#include "MathCompletionList.h"
#include "MathData.h"
#include "MathFactory.h"
-#include "MathMacro.h"
-#include "MathMacroArgument.h"
+#include "InsetMathMacro.h"
+#include "InsetMathMacroArgument.h"
#include "MathParser.h"
#include "MathStream.h"
#include "MathSupport.h"
void InsetMathNest::setBuffer(Buffer & buffer)
{
InsetMath::setBuffer(buffer);
- for (idx_type i = 0, n = nargs(); i != n; ++i) {
- MathData & data = cell(i);
- for (size_t j = 0; j != data.size(); ++j)
- data[j].nucleus()->setBuffer(buffer);
- }
+ for (MathData & data : cells_)
+ data.setBuffer(buffer);
}
// move cursor visually into empty cells ("blue rectangles");
if (ar.empty()) {
Dimension const dim = coord_cache.getArrays().dim(&ar);
- x += dim.wid / 2;
+ x += dim.wid / 3;
}
}
}
-void InsetMathNest::updateBuffer(ParIterator const & it, UpdateType utype)
+void InsetMathNest::updateBuffer(ParIterator const & it, UpdateType utype, bool const deleted)
{
for (idx_type i = 0, n = nargs(); i != n; ++i)
- cell(i).updateBuffer(it, utype);
+ cell(i).updateBuffer(it, utype, deleted);
}
if (cur.idx() == 0)
return false;
--cur.idx();
- cur.pos() = cur.lastpos();
+ cur.pos() = lyxrc.mac_like_cursor_movement ? cur.lastpos() : 0;
return true;
}
LASSERT(&cur.inset() == this, return false);
if (nargs() == 0)
return false;
- cur.idx() = 0;
+ cur.idx() = firstIdx();
cur.pos() = 0;
return true;
}
LASSERT(&cur.inset() == this, return false);
if (nargs() == 0)
return false;
- cur.idx() = cur.lastidx();
+ cur.idx() = lastIdx();
cur.pos() = cur.lastpos();
return true;
}
}
-void InsetMathNest::drawSelection(PainterInfo & pi, int x, int y) const
-{
- BufferView & bv = *pi.base.bv;
- // this should use the x/y values given, not the cached values
- Cursor & cur = bv.cursor();
- if (!cur.selection())
- return;
- if (&cur.inset() != this)
- return;
-
- // FIXME: hack to get position cache warm
- bool const original_drawing_state = pi.pain.isDrawingEnabled();
- pi.pain.setDrawingEnabled(false);
- draw(pi, x, y);
- pi.pain.setDrawingEnabled(original_drawing_state);
-
- CursorSlice s1 = cur.selBegin();
- CursorSlice s2 = cur.selEnd();
-
- //lyxerr << "InsetMathNest::drawing selection: "
- // << " s1: " << s1 << " s2: " << s2 << endl;
- if (s1.idx() == s2.idx()) {
- MathData const & c = cell(s1.idx());
- Geometry const & g = bv.coordCache().getArrays().geometry(&c);
- int x1 = g.pos.x_ + c.pos2x(pi.base.bv, s1.pos());
- int y1 = g.pos.y_ - g.dim.ascent();
- int x2 = g.pos.x_ + c.pos2x(pi.base.bv, s2.pos());
- int y2 = g.pos.y_ + g.dim.descent();
- pi.pain.fillRectangle(x1, y1, x2 - x1, y2 - y1, Color_selection);
- //lyxerr << "InsetMathNest::drawing selection 3: "
- // << " x1: " << x1 << " x2: " << x2
- // << " y1: " << y1 << " y2: " << y2 << endl;
- } else {
- for (idx_type i = 0; i < nargs(); ++i) {
- if (idxBetween(i, s1.idx(), s2.idx())) {
- MathData const & c = cell(i);
- Geometry const & g = bv.coordCache().getArrays().geometry(&c);
- int x1 = g.pos.x_;
- int y1 = g.pos.y_ - g.dim.ascent();
- int x2 = g.pos.x_ + g.dim.width();
