/** * \file src/text.C * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Asger Alstrup * \author Lars Gullik Bjønnes * \author Jean-Marc Lasgouttes * \author John Levon * \author André Pönitz * \author Dekel Tsur * \author Jürgen Vigna * * Full author contact details are available in file CREDITS. */ #include #include "lyxtext.h" #include "buffer.h" #include "bufferparams.h" #include "BufferView.h" #include "debug.h" #include "encoding.h" #include "funcrequest.h" #include "gettext.h" #include "language.h" #include "LColor.h" #include "lyxlength.h" #include "lyxrc.h" #include "lyxrow.h" #include "lyxrow_funcs.h" #include "metricsinfo.h" #include "paragraph.h" #include "paragraph_funcs.h" #include "ParagraphParameters.h" #include "rowpainter.h" #include "text_funcs.h" #include "undo.h" #include "vspace.h" #include "WordLangTuple.h" #include "frontends/font_metrics.h" #include "frontends/LyXView.h" #include "insets/insettext.h" #include "support/lstrings.h" #include "support/textutils.h" using bv_funcs::number; using lyx::pos_type; using lyx::word_location; using lyx::support::contains; using lyx::support::lowercase; using lyx::support::uppercase; using std::max; using std::endl; using std::string; /// top, right, bottom pixel margin extern int const PAPER_MARGIN = 20; /// margin for changebar extern int const CHANGEBAR_MARGIN = 10; /// left margin extern int const LEFT_MARGIN = PAPER_MARGIN + CHANGEBAR_MARGIN; int bibitemMaxWidth(BufferView *, LyXFont const &); namespace { unsigned int maxParagraphWidth(ParagraphList const & plist) { unsigned int width = 0; ParagraphList::const_iterator pit = plist.begin(); ParagraphList::const_iterator end = plist.end(); for (; pit != end; ++pit) width = std::max(width, pit->width); return width; } } // namespace anon BufferView * LyXText::bv() { BOOST_ASSERT(bv_owner != 0); return bv_owner; } BufferView * LyXText::bv() const { BOOST_ASSERT(bv_owner != 0); return bv_owner; } void LyXText::updateRowPositions() { ParagraphList::iterator pit = ownerParagraphs().begin(); ParagraphList::iterator end = ownerParagraphs().end(); for (height = 0; pit != end; ++pit) { pit->y = height; height += pit->height; } } int LyXText::workWidth() const { return inset_owner ? inset_owner->textWidth() : bv()->workWidth(); } int LyXText::getRealCursorX() const { int x = cursor.x(); if (the_locking_inset && the_locking_inset->getLyXText(bv()) != this) x = the_locking_inset->getLyXText(bv())->getRealCursorX(); return x; } #warning FIXME This function seems to belong outside of LyxText. unsigned char LyXText::transformChar(unsigned char c, Paragraph const & par, pos_type pos) const { if (!Encodings::is_arabic(c)) if (lyxrc.font_norm_type == LyXRC::ISO_8859_6_8 && IsDigit(c)) return c + (0xb0 - '0'); else return c; unsigned char const prev_char = pos > 0 ? par.getChar(pos - 1) : ' '; unsigned char next_char = ' '; pos_type const par_size = par.size(); for (pos_type i = pos + 1; i < par_size; ++i) { unsigned char const par_char = par.getChar(i); if (!Encodings::IsComposeChar_arabic(par_char)) { next_char = par_char; break; } } if (Encodings::is_arabic(next_char)) { if (Encodings::is_arabic(prev_char) && !Encodings::is_arabic_special(prev_char)) return Encodings::TransformChar(c, Encodings::FORM_MEDIAL); else return Encodings::TransformChar(c, Encodings::FORM_INITIAL); } else { if (Encodings::is_arabic(prev_char) && !Encodings::is_arabic_special(prev_char)) return Encodings::TransformChar(c, Encodings::FORM_FINAL); else return Encodings::TransformChar(c, Encodings::FORM_ISOLATED); } } // This is the comments that some of the warnings below refers to. // There are some issues in this file and I don't think they are // really related to the FIX_DOUBLE_SPACE patch. I'd rather think that // this is a problem that has been here almost from day one and that a // larger userbase with different access patters triggers the bad // behaviour. (segfaults.) What I think happen is: In several places // we store the paragraph in the current cursor and then moves the // cursor. This movement of the cursor will delete paragraph at the // old position if it is now empty. This will make the temporary // pointer to the old cursor paragraph invalid and dangerous to use. // And is some cases this will trigger a segfault. I have marked some // of the cases where this happens with a warning, but I am sure there // are others in this file and in text2.C. There is also a note in // Delete() that you should read. In Delete I store the paragraph->id // instead of a pointer to the paragraph. I am pretty sure this faulty // use of temporary pointers to paragraphs that might have gotten // invalidated (through a cursor movement) before they are used, are // the cause of the strange crashes we get reported often. // // It is very tiresom to change this code, especially when it is as // hard to read as it is. Help to fix all the cases where this is done // would be greately appreciated. // // Lgb int LyXText::singleWidth(ParagraphList::iterator pit, pos_type pos) const { if (pos >= pit->size()) return 0; char const c = pit->getChar(pos); LyXFont const & font = getFont(pit, pos); return singleWidth(pit, pos, c, font); } int LyXText::singleWidth(ParagraphList::iterator pit, pos_type pos, char c, LyXFont const & font) const { if (pos >= pit->size()) { lyxerr << "in singleWidth(), pos: " << pos << endl; BOOST_ASSERT(false); return 0; } // The most common case is handled first (Asger) if (IsPrintable(c)) { if (!font.language()->RightToLeft()) { if ((lyxrc.font_norm_type == LyXRC::ISO_8859_6_8 || lyxrc.font_norm_type == LyXRC::ISO_10646_1) && font.language()->lang() == "arabic") { if (Encodings::IsComposeChar_arabic(c)) return 0; else c = transformChar(c, *pit, pos); } else if (font.language()->lang() == "hebrew" && Encodings::IsComposeChar_hebrew(c)) return 0; } return font_metrics::width(c, font); } if (c == Paragraph::META_INSET) { InsetOld * tmpinset = pit->getInset(pos); BOOST_ASSERT(tmpinset); if (tmpinset->lyxCode() == InsetOld::HFILL_CODE) { // Because of the representation as vertical lines return 3; } return tmpinset->width(); } if (IsSeparatorChar(c)) c = ' '; return font_metrics::width(c, font); } lyx::pos_type LyXText::log2vis(lyx::pos_type pos) const { return (bidi_start == -1) ? pos : log2vis_list[pos - bidi_start]; } lyx::pos_type LyXText::vis2log(lyx::pos_type pos) const { return (bidi_start == -1) ? pos : vis2log_list[pos - bidi_start]; } lyx::pos_type LyXText::bidi_level(lyx::pos_type pos) const { return (bidi_start == -1) ? 0 : bidi_levels[pos - bidi_start]; } bool LyXText::bidi_InRange(lyx::pos_type pos) const { return bidi_start == -1 || (bidi_start <= pos && pos <= bidi_end); } void LyXText::computeBidiTables(Paragraph const & par, Buffer const & buf, Row & row) const { bidi_same_direction = true; if (!lyxrc.rtl_support) { bidi_start = -1; return; } InsetOld * inset = par.inInset(); if (inset && inset->owner() && inset->owner()->lyxCode() == InsetOld::ERT_CODE) { bidi_start = -1; return; } bidi_start = row.pos(); bidi_end = lastPos(par, row); if (bidi_start > bidi_end) { bidi_start = -1; return; } if (bidi_end + 2 - bidi_start > static_cast(log2vis_list.size())) { pos_type new_size = (bidi_end + 2 - bidi_start < 500) ? 