lyx_mirror/src/support/filetools.C

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/*
filetools.C (former paths.C) - part of LyX project
General path-mangling functions
Copyright 1996 Ivan Schreter
Parts Copyright 1996 Dirk Niggemann
Parts Copyright 1985, 1990, 1993 Free Software Foundation, Inc.
Parts Copyright 1996 Asger Alstrup
See also filetools.H.
lyx-filetool.C : tools functions for file/path handling
this file is part of LyX, the High Level Word Processor
Copyright 1995-1996, Matthias Ettrich and the LyX Team
*/
#include <config.h>
#include <cctype>
#include <utility>
#include <fstream>
#include "Lsstream.h"
#ifdef __GNUG__
#pragma implementation "filetools.h"
#endif
#include "filetools.h"
#include "LSubstring.h"
#include "lyx_gui_misc.h"
#include "FileInfo.h"
#include "support/path.h" // I know it's OS/2 specific (SMiyata)
#include "support/syscall.h"
#include "gettext.h"
#include "lyxlib.h"
// Which part of this is still necessary? (JMarc).
#if HAVE_DIRENT_H
# include <dirent.h>
# define NAMLEN(dirent) strlen((dirent)->d_name)
#else
# define dirent direct
# define NAMLEN(dirent) (dirent)->d_namlen
# if HAVE_SYS_NDIR_H
# include <sys/ndir.h>
# endif
# if HAVE_SYS_DIR_H
# include <sys/dir.h>
# endif
# if HAVE_NDIR_H
# include <ndir.h>
# endif
#endif
using std::make_pair;
using std::pair;
using std::endl;
using std::ifstream;
using std::vector;
extern string system_lyxdir;
extern string build_lyxdir;
extern string user_lyxdir;
extern string system_tempdir;
bool IsLyXFilename(string const & filename)
{
return suffixIs(filename, ".lyx");
}
bool IsSGMLFilename(string const & filename)
{
return suffixIs(filename, ".sgml");
}
// Substitutes spaces with underscores in filename (and path)
string const MakeLatexName(string const & file)
{
string name = OnlyFilename(file);
string const path = OnlyPath(file);
for (string::size_type i = 0; i < name.length(); ++i) {
name[i] &= 0x7f; // set 8th bit to 0
};
// ok so we scan through the string twice, but who cares.
string const keep("abcdefghijklmnopqrstuvwxyz"
"ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"@!\"'()*+,-./0123456789:;<=>?[]`|");
string::size_type pos = 0;
while ((pos = name.find_first_not_of(keep, pos)) != string::npos) {
name[pos++] = '_';
}
return AddName(path, name);
}
// Substitutes spaces with underscores in filename (and path)
string const QuoteName(string const & name)
{
// CHECK Add proper emx support here!
#ifndef __EMX__
return "\'" + name + "\'";
#else
return name;
#endif
}
// Is a file readable ?
bool IsFileReadable (string const & path)
{
FileInfo file(path);
if (file.isOK() && file.isRegular() && file.readable())
return true;
else
return false;
}
// Is a file read_only?
// return 1 read-write
// 0 read_only
// -1 error (doesn't exist, no access, anything else)
int IsFileWriteable (string const & path)
{
FileInfo fi(path);
if (fi.access(FileInfo::wperm|FileInfo::rperm)) // read-write
return 1;
if (fi.readable()) // read-only
return 0;
return -1; // everything else.
}
//returns 1: dir writeable
// 0: not writeable
// -1: error- couldn't find out
int IsDirWriteable (string const & path)
{
string const tmpfl(lyx::tempName(path, "lyxwritetest"));
// We must unlink the tmpfl.
lyx::unlink(tmpfl);
if (tmpfl.empty()) {
WriteFSAlert(_("LyX Internal Error!"),
_("Could not test if directory is writeable"));
return -1;
} else {
FileInfo fi(path);
if (fi.writable()) return 1;
return 0;
}
}
// Uses a string of paths separated by ";"s to find a file to open.
// Can't cope with pathnames with a ';' in them. Returns full path to file.
