/** * \file CutAndPaste.cpp * 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 * \author Michael Gerz * * Full author contact details are available in file CREDITS. */ #include #include "CutAndPaste.h" #include "BranchList.h" #include "Buffer.h" #include "buffer_funcs.h" #include "BufferList.h" #include "BufferParams.h" #include "BufferView.h" #include "Changes.h" #include "Cursor.h" #include "Encoding.h" #include "ErrorList.h" #include "FuncCode.h" #include "FuncRequest.h" #include "InsetIterator.h" #include "InsetList.h" #include "Language.h" #include "LyX.h" #include "LyXRC.h" #include "Text.h" #include "Paragraph.h" #include "ParagraphParameters.h" #include "ParIterator.h" #include "TextClass.h" #include "insets/InsetBibitem.h" #include "insets/InsetBranch.h" #include "insets/InsetCommand.h" #include "insets/InsetFlex.h" #include "insets/InsetGraphics.h" #include "insets/InsetGraphicsParams.h" #include "insets/InsetInclude.h" #include "insets/InsetLabel.h" #include "insets/InsetTabular.h" #include "mathed/MathData.h" #include "mathed/InsetMath.h" #include "mathed/InsetMathHull.h" #include "mathed/InsetMathRef.h" #include "mathed/MathSupport.h" #include "support/debug.h" #include "support/docstream.h" #include "support/gettext.h" #include "support/lassert.h" #include "support/limited_stack.h" #include "support/lstrings.h" #include "support/lyxalgo.h" #include "support/TempFile.h" #include "support/unique_ptr.h" #include "frontends/alert.h" #include "frontends/Clipboard.h" #include "frontends/Selection.h" #include #include using namespace std; using namespace lyx::support; using lyx::frontend::Clipboard; namespace lyx { namespace { typedef pair PitPosPair; typedef limited_stack > CutStack; CutStack theCuts(10); // persistent selection, cleared until the next selection CutStack selectionBuffer(1); // temporary scratch area CutStack tempCut(1); // store whether the tabular stack is newer than the normal copy stack // FIXME: this is a workaround for bug 1919. Should be removed for 1.5, // when we (hopefully) have a one-for-all paste mechanism. bool dirty_tabular_stack_ = false; bool checkPastePossible(int index) { return size_t(index) < theCuts.size() && !theCuts[index].first.empty(); } struct PasteReturnValue { PasteReturnValue(pit_type r_pit, pos_type r_pos, bool r_nu) : pit(r_pit), pos(r_pos), needupdate(r_nu) {} pit_type pit; pos_type pos; bool needupdate; }; PasteReturnValue pasteSelectionHelper(DocIterator const & cur, ParagraphList const & parlist, DocumentClassConstPtr oldDocClass, cap::BranchAction branchAction, ErrorList & errorlist) { Buffer const & buffer = *cur.buffer(); pit_type pit = cur.pit(); pos_type pos = cur.pos(); bool need_update = false; if (parlist.empty()) return PasteReturnValue(pit, pos, need_update); InsetText * target_inset = cur.inset().asInsetText(); if (!target_inset) { InsetTabular * it = cur.inset().asInsetTabular(); target_inset = it ? it->cell(cur.idx())->asInsetText() : 0; } LASSERT(target_inset, return PasteReturnValue(pit, pos, need_update)); ParagraphList & pars = target_inset->paragraphs(); LASSERT(pos <= pars[pit].size(), return PasteReturnValue(pit, pos, need_update)); // Make a copy of the CaP paragraphs. ParagraphList insertion = parlist; // Now remove all out of the pars which is NOT allowed in the // new environment and set also another font if that is required. // Convert newline to paragraph break in ParbreakIsNewline if (target_inset->getLayout().parbreakIsNewline() || pars[pit].layout().parbreak_is_newline) { for (size_t i = 0; i != insertion.size(); ++i) { for (pos_type j = 0; j != insertion[i].size(); ++j) { if (insertion[i].isNewline(j)) { // do not track deletion of newline insertion[i].eraseChar(j, false); insertion[i].setInsetOwner(target_inset); breakParagraphConservative( buffer.params(), insertion, i, j); break; } } } } // set the paragraphs to plain layout if necessary DocumentClassConstPtr newDocClass = buffer.params().documentClassPtr(); if (cur.inset().usePlainLayout()) { bool forcePlainLayout = target_inset->forcePlainLayout(); Layout const & plainLayout = newDocClass->plainLayout(); Layout const & defaultLayout = newDocClass->defaultLayout(); ParagraphList::iterator const end = insertion.end(); ParagraphList::iterator par = insertion.begin(); for (; par != end; ++par) { Layout const & parLayout = par->layout(); if (forcePlainLayout || parLayout == defaultLayout) par->setLayout(plainLayout); } } else { // check if we need to reset from plain layout Layout const & defaultLayout = newDocClass->defaultLayout(); Layout const & plainLayout = newDocClass->plainLayout(); ParagraphList::iterator const end = insertion.end(); ParagraphList::iterator