Cmake export tests: Added sublabel handling also to revertedTests

[lyx.git] / src / mathed / MathMacroTemplate.cpp

/**
 * \file MathMacroTemplate.cpp
 * This file is part of LyX, the document processor.
 * Licence details can be found in the file COPYING.
 *
 * \author André Pönitz
 * \author Stefan Schimanski
 *
 * Full author contact details are available in file CREDITS.
 */

#include <config.h>

#include "MathMacroTemplate.h"

#include "DocIterator.h"
#include "LaTeXFeatures.h"
#include "InsetMathBrace.h"
#include "InsetMathChar.h"
#include "InsetMathHull.h"
#include "InsetMathSqrt.h"
#include "MathMacro.h"
#include "MathMacroArgument.h"
#include "MathStream.h"
#include "MathParser.h"
#include "MathSupport.h"
#include "MathMacroArgument.h"

#include "Buffer.h"
#include "BufferView.h"
#include "Color.h"
#include "Cursor.h"
#include "DispatchResult.h"
#include "FuncRequest.h"
#include "FuncStatus.h"
#include "Lexer.h"
#include "TocBackend.h"

#include "frontends/Painter.h"

#include "insets/RenderPreview.h"

#include "support/lassert.h"
#include "support/convert.h"
#include "support/debug.h"
#include "support/gettext.h"
#include "support/docstream.h"
#include "support/lstrings.h"

#include <set>
#include <sstream>

using namespace std;

namespace lyx {

using support::bformat;

//////////////////////////////////////////////////////////////////////

class InsetLabelBox : public InsetMathNest {
public:
        ///
        InsetLabelBox(Buffer * buf, MathAtom const & atom, docstring label,
                      MathMacroTemplate const & parent, bool frame = false);
        InsetLabelBox(Buffer * buf, docstring label, MathMacroTemplate const & parent,
                      bool frame = false);
        ///
        void metrics(MetricsInfo & mi, Dimension & dim) const;
        ///
        void draw(PainterInfo &, int x, int y) const;

protected:
        ///
        MathMacroTemplate const & parent_;
        ///
        Inset * clone() const;
        ///
        docstring const label_;
        ///
        bool frame_;
};


InsetLabelBox::InsetLabelBox(Buffer * buf, MathAtom const & atom, docstring label,
        MathMacroTemplate const & parent, bool frame)
        : InsetMathNest(buf, 1), parent_(parent), label_(label), frame_(frame)
{
        cell(0).insert(0, atom);
}


InsetLabelBox::InsetLabelBox(Buffer * buf, docstring label,
                             MathMacroTemplate const & parent, bool frame)
        : InsetMathNest(buf, 1), parent_(parent), label_(label), frame_(frame)
{
}


Inset * InsetLabelBox::clone() const
{
        return new InsetLabelBox(*this);
}


void InsetLabelBox::metrics(MetricsInfo & mi, Dimension & dim) const
{
        // kernel
        cell(0).metrics(mi, dim);

        // frame
        if (frame_) {
                dim.wid += 6;
                dim.asc += 5;
                dim.des += 5;
        }

        // adjust to common height in main metrics phase
        if (!parent_.premetrics()) {
                dim.asc = max(dim.asc, parent_.commonLabelBoxAscent());
                dim.des = max(dim.des, parent_.commonLabelBoxDescent());
        }

        // label
        if (parent_.editing(mi.base.bv) && label_.length() > 0) {
                // grey
                FontInfo font = sane_font;
                font.setSize(FONT_SIZE_TINY);
                font.setColor(Color_mathmacrolabel);

                // make space for label and box
                int lwid = mathed_string_width(font, label_);
                int maxasc;
                int maxdes;
                math_font_max_dim(font, maxasc, maxdes);

                dim.wid = max(dim.wid, lwid + 2);

                // space for the label
                if (!parent_.premetrics())
                        dim.des += maxasc + maxdes + 1;
        }
}


void InsetLabelBox::draw(PainterInfo & pi, int x, int y) const
{
        Dimension const dim = dimension(*pi.base.bv);
        Dimension const cdim = cell(0).dimension(*pi.base.bv);

        // kernel
        cell(0).draw(pi, x + (dim.wid - cdim.wid) / 2, y);

        // label
        if (parent_.editing(pi.base.bv) && label_.length() > 0) {
                // grey
                FontInfo font = sane_font;
                font.setSize(FONT_SIZE_TINY);
                font.setColor(Color_mathmacrolabel);

                // make space for label and box
                int lwid = mathed_string_width(font, label_);
                int maxasc;
                int maxdes;
                math_font_max_dim(font, maxasc, maxdes);

                if (lwid < dim.wid)
                        pi.pain.text(x + (dim.wid - lwid) / 2, y + dim.des - maxdes, label_, font);
                else
                        pi.pain.text(x, y + dim.des - maxdes, label_, font);
        }

        // draw frame
        int boxHeight = parent_.commonLabelBoxAscent() + parent_.commonLabelBoxDescent();
        if (frame_) {
                pi.pain.rectangle(x + 1, y - dim.ascent() + 1,
                                  dim.wid - 2, boxHeight - 2,
                                  Color_mathline);
        }
}


