', 'F' };
string enc;
for (string::size_type i = 0; i < lab.length(); ++i) {
unsigned char c= lab[i];
if (c >= 128 || c == '=' || c == '%') {
enc += '=';
enc += hexdigit[c>>4];
enc += hexdigit[c & 15];
} else {
enc += c;
}
}
return enc;
}