// If path entry begins with $$LyX/, use system_lyxdir
// If path entry begins with $$User/, use user_lyxdir
// Example: "$$User/doc;$$LyX/doc"
string const FileOpenSearch (string const & path, string const & name,
string const & ext)
{
string real_file, path_element;
bool notfound = true;
string tmppath = split(path, path_element, ';');
while (notfound && !path_element.empty()) {
path_element = CleanupPath(path_element);
if (!suffixIs(path_element, '/'))
path_element+= '/';
path_element = subst(path_element, "$$LyX", system_lyxdir);
path_element = subst(path_element, "$$User", user_lyxdir);
real_file = FileSearch(path_element, name, ext);
if (real_file.empty()) {
do {
tmppath = split(tmppath, path_element, ';');
} while(!tmppath.empty() && path_element.empty());
} else {
notfound = false;
}
}
#ifdef __EMX__
if (ext.empty() && notfound) {
real_file = FileOpenSearch(path, name, "exe");
if (notfound) real_file = FileOpenSearch(path, name, "cmd");
}
#endif
return real_file;
}
/// Returns a vector of all files in directory dir having extension ext.
vector<string> const DirList(string const & dir, string const & ext)
{
// This is a non-error checking C/system implementation
string extension(ext);
if (!extension.empty() && extension[0] != '.')
extension.insert(0, ".");
vector<string> dirlist;
DIR * dirp = ::opendir(dir.c_str());
dirent * dire;
while ((dire = ::readdir(dirp))) {
string const fil = dire->d_name;
if (suffixIs(fil, extension)) {
dirlist.push_back(fil);
}
}
::closedir(dirp);
return dirlist;
/* I would have prefered to take a vector<string>& as parameter so
that we could avoid the copy of the vector when returning.
Then we would use:
dirlist.swap(argvec);
to avoid the copy. (Lgb)
*/
/* A C++ implementaion will look like this:
string extension(ext);
if (extension[0] != '.') extension.insert(0, ".");
vector<string> dirlist;
directory_iterator dit("dir");
while (dit != directory_iterator()) {
string fil = (*dit).filename;
if (prefixIs(fil, extension)) {
dirlist.push_back(fil);
}
++dit;
}
dirlist.swap(argvec);
return;
*/
}
// Returns the real name of file name in directory path, with optional
// extension ext.
string const FileSearch(string const & path, string const & name,
string const & ext)
{
// if `name' is an absolute path, we ignore the setting of `path'
// Expand Environmentvariables in 'name'
string const tmpname = ReplaceEnvironmentPath(name);
string fullname = MakeAbsPath(tmpname, path);
// search first without extension, then with it.
if (IsFileReadable(fullname))
return fullname;
else if (ext.empty())
return string();
else { // Is it not more reasonable to use ChangeExtension()? (SMiyata)
fullname += '.';
fullname += ext;
if (IsFileReadable(fullname))
return fullname;
else
return string();
}
}
// Search the file name.ext in the subdirectory dir of
// 1) user_lyxdir
// 2) build_lyxdir (if not empty)
// 3) system_lyxdir
string const LibFileSearch(string const & dir, string const & name,
string const & ext)
{
string fullname = FileSearch(AddPath(user_lyxdir, dir),
name, ext);
if (!fullname.empty())
return fullname;
if (!build_lyxdir.empty())
fullname = FileSearch(AddPath(build_lyxdir, dir),
name, ext);
if (!fullname.empty())
return fullname;
return FileSearch(AddPath(system_lyxdir, dir), name, ext);
}
string const
i18nLibFileSearch(string const & dir, string const & name,
string const & ext)
{
string const lang = token(string(GetEnv("LANG")), '_', 0);
if (lang.empty() || lang == "C")
return LibFileSearch(dir, name, ext);
else {
string const tmp = LibFileSearch(dir, lang + '_' + name,
ext);
if (!tmp.empty())
return tmp;
else
return LibFileSearch(dir, name, ext);
}
}
string const GetEnv(string const & envname)
{
// f.ex. what about error checking?
char const * const ch = getenv(envname.c_str());
string const envstr = !ch ? "" : ch;
return envstr;
}
string const GetEnvPath(string const & name)
{
#ifndef __EMX__
string const pathlist = subst(GetEnv(name), ':', ';');
#else
string const pathlist = subst(GetEnv(name), '\\', '/');
#endif
return strip(pathlist, ';');
}
bool PutEnv(string const & envstr)
{
// CHECK Look at and fix this.