//////////////////////////////////////////////////////////////////////

class DisplayLabelBox : public InsetLabelBox {
public:
        ///
        DisplayLabelBox(Buffer * buf, MathAtom const & atom, docstring label,
                        MathMacroTemplate const & parent);

        ///
        void metrics(MetricsInfo & mi, Dimension & dim) const;
        ///
        void draw(PainterInfo &, int x, int y) const;

protected:
        ///
        Inset * clone() const;
};


DisplayLabelBox::DisplayLabelBox(Buffer * buf, MathAtom const & atom,
                                 docstring label,
                                 MathMacroTemplate const & parent)
        : InsetLabelBox(buf, atom, label, parent, true)
{
}



Inset * DisplayLabelBox::clone() const
{
        return new DisplayLabelBox(*this);
}


void DisplayLabelBox::metrics(MetricsInfo & mi, Dimension & dim) const
{
        InsetLabelBox::metrics(mi, dim);
        if (!parent_.editing(mi.base.bv)
            && parent_.cell(parent_.displayIdx()).empty()) {
                dim.wid = 0;
                dim.asc = 0;
                dim.des = 0;
        }
}


void DisplayLabelBox::draw(PainterInfo & pi, int x, int y) const
{
        if (parent_.editing(pi.base.bv)
            || !parent_.cell(parent_.displayIdx()).empty()) {
                InsetLabelBox::draw(pi, x, y);
        } else {
                bool enabled = pi.pain.isDrawingEnabled();
                pi.pain.setDrawingEnabled(false);
                InsetLabelBox::draw(pi, x, y);
                pi.pain.setDrawingEnabled(enabled);
        }
}


//////////////////////////////////////////////////////////////////////

class InsetMathWrapper : public InsetMath {
public:
        ///
        InsetMathWrapper(MathData const * value) : value_(value) {}
        ///
        void metrics(MetricsInfo & mi, Dimension & dim) const;
        ///
        void draw(PainterInfo &, int x, int y) const;

private:
        ///
        Inset * clone() const;
        ///
        MathData const * value_;
};


Inset * InsetMathWrapper::clone() const
{
        return new InsetMathWrapper(*this);
}


void InsetMathWrapper::metrics(MetricsInfo & mi, Dimension & dim) const
{
        value_->metrics(mi, dim);
        //metricsMarkers2(dim);
}


void InsetMathWrapper::draw(PainterInfo & pi, int x, int y) const
{
        value_->draw(pi, x, y);
        //drawMarkers(pi, x, y);
}


///////////////////////////////////////////////////////////////////////
class InsetColoredCell : public InsetMathNest {
public:
        ///
        InsetColoredCell(Buffer * buf, ColorCode min, ColorCode max);
        ///
        InsetColoredCell(Buffer * buf, ColorCode min, ColorCode max, MathAtom const & atom);
        ///
        void draw(PainterInfo &, int x, int y) const;
        ///
        void metrics(MetricsInfo & mi, Dimension & dim) const;

protected:
        ///
        Inset * clone() const;
        ///
        ColorCode min_;
        ///
        ColorCode max_;
};


InsetColoredCell::InsetColoredCell(Buffer * buf, ColorCode min, ColorCode max)
        : InsetMathNest(buf, 1), min_(min), max_(max)
{
}


InsetColoredCell::InsetColoredCell(Buffer * buf, ColorCode min, ColorCode max, MathAtom const & atom)
        : InsetMathNest(buf, 1), min_(min), max_(max)
{
        cell(0).insert(0, atom);
}


Inset * InsetColoredCell::clone() const
{
        return new InsetColoredCell(*this);
}


void InsetColoredCell::metrics(MetricsInfo & mi, Dimension & dim) const
{
        cell(0).metrics(mi, dim);
}


void InsetColoredCell::draw(PainterInfo & pi, int x, int y) const
{
        pi.pain.enterMonochromeMode(min_, max_);
        cell(0).draw(pi, x, y);
        pi.pain.leaveMonochromeMode();
}


///////////////////////////////////////////////////////////////////////

class InsetNameWrapper : public InsetMathWrapper {
public:
        ///
        InsetNameWrapper(MathData const * value, MathMacroTemplate const & parent);
        ///
        void metrics(MetricsInfo & mi, Dimension & dim) const;
        ///
        void draw(PainterInfo &, int x, int y) const;

private:
        ///
        MathMacroTemplate const & parent_;
        ///
        Inset * clone() const;
};


InsetNameWrapper::InsetNameWrapper(MathData const * value,
                                   MathMacroTemplate const & parent)
        : InsetMathWrapper(value), parent_(parent)
{
}


Inset * InsetNameWrapper::clone() const
{
        return new InsetNameWrapper(*this);
}


void InsetNameWrapper::metrics(MetricsInfo & mi, Dimension & dim) const
{
        InsetMathWrapper::metrics(mi, dim);
        dim.wid += mathed_string_width(mi.base.font, from_ascii("\\"));
}


void InsetNameWrapper::draw(PainterInfo & pi, int x, int y) const
{
        // create fonts
        PainterInfo namepi = pi;
        if (parent_.validMacro())
                namepi.base.font.setColor(Color_latex);
        else
                namepi.base.font.setColor(Color_error);

