/* * \file CutAndPaste.C * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Jürgen Vigna * \author Lars Gullik Bjønnes * \author Alfredo Braunstein * * Full author contact details are available in file CREDITS. */ #include #include "CutAndPaste.h" #include "buffer.h" #include "buffer_funcs.h" #include "bufferparams.h" #include "BufferView.h" #include "cursor.h" #include "debug.h" #include "errorlist.h" #include "funcrequest.h" #include "gettext.h" #include "lfuns.h" #include "lyxrc.h" #include "lyxtext.h" #include "lyxtextclasslist.h" #include "paragraph.h" #include "paragraph_funcs.h" #include "ParagraphParameters.h" #include "ParagraphList_fwd.h" #include "pariterator.h" #include "undo.h" #include "insets/insettabular.h" #include "mathed/math_data.h" #include "mathed/math_inset.h" #include "mathed/math_support.h" #include "support/lstrings.h" #include using lyx::pos_type; using lyx::par_type; using lyx::textclass_type; using lyx::support::bformat; using std::endl; using std::for_each; using std::make_pair; using std::pair; using std::vector; using std::string; namespace { typedef std::pair PitPosPair; typedef limited_stack > CutStack; CutStack theCuts(10); struct resetOwnerAndChanges : public std::unary_function { void operator()(Paragraph & p) const { p.cleanChanges(); p.setInsetOwner(0); } }; void region(CursorSlice const & i1, CursorSlice const & i2, InsetBase::row_type & r1, InsetBase::row_type & r2, InsetBase::col_type & c1, InsetBase::col_type & c2) { InsetBase & p = i1.inset(); c1 = p.col(i1.idx()); c2 = p.col(i2.idx()); if (c1 > c2) std::swap(c1, c2); r1 = p.row(i1.idx()); r2 = p.row(i2.idx()); if (r1 > r2) std::swap(r1, r2); } bool checkPastePossible(int index) { return size_t(index) < theCuts.size() && !theCuts[index].first.empty(); } pair pasteSelectionHelper(Buffer const & buffer, ParagraphList & pars, par_type pit, int pos, textclass_type tc, size_t cut_index, ErrorList & errorlist) { if (!checkPastePossible(cut_index)) return make_pair(PitPosPair(pit, pos), pit); BOOST_ASSERT (pos <= pars[pit].size()); // Make a copy of the CaP paragraphs. ParagraphList insertion = theCuts[cut_index].first; textclass_type const textclass = theCuts[cut_index].second; // Now remove all out of the pars which is NOT allowed in the // new environment and set also another font if that is required. // Make sure there is no class difference. lyx::cap::SwitchLayoutsBetweenClasses(textclass, tc, insertion, errorlist); ParagraphList::iterator tmpbuf = insertion.begin(); int depth_delta = pars[pit].params().depth() - tmpbuf->params().depth(); Paragraph::depth_type max_depth = pars[pit].getMaxDepthAfter(); for (; tmpbuf != insertion.end(); ++tmpbuf) { // If we have a negative jump so that the depth would // go below 0 depth then we have to redo the delta to // this new max depth level so that subsequent // paragraphs are aligned correctly to this paragraph // at level 0. if (int(tmpbuf->params().depth()) + depth_delta < 0) depth_delta = 0; // Set the right depth so that we are not too deep or shallow. tmpbuf->params().depth(tmpbuf->params().depth() + depth_delta); if (tmpbuf->params().depth() > max_depth) tmpbuf->params().depth(max_depth); // Only set this from the 2nd on as the 2nd depends // for maxDepth still on pit. if (tmpbuf != insertion.begin()) max_depth = tmpbuf->getMaxDepthAfter(); // Set the inset owner of this paragraph. tmpbuf->setInsetOwner(pars[pit].inInset()); for (pos_type i = 0; i < tmpbuf->size(); ++i) { if (tmpbuf->getChar(i) == Paragraph::META_INSET) { if (!pars[pit].insetAllowed(tmpbuf->getInset(i)->lyxCode())) tmpbuf->erase(i--); } } } // Make the buf exactly the same layout as the cursor paragraph. insertion.begin()->makeSameLayout(pars[pit]); // Prepare the paragraphs and insets for insertion. // A couple of insets store buffer references so need updating. InsetText in; std::swap(in.paragraphs(), insertion); ParIterator fpit = par_iterator_begin(in); ParIterator fend = par_iterator_end(in); for (; fpit != fend; ++fpit) { InsetList::iterator lit = fpit->insetlist.begin(); InsetList::iterator eit = fpit->insetlist.end(); for (; lit != eit; ++lit) { switch (lit->inset->lyxCode()) { case InsetOld::TABULAR_CODE: { InsetTabular * it = static_cast(lit->inset); it->buffer(const_cast(&buffer)); break; } default: break; // nothing } } } std::swap(in.paragraphs(), insertion); // Split the paragraph for inserting the buf if necessary. bool did_split = false; if (pars[pit].size() || pit + 1 == par_type(pars.size())) { breakParagraphConservative(buffer.params(), pars, pit, pos); did_split = true; } // Paste it! pars.insert(pars.begin() + pit + 1, insertion.begin(), insertion.end()); mergeParagraph(buffer.params(), pars, pit); par_type last_paste = pit + insertion.size() - 1; // Store the new cursor position. pit = last_paste; pos = pars[last_paste].size(); // Maybe some pasting. if (did_split && last_paste + 1 != par_type(pars.size())) { if (pars[last_paste + 1].hasSameLayout(pars[last_paste])) { mergeParagraph(buffer.params(), pars, last_paste); } else if (pars[last_paste + 1].empty()) { pars[last_paste + 1].makeSameLayout(pars[last_paste]); mergeParagraph(buffer.params(), pars, last_paste); } else if (pars[last_paste].empty()) { pars[last_paste].makeSameLayout(pars[last_paste + 1]); mergeParagraph(buffer.params(), pars, last_paste); } else { pars[last_paste + 1].stripLeadingSpaces(); ++last_paste; } } return make_pair(PitPosPair(pit, pos), last_paste + 1); } PitPosPair eraseSelectionHelper(BufferParams const & params, ParagraphList & pars, par_type startpit, par_type endpit, int startpos, int endpos, bool doclear) { if (startpit == par_type(pars.size()) || (startpos > pars[startpit].size())) return PitPosPair(endpit, endpos); if (endpit == par_type(pars.size()) || startpit == endpit) { endpos -= pars[startpit].erase(startpos, endpos); return PitPosPair(endpit, endpos); } // clear end/begin fragments of the first/last par in selection bool all_erased = true; pars[startpit].erase(startpos, pars[startpit].size()); if (pars[startpit].size() != startpos) all_erased = false; endpos -= pars[endpit].erase(0, endpos); if (endpos != 0) all_erased = false; // Loop through the deleted pars if any, erasing as needed for (par_type pit = startpit + 1; pit != endpit;) { // "erase" the contents of the par pars[pit].erase(0, pars[pit].size()); if (!pars[pit].size()) { // remove the par if it's now empty pars.erase(pars.begin() + pit); --endpit; } else { ++pit; all_erased = false; } } #if 0 // FIXME: why for cut but not copy ? // the cut selection should begin with standard layout if (realcut) { buf->params().clear(); buf->bibkey = 0; buf->layout(textclasslist[buffer->params.textclass].defaultLayoutName()); } #endif if (startpit + 1 == par_type(pars.size())) return PitPosPair(endpit, endpos); if (doclear) { pars[startpit + 1].stripLeadingSpaces(); } // paste the paragraphs again, if possible if (all_erased && (pars[startpit].hasSameLayout(pars[startpit + 1]) || pars[startpit + 1].empty())) { mergeParagraph(params, pars, startpit); // this because endpar gets deleted here! endpit = startpit; endpos = startpos; } return PitPosPair(endpit, endpos); } void copySelectionHelper(ParagraphList & pars, par_type startpit, par_type endpit, int start, int end, textclass_type tc) { BOOST_ASSERT(0 <= start && start <= pars[startpit].size()); BOOST_ASSERT(0 <= end && end <= pars[endpit].size()); BOOST_ASSERT(startpit != endpit || start <= end); // Clone the paragraphs within the selection. ParagraphList paragraphs(pars.begin() + startpit, pars.begin() + endpit + 1); for_each(paragraphs.begin(), paragraphs.end(), resetOwnerAndChanges()); // Cut out the end of the last paragraph. Paragraph & back = paragraphs.back(); back.erase(end, back.size()); // Cut out the begin of the first paragraph Paragraph & front = paragraphs.front(); front.erase(0, start); theCuts.push(make_pair(paragraphs, tc)); } PitPosPair cutSelectionHelper(BufferParams const & params, ParagraphList & pars, par_type startpit, par_type endpit, int startpos, int endpos, textclass_type tc, bool doclear) { copySelectionHelper(pars, startpit, endpit, startpos, endpos, tc); return eraseSelectionHelper(params, pars, startpit, endpit, startpos, endpos, doclear); } } // namespace anon namespace lyx { namespace cap { string grabAndEraseSelection(LCursor & cur) { if (!cur.selection()) return string(); string res = grabSelection(cur); eraseSelection(cur); cur.selection() = false; return res; } int SwitchLayoutsBetweenClasses(textclass_type c1, textclass_type c2, ParagraphList & pars, ErrorList & errorlist) { BOOST_ASSERT(!pars.empty()); int ret = 0; if (c1 == c2) return ret; LyXTextClass const & tclass1 = textclasslist[c1]; LyXTextClass const & tclass2 = textclasslist[c2]; InsetText in; std::swap(in.paragraphs(), pars); ParIterator end = par_iterator_end(in); for (ParIterator it = par_iterator_begin(in); it != end; ++it) { string const name = it->layout()->name(); bool hasLayout = tclass2.hasLayout(name); if (hasLayout) it->layout(tclass2[name]); else it->layout(tclass2.defaultLayout()); if (!hasLayout && name != tclass1.defaultLayoutName()) { ++ret; string const s = bformat( _("Layout had to be changed from\n%1$s to %2$s\n" "because of class conversion from\n%3$s to %4$s"), name, it->layout()->name(), tclass1.name(), tclass2.name()); // To warn the user that something had to be done. errorlist.push_back(ErrorItem("Changed Layout", s, it->id(), 0, it->size())); } } std::swap(in.paragraphs(), pars); return ret; } std::vector const availableSelections(Buffer const & buffer) { vector selList; CutStack::const_iterator cit = theCuts.begin(); CutStack::const_iterator end = theCuts.end(); for (; cit != end; ++cit) { // we do not use cit-> here because gcc 2.9x does not // like it (JMarc) ParagraphList const & pars = (*cit).first; string asciiSel; ParagraphList::const_iterator pit = pars.begin(); ParagraphList::const_iterator pend = pars.end(); for (; pit != pend; ++pit) { asciiSel += pit->asString(buffer, false); if (asciiSel.size() > 25) { asciiSel.replace(22, string::npos, "..."); break; } } selList.push_back(asciiSel); } return selList; } int nrOfParagraphs() { return theCuts.empty() ? 