lyx_mirror/src/output_xhtml.cpp
Georg Baum 79f11f4e7d Fix std::string docstream output error
This was made visible by aab1b145a5, since xhtml export for
lib/doc/Additional.lyx caused an exception. However, the cause for this was
already present earlier: All attempts to output a std::string to an
odocstream resulted in trying to change the encoding of the stream instead,
since there is no operator<<(odocstream &, std::string) defined, and an
implicit conversion to SetEnc happened instead.
This is fixed by making the SetEnc constructor explicit and adjusting all
code parts that did not compile anymore after that. The parts of the code
that did use the wrong output operator were the std::string version of
htmlize() from output_xhtml.cpp and all changed parts in the other .cpp files.
I also removed the std::string versions of html::htmlize() and
html::cleanAttr(), since it was difficult to see which encodings were used
with these. Now we are always explcit when using html::cleanAttr() and
html::htmlize().
2015-10-15 20:52:28 +02:00

1178 lines
29 KiB
C++

/**
* \file output_xhtml.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Richard Heck
*
* This code is based upon output_docbook.cpp
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "output_xhtml.h"
#include "Buffer.h"
#include "buffer_funcs.h"
#include "BufferParams.h"
#include "Counters.h"
#include "Font.h"
#include "Layout.h"
#include "OutputParams.h"
#include "Paragraph.h"
#include "ParagraphList.h"
#include "ParagraphParameters.h"
#include "sgml.h"
#include "Text.h"
#include "TextClass.h"
#include "support/convert.h"
#include "support/debug.h"
#include "support/lassert.h"
#include "support/lstrings.h"
#include "support/textutils.h"
#include <vector>
// Uncomment to activate debugging code.
// #define XHTML_DEBUG
using namespace std;
using namespace lyx::support;
namespace lyx {
namespace html {
docstring escapeChar(char_type c, XHTMLStream::EscapeSettings e)
{
docstring str;
switch (e) {
case XHTMLStream::ESCAPE_NONE:
str += c;
break;
case XHTMLStream::ESCAPE_ALL:
if (c == '<') {
str += "&lt;";
break;
} else if (c == '>') {
str += "&gt;";
break;
}
// fall through
case XHTMLStream::ESCAPE_AND:
if (c == '&')
str += "&amp;";
else
str +=c ;
break;
}
return str;
}
// escape what needs escaping
docstring htmlize(docstring const & str, XHTMLStream::EscapeSettings e)
{
odocstringstream d;
docstring::const_iterator it = str.begin();
docstring::const_iterator en = str.end();
for (; it != en; ++it)
d << escapeChar(*it, e);
return d.str();
}
docstring escapeChar(char c, XHTMLStream::EscapeSettings e)
{
LATTEST(static_cast<unsigned char>(c) < 0x80);
return escapeChar(static_cast<char_type>(c), e);
}
docstring cleanAttr(docstring const & str)
{
docstring newname;
docstring::const_iterator it = str.begin();
docstring::const_iterator en = str.end();
for (; it != en; ++it) {
char_type const c = *it;
newname += isAlnumASCII(c) ? c : char_type('_');
}
return newname;
}
docstring StartTag::writeTag() const
{
docstring output = '<' + from_utf8(tag_);
if (!attr_.empty())
output += ' ' + html::htmlize(from_utf8(attr_), XHTMLStream::ESCAPE_NONE);
output += ">";
return output;
}
docstring StartTag::writeEndTag() const
{
string output = "</" + tag_ + ">";
return from_utf8(output);
}
bool StartTag::operator==(FontTag const & rhs) const
{
return rhs == *this;
}
docstring EndTag::writeEndTag() const
{
string output = "</" + tag_ + ">";
return from_utf8(output);
}
docstring ParTag::writeTag() const
{
docstring output = StartTag::writeTag();
if (parid_.empty())
return output;
string const pattr = "id='" + parid_ + "'";
output += html::CompTag("a", pattr).writeTag();
