lyx_mirror/src/mathed/InsetMathMacro.cpp
Richard Heck f130f7713f Fix bug #10951.
The Buffer member for the remembered definition_ was not being set.
2018-01-04 15:12:16 -05:00

1328 lines
33 KiB
C++

/**
* \file InsetMathMacro.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Alejandro Aguilar Sierra
* \author André Pönitz
* \author Stefan Schimanski
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "InsetMathMacro.h"
#include "InsetMathChar.h"
#include "MathCompletionList.h"
#include "MathExtern.h"
#include "MathFactory.h"
#include "MathStream.h"
#include "MathSupport.h"
#include "Buffer.h"
#include "BufferView.h"
#include "CoordCache.h"
#include "Cursor.h"
#include "FuncStatus.h"
#include "FuncRequest.h"
#include "LaTeXFeatures.h"
#include "LyX.h"
#include "LyXRC.h"
#include "MetricsInfo.h"
#include "frontends/Painter.h"
#include "support/debug.h"
#include "support/gettext.h"
#include "support/lassert.h"
#include "support/lstrings.h"
#include "support/RefChanger.h"
#include "support/textutils.h"
#include <ostream>
#include <vector>
using namespace lyx::support;
using namespace std;
namespace lyx {
/// A proxy for the macro values
class InsetArgumentProxy : public InsetMath {
public:
///
InsetArgumentProxy(InsetMathMacro * mathMacro, size_t idx)
: mathMacro_(mathMacro), idx_(idx) {}
///
InsetArgumentProxy(InsetMathMacro * mathMacro, size_t idx, docstring const & def)
: mathMacro_(mathMacro), idx_(idx)
{
asArray(def, def_);
}
///
void setOwner(InsetMathMacro * mathMacro) { mathMacro_ = mathMacro; }
///
InsetMathMacro const * owner() { return mathMacro_; }
///
marker_type marker(BufferView const *) const { return NO_MARKER; }
///
InsetCode lyxCode() const { return ARGUMENT_PROXY_CODE; }
/// The math data to use for display
MathData const & displayCell(BufferView const * bv) const
{
// handle default macro arguments
bool use_def_arg = !mathMacro_->editMetrics(bv)
&& mathMacro_->cell(idx_).empty();
return use_def_arg ? def_ : mathMacro_->cell(idx_);
}
///
bool addToMathRow(MathRow & mrow, MetricsInfo & mi) const
{
// macro arguments are in macros
LATTEST(mathMacro_->nesting() > 0);
/// The macro nesting can change display of insets. Change it locally.
Changer chg = make_change(mi.base.macro_nesting,
mathMacro_->nesting() == 1 ? 0 : mathMacro_->nesting());
MathRow::Element e_beg(mi, MathRow::BEGIN);
e_beg.inset = this;
e_beg.ar = &mathMacro_->cell(idx_);
mrow.push_back(e_beg);
mathMacro_->macro()->unlock();
bool has_contents = displayCell(mi.base.bv).addToMathRow(mrow, mi);
mathMacro_->macro()->lock();
// if there was no contents, and the contents is editable,
// then we insert a box instead.
if (!has_contents && mathMacro_->nesting() == 1) {
// mathclass is ord because it should be spaced as a normal atom
MathRow::Element e(mi, MathRow::BOX, MC_ORD);
e.color = Color_mathline;
mrow.push_back(e);
has_contents = true;
}
MathRow::Element e_end(mi, MathRow::END);
e_end.inset = this;
e_end.ar = &mathMacro_->cell(idx_);
mrow.push_back(e_end);
return has_contents;
}
///
void beforeMetrics() const
{
mathMacro_->macro()->unlock();
}
///
void afterMetrics() const
{
mathMacro_->macro()->lock();
}
///
void beforeDraw(PainterInfo const & pi) const
{
// if the macro is being edited, then the painter is in
// monochrome mode.
if (mathMacro_->editMetrics(pi.base.bv))
pi.pain.leaveMonochromeMode();
}
///
void afterDraw(PainterInfo const & pi) const
{
if (mathMacro_->editMetrics(pi.base.bv))
pi.pain.enterMonochromeMode(Color_mathbg, Color_mathmacroblend);
}
///
void metrics(MetricsInfo &, Dimension &) const {
// This should never be invoked, since InsetArgumentProxy insets are linearized
LATTEST(false);
}
///
void draw(PainterInfo &, int, int) const {
// This should never be invoked, since InsetArgumentProxy insets are linearized
LATTEST(false);
}
///
int kerning(BufferView const * bv) const
{
return displayCell(bv).kerning(bv);
}
// write(), normalize(), infoize() and infoize2() are not needed since
// InsetMathMacro uses the definition and not the expanded cells.
