lyx_mirror/src/TextMetrics.cpp
Vincent van Ravesteijn 9173fe2c5e Fix bug #5944: Scrolling isn't predictable.
The row in editXY is corrected when we're scrolling with PgUp and PgDwn to make sure that the row where the cursor is places, is completely in the view.

git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@29752 a592a061-630c-0410-9148-cb99ea01b6c8
2009-05-20 20:28:24 +00:00

2251 lines
62 KiB
C++

/**
* \file src/TextMetrics.cpp
* 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
* \author Abdelrazak Younes
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "TextMetrics.h"
#include "Bidi.h"
#include "Buffer.h"
#include "buffer_funcs.h"
#include "BufferParams.h"
#include "BufferView.h"
#include "CoordCache.h"
#include "Cursor.h"
#include "CutAndPaste.h"
#include "FuncRequest.h"
#include "InsetList.h"
#include "Layout.h"
#include "Length.h"
#include "LyXRC.h"
#include "MetricsInfo.h"
#include "paragraph_funcs.h"
#include "ParagraphParameters.h"
#include "ParIterator.h"
#include "rowpainter.h"
#include "Text.h"
#include "TextClass.h"
#include "VSpace.h"
#include "mathed/MacroTable.h"
#include "mathed/MathMacroTemplate.h"
#include "frontends/FontMetrics.h"
#include "frontends/Painter.h"
#include "support/debug.h"
#include <cstdlib>
#include "support/lassert.h"
using namespace std;
namespace lyx {
using frontend::FontMetrics;
static int numberOfSeparators(Paragraph const & par, Row const & row)
{
pos_type const first = max(row.pos(), par.beginOfBody());
pos_type const last = row.endpos() - 1;
int n = 0;
for (pos_type p = first; p < last; ++p) {
if (par.isSeparator(p))
++n;
}
return n;
}
static int numberOfLabelHfills(Paragraph const & par, Row const & row)
{
pos_type last = row.endpos() - 1;
pos_type first = row.pos();
// hfill *DO* count at the beginning of paragraphs!
if (first) {
while (first < last && par.isHfill(first))
++first;
}
last = min(last, par.beginOfBody());
int n = 0;
for (pos_type p = first; p < last; ++p) {
if (par.isHfill(p))
++n;
}
return n;
}
static int numberOfHfills(Paragraph const & par, Row const & row)
{
pos_type const last = row.endpos();
pos_type first = row.pos();
// hfill *DO* count at the beginning of paragraphs!
if (first) {
while (first < last && par.isHfill(first))
++first;
}
first = max(first, par.beginOfBody());
int n = 0;
for (pos_type p = first; p < last; ++p) {
if (par.isHfill(p))
++n;
}
return n;
}
/////////////////////////////////////////////////////////////////////
//
// TextMetrics
//
/////////////////////////////////////////////////////////////////////
TextMetrics::TextMetrics(BufferView * bv, Text * text)
: bv_(bv), text_(text)
{
LASSERT(bv_, /**/);
max_width_ = bv_->workWidth();
dim_.wid = max_width_;
dim_.asc = 10;
dim_.des = 10;
//text_->updateLabels(bv->buffer());
}
bool TextMetrics::contains(pit_type pit) const
{
return par_metrics_.find(pit) != par_metrics_.end();
}
ParagraphMetrics const & TextMetrics::parMetrics(pit_type pit) const
{
return const_cast<TextMetrics *>(this)->parMetrics(pit, true);
}
pair<pit_type, ParagraphMetrics const *> TextMetrics::first() const
{
ParMetricsCache::const_iterator it = par_metrics_.begin();
return make_pair(it->first, &it->second);
}
pair<pit_type, ParagraphMetrics const *> TextMetrics::last() const
{
ParMetricsCache::const_reverse_iterator it = par_metrics_.rbegin();
return make_pair(it->first, &it->second);
}
ParagraphMetrics & TextMetrics::parMetrics(pit_type pit, bool redo)
{
ParMetricsCache::iterator pmc_it = par_metrics_.find(pit);
if (pmc_it == par_metrics_.end()) {
pmc_it = par_metrics_.insert(
make_pair(pit, ParagraphMetrics(text_->getPar(pit)))).first;
}
if (pmc_it->second.rows().empty() && redo)
redoParagraph(pit);
return pmc_it->second;
}
int TextMetrics::parPosition(pit_type pit) const
{
if (pit < par_metrics_.begin()->first)
return -1000000;
if (pit > par_metrics_.rbegin()->first)
return +1000000;
return par_metrics_[pit].position();
}
bool TextMetrics::metrics(MetricsInfo & mi, Dimension & dim, int min_width)
{
LASSERT(mi.base.textwidth > 0, /**/);
max_width_ = mi.base.textwidth;
// backup old dimension.