- int y2 = g.pos.y_ + g.dim.descent();
- pi.pain.fillRectangle(x1, y1, x2 - x1, y2 - y1, Color_selection);
- }
- }
- }
-}
-
-
void InsetMathNest::validate(LaTeXFeatures & features) const
{
for (idx_type i = 0; i < nargs(); ++i)
ModeSpecifier specifier(os, currentMode(), lockedMode());
docstring const latex_name = name();
os << '\\' << latex_name;
+ os.inMathClass(asClassInset());
for (size_t i = 0; i < nargs(); ++i) {
Changer dummy = os.changeRowEntry(TexRow::mathEntry(id(),i));
os << '{' << cell(i) << '}';
os << "\\lyxlock";
os.pendingSpace(true);
}
+ os.inMathClass(false);
}
WriteStream wi(os, runparams.moving_arg, true,
runparams.dryrun ? WriteStream::wsDryrun : WriteStream::wsDefault,
runparams.encoding);
- wi.strikeoutMath(runparams.inDeletedInset
- && (!LaTeXFeatures::isAvailable("dvipost")
- || (runparams.flavor != OutputParams::LATEX
- && runparams.flavor != OutputParams::DVILUATEX)));
+ wi.strikeoutMath(runparams.inDeletedInset);
if (runparams.inulemcmd) {
wi.ulemCmd(WriteStream::UNDERLINE);
if (runparams.local_font) {
Changer dummy = wi.changeRowEntry(TexRow::textEntry(runparams.lastid,
runparams.lastpos));
write(wi);
- // Reset parbreak status after a math inset.
+ // Reset parbreak and command termination status after a math inset.
os.lastChar(0);
os.canBreakLine(wi.canBreakLine());
+ os.terminateCommand(false);
}
// FIXME: support other font changes here as well?
}
-
void InsetMathNest::doDispatch(Cursor & cur, FuncRequest & cmd)
{
//LYXERR0("InsetMathNest: request: " << cmd);
case LFUN_CUT:
cur.recordUndo();
- cutSelection(cur, true, true);
+ cutSelection(cur, true);
cur.message(_("Cut"));
// Prevent stale position >= size crash
// Probably not necessary anymore, see eraseSelection (gb 2005-10-09)
|| act == LFUN_PARAGRAPH_UP_SELECT;
cur.selHandle(select);
- // handle autocorrect:
- if (lyxrc.autocorrection_math && cur.autocorrect()) {
- cur.autocorrect() = false;
- cur.message(_("Autocorrect Off ('!' to enter)"));
- }
-
// go up/down
bool up = act == LFUN_UP || act == LFUN_UP_SELECT
|| act == LFUN_PARAGRAPH_UP || act == LFUN_PARAGRAPH_UP_SELECT;
case LFUN_MOUSE_DOUBLE:
case LFUN_WORD_SELECT:
cur.pos() = 0;
- cur.resetAnchor();
- cur.selection(true);
+ cur.bv().mouseSetCursor(cur);
cur.pos() = cur.lastpos();
- cur.bv().cursor() = cur;
+ cur.bv().mouseSetCursor(cur, true);
break;
case LFUN_MOUSE_TRIPLE:
cur.idx() = 0;
cur.pos() = 0;
- cur.resetAnchor();
- cur.selection(true);
+ cur.bv().mouseSetCursor(cur);
cur.idx() = cur.lastidx();
cur.pos() = cur.lastpos();
- cur.bv().cursor() = cur;
+ cur.bv().mouseSetCursor(cur, true);
break;
case LFUN_LINE_BEGIN:
case LFUN_CELL_FORWARD:
cur.screenUpdateFlags(Update::Decoration | Update::FitCursor);
- cur.inset().idxNext(cur);
+ cur.selHandle(false);
+ cur.clearTargetX();
+ cur.macroModeClose();
+ if (!cur.inset().idxNext(cur)) {
+ cur.idx() = firstIdx();
+ cur.pos() = 0;
+ }
break;
case LFUN_CELL_BACKWARD:
cur.screenUpdateFlags(Update::Decoration | Update::FitCursor);
- cur.inset().idxPrev(cur);
+ cur.selHandle(false);