// f.ex. what about error checking?
#if HAVE_PUTENV
// this leaks, but what can we do about it?
// Is doing a getenv() and a free() of the older value
// a good idea? (JMarc)
// Actually we don't have to leak...calling putenv like this
// should be enough: ... and this is obviously not enough if putenv
// does not make a copy of the string. It is also not very wise to
// put a string on the free store. If we have to leak we should do it
// like this:
char * leaker = new char[envstr.length() + 1];
envstr.copy(leaker, envstr.length());
leaker[envstr.length()] = '\0';
int const retval = lyx::putenv(leaker);
// If putenv does not make a copy of the char const * this
// is very dangerous. OTOH if it does take a copy this is the
// best solution.
// The only implementation of putenv that I have seen does not
// allocate memory. _And_ after testing the putenv in glibc it
// seems that we need to make a copy of the string contents.
// I will enable the above.
//int retval = lyx::putenv(envstr.c_str());
#else
#ifdef HAVE_SETENV
string varname;
string const str = envstr.split(varname,'=');
int const retval = ::setenv(varname.c_str(), str.c_str(), true);
#else
// No environment setting function. Can this happen?
int const retval = 1; //return an error condition.
#endif
#endif
return retval == 0;
}
bool PutEnvPath(string const & envstr)
{
return PutEnv(envstr);
}
static
int DeleteAllFilesInDir (string const & path)
{
// I have decided that we will be using parts from the boost
// library. Check out http://www.boost.org/
// For directory access we will then use the directory_iterator.
// Then the code will be something like:
// directory_iterator dit(path);
// directory_iterator dend;
// if (dit == dend) {
// WriteFSAlert(_("Error! Cannot open directory:"), path);
// return -1;
// }
// for (; dit != dend; ++dit) {
// string filename(*dit);
// if (filename == "." || filename == "..")
// continue;
// string unlinkpath(AddName(path, filename));
// if (lyx::unlink(unlinkpath))
// WriteFSAlert(_("Error! Could not remove file:"),
// unlinkpath);
// }
// return 0;
DIR * dir = ::opendir(path.c_str());
if (!dir) {
WriteFSAlert (_("Error! Cannot open directory:"), path);
return -1;
}
struct dirent * de;
int return_value = 0;
while ((de = readdir(dir))) {
string const temp = de->d_name;
if (temp == "." || temp == "..")
continue;
string const unlinkpath = AddName (path, temp);
lyxerr.debug() << "Deleting file: " << unlinkpath << endl;
bool deleted = true;
if (FileInfo(unlinkpath).isDir())
deleted = (DeleteAllFilesInDir(unlinkpath) == 0);
deleted &= (lyx::unlink(unlinkpath) == 0);
if (!deleted) {
WriteFSAlert (_("Error! Could not remove file:"),
unlinkpath);
return_value = -1;
}
}
closedir(dir);
return return_value;
}
static
string const CreateTmpDir(string const & tempdir, string const & mask)
{
lyxerr[Debug::FILES]
<< "CreateTmpDir: tempdir=`" << tempdir << "'\n"
<< "CreateTmpDir: mask=`" << mask << "'" << endl;
string const tmpfl(lyx::tempName(tempdir, mask));
// lyx::tempName actually creates a file to make sure that it
// stays unique. So we have to delete it before we can create
// a dir with the same name. Note also that we are not thread
// safe because of the gap between unlink and mkdir. (Lgb)
lyx::unlink(tmpfl.c_str());
if (tmpfl.empty() || lyx::mkdir(tmpfl, 0777)) {
WriteFSAlert(_("Error! Couldn't create temporary directory:"),
tempdir);
return string();
}
return MakeAbsPath(tmpfl);
}
static
int DestroyTmpDir(string const & tmpdir, bool Allfiles)
{
#ifdef __EMX__
Path p(user_lyxdir);
#endif
if (Allfiles && DeleteAllFilesInDir(tmpdir)) return -1;
if (lyx::rmdir(tmpdir)) {
WriteFSAlert(_("Error! Couldn't delete temporary directory:"),
tmpdir);
return -1;
}
return 0;
}
string const CreateBufferTmpDir(string const & pathfor)
{
return CreateTmpDir(pathfor, "lyx_tmpbuf");
}
int DestroyBufferTmpDir(string const & tmpdir)
{
return DestroyTmpDir(tmpdir, true);
}
string const CreateLyXTmpDir(string const & deflt)
{
if ((!deflt.empty()) && (deflt != "/tmp")) {
if (lyx::mkdir(deflt, 0777)) {
#ifdef __EMX__
Path p(user_lyxdir);
#endif
string const t(CreateTmpDir(deflt, "lyx_tmpdir"));
return t;
} else
return deflt;
} else {
#ifdef __EMX__
Path p(user_lyxdir);
#endif
string const t(CreateTmpDir("/tmp", "lyx_tmpdir"));
return t;
}
}
int DestroyLyXTmpDir(string const & tmpdir)
{
return DestroyTmpDir (tmpdir, false); // Why false?