Dimension const old_dim = dim_;
// reset dimension.
dim_ = Dimension();
dim_.wid = min_width;
pit_type const npar = text_->paragraphs().size();
if (npar > 1)
// If there is more than one row, expand the text to
// the full allowable width.
dim_.wid = max_width_;
//lyxerr << "TextMetrics::metrics: width: " << mi.base.textwidth
// << " maxWidth: " << max_width_ << "\nfont: " << mi.base.font << endl;
bool changed = false;
unsigned int h = 0;
for (pit_type pit = 0; pit != npar; ++pit) {
changed |= redoParagraph(pit);
ParagraphMetrics const & pm = par_metrics_[pit];
h += pm.height();
if (dim_.wid < pm.width())
dim_.wid = pm.width();
}
dim_.asc = par_metrics_[0].ascent();
dim_.des = h - dim_.asc;
//lyxerr << "dim_.wid " << dim_.wid << endl;
//lyxerr << "dim_.asc " << dim_.asc << endl;
//lyxerr << "dim_.des " << dim_.des << endl;
changed |= dim_ != old_dim;
dim = dim_;
return changed;
}
int TextMetrics::rightMargin(ParagraphMetrics const & pm) const
{
return main_text_? pm.rightMargin(*bv_) : 0;
}
int TextMetrics::rightMargin(pit_type const pit) const
{
return main_text_? par_metrics_[pit].rightMargin(*bv_) : 0;
}
void TextMetrics::applyOuterFont(Font & font) const
{
Font lf(font_);
lf.fontInfo().reduce(bv_->buffer().params().getFont().fontInfo());
lf.fontInfo().realize(font.fontInfo());
lf.setLanguage(font.language());
font = lf;
}
Font TextMetrics::displayFont(pit_type pit, pos_type pos) const
{
LASSERT(pos >= 0, /**/);
ParagraphList const & pars = text_->paragraphs();
Paragraph const & par = pars[pit];
Layout const & layout = par.layout();
Buffer const & buffer = bv_->buffer();
// FIXME: broken?
BufferParams const & params = buffer.params();
pos_type const body_pos = par.beginOfBody();
// We specialize the 95% common case:
if (!par.getDepth()) {
Font f = par.getFontSettings(params, pos);
if (!text_->isMainText(buffer))
applyOuterFont(f);
bool lab = layout.labeltype == LABEL_MANUAL && pos < body_pos;
FontInfo const & lf = lab ? layout.labelfont : layout.font;
FontInfo rlf = lab ? layout.reslabelfont : layout.resfont;
// In case the default family has been customized
if (lf.family() == INHERIT_FAMILY)
rlf.setFamily(params.getFont().fontInfo().family());
f.fontInfo().realize(rlf);
return f;
}
// The uncommon case need not be optimized as much
FontInfo const & layoutfont = pos < body_pos ?
layout.labelfont : layout.font;
Font font = par.getFontSettings(params, pos);
font.fontInfo().realize(layoutfont);
if (!text_->isMainText(buffer))
applyOuterFont(font);
// Realize against environment font information
// NOTE: the cast to pit_type should be removed when pit_type
// changes to a unsigned integer.
if (pit < pit_type(pars.size()))
font.fontInfo().realize(outerFont(pit, pars).fontInfo());
// Realize with the fonts of lesser depth.
font.fontInfo().realize(params.getFont().fontInfo());
return font;
}
bool TextMetrics::isRTL(CursorSlice const & sl, bool boundary) const
{
if (!lyxrc.rtl_support || !sl.text())
return false;
int correction = 0;
if (boundary && sl.pos() > 0)
correction = -1;
return displayFont(sl.pit(), sl.pos() + correction).isVisibleRightToLeft();
}
bool TextMetrics::isRTLBoundary(pit_type pit, pos_type pos) const
{
if (!lyxrc.rtl_support)
return false;
// no RTL boundary at line start
if (pos == 0)
return false;
Font const & left_font = displayFont(pit, pos - 1);
return isRTLBoundary(pit, pos, left_font);
}
bool TextMetrics::isRTLBoundary(pit_type pit, pos_type pos,
Font const & font) const
{
if (!lyxrc.rtl_support)
return false;
Paragraph const & par = text_->getPar(pit);
bool left = font.isVisibleRightToLeft();
bool right;
if (pos == par.size())
right = par.isRTL(bv_->buffer().params());
else
right = displayFont(pit, pos).isVisibleRightToLeft();
return left != right;
}
bool TextMetrics::redoParagraph(pit_type const pit)
{
Paragraph & par = text_->getPar(pit);
// IMPORTANT NOTE: We pass 'false' explicitely in order to not call
// redoParagraph() recursively inside parMetrics.
Dimension old_dim = parMetrics(pit, false).dim();
ParagraphMetrics & pm = par_metrics_[pit];
pm.reset(par);
Buffer & buffer = bv_->buffer();
main_text_ = (text_ == &buffer.text());
bool changed = false;
// FIXME: This check ought to be done somewhere else. It is the reason
// why text_ is not const. But then, where else to do it?