return output;
}
docstring CompTag::writeTag() const
{
docstring output = '<' + from_utf8(tag_);
if (!attr_.empty())
output += ' ' + html::htmlize(from_utf8(attr_), XHTMLStream::ESCAPE_NONE);
output += " />";
return output;
}
namespace {
string fontToTag(html::FontTypes type)
{
switch(type) {
case FT_EMPH:
return "em";
case FT_BOLD:
return "b";
case FT_NOUN:
return "dfn";
case FT_UBAR:
case FT_WAVE:
case FT_DBAR:
return "u";
case FT_SOUT:
return "del";
case FT_ITALIC:
return "i";
case FT_UPRIGHT:
case FT_SLANTED:
case FT_SMALLCAPS:
case FT_ROMAN:
case FT_SANS:
case FT_TYPE:
case FT_SIZE_TINY:
case FT_SIZE_SCRIPT:
case FT_SIZE_FOOTNOTE:
case FT_SIZE_SMALL:
case FT_SIZE_NORMAL:
case FT_SIZE_LARGE:
case FT_SIZE_LARGER:
case FT_SIZE_LARGEST:
case FT_SIZE_HUGE:
case FT_SIZE_HUGER:
case FT_SIZE_INCREASE:
case FT_SIZE_DECREASE:
return "span";
}
// kill warning
return "";
}
string fontToAttribute(html::FontTypes type)
{
switch(type) {
case FT_EMPH:
case FT_BOLD:
return "";
case FT_NOUN:
return "class='lyxnoun'";
case FT_UBAR:
return "";
case FT_DBAR:
return "class='dline'";
case FT_SOUT:
return "class='strikeout'";
case FT_WAVE:
return "class='wline'";
case FT_ITALIC:
return "";
case FT_UPRIGHT:
return "style='font-style:normal;'";
case FT_SLANTED:
return "style='font-style:oblique;'";
case FT_SMALLCAPS:
return "style='font-variant:small-caps;'";
case FT_ROMAN:
return "style='font-family:serif;'";
case FT_SANS:
return "style='font-family:sans-serif;'";
case FT_TYPE:
return "style='font-family:monospace;'";
case FT_SIZE_TINY:
case FT_SIZE_SCRIPT:
case FT_SIZE_FOOTNOTE:
return "style='font-size:x-small;'";
case FT_SIZE_SMALL:
return "style='font-size:small;'";
case FT_SIZE_NORMAL:
return "style='font-size:normal;'";
case FT_SIZE_LARGE:
return "style='font-size:large;'";
case FT_SIZE_LARGER:
case FT_SIZE_LARGEST:
return "style='font-size:x-large;'";
case FT_SIZE_HUGE:
case FT_SIZE_HUGER:
return "style='font-size:xx-large;'";
case FT_SIZE_INCREASE:
return "style='font-size:larger;'";
case FT_SIZE_DECREASE:
return "style='font-size:smaller;'";
}
// kill warning
return "";
}
} // end anonymous namespace
FontTag::FontTag(FontTypes type)
: StartTag(fontToTag(type), fontToAttribute(type)), font_type_(type)
{}
bool FontTag::operator==(StartTag const & tag) const
{
FontTag const * const ftag = tag.asFontTag();
if (!ftag)
return false;
return (font_type_ == ftag->font_type_);
}
EndFontTag::EndFontTag(FontTypes type)
: EndTag(fontToTag(type)), font_type_(type)
{}
} // namespace html
////////////////////////////////////////////////////////////////
///
/// XHTMLStream
///
////////////////////////////////////////////////////////////////
XHTMLStream::XHTMLStream(odocstream & os)
: os_(os), escape_(ESCAPE_ALL)
{}
#ifdef XHTML_DEBUG
void XHTMLStream::dumpTagStack(string const & msg) const
{
writeError(msg + ": Tag Stack");
TagStack::const_reverse_iterator it = tag_stack_.rbegin();
TagStack::const_reverse_iterator en = tag_stack_.rend();
for (; it != en; ++it) {
writeError(it->tag_);
}
writeError("Pending Tags");
it = pending_tags_.rbegin();
en = pending_tags_.rend();
for (; it != en; ++it) {
writeError(it->tag_);
}
writeError("End Tag Stack");
}
#endif
void XHTMLStream::writeError(std::string const & s) const
{
LYXERR0(s);
os_ << from_utf8("<!-- Output Error: " + s + " -->\n");
}
namespace {
// an illegal tag for internal use
static html::StartTag const parsep_tag("&LyX_parsep_tag&");
}
bool XHTMLStream::closeFontTags()
{
if (isTagPending(parsep_tag))
// we haven't had any content
return true;
// this may be a useless check, since we ought at least to have
// the parsep_tag. but it can't hurt too much to be careful.