///
void maple(MapleStream & ms) const { ms << mathMacro_->cell(idx_); }
///
void maxima(MaximaStream & ms) const { ms << mathMacro_->cell(idx_); }
///
void mathematica(MathematicaStream & ms) const { ms << mathMacro_->cell(idx_); }
///
void mathmlize(MathStream & ms) const { ms << mathMacro_->cell(idx_); }
///
void htmlize(HtmlStream & ms) const { ms << mathMacro_->cell(idx_); }
///
void octave(OctaveStream & os) const { os << mathMacro_->cell(idx_); }
///
MathClass mathClass() const
{
return MC_UNKNOWN;
// This can be refined once the pointer issues are fixed. I did not
// notice any immediate crash with the following code, but it is risky
// nevertheless:
//return mathMacro_->cell(idx_).mathClass();
}
private:
///
Inset * clone() const
{
return new InsetArgumentProxy(*this);
}
///
InsetMathMacro * mathMacro_;
///
size_t idx_;
///
MathData def_;
};
/// Private implementation of InsetMathMacro
class InsetMathMacro::Private {
public:
Private(Buffer * buf, docstring const & name)
: name_(name), displayMode_(DISPLAY_INIT),
expanded_(buf), definition_(buf), attachedArgsNum_(0),
optionals_(0), nextFoldMode_(true), macroBackup_(buf),
macro_(0), needsUpdate_(false), isUpdating_(false),
appetite_(9), nesting_(0)
{
}
/// Update the pointers to our owner of all expanded macros.
/// This needs to be called every time a copy of the owner is created
/// (bug 9418).
void updateChildren(InsetMathMacro * owner);
/// Recursively update the pointers of all expanded macros
/// appearing in the arguments of the current macro
void updateNestedChildren(InsetMathMacro * owner, InsetMathNest * ni);
/// name of macro
docstring name_;
/// current display mode
DisplayMode displayMode_;
/// expanded macro with ArgumentProxies
MathData expanded_;
/// macro definition with #1,#2,.. insets
MathData definition_;
/// number of arguments that were really attached
size_t attachedArgsNum_;
/// optional argument attached? (only in DISPLAY_NORMAL mode)
size_t optionals_;
/// fold mode to be set in next metrics call?
bool nextFoldMode_;
/// if macro_ == true, then here is a copy of the macro
/// don't use it for locking
MacroData macroBackup_;
/// if macroNotFound_ == false, then here is a reference to the macro
/// this might invalidate after metrics was called
MacroData const * macro_;
///
mutable std::map<BufferView const *, bool> editing_;
///
std::string requires_;
/// update macro representation
bool needsUpdate_;
///
bool isUpdating_;
/// maximal number of arguments the macro is greedy for
size_t appetite_;
/// Level of nesting in macros (including this one)
int nesting_;
};
void InsetMathMacro::Private::updateChildren(InsetMathMacro * owner)
{
for (size_t i = 0; i < expanded_.size(); ++i) {
InsetArgumentProxy * p = dynamic_cast<InsetArgumentProxy *>(expanded_[i].nucleus());
if (p)
p->setOwner(owner);
InsetMathNest * ni = expanded_[i].nucleus()->asNestInset();
if (ni)
updateNestedChildren(owner, ni);
}
if (macro_) {
// The macro_ pointer is updated when MathData::metrics() is
// called. However, when instant preview is on or the macro is
// not on screen, MathData::metrics() is not called and we may
// have a dangling pointer. As a safety measure, when a macro
// is copied, always let macro_ point to the backup copy of the
// MacroData structure. This backup is updated every time the
// macro is changed, so it will not become stale.
macro_ = &macroBackup_;
}
}
void InsetMathMacro::Private::updateNestedChildren(InsetMathMacro * owner, InsetMathNest * ni)
{
for (size_t i = 0; i < ni->nargs(); ++i) {
MathData & ar = ni->cell(i);
for (size_t j = 0; j < ar.size(); ++j) {
InsetArgumentProxy * ap = dynamic_cast
<InsetArgumentProxy *>(ar[j].nucleus());
if (ap) {
InsetMathMacro::Private * md = ap->owner()->d;
if (md->macro_)
md->macro_ = &md->macroBackup_;
ap->setOwner(owner);
}
InsetMathNest * imn = ar[j].nucleus()->asNestInset();
if (imn)
updateNestedChildren(owner, imn);
}
}
}
InsetMathMacro::InsetMathMacro(Buffer * buf, docstring const & name)
: InsetMathNest(buf, 0), d(new Private(buf, name))
{}
InsetMathMacro::InsetMathMacro(InsetMathMacro const & that)
: InsetMathNest(that), d(new Private(*that.d))
{
setBuffer(*that.buffer_);
d->updateChildren(this);
}
InsetMathMacro & InsetMathMacro::operator=(InsetMathMacro const & that)
{
if (&that == this)
return *this;
InsetMathNest::operator=(that);
*d = *that.d;
d->updateChildren(this);
return *this;
}
InsetMathMacro::~InsetMathMacro()
{
delete d;
}
bool InsetMathMacro::addToMathRow(MathRow & mrow, MetricsInfo & mi) const
{
// set edit mode for which we will have calculated row.