// Well, how can you end up with either (a) a biblio environment that
// has no InsetBibitem or (b) a biblio environment with more than one
// InsetBibitem? I think the answer is: when paragraphs are merged;
// when layout is set; when material is pasted.
int const moveCursor = par.checkBiblio(buffer);
if (moveCursor > 0)
const_cast<Cursor &>(bv_->cursor()).posForward();
else if (moveCursor < 0) {
Cursor & cursor = const_cast<Cursor &>(bv_->cursor());
if (cursor.pos() >= -moveCursor)
cursor.posBackward();
}
// Optimisation: this is used in the next two loops
// so better to calculate that once here.
int const right_margin = rightMargin(pm);
// iterator pointing to paragraph to resolve macros
DocIterator parPos = text_->macrocontextPosition();
if (!parPos.empty())
parPos.pit() = pit;
else {
LYXERR(Debug::INFO, "MacroContext not initialised!"
<< " Going through the buffer again and hope"
<< " the context is better then.");
bv_->buffer().updateLabels();
parPos = text_->macrocontextPosition();
LASSERT(!parPos.empty(), /**/);
parPos.pit() = pit;
}
// redo insets
// FIXME: We should always use getFont(), see documentation of
// noFontChange() in Inset.h.
Font const bufferfont = buffer.params().getFont();
InsetList::const_iterator ii = par.insetList().begin();
InsetList::const_iterator iend = par.insetList().end();
for (; ii != iend; ++ii) {
// position already initialized?
if (!parPos.empty()) {
parPos.pos() = ii->pos;
// A macro template would normally not be visible
// by itself. But the tex macro semantics allow
// recursion, so we artifically take the context
// after the macro template to simulate this.
if (ii->inset->lyxCode() == MATHMACRO_CODE)
parPos.pos()++;
}
// do the metric calculation
Dimension dim;
int const w = max_width_ - leftMargin(max_width_, pit, ii->pos)
- right_margin;
Font const & font = ii->inset->noFontChange() ?
bufferfont : displayFont(pit, ii->pos);
MacroContext mc(buffer, parPos);
MetricsInfo mi(bv_, font.fontInfo(), w, mc);
ii->inset->metrics(mi, dim);
Dimension const old_dim = pm.insetDimension(ii->inset);
if (old_dim != dim) {
pm.setInsetDimension(ii->inset, dim);
changed = true;
}
}
par.setBeginOfBody();
pos_type first = 0;
size_t row_index = 0;
// maximum pixel width of a row
int width = max_width_ - right_margin; // - leftMargin(max_width_, pit, row);
do {
Dimension dim;
pos_type end = rowBreakPoint(width, pit, first);
if (row_index || end < par.size())
// If there is more than one row, expand the text to
// the full allowable width. This setting here is needed
// for the computeRowMetrics() below.
dim_.wid = max_width_;
dim = rowHeight(pit, first, end);
dim.wid = rowWidth(right_margin, pit, first, end);
if (row_index == pm.rows().size())
pm.rows().push_back(Row());
Row & row = pm.rows()[row_index];
row.setChanged(false);
row.pos(first);
row.endpos(end);
row.setDimension(dim);
int const max_row_width = max(dim_.wid, dim.wid);
computeRowMetrics(pit, row, max_row_width);
first = end;
++row_index;
pm.dim().wid = max(pm.dim().wid, dim.wid);
pm.dim().des += dim.height();
} while (first < par.size());
if (row_index < pm.rows().size())
pm.rows().resize(row_index);
// Make sure that if a par ends in newline, there is one more row
// under it
if (first > 0 && par.isNewline(first - 1)) {
Dimension dim = rowHeight(pit, first, first);
dim.wid = rowWidth(right_margin, pit, first, first);
if (row_index == pm.rows().size())
pm.rows().push_back(Row());
Row & row = pm.rows()[row_index];
row.setChanged(false);
row.pos(first);
row.endpos(first);
row.setDimension(dim);
int const max_row_width = max(dim_.wid, dim.wid);
computeRowMetrics(pit, row, max_row_width);
pm.dim().des += dim.height();
}
pm.dim().asc += pm.rows()[0].ascent();
pm.dim().des -= pm.rows()[0].ascent();
changed |= old_dim.height() != pm.dim().height();
return changed;
}
void TextMetrics::computeRowMetrics(pit_type const pit,
Row & row, int width) const
{
row.label_hfill = 0;
row.separator = 0;
Buffer & buffer = bv_->buffer();
Paragraph const & par = text_->getPar(pit);
double w = width - row.width();
// FIXME: put back this assertion when the crash on new doc is solved.
//LASSERT(w >= 0, /**/);
//lyxerr << "\ndim_.wid " << dim_.wid << endl;
//lyxerr << "row.width() " << row.width() << endl;
//lyxerr << "w " << w << endl;
bool const is_rtl = text_->isRTL(buffer, par);
if (is_rtl)
row.x = rightMargin(pit);
else
row.x = leftMargin(max_width_, pit, row.pos());
// is there a manual margin with a manual label
Layout const & layout = par.layout();
if (layout.margintype == MARGIN_MANUAL
&& layout.labeltype == LABEL_MANUAL) {
/// We might have real hfills in the label part
int nlh = numberOfLabelHfills(par, 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 (!par.empty())
++nlh;
if (nlh && !par.getLabelWidthString().empty())
row.label_hfill = labelFill(pit, row) / double(nlh);
}
double hfill = 0;
// are there any hfills in the row?
if (int const nh = numberOfHfills(par, row)) {
if (w > 0)
hfill = w / double(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()) < max_width_) {
// is it block, flushleft or flushright?