if (tag_stack_.empty())
return true;
// first, we close any open font tags we can close
TagPtr curtag = tag_stack_.back();
while (curtag->asFontTag()) {
os_ << curtag->writeEndTag();
tag_stack_.pop_back();
// this shouldn't happen, since then the font tags
// weren't in any other tag.
LBUFERR(!tag_stack_.empty());
curtag = tag_stack_.back();
}
if (*curtag == parsep_tag)
return true;
// so we've hit a non-font tag.
writeError("Tags still open in closeFontTags(). Probably not a problem,\n"
"but you might want to check these tags:");
TagDeque::const_reverse_iterator it = tag_stack_.rbegin();
TagDeque::const_reverse_iterator const en = tag_stack_.rend();
for (; it != en; ++it) {
if (**it == parsep_tag)
break;
writeError((*it)->tag_);
}
return false;
}
void XHTMLStream::startParagraph(bool keep_empty)
{
pending_tags_.push_back(makeTagPtr(html::StartTag(parsep_tag)));
if (keep_empty)
clearTagDeque();
}
void XHTMLStream::endParagraph()
{
if (isTagPending(parsep_tag)) {
// this case is normal. it just means we didn't have content,
// so the parsep_tag never got moved onto the tag stack.
while (!pending_tags_.empty()) {
// clear all pending tags up to and including the parsep tag.
// note that we work from the back, because we want to get rid
// of everything that hasn't been used.
TagPtr const cur_tag = pending_tags_.back();
pending_tags_.pop_back();
if (*cur_tag == parsep_tag)
break;
}
return;
}
if (!isTagOpen(parsep_tag)) {
writeError("No paragraph separation tag found in endParagraph().");
return;
}
// this case is also normal, if the parsep tag is the last one
// on the stack. otherwise, it's an error.
while (!tag_stack_.empty()) {
TagPtr const cur_tag = tag_stack_.back();
tag_stack_.pop_back();
if (*cur_tag == parsep_tag)
break;
writeError("Tag `" + cur_tag->tag_ + "' still open at end of paragraph. Closing.");
os_ << cur_tag->writeEndTag();
}
}
void XHTMLStream::clearTagDeque()
{
while (!pending_tags_.empty()) {
TagPtr const tag = pending_tags_.front();
if (*tag != parsep_tag)
// tabs?
os_ << tag->writeTag();
tag_stack_.push_back(tag);
pending_tags_.pop_front();
}
}
XHTMLStream & XHTMLStream::operator<<(docstring const & d)
{
clearTagDeque();
os_ << html::htmlize(d, escape_);
escape_ = ESCAPE_ALL;
return *this;
}
XHTMLStream & XHTMLStream::operator<<(const char * s)
{
clearTagDeque();
docstring const d = from_ascii(s);
os_ << html::htmlize(d, escape_);
escape_ = ESCAPE_ALL;
return *this;
}
XHTMLStream & XHTMLStream::operator<<(char_type c)
{
clearTagDeque();
os_ << html::escapeChar(c, escape_);
escape_ = ESCAPE_ALL;
return *this;
}
XHTMLStream & XHTMLStream::operator<<(char c)
{
clearTagDeque();
os_ << html::escapeChar(c, escape_);
escape_ = ESCAPE_ALL;
return *this;
}
XHTMLStream & XHTMLStream::operator<<(int i)
{
clearTagDeque();
os_ << i;
escape_ = ESCAPE_ALL;
return *this;
}
XHTMLStream & XHTMLStream::operator<<(EscapeSettings e)
{
escape_ = e;
return *this;
}
XHTMLStream & XHTMLStream::operator<<(html::StartTag const & tag)
{
if (tag.tag_.empty())
return *this;
pending_tags_.push_back(makeTagPtr(tag));
if (tag.keepempty_)
clearTagDeque();
return *this;
}
XHTMLStream & XHTMLStream::operator<<(html::ParTag const & tag)
{
if (tag.tag_.empty())
return *this;
pending_tags_.push_back(makeTagPtr(tag));
return *this;
}
XHTMLStream & XHTMLStream::operator<<(html::CompTag const & tag)
{
if (tag.tag_.empty())
return *this;
clearTagDeque();
os_ << tag.writeTag();
*this << html::CR();
return *this;
}
XHTMLStream & XHTMLStream::operator<<(html::FontTag const & tag)
{
if (tag.tag_.empty())
return *this;
pending_tags_.push_back(makeTagPtr(tag));
return *this;
}
XHTMLStream & XHTMLStream::operator<<(html::CR const &)
{
// tabs?