}
// Creates directory. Returns true if succesfull
bool createDirectory(string const & path, int permission)
{
string temp(strip(CleanupPath(path), '/'));
if (temp.empty()) {
WriteAlert(_("Internal error!"),
_("Call to createDirectory with invalid name"));
return false;
}
if (lyx::mkdir(temp, permission)) {
WriteFSAlert (_("Error! Couldn't create directory:"), temp);
return false;
}
return true;
}
// Strip filename from path name
string const OnlyPath(string const & Filename)
{
// If empty filename, return empty
if (Filename.empty()) return Filename;
// Find last / or start of filename
string::size_type j = Filename.rfind('/');
if (j == string::npos)
return "./";
return Filename.substr(0, j + 1);
}
// Convert relative path into absolute path based on a basepath.
// If relpath is absolute, just use that.
// If basepath is empty, use CWD as base.
string const MakeAbsPath(string const & RelPath, string const & BasePath)
{
// checks for already absolute path
if (AbsolutePath(RelPath))
#ifdef __EMX__
if (RelPath[0]!= '/' && RelPath[0]!= '\\')
#endif
return RelPath;
// Copies given paths
string TempRel(CleanupPath(RelPath));
string TempBase;
if (!BasePath.empty()) {
#ifndef __EMX__
TempBase = BasePath;
#else
char * with_drive = new char[_MAX_PATH];
_abspath(with_drive, BasePath.c_str(), _MAX_PATH);
TempBase = with_drive;
delete[] with_drive;
#endif
} else
TempBase = lyx::getcwd(); //GetCWD();
#ifdef __EMX__
if (AbsolutePath(TempRel))
return TempBase.substr(0, 2) + TempRel;
#endif
// Handle /./ at the end of the path
while(suffixIs(TempBase, "/./"))
TempBase.erase(TempBase.length() - 2);
// processes relative path
string RTemp(TempRel);
string Temp;
while (!RTemp.empty()) {
// Split by next /
RTemp = split(RTemp, Temp, '/');
if (Temp == ".") continue;
if (Temp == "..") {
// Remove one level of TempBase
string::difference_type i = TempBase.length() - 2;
#ifndef __EMX__
if (i < 0) i = 0;
while (i > 0 && TempBase[i] != '/') --i;
if (i > 0)
#else
if (i < 2) i = 2;
while (i > 2 && TempBase[i] != '/') --i;
if (i > 2)
#endif
TempBase.erase(i, string::npos);
else
TempBase += '/';
} else {
// Add this piece to TempBase
if (!suffixIs(TempBase, '/'))
TempBase += '/';
TempBase += Temp;
}
}
// returns absolute path
return TempBase;
}
// Correctly append filename to the pathname.
// If pathname is '.', then don't use pathname.