// set x how you need it
int align;
if (par.params().align() == LYX_ALIGN_LAYOUT)
align = layout.align;
else
align = par.params().align();
// handle alignment inside tabular cells
Inset const & owner = par.inInset();
switch (owner.contentAlignment()) {
case LYX_ALIGN_CENTER:
case LYX_ALIGN_LEFT:
case LYX_ALIGN_RIGHT:
if (align == LYX_ALIGN_NONE
|| align == LYX_ALIGN_BLOCK)
align = owner.contentAlignment();
break;
default:
// unchanged (use align)
break;
}
// Display-style insets should always be on a centred row
if (Inset const * inset = par.getInset(row.pos())) {
switch (inset->display()) {
case Inset::AlignLeft:
align = LYX_ALIGN_BLOCK;
break;
case Inset::AlignCenter:
align = LYX_ALIGN_CENTER;
break;
case Inset::Inline:
case Inset::AlignRight:
// unchanged (use align)
break;
}
}
switch (align) {
case LYX_ALIGN_BLOCK: {
int const ns = numberOfSeparators(par, row);
bool disp_inset = false;
if (row.endpos() < par.size()) {
Inset const * in = par.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() < par.size()
&& !par.isNewline(row.endpos() - 1)
&& !disp_inset
) {
row.separator = w / ns;
//lyxerr << "row.separator " << row.separator << endl;
//lyxerr << "ns " << ns << endl;
} else if (is_rtl) {
row.x += w;
}
break;
}
case LYX_ALIGN_RIGHT:
row.x += w;
break;
case LYX_ALIGN_CENTER:
row.x += w / 2;
break;
}
}
if (is_rtl) {
pos_type body_pos = par.beginOfBody();
pos_type end = row.endpos();
if (body_pos > 0
&& (body_pos > end || !par.isLineSeparator(body_pos - 1)))
{
row.x += theFontMetrics(text_->labelFont(buffer, par)).
width(layout.labelsep);
if (body_pos <= end)
row.x += row.label_hfill;
}
}
pos_type const endpos = row.endpos();
pos_type body_pos = par.beginOfBody();
if (body_pos > 0
&& (body_pos > endpos || !par.isLineSeparator(body_pos - 1)))
body_pos = 0;
ParagraphMetrics & pm = par_metrics_[pit];
InsetList::const_iterator ii = par.insetList().begin();
InsetList::const_iterator iend = par.insetList().end();
for ( ; ii != iend; ++ii) {
if (ii->pos >= endpos || ii->pos < row.pos()
|| (ii->inset->lyxCode() != SPACE_CODE ||
!ii->inset->isStretchableSpace()))
continue;
Dimension dim = row.dimension();
if (pm.hfillExpansion(row, ii->pos))
dim.wid = int(ii->pos >= body_pos ?
max(hfill, 5.0) : row.label_hfill);
else
dim.wid = 5;
// Cache the inset dimension.
bv_->coordCache().insets().add(ii->inset, dim);
pm.setInsetDimension(ii->inset, dim);
}
}
int TextMetrics::labelFill(pit_type const pit, Row const & row) const
{
Buffer & buffer = bv_->buffer();
Paragraph const & par = text_->getPar(pit);
pos_type last = par.beginOfBody();
LASSERT(last > 0, /**/);
// -1 because a label ends with a space that is in the label
--last;
// a separator at this end does not count
if (par.isLineSeparator(last))
--last;
int w = 0;
for (pos_type i = row.pos(); i <= last; ++i)
w += singleWidth(pit, i);
docstring const & label = par.params().labelWidthString();
if (label.empty())
return 0;
FontMetrics const & fm
= theFontMetrics(text_->labelFont(buffer, par));
return max(0, fm.width(label) - w);
}
// this needs special handling - only newlines count as a break point
static pos_type addressBreakPoint(pos_type i, Paragraph const & par)
{
pos_type const end = par.size();
for (; i < end; ++i)
if (par.isNewline(i))
return i + 1;
return end;
}
int TextMetrics::labelEnd(pit_type const pit) const
{
// labelEnd is only needed if the layout fills a flushleft label.
if (text_->getPar(pit).layout().margintype != MARGIN_MANUAL)
return 0;
// return the beginning of the body
return leftMargin(max_width_, pit);
}
namespace {
/**
* Calling Text::getFont is slow. While rebreaking we scan a
* paragraph from left to right calling getFont for every char. This
* simple class address this problem by hidding an optimization trick
* (not mine btw -AB): the font is reused in the whole font span. The
* class handles transparently the "hidden" (not part of the fontlist)
* label font (as getFont does).