        // draw backslash
        pi.pain.text(x, y, from_ascii("\\"), namepi.base.font);
        x += mathed_string_width(namepi.base.font, from_ascii("\\"));

        // draw name
        InsetMathWrapper::draw(namepi, x, y);
}


///////////////////////////////////////////////////////////////////////


MathMacroTemplate::MathMacroTemplate(Buffer * buf)
        : InsetMathNest(buf, 3), numargs_(0), argsInLook_(0), optionals_(0),
          type_(MacroTypeNewcommand), lookOutdated_(true)
{
        initMath();
}


MathMacroTemplate::MathMacroTemplate(Buffer * buf, docstring const & name, int numargs,
        int optionals, MacroType type, vector<MathData> const & optionalValues,
        MathData const & def, MathData const & display)
        : InsetMathNest(buf, optionals + 3), numargs_(numargs), argsInLook_(numargs),
          optionals_(optionals), optionalValues_(optionalValues),
          type_(type), lookOutdated_(true)
{
        initMath();

        if (numargs_ > 9)
                lyxerr << "MathMacroTemplate::MathMacroTemplate: wrong # of arguments: "
                        << numargs_ << endl;

        asArray(name, cell(0));
        optionalValues_.resize(9);
        for (int i = 0; i < optionals_; ++i)
                cell(optIdx(i)) = optionalValues_[i];
        cell(defIdx()) = def;
        cell(displayIdx()) = display;

        updateLook();
}


bool MathMacroTemplate::fromString(docstring const & str)
{
        MathData ar(buffer_);
        mathed_parse_cell(ar, str, Parse::NORMAL);
        if (ar.size() != 1 || !ar[0]->asMacroTemplate()) {
                lyxerr << "Cannot read macro from '" << ar << "'" << endl;
                asArray(from_ascii("invalidmacro"), cell(0));
                // The macro template does not make sense after this.
                return false;
        }
        operator=( *(ar[0]->asMacroTemplate()) );

        updateLook();
        return true;
}


Inset * MathMacroTemplate::clone() const
{
        MathMacroTemplate * inset = new MathMacroTemplate(*this);
        // the parent pointers of the proxy insets above will point to
        // to the old template. Hence, the look must be updated.
        inset->updateLook();
        return inset;
}


docstring MathMacroTemplate::name() const
{
        return asString(cell(0));
}


void MathMacroTemplate::updateToContext(MacroContext const & mc)
{
        redefinition_ = mc.get(name()) != 0;
}


void MathMacroTemplate::updateLook() const
{
        lookOutdated_ = true;
}


void MathMacroTemplate::createLook(int args) const
{
        look_.clear();
        argsInLook_ = args;

        // \foo
        look_.push_back(MathAtom(
                new InsetLabelBox(buffer_, _("Name"), *this, false)));
        MathData & nameData = look_[look_.size() - 1].nucleus()->cell(0);
        nameData.push_back(MathAtom(new InsetNameWrapper(&cell(0), *this)));

        // [#1][#2]
        int i = 0;
        if (optionals_ > 0) {
                look_.push_back(MathAtom(
                        new InsetLabelBox(buffer_, _("optional"), *this, false)));
                
                MathData * optData = &look_[look_.size() - 1].nucleus()->cell(0);
                for (; i < optionals_; ++i) {
                        // color it light grey, if it is to be removed when the cursor leaves
                        if (i == argsInLook_) {
                                optData->push_back(MathAtom(
                                        new InsetColoredCell(buffer_, Color_mathbg, Color_mathmacrooldarg)));
                                optData = &(*optData)[optData->size() - 1].nucleus()->cell(0);
                        }

                        optData->push_back(MathAtom(new InsetMathChar('[')));
                        optData->push_back(MathAtom(new InsetMathWrapper(&cell(1 + i))));
                        optData->push_back(MathAtom(new InsetMathChar(']')));
                }
        }

        // {#3}{#4}
        for (; i < numargs_; ++i) {
                MathData arg;
                arg.push_back(MathAtom(new MathMacroArgument(i + 1)));
                if (i >= argsInLook_) {
                        look_.push_back(MathAtom(new InsetColoredCell(buffer_,
                                Color_mathbg, Color_mathmacrooldarg,
                                MathAtom(new InsetMathBrace(arg)))));
                } else
                        look_.push_back(MathAtom(new InsetMathBrace(arg)));
        }
        for (; i < argsInLook_; ++i) {
                MathData arg;
                arg.push_back(MathAtom(new MathMacroArgument(i + 1)));
                look_.push_back(MathAtom(new InsetColoredCell(buffer_,
                        Color_mathbg, Color_mathmacronewarg,
                        MathAtom(new InsetMathBrace(arg)))));
        }
        
        // :=
        look_.push_back(MathAtom(new InsetMathChar(':')));
        look_.push_back(MathAtom(new InsetMathChar('=')));

        // definition
        look_.push_back(MathAtom(
                new InsetLabelBox(buffer_, MathAtom(
                        new InsetMathWrapper(&cell(defIdx()))), _("TeX"), *this,        true)));