+ cur.clearTargetX();
+ cur.macroModeClose();
+ if (!cur.inset().idxPrev(cur)) {
+ cur.idx() = lastIdx();
+ cur.pos() = lyxrc.mac_like_cursor_movement ? cur.lastpos() : 0;
+ }
break;
case LFUN_WORD_DELETE_BACKWARD:
cur.recordUndoSelection();
// if the inset can not be removed from within, delete it
if (!cur.backspace(cmd.getArg(0) == "force")) {
- FuncRequest cmd = FuncRequest(LFUN_CHAR_DELETE_FORWARD, "force");
- cur.innerText()->dispatch(cur, cmd);
+ FuncRequest newcmd = FuncRequest(LFUN_CHAR_DELETE_FORWARD, "force");
+ cur.innerText()->dispatch(cur, newcmd);
}
break;
cur.recordUndoSelection();
// if the inset can not be removed from within, delete it
if (!cur.erase(cmd.getArg(0) == "force")) {
- FuncRequest cmd = FuncRequest(LFUN_CHAR_DELETE_FORWARD, "force");
- cur.innerText()->dispatch(cur, cmd);
+ FuncRequest newcmd = FuncRequest(LFUN_CHAR_DELETE_FORWARD, "force");
+ cur.innerText()->dispatch(cur, newcmd);
}
break;
if (cur.selection())
cur.clearSelection();
else {
- cmd = FuncRequest(LFUN_FINISHED_FORWARD);
- cur.undispatched();
+ if (cur.inMacroMode())
+ cur.macroModeClose(true);
+ else {
+ cmd = FuncRequest(LFUN_FINISHED_FORWARD);
+ cur.undispatched();
+ }
}
break;
break;
case LFUN_SELF_INSERT:
- if (cmd.argument().size() != 1) {
- cur.recordUndoSelection();
- docstring const arg = cmd.argument();
- if (!interpretString(cur, arg))
- cur.insert(arg);
+ // special case first for big delimiters
+ if (cmd.argument().size() != 1 && interpretString(cur, cmd.argument()))
break;
- }
- // Don't record undo steps if we are in macro mode and thus
- // cmd.argument is the next character of the macro name.
- // Otherwise we'll get an invalid cursor if we undo after
- // the macro was finished and the macro is a known command,
- // e.g. sqrt. Cursor::macroModeClose replaces in this case
- // the InsetMathUnknown with name "frac" by an empty
- // InsetMathFrac -> a pos value > 0 is invalid.
- // A side effect is that an undo before the macro is finished
- // undoes the complete macro, not only the last character.
- // At the time we hit '\' we are not in macro mode, still.
- if (!cur.inMacroMode())
- cur.recordUndoSelection();
- // spacial handling of space. If we insert an inset
- // via macro mode, we want to put the cursor inside it
- // if relevant. Think typing "\frac<space>".
- if (cmd.argument()[0] == ' '
- && cur.inMacroMode() && cur.macroName() != "\\"
- && cur.macroModeClose() && cur.pos() > 0) {
- MathAtom const atom = cur.prevAtom();
- if (atom->asNestInset() && atom->isActive()) {
- cur.posBackward();
- cur.pushBackward(*cur.nextInset());
+ for (char_type c : cmd.argument()) {
+ // Don't record undo steps if we are in macro mode and thus
+ // cmd.argument is the next character of the macro name.
+ // Otherwise we'll get an invalid cursor if we undo after
+ // the macro was finished and the macro is a known command,
+ // e.g. sqrt. Cursor::macroModeClose replaces in this case
+ // the InsetMathUnknown with name "frac" by an empty
+ // InsetMathFrac -> a pos value > 0 is invalid.