par = insertion.begin(); for (; par != end; ++par) { Layout const & parLayout = par->layout(); if (parLayout == plainLayout) par->setLayout(defaultLayout); } } InsetText in(cur.buffer()); // Make sure there is no class difference. in.paragraphs().clear(); // This works without copying any paragraph data because we have // a specialized swap method for ParagraphList. This is important // since we store pointers to insets at some places and we don't // want to invalidate them. insertion.swap(in.paragraphs()); cap::switchBetweenClasses(oldDocClass, newDocClass, in, errorlist); insertion.swap(in.paragraphs()); ParagraphList::iterator tmpbuf = insertion.begin(); int depth_delta = pars[pit].params().depth() - tmpbuf->params().depth(); 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); // Set max_depth for the next paragraph max_depth = tmpbuf->getMaxDepthAfter(); // Set the inset owner of this paragraph. tmpbuf->setInsetOwner(target_inset); for (pos_type i = 0; i < tmpbuf->size(); ++i) { // do not track deletion of invalid insets if (Inset * inset = tmpbuf->getInset(i)) if (!target_inset->insetAllowed(inset->lyxCode())) tmpbuf->eraseChar(i--, false); } tmpbuf->setChange(Change(buffer.params().track_changes ? Change::INSERTED : Change::UNCHANGED)); } bool const empty = pars[pit].empty(); if (!empty) { // Make the buf exactly the same layout as the cursor // paragraph. insertion.begin()->makeSameLayout(pars[pit]); } // Prepare the paragraphs and insets for insertion. insertion.swap(in.paragraphs()); InsetIterator const i_end = inset_iterator_end(in); for (InsetIterator it = inset_iterator_begin(in); it != i_end; ++it) { // Even though this will also be done later, it has to be done here // since some inset might going to try to access // the buffer() member. it->setBuffer(const_cast(buffer)); switch (it->lyxCode()) { case MATH_HULL_CODE: { // check for equation labels and resolve duplicates InsetMathHull * ins = it->asInsetMath()->asHullInset(); std::vector labels = ins->getLabels(); for (size_t i = 0; i != labels.size(); ++i) { if (!labels[i]) continue; InsetLabel * lab = labels[i]; docstring const oldname = lab->getParam("name"); lab->updateLabel(oldname); // We need to update the buffer reference cache. need_update = true; docstring const newname = lab->getParam("name"); if (oldname == newname) continue; // adapt the references for (InsetIterator itt = inset_iterator_begin(in); itt != i_end; ++itt) { if (itt->lyxCode() == REF_CODE) { InsetCommand * ref = itt->asInsetCommand(); if (ref->getParam("reference") == oldname) ref->setParam("reference", newname); } else if (itt->lyxCode() == MATH_REF_CODE) { InsetMathRef * mi = itt->asInsetMath()->asRefInset(); // this is necessary to prevent an uninitialized // buffer when the RefInset is in a MathBox. // FIXME audit setBuffer calls mi->setBuffer(const_cast(buffer)); if (mi->getTarget() == oldname) mi->changeTarget(newname); } } } break; } case LABEL_CODE: { // check for duplicates InsetLabel & lab = static_cast(*it); docstring const oldname = lab.getParam("name"); lab.updateLabel(oldname); // We need to update the buffer reference cache. need_update = true; docstring const newname = lab.getParam("name"); if (oldname == newname) break; // adapt the references for (InsetIterator itt = inset_iterator_begin(in); itt != i_end; ++itt) { if (itt->lyxCode() == REF_CODE) { InsetCommand & ref = static_cast(*itt); if (ref.getParam("reference") == oldname) ref.setParam("reference", newname); } else if (itt->lyxCode() == MATH_REF_CODE) { InsetMathRef * mi = itt->asInsetMath()->asRefInset(); // this is necessary to prevent an uninitialized // buffer when the RefInset is in a MathBox. // FIXME audit setBuffer calls mi->setBuffer(const_cast(buffer)); if (mi->getTarget() == oldname) mi->changeTarget(newname); } } break; } case INCLUDE_CODE: { InsetInclude & inc = static_cast(*it); inc.updateCommand(); // We need to update the list of included files. need_update = true; break; } case BIBITEM_CODE: { // check for duplicates InsetBibitem & bib = static_cast(*it); docstring const oldkey = bib.getParam("key"); bib.updateCommand(oldkey, false); // We need to update the buffer reference cache. need_update = true; docstring const newkey = bib.getParam("key"); if (oldkey == newkey) break; // adapt the references for (InsetIterator itt = inset_iterator_begin(in); itt != i_end; ++itt) { if (itt->lyxCode() == CITE_CODE) { InsetCommand * ref = itt->asInsetCommand(); if (ref->getParam("key") == oldkey) ref->setParam("key", newkey); } } break; } case BRANCH_CODE: { // check if branch is known to target buffer // or its master InsetBranch & br = static_cast(*it); docstring const name = br.branch(); if (name.empty()) break; bool const is_child = (&buffer != buffer.masterBuffer()); BranchList branchlist = buffer.params().branchlist(); if ((!is_child && branchlist.find(name)) || (is_child && (branchlist.find(name) || buffer.masterBuffer()->params().branchlist().find(name)))) break; switch(branchAction) { case cap::BRANCH_ADD: { // This is for a temporary buffer, so simply create the branch. // Must not use lyx::dispatch(), since tmpbuffer has no view. DispatchResult dr; const_cast(buffer).dispatch(FuncRequest(LFUN_BRANCH_ADD, name), dr); break; } case cap::BRANCH_ASK: { docstring text = bformat( _("The pasted branch \"%1$s\" is undefined.