        // display
        look_.push_back(MathAtom(
                new DisplayLabelBox(buffer_, MathAtom(
                        new InsetMathWrapper(&cell(displayIdx()))), _("LyX"), *this)));
}


void MathMacroTemplate::metrics(MetricsInfo & mi, Dimension & dim) const
{
        FontSetChanger dummy1(mi.base, from_ascii("mathnormal"));
        StyleChanger dummy2(mi.base, LM_ST_TEXT);

        // valid macro?
        MacroData const * macro = 0;
        if (validName())
                macro = mi.macrocontext.get(name());

        // update look?
        int argsInDef = maxArgumentInDefinition();
        if (lookOutdated_ || argsInDef != argsInLook_) {
                lookOutdated_ = false;
                createLook(argsInDef);
        }

        /// metrics for inset contents
        if (macro)
                macro->lock();

        // first phase, premetric:
        premetrics_ = true;
        look_.metrics(mi, dim);
        labelBoxAscent_ = dim.asc;
        labelBoxDescent_ = dim.des;

        // second phase, main metric:
        premetrics_ = false;
        look_.metrics(mi, dim);

        if (macro)
                macro->unlock();

        dim.wid += 6;
        dim.des += 2;
        dim.asc += 2;

        setDimCache(mi, dim);
}


void MathMacroTemplate::draw(PainterInfo & pi, int x, int y) const
{
        ColorChanger dummy0(pi.base.font, Color_math);
        FontSetChanger dummy1(pi.base, from_ascii("mathnormal"));
        StyleChanger dummy2(pi.base, LM_ST_TEXT);

        setPosCache(pi, x, y);
        Dimension const dim = dimension(*pi.base.bv);

        // draw outer frame
        int const a = y - dim.asc + 1;
        int const w = dim.wid - 2;
        int const h = dim.height() - 2;
        pi.pain.rectangle(x, a, w, h, Color_mathframe);

        // just to be sure: set some dummy values for coord cache
        for (idx_type i = 0; i < nargs(); ++i)
                cell(i).setXY(*pi.base.bv, x, y);

        // draw contents
        look_.draw(pi, x + 3, y);
}


void MathMacroTemplate::edit(Cursor & cur, bool front, EntryDirection entry_from)
{
        updateLook();
        cur.screenUpdateFlags(Update::SinglePar);
        InsetMathNest::edit(cur, front, entry_from);
}


bool MathMacroTemplate::notifyCursorLeaves(Cursor const & old, Cursor & cur)
{
        unsigned int const nargs_before = nargs();
        commitEditChanges(cur, old);
        updateLook();
        cur.screenUpdateFlags(Update::Force);
        // If we have removed a cell, we might have invalidated the cursor
        return InsetMathNest::notifyCursorLeaves(old, cur)
                || nargs() < nargs_before;
}


void MathMacroTemplate::removeArguments(Cursor & cur,
        DocIterator const & /*inset_pos*/, int from, int to)
{
        DocIterator it = doc_iterator_begin(&buffer(), this);
        for (; it; it.forwardChar()) {
                if (!it.nextInset())
                        continue;
                if (it.nextInset()->lyxCode() != MATH_MACROARG_CODE)
                        continue;
                MathMacroArgument * arg = static_cast<MathMacroArgument*>(it.nextInset());
                int n = arg->number() - 1;
                if (from <= n && n <= to) {
                        int cellSlice = cur.find(it.cell());
                        if (cellSlice != -1 && cur[cellSlice].pos() > it.pos())
                                --cur[cellSlice].pos();

                        it.cell().erase(it.pos());
                }
        }

        updateLook();
}


void MathMacroTemplate::shiftArguments(size_t from, int by)
{
        for (DocIterator it = doc_iterator_begin(&buffer(), this); it; it.forwardChar()) {
                if (!it.nextInset())
                        continue;
                if (it.nextInset()->lyxCode() != MATH_MACROARG_CODE)
                        continue;
                MathMacroArgument * arg = static_cast<MathMacroArgument*>(it.nextInset());
                if (arg->number() >= int(from) + 1)
                        arg->setNumber(arg->number() + by);
        }

        updateLook();
}


int MathMacroTemplate::maxArgumentInDefinition() const
{
        // We don't have a buffer when pasting from the clipboard (bug 6014).
        Buffer const * macro_buffer = isBufferLoaded() ? &buffer() : 0;
        int maxArg = 0;
        DocIterator it = doc_iterator_begin(macro_buffer, this);
        it.idx() = defIdx();
        for (; it; it.forwardChar()) {
                if (!it.nextInset())
                        continue;
                if (it.nextInset()->lyxCode() != MATH_MACROARG_CODE)
                        continue;
                MathMacroArgument * arg = static_cast<MathMacroArgument*>(it.nextInset());
                maxArg = std::max(int(arg->number()), maxArg);
        }
        return maxArg;
}


void MathMacroTemplate::insertMissingArguments(int maxArg)
{
        bool found[9] = { false, false, false, false, false, false, false, false, false };
        idx_type idx = cell(displayIdx()).empty() ? defIdx() : displayIdx();

        // search for #n macros arguments
        DocIterator it = doc_iterator_begin(&buffer(), this);
        it.idx() = idx;
        for (; it && it[0].idx() == idx; it.forwardChar()) {
                if (!it.nextInset())
                        continue;
                if (it.nextInset()->lyxCode() != MATH_MACROARG_CODE)
                        continue;
                MathMacroArgument * arg = static_cast<MathMacroArgument*>(it.nextInset());
                found[arg->number() - 1] = true;
        }