**/
class FontIterator
{
public:
///
FontIterator(TextMetrics const & tm,
Paragraph const & par, pit_type pit, pos_type pos)
: tm_(tm), par_(par), pit_(pit), pos_(pos),
font_(tm.displayFont(pit, pos)),
endspan_(par.fontSpan(pos).last),
bodypos_(par.beginOfBody())
{}
///
Font const & operator*() const { return font_; }
///
FontIterator & operator++()
{
++pos_;
if (pos_ > endspan_ || pos_ == bodypos_) {
font_ = tm_.displayFont(pit_, pos_);
endspan_ = par_.fontSpan(pos_).last;
}
return *this;
}
///
Font * operator->() { return &font_; }
private:
///
TextMetrics const & tm_;
///
Paragraph const & par_;
///
pit_type pit_;
///
pos_type pos_;
///
Font font_;
///
pos_type endspan_;
///
pos_type bodypos_;
};
} // anon namespace
pit_type TextMetrics::rowBreakPoint(int width, pit_type const pit,
pit_type pos) const
{
Buffer & buffer = bv_->buffer();
ParagraphMetrics const & pm = par_metrics_[pit];
Paragraph const & par = text_->getPar(pit);
pos_type const end = par.size();
if (pos == end || width < 0)
return end;
Layout const & layout = par.layout();
if (layout.margintype == MARGIN_RIGHT_ADDRESS_BOX)
return addressBreakPoint(pos, par);
pos_type const body_pos = par.beginOfBody();
// check for possible inline completion
DocIterator const & inlineCompletionPos = bv_->inlineCompletionPos();
pos_type inlineCompletionLPos = -1;
if (inlineCompletionPos.inTexted()
&& inlineCompletionPos.text() == text_
&& inlineCompletionPos.pit() == pit) {
// draw logically behind the previous character
inlineCompletionLPos = inlineCompletionPos.pos() - 1;
}
// Now we iterate through until we reach the right margin
// or the end of the par, then choose the possible break
// nearest that.
int label_end = labelEnd(pit);
int const left = leftMargin(max_width_, pit, pos);
int x = left;
// pixel width since last breakpoint
int chunkwidth = 0;
FontIterator fi = FontIterator(*this, par, pit, pos);
pos_type point = end;
pos_type i = pos;
for ( ; i < end; ++i, ++fi) {
int thiswidth = pm.singleWidth(i, *fi);
// add inline completion width
if (inlineCompletionLPos == i) {
docstring const & completion = bv_->inlineCompletion();
if (completion.length() > 0)
thiswidth += theFontMetrics(*fi).width(completion);
}
// add the auto-hfill from label end to the body
if (body_pos && i == body_pos) {
FontMetrics const & fm = theFontMetrics(
text_->labelFont(buffer, par));
int add = fm.width(layout.labelsep);
if (par.isLineSeparator(i - 1))
add -= singleWidth(pit, i - 1);
add = max(add, label_end - x);
thiswidth += add;
}
x += thiswidth;
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 == end || chunkwidth >= width - left) {
if (i > pos)
point = i;
else
point = i + 1;
}
// exit on last registered breakpoint:
break;
}
if (par.isNewline(i)) {
point = i + 1;
break;
}
Inset const * inset = 0;
// Break before...
if (i + 1 < end) {
if ((inset = par.getInset(i + 1)) && inset->display()) {
point = i + 1;
break;
}
// ...and after.
if ((inset = par.getInset(i)) && inset->display()) {
point = i + 1;
break;
}
}
inset = par.getInset(i);
if (!inset || inset->isChar()) {
// some insets are line separators too
if (par.isLineSeparator(i)) {
// register breakpoint:
point = i + 1;
chunkwidth = 0;
}
}
}
// maybe found one, but the par is short enough.
if (i == end && x < width)
point = end;
// 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;
return point;
}
int TextMetrics::rowWidth(int right_margin, pit_type const pit,
pos_type const first, pos_type const end) const
{
Buffer & buffer = bv_->buffer();
// get the pure distance
ParagraphMetrics const & pm = par_metrics_[pit];
Paragraph const & par = text_->getPar(pit);
int w = leftMargin(max_width_, pit, first);
int label_end = labelEnd(pit);
// check for possible inline completion
DocIterator const & inlineCompletionPos = bv_->inlineCompletionPos();
pos_type inlineCompletionLPos = -1;
if (inlineCompletionPos.inTexted()
&& inlineCompletionPos.text() == text_
&& inlineCompletionPos.pit() == pit) {
// draw logically behind the previous character
inlineCompletionLPos = inlineCompletionPos.pos() - 1;
}
pos_type const body_pos = par.beginOfBody();
pos_type i = first;
if (i < end) {
FontIterator fi = FontIterator(*this, par, pit, i);
for ( ; i < end; ++i, ++fi) {
if (body_pos > 0 && i == body_pos) {
FontMetrics const & fm = theFontMetrics(
text_->labelFont(buffer, par));
w += fm.width(par.layout().labelsep);
if (par.isLineSeparator(i - 1))
w -= singleWidth(pit, i - 1);
w = max(w, label_end);
}
w += pm.singleWidth(i, *fi);
// add inline completion width
if (inlineCompletionLPos == i) {
docstring const & completion = bv_->inlineCompletion();
if (completion.length() > 0)
w += theFontMetrics(*fi).width(completion);
}
}
}
if (body_pos > 0 && body_pos >= end) {
FontMetrics const & fm = theFontMetrics(
text_->labelFont(buffer, par));
w += fm.width(par.layout().labelsep);
if (end > 0 && par.isLineSeparator(end - 1))
w -= singleWidth(pit, end - 1);
w = max(w, label_end);
}
return w + right_margin;
}
Dimension TextMetrics::rowHeight(pit_type const pit, pos_type const first,
pos_type const end, bool topBottomSpace) const
{
Paragraph const & par = text_->getPar(pit);
// get the maximum ascent and the maximum descent
double layoutasc = 0;
double layoutdesc = 0;
double const dh = defaultRowHeight();
// 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 :)
Layout const & layout = par.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.
