lyx_mirror/src/support/filetools.C
Georg Baum ac7ee5b85e Don't use the char version of uppercase
git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@17430 a592a061-630c-0410-9148-cb99ea01b6c8
2007-03-13 10:22:10 +00:00

1255 lines
32 KiB
C

/**
* \file filetools.C
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* parts Copyright 1985, 1990, 1993 Free Software Foundation, Inc.
*
* \author Ivan Schreter
* \author Dirk Niggemann
* \author Asger Alstrup
* \author Lars Gullik Bjønnes
* \author Jean-Marc Lasgouttes
* \author Angus Leeming
* \author John Levon
* \author Herbert Voß
*
* Full author contact details are available in file CREDITS.
*
* General path-mangling functions
*/
#include <config.h>
#include "support/convert.h"
#include "support/environment.h"
#include "support/filetools.h"
#include "support/fs_extras.h"
#include "support/lstrings.h"
#include "support/lyxlib.h"
#include "support/os.h"
#include "support/package.h"
#include "support/path.h"
#include "support/systemcall.h"
// FIXME Interface violation
#include "gettext.h"
#include "debug.h"
#include <boost/assert.hpp>
#include <boost/filesystem/operations.hpp>
#include <boost/regex.hpp>
#include <fcntl.h>
#include <cctype>
#include <cerrno>
#include <cstdlib>
#include <cstdio>
#include <utility>
#include <fstream>
#include <sstream>
#ifndef CXX_GLOBAL_CSTD
using std::fgetc;
using std::isalnum;
using std::isalpha;
#endif
using std::endl;
using std::getline;
using std::make_pair;
using std::string;
using std::ifstream;
using std::ostringstream;
using std::vector;
namespace fs = boost::filesystem;
namespace lyx {
namespace support {
bool isLyXFilename(string const & filename)
{
return suffixIs(ascii_lowercase(filename), ".lyx");
}
bool isSGMLFilename(string const & filename)
{
return suffixIs(ascii_lowercase(filename), ".sgml");
}
string const latex_path(string const & original_path,
latex_path_extension extension,
latex_path_dots dots)
{
// On cygwin, we may need windows or posix style paths.
string path = os::latex_path(original_path);
path = subst(path, "~", "\\string~");
if (path.find(' ') != string::npos) {
// We can't use '"' because " is sometimes active (e.g. if
// babel is loaded with the "german" option)
if (extension == EXCLUDE_EXTENSION) {
// ChangeExtension calls os::internal_path internally
// so don't use it to remove the extension.
string const ext = getExtension(path);
string const base = ext.empty() ?
path :
path.substr(0, path.length() - ext.length() - 1);
// ChangeExtension calls os::internal_path internally
// so don't use it to re-add the extension.
path = "\\string\"" + base + "\\string\"." + ext;
} else {
path = "\\string\"" + path + "\\string\"";
}
}
return dots == ESCAPE_DOTS ? subst(path, ".", "\\lyxdot ") : path;
}
// Substitutes spaces with underscores in filename (and path)
string const makeLatexName(string const & file)
{
string name = onlyFilename(file);
string const path = onlyPath(file);
// 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);
}
string const quoteName(string const & name, quote_style style)
{
switch(style) {
case quote_shell:
// This does not work for filenames containing " (windows)
// or ' (all other OSes). This can't be changed easily, since
// we would need to adapt the command line parser in
// Forkedcall::generateChild. Therefore we don't pass user
// filenames to child processes if possible. We store them in
// a python script instead, where we don't have these
// limitations.
return (os::shell() == os::UNIX) ?
