lyx_mirror/src/mathed/math_hullinset.C

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/**
* \file math_hullinset.C
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Andr<EFBFBD> P<EFBFBD>nitz
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "math_charinset.h"
#include "math_data.h"
#include "math_extern.h"
#include "math_hullinset.h"
#include "math_mathmlstream.h"
#include "math_streamstr.h"
#include "math_support.h"
#include "BufferView.h"
#include "CutAndPaste.h"
#include "LColor.h"
#include "LaTeXFeatures.h"
#include "cursor.h"
#include "debug.h"
#include "dispatchresult.h"
#include "funcrequest.h"
#include "gettext.h"
#include "lyx_main.h"
#include "lyxrc.h"
#include "outputparams.h"
#include "textpainter.h"
#include "undo.h"
#include "insets/render_preview.h"
#include "frontends/Alert.h"
#include "graphics/PreviewImage.h"
#include "graphics/PreviewLoader.h"
#include <boost/bind.hpp>
#include <sstream>
using lyx::cap::grabAndEraseSelection;
using std::endl;
using std::max;
using std::string;
using std::ostream;
using std::auto_ptr;
using std::istringstream;
using std::ostream;
using std::ostringstream;
using std::pair;
using std::swap;
using std::vector;
namespace {
int getCols(string const & type)
{
if (type == "eqnarray")
return 3;
if (type == "align")
return 2;
if (type == "flalign")
return 2;
if (type == "alignat")
return 2;
if (type == "xalignat")
return 2;
if (type == "xxalignat")
return 2;
return 1;
}
// returns position of first relation operator in the array
// used for "intelligent splitting"
size_t firstRelOp(MathArray const & ar)
{
for (MathArray::const_iterator it = ar.begin(); it != ar.end(); ++it)
if ((*it)->isRelOp())
return it - ar.begin();
return ar.size();
}
char const * star(bool numbered)
{
return numbered ? "" : "*";
}
int typecode(string const & s)
{
if (s == "none") return 0;
if (s == "simple") return 1;
if (s == "equation") return 2;
if (s == "eqnarray") return 3;
if (s == "align") return 4;
if (s == "alignat") return 5;
if (s == "xalignat") return 6;
if (s == "xxalignat") return 7;
if (s == "multline") return 8;
if (s == "gather") return 9;
if (s == "flalign") return 10;
lyxerr << "unknown hull type '" << s << "'" << endl;
return 0;
}
bool smaller(string const & s, string const & t)
{
return typecode(s) < typecode(t);
}
} // end anon namespace
MathHullInset::MathHullInset()
: MathGridInset(1, 1), type_("none"), nonum_(1), label_(1),
preview_(new RenderPreview(this))
{
//lyxerr << "sizeof MathInset: " << sizeof(MathInset) << endl;
//lyxerr << "sizeof MetricsInfo: " << sizeof(MetricsInfo) << endl;
//lyxerr << "sizeof MathCharInset: " << sizeof(MathCharInset) << endl;
//lyxerr << "sizeof LyXFont: " << sizeof(LyXFont) << endl;
setDefaults();
}
MathHullInset::MathHullInset(string const & type)
: MathGridInset(getCols(type), 1), type_(type), nonum_(1), label_(1),
preview_(new RenderPreview(this))
{
setDefaults();
}
MathHullInset::MathHullInset(MathHullInset const & other)
: MathGridInset(other),
type_(other.type_), nonum_(other.nonum_), label_(other.label_),
preview_(new RenderPreview(this))
{}
MathHullInset::~MathHullInset()
{}
auto_ptr<InsetBase> MathHullInset::clone() const
{
return auto_ptr<InsetBase>(new MathHullInset(*this));
}
void MathHullInset::operator=(MathHullInset const & other)
{
if (this == &other)
return;
*static_cast<MathGridInset*>(this) = MathGridInset(other);
type_ = other.type_;
nonum_ = other.nonum_;
label_ = other.label_;
preview_.reset(new RenderPreview(*other.preview_, this));
}
MathInset::mode_type MathHullInset::currentMode() const
{
if (type_ == "none")
return UNDECIDED_MODE;
// definitely math mode ...