0 : theCuts[0].first.size(); } void cutSelection(LCursor & cur, bool doclear, bool realcut) { if (cur.inTexted()) { LyXText * text = cur.text(); BOOST_ASSERT(text); // Stuff what we got on the clipboard. Even if there is no selection. // There is a problem with having the stuffing here in that the // larger the selection the slower LyX will get. This can be // solved by running the line below only when the selection has // finished. The solution used currently just works, to make it // faster we need to be more clever and probably also have more // calls to stuffClipboard. (Lgb) cur.bv().stuffClipboard(cur.selectionAsString(true)); // This doesn't make sense, if there is no selection if (!cur.selection()) return; // OK, we have a selection. This is always between cur.selBegin() // and cur.selEnd() // make sure that the depth behind the selection are restored, too recordUndoSelection(cur); par_type begpit = cur.selBegin().par(); par_type endpit = cur.selEnd().par(); int endpos = cur.selEnd().pos(); BufferParams const & bp = cur.buffer().params(); if (realcut) { copySelectionHelper(text->paragraphs(), begpit, endpit, cur.selBegin().pos(), endpos, bp.textclass); } boost::tie(endpit, endpos) = eraseSelectionHelper(bp, text->paragraphs(), begpit, endpit, cur.selBegin().pos(), endpos, doclear); // sometimes necessary if (doclear) text->paragraphs()[begpit].stripLeadingSpaces(); text->redoParagraphs(begpit, begpit + 1); // cutSelection can invalidate the cursor so we need to set // it anew. (Lgb) // we prefer the end for when tracking changes cur.pos() = endpos; cur.par() = endpit; // need a valid cursor. (Lgb) cur.clearSelection(); text->updateCounters(); } if (cur.inMathed()) { lyxerr << "cutSelection in mathed" << endl; LCursor tmp = cur; copySelection(cur); cur.selection() = false; eraseSelection(tmp); } } void copySelection(LCursor & cur) { // stuff the selection onto the X clipboard, from an explicit copy request cur.bv().stuffClipboard(cur.selectionAsString(true)); // this doesn't make sense, if there is no selection if (!cur.selection()) return; if (cur.inTexted()) { LyXText * text = cur.text(); BOOST_ASSERT(text); // ok we have a selection. This is always between cur.selBegin() // and sel_end cursor // copy behind a space if there is one ParagraphList & pars = text->paragraphs(); pos_type pos = cur.selBegin().pos(); par_type par = cur.selBegin().par(); while (pos < pars[par].size() && pars[par].isLineSeparator(pos) && (par != cur.selEnd().par() || pos < cur.selEnd().pos())) ++pos; copySelectionHelper(pars, par, cur.selEnd().par(), pos, cur.selEnd().pos(), cur.buffer().params().textclass); } if (cur.inMathed()) { lyxerr << "copySelection in mathed" << endl; ParagraphList pars; pars.push_back(Paragraph()); BufferParams const & bp = cur.buffer().params(); pars.back().layout(bp.getLyXTextClass().defaultLayout()); for_each(pars.begin(), pars.end(), resetOwnerAndChanges()); pars.back().insert(0, grabSelection(cur), LyXFont()); theCuts.push(make_pair(pars, bp.textclass)); } } std::string getSelection(Buffer const & buf, size_t sel_index) { return sel_index < theCuts.size() ? theCuts[sel_index].first.back().asString(buf, false) : string(); } void pasteSelection(LCursor & cur, size_t sel_index) { // this does not make sense, if there is nothing to paste lyxerr << "#### pasteSelection " << sel_index << endl; if (!checkPastePossible(sel_index)) return; if (cur.inTexted()) { LyXText * text = cur.text(); BOOST_ASSERT(text); recordUndo(cur); par_type endpit; PitPosPair ppp; ErrorList