500 : 2 * (bidi_end + 2 - bidi_start); log2vis_list.resize(new_size); vis2log_list.resize(new_size); bidi_levels.resize(new_size); } vis2log_list[bidi_end + 1 - bidi_start] = -1; log2vis_list[bidi_end + 1 - bidi_start] = -1; BufferParams const & bufparams = buf.params(); pos_type stack[2]; bool const rtl_par = par.isRightToLeftPar(bufparams); int level = 0; bool rtl = false; bool rtl0 = false; pos_type const body_pos = par.beginningOfBody(); for (pos_type lpos = bidi_start; lpos <= bidi_end; ++lpos) { bool is_space = par.isLineSeparator(lpos); pos_type const pos = (is_space && lpos + 1 <= bidi_end && !par.isLineSeparator(lpos + 1) && !par.isNewline(lpos + 1)) ? lpos + 1 : lpos; LyXFont font = par.getFontSettings(bufparams, pos); if (pos != lpos && 0 < lpos && rtl0 && font.isRightToLeft() && font.number() == LyXFont::ON && par.getFontSettings(bufparams, lpos - 1).number() == LyXFont::ON) { font = par.getFontSettings(bufparams, lpos); is_space = false; } bool new_rtl = font.isVisibleRightToLeft(); bool new_rtl0 = font.isRightToLeft(); int new_level; if (lpos == body_pos - 1 && row.pos() < body_pos - 1 && is_space) { new_level = rtl_par ? 1 : 0; new_rtl0 = rtl_par; new_rtl = rtl_par; } else if (new_rtl0) new_level = new_rtl ? 1 : 2; else new_level = rtl_par ? 2 : 0; if (is_space && new_level >= level) { new_level = level; new_rtl = rtl; new_rtl0 = rtl0; } int new_level2 = new_level; if (level == new_level && rtl0 != new_rtl0) { --new_level2; log2vis_list[lpos - bidi_start] = rtl ? 1 : -1; } else if (level < new_level) { log2vis_list[lpos - bidi_start] = rtl ? -1 : 1; if (new_level > rtl_par) bidi_same_direction = false; } else log2vis_list[lpos - bidi_start] = new_rtl ? -1 : 1; rtl = new_rtl; rtl0 = new_rtl0; bidi_levels[lpos - bidi_start] = new_level; while (level > new_level2) { pos_type old_lpos = stack[--level]; int delta = lpos - old_lpos - 1; if (level % 2) delta = -delta; log2vis_list[lpos - bidi_start] += delta; log2vis_list[old_lpos - bidi_start] += delta; } while (level < new_level) stack[level++] = lpos; } while (level > 0) { pos_type const old_lpos = stack[--level]; int delta = bidi_end - old_lpos; if (level % 2) delta = -delta; log2vis_list[old_lpos - bidi_start] += delta; } pos_type vpos = bidi_start - 1; for (pos_type lpos = bidi_start; lpos <= bidi_end; ++lpos) { vpos += log2vis_list[lpos - bidi_start]; vis2log_list[vpos - bidi_start] = lpos; log2vis_list[lpos - bidi_start] = vpos; } } // This method requires a previous call to ComputeBidiTables() bool LyXText::isBoundary(Buffer const & buf, Paragraph const & par, pos_type pos) const { if (!lyxrc.rtl_support || pos == 0) return false; if (!bidi_InRange(pos - 1)) { // This can happen if pos is the first char of a row. // Returning false in this case is incorrect! return false; } bool const rtl = bidi_level(pos - 1) % 2; bool const rtl2 = bidi_InRange(pos) ? bidi_level(pos) % 2 : par.isRightToLeftPar(buf.params()); return rtl != rtl2; } bool LyXText::isBoundary(Buffer const & buf, Paragraph const & par, pos_type pos, LyXFont const & font) const { if (!lyxrc.rtl_support) return false; // This is just for speedup bool const rtl = font.isVisibleRightToLeft(); bool const rtl2 = bidi_InRange(pos) ? bidi_level(pos) % 2 : par.isRightToLeftPar(buf.params()); return rtl != rtl2; } int LyXText::leftMargin(ParagraphList::iterator pit, Row const & row) const { LyXTextClass const & tclass = bv()->buffer()->params().getLyXTextClass(); LyXLayout_ptr const & layout = pit->layout(); string parindent = layout->parindent; int x = LEFT_MARGIN; x += font_metrics::signedWidth(tclass.leftmargin(), tclass.defaultfont()); // this is the way, LyX handles the LaTeX-Environments. // I have had this idea very late, so it seems to be a // later added hack and this is true if (!pit->getDepth()) { if (pit->layout() == tclass.defaultLayout()) { // find the previous same level paragraph if (pit != ownerParagraphs().begin()) { ParagraphList::iterator newpit = depthHook(pit, ownerParagraphs(), pit->getDepth()); if (newpit == pit && newpit->layout()->nextnoindent) parindent.erase(); } } } else { // find the next level paragraph ParagraphList::iterator newpar = outerHook(pit, ownerParagraphs()); // make a corresponding row. Needed to call leftMargin() // check wether it is a sufficent paragraph if (newpar != ownerParagraphs().end() && newpar->layout()->isEnvironment()) { x = leftMargin(newpar, Row(newpar->size())); } if (newpar != ownerParagraphs().end() && pit->layout() == tclass.defaultLayout()) { if (newpar->params().noindent()) parindent.erase(); else { parindent = newpar->layout()->parindent; } } } LyXFont const labelfont = getLabelFont(pit); switch (layout->margintype) { case MARGIN_DYNAMIC: if (!layout->leftmargin.empty()) { x += font_metrics::signedWidth(layout->leftmargin, tclass.defaultfont()); } if (!pit->getLabelstring().empty()) { x += font_metrics::signedWidth(layout->labelindent, labelfont); x += font_metrics::width(pit->getLabelstring(), labelfont); x += font_metrics::width(layout->labelsep, labelfont); } break; case MARGIN_MANUAL: x += font_metrics::signedWidth(layout->labelindent, labelfont); // The width of an empty par, even with manual label, should be 0 if (!pit->empty() && row.pos() >= pit->beginningOfBody()) { if (!pit->getLabelWidthString().empty()) { x += font_metrics::width(pit->getLabelWidthString(), labelfont); x += font_metrics::width(layout->labelsep, labelfont); } } break; case MARGIN_STATIC: x += font_metrics::signedWidth(layout->leftmargin, tclass.defaultfont()) * 4 / (pit->getDepth() + 4); break; case MARGIN_FIRST_DYNAMIC: if (layout->labeltype == LABEL_MANUAL) { if (row.pos() >= pit->beginningOfBody()) { x += font_metrics::signedWidth(layout->leftmargin, labelfont); } else { x += font_metrics::signedWidth(layout->labelindent, labelfont); } } else if (row.pos() // Special case to fix problems with // theorems (JMarc) || (layout->labeltype == LABEL_STATIC && layout->latextype == LATEX_ENVIRONMENT && !isFirstInSequence(pit, ownerParagraphs()))) { x += font_metrics::signedWidth(layout->leftmargin, labelfont); } else if (layout->labeltype != LABEL_TOP_ENVIRONMENT && layout->labeltype != LABEL_BIBLIO && layout->labeltype != LABEL_CENTERED_TOP_ENVIRONMENT) { x += font_metrics::signedWidth(layout->labelindent, labelfont); x += font_metrics::width(layout->labelsep, labelfont); x += font_metrics::width(pit->getLabelstring(), labelfont); } break; case MARGIN_RIGHT_ADDRESS_BOX: { // ok, a terrible hack. The left margin depends on the widest // row in this paragraph. RowList::iterator rit = pit->rows.begin(); RowList::iterator end = pit->rows.end(); int minfill = rit->fill(); for ( ; rit != end; ++rit) if (rit->fill() < minfill) minfill = rit->fill(); x += font_metrics::signedWidth(layout->leftmargin, tclass.defaultfont()); x += minfill; } break; } if (workWidth() > 0 && !pit->params().leftIndent().zero()) { LyXLength const len = pit->params().leftIndent(); int const tw = inset_owner ? inset_owner->latexTextWidth(bv()) : workWidth(); x += len.inPixels(tw); } LyXAlignment align; if (pit->params().align() == LYX_ALIGN_LAYOUT) align = layout->align; else align = pit->params().align(); // set the correct parindent if (row.pos() == 0) { if ((layout->labeltype == LABEL_NO_LABEL || layout->labeltype == LABEL_TOP_ENVIRONMENT || layout->labeltype == LABEL_CENTERED_TOP_ENVIRONMENT || (layout->labeltype == LABEL_STATIC && layout->latextype == LATEX_ENVIRONMENT && !isFirstInSequence(pit, ownerParagraphs()))) && align == LYX_ALIGN_BLOCK && !pit->params().noindent() // in tabulars and ert paragraphs are never indented! && (!pit->inInset() || !pit->inInset()->owner() || (pit->inInset()->owner()->lyxCode() != InsetOld::TABULAR_CODE && pit->inInset()->owner()->lyxCode() != InsetOld::ERT_CODE)) && (pit->layout() != tclass.defaultLayout() || bv()->buffer()->params().paragraph_separation == BufferParams::PARSEP_INDENT)) { x += font_metrics::signedWidth(parindent, tclass.defaultfont()); } else if (layout->labeltype == LABEL_BIBLIO) { // ale970405 Right width for bibitems x += bibitemMaxWidth(bv(), tclass.defaultfont()); } } return x; } int LyXText::rightMargin(Paragraph const & par, Buffer const & buf, Row const &) const { LyXTextClass const & tclass = buf.params().getLyXTextClass(); LyXLayout_ptr const & layout = par.layout(); return PAPER_MARGIN + font_metrics::signedWidth(tclass.rightmargin(), tclass.defaultfont()) + font_metrics::signedWidth(layout->rightmargin, tclass.defaultfont()) * 4 / (par.getDepth() + 4); } int LyXText::labelEnd(ParagraphList::iterator pit, Row const & row) const { if (pit->layout()->margintype == MARGIN_MANUAL) { Row tmprow = row; tmprow.pos(pit->size()); // return the beginning of the body return leftMargin(pit, tmprow); } // LabelEnd is only needed if the layout // fills a flushleft label. return 0; } namespace { // this needs special handling - only newlines count as a break point pos_type addressBreakPoint(pos_type i, Paragraph const & par) { for (; i < par.size(); ++i) if (par.isNewline(i)) return i; return par.size(); } }; pos_type LyXText::rowBreakPoint(ParagraphList::iterator pit, Row const & row) const { // maximum pixel width of a row. int width = workWidth() - rightMargin(*pit, *bv()->buffer(), row); // inset->textWidth() returns -1 via workWidth(), // but why ? if (width < 0) return pit->size(); LyXLayout_ptr const & layout = pit->layout(); if (layout->margintype == MARGIN_RIGHT_ADDRESS_BOX) return addressBreakPoint(row.pos(), *pit); pos_type const pos = row.pos(); pos_type const body_pos = pit->beginningOfBody(); pos_type const last = pit->size(); pos_type point = last; if (pos == last) return last; // Now we iterate through until we reach the right margin // or the end of the par, then choose the possible break // nearest that. int const left = leftMargin(pit, row); int x = left; // pixel width since last breakpoint int chunkwidth = 0; pos_type i = pos; // We re-use the font resolution for the entire font span when possible LyXFont font = getFont(pit, i); lyx::pos_type endPosOfFontSpan = pit->getEndPosOfFontSpan(i); for (; i < last; ++i) { if (pit->isNewline(i)) { point = i; break; } // Break before... if (i + 1 < last) { InsetOld * in = pit->getInset(i + 1); if (in && in->display()) { point = i; break; } // ...and after. in = pit->getInset(i); if (in && in->display()) { point = i; break; } } char const c = pit->getChar(i); if (i > endPosOfFontSpan) { font = getFont(pit, i); endPosOfFontSpan = pit->getEndPosOfFontSpan(i); } int thiswidth; // add the auto-hfill from label end to the body if (body_pos && i == body_pos) { thiswidth = font_metrics::width(layout->labelsep, getLabelFont(pit)); if (pit->isLineSeparator(i - 1)) thiswidth -= singleWidth(pit, i - 1); int left_margin = labelEnd(pit, row); if (thiswidth + x < left_margin) thiswidth = left_margin - x; thiswidth += singleWidth(pit, i, c, font); } else { thiswidth = singleWidth(pit, i, c, font); } x += thiswidth; //lyxerr << "i: " << i << " x: " << x << " width: " << width << endl; chunkwidth += thiswidth; // break before a character that will fall off // the right of the row if (x >= width) { // if no break before, break here if (point == last || chunkwidth >= width - left) { if (pos < i) { point = i - 1; // exit on last registered breakpoint: break; } } // emergency exit: if (i + 1 < last) break; } InsetOld * in = pit->getInset(i); if (!in || in->isChar()) { // some insets are line separators too if (pit->isLineSeparator(i)) { // register breakpoint: point = i; chunkwidth = 0; } } } if (point == last && x >= width) { // didn't find one, break at the point we reached the edge point = i; } else if (i == last && x < width) { // found one, but we fell off the end of the par, so prefer // that. point = last; } // manual labels cannot be broken in LaTeX. But we // want to make our on-screen rendering of footnotes // etc. still break if (body_pos && point < body_pos) point = body_pos - 1; return point; } // returns the minimum space a row needs on the screen in pixel int LyXText::fill(ParagraphList::iterator pit, Row & row, int paper_width) const { if (paper_width < 0) { lyxerr << "paperwidth < 0: " << paper_width << " Why?" << endl; return 0; } int w; // get the pure distance pos_type const last = lastPos(*pit, row); LyXLayout_ptr const & layout = pit->layout(); // special handling of the right address boxes if (layout->margintype == MARGIN_RIGHT_ADDRESS_BOX) { int const tmpfill = row.fill(); row.fill(0); // the minfill in leftMargin() w = leftMargin(pit, row); row.fill(tmpfill); } else w = leftMargin(pit, row); pos_type const body_pos = pit->beginningOfBody(); pos_type i = row.pos(); if (! pit->empty() && i <= last) { // We re-use the font resolution for the entire span when possible LyXFont font = getFont(pit, i); lyx::pos_type endPosOfFontSpan = pit->getEndPosOfFontSpan(i); while (i <= last) { if (body_pos > 0 && i == body_pos) { w += font_metrics::width(layout->labelsep, getLabelFont(pit)); if (pit->isLineSeparator(i - 1)) w -= singleWidth(pit, i - 1); int left_margin = labelEnd(pit, row); if (w < left_margin) w = left_margin; } char const c = pit->getChar(i); if (IsPrintable(c) && i > endPosOfFontSpan) { // We need to get the next font font = getFont(pit, i); endPosOfFontSpan = pit->getEndPosOfFontSpan(i); } w += singleWidth(pit, i, c, font); ++i; } } if (body_pos > 0 && body_pos > last) { w += font_metrics::width(layout->labelsep, getLabelFont(pit)); if (last >= 0 && pit->isLineSeparator(last)) w -= singleWidth(pit, last); int const left_margin = labelEnd(pit, row); if (w < left_margin) w = left_margin; } int const fill = paper_width - w - rightMargin(*pit, *bv()->buffer(), row); // If this case happens, it means that our calculation // of the widths of the chars when we do rowBreakPoint() // went wrong for some reason. Typically in list bodies. // Things just about hobble on anyway, though you'll end // up with a "fill_separator" less than zero, which corresponds // to inter-word spacing being too small. Hopefully this problem // will die when the label hacks die. if (lyxerr.debugging() && fill < 0) { lyxerr[Debug::GUI] << "Eek, fill() was < 0: " << fill << " w " << w << " paper_width " << paper_width << " right margin " << rightMargin(*pit, *bv()->buffer(), row) << endl; } return fill; } // returns the minimum space a manual label needs on the screen in pixel int LyXText::labelFill(ParagraphList::iterator pit, Row const & row) const { pos_type last = pit->beginningOfBody(); BOOST_ASSERT(last > 0); // -1 because a label ends either with a space that is in the label, // or with the beginning of a footnote that is outside the label. --last; // a separator at this end does not count if (pit->isLineSeparator(last)) --last; int w = 0; pos_type i = row.pos(); while (i <= last) { w += singleWidth(pit, i); ++i; } int fill = 0; string const & labwidstr = pit->params().labelWidthString(); if (!labwidstr.empty()) { LyXFont const labfont = getLabelFont(pit); int const labwidth = font_metrics::width(labwidstr, labfont); fill = max(labwidth - w, 0); } return fill; } LColor_color LyXText::backgroundColor() const { if (inset_owner) return inset_owner->backgroundColor(); else return LColor::background; } void LyXText::setHeightOfRow(ParagraphList::iterator pit, Row & row) { // get the maximum ascent and the maximum descent double layoutasc = 0; double layoutdesc = 0; double tmptop = 0; // ok, let us initialize the maxasc and maxdesc value. // Only the fontsize count. The other properties // are taken from the layoutfont. Nicer on the screen :) LyXLayout_ptr const & layout = pit->layout(); // as max get the first character of this row then it can increase but not // decrease the height. Just some point to start with so we don't have to // do the assignment below too often. LyXFont font = getFont(pit, row.pos()); LyXFont::FONT_SIZE const tmpsize = font.size(); font = getLayoutFont(pit); LyXFont::FONT_SIZE const size = font.size(); font.setSize(tmpsize); LyXFont labelfont = getLabelFont(pit); double spacing_val = 1.0; if (!pit->params().spacing().isDefault()) spacing_val = pit->params().spacing().getValue(); else spacing_val = bv()->buffer()->params().spacing().getValue(); //lyxerr << "spacing_val = " << spacing_val << endl; int maxasc = int(font_metrics::maxAscent(font) * layout->spacing.getValue() * spacing_val); int maxdesc = int(font_metrics::maxDescent(font) * layout->spacing.getValue() * spacing_val); pos_type const pos_end = lastPos(*pit, row); int labeladdon = 0; int maxwidth = 0; if (!pit->empty()) { // We re-use the font resolution for the entire font span when possible LyXFont font = getFont(pit, row.pos()); lyx::pos_type endPosOfFontSpan = pit->getEndPosOfFontSpan(row.pos()); // Optimisation Paragraph const & par = *pit; // Check if any insets are larger for (pos_type pos = row.pos(); pos <= pos_end; ++pos) { // Manual inlined optimised version of common case of // "maxwidth += singleWidth(pit, pos);" char const c = par.getChar(pos); if (IsPrintable(c)) { if (pos > endPosOfFontSpan) { // We need to get the next font font = getFont(pit, pos); endPosOfFontSpan = par.getEndPosOfFontSpan(pos); } if (! font.language()->RightToLeft()) { maxwidth += font_metrics::width(c, font); } else { // Fall-back to normal case maxwidth += singleWidth(pit, pos, c, font); // And flush font cache endPosOfFontSpan = 0; } } else { // Special handling of insets - are any larger? if (par.isInset(pos)) { InsetOld const * tmpinset = par.getInset(pos); if (tmpinset) { maxwidth += tmpinset->width(); maxasc = max(maxasc, tmpinset->ascent()); maxdesc = max(maxdesc, tmpinset->descent()); } } else { // Fall-back to normal case maxwidth += singleWidth(pit, pos, c, font); // And flush font cache endPosOfFontSpan = 0; } } } } // Check if any custom fonts are larger (Asger) // This is not completely correct, but we can live with the small, // cosmetic error for now. LyXFont::FONT_SIZE maxsize = pit->highestFontInRange(row.pos(), pos_end, size); if (maxsize > font.size()) { font.setSize(maxsize); maxasc = max(maxasc, font_metrics::maxAscent(font)); maxdesc = max(maxdesc, font_metrics::maxDescent(font)); } // This is nicer with box insets: ++maxasc; ++maxdesc; row.ascent_of_text(maxasc); // is it a top line? if (!row.pos()) { BufferParams const & bufparams = bv()->buffer()->params(); // some parksips VERY EASY IMPLEMENTATION if (bv()->buffer()->params().paragraph_separation == BufferParams::PARSEP_SKIP) { if (layout->isParagraph() && pit->getDepth() == 0 && pit != ownerParagraphs().begin()) { maxasc += bufparams.getDefSkip().inPixels(*bv()); } else if (pit != ownerParagraphs().begin() && boost::prior(pit)->layout()->isParagraph() && boost::prior(pit)->getDepth() == 0) { // is it right to use defskip here too? (AS) maxasc += bufparams.getDefSkip().inPixels(*bv()); } } // the top margin if (pit == ownerParagraphs().begin() && !isInInset()) maxasc += PAPER_MARGIN; // add the vertical spaces, that the user added maxasc += getLengthMarkerHeight(*bv(), pit->params().spaceTop()); // do not forget the DTP-lines! // there height depends on the font of the nearest character if (pit->params().lineTop()) maxasc += 2 * font_metrics::ascent('x', getFont(pit, 0)); // and now the pagebreaks if (pit->params().pagebreakTop()) maxasc += 3 * defaultRowHeight(); if (pit->params().startOfAppendix()) maxasc += 3 * defaultRowHeight(); // This is special code for the chapter, since the label of this // layout is printed in an extra row if (layout->counter == "chapter" && bufparams.secnumdepth >= 0) { float spacing_val = 1.0; if (!pit->params().spacing().isDefault()) { spacing_val = pit->params().spacing().getValue(); } else { spacing_val = bufparams.spacing().getValue(); } labeladdon = int(font_metrics::maxDescent(labelfont) * layout->spacing.getValue() * spacing_val) + int(font_metrics::maxAscent(labelfont) * layout->spacing.getValue() * spacing_val); } // special code for the top label if ((layout->labeltype == LABEL_TOP_ENVIRONMENT || layout->labeltype == LABEL_BIBLIO || layout->labeltype == LABEL_CENTERED_TOP_ENVIRONMENT) && isFirstInSequence(pit, ownerParagraphs()) && !pit->getLabelstring().empty()) { float spacing_val = 1.0; if (!pit->params().spacing().isDefault()) { spacing_val = pit->params().spacing().getValue(); } else { spacing_val = bufparams.spacing().getValue(); } labeladdon = int( (font_metrics::maxAscent(labelfont) + font_metrics::maxDescent(labelfont)) * layout->spacing.getValue() * spacing_val + layout->topsep * defaultRowHeight() + layout->labelbottomsep * defaultRowHeight()); } // And now the layout spaces, for example before and after // a section, or between the items of a itemize or enumerate // environment. if (!pit->params().pagebreakTop()) { ParagraphList::iterator prev = depthHook(pit, ownerParagraphs(), pit->getDepth()); if (prev != pit && prev->layout() == layout && prev->getDepth() == pit->getDepth() && prev->getLabelWidthString() == pit->getLabelWidthString()) { layoutasc = (layout->itemsep * defaultRowHeight()); } else if (pit != ownerParagraphs().begin() || row.pos() != 0) { tmptop = layout->topsep; if (tmptop > 0) layoutasc = (tmptop * defaultRowHeight()); } else if (pit->params().lineTop()) { tmptop = layout->topsep; if (tmptop > 0) layoutasc = (tmptop * defaultRowHeight()); } prev = outerHook(pit, ownerParagraphs()); if (prev != ownerParagraphs().end()) { maxasc += int(prev->layout()->parsep * defaultRowHeight()); } else if (pit != ownerParagraphs().begin()) { ParagraphList::iterator prior_pit = boost::prior(pit); if (prior_pit->getDepth() != 0 || prior_pit->layout() == layout) { maxasc += int(layout->parsep * defaultRowHeight()); } } } } // is it a bottom line? if (row.endpos() >= pit->size()) { // the bottom margin ParagraphList::iterator nextpit = boost::next(pit); if (nextpit == ownerParagraphs().end() && !isInInset()) maxdesc += PAPER_MARGIN; // add the vertical spaces, that the user added maxdesc += getLengthMarkerHeight(*bv(), pit->params().spaceBottom()); // do not forget the DTP-lines! // there height depends on the font of the nearest character if (pit->params().lineBottom()) maxdesc += 2 * font_metrics::ascent('x', getFont(pit, max(pos_type(0), pit->size() - 1))); // and now the pagebreaks if (pit->params().pagebreakBottom()) maxdesc += 3 * defaultRowHeight(); // and now the layout spaces, for example before and after // a section, or between the items of a itemize or enumerate // environment if (!pit->params().pagebreakBottom() && nextpit != ownerParagraphs().end()) { ParagraphList::iterator comparepit = pit; float usual = 0; float unusual = 0; if (comparepit->getDepth() > nextpit->getDepth()) { usual = (comparepit->layout()->bottomsep * defaultRowHeight()); comparepit = depthHook(comparepit, ownerParagraphs(), nextpit->getDepth()); if (comparepit->layout()!= nextpit->layout() || nextpit->getLabelWidthString() != comparepit->getLabelWidthString()) { unusual = (comparepit->layout()->bottomsep * defaultRowHeight()); } if (unusual > usual) layoutdesc = unusual; else layoutdesc = usual; } else if (comparepit->getDepth() == nextpit->getDepth()) { if (comparepit->layout() != nextpit->layout() || nextpit->getLabelWidthString() != comparepit->getLabelWidthString()) layoutdesc = int(comparepit->layout()->bottomsep * defaultRowHeight()); } } } // incalculate the layout spaces maxasc += int(layoutasc * 2 / (2 + pit->getDepth())); maxdesc += int(layoutdesc * 2 / (2 + pit->getDepth())); row.height(maxasc + maxdesc + labeladdon); row.baseline(maxasc + labeladdon); row.top_of_text(row.baseline() - font_metrics::maxAscent(font)); row.width(maxwidth); if (inset_owner) width = max(workWidth(), int(maxParagraphWidth(ownerParagraphs()))); } void LyXText::breakParagraph(ParagraphList & paragraphs, char keep_layout) { // allow only if at start or end, or all previous is new text if (cursor.pos() && cursor.pos() != cursorPar()->size() && cursorPar()->isChangeEdited(0, cursor.pos())) return; LyXTextClass const & tclass = bv()->buffer()->params().getLyXTextClass(); LyXLayout_ptr const & layout = cursorPar()->layout(); // this is only allowed, if the current paragraph is not empty or caption // and if it has not the keepempty flag active if (cursorPar()->empty() && !cursorPar()->allowEmpty() && layout->labeltype != LABEL_SENSITIVE) return; recUndo(cursor.par()); // Always break behind a space // // It is better to erase the space (Dekel) if (cursor.pos() < cursorPar()->size() && cursorPar()->isLineSeparator(cursor.pos())) cursorPar()->erase(cursor.pos()); // break the paragraph if (keep_layout) keep_layout = 2; else keep_layout = layout->isEnvironment(); // we need to set this before we insert the paragraph. IMO the // breakParagraph call should return a bool if it inserts the // paragraph before or behind and we should react on that one // but we can fix this in 1.3.0 (Jug 20020509) bool const isempty = (cursorPar()->allowEmpty() && cursorPar()->empty()); ::breakParagraph(bv()->buffer()->params(), paragraphs, cursorPar(), cursor.pos(), keep_layout); #warning Trouble Point! (Lgb) // When ::breakParagraph is called from within an inset we must // ensure that the correct ParagraphList is used. Today that is not // the case and the Buffer::paragraphs is used. Not good. (Lgb) ParagraphList::iterator next_par = boost::next(cursorPar()); // well this is the caption hack since one caption is really enough if (layout->labeltype == LABEL_SENSITIVE) { if (!cursor.pos()) // set to standard-layout cursorPar()->applyLayout(tclass.defaultLayout()); else // set to standard-layout next_par->applyLayout(tclass.defaultLayout()); } // if the cursor is at the beginning of a row without prior newline, // move one row up! // This touches only the screen-update. Otherwise we would may have // an empty row on the screen if (cursor.pos() && cursorRow()->pos() == cursor.pos() && !cursorPar()->isNewline(cursor.pos() - 1)) { cursorLeft(bv()); } while (!next_par->empty() && next_par->isNewline(0)) next_par->erase(0); updateCounters(); redoParagraph(cursorPar()); redoParagraph(next_par); // This check is necessary. Otherwise the new empty paragraph will // be deleted automatically. And it is more friendly for the user! if (cursor.pos() || isempty) setCursor(next_par, 0); else setCursor(cursorPar(), 0); } // convenience function void LyXText::redoParagraph() { clearSelection(); redoParagraph(cursorPar()); setCursorIntern(cursor.par(), cursor.pos()); } // insert a character, moves all the following breaks in the // same Paragraph one to the right and make a rebreak void LyXText::insertChar(char c) { recordUndo(Undo::INSERT, this, cursor.par(), cursor.par()); // When the free-spacing option is set for the current layout, // disable the double-space checking bool const freeSpacing = cursorPar()->layout()->free_spacing || cursorPar()->isFreeSpacing(); if (lyxrc.auto_number) { static string const number_operators = "+-/*"; static string const number_unary_operators = "+-"; static string const number_seperators = ".,:"; if (current_font.number() == LyXFont::ON) { if (!IsDigit(c) && !contains(number_operators, c) && !(contains(number_seperators, c) && cursor.pos() >= 1 && cursor.pos() < cursorPar()->size() && getFont(cursorPar(), cursor.pos()).number() == LyXFont::ON && getFont(cursorPar(), cursor.pos() - 1).number() == LyXFont::ON) ) number(bv()); // Set current_font.number to OFF } else if (IsDigit(c) && real_current_font.isVisibleRightToLeft()) { number(bv()); // Set current_font.number to ON if (cursor.pos() > 0) { char const c = cursorPar()->getChar(cursor.pos() - 1); if (contains(number_unary_operators, c) && (cursor.pos() == 1 || cursorPar()->isSeparator(cursor.pos() - 2) || cursorPar()->isNewline(cursor.pos() - 2)) ) { setCharFont( cursorPar(), cursor.pos() - 1, current_font); } else if (contains(number_seperators, c) && cursor.pos() >= 2 && getFont( cursorPar(), cursor.pos() - 2).number() == LyXFont::ON) { setCharFont( cursorPar(), cursor.pos() - 1, current_font); } } } } // First check, if there will be two blanks together or a blank at // the beginning of a paragraph. // I decided to handle blanks like normal characters, the main // difference are the special checks when calculating the row.fill // (blank does not count at the end of a row) and the check here // The bug is triggered when we type in a description environment: // The current_font is not changed when we go from label to main text // and it