'\'' + name + '\'':
'"' + name + '"';
case quote_python:
return "\"" + subst(subst(name, "\\", "\\\\"), "\"", "\\\"")
+ "\"";
}
// shut up stupid compiler
return string();
}
bool isFileReadable(FileName const & filename)
{
std::string const path = filename.toFilesystemEncoding();
return fs::exists(path) && !fs::is_directory(path) && fs::is_readable(path);
}
//returns true: dir writeable
// false: not writeable
bool isDirWriteable(FileName const & path)
{
lyxerr[Debug::FILES] << "isDirWriteable: " << path << endl;
FileName const tmpfl(tempName(path, "lyxwritetest"));
if (tmpfl.empty())
return false;
unlink(tmpfl);
return true;
}
#if 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"
FileName const fileOpenSearch(string const & path, string const & name,
string const & ext)
{
FileName real_file;
string path_element;
bool notfound = true;
string tmppath = split(path, path_element, ';');
while (notfound && !path_element.empty()) {
path_element = os::internal_path(path_element);
if (!suffixIs(path_element, '/'))
path_element += '/';
path_element = subst(path_element, "$$LyX",
package().system_support());
path_element = subst(path_element, "$$User",
package().user_support());
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;
}
}
return real_file;
}
#endif
/// Returns a vector of all files in directory dir having extension ext.
vector<FileName> const dirList(FileName const & dir, string const & ext)
{
// EXCEPTIONS FIXME. Rewrite needed when we turn on exceptions. (Lgb)
vector<FileName> dirlist;
string const encoded_dir = dir.toFilesystemEncoding();
if (!(fs::exists(encoded_dir) && fs::is_directory(encoded_dir))) {
lyxerr[Debug::FILES]
<< "Directory \"" << dir
<< "\" does not exist to DirList." << endl;
return dirlist;
}
string extension;
if (!ext.empty() && ext[0] != '.')
extension += '.';
extension += ext;
fs::directory_iterator dit(encoded_dir);
fs::directory_iterator end;
for (; dit != end; ++dit) {
string const & fil = dit->leaf();
if (suffixIs(fil, extension))
dirlist.push_back(FileName::fromFilesystemEncoding(
encoded_dir + '/' + fil));
}
return dirlist;
}
// Returns the real name of file name in directory path, with optional
// extension ext.
FileName const fileSearch(string const & path, string const & name,
string const & ext, search_mode mode)
{
// if `name' is an absolute path, we ignore the setting of `path'
// Expand Environmentvariables in 'name'
string const tmpname = replaceEnvironmentPath(name);
FileName fullname(makeAbsPath(tmpname, path));
// search first without extension, then with it.
if (isFileReadable(fullname))
return fullname;
if (ext.empty())
// We are done.
return mode == allow_unreadable ? fullname : FileName();
// Only add the extension if it is not already the extension of
// fullname.
if (getExtension(fullname.absFilename()) != ext)
fullname = FileName(addExtension(fullname.absFilename(), ext));
if (isFileReadable(fullname) || mode == allow_unreadable)
return fullname;
return FileName();
}
// Search the file name.ext in the subdirectory dir of
// 1) user_lyxdir
// 2) build_lyxdir (if not empty)
// 3) system_lyxdir
FileName const libFileSearch(string const & dir, string const & name,
string const & ext)
{
FileName fullname = fileSearch(addPath(package().user_support(), dir),
name, ext);
if (!fullname.empty())
return fullname;
if (!package().build_support().empty())
fullname = fileSearch(addPath(package().build_support(), dir),
name, ext);
if (!fullname.empty())
return fullname;
return fileSearch(addPath(package().system_support(), dir), name, ext);
}
FileName const i18nLibFileSearch(string const & dir, string const & name,
string const & ext)
{
// the following comments are from intl/dcigettext.c. We try
// to mimick this behaviour here.