return MATH_MODE;
}
bool MathHullInset::idxFirst(LCursor & cur) const
{
cur.idx() = 0;
cur.pos() = 0;
return true;
}
bool MathHullInset::idxLast(LCursor & cur) const
{
cur.idx() = nargs() - 1;
cur.pos() = cur.lastpos();
return true;
}
char MathHullInset::defaultColAlign(col_type col)
{
if (type_ == "eqnarray")
return "rcl"[col];
if (typecode(type_) >= typecode("align"))
return "rl"[col & 1];
return 'c';
}
int MathHullInset::defaultColSpace(col_type col)
{
if (type_ == "align" || type_ == "alignat")
return 0;
if (type_ == "xalignat")
return (col & 1) ? 20 : 0;
if (type_ == "xxalignat" || type_ == "flalign")
return (col & 1) ? 40 : 0;
return 0;
}
char const * MathHullInset::standardFont() const
{
if (type_ == "none")
return "lyxnochange";
return "mathnormal";
}
void MathHullInset::metrics(MetricsInfo & mi, Dimension & dim) const
{
BOOST_ASSERT(mi.base.bv && mi.base.bv->buffer());
bool use_preview = false;
if (!editing(mi.base.bv) &&
RenderPreview::status() == LyXRC::PREVIEW_ON) {
lyx::graphics::PreviewImage const * pimage =
preview_->getPreviewImage(*mi.base.bv->buffer());
use_preview = pimage && pimage->image();
}
if (use_preview) {
preview_->metrics(mi, dim);
// insert a one pixel gap in front of the formula
dim.wid += 1;
if (display())
dim.des += 12;
dim_ = dim;
return;
}
FontSetChanger dummy1(mi.base, standardFont());
StyleChanger dummy2(mi.base, display() ? LM_ST_DISPLAY : LM_ST_TEXT);
// let the cells adjust themselves
MathGridInset::metrics(mi, dim);
if (display()) {
dim.asc += 12;
dim.des += 12;
}
if (numberedType()) {
FontSetChanger dummy(mi.base, "mathbf");
int l = 0;
for (row_type row = 0; row < nrows(); ++row)
l = max(l, mathed_string_width(mi.base.font, nicelabel(row)));
if (l)
dim.wid += 30 + l;
}
// make it at least as high as the current font
int asc = 0;
int des = 0;
math_font_max_dim(mi.base.font, asc, des);
dim.asc = max(dim.asc, asc);
dim.des = max(dim.des, des);
dim_ = dim;
}
void MathHullInset::draw(PainterInfo & pi, int x, int y) const
{
BOOST_ASSERT(pi.base.bv && pi.base.bv->buffer());
bool use_preview = false;
if (!editing(pi.base.bv) &&
RenderPreview::status() == LyXRC::PREVIEW_ON) {
lyx::graphics::PreviewImage const * pimage =
preview_->getPreviewImage(*pi.base.bv->buffer());
use_preview = pimage && pimage->image();
}
if (use_preview) {
// one pixel gap in front
preview_->draw(pi, x + 1, y);
setPosCache(pi, x, y);
return;
}
FontSetChanger dummy1(pi.base, standardFont());
StyleChanger dummy2(pi.base, display() ? LM_ST_DISPLAY : LM_ST_TEXT);
MathGridInset::draw(pi, x + 1, y);
if (numberedType()) {
int const xx = x + colinfo_.back().offset_ + colinfo_.back().width_ + 20;
for (row_type row = 0; row < nrows(); ++row) {
int const yy = y + rowinfo_[row].offset_;
FontSetChanger dummy(pi.base, "mathrm");
drawStr(pi, pi.base.font, xx, yy, nicelabel(row));
}
}
setPosCache(pi, x, y);
}
void MathHullInset::metricsT(TextMetricsInfo const & mi, Dimension & dim) const
{
if (display()) {
MathGridInset::metricsT(mi, dim);
} else {
ostringstream os;
WriteStream wi(os, false, true);
write(wi);
dim.wid = os.str().size();
dim.asc = 1;
dim.des = 0;
}
}
void MathHullInset::drawT(TextPainter & pain, int x, int y) const
{
if (display()) {
MathGridInset::drawT(pain, x, y);
} else {
ostringstream os;
WriteStream wi(os, false, true);
write(wi);
pain.draw(x, y, os.str().c_str());
}
}
namespace {
string const latex_string(MathHullInset const & inset)
