/** * \file ExternalSupport.C * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Asger Alstrup Nielsen * \author Angus Leeming * * Full author contact details are available in file CREDITS. */ #include #include "ExternalSupport.h" #include "ExternalTemplate.h" #include "ExternalTransforms.h" #include "insetexternal.h" #include "buffer.h" #include "converter.h" #include "debug.h" #include "exporter.h" #include "format.h" #include "mover.h" #include "support/filetools.h" #include "support/forkedcall.h" #include "support/lstrings.h" #include "support/lyxalgo.h" #include "support/lyxlib.h" #include "support/os.h" #include "support/package.h" using std::endl; using std::string; using std::vector; namespace lyx { using support::FileName; namespace external { Template const * getTemplatePtr(InsetExternalParams const & params) { TemplateManager const & etm = TemplateManager::get(); return etm.getTemplateByName(params.templatename()); } void editExternal(InsetExternalParams const & params, Buffer const & buffer) { formats.edit(buffer, params.filename, formats.getFormatFromFile(params.filename)); } namespace { string const subst_path(string const & input, string const & placeholder, string const & path, bool use_latex_path, support::latex_path_extension ext = support::PROTECT_EXTENSION, support::latex_path_dots dots = support::LEAVE_DOTS) { if (input.find(placeholder) == string::npos) return input; // Don't use external_path here when use_latex_path is false, as the // path will be compared with another one in internal style later // in Converters::move. string const path2 = use_latex_path ? support::latex_path(path, ext, dots) : path; return support::subst(input, placeholder, path2); } } // namespace anon string const doSubstitution(InsetExternalParams const & params, Buffer const & buffer, string const & s, bool use_latex_path, bool external_in_tmpdir, Substitute what) { Buffer const * m_buffer = buffer.getMasterBuffer(); string const parentpath = external_in_tmpdir ? m_buffer->temppath() : buffer.filePath(); string const filename = external_in_tmpdir ? params.filename.mangledFilename() : params.filename.outputFilename(parentpath); string const basename = support::changeExtension( support::onlyFilename(filename), string()); string const absname = support::makeAbsPath(filename, parentpath).absFilename(); string result = s; if (what != ALL_BUT_PATHS) { string const filepath = support::onlyPath(filename); string const abspath = support::onlyPath(absname); string const masterpath = external_in_tmpdir ? m_buffer->temppath() : m_buffer->filePath(); string relToMasterPath = support::onlyPath( support::makeRelPath(absname, masterpath)); if (relToMasterPath == "./") relToMasterPath.clear(); string relToParentPath = support::onlyPath( support::makeRelPath(absname, parentpath)); if (relToParentPath == "./") relToParentPath.clear(); result = subst_path(result, "$$FPath", filepath, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); result = subst_path(result, "$$AbsPath", abspath, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); result = subst_path(result, "$$RelPathMaster", relToMasterPath, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); result = subst_path(result, "$$RelPathParent", relToParentPath, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); if (support::absolutePath(filename)) { result = subst_path(result, "$$AbsOrRelPathMaster", abspath, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); result = subst_path(result, "$$AbsOrRelPathParent", abspath, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); } else { result = subst_path(result, "$$AbsOrRelPathMaster", relToMasterPath, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); result = subst_path(result, "$$AbsOrRelPathParent", relToParentPath, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); } } if (what == PATHS) return result; result = subst_path(result, "$$FName", filename, use_latex_path, support::EXCLUDE_EXTENSION); result = subst_path(result, "$$Basename", basename, use_latex_path, support::PROTECT_EXTENSION, support::ESCAPE_DOTS); result = subst_path(result, "$$Extension", '.' + support::getExtension(filename), use_latex_path); result = subst_path(result, "$$Tempname", params.tempname().absFilename(), use_latex_path); result = subst_path(result, "$$Sysdir", support::package().system_support(), use_latex_path); // Handle the $$Contents(filename) syntax if (support::contains(result, "$$Contents(\"")) { string::size_type const pos = result.find("$$Contents(\""); string::size_type const end = result.find("\")", pos); string