// This is the same as what is done in metrics().
d->editing_[mi.base.bv] = editMode(mi.base.bv);
// For now we do not linearize in the following cases (can be improved)
// - display mode different from normal
// - editing with parameter list
// - editing with box around macro
if (displayMode() != InsetMathMacro::DISPLAY_NORMAL
|| (d->editing_[mi.base.bv] && lyxrc.macro_edit_style == LyXRC::MACRO_EDIT_LIST))
return InsetMath::addToMathRow(mrow, mi);
/// The macro nesting can change display of insets. Change it locally.
Changer chg = make_change(mi.base.macro_nesting, d->nesting_);
MathRow::Element e_beg(mi, MathRow::BEGIN);
e_beg.inset = this;
e_beg.marker = (d->nesting_ == 1) ? marker(mi.base.bv) : NO_MARKER;
mrow.push_back(e_beg);
d->macro_->lock();
bool has_contents = d->expanded_.addToMathRow(mrow, mi);
d->macro_->unlock();
// if there was no contents and the array is editable, then we
// insert a grey box instead.
if (!has_contents && mi.base.macro_nesting == 1) {
// mathclass is unknown because it is irrelevant for spacing
MathRow::Element e(mi, MathRow::BOX);
e.color = Color_mathmacroblend;
mrow.push_back(e);
has_contents = true;
}
MathRow::Element e_end(mi, MathRow::END);
e_end.inset = this;
e_end.marker = (d->nesting_ == 1) ? marker(mi.base.bv) : NO_MARKER;
mrow.push_back(e_end);
return has_contents;
}
void InsetMathMacro::beforeMetrics() const
{
d->macro_->lock();
}
void InsetMathMacro::afterMetrics() const
{
d->macro_->unlock();
}
void InsetMathMacro::beforeDraw(PainterInfo const & pi) const
{
if (d->editing_[pi.base.bv])
pi.pain.enterMonochromeMode(Color_mathbg, Color_mathmacroblend);
}
void InsetMathMacro::afterDraw(PainterInfo const & pi) const
{
if (d->editing_[pi.base.bv])
pi.pain.leaveMonochromeMode();
}
Inset * InsetMathMacro::clone() const
{
InsetMathMacro * copy = new InsetMathMacro(*this);
copy->d->needsUpdate_ = true;
//copy->d->expanded_.clear();
return copy;
}
void InsetMathMacro::normalize(NormalStream & os) const
{
os << "[macro " << name();
for (size_t i = 0; i < nargs(); ++i)
os << ' ' << cell(i);
os << ']';
}
InsetMathMacro::DisplayMode InsetMathMacro::displayMode() const
{
return d->displayMode_;
}
bool InsetMathMacro::extraBraces() const
{
return d->displayMode_ == DISPLAY_NORMAL && arity() > 0;
}
docstring InsetMathMacro::name() const
{
if (d->displayMode_ == DISPLAY_UNFOLDED)
return asString(cell(0));
return d->name_;
}
docstring InsetMathMacro::macroName() const
{
return d->name_;
}
int InsetMathMacro::nesting() const
{
return d->nesting_;
}
void InsetMathMacro::cursorPos(BufferView const & bv,
CursorSlice const & sl, bool boundary, int & x, int & y) const
{
// We may have 0 arguments, but InsetMathNest requires at least one.
if (nargs() > 0)
InsetMathNest::cursorPos(bv, sl, boundary, x, y);
}
bool InsetMathMacro::editMode(BufferView const * bv) const {
// find this in cursor trace
Cursor const & cur = bv->cursor();
for (size_t i = 0; i != cur.depth(); ++i)
if (&cur[i].inset() == this) {
// look if there is no other macro in edit mode above
++i;
for (; i != cur.depth(); ++i) {
InsetMath * im = cur[i].asInsetMath();
if (im) {
InsetMathMacro const * macro = im->asMacro();
if (macro && macro->displayMode() == DISPLAY_NORMAL)
return false;
}
}
// ok, none found, I am the highest one
return true;
}
return false;
}
MacroData const * InsetMathMacro::macro() const
{
return d->macro_;
}
bool InsetMathMacro::editMetrics(BufferView const * bv) const
{
return d->editing_[bv];
}
InsetMath::marker_type InsetMathMacro::marker(BufferView const * bv) const
{
if (nargs() == 0)
return NO_MARKER;
switch (d->displayMode_) {
case DISPLAY_INIT:
case DISPLAY_INTERACTIVE_INIT:
return NO_MARKER;
case DISPLAY_UNFOLDED:
return MARKER;
case DISPLAY_NORMAL:
switch (lyxrc.macro_edit_style) {
case LyXRC::MACRO_EDIT_INLINE:
return MARKER2;
case LyXRC::MACRO_EDIT_INLINE_BOX:
return d->editing_[bv] ? BOX_MARKER : MARKER2;
case LyXRC::MACRO_EDIT_LIST:
return MARKER2;
}
}
// please gcc 4.6
return NO_MARKER;
}
void InsetMathMacro::metrics(MetricsInfo & mi, Dimension & dim) const
{
/// The macro nesting can change display of insets. Change it locally.