        // add missing ones
        for (int i = 0; i < maxArg; ++i) {
                if (found[i])
                        continue;

                cell(idx).push_back(MathAtom(new MathMacroArgument(i + 1)));
        }
}


void MathMacroTemplate::changeArity(Cursor & cur,
        DocIterator const & inset_pos, int newNumArg)
{
        // remove parameter which do not appear anymore in the definition
        for (int i = numargs_; i > newNumArg; --i)
                removeParameter(cur, inset_pos, numargs_ - 1, true);
        
        // add missing parameter
        for (int i = numargs_; i < newNumArg; ++i)
                insertParameter(cur, inset_pos, numargs_, true, false);
}


///
class AddRemoveMacroInstanceFix
{
public:
        ///
        AddRemoveMacroInstanceFix(int n, bool insert) : n_(n), insert_(insert) {}
        ///
        void operator()(MathMacro * macro)
        {
                if (macro->folded()) {
                        if (insert_)
                                macro->insertArgument(n_);
                        else
                                macro->removeArgument(n_);
                }
        }

private:
        ///
        int n_;
        ///
        bool insert_;
};


///
class OptionalsMacroInstanceFix
{
public:
        ///
        OptionalsMacroInstanceFix(int optionals) : optionals_(optionals) {}
        ///
        void operator()(MathMacro * macro)
        {
                macro->setOptionals(optionals_);
        }

private:
        ///
        int optionals_;
};


///
class NullMacroInstanceFix
{
public:
        ///
        void operator()(MathMacro * ) {}
};


template<class F>
void fixMacroInstances(Cursor & cur, DocIterator const & inset_pos,
        docstring const & name, F & fix)
{
        // goto position behind macro template
        DocIterator dit = inset_pos;
        dit.pop_back();
        dit.top().forwardPos();

        // remember hull to trigger preview reload
        DocIterator hull(dit.buffer());
        bool preview_reload_needed = false;
        set<DocIterator> preview_hulls;

        // iterate over all positions until macro is redefined
        for (; dit; dit.forwardPos()) {
                // left the outer hull?
                if (!hull.empty() && dit.depth() == hull.depth()) {
                        // schedule reload of the preview if necessary 
                        if (preview_reload_needed) {
                                preview_hulls.insert(hull);
                                preview_reload_needed = false;
                        }
                        hull.clear();
                }

                // only until a macro is redefined
                if (dit.inset().lyxCode() == MATHMACRO_CODE) {
                        MathMacroTemplate const & macroTemplate
                        = static_cast<MathMacroTemplate const &>(dit.inset());
                        if (macroTemplate.name() == name)
                                break;
                }

                // in front of macro instance?
                Inset * inset = dit.nextInset();
                if (!inset)
                        continue;
                InsetMath * insetMath = inset->asInsetMath();
                if (!insetMath)
                        continue;

                // in front of outer hull?
                InsetMathHull * inset_hull = insetMath->asHullInset();
                if (inset_hull && hull.empty()) {
                        // remember this for later preview reload
                        hull = dit;
                }

                MathMacro * macro = insetMath->asMacro();
                if (macro && macro->name() == name && macro->folded()) {
                        fix(macro);
                        if (RenderPreview::previewMath())
                                preview_reload_needed = true;
                }
        }

        if (!preview_hulls.empty()) {
                // reload the scheduled previews
                set<DocIterator>::const_iterator sit = preview_hulls.begin();
                set<DocIterator>::const_iterator end = preview_hulls.end();
                for (; sit != end; ++sit) {
                        InsetMathHull * inset_hull =
                                sit->nextInset()->asInsetMath()->asHullInset();
                        LBUFERR(inset_hull);
                        inset_hull->reloadPreview(*sit);
                }
                cur.screenUpdateFlags(Update::Force);
        }
}


void MathMacroTemplate::commitEditChanges(Cursor & cur,
        DocIterator const & inset_pos)
{
        int args_in_def = maxArgumentInDefinition();
        if (args_in_def != numargs_) {
                // FIXME: implement precise undo handling (only a few places
                //   need undo)
                cur.recordUndoFullBuffer();
                changeArity(cur, inset_pos, args_in_def);
        }
        insertMissingArguments(args_in_def);

        // make sure the preview are up to date
        NullMacroInstanceFix fix;
        fixMacroInstances(cur, inset_pos, name(), fix);
}


void MathMacroTemplate::insertParameter(Cursor & cur,
        DocIterator const & inset_pos, int pos, bool greedy, bool addarg)
{
        if (pos <= numargs_ && pos >= optionals_ && numargs_ < 9) {
                ++numargs_;

                // append example #n
                if (addarg) {
                        shiftArguments(pos, 1);

                        cell(defIdx()).push_back(MathAtom(new MathMacroArgument(pos + 1)));
                        if (!cell(displayIdx()).empty())
                                cell(displayIdx()).push_back(MathAtom(new MathMacroArgument(pos + 1)));
                }

                if (!greedy) {
                        // fix macro instances
                        AddRemoveMacroInstanceFix fix(pos, true);
                        fixMacroInstances(cur, inset_pos, name(), fix);
                }
        }

        updateLook();
}


void MathMacroTemplate::removeParameter(Cursor & cur,
        DocIterator const & inset_pos, int pos, bool greedy)
{
        if (pos < numargs_ && pos >= 0) {
                --numargs_;
                removeArguments(cur, inset_pos, pos, pos);
                shiftArguments(pos + 1, -1);