/* The highest priority value is the `LANGUAGE' environment
variable. But we don't use the value if the currently
selected locale is the C locale. This is a GNU extension. */
/* [Otherwise] We have to proceed with the POSIX methods of
looking to `LC_ALL', `LC_xxx', and `LANG'. */
string lang = getEnv("LC_ALL");
if (lang.empty()) {
lang = getEnv("LC_MESSAGES");
if (lang.empty()) {
lang = getEnv("LANG");
if (lang.empty())
lang = "C";
}
}
string const language = getEnv("LANGUAGE");
if (lang != "C" && lang != "POSIX" && !language.empty())
lang = language;
string l;
lang = split(lang, l, ':');
while (!l.empty() && l != "C" && l != "POSIX") {
FileName const tmp = libFileSearch(addPath(dir, token(l, '_', 0)),
name, ext);
if (!tmp.empty())
return tmp;
#if 1
// to be removed later (JMarc)
FileName const tmpold = libFileSearch(dir,
token(l, '_', 0) + '_' + name,
ext);
if (!tmpold.empty()) {
lyxerr << "i18nLibFileSearch: File `" << tmpold
<< "' has been found by the old method" <<endl;
return tmpold;
}
#endif
lang = split(lang, l, ':');
}
return libFileSearch(dir, name, ext);
}
string const libScriptSearch(string const & command_in, quote_style style)
{
static string const token_scriptpath = "$$s/";
string command = command_in;
// Find the starting position of "$$s/"
string::size_type const pos1 = command.find(token_scriptpath);
if (pos1 == string::npos)
return command;
// Find the end of the "$$s/some_subdir/some_script" word within
// command. Assumes that the script name does not contain spaces.
string::size_type const start_script = pos1 + 4;
string::size_type const pos2 = command.find(' ', start_script);
string::size_type const size_script = pos2 == string::npos?
(command.size() - start_script) : pos2 - start_script;
// Does this script file exist?
string const script =
libFileSearch(".", command.substr(start_script, size_script)).absFilename();
if (script.empty()) {
// Replace "$$s/" with ""
command.erase(pos1, 4);
} else {
// Replace "$$s/foo/some_script" with "<path to>/some_script".
string::size_type const size_replace = size_script + 4;
command.replace(pos1, size_replace, quoteName(script, style));
}
return command;
}
namespace {
FileName const createTmpDir(FileName const & tempdir, string const & mask)
{
lyxerr[Debug::FILES]
<< "createTmpDir: tempdir=`" << tempdir << "'\n"
<< "createTmpDir: mask=`" << mask << '\'' << endl;
FileName const tmpfl(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)
unlink(tmpfl);
if (tmpfl.empty() || mkdir(tmpfl, 0700)) {
lyxerr << "LyX could not create the temporary directory '"
<< tmpfl << "'" << endl;
return FileName();
}
return tmpfl;
}
} // namespace anon
bool destroyDir(FileName const & tmpdir)
{
try {
return fs::remove_all(tmpdir.toFilesystemEncoding()) > 0;
} catch (fs::filesystem_error const & fe){
lyxerr << "Could not delete " << tmpdir << ". (" << fe.what() << ")" << std::endl;
return false;
}
}
string const createBufferTmpDir()
{
static int count;
// We are in our own directory. Why bother to mangle name?
// In fact I wrote this code to circumvent a problematic behaviour
// (bug?) of EMX mkstemp().
string const tmpfl =
package().temp_dir() + "/lyx_tmpbuf" +
convert<string>(count++);
if (mkdir(FileName(tmpfl), 0777)) {
lyxerr << "LyX could not create the temporary directory '"
<< tmpfl << "'" << endl;
return string();
}
return tmpfl;
}
FileName const createLyXTmpDir(FileName const & deflt)
{
if (!deflt.empty() && deflt.absFilename() != "/tmp") {
if (mkdir(deflt, 0777)) {
if (isDirWriteable(deflt)) {
// deflt could not be created because it
// did exist already, so let's create our own
// dir inside deflt.
return createTmpDir(deflt, "lyx_tmpdir");
} else {
// some other error occured.
return createTmpDir(FileName("/tmp"), "lyx_tmpdir");
}
} else
return deflt;
} else {
return createTmpDir(FileName("/tmp"), "lyx_tmpdir");
}
}
bool createDirectory(string const & path, int permission)
{
string temp = rtrim(os::internal_path(path), "/");
BOOST_ASSERT(!temp.empty());
return mkdir(FileName(temp), permission) == 0;
}
// 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('/');
return j == string::npos ? "./" : 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.