Buffer const & buffer = bv_->buffer();
Font font = displayFont(pit, first);
FontSize const tmpsize = font.fontInfo().size();
font.fontInfo() = text_->layoutFont(buffer, pit);
FontSize const size = font.fontInfo().size();
font.fontInfo().setSize(tmpsize);
FontInfo labelfont = text_->labelFont(buffer, par);
FontMetrics const & labelfont_metrics = theFontMetrics(labelfont);
FontMetrics const & fontmetrics = theFontMetrics(font);
// these are minimum values
double const spacing_val = layout.spacing.getValue()
* text_->spacing(buffer, par);
//lyxerr << "spacing_val = " << spacing_val << endl;
int maxasc = int(fontmetrics.maxAscent() * spacing_val);
int maxdesc = int(fontmetrics.maxDescent() * spacing_val);
// insets may be taller
ParagraphMetrics const & pm = par_metrics_[pit];
InsetList::const_iterator ii = par.insetList().begin();
InsetList::const_iterator iend = par.insetList().end();
for ( ; ii != iend; ++ii) {
if (ii->pos >= first && ii->pos < end) {
Dimension const & dim = pm.insetDimension(ii->inset);
maxasc = max(maxasc, dim.ascent());
maxdesc = max(maxdesc, dim.descent());
}
}
// Check if any custom fonts are larger (Asger)
// This is not completely correct, but we can live with the small,
// cosmetic error for now.
int labeladdon = 0;
FontSize maxsize =
par.highestFontInRange(first, end, size);
if (maxsize > font.fontInfo().size()) {
// use standard paragraph font with the maximal size
FontInfo maxfont = font.fontInfo();
maxfont.setSize(maxsize);
FontMetrics const & maxfontmetrics = theFontMetrics(maxfont);
maxasc = max(maxasc, maxfontmetrics.maxAscent());
maxdesc = max(maxdesc, maxfontmetrics.maxDescent());
}
// This is nicer with box insets:
++maxasc;
++maxdesc;
ParagraphList const & pars = text_->paragraphs();
// is it a top line?
if (first == 0 && topBottomSpace) {
BufferParams const & bufparams = buffer.params();
// some parskips VERY EASY IMPLEMENTATION
if (bufparams.paragraph_separation
== BufferParams::ParagraphSkipSeparation
&& par.ownerCode() != ERT_CODE
&& par.ownerCode() != LISTINGS_CODE
&& pit > 0
&& ((layout.isParagraph() && par.getDepth() == 0)
|| (pars[pit - 1].layout().isParagraph()
&& pars[pit - 1].getDepth() == 0)))
{
maxasc += bufparams.getDefSkip().inPixels(*bv_);
}
if (par.params().startOfAppendix())
maxasc += int(3 * dh);
// This is special code for the chapter, since the label of this
// layout is printed in an extra row
if (layout.counter == "chapter"
&& !par.params().labelString().empty()) {
labeladdon = int(labelfont_metrics.maxHeight()
* layout.spacing.getValue()
* text_->spacing(buffer, par));
}
// special code for the top label
if ((layout.labeltype == LABEL_TOP_ENVIRONMENT
|| layout.labeltype == LABEL_BIBLIO
|| layout.labeltype == LABEL_CENTERED_TOP_ENVIRONMENT)
&& isFirstInSequence(pit, pars)
&& !par.labelString().empty())
{
labeladdon = int(
labelfont_metrics.maxHeight()
* layout.spacing.getValue()
* text_->spacing(buffer, par)
+ (layout.topsep + layout.labelbottomsep) * dh);
}
// Add the layout spaces, for example before and after
// a section, or between the items of a itemize or enumerate
// environment.
pit_type prev = depthHook(pit, pars, par.getDepth());
Paragraph const & prevpar = pars[prev];
if (prev != pit
&& prevpar.layout() == layout
&& prevpar.getDepth() == par.getDepth()
&& prevpar.getLabelWidthString()
== par.getLabelWidthString()) {
layoutasc = layout.itemsep * dh;
} else if (pit != 0 || first != 0) {
if (layout.topsep > 0)
layoutasc = layout.topsep * dh;
}
prev = outerHook(pit, pars);
if (prev != pit_type(pars.size())) {
maxasc += int(pars[prev].layout().parsep * dh);
} else if (pit != 0) {
Paragraph const & prevpar = pars[pit - 1];
if (prevpar.getDepth() != 0 ||
prevpar.layout() == layout) {
maxasc += int(layout.parsep * dh);
}
}
}
// is it a bottom line?