                // removed optional parameter?
                if (pos < optionals_) {
                        --optionals_;
                        optionalValues_[pos] = cell(optIdx(pos));
                        cells_.erase(cells_.begin() + optIdx(pos));

                        // fix cursor
                        int macroSlice = cur.find(this);
                        if (macroSlice != -1) {
                                if (cur[macroSlice].idx() == optIdx(pos)) {
                                        cur.cutOff(macroSlice);
                                        cur[macroSlice].idx() = 1;
                                        cur[macroSlice].pos() = 0;
                                } else if (cur[macroSlice].idx() > optIdx(pos))
                                        --cur[macroSlice].idx();
                        }
                }

                if (!greedy) {
                        // fix macro instances
                        AddRemoveMacroInstanceFix fix(pos, false);
                        fixMacroInstances(cur, inset_pos, name(), fix);
                }
        }

        updateLook();
}


void MathMacroTemplate::makeOptional(Cursor & cur,
        DocIterator const & inset_pos)
{
        if (numargs_ > 0 && optionals_ < numargs_) {
                ++optionals_;
                cells_.insert(cells_.begin() + optIdx(optionals_ - 1), optionalValues_[optionals_ - 1]);
                // fix cursor
                int macroSlice = cur.find(this);
                if (macroSlice != -1 && cur[macroSlice].idx() >= optIdx(optionals_ - 1))
                        ++cur[macroSlice].idx();

                // fix macro instances
                OptionalsMacroInstanceFix fix(optionals_);
                fixMacroInstances(cur, inset_pos, name(), fix);
        }

        updateLook();
}


void MathMacroTemplate::makeNonOptional(Cursor & cur,
        DocIterator const & inset_pos)
{
        if (numargs_ > 0 && optionals_ > 0) {
                --optionals_;

                // store default value for later if the user changes his mind
                optionalValues_[optionals_] = cell(optIdx(optionals_));
                cells_.erase(cells_.begin() + optIdx(optionals_));

                // fix cursor
                int macroSlice = cur.find(this);
                if (macroSlice != -1) {
                        if (cur[macroSlice].idx() > optIdx(optionals_))
                                --cur[macroSlice].idx();
                        else if (cur[macroSlice].idx() == optIdx(optionals_)) {
                                cur.cutOff(macroSlice);
                                cur[macroSlice].idx() = optIdx(optionals_);
                                cur[macroSlice].pos() = 0;
                        }
                }

                // fix macro instances
                OptionalsMacroInstanceFix fix(optionals_);
                fixMacroInstances(cur, inset_pos, name(), fix);
        }

        updateLook();
}


void MathMacroTemplate::doDispatch(Cursor & cur, FuncRequest & cmd)
{
        string const arg = to_utf8(cmd.argument());
        switch (cmd.action()) {

        case LFUN_MATH_MACRO_ADD_PARAM:
                if (numargs_ < 9) {
                        commitEditChanges(cur, cur);
                        // FIXME: implement precise undo handling (only a few places
                        //   need undo)
                        cur.recordUndoFullBuffer();
                        size_t pos = numargs_;
                        if (!arg.empty())
                                pos = (size_t)convert<int>(arg) - 1; // it is checked for >=0 in getStatus
                        insertParameter(cur, cur, pos);
                }
                break;


        case LFUN_MATH_MACRO_REMOVE_PARAM:
                if (numargs_ > 0) {
                        commitEditChanges(cur, cur);
                        // FIXME: implement precise undo handling (only a few places
                        //   need undo)
                        cur.recordUndoFullBuffer();
                        size_t pos = numargs_ - 1;
                        if (!arg.empty())
                                pos = (size_t)convert<int>(arg) - 1; // it is checked for >=0 in getStatus
                        removeParameter(cur, cur, pos);
                }
                break;

        case LFUN_MATH_MACRO_APPEND_GREEDY_PARAM:
                if (numargs_ < 9) {
                        commitEditChanges(cur, cur);
                        // FIXME: implement precise undo handling (only a few places
                        //   need undo)
                        cur.recordUndoFullBuffer();
                        insertParameter(cur, cur, numargs_, true);
                }
                break;

        case LFUN_MATH_MACRO_REMOVE_GREEDY_PARAM:
                if (numargs_ > 0) {
                        commitEditChanges(cur, cur);
                        // FIXME: implement precise undo handling (only a few places
                        //   need undo)
                        cur.recordUndoFullBuffer();
                        removeParameter(cur, cur, numargs_ - 1, true);
                }
                break;

        case LFUN_MATH_MACRO_MAKE_OPTIONAL:
                commitEditChanges(cur, cur);
                // FIXME: implement precise undo handling (only a few places
                //   need undo)
                cur.recordUndoFullBuffer();
                makeOptional(cur, cur);
                break;