\n" "Do you want to add it to the document's branch list?"), name); if (frontend::Alert::prompt(_("Unknown branch"), text, 0, 1, _("&Add"), _("&Don't Add")) != 0) break; lyx::dispatch(FuncRequest(LFUN_BRANCH_ADD, name)); break; } case cap::BRANCH_IGNORE: break; } // We need to update the list of branches. need_update = true; break; } default: break; // nothing } } insertion.swap(in.paragraphs()); // Split the paragraph for inserting the buf if necessary. if (!empty) breakParagraphConservative(buffer.params(), pars, pit, pos); // Paste it! if (empty) { pars.insert(lyx::next(pars.begin(), pit), insertion.begin(), insertion.end()); // merge the empty par with the last par of the insertion mergeParagraph(buffer.params(), pars, pit + insertion.size() - 1); } else { pars.insert(lyx::next(pars.begin(), pit + 1), insertion.begin(), insertion.end()); // merge the first par of the insertion with the current par mergeParagraph(buffer.params(), pars, pit); } // Store the new cursor position. pit_type last_paste = pit + insertion.size() - 1; pit_type startpit = pit; pit = last_paste; pos = pars[last_paste].size(); // FIXME Should we do it here, or should we let updateBuffer() do it? // Set paragraph buffers. It's important to do this right away // before something calls Inset::buffer() and causes a crash. for (pit_type p = startpit; p <= pit; ++p) pars[p].setInsetBuffers(const_cast(buffer)); // Join (conditionally) last pasted paragraph with next one, i.e., // the tail of the spliced document paragraph if (!empty && last_paste + 1 != pit_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(buffer.params().track_changes); ++last_paste; } } return PasteReturnValue(pit, pos, need_update); } PitPosPair eraseSelectionHelper(BufferParams const & params, ParagraphList & pars, pit_type startpit, pit_type endpit, int startpos, int endpos) { // Start of selection is really invalid. if (startpit == pit_type(pars.size()) || (startpos > pars[startpit].size())) return PitPosPair(endpit, endpos); // Start and end is inside same paragraph if (endpit == pit_type(pars.size()) || startpit == endpit) { endpos -= pars[startpit].eraseChars(startpos, endpos, params.track_changes); return PitPosPair(endpit, endpos); } for (pit_type pit = startpit; pit != endpit + 1;) { pos_type const left = (pit == startpit ? startpos : 0); pos_type right = (pit == endpit ? endpos : pars[pit].size() + 1); bool const merge = pars[pit].isMergedOnEndOfParDeletion(params.track_changes); // Logically erase only, including the end-of-paragraph character pars[pit].eraseChars(left, right, params.track_changes); // Separate handling of paragraph break: if (merge && pit != endpit && (pit + 1 != endpit || pars[pit].hasSameLayout(pars[endpit]) || pars[endpit].size() == endpos)) { if (pit + 1 == endpit) endpos += pars[pit].size(); mergeParagraph(params, pars, pit); --endpit; } else ++pit; } // Ensure legal cursor pos: endpit = startpit; endpos = startpos; return PitPosPair(endpit, endpos); } Buffer * copyToTempBuffer(ParagraphList const & paragraphs, DocumentClassConstPtr docclass) { // This used to need to be static to avoid a memory leak. It no longer needs // to be so, but the alternative is to construct a new one of these (with a // new temporary directory, etc) every time, and then to destroy it. So maybe // it's worth just keeping this one around. static TempFile tempfile("clipboard.internal"); tempfile.setAutoRemove(false); // The initialization of staticbuffer is thread-safe. Using a lambda // guarantees that the properties are set only once. static Buffer * staticbuffer = [&](){ Buffer * b = theBufferList().newInternalBuffer(tempfile.name().absFileName()); b->setUnnamed(true); b->inset().setBuffer(*b); //initialize staticbuffer with b return b; }(); // Use a clone for the complicated stuff so that we do not need to clean // up in order to avoid a crash. Buffer * buffer = staticbuffer->cloneBufferOnly(); LASSERT(buffer, return 0); // This needs doing every time. // Since