lyx_mirror/src/insets/ExternalTemplate.cpp
Richard Heck 1b1f8dd235 Audit all the LASSERT calls, and try to do something sensible at
each failure.

There are several places I was not sure what to do. These are marked
by comments beginning "LASSERT:" so they can be found easily. At the
moment, they are at:

Author.cpp:105: // LASSERT: What should we do here?
Author.cpp:121: // LASSERT: What should we do here?
Buffer.cpp:4525:        // LASSERT: Is it safe to continue here, or should we just return?
Cursor.cpp:345:         // LASSERT: Is it safe to continue here, or should we return?
Cursor.cpp:403:         // LASSERT: Is it safe to continue here, or should we return?
Cursor.cpp:1143:                // LASSERT: There have been several bugs around this code, that seem
CursorSlice.cpp:83:     // LASSERT: This should only ever be called from an InsetMath.
CursorSlice.cpp:92:     // LASSERT: This should only ever be called from an InsetMath.
LayoutFile.cpp:303:                     // LASSERT: Why would this fail?
Text.cpp:995:           // LASSERT: Is it safe to continue here?
2013-04-25 17:27:10 -04:00

574 lines
13 KiB
C++

/**
* \file ExternalTemplate.cpp
* 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 <config.h>
#include "ExternalTemplate.h"
#include "Lexer.h"
#include "support/debug.h"
#include "support/filetools.h"
#include "support/lstrings.h"
#include "support/Package.h"
#include "support/PathChanger.h"
#include "support/Translator.h"
#include <ostream>
using namespace std;
using namespace lyx::support;
namespace lyx {
namespace external {
typedef Translator<TransformID, string> TransformIDTranslator;
static TransformIDTranslator const initIDTranslator()
{
TransformIDTranslator translator(TransformID(-1), "");
translator.addPair(Rotate, "Rotate");
translator.addPair(Resize, "Resize");
translator.addPair(Clip, "Clip");
translator.addPair(Extra, "Extra");
return translator;
}
static TransformIDTranslator const & transformIDTranslator()
{
static TransformIDTranslator const translator = initIDTranslator();
return translator;
}
// We have to have dummy default commands for security reasons!
Template::Template()
: inputFormat("*"), automaticProduction(false), preview_mode(PREVIEW_OFF)
{}
Template::Format::Format()
{}
TemplateManager::TemplateManager()
{
readTemplates(package().user_support());
if (lyxerr.debugging(Debug::EXTERNAL)) {
dumpPreambleDefs(lyxerr);
lyxerr << '\n';
dumpTemplates(lyxerr);
}
}
class DumpPreambleDef {
public:
typedef TemplateManager::PreambleDefs::value_type value_type;
DumpPreambleDef(ostream & os) : os_(os) {}
void operator()(value_type const & vt) {
os_ << "PreambleDef " << vt.first << '\n'
<< vt.second
<< "PreambleDefEnd" << endl;
}
private:
ostream & os_;
};
class DumpTemplate {
public:
typedef TemplateManager::Templates::value_type value_type;
DumpTemplate(ostream & os) : os_(os) {}
void operator()(value_type const & vt) {
Template const & et = vt.second;
os_ << "Template " << et.lyxName << '\n'
<< "\tGuiName " << et.guiName << '\n'
<< "\tHelpText\n"
<< et.helpText
<< "\tHelpTextEnd\n"
<< "\tInputFormat " << et.inputFormat << '\n'
<< "\tFileFilter " << et.fileRegExp << '\n'
<< "\tAutomaticProduction " << et.automaticProduction << '\n'
<< "\tPreview ";
switch (et.preview_mode) {
case PREVIEW_OFF:
os_ << "Off\n";
break;
case PREVIEW_GRAPHICS:
os_ << "Graphics\n";
break;
case PREVIEW_INSTANT:
os_ << "InstantPreview\n";
break;
}
typedef vector<TransformID> IDs;
IDs::const_iterator it = et.transformIds.begin();
IDs::const_iterator end = et.transformIds.end();
for (; it != end; ++it) {
os_ << "\tTransform "
<< transformIDTranslator().find(*it) << '\n';
}
et.dumpFormats(os_);
os_ << "TemplateEnd" << endl;
}
private:
ostream & os_;
};
class DumpFormat {
public:
typedef Template::Formats::value_type value_type;
DumpFormat(ostream & o) : os_(o) {}
void operator()(value_type const & vt) const {
Template::Format const & ft = vt.second;
os_ << "\tFormat " << vt.first << '\n'
<< "\t\tProduct " << ft.product << '\n'
<< "\t\tUpdateFormat " << ft.updateFormat << '\n'
<< "\t\tUpdateResult " << ft.updateResult << '\n';
vector<string>::const_iterator qit = ft.requirements.begin();
vector<string>::const_iterator qend = ft.requirements.end();
for (; qit != qend; ++qit) {
lyxerr << "req:" << *qit << endl;
os_ << "\t\tRequirement " << *qit << '\n';