FileName const makeAbsPath(string const & relPath, string const & basePath)
{
// checks for already absolute path
if (os::is_absolute_path(relPath))
return FileName(relPath);
// Copies given paths
string tempRel = os::internal_path(relPath);
// Since TempRel is NOT absolute, we can safely replace "//" with "/"
tempRel = subst(tempRel, "//", "/");
string tempBase;
if (os::is_absolute_path(basePath))
tempBase = basePath;
else
tempBase = addPath(getcwd().absFilename(), basePath);
// 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;
if (i < 0)
i = 0;
while (i > 0 && tempBase[i] != '/')
--i;
if (i > 0)
tempBase.erase(i, string::npos);
else
tempBase += '/';
} else if (temp.empty() && !rTemp.empty()) {
tempBase = os::current_root() + rTemp;
rTemp.erase();
} else {
// Add this piece to TempBase
if (!suffixIs(tempBase, '/'))
tempBase += '/';
tempBase += temp;
}
}
// returns absolute path
return FileName(os::internal_path(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)
{
string const basename = onlyFilename(fname);
string buf;
if (path != "." && path != "./" && !path.empty()) {
buf = os::internal_path(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);
}
/// Returns true is path is absolute
bool absolutePath(string const & path)
{
return os::is_absolute_path(path);
}
// 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 (os::is_absolute_path(rTemp))
return rTemp;
string temp;
string const copy = rTemp;
// Split by next /
rTemp = split(rTemp, temp, '/');
if (temp == ".")
return getcwd().absFilename() + '/' + rTemp;
if (temp == "~")
return package().home_dir() + '/' + rTemp;
if (temp == "..")
return makeAbsPath(copy).absFilename();
// Don't know how to handle this
return copy;
}
// Normalize a path. Constracts path/../path
// Can't handle "../../" or "/../" (Asger)
// Also converts paths like /foo//bar ==> /foo/bar
string const normalizePath(string const & path)
{
// Normalize paths like /foo//bar ==> /foo/bar
static boost::regex regex("/{2,}");
string const tmppath = boost::regex_merge(path, regex, "/");
fs::path const npath = fs::path(tmppath, fs::no_check).normalize();
if (!npath.is_complete())
return "./" + npath.string() + '/';
return npath.string() + '/';
}
string const getFileContents(FileName const & fname)
{
string const encodedname = fname.toFilesystemEncoding();
if (fs::exists(encodedname)) {
ifstream ifs(encodedname.c_str());
ostringstream ofs;
if (ifs && ofs) {
ofs << ifs.rdbuf();
ifs.close();
return ofs.str();
}
}
lyxerr << "LyX was not able to read file '" << fname << '\'' << endl;
return string();
}
// Search the string for ${VAR} and $VAR and replace VAR using getenv.
string const replaceEnvironmentPath(string const & path)
{
// ${VAR} is defined as
// $\{[A-Za-z_][A-Za-z_0-9]*\}
static string const envvar_br = "[$]\\{([A-Za-z_][A-Za-z_0-9]*)\\}";
// $VAR is defined as:
// $\{[A-Za-z_][A-Za-z_0-9]*\}
static string const envvar = "[$]([A-Za-z_][A-Za-z_0-9]*)";
static boost::regex envvar_br_re("(.*)" + envvar_br + "(.*)");
static boost::regex envvar_re("(.*)" + envvar + "(.*)");
boost::smatch what;
string result = path;
while (1) {
regex_match(result, what, envvar_br_re);
if (!what[0].matched) {
regex_match(result, what, envvar_re);
if (!what[0].matched)
break;
}
result = what.str(1) + getEnv(what.str(2)) + what.str(3);
}
return result;
}
// Make relative path out of two absolute paths
string const makeRelPath(string const & abspath, string const & basepath)
// 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.