{
ostringstream ls;
WriteStream wi(ls, false, false);
inset.write(wi);
return ls.str();
}
} // namespace anon
void MathHullInset::addPreview(lyx::graphics::PreviewLoader & ploader) const
{
if (RenderPreview::status() == LyXRC::PREVIEW_ON) {
string const snippet = latex_string(*this);
preview_->addPreview(snippet, ploader);
}
}
void MathHullInset::notifyCursorLeaves(LCursor & cur)
{
if (RenderPreview::status() != LyXRC::PREVIEW_ON)
return;
Buffer const & buffer = cur.buffer();
string const snippet = latex_string(*this);
preview_->addPreview(snippet, buffer);
preview_->startLoading(buffer);
}
string MathHullInset::label(row_type row) const
{
row_type n = nrows();
BOOST_ASSERT(row < n);
return label_[row];
}
void MathHullInset::label(row_type row, string const & label)
{
//lyxerr << "setting label '" << label << "' for row " << row << endl;
label_[row] = label;
}
void MathHullInset::numbered(row_type row, bool num)
{
nonum_[row] = !num;
}
bool MathHullInset::numbered(row_type row) const
{
return !nonum_[row];
}
bool MathHullInset::ams() const
{
return
type_ == "align" ||
type_ == "flalign" ||
type_ == "multline" ||
type_ == "gather" ||
type_ == "alignat" ||
type_ == "xalignat" ||
type_ == "xxalignat";
}
bool MathHullInset::display() const
{
return type_ != "simple" && type_ != "none";
}
void MathHullInset::getLabelList(Buffer const &, vector<string> & labels) const
{
for (row_type row = 0; row < nrows(); ++row)
if (!label_[row].empty() && nonum_[row] != 1)
labels.push_back(label_[row]);
}
bool MathHullInset::numberedType() const
{
if (type_ == "none")
return false;
if (type_ == "simple")
return false;
if (type_ == "xxalignat")
return false;
for (row_type row = 0; row < nrows(); ++row)
if (!nonum_[row])
return true;
return false;
}
void MathHullInset::validate(LaTeXFeatures & features) const
{
if (ams())
features.require("amsmath");
// Validation is necessary only if not using AMS math.
// To be safe, we will always run mathedvalidate.
//if (features.amsstyle)
// return;
features.require("boldsymbol");
//features.binom = true;
MathGridInset::validate(features);
}
void MathHullInset::header_write(WriteStream & os) const
{
bool n = numberedType();
if (type_ == "none")
;
else if (type_ == "simple") {
os << '$';
if (cell(0).empty())
os << ' ';
}
else if (type_ == "equation") {
if (n)
os << "\\begin{equation" << star(n) << "}\n";
else
os << "\\[\n";
}
else if (type_ == "eqnarray" || type_ == "align" || type_ == "flalign"
|| type_ == "gather" || type_ == "multline")
os << "\\begin{" << type_ << star(n) << "}\n";
else if (type_ == "alignat" || type_ == "xalignat")
os << "\\begin{" << type_ << star(n) << '}'
<< '{' << static_cast<unsigned int>((ncols() + 1)/2) << "}\n";
else if (type_ == "xxalignat")
os << "\\begin{" << type_ << '}'
<< '{' << static_cast<unsigned int>((ncols() + 1)/2) << "}\n";
else
os << "\\begin{unknown" << star(n) << '}';
}
void MathHullInset::footer_write(WriteStream & os) const
{
bool n = numberedType();
if (type_ == "none")
os << "\n";
else if (type_ == "simple")
os << '$';
else if (type_ == "equation")
if (n)
os << "\\end{equation" << star(n) << "}\n";
else
os << "\\]\n";
else if (type_ == "eqnarray" || type_ == "align" || type_ == "flalign"
|| type_ == "alignat" || type_ == "xalignat"
|| type_ == "gather" || type_ == "multline")
os << "\\end{" << type_ << star(n) << "}\n";
else if (type_ == "xxalignat")