        case LFUN_MATH_MACRO_MAKE_NONOPTIONAL:
                commitEditChanges(cur, cur);
                // FIXME: implement precise undo handling (only a few places
                //   need undo)
                cur.recordUndoFullBuffer();
                makeNonOptional(cur, cur);
                break;

        case LFUN_MATH_MACRO_ADD_OPTIONAL_PARAM:
                if (numargs_ < 9) {
                        commitEditChanges(cur, cur);
                        // FIXME: implement precise undo handling (only a few places
                        //   need undo)
                        cur.recordUndoFullBuffer();
                        insertParameter(cur, cur, optionals_);
                        makeOptional(cur, cur);
                }
                break;

        case LFUN_MATH_MACRO_REMOVE_OPTIONAL_PARAM:
                if (optionals_ > 0) {
                        commitEditChanges(cur, cur);
                        // FIXME: implement precise undo handling (only a few places
                        //   need undo)
                        cur.recordUndoFullBuffer();
                        removeParameter(cur, cur, optionals_ - 1);
                } break;

        case LFUN_MATH_MACRO_ADD_GREEDY_OPTIONAL_PARAM:
                if (numargs_ == optionals_) {
                        commitEditChanges(cur, cur);
                        // FIXME: implement precise undo handling (only a few places
                        //   need undo)
                        cur.recordUndoFullBuffer();
                        insertParameter(cur, cur, 0, true);
                        makeOptional(cur, cur);
                }
                break;

        default:
                InsetMathNest::doDispatch(cur, cmd);
                break;
        }
}


bool MathMacroTemplate::getStatus(Cursor & cur, FuncRequest const & cmd,
        FuncStatus & flag) const
{
        bool ret = true;
        string const arg = to_utf8(cmd.argument());
        switch (cmd.action()) {
                case LFUN_MATH_MACRO_ADD_PARAM: {
                        int num = numargs_ + 1;
                        if (!arg.empty())
                                num = convert<int>(arg);
                        bool on = (num >= optionals_
                                   && numargs_ < 9 && num <= numargs_ + 1);
                        flag.setEnabled(on);
                        break;
                }

                case LFUN_MATH_MACRO_APPEND_GREEDY_PARAM:
                        flag.setEnabled(numargs_ < 9);
                        break;

                case LFUN_MATH_MACRO_REMOVE_GREEDY_PARAM:
                case LFUN_MATH_MACRO_REMOVE_PARAM: {
                        int num = numargs_;
                        if (!arg.empty())
                                num = convert<int>(arg);
                        flag.setEnabled(num >= 1 && num <= numargs_);
                        break;
                }

                case LFUN_MATH_MACRO_MAKE_OPTIONAL:
                        flag.setEnabled(numargs_ > 0
                                     && optionals_ < numargs_
                                     && type_ != MacroTypeDef);
                        break;

                case LFUN_MATH_MACRO_MAKE_NONOPTIONAL:
                        flag.setEnabled(optionals_ > 0
                                     && type_ != MacroTypeDef);
                        break;

                case LFUN_MATH_MACRO_ADD_OPTIONAL_PARAM:
                        flag.setEnabled(numargs_ < 9);
                        break;

                case LFUN_MATH_MACRO_REMOVE_OPTIONAL_PARAM:
                        flag.setEnabled(optionals_ > 0);
                        break;

                case LFUN_MATH_MACRO_ADD_GREEDY_OPTIONAL_PARAM:
                        flag.setEnabled(numargs_ == 0
                                     && type_ != MacroTypeDef);
                        break;

                case LFUN_IN_MATHMACROTEMPLATE:
                        flag.setEnabled(true);
                        break;

                default:
                        ret = InsetMathNest::getStatus(cur, cmd, flag);
                        break;
        }
        return ret;
}


void MathMacroTemplate::read(Lexer & lex)
{
        MathData ar(buffer_);
        mathed_parse_cell(ar, lex.getStream(), Parse::TRACKMACRO);
        if (ar.size() != 1 || !ar[0]->asMacroTemplate()) {
                lyxerr << "Cannot read macro from '" << ar << "'" << endl;
                lyxerr << "Read: " << to_utf8(asString(ar)) << endl;
                return;
        }
        operator=( *(ar[0]->asMacroTemplate()) );

        updateLook();
}


void MathMacroTemplate::write(ostream & os) const
{
        odocstringstream oss;
        TexRow texrow(false);
        otexrowstream ots(oss,texrow);
        WriteStream wi(ots, false, false, WriteStream::wsDefault);
        oss << "FormulaMacro\n";
        write(wi);
        os << to_utf8(oss.str());
}


void MathMacroTemplate::write(WriteStream & os) const
{
        write(os, false);
}


int MathMacroTemplate::write(WriteStream & os, bool overwriteRedefinition) const
{
        int num_lines = 0;

        if (os.latex()) {
                if (optionals_ > 0) {
                        // macros with optionals use the xargs package, e.g.:
                        // \newcommandx{\foo}[2][usedefault, addprefix=\global,1=default]{#1,#2}
                        // \long is implicit by xargs
                        if (redefinition_ && !overwriteRedefinition)
                                os << "\\renewcommandx";
                        else
                                os << "\\newcommandx";