os_ << from_ascii("\n");
return *this;
}
bool XHTMLStream::isTagOpen(html::StartTag const & stag) const
{
TagDeque::const_iterator sit = tag_stack_.begin();
TagDeque::const_iterator const sen = tag_stack_.end();
for (; sit != sen; ++sit)
if (**sit == stag)
return true;
return false;
}
bool XHTMLStream::isTagOpen(html::EndTag const & etag) const
{
TagDeque::const_iterator sit = tag_stack_.begin();
TagDeque::const_iterator const sen = tag_stack_.end();
for (; sit != sen; ++sit)
if (etag == **sit)
return true;
return false;
}
bool XHTMLStream::isTagPending(html::StartTag const & stag) const
{
TagDeque::const_iterator sit = pending_tags_.begin();
TagDeque::const_iterator const sen = pending_tags_.end();
for (; sit != sen; ++sit)
if (**sit == stag)
return true;
return false;
}
// this is complicated, because we want to make sure that
// everything is properly nested. the code ought to make
// sure of that, but we won't assert (yet) if we run into
// a problem. we'll just output error messages and try our
// best to make things work.
XHTMLStream & XHTMLStream::operator<<(html::EndTag const & etag)
{
if (etag.tag_.empty())
return *this;
// if this tag is pending, we can simply discard it.
if (!pending_tags_.empty()) {
if (etag == *pending_tags_.back()) {
// we have <tag></tag>, so we discard it and remove it
// from the pending_tags_.
pending_tags_.pop_back();
return *this;
}
// there is a pending tag that isn't the one we are trying
// to close.
// is this tag itself pending?
// non-const iterators because we may call erase().
TagDeque::iterator dit = pending_tags_.begin();
TagDeque::iterator const den = pending_tags_.end();
for (; dit != den; ++dit) {
if (etag == **dit) {
// it was pending, so we just erase it
writeError("Tried to close pending tag `" + etag.tag_
+ "' when other tags were pending. Last pending tag is `"
+ to_utf8(pending_tags_.back()->writeTag())
+ "'. Tag discarded.");
pending_tags_.erase(dit);
return *this;
}
}
// so etag isn't itself pending. is it even open?
if (!isTagOpen(etag)) {
writeError("Tried to close `" + etag.tag_
+ "' when tag was not open. Tag discarded.");
return *this;
}
// ok, so etag is open.
// our strategy will be as below: we will do what we need to
// do to close this tag.
string estr = "Closing tag `" + etag.tag_
+ "' when other tags are pending. Discarded pending tags:\n";
for (dit = pending_tags_.begin(); dit != den; ++dit)
estr += to_utf8(html::htmlize((*dit)->writeTag(), XHTMLStream::ESCAPE_ALL)) + "\n";
writeError(estr);
// clear the pending tags...
pending_tags_.clear();
// ...and then just fall through.
}
// make sure there are tags to be closed
if (tag_stack_.empty()) {
writeError("Tried to close `" + etag.tag_
+ "' when no tags were open!");
return *this;
}
// is the tag we are closing the last one we opened?
if (etag == *tag_stack_.back()) {
// output it...
os_ << etag.writeEndTag();
// ...and forget about it
tag_stack_.pop_back();
return *this;
}
// we are trying to close a tag other than the one last opened.