setDocumentClass() causes deletion of the old document class // we need to reset all layout pointers in paragraphs (otherwise they // would be dangling). ParIterator const end = buffer->par_iterator_end(); for (ParIterator it = buffer->par_iterator_begin(); it != end; ++it) { docstring const name = it->layout().name(); if (docclass->hasLayout(name)) it->setLayout((*docclass)[name]); else it->setPlainOrDefaultLayout(*docclass); } buffer->params().setDocumentClass(docclass); // we will use pasteSelectionHelper to copy the paragraphs into the // temporary Buffer, since it does a lot of things to fix them up. DocIterator dit = doc_iterator_begin(buffer, &buffer->inset()); ErrorList el; pasteSelectionHelper(dit, paragraphs, docclass, cap::BRANCH_ADD, el); return buffer; } void putClipboard(ParagraphList const & paragraphs, DocumentClassConstPtr docclass, docstring const & plaintext) { Buffer * buffer = copyToTempBuffer(paragraphs, docclass); if (!buffer) // already asserted in copyToTempBuffer() return; // We don't want to produce images that are not used. Therefore, // output formulas as MathML. Even if this is not understood by all // applications, the number that can parse it should go up in the future. buffer->params().html_math_output = BufferParams::MathML; // Make sure MarkAsExporting is deleted before buffer is { // The Buffer is being used to export. This is necessary so that the // updateMacros call will record the needed information. MarkAsExporting mex(buffer); buffer->updateBuffer(Buffer::UpdateMaster, OutputUpdate); buffer->updateMacros(); buffer->updateMacroInstances(OutputUpdate); // LyX's own format string lyx; ostringstream oslyx; if (buffer->write(oslyx)) lyx = oslyx.str(); // XHTML format odocstringstream oshtml; OutputParams runparams(encodings.fromLyXName("utf8")); // We do not need to produce images, etc. runparams.dryrun = true; // We are not interested in errors (bug 8866) runparams.silent = true; buffer->writeLyXHTMLSource(oshtml, runparams, Buffer::FullSource); theClipboard().put(lyx, oshtml.str(), plaintext); } // Save that memory delete buffer; } /// return true if the whole ParagraphList is deleted static bool isFullyDeleted(ParagraphList const & pars) { pit_type const pars_size = static_cast(pars.size()); // check all paragraphs for (pit_type pit = 0; pit < pars_size; ++pit) { if (!pars[pit].empty()) // prevent assertion failure if (!pars[pit].isDeleted(0, pars[pit].size())) return false; } return true; } void copySelectionHelper(Buffer const & buf, Text const & text, pit_type startpit, pit_type endpit, int start, int end, DocumentClassConstPtr dc, CutStack & cutstack) { ParagraphList const & pars = text.paragraphs(); // In most of these cases, we can try to recover. LASSERT(0 <= start, start = 0); LASSERT(start <= pars[startpit].size(), start = pars[startpit].size()); LASSERT(0 <= end, end = 0); LASSERT(end <= pars[endpit].size(), end = pars[endpit].size()); LASSERT(startpit != endpit || start <= end, return); // Clone the paragraphs within the selection. ParagraphList copy_pars(lyx::next(pars.begin(), startpit), lyx::next(pars.begin(), endpit + 1)); // Remove the end of the last paragraph; afterwards, remove the // beginning of the first paragraph. Keep this order - there may only // be one paragraph! Do not track deletions here; this is an internal // action not visible to the user Paragraph & back = copy_pars.back(); back.eraseChars(end, back.size(), false); Paragraph & front = copy_pars.front(); front.eraseChars(0, start, false); ParagraphList::iterator it = copy_pars.begin(); ParagraphList::iterator it_end = copy_pars.end(); for (; it != it_end; ++it) { // Since we have a copy of the paragraphs, the insets // do not have a proper buffer reference. It makes // sense to add them temporarily, because the // operations below depend on that (acceptChanges included). it->setInsetBuffers(const_cast(buf)); // PassThru paragraphs have the Language // latex_language. This is invalid for others, so we // need to change it to the buffer language. if (it->isPassThru()) it->changeLanguage(buf.params(), latex_language, buf.language()); } // do not copy text (also nested in insets) which is marked as // deleted, unless the whole selection was deleted if (!isFullyDeleted(copy_pars)) acceptChanges(copy_pars, buf.params()); else rejectChanges(copy_pars, buf.params()); // do some final cleanup now, to make sure that the paragraphs // are not linked to something else. it = copy_pars.begin(); for (; it != it_end; ++it) { it->resetBuffer(); it->setInsetOwner(0); } cutstack.push(make_pair(copy_pars, dc)); } } // namespace namespace cap { void region(CursorSlice const & i1, CursorSlice const & i2, Inset::row_type & r1, Inset::row_type & r2, Inset::col_type & c1, Inset::col_type & c2) { Inset & p = i1.inset(); c1 = p.col(i1.idx()); c2 = p.col(i2.idx()); if (c1 > c2) swap(c1, c2); r1 = p.row(i1.idx()); r2 = p.row(i2.idx()); if (r1 > r2) swap(r1, r2); } docstring grabAndEraseSelection(Cursor & cur) { if (!cur.selection()) return docstring(); docstring res = grabSelection(cur); eraseSelection(cur); return res; } bool reduceSelectionToOneCell(CursorData & cur) { if (!cur.selection() || !cur.inMathed()) return false; CursorSlice i1 = cur.selBegin(); CursorSlice i2 = cur.selEnd(); if (!i1.inset().asInsetMath()) return false; // the easy case: do nothing if only one cell is selected if (i1.idx() == i2.idx()) return true; cur.top().pos() = 0; cur.resetAnchor(); cur.top().pos() = cur.top().lastpos(); return true; } bool multipleCellsSelected(CursorData const & cur) { if (!cur.selection() || !cur.inMathed()) return false; CursorSlice i1 = cur.selBegin(); CursorSlice i2 = cur.selEnd(); if (!i1.inset().asInsetMath()) return false; if (i1.idx() == i2.idx()) return false; return true; } void switchBetweenClasses(DocumentClassConstPtr oldone, DocumentClassConstPtr newone, InsetText & in, ErrorList & errorlist) { errorlist.clear(); LBUFERR(!in.paragraphs().empty()); if (oldone == newone) return; DocumentClass const & oldtc = *oldone; DocumentClass const & newtc = *newone; // layouts ParIterator it = par_iterator_begin(in); ParIterator end = par_iterator_end(in); // for remembering which layouts we've had to add set newlayouts; for (; it != end; ++it) { docstring const name = it->layout().name(); // the pasted text will keep their own layout name. If this layout does // not exist in the new document, it will behave like a standard layout. bool const added_one = newtc.addLayoutIfNeeded(name); if (added_one) newlayouts.insert(name); if (added_one || newlayouts.find(name) != newlayouts.end()) { // Warn the user. docstring const s = bformat(_("Layout `%1$s' was not found."), name); errorlist.push_back(ErrorItem(_("Layout Not Found"), s, {it->id(), 0}, {it->id(), -1})); } if (in.usePlainLayout()) it->setLayout(newtc.plainLayout()); else it->setLayout(newtc[name]); } // character styles and hidden table cells InsetIterator const i_end = inset_iterator_end(in); for (InsetIterator it = inset_iterator_begin(in); it != i_end; ++it) { InsetCode const code = it->lyxCode(); if (code == FLEX_CODE) { // FIXME: Should we verify all InsetCollapsible? docstring const layoutName = it->layoutName(); docstring const & n = newone->insetLayout(layoutName).name(); bool const is_undefined = n.empty() || n == DocumentClass::plainInsetLayout().name(); if (!is_undefined) continue; // The flex inset is undefined in newtc docstring const oldname = from_utf8(oldtc.name()); docstring const newname = from_utf8(newtc.name()); docstring s; if (oldname == newname) s = bformat(_("Flex inset %1$s is undefined after " "reloading `%2$s' layout."), layoutName, oldname); else s = bformat(_("Flex inset %1$s is undefined because of " "conversion from `%2$s' layout to `%3$s'."), layoutName, oldname, newname); // To warn the user that something had to be done. errorlist.push_back(ErrorItem( _("Undefined flex inset"), s, {it.paragraph().id(), it.pos()}, {it.paragraph().id(), it.pos()+1})); } else if (code == TABULAR_CODE) { // The recursion above does not catch paragraphs in "hidden" cells, // i.e., ones that are part of a multirow or multicolum. So we need // to handle those separately. // This is the cause of bug #9049. InsetTabular * table = it->asInsetTabular(); table->setLayoutForHiddenCells(newtc); } } } vector availableSelections(Buffer const * buf) { vector selList; if (!buf) return 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; docstring textSel; ParagraphList::const_iterator pit = pars.begin(); ParagraphList::const_iterator pend = pars.end(); for (; pit != pend; ++pit) { Paragraph par(*pit, 0, 46); // adapt paragraph to current buffer. par.setInsetBuffers(const_cast(*buf)); textSel += par.asString(AS_STR_INSETS); if (textSel.size() > 45) { support::truncateWithEllipsis(textSel,45); break; } } selList.push_back(textSel); } return selList; } size_type numberOfSelections() { return theCuts.size(); } namespace { void cutSelectionHelper(Cursor & cur, CutStack & cuts, bool doclear, bool realcut, bool putclip) { // 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() if (cur.inTexted()) { Text * text = cur.text(); LBUFERR(text); saveSelection(cur); // make sure that the depth behind the selection are restored, too cur.recordUndoSelection(); pit_type begpit = cur.selBegin().pit(); pit_type endpit = cur.selEnd().pit(); int endpos = cur.selEnd().pos(); BufferParams const & bp = cur.buffer()->params(); if (realcut) { copySelectionHelper(*cur.buffer(), *text, begpit, endpit, cur.selBegin().pos(), endpos, bp.documentClassPtr(), cuts); // Stuff what we got on the clipboard. // Even if there is no selection. if (putclip) putClipboard(cuts[0].first, cuts[0].second, cur.selectionAsString(true)); } if (begpit != endpit) cur.screenUpdateFlags(Update::Force | Update::FitCursor); tie(endpit, endpos) = eraseSelectionHelper(bp, text->paragraphs(), begpit, endpit, cur.selBegin().pos(), endpos); // 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.pit() = endpit; // sometimes necessary if (doclear && text->paragraphs()[begpit].stripLeadingSpaces(bp.track_changes)) cur.fixIfBroken(); // need a valid cursor. (Lgb) cur.clearSelection(); // After a cut operation, we must make sure that the Buffer is updated // because some further operation might need updated label information for // example. So we cannot just use "cur.forceBufferUpdate()" here. // This fixes #7071. cur.buffer()->updateBuffer(); // tell tabular that a recent copy happened dirtyTabularStack(false); } if (cur.inMathed()) { if (cur.selBegin().idx() != cur.selEnd().idx()) { // The current selection spans more than one cell. // Record all cells cur.recordUndoInset(); } else { // Record only the current cell to avoid a jumping // cursor after undo cur.recordUndo(); } if (realcut) copySelection(cur); eraseSelection(cur); } } } // namespace void cutSelection(Cursor & cur, bool doclear, bool realcut) { cutSelectionHelper(cur, theCuts, doclear, realcut, true); } void cutSelectionToTemp(Cursor & cur, bool doclear, bool realcut) { cutSelectionHelper(cur, tempCut, doclear, realcut, false); } void copySelection(Cursor const & cur) { copySelection(cur, cur.selectionAsString(true)); } void copyInset(Cursor const & cur, Inset * inset, docstring const & plaintext) { ParagraphList pars; Paragraph par; BufferParams const & bp = cur.buffer()->params(); par.setLayout(bp.documentClass().plainLayout()); Font font(inherit_font, bp.language); par.insertInset(0, inset, font, Change(Change::UNCHANGED)); pars.push_back(par); theCuts.push(make_pair(pars, bp.documentClassPtr())); // stuff the selection onto the X clipboard, from an explicit copy request putClipboard(theCuts[0].first, theCuts[0].second, plaintext); } namespace { void copySelectionToStack(CursorData const & cur, CutStack & cutstack) { // this doesn't make sense, if there is no selection if (!cur.selection()) return; // copySelection can not yet handle the case of cross idx selection if (cur.selBegin().idx() != cur.selEnd().idx()) return; if (cur.inTexted()) { Text * text = cur.text(); LBUFERR(text); // ok we have a selection. This is always between cur.selBegin() // and sel_end cursor copySelectionHelper(*cur.buffer(), *text, cur.selBegin().pit(), cur.selEnd().pit(), cur.selBegin().pos(), cur.selEnd().pos(), cur.buffer()->params().documentClassPtr(), cutstack); // Reset the dirty_tabular_stack_ flag only when something // is copied to the clipboard (not to the selectionBuffer). if (&cutstack == &theCuts) dirtyTabularStack(false); } if (cur.inMathed()) { //lyxerr << "copySelection in mathed" << endl; ParagraphList pars; Paragraph par; BufferParams const & bp = cur.buffer()->params(); // FIXME This should be the plain layout...right? par.setLayout(bp.documentClass().plainLayout()); par.insert(0, grabSelection(cur), Font(), Change(Change::UNCHANGED)); pars.push_back(par); cutstack.push(make_pair(pars, bp.documentClassPtr())); } } } // namespace void copySelectionToStack() { if (!selectionBuffer.empty()) theCuts.push(selectionBuffer[0]); } void copySelection(Cursor const & cur, docstring const & plaintext) { // In tablemode, because copy and paste actually use special table stack // we do not attempt to get selected paragraphs under cursor. Instead, a // paragraph with the plain text version is generated so that table cells // can be pasted as pure text somewhere else. if (cur.selBegin().idx() != cur.selEnd().idx()) { ParagraphList pars; Paragraph par; BufferParams const & bp = cur.buffer()->params(); par.setLayout(bp.documentClass().plainLayout()); par.insert(0, plaintext, Font(), Change(Change::UNCHANGED)); pars.push_back(par); theCuts.push(make_pair(pars, bp.documentClassPtr())); } else { copySelectionToStack(cur, theCuts); } // stuff the selection onto the X clipboard, from an explicit copy request putClipboard(theCuts[0].first, theCuts[0].second, plaintext); } void saveSelection(Cursor const & cur) { // This function is called, not when a selection is formed, but when // a selection is cleared. Therefore, multiple