3 * This file is part of LyX, the document processor.
4 * Licence details can be found in the file COPYING.
6 * \author Lars Gullik Bjønnes
10 * \author Jean-Marc Lasgouttes
12 * Full author contact details are available in file CREDITS.
14 * Metrics for an on-screen text row.
21 #include "DocIterator.h"
24 #include "frontends/FontMetrics.h"
26 #include "support/debug.h"
27 #include "support/lassert.h"
28 #include "support/lstrings.h"
29 #include "support/lyxlib.h"
30 #include "support/textutils.h"
39 using frontend::FontMetrics;
42 // Maximum length that a space can be stretched when justifying text
43 static double const MAX_SPACE_STRETCH = 1.5; //em
46 int Row::Element::countExpanders() const
50 return support::countExpanders(str);
54 int Row::Element::expansionAmount() const
58 return countExpanders() * theFontMetrics(font).em();
62 void Row::Element::setExtra(double extra_per_em)
66 extra = extra_per_em * theFontMetrics(font).em();
70 double Row::Element::pos2x(pos_type const i) const
72 // This can happen with inline completion when clicking on the
73 // row after the completion.
74 if (i < pos || i > endpos)
78 //handle first the two bounds of the element
79 if (i == endpos && type != VIRTUAL)
80 w = isRTL() ? 0 : full_width();
81 else if (i == pos || type != STRING)
82 w = isRTL() ? full_width() : 0;
84 FontMetrics const & fm = theFontMetrics(font);
85 w = fm.pos2x(str, i - pos, isRTL(), extra);
92 pos_type Row::Element::x2pos(int &x) const
94 //lyxerr << "x2pos: x=" << x << " w=" << width() << " " << *this;
99 FontMetrics const & fm = theFontMetrics(font);
100 i = fm.x2pos(str, x, isRTL(), extra);
104 // those elements are actually empty (but they have a width)
106 x = isRTL() ? int(full_width()) : 0;
111 // those elements contain only one position. Round to
113 if (x > (full_width() + 1) / 2) {
114 x = int(full_width());
121 //lyxerr << "=> p=" << pos + i << " x=" << x << endl;
126 bool Row::Element::splitAt(int const width, int next_width, bool force,
127 Row::Elements & tail)
129 // Not a string or already OK.
130 if (type != STRING || (dim.wid > 0 && dim.wid < width))
133 FontMetrics const & fm = theFontMetrics(font);
135 // A a string that is not breakable
136 if (!(row_flags & CanBreakInside)) {
137 // has width been computed yet?
139 dim.wid = fm.width(str);
143 bool const wrap_any = !font.language()->wordWrap();
144 FontMetrics::Breaks breaks = fm.breakString(str, width, next_width,
145 isRTL(), wrap_any | force);
147 /** if breaking did not really work, give up
148 * case 1: we do not force break and the first element is longer than the limit;
149 * case 2: the first break occurs at the front of the string
151 if ((!force && breaks.front().nspc_wid > width)
152 || (breaks.size() > 1 && breaks.front().len == 0)) {
154 dim.wid = fm.width(str);
158 Element first_e(STRING, pos, font, change);
159 // should next element eventually replace *this?
161 docstring::size_type i = 0;
162 for (FontMetrics::Break const & brk : breaks) {
163 Element e(STRING, pos + i, font, change);
164 e.str = str.substr(i, brk.len);
165 e.endpos = e.pos + brk.len;
167 e.nspc_wid = brk.nspc_wid;
168 e.row_flags = CanBreakInside | BreakAfter;
170 // this element eventually goes to *this
171 e.row_flags |= row_flags & ~AfterFlags;
180 // Avoid having a last empty element. This happens when
181 // breaking at the trailing space of string
182 if (tail.back().str.empty())
185 // Copy the after flags of the original element to the last one.
186 tail.back().row_flags &= ~BreakAfter;
187 tail.back().row_flags |= row_flags & AfterFlags;
189 // first_e row should be broken after the original element
190 first_e.row_flags |= BreakAfter;
192 // Restore the after flags of the original element.