// Chops any path of filename.
string const AddName(string const & path, string const & fname)
{
// Get basename
string const basename(OnlyFilename(fname));
string buf;
if (path != "." && path != "./" && !path.empty()) {
buf = CleanupPath(path);
if (!suffixIs(path, '/'))
buf += '/';
}
return buf + basename;
}
// Strips path from filename
string const OnlyFilename(string const & fname)
{
if (fname.empty())
return fname;
string::size_type j = fname.rfind('/');
if (j == string::npos) // no '/' in fname
return fname;
// Strip to basename
return fname.substr(j + 1);
}
// Is a filename/path absolute?
bool AbsolutePath(string const & path)
{
#ifndef __EMX__
return (!path.empty() && path[0] == '/');
#else
return (!path.empty() && (path[0] == '/' || (isalpha(static_cast<unsigned char>(path[0])) && path.length()>1 && path[1] == ':')));
#endif
}
// Create absolute path. If impossible, don't do anything
// Supports ./ and ~/. Later we can add support for ~logname/. (Asger)
string const ExpandPath(string const & path)
{
// checks for already absolute path
string RTemp(ReplaceEnvironmentPath(path));
if (AbsolutePath(RTemp))
return RTemp;
string Temp;
string const copy(RTemp);
// Split by next /
RTemp = split(RTemp, Temp, '/');
if (Temp == ".") {
return lyx::getcwd() /*GetCWD()*/ + '/' + RTemp;
} else if (Temp == "~") {
return GetEnvPath("HOME") + '/' + RTemp;
} else if (Temp == "..") {
return MakeAbsPath(copy);
} else
// Don't know how to handle this
return copy;
}
// Normalize a path
// Constracts path/../path
// Can't handle "../../" or "/../" (Asger)
string const NormalizePath(string const & path)
{
string TempBase;
string RTemp;
string Temp;
if (AbsolutePath(path))
RTemp = path;
else
// Make implicit current directory explicit
RTemp = "./" +path;
while (!RTemp.empty()) {
// Split by next /
RTemp = split(RTemp, Temp, '/');
if (Temp == ".") {
TempBase = "./";
} else if (Temp == "..") {
// Remove one level of TempBase
string::difference_type i = TempBase.length() - 2;
while (i > 0 && TempBase[i] != '/')
--i;
if (i >= 0 && TempBase[i] == '/')
TempBase.erase(i + 1, string::npos);
else
TempBase = "../";
} else {
TempBase += Temp + '/';
}
}
// returns absolute path
return TempBase;
}
string const CleanupPath(string const & path)
{
#ifdef __EMX__ /* SMiyata: This should fix searchpath bug. */
string temppath = subst(path, '\\', '/');
temppath = subst(temppath, "//", "/");
return lowercase(temppath);
#else // On unix, nothing to do
return path;
#endif
}
string const GetFileContents(string const & fname)
{
FileInfo finfo(fname);
if (finfo.exist()) {
ifstream ifs(fname.c_str());
std::ostringstream ofs;
if (ifs && ofs) {
ofs << ifs.rdbuf();
ifs.close();
return ofs.str().c_str();
}
}
lyxerr << "LyX was not able to read file '" << fname << "'" << endl;
return string();
}
//
// Search ${...} as Variable-Name inside the string and replace it with
// the denoted environmentvariable
// Allow Variables according to
// variable := '$' '{' [A-Za-z_]{[A-Za-z_0-9]*} '}'
//
string const ReplaceEnvironmentPath(string const & path)
{
//
// CompareChar: Environmentvariables starts with this character
// PathChar: Next path component start with this character
// while CompareChar found do:
// Split String with PathChar
// Search Environmentvariable
// if found: Replace Strings
//
char const CompareChar = '$';
char const FirstChar = '{';
char const EndChar = '}';
char const UnderscoreChar = '_';
string EndString; EndString += EndChar;
string FirstString; FirstString += FirstChar;
string CompareString; CompareString += CompareChar;
string const RegExp("*}*"); // Exist EndChar inside a String?
// first: Search for a '$' - Sign.
//string copy(path);
string result1; //(copy); // for split-calls
string result0 = split(path, result1, CompareChar);
while (!result0.empty()) {
string copy1(result0); // contains String after $
// Check, if there is an EndChar inside original String.
if (!regexMatch(copy1, RegExp)) {
// No EndChar inside. So we are finished
result1 += CompareString + result0;
result0.erase();
continue;
}
string res1;
string res0 = split(copy1, res1, EndChar);
// Now res1 holds the environmentvariable
// First, check, if Contents is ok.
if (res1.empty()) { // No environmentvariable. Continue Loop.