should (along with realtmpfont) when we type the space. // CHECK There is a bug here! (Asger) // store the current font. This is because of the use of cursor // movements. The moving cursor would refresh the current font LyXFont realtmpfont = real_current_font; LyXFont rawtmpfont = current_font; if (!freeSpacing && IsLineSeparatorChar(c)) { if ((cursor.pos() > 0 && cursorPar()->isLineSeparator(cursor.pos() - 1)) || (cursor.pos() > 0 && cursorPar()->isNewline(cursor.pos() - 1)) || (cursor.pos() == 0)) { static bool sent_space_message = false; if (!sent_space_message) { if (cursor.pos() == 0) bv()->owner()->message(_("You cannot insert a space at the beginning of a paragraph. Please read the Tutorial.")); else bv()->owner()->message(_("You cannot type two spaces this way. Please read the Tutorial.")); sent_space_message = true; } charInserted(); return; } } // Here case LyXText::InsertInset already inserted the character if (c != Paragraph::META_INSET) cursorPar()->insertChar(cursor.pos(), c); setCharFont(cursorPar(), cursor.pos(), rawtmpfont); current_font = rawtmpfont; real_current_font = realtmpfont; redoParagraph(cursorPar()); setCursor(cursor.par(), cursor.pos() + 1, false, cursor.boundary()); charInserted(); } void LyXText::charInserted() { // Here we could call finishUndo for every 20 characters inserted. // This is from my experience how emacs does it. (Lgb) static unsigned int counter; if (counter < 20) { ++counter; } else { finishUndo(); counter = 0; } } void LyXText::prepareToPrint(ParagraphList::iterator pit, Row & row) const { double w = row.fill(); double fill_hfill = 0; double fill_label_hfill = 0; double fill_separator = 0; double x = 0; bool const is_rtl = pit->isRightToLeftPar(bv()->buffer()->params()); if (is_rtl) x = workWidth() > 0 ? rightMargin(*pit, *bv()->buffer(), row) : 0; else x = workWidth() > 0 ? leftMargin(pit, row) : 0; // is there a manual margin with a manual label LyXLayout_ptr const & layout = pit->layout(); if (layout->margintype == MARGIN_MANUAL && layout->labeltype == LABEL_MANUAL) { /// We might have real hfills in the label part int nlh = numberOfLabelHfills(*pit, row); // A manual label par (e.g. List) has an auto-hfill // between the label text and the body of the // paragraph too. // But we don't want to do this auto hfill if the par // is empty. if (!pit->empty()) ++nlh; if (nlh && !pit->getLabelWidthString().empty()) { fill_label_hfill = labelFill(pit, row) / double(nlh); } } // are there any hfills in the row? int const nh = numberOfHfills(*pit, row); if (nh) { if (w > 0) fill_hfill = w / nh; // we don't have to look at the alignment if it is ALIGN_LEFT and // if the row is already larger then the permitted width as then // we force the LEFT_ALIGN'edness! } else if (int(row.width()) < workWidth()) { // is it block, flushleft or flushright? // set x how you need it int align; if (pit->params().align() == LYX_ALIGN_LAYOUT) { align = layout->align; } else { align = pit->params().align(); } InsetOld * inset = 0; // ERT insets should always be LEFT ALIGNED on screen inset = pit->inInset(); if (inset && inset->owner() && inset->owner()->lyxCode() == InsetOld::ERT_CODE) { align = LYX_ALIGN_LEFT; } // Display-style insets should always be on a centred row // The test on pit->size() is to catch zero-size pars, which // would trigger the assert in Paragraph::getInset(). //inset = pit->size() ? pit->getInset(row.pos()) : 0; inset = pit->isInset(row.pos()) ? pit->getInset(row.pos()) : 0; if (inset && inset->display()) { align = LYX_ALIGN_CENTER; } switch (align) { case LYX_ALIGN_BLOCK: { int const ns = numberOfSeparators(*pit, row); bool disp_inset = false; if (row.endpos() < pit->size()) { InsetOld * in = pit->getInset(row.endpos()); if (in) disp_inset = in->display(); } // If we have separators, this is not the last row of a // par, does not end in newline, and is not row above a // display inset... then stretch it if (ns && row.endpos() < pit->size() && !pit->isNewline(row.endpos()) && !disp_inset ) { fill_separator = w / ns; } else if (is_rtl) { x += w; } break; } case LYX_ALIGN_RIGHT: x += w; break; case LYX_ALIGN_CENTER: x += w / 2; break; } } computeBidiTables(*pit, *bv()->buffer(), row); if (is_rtl) { pos_type body_pos = pit->beginningOfBody(); pos_type last = lastPos(*pit, row); if (body_pos > 0 && (body_pos - 1 > last || !pit->isLineSeparator(body_pos - 1))) { x += font_metrics::width(layout->labelsep, getLabelFont(pit)); if (body_pos - 1 <= last) x += fill_label_hfill; } } row.fill_hfill(fill_hfill); row.fill_label_hfill(fill_label_hfill); row.fill_separator(fill_separator); row.x(x); } // important for the screen // the cursor set functions have a special mechanism. When they // realize, that you left an empty paragraph, they will delete it. // They also delete the corresponding row void LyXText::cursorRightOneWord() { ::cursorRightOneWord(*this, cursor, ownerParagraphs()); setCursor(cursorPar(), cursor.pos()); } // Skip initial whitespace at end of word and move cursor to *start* // of prior word, not to end of next prior word. void LyXText::cursorLeftOneWord() { LyXCursor tmpcursor = cursor; ::cursorLeftOneWord(*this, tmpcursor, ownerParagraphs()); setCursor(getPar(tmpcursor), tmpcursor.pos()); } void LyXText::selectWord(word_location loc) { LyXCursor from = cursor; LyXCursor to = cursor; ::getWord(*this, from, to, loc, ownerParagraphs()); if (cursor != from) setCursor(from.par(), from.pos()); if (to == from) return; selection.cursor = cursor; setCursor(to.par(), to.pos()); setSelection(); } // Select the word currently under the cursor when no // selection is currently set bool LyXText::selectWordWhenUnderCursor(word_location loc) { if (!selection.set()) { selectWord(loc); return selection.set(); } return false; } void LyXText::acceptChange() { if (!selection.set() && cursorPar()->size()) return; if (selection.start.par() == selection.end.par()) { LyXCursor & startc = selection.start; LyXCursor & endc = selection.end; recordUndo(Undo::INSERT, this, startc.par()); getPar(startc)->acceptChange(startc.pos(), endc.pos()); finishUndo(); clearSelection(); redoParagraph(getPar(startc)); setCursorIntern(startc.par(), 0); } #warning handle multi par selection } void LyXText::rejectChange() { if (!selection.set() && cursorPar()->size()) return; if (selection.start.par() == selection.end.par()) { LyXCursor & startc = selection.start; LyXCursor & endc = selection.end; recordUndo(Undo::INSERT, this, startc.par()); getPar(startc)->rejectChange(startc.pos(), endc.pos()); finishUndo(); clearSelection(); redoParagraph(getPar(startc)); setCursorIntern(startc.par(), 0); } #warning handle multi par selection } // This function is only used by the spellchecker for NextWord(). // It doesn't handle LYX_ACCENTs and probably never will. WordLangTuple const LyXText::selectNextWordToSpellcheck(float & value) { if (the_locking_inset) { WordLangTuple word = the_locking_inset->selectNextWordToSpellcheck(bv(), value); if (!word.word().empty()) { value += float(cursor.y()); value /= float(height); return word; } // we have to go on checking so move cursor to the next char if (cursor.pos() == cursorPar()->size()) { if (cursor.par() + 1 == int(ownerParagraphs().size())) return word; cursor.par(cursor.par() + 1); cursor.pos(0); } else { cursor.pos(cursor.pos() + 1); } } int const tmppar = cursor.par(); // If this is not the very first word, skip rest of // current word because we are probably in the middle // of a word if there is text here. if (cursor.pos() || cursor.par() != 0) { while (cursor.pos() < cursorPar()->size() && cursorPar()->isLetter(cursor.pos())) cursor.pos(cursor.pos() + 1); } // Now, skip until we have real text (will jump paragraphs) while (true) { ParagraphList::iterator cpit = cursorPar(); pos_type const cpos = cursor.pos(); if (cpos == cpit->size()) { if (cursor.par() + 1 != int(ownerParagraphs().size())) { cursor.par(cursor.par() + 1); cursor.pos(0); continue; } break; } bool const is_good_inset = cpit->isInset(cpos) && cpit->getInset(cpos)->allowSpellcheck(); if (!isDeletedText(*cpit, cpos) && (is_good_inset || cpit->isLetter(cpos))) break; cursor.pos(cpos + 1); } // now check if we hit an inset so it has to be a inset containing text! if (cursor.pos() < cursorPar()->size() && cursorPar()->isInset(cursor.pos())) { // lock the inset! FuncRequest cmd(bv(), LFUN_INSET_EDIT, "left"); cursorPar()->getInset(cursor.pos())->dispatch(cmd); // now call us again to do the above trick // but obviously we have to start from down below ;) return bv()->text->selectNextWordToSpellcheck(value); } // Update the value if we changed paragraphs if (cursor.par() != tmppar) { setCursor(cursor.par(), cursor.pos()); value = float(cursor.y())/float(height); } // Start the selection from here selection.cursor = cursor; string lang_code = getFont(cursorPar(), cursor.pos()).language()->code(); // and find the end of the word (insets like optional hyphens // and ligature break are part of a word) while (cursor.pos() < cursorPar()->size() && cursorPar()->isLetter(cursor.pos()) && !isDeletedText(*cursorPar(), cursor.pos())) cursor.pos(cursor.pos() + 1); // Finally, we copy the word to a string and return it string str; if (selection.cursor.pos() < cursor.pos()) { for (pos_type i = selection.cursor.pos(); i < cursor.pos(); ++i) { if (!cursorPar()->isInset(i)) str += cursorPar()->getChar(i); } } return WordLangTuple(str, lang_code); } // This one is also only for the spellchecker void LyXText::selectSelectedWord() { if (the_locking_inset) { the_locking_inset->selectSelectedWord(bv()); return; } // move cursor to the beginning setCursor(selection.cursor.par(), selection.cursor.pos()); // set the sel cursor selection.cursor = cursor; // now find the end of the word while (cursor.pos() < cursorPar()->size() && cursorPar()->isLetter(cursor.pos())) cursor.pos(cursor.pos() + 1); setCursor(cursorPar(), cursor.pos()); // finally set the selection setSelection(); } // Delete from cursor up to the end of the current or next word. void LyXText::deleteWordForward() { if (cursorPar()->empty()) cursorRight(bv()); else { LyXCursor tmpcursor = cursor; selection.set(true); // to avoid deletion cursorRightOneWord(); setCursor(tmpcursor, tmpcursor.par(), tmpcursor.pos()); selection.cursor = cursor; cursor = tmpcursor; setSelection(); cutSelection(true, false); } } // Delete from cursor to start of current or prior word. void LyXText::deleteWordBackward() { if (cursorPar()->empty()) cursorLeft(bv()); else { LyXCursor tmpcursor = cursor; selection.set(true); // to avoid deletion cursorLeftOneWord(); setCursor(tmpcursor, tmpcursor.par(), tmpcursor.pos()); selection.cursor = cursor; cursor = tmpcursor; setSelection(); cutSelection(true, false); } } // Kill to end of line. void LyXText::deleteLineForward() { if (cursorPar()->empty()) // Paragraph is empty, so we just go to the right cursorRight(bv()); else { LyXCursor tmpcursor = cursor; // We can't store the row over a regular setCursor // so we set it to 0 and reset it afterwards. selection.set(true); // to avoid deletion cursorEnd(); setCursor(tmpcursor, tmpcursor.par(), tmpcursor.pos()); selection.cursor = cursor; cursor = tmpcursor; setSelection(); // What is this test for ??? (JMarc) if (!selection.set()) { deleteWordForward(); } else { cutSelection(true, false); } } } void LyXText::changeCase(LyXText::TextCase action) { LyXCursor from; LyXCursor to; if (selection.set()) { from = selection.start; to = selection.end; } else { from = cursor; ::getWord(*this, from, to, lyx::PARTIAL_WORD, ownerParagraphs()); setCursor(to.par(), to.pos() + 1); } recordUndo(Undo::ATOMIC, this, from.par(), to.par()); pos_type pos = from.pos(); int par = from.par(); while (par != int(ownerParagraphs().size()) && (pos != to.pos() || par != to.par())) { ParagraphList::iterator pit = getPar(par); if (pos == pit->size()) { ++par; pos = 0; continue; } unsigned char c = pit->getChar(pos); if (c != Paragraph::META_INSET) { switch (action) { case text_lowercase: c = lowercase(c); break; case text_capitalization: c = uppercase(c); action = text_lowercase; break; case text_uppercase: c = uppercase(c); break; } } #warning changes pit->setChar(pos, c); ++pos; } } void LyXText::Delete() { // this is a very easy implementation LyXCursor old_cursor = cursor; int const old_cur_par_id = cursorPar()->id(); int const old_cur_par_prev_id = old_cursor.par() ? getPar(old_cursor.par() - 1)->id() : -1; // just move to the right cursorRight(bv()); // CHECK Look at the comment here. // This check is not very good... // The cursorRightIntern calls DeleteEmptyParagraphMechanism // and that can very well delete the par or par->previous in // old_cursor. Will a solution where we compare paragraph id's //work better? int iid = cursor.par() ? getPar(cursor.par() - 1)->id() : -1; if (iid == old_cur_par_prev_id && cursorPar()->id() != old_cur_par_id) { // delete-empty-paragraph-mechanism has done it return; } // if you had success make a backspace if (old_cursor.par() != cursor.par() || old_cursor.pos() != cursor.pos()) { recordUndo(Undo::DELETE, this, old_cursor.par()); backspace(); } } void LyXText::backspace() { // Get the font that is used to calculate the baselineskip ParagraphList::iterator pit = cursorPar(); pos_type lastpos = pit->size(); if (cursor.pos() == 0) { // The cursor is at the beginning of a paragraph, // so the the backspace will collapse two paragraphs into one. // but it's not allowed unless it's new if (pit->isChangeEdited(0, pit->size())) return; // we may paste some paragraphs // is it an empty paragraph? if (lastpos == 0 || (lastpos == 1 && pit->isSeparator(0))) { // This is an empty paragraph and we delete it just // by moving the cursor one step // left and let the DeleteEmptyParagraphMechanism // handle the actual deletion of the paragraph. if (cursor.par()) { ParagraphList::iterator tmppit = getPar(cursor.par() - 1); if (cursorPar()->layout() == tmppit->layout() && cursorPar()->getAlign() == tmppit->getAlign()) { // Inherit bottom DTD from the paragraph below. // (the one we are deleting) tmppit->params().lineBottom(cursorPar()->params().lineBottom()); tmppit->params().spaceBottom(cursorPar()->params().spaceBottom()); tmppit->params().pagebreakBottom(cursorPar()->params().pagebreakBottom()); } cursorLeft(bv()); // the