{
string::size_type const abslen = abspath.length();
string::size_type const baselen = basepath.length();
// FIXME UNICODE
docstring::size_type i =
os::common_path(from_utf8(abspath), from_utf8(basepath));
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 = os::internal_path(path_2);
if (!path.empty() && path != "." && path != "./") {
buf = os::internal_path(path);
if (path[path.length() - 1] != '/')
buf += '/';
}
if (!path2.empty()) {
string::size_type const p2start = path2.find_first_not_of('/');
string::size_type const p2end = path2.find_last_not_of('/');
string const tmp = path2.substr(p2start, p2end - p2start + 1);
buf += tmp + '/';
}
return buf;
}
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 os::internal_path(oldname.substr(0, last_dot) + ext);
}
string const removeExtension(string const & name)
{
return changeExtension(name, string());
}
string const addExtension(string const & name, string const & extension)
{
if (!extension.empty() && extension[0] != '.')
return name + '.' + extension;
return name + extension;
}
/// 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();
}
// the different filetypes and what they contain in one of the first lines
// (dots are any characters). (Herbert 20020131)
// AGR Grace...
// BMP BM...
// EPS %!PS-Adobe-3.0 EPSF...
// FIG #FIG...
// FITS ...BITPIX...
// GIF GIF...
// JPG JFIF
// PDF %PDF-...
// PNG .PNG...
// PBM P1... or P4 (B/W)
// PGM P2... or P5 (Grayscale)
// PPM P3... or P6 (color)
// PS %!PS-Adobe-2.0 or 1.0, no "EPSF"!
// SGI \001\332... (decimal 474)
// TGIF %TGIF...
// TIFF II... or MM...
// XBM ..._bits[]...
// XPM /* XPM */ sometimes missing (f.ex. tgif-export)
// ...static char *...
// XWD \000\000\000\151 (0x00006900) decimal 105
//
// GZIP \037\213 http://www.ietf.org/rfc/rfc1952.txt
// ZIP PK... http://www.halyava.ru/document/ind_arch.htm
// Z \037\235 UNIX compress
string const getFormatFromContents(FileName const & filename)
{
// paranoia check
if (filename.empty() || !isFileReadable(filename))
return string();
ifstream ifs(filename.toFilesystemEncoding().c_str());
if (!ifs)
// Couldn't open file...
return string();
// gnuzip
static string const gzipStamp = "\037\213";
// PKZIP
static string const zipStamp = "PK";
// compress
static string const compressStamp = "\037\235";
// Maximum strings to read
int const max_count = 50;
int count = 0;
string str;
string format;
bool firstLine = true;
while ((count++ < max_count) && format.empty()) {
if (ifs.eof()) {
lyxerr[Debug::GRAPHICS]
<< "filetools(getFormatFromContents)\n"
<< "\tFile type not recognised before EOF!"
<< endl;
break;
}
getline(ifs, str);
string const stamp = str.substr(0, 2);
if (firstLine && str.size() >= 2) {
// at first we check for a zipped file, because this
// information is saved in the first bytes of the file!
// also some graphic formats which save the information
// in the first line, too.