result1 += CompareString + FirstString;
result0 = res0;
continue;
}
// check contents of res1
char const * res1_contents = res1.c_str();
if (*res1_contents != FirstChar) {
// Again No Environmentvariable
result1 += CompareString;
result0 = res0;
}
// Check for variable names
// Situation ${} is detected as "No Environmentvariable"
char const * cp1 = res1_contents + 1;
bool result = isalpha(*cp1) || (*cp1 == UnderscoreChar);
++cp1;
while (*cp1 && result) {
result = isalnum(*cp1) ||
(*cp1 == UnderscoreChar);
++cp1;
}
if (!result) {
// no correct variable name
result1 += CompareString + res1 + EndString;
result0 = split(res0, res1, CompareChar);
result1 += res1;
continue;
}
string env(GetEnv(res1_contents + 1));
if (!env.empty()) {
// Congratulations. Environmentvariable found
result1 += env;
} else {
result1 += CompareString + res1 + EndString;
}
// Next $-Sign?
result0 = split(res0, res1, CompareChar);
result1 += res1;
}
return result1;
} // ReplaceEnvironmentPath
// Make relative path out of two absolute paths
string const MakeRelPath(string const & abspath0, string const & basepath0)
// Makes relative path out of absolute path. If it is deeper than basepath,
// it's easy. If basepath and abspath share something (they are all deeper
// than some directory), it'll be rendered using ..'s. If they are completely
// different, then the absolute path will be used as relative path.
{
// This is a hack. It should probaly be done in another way. Lgb.
string const abspath = CleanupPath(abspath0);
string const basepath = CleanupPath(basepath0);
if (abspath.empty())
return "<unknown_path>";
string::size_type const abslen = abspath.length();
string::size_type const baselen = basepath.length();
// Find first different character
string::size_type i = 0;
while (i < abslen && i < baselen && abspath[i] == basepath[i]) ++i;
// Go back to last /
if (i < abslen && i < baselen
|| (i < abslen && abspath[i] != '/' && i == baselen)
|| (i < baselen && basepath[i] != '/' && i == abslen))
{
if (i) --i; // here was the last match
while (i && abspath[i] != '/') --i;
}
if (i == 0) {
// actually no match - cannot make it relative
return abspath;
}
// Count how many dirs there are in basepath above match
// and append as many '..''s into relpath
string buf;
string::size_type j = i;
while (j < baselen) {
if (basepath[j] == '/') {
if (j + 1 == baselen) break;
buf += "../";
}
++j;
}
// Append relative stuff from common directory to abspath
if (abspath[i] == '/') ++i;
for (; i < abslen; ++i)
buf += abspath[i];
// Remove trailing /
if (suffixIs(buf, '/'))
buf.erase(buf.length() - 1);
// Substitute empty with .
if (buf.empty())
buf = '.';
return buf;
}
// Append sub-directory(ies) to a path in an intelligent way
string const AddPath(string const & path, string const & path_2)
{
string buf;
string const path2 = CleanupPath(path_2);
if (!path.empty() && path != "." && path != "./") {
buf = CleanupPath(path);
if (path[path.length() - 1] != '/')
buf += '/';
}
if (!path2.empty())
buf += frontStrip(strip(path2, '/'), '/') + '/';
return buf;
}
/*
Change extension of oldname to extension.
Strips path off if no_path == true.
If no extension on oldname, just appends.
*/
string const
ChangeExtension(string const & oldname, string const & extension)
{
string::size_type const last_slash = oldname.rfind('/');
string::size_type last_dot = oldname.rfind('.');
if (last_dot < last_slash && last_slash != string::npos)
last_dot = string::npos;
string ext;
// Make sure the extension starts with a dot
if (!extension.empty() && extension[0] != '.')
ext= "." + extension;
else
ext = extension;
return CleanupPath(oldname.substr(0, last_dot) + ext);
}
/// Return the extension of the file (not including the .)