193 first_e.row_flags &= ~BreakAfter;
194 first_e.row_flags |= row_flags & AfterFlags;
198 swap(first_e, *this);
203 void Row::Element::rtrim()
205 if (type != STRING || str.empty() || !isSpace(str.back()))
207 /* This is intended for strings that have been created by splitAt.
208 * If There is a trailing space, we remove it and decrease endpos,
209 * since spaces at row break are invisible.
212 endpos = pos + str.length();
217 bool Row::isMarginSelected(bool left, DocIterator const & beg,
218 DocIterator const & end) const
220 pos_type const sel_pos = left ? sel_beg : sel_end;
221 pos_type const margin_pos = left ? pos_ : end_;
223 // Is there a selection and is the chosen margin selected ?
224 if (!selection() || sel_pos != margin_pos)
226 else if (beg.pos() == end.pos())
227 // This is a special case in which the space between after
228 // pos i-1 and before pos i is selected, i.e. the margins
229 // (see DocIterator::boundary_).
230 return beg.boundary() && !end.boundary();
231 else if (end.pos() == margin_pos)
232 // If the selection ends around the margin, it is only
233 // drawn if the cursor is after the margin.
234 return !end.boundary();
235 else if (beg.pos() == margin_pos)
236 // If the selection begins around the margin, it is
237 // only drawn if the cursor is before the margin.
238 return beg.boundary();
244 void Row::setSelectionAndMargins(DocIterator const & beg,
245 DocIterator const & end) const
247 setSelection(beg.pos(), end.pos());
249 change(end_margin_sel, isMarginSelected(false, beg, end));
250 change(begin_margin_sel, isMarginSelected(true, beg, end));
254 void Row::clearSelectionAndMargins() const
258 change(end_margin_sel, false);
259 change(begin_margin_sel, false);
263 void Row::setSelection(pos_type beg, pos_type end) const
265 if (pos_ >= beg && pos_ <= end)
266 change(sel_beg, pos_);
267 else if (beg > pos_ && beg <= end_)
268 change(sel_beg, beg);
272 if (end_ >= beg && end_ <= end)
273 change(sel_end,end_);
274 else if (end < end_ && end >= pos_)
275 change(sel_end, end);
281 bool Row::selection() const
283 return sel_beg != -1 && sel_end != -1;
287 ostream & operator<<(ostream & os, Row::Element const & e)
290 os << e.endpos << "<<" << e.pos << " ";
292 os << e.pos << ">>" << e.endpos << " ";
296 os << "STRING: `" << to_utf8(e.str) << "' ("
297 << e.countExpanders() << " expanders.), ";
300 os << "VIRTUAL: `" << to_utf8(e.str) << "', ";
303 os << "INSET: " << to_utf8(e.inset->layoutName()) << ", ";
308 case Row::MARGINSPACE:
309 os << "MARGINSPACE: ";
311 os << "width=" << e.full_width() << ", row_flags=" << e.row_flags;
316 ostream & operator<<(ostream & os, Row::Elements const & elts)
319 for (Row::Element const & e : elts) {
320 os << "x=" << x << " => " << e << endl;
327 ostream & operator<<(ostream & os, Row const & row)
329 os << " pit: " << row.pit_ << " pos: " << row.pos_ << " end: " << row.end_
330 << " left_margin: " << row.left_margin
331 << " width: " << row.dim_.wid
332 << " right_margin: " << row.right_margin
333 << " ascent: " << row.dim_.asc
334 << " descent: " << row.dim_.des
335 << " separator: " << row.separator
336 << " label_hfill: " << row.label_hfill
337 << " end_boundary: " << row.end_boundary()
338 << " flushed: " << row.flushed_
339 << " rtl=" << row.rtl_ << "\n";
340 // We cannot use the operator above, unfortunately
341 double x = row.left_margin;
342 for (Row::Element const & e : row.elements_) {
343 os << "x=" << x << " => " << e << endl;
350 int Row::left_x() const
352 double x = left_margin;
353 const_iterator const end = elements_.end();
354 const_iterator cit = elements_.begin();
355 while (cit != end && cit->isVirtual()) {
356 x += cit->full_width();
359 return support::iround(x);
363 int Row::right_x() const
366 const_iterator const begin = elements_.begin();
367 const_iterator cit = elements_.end();
368 while (cit != begin) {
370 if (cit->isVirtual())
371 x -= cit->full_width();
375 return support::iround(x);
379 bool Row::setExtraWidth(int w)
382 // this is not expected to happen (but it does)
384 // amount of expansion: number of expanders time the em value for each
387 for (Element const & e : elements_)
388 exp_amount += e.expansionAmount();
391 // extra length per expander per em
392 double extra_per_em = double(w) / exp_amount;
393 if (extra_per_em > MAX_SPACE_STRETCH)
394 // do not stretch more than MAX_SPACE_STRETCH em per expander
396 // add extra length to each element proportionally to its em.