os << "\\end{" << type_ << "}\n";
else
os << "\\end{unknown" << star(n) << '}';
}
bool MathHullInset::colChangeOK() const
{
return
type_ == "align" || type_ == "flalign" ||type_ == "alignat" ||
type_ == "xalignat" || type_ == "xxalignat";
}
void MathHullInset::addRow(row_type row)
{
nonum_.insert(nonum_.begin() + row + 1, !numberedType());
label_.insert(label_.begin() + row + 1, string());
MathGridInset::addRow(row);
}
void MathHullInset::swapRow(row_type row)
{
if (nrows() == 1)
return;
if (row + 1 == nrows())
--row;
swap(nonum_[row], nonum_[row + 1]);
swap(label_[row], label_[row + 1]);
MathGridInset::swapRow(row);
}
void MathHullInset::delRow(row_type row)
{
if (nrows() <= 1)
return;
MathGridInset::delRow(row);
nonum_.erase(nonum_.begin() + row);
label_.erase(label_.begin() + row);
}
void MathHullInset::addCol(col_type col)
{
if (colChangeOK())
MathGridInset::addCol(col);
else
lyxerr << "Can't change number of columns in '" << type_ << "'" << endl;
}
void MathHullInset::delCol(col_type col)
{
if (colChangeOK())
MathGridInset::delCol(col);
else
lyxerr << "Can't change number of columns in '" << type_ << "'" << endl;
}
string MathHullInset::nicelabel(row_type row) const
{
if (nonum_[row])
return string();
if (label_[row].empty())
return string("(#)");
return '(' + label_[row] + ')';
}
void MathHullInset::glueall()
{
MathArray ar;
for (idx_type i = 0; i < nargs(); ++i)
ar.append(cell(i));
*this = MathHullInset("simple");
cell(0) = ar;
setDefaults();
}
string const & MathHullInset::getType() const
{
return type_;
}
void MathHullInset::setType(string const & type)
{
type_ = type;
setDefaults();
}
void MathHullInset::mutate(string const & newtype)
{
lyxerr << "mutating from '" << type_ << "' to '" << newtype << "'" << endl;
// we try to move along the chain
// none <-> simple <-> equation <-> eqnarray
if (newtype == "dump") {
dump();
}
else if (newtype == type_) {
// done
}
else if (type_ == "none") {
setType("simple");
numbered(0, false);
mutate(newtype);
}
else if (type_ == "simple") {
if (newtype == "none") {
setType("none");
} else {
setType("equation");
numbered(0, false);
mutate(newtype);
}
}
else if (type_ == "equation") {
if (smaller(newtype, type_)) {
setType("simple");
mutate(newtype);
} else if (newtype == "eqnarray") {
MathGridInset::addCol(1);
MathGridInset::addCol(1);
// split it "nicely" on the firest relop
pos_type pos = firstRelOp(cell(0));
cell(1) = MathArray(cell(0).begin() + pos, cell(0).end());
cell(0).erase(pos, cell(0).size());
if (cell(1).size()) {
cell(2) = MathArray(cell(1).begin() + 1, cell(1).end());
cell(1).erase(1, cell(1).size());
}
setType("eqnarray");
mutate(newtype);
} else if (newtype == "multline" || newtype == "gather") {
setType(newtype);
numbered(0, false);
} else {
MathGridInset::addCol(1);
// split it "nicely"
pos_type pos = firstRelOp(cell(0));
cell(1) = cell(0);
cell(0).erase(pos, cell(0).size());
cell(1).erase(0, pos);
setType("align");
mutate(newtype);
}
}
else if (type_ == "eqnarray") {
if (smaller(newtype, type_)) {
// set correct (no)numbering
bool allnonum = true;
for (row_type row = 0; row < nrows(); ++row)
if (!nonum_[row])
allnonum = false;
// set first non-empty label
string label;
for (row_type row = 0; row < nrows(); ++row) {
if (!label_[row].empty()) {
label = label_[row];
break;
}
}
glueall();
nonum_[0] = allnonum;
label_[0] = label;
mutate(newtype);
} else { // align & Co.