}
typedef vector<Template::Option> Options;
Options::const_iterator oit = ft.options.begin();
Options::const_iterator oend = ft.options.end();
for (; oit != oend; ++oit) {
os_ << "\t\tOption "
<< oit->name
<< ": "
<< oit->option
<< '\n';
}
vector<string>::const_iterator pit = ft.preambleNames.begin();
vector<string>::const_iterator pend = ft.preambleNames.end();
for (; pit != pend; ++pit) {
os_ << "\t\tPreamble " << *pit << '\n';
}
typedef Template::Format::FileMap FileMap;
FileMap::const_iterator rit = ft.referencedFiles.begin();
FileMap::const_iterator rend = ft.referencedFiles.end();
for (; rit != rend; ++rit) {
vector<string>::const_iterator fit = rit->second.begin();
vector<string>::const_iterator fend = rit->second.end();
for (; fit != fend; ++fit) {
os_ << "\t\tReferencedFile " << rit->first
<< " \"" << *fit << "\"\n";
}
}
os_ << "\tFormatEnd\n";
}
private:
ostream & os_;
};
void Template::dumpFormats(ostream & os) const
{
for_each(formats.begin(), formats.end(), DumpFormat(os));
}
void TemplateManager::dumpPreambleDefs(ostream & os) const
{
for_each(preambledefs.begin(), preambledefs.end(), DumpPreambleDef(os));
}
void TemplateManager::dumpTemplates(ostream & os) const
{
for_each(templates.begin(), templates.end(), DumpTemplate(os));
}
TemplateManager & TemplateManager::get()
{
static TemplateManager externalTemplateManager;
return externalTemplateManager;
}
TemplateManager::Templates const & TemplateManager::getTemplates() const
{
return templates;
}
Template const *
TemplateManager::getTemplateByName(string const & name) const
{
Templates::const_iterator it = templates.find(name);
return (it == templates.end()) ? 0 : &it->second;
}
string const
TemplateManager::getPreambleDefByName(string const & name) const
{
string const trimmed_name = trim(name);
if (trimmed_name.empty())
return string();
PreambleDefs::const_iterator it = preambledefs.find(trimmed_name);
if (it == preambledefs.end())
return string();
return it->second;
}
void TemplateManager::readTemplates(FileName const & path)
{
PathChanger p(path);
enum {
TM_PREAMBLEDEF = 1,
TM_PREAMBLEDEF_END,
TM_TEMPLATE,
TM_TEMPLATE_END
};
LexerKeyword templatetags[] = {
{ "preambledef", TM_PREAMBLEDEF },
{ "preambledefend", TM_PREAMBLEDEF_END },
{ "template", TM_TEMPLATE },
{ "templateend", TM_TEMPLATE_END }
};
Lexer lex(templatetags);
FileName const filename = libFileSearch("", "external_templates");
if (filename.empty() || !lex.setFile(filename)) {
lex.printError("external::TemplateManager::readTemplates: "
"No template file");
return;
}
char const * const preamble_end_tag =
templatetags[TM_PREAMBLEDEF_END-1].tag;
while (lex.isOK()) {
switch (lex.lex()) {
case TM_PREAMBLEDEF: {
lex.next();
string const name = lex.getString();
preambledefs[name] = lex.getLongString(preamble_end_tag);
}
break;
case TM_TEMPLATE: {
lex.next();
string const name = lex.getString();
Template & tmp = templates[name];
tmp.lyxName = name;
tmp.readTemplate(lex);
}
break;
case TM_TEMPLATE_END:
lex.printError("Warning: End outside Template.");
break;
case TM_PREAMBLEDEF_END:
lex.printError("Warning: End outside PreambleDef.");
break;
}
}
}
void Template::readTemplate(Lexer & lex)
{
enum {
TO_GUINAME = 1,
TO_HELPTEXT,
TO_INPUTFORMAT,
TO_FILTER,
TO_AUTOMATIC,
TO_PREVIEW,
TO_TRANSFORM,
TO_FORMAT,
TO_END
};
LexerKeyword templateoptiontags[] = {
{ "automaticproduction", TO_AUTOMATIC },
{ "filefilter", TO_FILTER },
{ "format", TO_FORMAT },
{ "guiname", TO_GUINAME },
{ "helptext", TO_HELPTEXT },
{ "inputformat", TO_INPUTFORMAT },
{ "preview", TO_PREVIEW },
{ "templateend", TO_END },
{ "transform", TO_TRANSFORM }
};
PushPopHelper pph(lex, templateoptiontags);
lex.setContext("Template::readTemplate");
string token;
while (lex.isOK()) {
switch (lex.lex()) {
case TO_GUINAME:
lex.next(true);
guiName = lex.getString();
break;
case TO_HELPTEXT:
helpText = lex.getLongString("HelpTextEnd");
break;
case TO_INPUTFORMAT:
lex.next(true);
inputFormat = lex.getString();
break;
case TO_FILTER:
lex.next(true);
fileRegExp = lex.getString();
break;
case TO_AUTOMATIC:
lex.next();
automaticProduction = lex.getBool();
break;
case TO_PREVIEW:
lex >> token;
if (token == "InstantPreview")
preview_mode = PREVIEW_INSTANT;
else if (token == "Graphics")
preview_mode = PREVIEW_GRAPHICS;
else
preview_mode = PREVIEW_OFF;
break;
case TO_TRANSFORM: {