if (end >= par.size() && topBottomSpace) {
// add the layout spaces, for example before and after
// a section, or between the items of a itemize or enumerate
// environment
pit_type nextpit = pit + 1;
if (nextpit != pit_type(pars.size())) {
pit_type cpit = pit;
double usual = 0;
double unusual = 0;
if (pars[cpit].getDepth() > pars[nextpit].getDepth()) {
usual = pars[cpit].layout().bottomsep * dh;
cpit = depthHook(cpit, pars, pars[nextpit].getDepth());
if (pars[cpit].layout() != pars[nextpit].layout()
|| pars[nextpit].getLabelWidthString() != pars[cpit].getLabelWidthString())
{
unusual = pars[cpit].layout().bottomsep * dh;
}
layoutdesc = max(unusual, usual);
} else if (pars[cpit].getDepth() == pars[nextpit].getDepth()) {
if (pars[cpit].layout() != pars[nextpit].layout()
|| pars[nextpit].getLabelWidthString() != pars[cpit].getLabelWidthString())
layoutdesc = int(pars[cpit].layout().bottomsep * dh);
}
}
}
// incalculate the layout spaces
maxasc += int(layoutasc * 2 / (2 + pars[pit].getDepth()));
maxdesc += int(layoutdesc * 2 / (2 + pars[pit].getDepth()));
// FIXME: the correct way is to do the following is to move the
// following code in another method specially tailored for the
// main Text. The following test is thus bogus.
// Top and bottom margin of the document (only at top-level)
if (main_text_ && topBottomSpace) {
if (pit == 0 && first == 0)
maxasc += 20;
if (pit + 1 == pit_type(pars.size()) &&
end == par.size() &&
!(end > 0 && par.isNewline(end - 1)))
maxdesc += 20;
}
return Dimension(0, maxasc + labeladdon, maxdesc);
}
// x is an absolute screen coord
// returns the column near the specified x-coordinate of the row
// x is set to the real beginning of this column
pos_type TextMetrics::getColumnNearX(pit_type const pit,
Row const & row, int & x, bool & boundary) const
{
Buffer const & buffer = bv_->buffer();
/// For the main Text, it is possible that this pit is not
/// yet in the CoordCache when moving cursor up.
/// x Paragraph coordinate is always 0 for main text anyway.
int const xo = origin_.x_;
x -= xo;
Paragraph const & par = text_->getPar(pit);
Bidi bidi;
bidi.computeTables(par, buffer, row);
pos_type vc = row.pos();
pos_type end = row.endpos();
pos_type c = 0;
Layout const & layout = par.layout();
bool left_side = false;
pos_type body_pos = par.beginOfBody();
double tmpx = row.x;
double last_tmpx = tmpx;
if (body_pos > 0 &&
(body_pos > end || !par.isLineSeparator(body_pos - 1)))
body_pos = 0;
// check for empty row
if (vc == end) {
x = int(tmpx) + xo;
return 0;
}
while (vc < end && tmpx <= x) {
c = bidi.vis2log(vc);
last_tmpx = tmpx;
if (body_pos > 0 && c == body_pos - 1) {
FontMetrics const & fm = theFontMetrics(
text_->labelFont(buffer, par));
tmpx += row.label_hfill + fm.width(layout.labelsep);
if (par.isLineSeparator(body_pos - 1))
tmpx -= singleWidth(pit, body_pos - 1);
}
tmpx += singleWidth(pit, c);
if (par.isSeparator(c) && c >= body_pos)
tmpx += row.separator;
++vc;
}
if ((tmpx + last_tmpx) / 2 > x) {
tmpx = last_tmpx;
left_side = true;
}
LASSERT(vc <= end, /**/); // This shouldn't happen.
boundary = false;
// This (rtl_support test) is not needed, but gives
// some speedup if rtl_support == false
bool const lastrow = lyxrc.rtl_support && row.endpos() == par.size();
// If lastrow is false, we don't need to compute
// the value of rtl.