for (row_type row = 0; row < nrows(); ++row) {
idx_type c = 3 * row + 1;
cell(c).append(cell(c + 1));
}
MathGridInset::delCol(2);
setType("align");
mutate(newtype);
}
}
else if (type_ == "align") {
if (smaller(newtype, type_)) {
MathGridInset::addCol(1);
setType("eqnarray");
mutate(newtype);
} else {
setType(newtype);
}
}
else if (type_ == "multline") {
if (newtype == "gather" || newtype == "align" ||
newtype == "xalignat" || newtype == "xxalignat" || newtype == "flalign")
setType(newtype);
else if (newtype == "eqnarray") {
MathGridInset::addCol(1);
MathGridInset::addCol(1);
setType("eqnarray");
} else {
lyxerr << "mutation from '" << type_
<< "' to '" << newtype << "' not implemented" << endl;
}
}
else if (type_ == "gather") {
if (newtype == "multline") {
setType("multline");
} else {
lyxerr << "mutation from '" << type_
<< "' to '" << newtype << "' not implemented" << endl;
}
}
else {
lyxerr << "mutation from '" << type_
<< "' to '" << newtype << "' not implemented" << endl;
}
}
string MathHullInset::eolString(row_type row, bool fragile) const
{
string res;
if (numberedType()) {
if (!label_[row].empty() && !nonum_[row])
res += "\\label{" + label_[row] + '}';
if (nonum_[row] && (type_ != "multline"))
res += "\\nonumber ";
}
return res + MathGridInset::eolString(row, fragile);
}
void MathHullInset::write(WriteStream & os) const
{
header_write(os);
MathGridInset::write(os);
footer_write(os);
}
void MathHullInset::normalize(NormalStream & os) const
{
os << "[formula " << type_ << ' ';
MathGridInset::normalize(os);
os << "] ";
}
void MathHullInset::mathmlize(MathMLStream & os) const
{
MathGridInset::mathmlize(os);
}
void MathHullInset::infoize(ostream & os) const
{
os << "Type: " << type_;
}
void MathHullInset::check() const
{
BOOST_ASSERT(nonum_.size() == nrows());
BOOST_ASSERT(label_.size() == nrows());
}
void MathHullInset::doExtern(LCursor & cur, FuncRequest & func)
{
string lang;
string extra;
istringstream iss(func.argument.c_str());
iss >> lang >> extra;
if (extra.empty())
extra = "noextra";
#ifdef WITH_WARNINGS
#warning temporarily disabled
//if (cur.selection()) {
// MathArray ar;
// selGet(cur.ar);
// lyxerr << "use selection: " << ar << endl;
// insert(pipeThroughExtern(lang, extra, ar));
// return;
//}
#endif
MathArray eq;
eq.push_back(MathAtom(new MathCharInset('=')));
// go to first item in line
cur.idx() -= cur.idx() % ncols();
cur.pos() = 0;
if (getType() == "simple") {
size_type pos = cur.cell().find_last(eq);
MathArray ar;
if (cur.inMathed() && cur.selection()) {
asArray(grabAndEraseSelection(cur), ar);
} else if (pos == cur.cell().size()) {
ar = cur.cell();
lyxerr << "use whole cell: " << ar << endl;
} else {
ar = MathArray(cur.cell().begin() + pos + 1, cur.cell().end());
lyxerr << "use partial cell form pos: " << pos << endl;
}
cur.cell().append(eq);
cur.cell().append(pipeThroughExtern(lang, extra, ar));
cur.pos() = cur.lastpos();
return;
}
if (getType() == "equation") {
lyxerr << "use equation inset" << endl;
mutate("eqnarray");
MathArray & ar = cur.cell();
lyxerr << "use cell: " << ar << endl;
++cur.idx();
cur.cell() = eq;
++cur.idx();
cur.cell() = pipeThroughExtern(lang, extra, ar);
// move to end of line
cur.pos() = cur.lastpos();
return;
}
{
lyxerr << "use eqnarray" << endl;
cur.idx() += 2 - cur.idx() % ncols();
cur.pos() = 0;
MathArray ar = cur.cell();
lyxerr << "use cell: " << ar << endl;
#ifdef WITH_WARNINGS
#warning temporarily disabled
#endif
addRow(cur.row());
++cur.idx();
++cur.idx();
cur.cell() = eq;
++cur.idx();
cur.cell() = pipeThroughExtern(lang, extra, ar);
cur.pos() = cur.lastpos();
}
}
void MathHullInset::priv_dispatch(LCursor & cur, FuncRequest & cmd)
{
switch (cmd.action) {
case LFUN_FINISHED_LEFT:
case LFUN_FINISHED_RIGHT:
case LFUN_FINISHED_UP:
case LFUN_FINISHED_DOWN:
MathGridInset::priv_dispatch(cur, cmd);
notifyCursorLeaves(cur);
break;
case LFUN_BREAKPARAGRAPH:
// just swallow this
break;
case LFUN_BREAKLINE:
// some magic for the common case
if (type_ == "simple" || type_ == "equation") {
recordUndoInset(cur);
mutate("eqnarray");
cur.idx() = 0;
cur.pos() = cur.lastpos();
}
MathGridInset::priv_dispatch(cur, cmd);
break;
case LFUN_MATH_NUMBER:
//lyxerr << "toggling all numbers" << endl;
if (display()) {
recordUndoInset(cur);
bool old = numberedType();
if (type_ == "multline")
numbered(nrows() - 1, !old);
else
for (row_type row = 0; row < nrows(); ++row)
numbered(row, !old);
cur.message(old ? _("No number") : _("Number"));
}
break;
case LFUN_MATH_NONUMBER:
if (display()) {
recordUndoInset(cur);
row_type r = (type_ == "multline") ? nrows() - 1 : cur.row();
bool old = numbered(r);
cur.message(old ? _("No number") : _("Number"));
numbered(r, !old);
}
break;
case LFUN_INSERT_LABEL: {
recordUndoInset(cur);
row_type r = (type_ == "multline") ? nrows() - 1 : cur.row();
string old_label = label(r);
string new_label = cmd.argument;
if (new_label.empty()) {
string const default_label =
(lyxrc.label_init_length >= 0) ? "eq:" : "";
pair<bool, string> const res = old_label.empty()
? Alert::askForText(_("Enter new label to insert:"), default_label)
: Alert::askForText(_("Enter label:"), old_label);
new_label = lyx::support::trim(res.second);
}
if (!new_label.empty())
numbered(r, true);
label(r, new_label);
break;
}
case LFUN_MATH_EXTERN:
recordUndoInset(cur);
doExtern(cur, cmd);
break;
case LFUN_MATH_MUTATE: {
recordUndoInset(cur);
row_type row = cur.row();
col_type col = cur.col();
mutate(cmd.argument);
cur.idx() = row * ncols() + col;
if (cur.idx() > cur.lastidx()) {
cur.idx() = cur.lastidx();
cur.pos() = cur.lastpos();
}
if (cur.pos() > cur.lastpos())
cur.pos() = cur.lastpos();
//cur.dispatched(FINISHED);
break;
}
case LFUN_MATH_DISPLAY: {
recordUndoInset(cur);
mutate(type_ == "simple" ? "equation" : "simple");
cur.idx() = 0;
cur.pos() = cur.lastpos();
//cur.dispatched(FINISHED);
break;
}
default:
MathGridInset::priv_dispatch(cur, cmd);
break;
}
}
bool MathHullInset::getStatus(LCursor & cur, FuncRequest const & cmd,
FuncStatus & flag) const
{
switch (cmd.action) {
case LFUN_BREAKLINE:
case LFUN_MATH_NUMBER:
case LFUN_MATH_NONUMBER:
case LFUN_INSERT_LABEL:
case LFUN_MATH_EXTERN:
case LFUN_MATH_MUTATE:
case LFUN_MATH_DISPLAY:
// we handle these
return true;
case LFUN_TABULAR_FEATURE: {
// should be more precise
istringstream is(cmd.argument);
string s;
is >> s;
if ((s == "append-column" || s == "delete-column")
&& (type_ == "eqnarray" || type_ == "simple"))
return false;
return MathGridInset::getStatus(cur, cmd, flag);
}
default:
return MathGridInset::getStatus(cur, cmd, flag);
}
}
/////////////////////////////////////////////////////////////////////
#include "math_arrayinset.h"
#include "math_deliminset.h"
#include "math_factory.h"
#include "math_parser.h"
#include "math_spaceinset.h"
#include "ref_inset.h"
#include "bufferview_funcs.h"
#include "lyxtext.h"
#include "frontends/LyXView.h"
#include "frontends/Dialogs.h"
#include "support/lstrings.h"
#include "support/lyxlib.h"
// simply scrap this function if you want
void MathHullInset::mutateToText()
{
#if 0
// translate to latex
ostringstream os;
latex(NULL, os, false, false);
string str = os.str();
// insert this text
LyXText * lt = view_->getLyXText();
string::const_iterator cit = str.begin();
string::const_iterator end = str.end();
for (; cit != end; ++cit)
view_->owner()->getIntl()->getTransManager().TranslateAndInsert(*cit, lt);
// remove ourselves
//view_->owner()->dispatch(LFUN_ESCAPE);
#endif
}
void MathHullInset::handleFont(LCursor & cur, string const & arg,
string const & font)
{
// this whole function is a hack and won't work for incremental font
// changes...