// let's first see if this particular tag is still open somehow.
if (!isTagOpen(etag)) {
writeError("Tried to close `" + etag.tag_
+ "' when tag was not open. Tag discarded.");
return *this;
}
// so the tag was opened, but other tags have been opened since
// and not yet closed.
// if it's a font tag, though...
if (etag.asFontTag()) {
// it won't be a problem if the other tags open since this one
// are also font tags.
TagDeque::const_reverse_iterator rit = tag_stack_.rbegin();
TagDeque::const_reverse_iterator ren = tag_stack_.rend();
for (; rit != ren; ++rit) {
if (etag == **rit)
break;
if (!(*rit)->asFontTag()) {
// we'll just leave it and, presumably, have to close it later.
writeError("Unable to close font tag `" + etag.tag_
+ "' due to open non-font tag `" + (*rit)->tag_ + "'.");
return *this;
}
}
// so we have e.g.:
// <em>this is <strong>bold
// and are being asked to closed em. we want:
// <em>this is <strong>bold</strong></em><strong>
// first, we close the intervening tags...
TagPtr curtag = tag_stack_.back();
// ...remembering them in a stack.
TagDeque fontstack;
while (etag != *curtag) {
os_ << curtag->writeEndTag();
fontstack.push_back(curtag);
tag_stack_.pop_back();
curtag = tag_stack_.back();
}
os_ << etag.writeEndTag();
tag_stack_.pop_back();
// ...and restore the other tags.
rit = fontstack.rbegin();
ren = fontstack.rend();
for (; rit != ren; ++rit)
pending_tags_.push_back(*rit);
return *this;
}
// it wasn't a font tag.
// so other tags were opened before this one and not properly closed.
// so we'll close them, too. that may cause other issues later, but it
// at least guarantees proper nesting.
writeError("Closing tag `" + etag.tag_
+ "' when other tags are open, namely:");
TagPtr curtag = tag_stack_.back();
while (etag != *curtag) {
writeError(curtag->tag_);
if (*curtag != parsep_tag)
os_ << curtag->writeEndTag();
tag_stack_.pop_back();
curtag = tag_stack_.back();
}
// curtag is now the one we actually want.
os_ << curtag->writeEndTag();
tag_stack_.pop_back();
return *this;
}
// End code for XHTMLStream
namespace {
// convenience functions
inline void openParTag(XHTMLStream & xs, Layout const & lay,
std::string parlabel)
{
xs << html::ParTag(lay.htmltag(), lay.htmlattr(), parlabel);
}
void openParTag(XHTMLStream & xs, Layout const & lay,
ParagraphParameters const & params,
std::string parlabel)
{
// FIXME Are there other things we should handle here?
string const align = alignmentToCSS(params.align());
if (align.empty()) {
openParTag(xs, lay, parlabel);
return;
}
string attrs = lay.htmlattr() + " style='text-align: " + align + ";'";
xs << html::ParTag(lay.htmltag(), attrs, parlabel);
}
inline void closeTag(XHTMLStream & xs, Layout const & lay)
{
xs << html::EndTag(lay.htmltag());
}
inline void openLabelTag(XHTMLStream & xs, Layout const & lay)
{
xs << html::StartTag(lay.htmllabeltag(), lay.htmllabelattr());
}
inline void closeLabelTag(XHTMLStream & xs, Layout const & lay)
{
xs << html::EndTag(lay.htmllabeltag());
}
inline void openItemTag(XHTMLStream & xs, Layout const & lay)
{
xs << html::StartTag(lay.htmlitemtag(), lay.htmlitemattr(), true);
}
void openItemTag(XHTMLStream & xs, Layout const & lay,
ParagraphParameters const & params)
{
// FIXME Are there other things we should handle here?