                        os << "\\" << name()
                           << "[" << numargs_ << "]"
                           << "[usedefault, addprefix=\\global";
                        for (int i = 0; i < optionals_; ++i) {
                                docstring optValue = asString(cell(optIdx(i)));
                                if (optValue.find(']') != docstring::npos
                                    || optValue.find(',') != docstring::npos)
                                        os << ", " << i + 1 << "="
                                        << "{" << cell(optIdx(i)) << "}";
                                else
                                        os << ", " << i + 1 << "="
                                        << cell(optIdx(i));
                        }
                        os << "]";
                } else {
                        // Macros without optionals use standard _global_ \def macros:
                        //   \global\def\long\foo#1#2{#1,#2}
                        // We use the \long prefix as this is the equivalent to \newcommand.
                        // We cannot use \newcommand directly because \global does not work with it.
                        os << "\\global\\long\\def\\" << name();
                        docstring param = from_ascii("#0");
                        for (int i = 1; i <= numargs_; ++i) { 
                                param[1] = '0' + i;
                                os << param;
                        }
                }
        } else {
                // in LyX output we use some pseudo syntax which is implementation
                // independent, e.g.
                // \newcommand{\foo}[2][default]{#1,#2}
                if (redefinition_ && !overwriteRedefinition)
                        os << "\\renewcommand";
                else
                        os << "\\newcommand";
                os << "{\\" << name() << '}';
                if (numargs_ > 0)
                        os << '[' << numargs_ << ']';

                for (int i = 0; i < optionals_; ++i) {
                        docstring optValue = asString(cell(optIdx(i)));
                        if (optValue.find(']') != docstring::npos)
                                os << "[{" << cell(optIdx(i)) << "}]";
                        else
                                os << "[" << cell(optIdx(i)) << "]";
                }
        }

        os << "{" << cell(defIdx()) << "}";

        if (os.latex()) {
                // writing .tex. done.
                os << "\n";
                ++num_lines;
        } else {
                // writing .lyx, write special .tex export only if necessary
                if (!cell(displayIdx()).empty()) {
                        os << "\n{" << cell(displayIdx()) << '}';
                        ++num_lines;
                }
        }

        return num_lines;
}


docstring MathMacroTemplate::xhtml(XHTMLStream &, OutputParams const &) const
{
        return docstring();
}

int MathMacroTemplate::plaintext(odocstringstream & os,
                                 OutputParams const &, size_t) const
{
        docstring const str = '[' + buffer().B_("math macro") + ']';

        os << str;
        return str.size();
}


bool MathMacroTemplate::validName() const
{
        docstring n = name();

        if (n.empty())
                return false;

        // converting back and force doesn't swallow anything?
        /*MathData ma;
        asArray(n, ma);
        if (asString(ma) != n)
                return false;*/

        // valid characters?
        for (size_t i = 0; i < n.size(); ++i) {
                if (!(n[i] >= 'a' && n[i] <= 'z')
                    && !(n[i] >= 'A' && n[i] <= 'Z')
                    && n[i] != '*')
                        return false;
        }

        return true;
}


bool MathMacroTemplate::validMacro() const
{
        return validName();
}


bool MathMacroTemplate::fixNameAndCheckIfValid()
{
        // check all the characters/insets in the name cell
        size_t i = 0;
        MathData & data = cell(0);
        while (i < data.size()) {
                InsetMathChar const * cinset = data[i]->asCharInset();
                if (cinset) {
                        // valid character in [a-zA-Z]?
                        char_type c = cinset->getChar();
                        if ((c >= 'a' && c <= 'z')
                            || (c >= 'A' && c <= 'Z')) {
                                ++i;
                                continue;
                        }
                }

                // throw cell away
                data.erase(i);
        }

        // now it should be valid if anything in the name survived
        return !data.empty();
}

        
void MathMacroTemplate::validate(LaTeXFeatures & features) const
{
        // we need global optional macro arguments. They are not available 
        // with \def, and \newcommand does not support global macros. So we
        // are bound to xargs also for the single-optional-parameter case.
        if (optionals_ > 0)
                features.require("xargs");
}

void MathMacroTemplate::getDefaults(vector<docstring> & defaults) const
{
        defaults.resize(numargs_);
        for (int i = 0; i < optionals_; ++i)
                defaults[i] = asString(cell(optIdx(i)));
}


docstring MathMacroTemplate::definition() const
{
        return asString(cell(defIdx()));
}


docstring MathMacroTemplate::displayDefinition() const
{
        return asString(cell(displayIdx()));
}


size_t MathMacroTemplate::numArgs() const
{
        return numargs_;
}


size_t MathMacroTemplate::numOptionals() const
{
        return optionals_;
}


void MathMacroTemplate::infoize(odocstream & os) const
{
        os << bformat(_("Math Macro: \\%1$s"), name());
}


string MathMacroTemplate::contextMenuName() const
{
        return "context-math-macro-definition";
}

void MathMacroTemplate::addToToc(DocIterator const & pit, bool output_active,
                                                                 UpdateType) const
{
        shared_ptr<Toc> toc = buffer().tocBackend().toc("math-macro");
        docstring str;
        if (!validMacro())
                str = bformat(_("Invalid macro! \\%1$s"), name());
        else
                str = "\\" + name();
        toc->push_back(TocItem(pit, 0, str, output_active));
}


} // namespace lyx