Changer chg = make_change(mi.base.macro_nesting, d->nesting_);
// set edit mode for which we will have calculated metrics. But only
d->editing_[mi.base.bv] = editMode(mi.base.bv);
// calculate new metrics according to display mode
if (d->displayMode_ == DISPLAY_INIT || d->displayMode_ == DISPLAY_INTERACTIVE_INIT) {
Changer dummy = mi.base.changeFontSet("lyxtex");
mathed_string_dim(mi.base.font, from_ascii("\\") + name(), dim);
} else if (d->displayMode_ == DISPLAY_UNFOLDED) {
Changer dummy = mi.base.changeFontSet("lyxtex");
cell(0).metrics(mi, dim);
Dimension bsdim;
mathed_string_dim(mi.base.font, from_ascii("\\"), bsdim);
dim.wid += bsdim.width() + 1;
dim.asc = max(bsdim.ascent(), dim.ascent());
dim.des = max(bsdim.descent(), dim.descent());
} else if (lyxrc.macro_edit_style == LyXRC::MACRO_EDIT_LIST
&& d->editing_[mi.base.bv]) {
// Macro will be edited in a old-style list mode here:
LBUFERR(d->macro_);
Dimension fontDim;
FontInfo labelFont = sane_font;
math_font_max_dim(labelFont, fontDim.asc, fontDim.des);
// get dimension of components of list view
Dimension nameDim;
nameDim.wid = mathed_string_width(mi.base.font, from_ascii("Macro \\") + name() + ": ");
nameDim.asc = fontDim.asc;
nameDim.des = fontDim.des;
Dimension argDim;
argDim.wid = mathed_string_width(labelFont, from_ascii("#9: "));
argDim.asc = fontDim.asc;
argDim.des = fontDim.des;
Dimension defDim;
d->definition_.metrics(mi, defDim);
// add them up
dim.wid = nameDim.wid + defDim.wid;
dim.asc = max(nameDim.asc, defDim.asc);
dim.des = max(nameDim.des, defDim.des);
for (idx_type i = 0; i < nargs(); ++i) {
Dimension cdim;
cell(i).metrics(mi, cdim);
dim.des += max(argDim.height(), cdim.height()) + 1;
dim.wid = max(dim.wid, argDim.wid + cdim.wid);
}
// make space for box and markers, 2 pixels
dim.asc += 1;
dim.des += 1;
dim.wid += 2;
} else {
// We should not be here, since the macro is linearized in this case.
LBUFERR(false);
}
}
int InsetMathMacro::kerning(BufferView const * bv) const {
if (d->displayMode_ == DISPLAY_NORMAL && !d->editing_[bv])
return d->expanded_.kerning(bv);
else
return 0;
}
void InsetMathMacro::updateMacro(MacroContext const & mc)
{
if (validName()) {
d->macro_ = mc.get(name());
if (d->macro_ && d->macroBackup_ != *d->macro_) {
d->macroBackup_ = *d->macro_;
d->needsUpdate_ = true;
}
} else {
d->macro_ = 0;
}
}
class InsetMathMacro::UpdateLocker
{
public:
explicit UpdateLocker(InsetMathMacro & mm) : mac(mm)
{
mac.d->isUpdating_ = true;
}
~UpdateLocker() { mac.d->isUpdating_ = false; }
private:
InsetMathMacro & mac;
};
/** Avoid wrong usage of UpdateLocker.