string const align = alignmentToCSS(params.align());
if (align.empty()) {
openItemTag(xs, lay);
return;
}
string attrs = lay.htmlattr() + " style='text-align: " + align + ";'";
xs << html::StartTag(lay.htmlitemtag(), attrs);
}
inline void closeItemTag(XHTMLStream & xs, Layout const & lay)
{
xs << html::EndTag(lay.htmlitemtag());
}
// end of convenience functions
ParagraphList::const_iterator findLastParagraph(
ParagraphList::const_iterator p,
ParagraphList::const_iterator const & pend)
{
for (++p; p != pend && p->layout().latextype == LATEX_PARAGRAPH; ++p)
;
return p;
}
ParagraphList::const_iterator findEndOfEnvironment(
ParagraphList::const_iterator const & pstart,
ParagraphList::const_iterator const & pend)
{
ParagraphList::const_iterator p = pstart;
Layout const & bstyle = p->layout();
size_t const depth = p->params().depth();
for (++p; p != pend; ++p) {
Layout const & style = p->layout();
// It shouldn't happen that e.g. a section command occurs inside
// a quotation environment, at a higher depth, but as of 6/2009,
// it can happen. We pretend that it's just at lowest depth.
if (style.latextype == LATEX_COMMAND)
return p;
// If depth is down, we're done
if (p->params().depth() < depth)
return p;
// If depth is up, we're not done
if (p->params().depth() > depth)
continue;
// FIXME I am not sure about the first check.
// Surely we *could* have different layouts that count as
// LATEX_PARAGRAPH, right?
if (style.latextype == LATEX_PARAGRAPH || style != bstyle)
return p;
}
return pend;
}
ParagraphList::const_iterator makeParagraphs(Buffer const & buf,
XHTMLStream & xs,
OutputParams const & runparams,
Text const & text,
ParagraphList::const_iterator const & pbegin,
ParagraphList::const_iterator const & pend)
{
ParagraphList::const_iterator const begin = text.paragraphs().begin();
ParagraphList::const_iterator par = pbegin;
for (; par != pend; ++par) {
Layout const & lay = par->layout();
if (!lay.counter.empty())
buf.masterBuffer()->params().
documentClass().counters().step(lay.counter, OutputUpdate);
// FIXME We should see if there's a label to be output and
// do something with it.
if (par != pbegin)
xs << html::CR();
// If we are already in a paragraph, and this is the first one, then we
// do not want to open the paragraph tag.
// we also do not want to open it if the current layout does not permit
// multiple paragraphs.
bool const opened = runparams.html_make_pars &&
(par != pbegin || !runparams.html_in_par);
bool const make_parid = !runparams.for_toc && runparams.html_make_pars;
if (opened)
openParTag(xs, lay, par->params(),
make_parid ? par->magicLabel() : "");
docstring const deferred =
par->simpleLyXHTMLOnePar(buf, xs, runparams, text.outerFont(distance(begin, par)));
// We want to issue the closing tag if either:
// (i) We opened it, and either html_in_par is false,
// or we're not in the last paragraph, anyway.
// (ii) We didn't open it and html_in_par is true,
// but we are in the first par, and there is a next par.
ParagraphList::const_iterator nextpar = par;
++nextpar;
bool const needclose =
(opened && (!runparams.html_in_par || nextpar != pend))
|| (!opened && runparams.html_in_par && par == pbegin && nextpar != pend);
if (needclose) {
closeTag(xs, lay);
xs << html::CR();
}
if (!deferred.empty()) {
xs << XHTMLStream::ESCAPE_NONE << deferred << html::CR();
}
}
return pend;
}
ParagraphList::const_iterator makeBibliography(Buffer const & buf,
XHTMLStream & xs,
OutputParams const & runparams,
Text const & text,
ParagraphList::const_iterator const & pbegin,
ParagraphList::const_iterator const & pend)
{
// FIXME XHTML
// Use TextClass::htmlTOCLayout() to figure out how we should look.
xs << html::StartTag("h2", "class='bibliography'")
<< pbegin->layout().labelstring(false)
<< html::EndTag("h2")
<< html::CR()
<< html::StartTag("div", "class='bibliography'")
<< html::CR();
makeParagraphs(buf, xs, runparams, text, pbegin, pend);
xs << html::EndTag("div");
return pend;
}
bool isNormalEnv(Layout const & lay)
{
return lay.latextype == LATEX_ENVIRONMENT
|| lay.latextype == LATEX_BIB_ENVIRONMENT;
}
ParagraphList::const_iterator makeEnvironment(Buffer const & buf,
XHTMLStream & xs,
OutputParams const & runparams,
Text const & text,
ParagraphList::const_iterator const & pbegin,
ParagraphList::const_iterator const & pend)
{
ParagraphList::const_iterator const begin = text.paragraphs().begin();
ParagraphList::const_iterator par = pbegin;
Layout const & bstyle = par->layout();
depth_type const origdepth = pbegin->params().depth();
// open tag for this environment
openParTag(xs, bstyle, pbegin->magicLabel());
xs << html::CR();
// we will on occasion need to remember a layout from before.