layout things can change the height of a row ! redoParagraph(); return; } } if (cursor.par() != 0) recordUndo(Undo::DELETE, this, cursor.par() - 1, cursor.par()); ParagraphList::iterator tmppit = cursorPar(); // We used to do cursorLeftIntern() here, but it is // not a good idea since it triggers the auto-delete // mechanism. So we do a cursorLeftIntern()-lite, // without the dreaded mechanism. (JMarc) if (cursor.par() != 0) { // steps into the above paragraph. setCursorIntern(cursor.par() - 1, getPar(cursor.par() - 1)->size(), false); } // Pasting is not allowed, if the paragraphs have different // layout. I think it is a real bug of all other // word processors to allow it. It confuses the user. // Correction: Pasting is always allowed with standard-layout Buffer & buf = *bv()->buffer(); BufferParams const & bufparams = buf.params(); LyXTextClass const & tclass = bufparams.getLyXTextClass(); if (cursorPar() != tmppit && (cursorPar()->layout() == tmppit->layout() || tmppit->layout() == tclass.defaultLayout()) && cursorPar()->getAlign() == tmppit->getAlign()) { mergeParagraph(bufparams, buf.paragraphs(), cursorPar()); if (cursor.pos() && cursorPar()->isSeparator(cursor.pos() - 1)) cursor.pos(cursor.pos() - 1); // the row may have changed, block, hfills etc. updateCounters(); setCursor(cursor.par(), cursor.pos(), false); } } else { // this is the code for a normal backspace, not pasting // any paragraphs recordUndo(Undo::DELETE, this, cursor.par()); // We used to do cursorLeftIntern() here, but it is // not a good idea since it triggers the auto-delete // mechanism. So we do a cursorLeftIntern()-lite, // without the dreaded mechanism. (JMarc) setCursorIntern(cursor.par(), cursor.pos() - 1, false, cursor.boundary()); cursorPar()->erase(cursor.pos()); } lastpos = cursorPar()->size(); if (cursor.pos() == lastpos) setCurrentFont(); redoParagraph(); setCursor(cursor.par(), cursor.pos(), false, !cursor.boundary()); } ParagraphList::iterator LyXText::cursorPar() const { return getPar(cursor.par()); } ParagraphList::iterator LyXText::getPar(LyXCursor const & cur) const { return getPar(cur.par()); } ParagraphList::iterator LyXText::getPar(int par) const { BOOST_ASSERT(par >= 0); BOOST_ASSERT(par < int(ownerParagraphs().size())); ParagraphList::iterator pit = ownerParagraphs().begin(); std::advance(pit, par); return pit; } RowList::iterator LyXText::cursorRow() const { return getRow(*cursorPar(), cursor.pos()); } RowList::iterator LyXText::getRow(LyXCursor const & cur) const { return getRow(*getPar(cur), cur.pos()); } RowList::iterator LyXText::getRow(Paragraph & par, pos_type pos) const { RowList::iterator rit = boost::prior(par.rows.end()); RowList::iterator const begin = par.rows.begin(); while (rit != begin && rit->pos() > pos) --rit; return rit; } RowList::iterator LyXText::getRowNearY(int y, ParagraphList::iterator & pit) const { //lyxerr << "getRowNearY: y " << y << endl; pit = boost::prior(ownerParagraphs().end()); RowList::iterator rit = lastRow(); RowList::iterator rbegin = firstRow(); while (rit != rbegin && int(pit->y + rit->y_offset()) > y) previousRow(pit, rit); return rit; } int LyXText::getDepth() const { return cursorPar()->getDepth(); } RowList::iterator LyXText::firstRow() const { return ownerParagraphs().front().rows.begin(); } RowList::iterator LyXText::lastRow() const { return boost::prior(endRow()); } RowList::iterator LyXText::endRow() const { return ownerParagraphs().back().rows.end(); } void LyXText::nextRow(ParagraphList::iterator & pit, RowList::iterator & rit) const { ++rit; if (rit == pit->rows.end()) { ++pit; if (pit == ownerParagraphs().end()) --pit; else rit = pit->rows.begin(); } } void LyXText::previousRow(ParagraphList::iterator & pit, RowList::iterator & rit) const { if (rit != pit->rows.begin()) --rit; else { BOOST_ASSERT(pit != ownerParagraphs().begin()); --pit; rit = boost::prior(pit->rows.end()); } } string LyXText::selectionAsString(Buffer const & buffer, bool label) const { if (!selection.set()) return string(); // should be const ... ParagraphList::iterator startpit = getPar(selection.start); ParagraphList::iterator endpit = getPar(selection.end); size_t const startpos = selection.start.pos(); size_t const endpos = selection.end.pos(); if (startpit == endpit) return startpit->asString(buffer, startpos, endpos, label); // First paragraph in selection string result = startpit->asString(buffer, startpos, startpit->size(), label) + "\n\n"; // The paragraphs in between (if any) ParagraphList::iterator pit = startpit; for (++pit; pit != endpit; ++pit) result += pit->asString(buffer, 0, pit->size(), label) + "\n\n"; // Last paragraph in selection result += endpit->asString(buffer, 0, endpos, label); return result; } int LyXText::parOffset(ParagraphList::iterator pit) const { return std::distance(ownerParagraphs().begin(), pit); } void LyXText::redoParagraphInternal(ParagraphList::iterator pit) { // remove rows of paragraph, keep track of height changes height -= pit->height; // clear old data pit->rows.clear(); pit->height = 0; pit->width = 0; // redo insets InsetList::iterator ii = pit->insetlist.begin(); InsetList::iterator iend = pit->insetlist.end(); for (; ii != iend; ++ii) { Dimension dim; MetricsInfo mi(bv(), getFont(pit, ii->pos), workWidth()); ii->inset->metrics(mi, dim); } // rebreak the paragraph int const ww = workWidth(); for (pos_type z = 0; z < pit->size() + 1; ) { Row row(z); z = rowBreakPoint(pit, row) + 1; row.endpos(z); int const f = fill(pit, row, ww); unsigned int const w = ww - f; pit->width = std::max(pit->width, w); row.fill(f); row.width(w); prepareToPrint(pit, row); setHeightOfRow(pit, row); row.y_offset(pit->height); pit->height += row.height(); pit->rows.push_back(row); } height += pit->height; //lyxerr << "redoParagraph: " << pit->rows.size() << " rows\n"; } void LyXText::redoParagraphs(ParagraphList::iterator pit, ParagraphList::iterator end) { for ( ; pit != end; ++pit) redoParagraphInternal(pit); updateRowPositions(); } void LyXText::redoParagraph(ParagraphList::iterator pit) { redoParagraphInternal(pit); updateRowPositions(); } void LyXText::fullRebreak() { redoParagraphs(ownerParagraphs().begin(), ownerParagraphs().end()); redoCursor(); selection.cursor = cursor; } void LyXText::metrics(MetricsInfo & mi, Dimension & dim) { lyxerr << "LyXText::metrics: width: " << mi.base.textwidth << " workWidth: " << workWidth() << "\nfont: " << mi.base.font << endl; //BOOST_ASSERT(mi.base.textwidth); //anchor_y_ = 0; // rebuild row cache. This recomputes height as well. redoParagraphs(ownerParagraphs().begin(), ownerParagraphs().end()); width = maxParagraphWidth(ownerParagraphs()); // final dimension dim.asc = firstRow()->ascent_of_text(); dim.des = height - dim.asc; dim.wid = std::max(mi.base.textwidth, int(width)); } bool LyXText::isLastRow(ParagraphList::iterator pit, Row const & row) const { return row.endpos() >= pit->size() && boost::next(pit) == ownerParagraphs().end(); } bool LyXText::isFirstRow(ParagraphList::iterator pit, Row const & row) const { return row.pos() == 0 && pit == ownerParagraphs().begin(); }