+ // A side effect is that an undo before the macro is finished
+ // undoes the complete macro, not only the last character.
+ // At the time we hit '\' we are not in macro mode, still.
+ if (!cur.inMacroMode())
+ cur.recordUndoSelection();
+
+ // special handling of space. If we insert an inset
+ // via macro mode, we want to put the cursor inside it
+ // if relevant. Think typing "\frac<space>".
+ if (c == ' '
+ && cur.inMacroMode() && cur.macroName() != "\\"
+ && cur.macroModeClose() && cur.pos() > 0)
+ cur.editInsertedInset();
+ else if (!interpretChar(cur, c)) {
+ cmd = FuncRequest(LFUN_FINISHED_FORWARD);
+ cur.undispatched();
+ // FIXME: can we avoid skipping the end of the string?
+ break;
}
- } else if (!interpretChar(cur, cmd.argument()[0])) {
- cmd = FuncRequest(LFUN_FINISHED_FORWARD);
- cur.undispatched();
}
break;
int y = 0;
istringstream is(to_utf8(cmd.argument()));
is >> x >> y;
- cur.setScreenPos(x, y);
+ cur.setTargetX(x);
break;
}
// check if we have a valid decoration
if (name != "pmatrix" && name != "bmatrix"
&& name != "Bmatrix" && name != "vmatrix"
- && name != "Vmatrix" && name != "matrix")
+ && name != "Vmatrix" && name != "matrix"
+ && name != "smallmatrix")
name = from_ascii("matrix");
cur.niceInsert(
bool fold = act == LFUN_MATH_MACRO_FOLD;
bool found = findMacroToFoldUnfold(it, fold);
if (found) {
- MathMacro * macro = it.nextInset()->asInsetMath()->asMacro();
+ InsetMathMacro * macro = it.nextInset()->asInsetMath()->asMacro();
cur.recordUndoInset();
if (fold)
macro->fold(cur);
cur.recordUndoSelection();
if (cmd.argument() == "^" || cmd.argument() == "_")
interpretChar(cur, cmd.argument()[0]);
+ else if (!cur.selection())
+ cur.niceInsert(cmd.argument());
else {
- MathData ar;
+ MathData ar(cur.buffer());
asArray(cmd.argument(), ar);
- if (cur.selection() && ar.size() == 1
+ if (ar.size() == 1
&& ar[0]->asNestInset()
&& ar[0]->asNestInset()->nargs() > 1)
handleNest(cur, ar[0]);
break;
}
- case LFUN_UNICODE_INSERT: {
- if (cmd.argument().empty())
- break;
- docstring hexstring = cmd.argument();
- if (isHex(hexstring)) {
- char_type c = hexToInt(hexstring);
- if (c >= 32 && c < 0x10ffff) {
- docstring s = docstring(1, c);
- FuncCode code = currentMode() == MATH_MODE ?
- LFUN_MATH_INSERT : LFUN_SELF_INSERT;
- lyx::dispatch(FuncRequest(code, s));
- }
- }
- break;
- }
-
case LFUN_DIALOG_SHOW_NEW_INSET: {
docstring const & name = cmd.argument();
string data;
}
break;
+ case LFUN_MATH_LIMITS: {
+ InsetMath * in = 0;
+ if (cur.pos() < cur.lastpos() && cur.nextMath().allowsLimitsChange())
+ in = &cur.nextMath();
+ else if (cur.pos() > 0 && cur.prevMath().allowsLimitsChange())
+ in = &cur.prevMath();
+ else if (cur.lastpos() > 0 && cur.cell().back()->allowsLimitsChange())
+ in = cur.cell().back().nucleus();
+ // only when nucleus allows this
+ if (!in)
+ return;
+ cur.recordUndoInset();
+ if (!cmd.argument().empty()) {
+ if (cmd.argument() == "limits")
+ in->limits(LIMITS);
+ else if (cmd.argument() == "nolimits")
+ in->limits(NO_LIMITS);
+ else
+ in->limits(AUTO_LIMITS);
+ } else if (in->limits() == AUTO_LIMITS)
+ in->limits(in->defaultLimits() == LIMITS ? NO_LIMITS : LIMITS);
+ else
+ in->limits(AUTO_LIMITS);
+ return;
+ }
+
default:
InsetMath::doDispatch(cur, cmd);
break;
// go backward through the current cell
Inset * inset = it.nextInset();
while (inset && inset->asInsetMath()) {
- MathMacro * macro = inset->asInsetMath()->asMacro();
+ InsetMathMacro * macro = inset->asInsetMath()->asMacro();
if (macro) {
// found the an macro to open/close?