if (prefixIs(str, gzipStamp)) {
format = "gzip";
} else if (stamp == zipStamp) {
format = "zip";
} else if (stamp == compressStamp) {
format = "compress";
// the graphics part
} else if (stamp == "BM") {
format = "bmp";
} else if (stamp == "\001\332") {
format = "sgi";
// PBM family
// Don't need to use str.at(0), str.at(1) because
// we already know that str.size() >= 2
} else if (str[0] == 'P') {
switch (str[1]) {
case '1':
case '4':
format = "pbm";
break;
case '2':
case '5':
format = "pgm";
break;
case '3':
case '6':
format = "ppm";
}
break;
} else if ((stamp == "II") || (stamp == "MM")) {
format = "tiff";
} else if (prefixIs(str,"%TGIF")) {
format = "tgif";
} else if (prefixIs(str,"#FIG")) {
format = "fig";
} else if (prefixIs(str,"GIF")) {
format = "gif";
} else if (str.size() > 3) {
int const c = ((str[0] << 24) & (str[1] << 16) &
(str[2] << 8) & str[3]);
if (c == 105) {
format = "xwd";
}
}
firstLine = false;
}
if (!format.empty())
break;
else if (contains(str,"EPSF"))
// dummy, if we have wrong file description like
// %!PS-Adobe-2.0EPSF"
format = "eps";
else if (contains(str,"Grace"))
format = "agr";
else if (contains(str,"JFIF"))
format = "jpg";
else if (contains(str,"%PDF"))
format = "pdf";
else if (contains(str,"PNG"))
format = "png";
else if (contains(str,"%!PS-Adobe")) {
// eps or ps
ifs >> str;
if (contains(str,"EPSF"))
format = "eps";
else
format = "ps";
}
else if (contains(str,"_bits[]"))
format = "xbm";
else if (contains(str,"XPM") || contains(str, "static char *"))
format = "xpm";
else if (contains(str,"BITPIX"))
format = "fits";
}
if (!format.empty()) {
lyxerr[Debug::GRAPHICS]
<< "Recognised Fileformat: " << format << endl;
return format;
}
lyxerr[Debug::GRAPHICS]
<< "filetools(getFormatFromContents)\n"
<< "\tCouldn't find a known format!\n";
return string();
}
/// check for zipped file
bool zippedFile(FileName const & name)
{
string const type = getFormatFromContents(name);
if (contains("gzip zip compress", type) && !type.empty())
return true;
return false;
}
string const unzippedFileName(string const & zipped_file)
{
string const ext = getExtension(zipped_file);
if (ext == "gz" || ext == "z" || ext == "Z")
return changeExtension(zipped_file, string());
return "unzipped_" + zipped_file;
}
FileName const unzipFile(FileName const & zipped_file, string const & unzipped_file)
{
FileName const tempfile = FileName(unzipped_file.empty() ?
unzippedFileName(zipped_file.toFilesystemEncoding()) :
unzipped_file);
// Run gunzip
string const command = "gunzip -c " +
zipped_file.toFilesystemEncoding() + " > " +
tempfile.toFilesystemEncoding();
Systemcall one;
one.startscript(Systemcall::Wait, command);
// test that command was executed successfully (anon)
// yes, please do. (Lgb)
return tempfile;
}
docstring const makeDisplayPath(string const & path, unsigned int threshold)
{
string str = path;
// If file is from LyXDir, display it as if it were relative.
string const system = package().system_support();
if (prefixIs(str, system))
return from_utf8("[" + str.erase(0, system.length()) + "]");
// replace /home/blah with ~/
string const home = package().home_dir();
if (!home.empty() && prefixIs(str, home))
str = subst(str, home, "~");
if (str.length() <= threshold)
return from_utf8(os::external_path(str));
string const prefix = ".../";
string temp;
while (str.length() > threshold)
str = split(str, temp, '/');
// Did we shorten everything away?
if (str.empty()) {
// Yes, filename itself is too long.
// Pick the start and the end of the filename.
str = onlyFilename(path);
string const head = str.substr(0, threshold / 2 - 3);
string::size_type len = str.length();
string const tail =
str.substr(len - threshold / 2 - 2, len - 1);
str = head + "..." + tail;
}
return from_utf8(os::external_path(prefix + str));
}
bool readLink(string const & file, string & link, bool resolve)
{
#ifdef HAVE_READLINK
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
if (resolve)
link = makeAbsPath(linkbuffer, onlyPath(file)).absFilename();
else
link = linkbuffer;
return true;
#else
return false;
#endif
}
cmd_ret const runCommand(string const & cmd)
{
// FIXME: replace all calls to RunCommand with ForkedCall
// (if the output is not needed) or the code in ispell.C
// (if the output is needed).
// 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
#if defined (HAVE_POPEN)
FILE * inf = ::popen(cmd.c_str(), os::popen_read_mode());
#elif defined (HAVE__POPEN)
FILE * inf = ::_popen(cmd.c_str(), os::popen_read_mode());
#else
#error No popen() function.