const file = result.substr(pos + 12, end - (pos + 12)); string contents; FileName const absfile( support::makeAbsPath(file, m_buffer->temppath())); if (support::isFileReadable(absfile)) contents = support::getFileContents(absfile); result = support::subst(result, ("$$Contents(\"" + file + "\")").c_str(), contents); } return result; } namespace { /** update the file represented by the template. If \p external_in_tmpdir == true, then the generated file is placed in the buffer's temporary directory. */ void updateExternal(InsetExternalParams const & params, string const & format, Buffer const & buffer, ExportData & exportdata, bool external_in_tmpdir) { Template const * const et_ptr = getTemplatePtr(params); if (!et_ptr) return; // FAILURE Template const & et = *et_ptr; if (!et.automaticProduction) return; // NOT_NEEDED Template::Formats::const_iterator cit = et.formats.find(format); if (cit == et.formats.end()) return; // FAILURE Template::Format const & outputFormat = cit->second; if (outputFormat.updateResult.empty()) return; // NOT_NEEDED string from_format = et.inputFormat; if (from_format.empty()) return; // NOT_NEEDED if (from_format == "*") { if (params.filename.empty()) return; // NOT_NEEDED // Try and ascertain the file format from its contents. from_format = formats.getFormatFromFile(params.filename); if (from_format.empty()) return; // FAILURE } string const to_format = outputFormat.updateFormat; if (to_format.empty()) return; // NOT_NEEDED if (!theConverters().isReachable(from_format, to_format)) { lyxerr[Debug::EXTERNAL] << "external::updateExternal. " << "Unable to convert from " << from_format << " to " << to_format << endl; return; // FAILURE } // The master buffer. This is useful when there are multiple levels // of include files Buffer const * m_buffer = buffer.getMasterBuffer(); // We copy the source file to the temp dir and do the conversion // there if necessary FileName const temp_file( support::makeAbsPath(params.filename.mangledFilename(), m_buffer->temppath())); if (!params.filename.empty()) { unsigned long const from_checksum = support::sum(params.filename); unsigned long const temp_checksum = support::sum(temp_file); if (from_checksum != temp_checksum) { Mover const & mover = getMover(from_format); if (!mover.copy(params.filename, temp_file)) { lyxerr[Debug::EXTERNAL] << "external::updateExternal. " << "Unable to copy " << params.filename << " to " << temp_file << endl; return; // FAILURE } } } // the generated file (always in the temp dir) string const to_file = doSubstitution(params, buffer, outputFormat.updateResult, false, true); FileName const abs_to_file( support::makeAbsPath(to_file, m_buffer->temppath())); // Record the referenced files for the exporter. // The exporter will copy them to the export dir. typedef Template::Format::FileMap FileMap; FileMap::const_iterator rit = outputFormat.referencedFiles.begin(); FileMap::const_iterator rend = outputFormat.referencedFiles.end(); for (; rit != rend; ++rit) { vector::const_iterator fit = rit->second.begin(); vector::const_iterator fend = rit->second.end(); for (; fit != fend; ++fit) { FileName const source(support::makeAbsPath( doSubstitution(params, buffer, *fit, false, true), m_buffer->temppath())); // The path of the referenced file is never the // temp path, but the filename may be the mangled // or the real name. Therefore we substitute the // paths and names separately. string file = support::subst(*fit, "$$FName", "$$FPath$$Basename$$Extension"); file = doSubstitution(params, buffer, file, false, false, PATHS); file = doSubstitution(params, buffer, file, false, external_in_tmpdir, ALL_BUT_PATHS); // if file is a relative name, it is interpreted // relative to the master document. exportdata.addExternalFile(rit->first, source, file); } } // Do we need to perform the conversion? // Yes if to_file does not exist or if from_file is newer than to_file if (support::compare_timestamps(temp_file, abs_to_file) < 0) return; // SUCCESS // FIXME (Abdel 12/08/06): Is there a need to show these errors? ErrorList el; /* bool const success = */ theConverters().convert(&buffer, temp_file, abs_to_file, params.filename, from_format, to_format, el, Converters::try_default | Converters::try_cache); // return success } string const substituteCommands(InsetExternalParams const & params, string const & input, string const & format); string const substituteOptions(InsetExternalParams const & params, string const & input, string const & format); } // namespace anon int writeExternal(InsetExternalParams const & params, string const & format, Buffer