lex >> token;
TransformID id = transformIDTranslator().find(token);
if (int(id) == -1)
LYXERR0("Transform " << token << " is not recognized");
else
transformIds.push_back(id);
break;
}
case TO_FORMAT:
lex.next(true);
formats[lex.getString()].readFormat(lex);
break;
case TO_END:
return;
}
}
}
namespace {
void transform_not_found(ostream & os, string const & transform)
{
os << "external::Format::readFormat. Transformation \""
<< transform << "\" is unrecognized." << endl;
}
void transform_class_not_found(ostream & os, string const & tclass)
{
os << "external::Format::readFormat. Transformation class \""
<< tclass << "\" is unrecognized." << endl;
}
void setCommandFactory(Template::Format & format, string const & transform,
string const & transformer_class)
{
bool class_found = false;
if (transform == "Resize" && transformer_class == "ResizeLatexCommand") {
class_found = true;
ResizeCommandFactory factory = ResizeLatexCommand::factory;
format.command_transformers[Resize] =
TransformStore(Resize, factory);
} else if (transform == "Rotate" &&
transformer_class == "RotationLatexCommand") {
class_found = true;
RotationCommandFactory factory = RotationLatexCommand::factory;
format.command_transformers[Rotate] =
TransformStore(Rotate, factory);
} else
transform_not_found(lyxerr, transform);
if (!class_found)
transform_class_not_found(lyxerr, transformer_class);
}
void setOptionFactory(Template::Format & format, string const & transform,
string const & transformer_class)
{
bool class_found = false;
if (transform == "Clip" && transformer_class == "ClipLatexOption") {
class_found = true;
ClipOptionFactory factory = ClipLatexOption::factory;
format.option_transformers[Clip] =
TransformStore(Clip, factory);
} else if (transform == "Extra" && transformer_class == "ExtraOption") {
class_found = true;
ExtraOptionFactory factory = ExtraOption::factory;
format.option_transformers[Extra] =
TransformStore(Extra, factory);
} else if (transform == "Resize" &&
transformer_class == "ResizeLatexOption") {
class_found = true;
ResizeOptionFactory factory = ResizeLatexOption::factory;
format.option_transformers[Resize] =
TransformStore(Resize, factory);
} else if (transform == "Rotate" &&
transformer_class == "RotationLatexOption") {
class_found = true;
RotationOptionFactory factory = RotationLatexOption::factory;
format.option_transformers[Rotate] =
TransformStore(Rotate, factory);
} else
transform_not_found(lyxerr, transform);
if (!class_found)
transform_class_not_found(lyxerr, transformer_class);
}
} // namespace anon
void Template::Format::readFormat(Lexer & lex)
{
enum {
FO_PRODUCT = 1,
FO_UPDATEFORMAT,
FO_UPDATERESULT,
FO_REQUIREMENT,
FO_OPTION,
FO_PREAMBLE,
FO_TRANSFORMCOMMAND,
FO_TRANSFORMOPTION,
FO_REFERENCEDFILE,
FO_END
};
LexerKeyword formattags[] = {
{ "formatend", FO_END },
{ "option", FO_OPTION },
{ "preamble", FO_PREAMBLE },
{ "product", FO_PRODUCT },
{ "referencedfile", FO_REFERENCEDFILE },
{ "requirement", FO_REQUIREMENT },
{ "transformcommand", FO_TRANSFORMCOMMAND },
{ "transformoption", FO_TRANSFORMOPTION },
{ "updateformat", FO_UPDATEFORMAT },
{ "updateresult", FO_UPDATERESULT }
};
PushPopHelper pph(lex, formattags);
while (lex.isOK()) {
switch (lex.lex()) {
case FO_PRODUCT:
lex.next(true);
product = lex.getString();
break;
case FO_UPDATEFORMAT:
lex.next(true);
updateFormat = lex.getString();
break;
case FO_UPDATERESULT:
lex.next(true);
updateResult = lex.getString();
break;
case FO_REQUIREMENT:
lex.next(true);
requirements.push_back(lex.getString());
break;
case FO_PREAMBLE:
lex.next(true);
preambleNames.push_back(lex.getString());
break;
case FO_TRANSFORMCOMMAND: {
lex.next(true);
string const name = lex.getString();
lex.next(true);
setCommandFactory(*this, name, lex.getString());
break;
}
case FO_TRANSFORMOPTION: {
lex.next(true);
string const name = lex.getString();
lex.next(true);
setOptionFactory(*this, name, lex.getString());
break;
}
case FO_OPTION: {
lex.next(true);
string const name = lex.getString();
lex.next(true);
string const opt = lex.getString();
options.push_back(Option(name, opt));
break;
}
case FO_REFERENCEDFILE: {
lex.next(true);
string const format = lex.getString();
lex.next(true);
string const file = lex.getString();
referencedFiles[format].push_back(file);
break;
}
case FO_END:
return;
}
}
}
} // namespace external
} // namespace lyx