#endif
// (Claus Hentschel) Check if popen was succesful ;-)
if (!inf) {
lyxerr << "RunCommand:: could not start child process" << endl;
return make_pair(-1, string());
}
string ret;
int c = fgetc(inf);
while (c != EOF) {
ret += static_cast<char>(c);
c = fgetc(inf);
}
#if defined (HAVE_PCLOSE)
int const pret = pclose(inf);
#elif defined (HAVE__PCLOSE)
int const pret = _pclose(inf);
#else
#error No pclose() function.
#endif
if (pret == -1)
perror("RunCommand:: could not terminate child process");
return make_pair(pret, ret);
}
FileName 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.
FileName const absfile(makeAbsPath(fil));
if (fs::exists(absfile.toFilesystemEncoding()))
return absfile;
// 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;
cmd_ret const c = runCommand(kpsecmd);
lyxerr[Debug::LATEX] << "kpse status = " << c.first << '\n'
<< "kpse result = `" << rtrim(c.second, "\n\r")
<< '\'' << endl;
if (c.first != -1)
return FileName(os::internal_path(rtrim(to_utf8(from_filesystem8bit(c.second)),
"\n\r")));
else
return FileName();
}
void removeAutosaveFile(string const & filename)
{
string a = onlyPath(filename);
a += '#';
a += onlyFilename(filename);
a += '#';
FileName const autosave(a);
if (fs::exists(autosave.toFilesystemEncoding()))
unlink(autosave);
}
void readBB_lyxerrMessage(FileName const & file, bool & zipped,
string const & message)
{
lyxerr[Debug::GRAPHICS] << "[readBB_from_PSFile] "
<< message << std::endl;
#ifdef WITH_WARNINGS
#warning Why is this func deleting a file? (Lgb)
#endif
if (zipped)
unlink(file);
}
string const readBB_from_PSFile(FileName const & file)
{
// in a (e)ps-file it's an entry like %%BoundingBox:23 45 321 345
// It seems that every command in the header has an own line,
// getline() should work for all files.
// On the other hand some plot programs write the bb at the
// end of the file. Than we have in the header:
// %%BoundingBox: (atend)
// In this case we must check the end.
bool zipped = zippedFile(file);
FileName const file_ = zipped ? unzipFile(file) : file;
string const format = getFormatFromContents(file_);
if (format != "eps" && format != "ps") {
readBB_lyxerrMessage(file_, zipped,"no(e)ps-format");
return string();
}
static boost::regex bbox_re(
"^%%BoundingBox:\\s*([[:digit:]]+)\\s+([[:digit:]]+)\\s+([[:digit:]]+)\\s+([[:digit:]]+)");
std::ifstream is(file_.toFilesystemEncoding().c_str());
while (is) {
string s;
getline(is,s);
boost::smatch what;
if (regex_match(s, what, bbox_re)) {
// Our callers expect the tokens in the string
// separated by single spaces.
// FIXME: change return type from string to something
// sensible
ostringstream os;
os << what.str(1) << ' ' << what.str(2) << ' '
<< what.str(3) << ' ' << what.str(4);
string const bb = os.str();
readBB_lyxerrMessage(file_, zipped, bb);
return bb;
}
}
readBB_lyxerrMessage(file_, zipped, "no bb found");
return string();
}
int compare_timestamps(FileName const & filename1, FileName const & filename2)
{
// If the original is newer than the copy, then copy the original
// to the new directory.
string const file1 = filename1.toFilesystemEncoding();
string const file2 = filename2.toFilesystemEncoding();
int cmp = 0;
if (fs::exists(file1) && fs::exists(file2)) {
double const tmp = difftime(fs::last_write_time(file1),
fs::last_write_time(file2));
if (tmp != 0)
cmp = tmp > 0 ? 1 : -1;
} else if (fs::exists(file1)) {
cmp = 1;
} else if (fs::exists(file2)) {
cmp = -1;
}
return cmp;
}
} //namespace support
} // namespace lyx