397 for (Element & e : elements_)
398 if (e.type == STRING)
399 e.setExtra(extra_per_em);
400 // update row dimension
406 bool Row::sameString(Font const & f, Change const & ch) const
408 if (elements_.empty())
410 Element const & elt = elements_.back();
411 return elt.type == STRING && !elt.final
412 && elt.font == f && elt.change == ch;
416 void Row::finalizeLast()
418 if (elements_.empty())
420 Element & elt = elements_.back();
424 if (elt.change.changed())
429 void Row::add(pos_type const pos, Inset const * ins, Dimension const & dim,
430 Font const & f, Change const & ch)
433 Element e(INSET, pos, f, ch);
436 e.row_flags = ins->rowFlags();
437 elements_.push_back(e);
439 changebar_ |= ins->isChanged();
443 void Row::add(pos_type const pos, char_type const c,
444 Font const & f, Change const & ch)
446 if (!sameString(f, ch)) {
448 Element e(STRING, pos, f, ch);
449 e.row_flags = CanBreakInside;
450 elements_.push_back(e);
453 back().endpos = pos + 1;
457 void Row::addVirtual(pos_type const pos, docstring const & s,
458 Font const & f, Change const & ch)
461 Element e(VIRTUAL, pos, f, ch);
463 e.dim.wid = theFontMetrics(f).width(s);
464 dim_.wid += e.dim.wid;
466 // Copy after* flags from previous elements, forbid break before element
467 int const prev_row_flags = elements_.empty() ? Inline : elements_.back().row_flags;
468 int const can_inherit = AfterFlags & ~AlwaysBreakAfter;
469 e.row_flags = (prev_row_flags & can_inherit) | NoBreakBefore;
470 elements_.push_back(e);
475 void Row::addSpace(pos_type const pos, int const width,
476 Font const & f, Change const & ch)
479 Element e(SPACE, pos, f, ch);
481 elements_.push_back(e);
482 dim_.wid += e.dim.wid;
486 void Row::addMarginSpace(pos_type const pos, int const width,
487 Font const & f, Change const & ch)
490 Element e(MARGINSPACE, pos, f, ch);
492 e.row_flags = NoBreakBefore;
493 elements_.push_back(e);
494 dim_.wid += e.dim.wid;
498 void Row::push_back(Row::Element const & e)
500 dim_.wid += e.dim.wid;
501 elements_.push_back(e);
507 dim_.wid -= elements_.back().dim.wid;
508 elements_.pop_back();
514 // Move stuff after \c it from \c from and the end of \c to.
515 void moveElements(Row::Elements & from, Row::Elements::iterator const & it,
518 to.insert(to.end(), it, from.end());
519 from.erase(it, from.end());
521 from.back().row_flags = (from.back().row_flags & ~AfterFlags) | AlwaysBreakAfter;
527 Row::Elements Row::shortenIfNeeded(int const w, int const next_width)
529 // FIXME: performance: if the last element is a string, we would
530 // like to avoid computing its length.
532 if (empty() || width() <= w)
535 Elements::iterator const beg = elements_.begin();
536 Elements::iterator const end = elements_.end();
537 int wid = left_margin;
539 // Search for the first element that goes beyond right margin
540 Elements::iterator cit = beg;
541 for ( ; cit != end ; ++cit) {
542 if (wid + cit->dim.wid > w)
548 // This should not happen since the row is too long.