Layout const * lastlay = 0;
while (par != pend) {
Layout const & style = par->layout();
// the counter only gets stepped if we're in some kind of list,
// or if it's the first time through.
// note that enum, etc, are handled automatically.
// FIXME There may be a bug here about user defined enumeration
// types. If so, then we'll need to take the counter and add "i",
// "ii", etc, as with enum.
Counters & cnts = buf.masterBuffer()->params().documentClass().counters();
docstring const & cntr = style.counter;
if (!style.counter.empty()
&& (par == pbegin || !isNormalEnv(style))
&& cnts.hasCounter(cntr)
)
cnts.step(cntr, OutputUpdate);
ParagraphList::const_iterator send;
switch (style.latextype) {
case LATEX_ENVIRONMENT:
case LATEX_LIST_ENVIRONMENT:
case LATEX_ITEM_ENVIRONMENT: {
// There are two possiblities in this case.
// One is that we are still in the environment in which we
// started---which we will be if the depth is the same.
if (par->params().depth() == origdepth) {
LATTEST(bstyle == style);
if (lastlay != 0) {
closeItemTag(xs, *lastlay);
lastlay = 0;
}
// this will be positive, if we want to skip the
// initial word (if it's been taken for the label).
pos_type sep = 0;
bool const labelfirst = style.htmllabelfirst();
if (!labelfirst)
openItemTag(xs, style, par->params());
// label output
if (style.labeltype != LABEL_NO_LABEL &&
style.htmllabeltag() != "NONE") {
if (isNormalEnv(style)) {
// in this case, we print the label only for the first
// paragraph (as in a theorem).
if (par == pbegin) {
docstring const lbl =
pbegin->params().labelString();
if (!lbl.empty()) {
openLabelTag(xs, style);
xs << lbl;
closeLabelTag(xs, style);
}
xs << html::CR();
}
} else { // some kind of list
if (style.labeltype == LABEL_MANUAL) {
openLabelTag(xs, style);
sep = par->firstWordLyXHTML(xs, runparams);
closeLabelTag(xs, style);
xs << html::CR();
}
else {
openLabelTag(xs, style);
xs << par->params().labelString();
closeLabelTag(xs, style);
xs << html::CR();
}
}
} // end label output
if (labelfirst)
openItemTag(xs, style, par->params());
par->simpleLyXHTMLOnePar(buf, xs, runparams,
text.outerFont(distance(begin, par)), sep);
++par;
// We may not want to close the tag yet, in particular:
// If we're not at the end...
if (par != pend
// and are doing items...
&& !isNormalEnv(style)
// and if the depth has changed...
&& par->params().depth() != origdepth) {
// then we'll save this layout for later, and close it when
// we get another item.
lastlay = &style;
} else
closeItemTag(xs, style);
xs << html::CR();
}
// The other possibility is that the depth has increased, in which
// case we need to recurse.
else {
send = findEndOfEnvironment(par, pend);
par = makeEnvironment(buf, xs, runparams, text, par, send);
}
break;
}
case LATEX_PARAGRAPH:
send = findLastParagraph(par, pend);
par = makeParagraphs(buf, xs, runparams, text, par, send);
break;
// Shouldn't happen
case LATEX_BIB_ENVIRONMENT:
send = par;
++send;
par = makeParagraphs(buf, xs, runparams, text, par, send);
break;
// Shouldn't happen
case LATEX_COMMAND:
++par;
break;
}
}
if (lastlay != 0)
closeItemTag(xs, *lastlay);
closeTag(xs, bstyle);
xs << html::CR();
return pend;
}
void makeCommand(Buffer const & buf,
XHTMLStream & xs,
OutputParams const & runparams,
Text const & text,
ParagraphList::const_iterator const & pbegin)
{
Layout const & style = pbegin->layout();
if (!style.counter.empty())
buf.masterBuffer()->params().
