vmap/libs/os/path.h

267 lines
7.9 KiB
C++

/*
Copyright (C) 2001-2006, William Joseph.
All Rights Reserved.
This file is part of GtkRadiant.
GtkRadiant is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
GtkRadiant is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GtkRadiant; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#if !defined ( INCLUDED_OS_PATH_H )
#define INCLUDED_OS_PATH_H
#include "globaldefs.h"
/// \file
/// \brief OS file-system path comparison, decomposition and manipulation.
///
/// - Paths are c-style null-terminated-character-arrays.
/// - Path separators must be forward slashes (unix style).
/// - Directory paths must end in a separator.
/// - Paths must not contain the ascii characters \\ : * ? " < > or |.
/// - Paths may be encoded in UTF-8 or any extended-ascii character set.
#include "string/string.h"
#if GDEF_OS_WINDOWS
#define OS_CASE_INSENSITIVE
#endif
/// \brief Returns true if \p path is lexicographically sorted before \p other.
/// If both \p path and \p other refer to the same file, neither will be sorted before the other.
/// O(n)
inline bool path_less( const char* path, const char* other ){
#if defined( OS_CASE_INSENSITIVE )
return string_less_nocase( path, other );
#else
return string_less( path, other );
#endif
}
/// \brief Returns <0 if \p path is lexicographically less than \p other.
/// Returns >0 if \p path is lexicographically greater than \p other.
/// Returns 0 if both \p path and \p other refer to the same file.
/// O(n)
inline int path_compare( const char* path, const char* other ){
#if defined( OS_CASE_INSENSITIVE )
return string_compare_nocase( path, other );
#else
return string_compare( path, other );
#endif
}
/// \brief Returns true if \p path and \p other refer to the same file or directory.
/// O(n)
inline bool path_equal( const char* path, const char* other ){
#if defined( OS_CASE_INSENSITIVE )
return string_equal_nocase( path, other );
#else
return string_equal( path, other );
#endif
}
/// \brief Returns true if \p path and \p other refer to the same file or directory, case insensitively.
/// O(n)
inline bool path_equal_i( const char* path, const char* other ){
return string_equal_nocase( path, other );
}
/// \brief Returns true if the first \p n bytes of \p path and \p other form paths that refer to the same file or directory.
/// If the paths are UTF-8 encoded, [\p path, \p path + \p n) must be a complete path.
/// O(n)
inline bool path_equal_n( const char* path, const char* other, std::size_t n ){
#if defined( OS_CASE_INSENSITIVE )
return string_equal_nocase_n( path, other, n );
#else
return string_equal_n( path, other, n );
#endif
}
/// \brief Returns true if \p path is a fully qualified file-system path.
/// O(1)
inline bool path_is_absolute( const char* path ){
#if GDEF_OS_WINDOWS
return path[0] == '/'
|| ( path[0] != '\0' && path[1] == ':' ); // local drive
#elif GDEF_OS_POSIX
return path[0] == '/';
#endif
}
/// \brief Returns true if \p path is a directory.
/// O(n)
inline bool path_is_directory( const char* path ){
std::size_t length = strlen( path );
if ( length > 0 ) {
return path[length - 1] == '/';
}
return false;
}
/// \brief Returns a pointer to the first character of the component of \p path following the first directory component.
/// O(n)
inline const char* path_remove_directory( const char* path ){
const char* first_separator = strchr( path, '/' );
if ( first_separator != 0 ) {
return ++first_separator;
}
return "";
}
/// \brief Returns a pointer to the first character of the filename component of \p path.
/// O(n)
inline const char* path_get_filename_start( const char* path ){
{
const char* last_forward_slash = strrchr( path, '/' );
if ( last_forward_slash != 0 ) {
return last_forward_slash + 1;
}
}
// not strictly necessary,since paths should not contain '\'
{
const char* last_backward_slash = strrchr( path, '\\' );
if ( last_backward_slash != 0 ) {
return last_backward_slash + 1;
}
}
return path;
}
/// \brief Returns a pointer to the character after the end of the filename component of \p path - either the extension separator or the terminating null character.
/// O(n)
inline const char* path_get_filename_base_end( const char* path ){
const char* last_period = strrchr( path_get_filename_start( path ), '.' );
return ( last_period != 0 ) ? last_period : path + string_length( path );
}
/// \brief Returns the length of the filename component (not including extension) of \p path.
/// O(n)
inline std::size_t path_get_filename_base_length( const char* path ){
return path_get_filename_base_end( path ) - path;
}
/// \brief If \p path is a child of \p base, returns the subpath relative to \p base, else returns \p path.
/// O(n)
inline const char* path_make_relative( const char* path, const char* base ){
const std::size_t length = string_length( base );
if ( path_equal_n( path, base, length ) ) {
return path + length;
}
return path;
}
/// \brief Returns a pointer to the first character of the file extension of \p path, or "" if not found.
/// O(n)
inline const char* path_get_extension( const char* path ){
const char* last_period = strrchr( path_get_filename_start( path ), '.' );
if ( last_period != 0 ) {
return ++last_period;
}
return "";
}
/// \brief Returns true if \p extension is of the same type as \p other.
/// O(n)
inline bool extension_equal( const char* extension, const char* other ){
return path_equal( extension, other );
}
/// \brief Returns true if \p extension is of the same type as \p other, case insensitively.
/// O(n)
inline bool extension_equal_i( const char* extension, const char* other ){
return path_equal_i( extension, other );
}
template<typename Functor>
class MatchFileExtension
{
const char* m_extension;
const Functor& m_functor;
public:
MatchFileExtension( const char* extension, const Functor& functor ) : m_extension( extension ), m_functor( functor ){
}
void operator()( const char* name ) const {
const char* extension = path_get_extension( name );
if ( extension_equal( extension, m_extension ) ) {
m_functor( name );
}
}
};
/// \brief A functor which invokes its contained \p functor if the \p name argument matches its \p extension.
template<typename Functor>
inline MatchFileExtension<Functor> matchFileExtension( const char* extension, const Functor& functor ){
return MatchFileExtension<Functor>( extension, functor );
}
class PathCleaned
{
public:
const char* m_path;
PathCleaned( const char* path ) : m_path( path ){
}
};
/// \brief Writes \p path to \p ostream with dos-style separators replaced by unix-style separators.
template<typename TextOutputStreamType>
TextOutputStreamType& ostream_write( TextOutputStreamType& ostream, const PathCleaned& path ){
const char* i = path.m_path;
for (; *i != '\0'; ++i )
{
if ( *i == '\\' ) {
ostream << '/';
}
else
{
ostream << *i;
}
}
return ostream;
}
class DirectoryCleaned
{
public:
const char* m_path;
DirectoryCleaned( const char* path ) : m_path( path ){
}
};
/// \brief Writes \p path to \p ostream with dos-style separators replaced by unix-style separators, and appends a separator if necessary.
template<typename TextOutputStreamType>
TextOutputStreamType& ostream_write( TextOutputStreamType& ostream, const DirectoryCleaned& path ){
const char* i = path.m_path;
for (; *i != '\0'; ++i )
{
if ( *i == '\\' ) {
ostream << '/';
}
else
{
ostream << *i;
}
}
char c = *( i - 1 );
if ( c != '/' && c != '\\' ) {
ostream << '/';
}
return ostream;
}
#endif