549 LYXERR0("Something is wrong, cannot shorten row: " << *this);
553 // Iterate backwards over breakable elements and try to break them
554 Elements::iterator cit_brk = cit;
555 int wid_brk = wid + cit_brk->dim.wid;
558 while (cit_brk != beg) {
560 // make a copy of the element to work on it.
561 Element brk = *cit_brk;
562 /* If the current element is an inset that allows breaking row
563 * after itself, and if the row is already short enough after
564 * this element, then cut right after it.
566 if (wid_brk <= w && brk.row_flags & CanBreakAfter) {
569 moveElements(elements_, cit_brk + 1, tail);
572 // assume now that the current element is not there
573 wid_brk -= brk.dim.wid;
574 /* If the current element is an inset that allows breaking row
575 * before itself, and if the row is already short enough before
576 * this element, then cut right before it.
578 if (wid_brk <= w && brk.row_flags & CanBreakBefore && cit_brk != beg) {
579 end_ = (cit_brk -1)->endpos;
581 moveElements(elements_, cit_brk, tail);
584 /* We have found a suitable separable element. This is the common case.
585 * Try to break it cleanly at a length that is both
586 * - less than the available space on the row
587 * - shorter than the natural width of the element, in order to enforce
590 if (brk.splitAt(min(w - wid_brk, brk.dim.wid - 2), next_width, false, tail)) {
591 /* if this element originally did not cause a row overflow
592 * in itself, and the remainder of the row would still be
593 * too large after breaking, then we will have issues in
594 * next row. Thus breaking does not help.
596 if (wid_brk + cit_brk->dim.wid < w
597 && dim_.wid - (wid_brk + brk.dim.wid) >= next_width) {
603 dim_.wid = wid_brk + brk.dim.wid;
604 // If there are other elements, they should be removed.
605 moveElements(elements_, cit_brk + 1, tail);
608 LATTEST(tail.empty());
611 if (cit != beg && cit->row_flags & NoBreakBefore) {
612 // It is not possible to separate this element from the
613 // previous one. (e.g. VIRTUAL)
619 // There is no usable separator, but several elements have
620 // been added. We can cut right here.
623 moveElements(elements_, cit, tail);
627 /* If we are here, it means that we have not found a separator to
628 * shorten the row. Let's try to break it again, but force
629 * splitting this time.
631 if (cit->splitAt(w - wid, next_width, true, tail)) {
633 dim_.wid = wid + cit->dim.wid;
634 // If there are other elements, they should be removed.
635 moveElements(elements_, cit + 1, tail);
639 // cit == beg; remove all elements after the first one.
640 moveElements(elements_, cit + 1, tail);
645 void Row::reverseRTL()
648 pos_type const end = elements_.size();
650 // gather a sequence of elements with the same direction
651 bool const rtl = elements_[i].isRTL();
653 while (j < end && elements_[j].isRTL() == rtl)
655 // if the direction is not the same as the paragraph
656 // direction, the sequence has to be reverted.
658 reverse(elements_.begin() + i, elements_.begin() + j);
661 // If the paragraph itself is RTL, reverse everything
663 reverse(elements_.begin(), elements_.end());
666 Row::const_iterator const
667 Row::findElement(pos_type const pos, bool const boundary, double & x) const
670 * When boundary is true, position i is in the row element (pos, endpos)
673 * whereas, when boundary is false, the test is
675 * The correction below allows to handle both cases.
677 int const boundary_corr = (boundary && pos) ? -1 : 0;
681 /** Early return in trivial cases
682 * 1) the row is empty
683 * 2) the position is the left-most position of the row; there
684 * is a quirk here however: if the first element is virtual
685 * (end-of-par marker for example), then we have to look
689 || (pos == begin()->left_pos() && !boundary
690 && !begin()->isVirtual()))
693 const_iterator cit = begin();
694 for ( ; cit != end() ; ++cit) {
695 /** Look whether the cursor is inside the element's span. Note
696 * that it is necessary to take the boundary into account, and
697 * to accept virtual elements, in which case the position
698 * will be before the virtual element.
700 if (cit->isVirtual() && pos + boundary_corr == cit->pos)
702 else if (pos + boundary_corr >= cit->pos
703 && pos + boundary_corr < cit->endpos) {
704 x += cit->pos2x(pos);
707 x += cit->full_width();