documentClass().counters().step(style.counter, OutputUpdate);
bool const make_parid = !runparams.for_toc && runparams.html_make_pars;
openParTag(xs, style, pbegin->params(),
make_parid ? pbegin->magicLabel() : "");
// Label around sectioning number:
// FIXME Probably need to account for LABEL_MANUAL
// FIXME Probably also need now to account for labels ABOVE and CENTERED.
if (style.labeltype != LABEL_NO_LABEL) {
openLabelTag(xs, style);
xs << pbegin->params().labelString();
closeLabelTag(xs, style);
// Otherwise the label might run together with the text
xs << from_ascii(" ");
}
ParagraphList::const_iterator const begin = text.paragraphs().begin();
pbegin->simpleLyXHTMLOnePar(buf, xs, runparams,
text.outerFont(distance(begin, pbegin)));
closeTag(xs, style);
xs << html::CR();
}
} // end anonymous namespace
void xhtmlParagraphs(Text const & text,
Buffer const & buf,
XHTMLStream & xs,
OutputParams const & runparams)
{
ParagraphList const & paragraphs = text.paragraphs();
if (runparams.par_begin == runparams.par_end) {
runparams.par_begin = 0;
runparams.par_end = paragraphs.size();
}
pit_type bpit = runparams.par_begin;
pit_type const epit = runparams.par_end;
LASSERT(bpit < epit,
{ xs << XHTMLStream::ESCAPE_NONE << "<!-- XHTML output error! -->\n"; return; });
OutputParams ourparams = runparams;
ParagraphList::const_iterator const pend =
(epit == (int) paragraphs.size()) ?
paragraphs.end() : paragraphs.constIterator(epit);
while (bpit < epit) {
ParagraphList::const_iterator par = paragraphs.constIterator(bpit);
if (par->params().startOfAppendix()) {
// We want to reset the counter corresponding to toplevel sectioning
Layout const & lay =
buf.masterBuffer()->params().documentClass().getTOCLayout();
docstring const cnt = lay.counter;
if (!cnt.empty()) {
Counters & cnts =
buf.masterBuffer()->params().documentClass().counters();
cnts.reset(cnt);
}
}
Layout const & style = par->layout();
ParagraphList::const_iterator const lastpar = par;
ParagraphList::const_iterator send;
switch (style.latextype) {
case LATEX_COMMAND: {
// The files with which we are working never have more than
// one paragraph in a command structure.
// FIXME
// if (ourparams.html_in_par)
// fix it so we don't get sections inside standard, e.g.
// note that we may then need to make runparams not const, so we
// can communicate that back.
// FIXME Maybe this fix should be in the routines themselves, in case
// they are called from elsewhere.
makeCommand(buf, xs, ourparams, text, par);
++par;
break;
}
case LATEX_ENVIRONMENT:
case LATEX_LIST_ENVIRONMENT:
case LATEX_ITEM_ENVIRONMENT: {
// FIXME Same fix here.
send = findEndOfEnvironment(par, pend);
par = makeEnvironment(buf, xs, ourparams, text, par, send);
break;
}
case LATEX_BIB_ENVIRONMENT: {
// FIXME Same fix here.
send = findEndOfEnvironment(par, pend);
par = makeBibliography(buf, xs, ourparams, text, par, send);
break;
}
case LATEX_PARAGRAPH:
send = findLastParagraph(par, pend);
par = makeParagraphs(buf, xs, ourparams, text, par, send);
break;
}
bpit += distance(lastpar, par);
}
}
string alignmentToCSS(LyXAlignment align)
{
switch (align) {
case LYX_ALIGN_BLOCK:
// we are NOT going to use text-align: justify!!
case LYX_ALIGN_LEFT:
return "left";
case LYX_ALIGN_RIGHT:
return "right";
case LYX_ALIGN_CENTER:
return "center";
default:
break;
}
return "";
}
} // namespace lyx