keyboard selection // will not repeatively trigger this function (bug 3877). if (cur.selection() && cur.selBegin() == cur.bv().cursor().selBegin() && cur.selEnd() == cur.bv().cursor().selEnd()) { LYXERR(Debug::SELECTION, "saveSelection: '" << cur.selectionAsString(true) << "'"); copySelectionToStack(cur, selectionBuffer); } } bool selection() { return !selectionBuffer.empty(); } void clearSelection() { selectionBuffer.clear(); } void clearCutStack() { theCuts.clear(); tempCut.clear(); } docstring selection(size_t sel_index, DocumentClassConstPtr docclass) { if (sel_index >= theCuts.size()) return docstring(); unique_ptr buffer(copyToTempBuffer(theCuts[sel_index].first, docclass)); if (!buffer) return docstring(); return buffer->paragraphs().back().asString(AS_STR_INSETS | AS_STR_NEWLINES); } void pasteParagraphList(Cursor & cur, ParagraphList const & parlist, DocumentClassConstPtr docclass, ErrorList & errorList, cap::BranchAction branchAction) { if (cur.inTexted()) { Text * text = cur.text(); LBUFERR(text); PasteReturnValue prv = pasteSelectionHelper(cur, parlist, docclass, branchAction, errorList); cur.forceBufferUpdate(); cur.clearSelection(); text->setCursor(cur, prv.pit, prv.pos); } // mathed is handled in InsetMathNest/InsetMathGrid LATTEST(!cur.inMathed()); } bool pasteFromStack(Cursor & cur, ErrorList & errorList, size_t sel_index) { // this does not make sense, if there is nothing to paste if (!checkPastePossible(sel_index)) return false; cur.recordUndo(); pasteParagraphList(cur, theCuts[sel_index].first, theCuts[sel_index].second, errorList, BRANCH_ASK); return true; } bool pasteFromTemp(Cursor & cur, ErrorList & errorList) { // this does not make sense, if there is nothing to paste if (tempCut.empty() || tempCut[0].first.empty()) return false; cur.recordUndo(); pasteParagraphList(cur, tempCut[0].first, tempCut[0].second, errorList, BRANCH_IGNORE); return true; } bool pasteClipboardText(Cursor & cur, ErrorList & errorList, bool asParagraphs, Clipboard::TextType type) { // Use internal clipboard if it is the most recent one // This overrides asParagraphs and type on purpose! if (theClipboard().isInternal()) return pasteFromStack(cur, errorList, 0); // First try LyX format if ((type == Clipboard::LyXTextType || type == Clipboard::LyXOrPlainTextType || type == Clipboard::AnyTextType) && theClipboard().hasTextContents(Clipboard::LyXTextType)) { string lyx = theClipboard().getAsLyX(); if (!lyx.empty()) { // For some strange reason gcc 3.2 and 3.3 do not accept // Buffer buffer(string(), false); Buffer buffer("", false); buffer.setUnnamed(true); if (buffer.readString(lyx)) { cur.recordUndo(); pasteParagraphList(cur, buffer.paragraphs(), buffer.params().documentClassPtr(), errorList); return true; } } } // Then try TeX and HTML Clipboard::TextType types[2] = {Clipboard::HtmlTextType, Clipboard::LaTeXTextType}; string names[2] = {"html", "latexclipboard"}; for (int i = 0; i < 2; ++i) { if (type != types[i] && type != Clipboard::AnyTextType) continue; bool available = theClipboard().hasTextContents(types[i]); // If a specific type was explicitly requested, try to // interpret plain text: The user told us that the clipboard // contents is in the desired format if (!available && type == types[i]) { types[i] = Clipboard::PlainTextType; available = theClipboard().hasTextContents(types[i]); } if (available) { docstring text = theClipboard().getAsText(types[i]); available = !text.empty(); if (available) { // For some strange reason gcc 3.2 and 3.3 do not accept // Buffer buffer(string(), false); Buffer buffer("", false); buffer.setUnnamed(true); available = buffer.importString(names[i], text, errorList); if (available) available = !buffer.paragraphs().empty(); if (available && !buffer.paragraphs()[0].empty()) { cur.recordUndo(); pasteParagraphList(cur, buffer.paragraphs(), buffer.params().documentClassPtr(), errorList); return true; } } } } // Then try plain text docstring const text = theClipboard().getAsText(Clipboard::PlainTextType); if (text.empty()) return false; cur.recordUndo(); if (asParagraphs) cur.text()->insertStringAsParagraphs(cur, text, cur.current_font); else cur.text()->insertStringAsLines(cur, text, cur.current_font); cur.forceBufferUpdate(); return true; } void pasteSimpleText(Cursor & cur, bool asParagraphs) { docstring text; // Use internal clipboard if it is the most recent one if (theClipboard().isInternal()) { if (!checkPastePossible(0)) return; ParagraphList const & pars = theCuts[0].first; ParagraphList::const_iterator it = pars.begin(); for (; it != pars.end(); ++it) { if (it != pars.begin()) text += "\n"; text += (*it).asString(); } asParagraphs = false; } else { // Then try plain text text = theClipboard().getAsText(Clipboard::PlainTextType); } if (text.empty()) return; cur.recordUndo(); cutSelection(cur, true, false); if (asParagraphs) cur.text()->insertStringAsParagraphs(cur, text, cur.current_font); else cur.text()->insertStringAsLines(cur, text, cur.current_font); } void pasteClipboardGraphics(Cursor & cur, ErrorList & /* errorList */, Clipboard::GraphicsType preferedType) { LASSERT(theClipboard().hasGraphicsContents(preferedType), return); // get picture from clipboard FileName filename = theClipboard().getAsGraphics(cur, preferedType); if (filename.empty()) return; // create inset for graphic InsetGraphics * inset = new InsetGraphics(cur.buffer()); InsetGraphicsParams params; params.filename = support::DocFileName(filename.absFileName(), false); inset->setParams(params); cur.recordUndo(); cur.insert(inset); } void pasteSelection(Cursor & cur, ErrorList & errorList) { if (selectionBuffer.empty()) return; cur.recordUndo(); pasteParagraphList(cur, selectionBuffer[0].first, selectionBuffer[0].second, errorList); } void replaceSelectionWithString(Cursor & cur, docstring const & str) { cur.recordUndo(); DocIterator selbeg = cur.selectionBegin(); // Get font setting before we cut, we need a copy here, not a bare reference. Font const font = selbeg.paragraph().getFontSettings(cur.buffer()->params(), selbeg.pos()); // Insert the new string pos_type pos = cur.selEnd().pos(); Paragraph & par = cur.selEnd().paragraph(); docstring::const_iterator cit = str.begin(); docstring::const_iterator end = str.end(); for (; cit != end; ++cit, ++pos) par.insertChar(pos, *cit, font, cur.buffer()->params().track_changes); // Cut the selection cutSelection(cur, true, false); } void replaceSelection(Cursor & cur) { if (cur.selection()) cutSelection(cur, true, false); } void eraseSelection(Cursor & cur) { //lyxerr << "cap::eraseSelection begin: " << cur << endl; CursorSlice const & i1 = cur.selBegin(); CursorSlice const & i2 = cur.selEnd(); if (!i1.asInsetMath()) { LYXERR0("Can't erase this selection"); return; } saveSelection(cur); cur.top() = i1; InsetMath * p = i1.asInsetMath(); if (i1.idx() == i2.idx()) { i1.cell().erase(i1.pos(), i2.pos()); // We may have deleted i1.cell(cur.pos()). // Make sure that pos is valid. if (cur.pos() > cur.lastpos()) cur.pos() = cur.lastpos(); } else if (p->nrows() > 0 && p->ncols() > 0) { // This is a grid, delete a nice square region Inset::row_type r1, r2; Inset::col_type c1, c2; region(i1, i2, r1, r2, c1, c2); for (Inset::row_type row = r1; row <= r2; ++row) for (Inset::col_type col = c1; col <= c2; ++col) p->cell(p->index(row, col)).clear(); // We've deleted the whole cell. Only pos 0 is valid. cur.pos() = 0; } else { Inset::idx_type idx1 = i1.idx(); Inset::idx_type idx2 = i2.idx(); if (idx1 > idx2) swap(idx1, idx2); for (Inset::idx_type idx = idx1 ; idx <= idx2; ++idx) p->cell(idx).clear(); // We've deleted the whole cell. Only pos 0 is valid. cur.pos() = 0; } // need a valid cursor. (Lgb) cur.clearSelection(); //lyxerr << "cap::eraseSelection end: " << cur << endl; } void selDel(Cursor & cur) { //lyxerr << "cap::selDel" << endl; if (cur.selection()) eraseSelection(cur); } void selClearOrDel(Cursor & cur) { //lyxerr << "cap::selClearOrDel" << endl; if (lyxrc.auto_region_delete) selDel(cur); else cur.selection(false); } docstring grabSelection(CursorData const & cur) { if (!cur.selection()) return docstring(); #if 0 // grab selection by glueing multiple cells together. This is not what // we want because selections spanning multiple cells will get "&" and "\\" // seperators. ostringstream os; for (DocIterator dit = cur.selectionBegin(); dit != cur.selectionEnd(); dit.forwardPos()) os << asString(dit.cell()); return os.str(); #endif CursorSlice i1 = cur.selBegin(); CursorSlice i2 = cur.selEnd(); if (i1.idx() == i2.idx()) { if (i1.inset().asInsetMath()) { MathData::const_iterator it = i1.cell().begin(); Buffer * buf = cur.buffer(); return asString(MathData(buf, it + i1.pos(), it + i2.pos())); } else { return from_ascii("unknown selection 1"); } } Inset::row_type r1, r2; Inset::col_type c1, c2; region(i1, i2, r1, r2, c1, c2); docstring data; if (i1.inset().asInsetMath()) { for (Inset::row_type row = r1; row <= r2; ++row) { if (row > r1) data += "\\\\"; for (Inset::col_type col = c1; col <= c2; ++col) { if (col > c1) data += '&'; data += asString(i1.asInsetMath()-> cell(i1.asInsetMath()->index(row, col))); } } } else { data = from_ascii("unknown selection 2"); } return data; } void dirtyTabularStack(bool b) { dirty_tabular_stack_ = b; } bool tabularStackDirty() { return dirty_tabular_stack_; } } // namespace cap } // namespace lyx