To avoid wrong usage:
UpdateLocker(...); // wrong
UpdateLocker locker(...); // right
*/
#define UpdateLocker(x) unnamed_UpdateLocker;
// Tip gotten from Bobby Schmidt's column in C/C++ Users Journal
void InsetMathMacro::updateRepresentation(Cursor * cur, MacroContext const & mc,
UpdateType utype, int nesting)
{
// block recursive calls (bug 8999)
if (d->isUpdating_)
return;
UpdateLocker locker(*this);
// known macro?
if (d->macro_ == 0)
return;
// remember nesting level of this macro
d->nesting_ = nesting;
// update requires
d->requires_ = d->macro_->requires();
if (!d->needsUpdate_
// non-normal mode? We are done!
|| (d->displayMode_ != DISPLAY_NORMAL))
return;
d->needsUpdate_ = false;
// get default values of macro
vector<docstring> const & defaults = d->macro_->defaults();
// create MathMacroArgumentValue objects pointing to the cells of the macro
vector<MathData> values(nargs());
for (size_t i = 0; i < nargs(); ++i) {
InsetArgumentProxy * proxy;
if (i < defaults.size())
proxy = new InsetArgumentProxy(this, i, defaults[i]);
else
proxy = new InsetArgumentProxy(this, i);
values[i].insert(0, MathAtom(proxy));
}
// expanding macro with the values
// Only update the argument macros if anything was expanded, otherwise
// we would get an endless loop (bug 9140). UpdateLocker does not work
// in this case, since MacroData::expand() creates new InsetMathMacro
// objects, so this would be a different recursion path than the one
// protected by UpdateLocker.
if (d->macro_->expand(values, d->expanded_)) {
if (utype == OutputUpdate && !d->expanded_.empty())
d->expanded_.updateMacros(cur, mc, utype, nesting);
}
// get definition for list edit mode
docstring const & display = d->macro_->display();
asArray(display.empty() ? d->macro_->definition() : display,
d->definition_, Parse::QUIET | Parse::MACRODEF);
}
void InsetMathMacro::draw(PainterInfo & pi, int x, int y) const
{
Dimension const dim = dimension(*pi.base.bv);
int expx = x;
int expy = y;
if (d->displayMode_ == DISPLAY_INIT || d->displayMode_ == DISPLAY_INTERACTIVE_INIT) {
Changer dummy = pi.base.changeFontSet("lyxtex");
pi.pain.text(x, y, from_ascii("\\") + name(), pi.base.font);
} else if (d->displayMode_ == DISPLAY_UNFOLDED) {
Changer dummy = pi.base.changeFontSet("lyxtex");
pi.pain.text(x, y, from_ascii("\\"), pi.base.font);
x += mathed_string_width(pi.base.font, from_ascii("\\")) + 1;
cell(0).draw(pi, x, y);
} else if (lyxrc.macro_edit_style == LyXRC::MACRO_EDIT_LIST
&& d->editing_[pi.base.bv]) {
// Macro will be edited in a old-style list mode here:
CoordCache const & coords = pi.base.bv->coordCache();
FontInfo const & labelFont = sane_font;
// box needs one pixel
x += 1;
// get maximal font height
Dimension fontDim;
math_font_max_dim(pi.base.font, fontDim.asc, fontDim.des);
// draw label
docstring label = from_ascii("Macro \\") + name() + from_ascii(": ");
pi.pain.text(x, y, label, labelFont);
x += mathed_string_width(labelFont, label);
// draw definition
d->definition_.draw(pi, x, y);
Dimension const & defDim = coords.getArrays().dim(&d->definition_);
y += max(fontDim.des, defDim.des);
// draw parameters
docstring str = from_ascii("#9");
int strw1 = mathed_string_width(labelFont, from_ascii("#9"));
int strw2 = mathed_string_width(labelFont, from_ascii(": "));
for (idx_type i = 0; i < nargs(); ++i) {
// position of label
Dimension const & cdim = coords.getArrays().dim(&cell(i));
x = expx + 1;
y += max(fontDim.asc, cdim.asc) + 1;
// draw label
str[1] = '1' + i;
pi.pain.text(x, y, str, labelFont);
x += strw1;
pi.pain.text(x, y, from_ascii(":"), labelFont);
x += strw2;
// draw paramter
cell(i).draw(pi, x, y);
// next line
y += max(fontDim.des, cdim.des);
}
pi.pain.rectangle(expx, expy - dim.asc + 1, dim.wid - 1,
dim.height() - 2, Color_mathmacroframe);
} else {
// We should not be here, since the macro is linearized in this case.
LBUFERR(false);
}
// edit mode changed?