if (macro->folded() != fold)
bool ret = true;
string const arg = to_utf8(cmd.argument());
switch (cmd.action()) {
- case LFUN_INSET_MODIFY:
- flag.setEnabled(false);
- break;
#if 0
case LFUN_INSET_MODIFY:
// FIXME: check temporarily disabled
case LFUN_INSET_INSERT: {
// Don't test createMathInset_fromDialogStr(), since
// getStatus is not called with a valid reference and the
- // dialog would not be applyable.
+ // dialog would not be applicable.
string const name = cmd.getArg(0);
flag.setEnabled(name == "ref" || name == "mathspace");
break;
break;
}
+ case LFUN_MATH_LIMITS: {
+ InsetMath * in = 0;
+ if (cur.pos() < cur.lastpos() && cur.nextMath().allowsLimitsChange())
+ in = &cur.nextMath();
+ else if (cur.pos() > 0 && cur.prevMath().allowsLimitsChange())
+ in = &cur.prevMath();
+ else if (cur.lastpos() > 0 && cur.cell().back()->allowsLimitsChange())
+ in = cur.cell().back().nucleus();
+ if (in) {
+ if (!cmd.argument().empty()) {
+ if (cmd.argument() == "limits")
+ flag.setOnOff(in->limits() == LIMITS);
+ else if (cmd.argument() == "nolimits")
+ flag.setOnOff(in->limits() == NO_LIMITS);
+ else
+ flag.setOnOff(in->limits() == AUTO_LIMITS);
+ }
+ flag.setEnabled(true);
+ } else
+ flag.setEnabled(false);
+ return true;
+ }
+
default:
ret = false;
break;
void InsetMathNest::edit(Cursor & cur, bool front, EntryDirection entry_from)
{
cur.push(*this);
- bool enter_front = (entry_from == Inset::ENTRY_DIRECTION_RIGHT ||
+ bool enter_front = (entry_from == Inset::ENTRY_DIRECTION_LEFT ||
(entry_from == Inset::ENTRY_DIRECTION_IGNORE && front));
- cur.idx() = enter_front ? 0 : cur.lastidx();
- cur.pos() = enter_front ? 0 : cur.lastpos();
+ enter_front ? idxFirst(cur) : idxLast(cur);
cur.resetAnchor();
//lyxerr << "InsetMathNest::edit, cur:\n" << cur << endl;
}
Inset * InsetMathNest::editXY(Cursor & cur, int x, int y)
{
- int idx_min = 0;
+ int idx_min = -1;
int dist_min = 1000000;
for (idx_type i = 0, n = nargs(); i != n; ++i) {
int const d = cell(i).dist(cur.bv(), x, y);
idx_min = i;
}
}
+ if (idx_min == -1)
+ return this;
+
MathData & ar = cell(idx_min);
cur.push(*this);
cur.idx() = idx_min;
return;
}
}
+
+ // set cursor after the inset if x is nearer to that position (bug 9748)
+ cur.moveToClosestEdge(cmd.x(), true);
+
bool do_selection = cmd.button() == mouse_button::button1
&& cmd.modifier() == ShiftModifier;
bv.mouseSetCursor(cur, do_selection);
return;
}
+ // set cursor after the inset if x is nearer to that position (bug 9748)
+ cur.moveToClosestEdge(cmd.x());
+
CursorSlice old = bvcur.top();
// We continue with our existing selection or start a new one, so don't
bool InsetMathNest::interpretChar(Cursor & cur, char_type const c)
{
+ // try auto-correction
+ if (lyxrc.autocorrection_math && cur.pos() != 0
+ && math_autocorrect(cur, c))
+ return true;
+
//lyxerr << "interpret 2: '" << c << "'" << endl;
docstring save_selection;
if (c == '^' || c == '_')
cur.backspace();