string const GetExtension(string const & name)
{
string::size_type const last_slash = name.rfind('/');
string::size_type const last_dot = name.rfind('.');
if (last_dot != string::npos &&
(last_slash == string::npos || last_dot > last_slash))
return name.substr(last_dot + 1,
name.length() - (last_dot + 1));
else
return string();
}
// Creates a nice compact path for displaying
string const
MakeDisplayPath (string const & path, unsigned int threshold)
{
string::size_type const l1 = path.length();
// First, we try a relative path compared to home
string const home(GetEnvPath("HOME"));
string relhome = MakeRelPath(path, home);
string::size_type l2 = relhome.length();
string prefix;
// If we backup from home or don't have a relative path,
// this try is no good
if (prefixIs(relhome, "../") || AbsolutePath(relhome)) {
// relative path was no good, just use the original path
relhome = path;
l2 = l1;
} else {
prefix = "~/";
}
// Is the path too long?
if (l2 > threshold) {
// Yes, shortend it
prefix += ".../";
string temp;
while (relhome.length() > threshold)
relhome = split(relhome, temp, '/');
// Did we shortend everything away?
if (relhome.empty()) {
// Yes, filename in itself is too long.
// Pick the start and the end of the filename.
relhome = OnlyFilename(path);
string const head = relhome.substr(0, threshold/2 - 3);
l2 = relhome.length();
string const tail =
relhome.substr(l2 - threshold/2 - 2, l2 - 1);
relhome = head + "..." + tail;
}
}
return prefix + relhome;
}
bool LyXReadLink(string const & File, string & Link)
{
char LinkBuffer[512];
// Should be PATH_MAX but that needs autconf support
int const nRead = ::readlink(File.c_str(),
LinkBuffer, sizeof(LinkBuffer) - 1);
if (nRead <= 0)
return false;
LinkBuffer[nRead] = '\0'; // terminator
Link = LinkBuffer;
return true;
}
typedef pair<int, string> cmdret;
static
cmdret const do_popen(string const & cmd)
{
// One question is if we should use popen or
// create our own popen based on fork, exec, pipe
// of course the best would be to have a
// pstream (process stream), with the
// variants ipstream, opstream
FILE * inf = ::popen(cmd.c_str(), "r");
string ret;
int c = fgetc(inf);
while (c != EOF) {
ret += static_cast<char>(c);
c = fgetc(inf);
}
int const pret = pclose(inf);
return make_pair(pret, ret);
}
string const
findtexfile(string const & fil, string const & /*format*/)
{
/* There is no problem to extend this function too use other
methods to look for files. It could be setup to look
in environment paths and also if wanted as a last resort
to a recursive find. One of the easier extensions would
perhaps be to use the LyX file lookup methods. But! I am
going to implement this until I see some demand for it.
Lgb
*/
// If the file can be found directly, we just return a
// absolute path version of it.
if (FileInfo(fil).exist())
return MakeAbsPath(fil);
// No we try to find it using kpsewhich.
// It seems from the kpsewhich manual page that it is safe to use
// kpsewhich without --format: "When the --format option is not
// given, the search path used when looking for a file is inferred
// from the name given, by looking for a known extension. If no
// known extension is found, the search path for TeX source files
// is used."
// However, we want to take advantage of the format sine almost all
// the different formats has environment variables that can be used
// to controll which paths to search. f.ex. bib looks in
// BIBINPUTS and TEXBIB. Small list follows:
// bib - BIBINPUTS, TEXBIB
// bst - BSTINPUTS
// graphic/figure - TEXPICTS, TEXINPUTS
// ist - TEXINDEXSTYLE, INDEXSTYLE
// pk - PROGRAMFONTS, PKFONTS, TEXPKS, GLYPHFONTS, TEXFONTS
// tex - TEXINPUTS
// tfm - TFMFONTS, TEXFONTS
// This means that to use kpsewhich in the best possible way we
// should help it by setting additional path in the approp. envir.var.
string const kpsecmd = "kpsewhich " + fil;
cmdret const c = do_popen(kpsecmd);
lyxerr[Debug::LATEX] << "kpse status = " << c.first << "\n"
<< "kpse result = `" << strip(c.second, '\n')
<< "'" << endl;
return c.first != -1 ? strip(c.second, '\n') : string();
}
void removeAutosaveFile(string const & filename)
{
string a = OnlyPath(filename);
a += '#';
a += OnlyFilename(filename);
a += '#';
FileInfo const fileinfo(a);
if (fileinfo.exist()) {
if (lyx::unlink(a) != 0) {
WriteFSAlert(_("Could not delete auto-save file!"), a);
}
}
}