if (d->editing_[pi.base.bv] != editMode(pi.base.bv))
pi.base.bv->cursor().screenUpdateFlags(Update::SinglePar);
}
void InsetMathMacro::setDisplayMode(InsetMathMacro::DisplayMode mode, int appetite)
{
if (d->displayMode_ != mode) {
// transfer name if changing from or to DISPLAY_UNFOLDED
if (mode == DISPLAY_UNFOLDED) {
cells_.resize(1);
asArray(d->name_, cell(0));
} else if (d->displayMode_ == DISPLAY_UNFOLDED) {
d->name_ = asString(cell(0));
cells_.resize(0);
}
d->displayMode_ = mode;
d->needsUpdate_ = true;
}
// the interactive init mode is non-greedy by default
if (appetite == -1)
d->appetite_ = (mode == DISPLAY_INTERACTIVE_INIT) ? 0 : 9;
else
d->appetite_ = size_t(appetite);
}
InsetMathMacro::DisplayMode InsetMathMacro::computeDisplayMode() const
{
if (d->nextFoldMode_ == true && d->macro_ && !d->macro_->locked())
return DISPLAY_NORMAL;
else
return DISPLAY_UNFOLDED;
}
bool InsetMathMacro::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;
}
size_t InsetMathMacro::arity() const
{
if (d->displayMode_ == DISPLAY_NORMAL )
return cells_.size();
else
return 0;
}
size_t InsetMathMacro::optionals() const
{
return d->optionals_;
}
void InsetMathMacro::setOptionals(int n)
{
if (n <= int(nargs()))
d->optionals_ = n;
}
size_t InsetMathMacro::appetite() const
{
return d->appetite_;
}
MathClass InsetMathMacro::mathClass() const
{
// This can be just a heuristic, since it is only considered for display
// when the macro is not linearised. Therefore it affects:
// * The spacing of the inset while being edited,
// * Intelligent splitting
// * Cursor word movement (Ctrl-Arrow).
if (MacroData const * m = macroBackup()) {
// If it is a global macro and is defined explicitly
if (m->symbol()) {
MathClass mc = string_to_class(m->symbol()->extra);
if (mc != MC_UNKNOWN)
return mc;
}
}
// Otherwise guess from the expanded macro
return d->expanded_.mathClass();
}
InsetMath::mode_type InsetMathMacro::currentMode() const
{
// User defined macros are always assumed to be mathmode macros.
// Only the global macros defined in lib/symbols may be textmode.
if (MacroData const * m = macroBackup()) {
if (m->symbol() && m->symbol()->extra == "textmode")
return TEXT_MODE;
else
return MATH_MODE;
}
// Unknown macros are undecided.
return UNDECIDED_MODE;
}
MacroData const * InsetMathMacro::macroBackup() const
{
if (macro())
return &d->macroBackup_;
if (MacroData const * data = MacroTable::globalMacros().get(name()))
return data;
return nullptr;
}
void InsetMathMacro::validate(LaTeXFeatures & features) const
{
// Immediately after a document is loaded, in some cases the MacroData
// of the global macros defined in the lib/symbols file may still not
// be known to the macro machinery because it will be set only after
// the first call to updateMacros(). This is not a problem unless
// instant preview is on for math, in which case we will be missing
// the corresponding requirements.
// In this case, we get the required info from the global macro table.
if (!d->requires_.empty())
features.require(d->requires_);
else if (!d->macro_) {
// Update requires for known global macros.
MacroData const * data = MacroTable::globalMacros().get(name());
if (data && !data->requires().empty())
features.require(data->requires());
}
if (name() == "binom")
features.require("binom");
// validate the cells and the definition
if (displayMode() == DISPLAY_NORMAL) {
d->definition_.validate(features);
InsetMathNest::validate(features);
}
}
void InsetMathMacro::edit(Cursor & cur, bool front, EntryDirection entry_from)
{
cur.screenUpdateFlags(Update::SinglePar);
InsetMathNest::edit(cur, front, entry_from);
}
Inset * InsetMathMacro::editXY(Cursor & cur, int x, int y)
{
// We may have 0 arguments, but InsetMathNest requires at least one.