int n = c - '0';
if (n >= 1 && n <= 9)
- cur.insert(new MathMacroArgument(n));
+ cur.insert(new InsetMathMacroArgument(n));
return true;
}
MathAtom const atom = cur.prevAtom();
if (atom->asNestInset() && atom->isActive()) {
cur.posBackward();
- cur.pushBackward(*cur.nextInset());
+ cur.nextInset()->edit(cur, true);
}
}
if (c == '{')
}
- // leave autocorrect mode if necessary
- if (lyxrc.autocorrection_math && c == ' ' && cur.autocorrect()) {
- cur.autocorrect() = false;
- cur.message(_("Autocorrect Off ('!' to enter)"));
- return true;
- }
- if (lyxrc.autocorrection_math && c == '!' && !cur.autocorrect()) {
- cur.autocorrect() = true;
- cur.message(_("Autocorrect On (<space> to exit)"));
- return true;
- }
-
// just clear selection on pressing the space bar
if (cur.selection() && c == ' ') {
cur.selection(false);
if (currentMode() == InsetMath::MATH_MODE && Encodings::isUnicodeTextOnly(c)) {
MathAtom at = createInsetMath("text", buf);
at.nucleus()->cell(0).push_back(MathAtom(new InsetMathChar(c)));
- cur.niceInsert(at);
+ cur.insert(at);
cur.posForward();
return true;
}
return true;
}
-
- // try auto-correction
- if (lyxrc.autocorrection_math && cur.autocorrect() && cur.pos() != 0
- && math_autocorrect(cur.prevAtom(), c))
- return true;
-
// no special circumstances, so insert the character without any fuss
cur.insert(c);
- if (lyxrc.autocorrection_math) {
- if (!cur.autocorrect())
- cur.message(_("Autocorrect Off ('!' to enter)"));
- else
- cur.message(_("Autocorrect On (<space> to exit)"));
- }
return true;
}
bool InsetMathNest::interpretString(Cursor & cur, docstring const & str)
{
+ if (str == "\\limits" || str == "\\nolimits") {
+ if (cur.pos() > 0 && cur.prevMath().allowsLimitsChange()) {
+ cur.prevMath().limits(str == "\\limits" ? LIMITS : NO_LIMITS);
+ return true;
+ } else {
+ cur.message(bformat(_("Cannot apply %1$s here."), str));
+ return false;
+ }
+ }
// Create a InsetMathBig from cur.cell()[cur.pos() - 1] and t if
// possible
if (!cur.empty() && cur.pos() > 0 &&
prev = prev.substr(1);
latexkeys const * l = in_word_set(prev);
if (l && l->inset == "big") {
+ cur.recordUndoSelection();
cur.cell()[cur.pos() - 1] =
MathAtom(new InsetMathBig(prev, str));
return true;
#if 0
// FIXME: this creates duplicates in the completion popup
// which looks ugly. Moreover the changes the list lengths
- // which seems to
- confuse the popup as well.
+ // which seems to confuse the popup as well.
MathCompletionList::addToFavorites(inset->name());
#endif
lyx::dispatch(FuncRequest(LFUN_SELF_INSERT, " "));
else
cmd = locals[idx];
- // get the icon resource name by stripping the backslash
+ // get the icon name by stripping the backslash
docstring icon_name = frontend::Application::mathIcon(cmd.substr(1));
if (icon_name.empty())
return std::string();
- return "images/math/" + to_utf8(icon_name);
+ return "math/" + to_utf8(icon_name);
}
std::vector<docstring> MathCompletionList::globals;