const & buffer, odocstream & os, ExportData & exportdata, bool external_in_tmpdir, bool external_in_comment) { Template const * const et_ptr = getTemplatePtr(params); if (!et_ptr) return 0; Template const & et = *et_ptr; Template::Formats::const_iterator cit = et.formats.find(format); if (cit == et.formats.end()) { lyxerr[Debug::EXTERNAL] << "External template format '" << format << "' not specified in template " << params.templatename() << endl; return 0; } if (!external_in_comment) updateExternal(params, format, buffer, exportdata, external_in_tmpdir); bool const use_latex_path = format == "LaTeX"; string str = doSubstitution(params, buffer, cit->second.product, use_latex_path, external_in_tmpdir); str = substituteCommands(params, str, format); str = substituteOptions(params, str, format); // FIXME UNICODE os << from_utf8(str); return int(lyx::count(str.begin(), str.end(),'\n')); } namespace { // Empty template, specialised below. template string const substituteIt(string const &, TransformID, string const &, Template::Format const &, InsetExternalParams const &); template <> string const substituteIt(string const & input, TransformID id, string const & /* formatname */, Template::Format const & format, InsetExternalParams const & params) { typedef std::map Transformers; Transformers::const_iterator it = format.command_transformers.find(id); if (it == format.command_transformers.end()) return input; TransformStore const & store = it->second; TransformCommand::ptr_type ptr; if (id == Rotate) ptr = store.getCommandTransformer(params.rotationdata); else if (id == Resize) ptr = store.getCommandTransformer(params.resizedata); if (!ptr.get()) return input; string result = support::subst(input, ptr->front_placeholder(), ptr->front()); return support::subst(result, ptr->back_placeholder(), ptr->back()); } template <> string const substituteIt(string const & input, TransformID id, string const & fname, Template::Format const & format, InsetExternalParams const & params) { typedef std::map Transformers; Transformers::const_iterator it = format.option_transformers.find(id); if (it == format.option_transformers.end()) return input; TransformStore const & store = it->second; TransformOption::ptr_type ptr; switch (id) { case Clip: ptr = store.getOptionTransformer(params.clipdata); break; case Extra: ptr = store.getOptionTransformer(params.extradata.get(fname)); break; case Rotate: ptr = store.getOptionTransformer(params.rotationdata); break; case Resize: ptr = store.getOptionTransformer(params.resizedata); break; } if (!ptr.get()) return input; return support::subst(input, ptr->placeholder(), ptr->option()); } template string const transformIt(InsetExternalParams const & params, string const & s, string const & formatname) { Template const * const et = getTemplatePtr(params); if (!et || et->transformIds.empty()) return s; Template::Formats::const_iterator fit = et->formats.find(formatname); if (fit == et->formats.end()) return s; string result = s; Template::Format const & format = fit->second; typedef vector TransformsIDs; TransformsIDs::const_iterator it = et->transformIds.begin(); TransformsIDs::const_iterator end = et->transformIds.end(); for (; it != end; ++it) { result = substituteIt(result, *it, formatname, format, params); } return result; } string const substituteCommands(InsetExternalParams const & params, string const & input, string const & format) { return transformIt(params, input, format); } string const substituteOption(InsetExternalParams const & params, string const & input, string const & format) { string opt = transformIt(params, input, format); if (format == "LaTeX" || format == "PDFLaTeX") return sanitizeLatexOption(opt); if (format == "DocBook") return sanitizeDocBookOption(opt); return opt; } string const substituteOptions(InsetExternalParams const & params, string const & input, string const & format) { string output = input; Template const * const et = getTemplatePtr(params); if (!et || et->transformIds.empty()) return output; Template::Formats::const_iterator fit = et->formats.find(format); if (fit == et->formats.end() || fit->second.options.empty()) return output; typedef vector Options; Options const & options = fit->second.options; Options::const_iterator it = options.begin(); Options::const_iterator end = options.end(); for (; it != end; ++it) { string const opt = substituteOption(params, it->option, format); string const placeholder = "$$" + it->name; output = support::subst(output, placeholder, opt); } return output; } } // namespace anon } // namespace external } // namespace lyx