if (nargs() > 0) {
cur.screenUpdateFlags(Update::SinglePar);
return InsetMathNest::editXY(cur, x, y);
} else
return this;
}
void InsetMathMacro::removeArgument(Inset::pos_type pos) {
if (d->displayMode_ == DISPLAY_NORMAL) {
LASSERT(size_t(pos) < cells_.size(), return);
cells_.erase(cells_.begin() + pos);
if (size_t(pos) < d->attachedArgsNum_)
--d->attachedArgsNum_;
if (size_t(pos) < d->optionals_) {
--d->optionals_;
}
d->needsUpdate_ = true;
}
}
void InsetMathMacro::insertArgument(Inset::pos_type pos) {
if (d->displayMode_ == DISPLAY_NORMAL) {
LASSERT(size_t(pos) <= cells_.size(), return);
cells_.insert(cells_.begin() + pos, MathData());
if (size_t(pos) < d->attachedArgsNum_)
++d->attachedArgsNum_;
if (size_t(pos) < d->optionals_)
++d->optionals_;
d->needsUpdate_ = true;
}
}
void InsetMathMacro::detachArguments(vector<MathData> & args, bool strip)
{
LASSERT(d->displayMode_ == DISPLAY_NORMAL, return);
args = cells_;
// strip off empty cells, but not more than arity-attachedArgsNum_
if (strip) {
size_t i;
for (i = cells_.size(); i > d->attachedArgsNum_; --i)
if (!cell(i - 1).empty()) break;
args.resize(i);
}
d->attachedArgsNum_ = 0;
d->expanded_ = MathData();
cells_.resize(0);
d->needsUpdate_ = true;
}
void InsetMathMacro::attachArguments(vector<MathData> const & args, size_t arity, int optionals)
{
LASSERT(d->displayMode_ == DISPLAY_NORMAL, return);
cells_ = args;
d->attachedArgsNum_ = args.size();
cells_.resize(arity);
d->expanded_ = MathData();
d->optionals_ = optionals;
d->needsUpdate_ = true;
}
bool InsetMathMacro::idxFirst(Cursor & cur) const
{
cur.screenUpdateFlags(Update::SinglePar);
return InsetMathNest::idxFirst(cur);
}
bool InsetMathMacro::idxLast(Cursor & cur) const
{
cur.screenUpdateFlags(Update::SinglePar);
return InsetMathNest::idxLast(cur);
}
bool InsetMathMacro::notifyCursorLeaves(Cursor const & old, Cursor & cur)
{
if (d->displayMode_ == DISPLAY_UNFOLDED) {
docstring const & unfolded_name = name();
if (unfolded_name != d->name_) {
// The macro name was changed
Cursor inset_cursor = old;
int macroSlice = inset_cursor.find(this);
// returning true means the cursor is "now" invalid,
// which it was.
LASSERT(macroSlice != -1, return true);
inset_cursor.cutOff(macroSlice);
inset_cursor.recordUndoInset();
inset_cursor.pop();
inset_cursor.cell().erase(inset_cursor.pos());
inset_cursor.cell().insert(inset_cursor.pos(),
createInsetMath(unfolded_name, cur.buffer()));
cur.resetAnchor();
cur.screenUpdateFlags(cur.result().screenUpdate() | Update::SinglePar);
return true;
}
}
cur.screenUpdateFlags(Update::Force);
return InsetMathNest::notifyCursorLeaves(old, cur);
}
void InsetMathMacro::fold(Cursor & cur)
{
if (!d->nextFoldMode_) {
d->nextFoldMode_ = true;
cur.screenUpdateFlags(Update::SinglePar);
}
}
void InsetMathMacro::unfold(Cursor & cur)
{
if (d->nextFoldMode_) {
d->nextFoldMode_ = false;
cur.screenUpdateFlags(Update::SinglePar);
}
}
bool InsetMathMacro::folded() const
{
return d->nextFoldMode_;
}
void InsetMathMacro::write(WriteStream & os) const
{
mode_type mode = currentMode();
MathEnsurer ensurer(os, mode == MATH_MODE, true, mode == TEXT_MODE);
// non-normal mode
if (d->displayMode_ != DISPLAY_NORMAL) {
os << "\\" << name();
if (name().size() != 1 || isAlphaASCII(name()[0]))
os.pendingSpace(true);
return;
}
// normal mode
// we should be ok to continue even if this fails.
LATTEST(d->macro_);
// We may already be in the argument of a macro
bool const inside_macro = os.insideMacro();
os.insideMacro(true);
// Enclose in braces to avoid latex errors with xargs if we have
// optional arguments and are in the optional argument of a macro
if (d->optionals_ && inside_macro)
os << '{';
// Always protect macros in a fragile environment
if (os.fragile())
os << "\\protect";
os << "\\" << name();
bool first = true;
// Optional arguments:
// First find last non-empty optional argument
idx_type emptyOptFrom = 0;
idx_type i = 0;
for (; i < cells_.size() && i < d->optionals_; ++i) {
if (!cell(i).empty())
emptyOptFrom = i + 1;
}
// print out optionals
for (i=0; i < cells_.size() && i < emptyOptFrom; ++i) {
first = false;
os << "[" << cell(i) << "]";
}
// skip the tailing empty optionals
i = d->optionals_;
// Print remaining arguments
for (; i < cells_.size(); ++i) {
if (cell(i).size() == 1
&& cell(i)[0].nucleus()->asCharInset()
&& isASCII(cell(i)[0].nucleus()->asCharInset()->getChar())) {