recordUndo(cur);
if (cur.inset().asMathInset()->name() == font)
cur.handleFont(font);
else {
cur.handleNest(createMathInset(font));
cur.insert(arg);
}
}
void MathHullInset::handleFont2(LCursor & cur, string const & arg)
{
recordUndo(cur);
LyXFont font;
bool b;
bv_funcs::string2font(arg, font, b);
if (font.color() != LColor::inherit) {
MathAtom at = createMathInset("color");
asArray(lcolor.getGUIName(font.color()), at.nucleus()->cell(0));
cur.handleNest(at, 1);
}
}
void MathHullInset::edit(LCursor & cur, bool left)
{
cur.push(*this);
left ? idxFirst(cur) : idxLast(cur);
}
string const MathHullInset::editMessage() const
{
return _("Math editor mode");
}
void MathHullInset::getCursorDim(int & asc, int & desc) const
{
asc = 10;
desc = 2;
//math_font_max_dim(font_, asc, des);
}
void MathHullInset::revealCodes(LCursor & cur) const
{
if (!cur.inMathed())
return;
ostringstream os;
cur.info(os);
cur.message(os.str());
/*
// write something to the minibuffer
// translate to latex
cur.markInsert(bv);
ostringstream os;
write(NULL, os);
string str = os.str();
cur.markErase(bv);
string::size_type pos = 0;
string res;
for (string::iterator it = str.begin(); it != str.end(); ++it) {
if (*it == '\n')
res += ' ';
else if (*it == '\0') {
res += " -X- ";
pos = it - str.begin();
}
else
res += *it;
}
if (pos > 30)
res = res.substr(pos - 30);
if (res.size() > 60)
res = res.substr(0, 60);
cur.message(res);
*/
}
InsetBase::Code MathHullInset::lyxCode() const
{
return MATH_CODE;
}
/////////////////////////////////////////////////////////////////////
#if 0
bool MathHullInset::searchForward(BufferView * bv, string const & str,
bool, bool)
{
#ifdef WITH_WARNINGS
#warning completely broken
#endif
static MathHullInset * lastformula = 0;
static CursorBase current = DocIterator(ibegin(nucleus()));
static MathArray ar;
static string laststr;
if (lastformula != this || laststr != str) {
//lyxerr << "reset lastformula to " << this << endl;
lastformula = this;
laststr = str;
current = ibegin(nucleus());
ar.clear();
mathed_parse_cell(ar, str);
} else {
increment(current);
}
//lyxerr << "searching '" << str << "' in " << this << ar << endl;
for (DocIterator it = current; it != iend(nucleus()); increment(it)) {
CursorSlice & top = it.back();
MathArray const & a = top.asMathInset()->cell(top.idx_);
if (a.matchpart(ar, top.pos_)) {
bv->cursor().setSelection(it, ar.size());
current = it;
top.pos_ += ar.size();
bv->update();
return true;
}
}
//lyxerr << "not found!" << endl;
lastformula = 0;
return false;
}
#endif
void MathHullInset::write(Buffer const &, std::ostream & os) const
{
WriteStream wi(os, false, false);
os << "Formula ";
write(wi);
}
void MathHullInset::read(Buffer const &, LyXLex & lex)
{
MathAtom at;
mathed_parse_normal(at, lex);
operator=(*at->asHullInset());
}
int MathHullInset::plaintext(Buffer const &, ostream & os,
OutputParams const &) const
{
if (0 && display()) {
Dimension dim;
TextMetricsInfo mi;
metricsT(mi, dim);
TextPainter tpain(dim.width(), dim.height());
drawT(tpain, 0, dim.ascent());
tpain.show(os, 3);
// reset metrics cache to "real" values
//metrics();
return tpain.textheight();
} else {
WriteStream wi(os, false, true);
wi << ' ' << cell(0) << ' ';
return wi.line();
}
}
int MathHullInset::linuxdoc(Buffer const & buf, ostream & os,
OutputParams const & runparams) const
{
return docbook(buf, os, runparams);
}
int MathHullInset::docbook(Buffer const & buf, ostream & os,
OutputParams const & runparams) const
{
MathMLStream ms(os);
string name="equation";
if (! label(0).empty()) name += " id=\"" + label(0)+ "\"";
ms << MTag(name.c_str());
ms << MTag("alt");
ms << "<[CDATA[";
int res = plaintext(buf, ms.os(), runparams);
ms << "]]>";
ms << ETag("alt");
ms << MTag("math");
MathGridInset::mathmlize(ms);
ms << ETag("math");
ms << ETag("equation");
return ms.line() + res;
}