el; boost::tie(ppp, endpit) = pasteSelectionHelper(cur.buffer(), text->paragraphs(), cur.par(), cur.pos(), cur.buffer().params().textclass, sel_index, el); bufferErrors(cur.buffer(), el); cur.bv().showErrorList(_("Paste")); text->redoParagraphs(cur.par(), endpit); cur.clearSelection(); cur.resetAnchor(); text->setCursor(cur, ppp.first, ppp.second); cur.setSelection(); text->updateCounters(); } if (cur.inMathed()) { lyxerr << "### should be handled in MathNest/GridInset" << endl; } } void setSelectionRange(LCursor & cur, pos_type length) { LyXText * text = cur.text(); BOOST_ASSERT(text); if (!length) return; cur.resetAnchor(); while (length--) text->cursorRight(cur); cur.setSelection(); } // simple replacing. The font of the first selected character is used void replaceSelectionWithString(LCursor & cur, string const & str) { LyXText * text = cur.text(); BOOST_ASSERT(text); recordUndo(cur); // Get font setting before we cut pos_type pos = cur.selEnd().pos(); LyXFont const font = text->getPar(cur.selBegin().par()). getFontSettings(cur.buffer().params(), cur.selBegin().pos()); // Insert the new string string::const_iterator cit = str.begin(); string::const_iterator end = str.end(); for (; cit != end; ++cit, ++pos) text->getPar(cur.selEnd().par()).insertChar(pos, (*cit), font); // Cut the selection cutSelection(cur, true, false); } void replaceSelection(LCursor & cur) { if (cur.selection()) cutSelection(cur, true, false); } // only used by the spellchecker void replaceWord(LCursor & cur, string const & replacestring) { LyXText * text = cur.text(); BOOST_ASSERT(text); replaceSelectionWithString(cur, replacestring); setSelectionRange(cur, replacestring.length()); // Go back so that replacement string is also spellchecked for (string::size_type i = 0; i < replacestring.length() + 1; ++i) text->cursorLeft(cur); } void eraseSelection(LCursor & cur) { //lyxerr << "LCursor::eraseSelection" << endl; CursorSlice const & i1 = cur.selBegin(); CursorSlice const & i2 = cur.selEnd(); #ifdef WITH_WARNINGS #warning FIXME #endif if (i1.inset().asMathInset()) { if (i1.idx() == i2.idx()) { i1.cell().erase(i1.pos(), i2.pos()); } else { MathInset * p = i1.asMathInset(); InsetBase::row_type r1, r2; InsetBase::col_type c1, c2; region(i1, i2, r1, r2, c1, c2); for (InsetBase::row_type row = r1; row <= r2; ++row) for (InsetBase::col_type col = c1; col <= c2; ++col) p->cell(p->index(row, col)).clear(); } cur.back() = i1; } else { lyxerr << "can't erase this selection 1" << endl; } //lyxerr << "LCursor::eraseSelection end" << endl; } void selDel(LCursor & cur) { //lyxerr << "LCursor::selDel" << endl; if (cur.selection()) { eraseSelection(cur); cur.selection() = false; } } void selClearOrDel(LCursor & cur) { //lyxerr << "LCursor::selClearOrDel" << endl; if (lyxrc.auto_region_delete) selDel(cur); else cur.selection() = false; } string grabSelection(LCursor & cur) { if (!cur.selection()) return string(); CursorSlice i1 = cur.selBegin(); CursorSlice i2 = cur.selEnd(); if (i1.idx() == i2.idx()) { if (i1.inset().asMathInset()) { MathArray::const_iterator it = i1.cell().begin(); return asString(MathArray(it + i1.pos(), it + i2.pos())); } else { return "unknown selection 1"; } } InsetBase::row_type r1, r2; InsetBase::col_type c1, c2; region(i1, i2, r1, r2, c1, c2); string data; if (i1.inset().asMathInset()) { for (InsetBase::row_type row = r1; row <= r2; ++row) { if (row > r1) data += "\\\\"; for (InsetBase::col_type col = c1; col <= c2; ++col) { if (col > c1) data += '&'; data += asString(i1.asMathInset()-> cell(i1.asMathInset()->index(row, col))); } } } else { data = "unknown selection 2"; } return data; } } // namespace cap } // namespace lyx