if (first)
os << " ";
os << cell(i);
} else
os << "{" << cell(i) << "}";
first = false;
}
// Close the opened brace or add space if there was no argument
if (d->optionals_ && inside_macro)
os << '}';
else if (first)
os.pendingSpace(true);
os.insideMacro(inside_macro);
}
void InsetMathMacro::maple(MapleStream & os) const
{
lyx::maple(d->expanded_, os);
}
void InsetMathMacro::maxima(MaximaStream & os) const
{
lyx::maxima(d->expanded_, os);
}
void InsetMathMacro::mathematica(MathematicaStream & os) const
{
lyx::mathematica(d->expanded_, os);
}
void InsetMathMacro::mathmlize(MathStream & os) const
{
// macro_ is 0 if this is an unknown macro
LATTEST(d->macro_ || d->displayMode_ != DISPLAY_NORMAL);
if (d->macro_) {
docstring const xmlname = d->macro_->xmlname();
if (!xmlname.empty()) {
char const * type = d->macro_->MathMLtype();
os << '<' << type << "> " << xmlname << " </"
<< type << '>';
return;
}
}
if (d->expanded_.empty()) {
// this means that we do not recognize the macro
throw MathExportException();
}
os << d->expanded_;
}
void InsetMathMacro::htmlize(HtmlStream & os) const
{
// macro_ is 0 if this is an unknown macro
LATTEST(d->macro_ || d->displayMode_ != DISPLAY_NORMAL);
if (d->macro_) {
docstring const xmlname = d->macro_->xmlname();
if (!xmlname.empty()) {
os << ' ' << xmlname << ' ';
return;
}
}
if (d->expanded_.empty()) {
// this means that we do not recognize the macro
throw MathExportException();
}
os << d->expanded_;
}
void InsetMathMacro::octave(OctaveStream & os) const
{
lyx::octave(d->expanded_, os);
}
void InsetMathMacro::infoize(odocstream & os) const
{
os << bformat(_("Macro: %1$s"), name());
}
void InsetMathMacro::infoize2(odocstream & os) const
{
os << bformat(_("Macro: %1$s"), name());
}
bool InsetMathMacro::completionSupported(Cursor const & cur) const
{
if (displayMode() != DISPLAY_UNFOLDED)
return InsetMathNest::completionSupported(cur);
return lyxrc.completion_popup_math
&& displayMode() == DISPLAY_UNFOLDED
&& cur.bv().cursor().pos() == int(name().size());
}
bool InsetMathMacro::inlineCompletionSupported(Cursor const & cur) const
{
if (displayMode() != DISPLAY_UNFOLDED)
return InsetMathNest::inlineCompletionSupported(cur);
return lyxrc.completion_inline_math
&& displayMode() == DISPLAY_UNFOLDED
&& cur.bv().cursor().pos() == int(name().size());
}
bool InsetMathMacro::automaticInlineCompletion() const
{
if (displayMode() != DISPLAY_UNFOLDED)
return InsetMathNest::automaticInlineCompletion();
return lyxrc.completion_inline_math;
}
bool InsetMathMacro::automaticPopupCompletion() const
{
if (displayMode() != DISPLAY_UNFOLDED)
return InsetMathNest::automaticPopupCompletion();
return lyxrc.completion_popup_math;
}
CompletionList const *
InsetMathMacro::createCompletionList(Cursor const & cur) const
{
if (displayMode() != DISPLAY_UNFOLDED)
return InsetMathNest::createCompletionList(cur);
return new MathCompletionList(cur.bv().cursor());
}
docstring InsetMathMacro::completionPrefix(Cursor const & cur) const
{
if (displayMode() != DISPLAY_UNFOLDED)
return InsetMathNest::completionPrefix(cur);
if (!completionSupported(cur))
return docstring();
return "\\" + name();
}
bool InsetMathMacro::insertCompletion(Cursor & cur, docstring const & s,
bool finished)
{
if (displayMode() != DISPLAY_UNFOLDED)
return InsetMathNest::insertCompletion(cur, s, finished);
if (!completionSupported(cur))
return false;
// append completion
docstring newName = name() + s;
asArray(newName, cell(0));
cur.bv().cursor().pos() = name().size();
cur.screenUpdateFlags(Update::SinglePar);
// finish macro
if (finished) {
cur.bv().cursor().pop();
++cur.bv().cursor().pos();
cur.screenUpdateFlags(Update::SinglePar);
}
return true;
}
void InsetMathMacro::completionPosAndDim(Cursor const & cur, int & x, int & y,
Dimension & dim) const
{
if (displayMode() != DISPLAY_UNFOLDED)
InsetMathNest::completionPosAndDim(cur, x, y, dim);
// get inset dimensions
dim = cur.bv().coordCache().insets().dim(this);
// FIXME: these 3 are no accurate, but should depend on the font.
// Now the popup jumps down if you enter a char with descent > 0.
dim.des += 3;
dim.asc += 3;
// and position
Point xy
= cur.bv().coordCache().insets().xy(this);
x = xy.x_;
y = xy.y_;
}
void InsetMathMacro::setBuffer(Buffer & buffer)
{
d->definition_.setBuffer(buffer);
InsetMathNest::setBuffer(buffer);
}
} // namespace lyx