bool const rtl = lastrow ? text_->isRTL(buffer, par) : false;
if (lastrow &&
((rtl && left_side && vc == row.pos() && x < tmpx - 5) ||
(!rtl && !left_side && vc == end && x > tmpx + 5))) {
if (!par.isNewline(end - 1))
c = end;
} else if (vc == row.pos()) {
c = bidi.vis2log(vc);
if (bidi.level(c) % 2 == 1)
++c;
} else {
c = bidi.vis2log(vc - 1);
bool const rtl = (bidi.level(c) % 2 == 1);
if (left_side == rtl) {
++c;
boundary = isRTLBoundary(pit, c);
}
}
// I believe this code is not needed anymore (Jug 20050717)
#if 0
// The following code is necessary because the cursor position past
// the last char in a row is logically equivalent to that before
// the first char in the next row. That's why insets causing row
// divisions -- Newline and display-style insets -- must be treated
// specially, so cursor up/down doesn't get stuck in an air gap -- MV
// Newline inset, air gap below:
if (row.pos() < end && c >= end && par.isNewline(end - 1)) {
if (bidi.level(end -1) % 2 == 0)
tmpx -= singleWidth(pit, end - 1);
else
tmpx += singleWidth(pit, end - 1);
c = end - 1;
}
// Air gap above display inset:
if (row.pos() < end && c >= end && end < par.size()
&& par.isInset(end) && par.getInset(end)->display()) {
c = end - 1;
}
// Air gap below display inset:
if (row.pos() < end && c >= end && par.isInset(end - 1)
&& par.getInset(end - 1)->display()) {
c = end - 1;
}
#endif
x = int(tmpx) + xo;
pos_type const col = c - row.pos();
if (!c || end == par.size())
return col;
if (c==end && !par.isLineSeparator(c-1) && !par.isNewline(c-1)) {
boundary = true;
return col;
}
return min(col, end - 1 - row.pos());
}
pos_type TextMetrics::x2pos(pit_type pit, int row, int x) const
{
// We play safe and use parMetrics(pit) to make sure the
// ParagraphMetrics will be redone and OK to use if needed.
// Otherwise we would use an empty ParagraphMetrics in
// upDownInText() while in selection mode.
ParagraphMetrics const & pm = parMetrics(pit);
LASSERT(row < int(pm.rows().size()), /**/);
bool bound = false;
Row const & r = pm.rows()[row];
return r.pos() + getColumnNearX(pit, r, x, bound);
}
void TextMetrics::newParMetricsDown()
{
pair<pit_type, ParagraphMetrics> const & last = *par_metrics_.rbegin();
pit_type const pit = last.first + 1;
if (pit == int(text_->paragraphs().size()))
return;
// do it and update its position.
redoParagraph(pit);
par_metrics_[pit].setPosition(last.second.position()
+ last.second.descent() + par_metrics_[pit].ascent());
}
void TextMetrics::newParMetricsUp()
{
pair<pit_type, ParagraphMetrics> const & first = *par_metrics_.begin();
if (first.first == 0)
return;
pit_type const pit = first.first - 1;
// do it and update its position.
redoParagraph(pit);
par_metrics_[pit].setPosition(first.second.position()
- first.second.ascent() - par_metrics_[pit].descent());
}
// y is screen coordinate
pit_type TextMetrics::getPitNearY(int y)
{
LASSERT(!text_->paragraphs().empty(), return -1);
LASSERT(!par_metrics_.empty(), return -1);
LYXERR(Debug::DEBUG, "y: " << y << " cache size: " << par_metrics_.size());
// look for highest numbered paragraph with y coordinate less than given y
pit_type pit = -1;
int yy = -1;
ParMetricsCache::const_iterator it = par_metrics_.begin();
ParMetricsCache::const_iterator et = par_metrics_.end();
ParMetricsCache::const_iterator last = et; last--;
ParagraphMetrics const & pm = it->second;
if (y < it->second.position() - int(pm.ascent())) {
// We are looking for a position that is before the first paragraph in
// the cache (which is in priciple off-screen, that is before the
// visible part.
if (it->first == 0)
// We are already at the first paragraph in the inset.
return 0;
// OK, this is the paragraph we are looking for.
pit = it->first - 1;
newParMetricsUp();
return pit;
}
ParagraphMetrics const & pm_last = par_metrics_[last->first];
if (y >= last->second.position() + int(pm_last.descent())) {
// We are looking for a position that is after the last paragraph in
// the cache (which is in priciple off-screen), that is before the
// visible part.
pit = last->first + 1;
if (pit == int(text_->paragraphs().size()))
// We are already at the last paragraph in the inset.
return last->first;
// OK, this is the paragraph we are looking for.
newParMetricsDown();
return pit;
}
for (; it != et; ++it) {
LYXERR(Debug::DEBUG, "examining: pit: " << it->first
<< " y: " << it->second.position());
ParagraphMetrics const & pm = par_metrics_[it->first];
if (it->first >= pit && int(it->second.position()) - int(pm.ascent()) <= y) {
pit = it->first;
yy = it->second.position();
}
}
LYXERR(Debug::DEBUG, "found best y: " << yy << " for pit: " << pit);
return pit;
}
Row const & TextMetrics::getPitAndRowNearY(int y, pit_type & pit,
bool assert_in_view, bool up)
{
ParagraphMetrics const & pm = par_metrics_[pit];
int yy = pm.position() - pm.ascent();
LASSERT(!pm.rows().empty(), /**/);
RowList::const_iterator rit = pm.rows().begin();
RowList::const_iterator rlast = pm.rows().end();
--rlast;
for (; rit != rlast; yy += rit->height(), ++rit)
if (yy + rit->height() > y)
break;
if (assert_in_view && yy + rit->height() != y) {
if (!up) {
if (rit != pm.rows().begin())
--rit;
else if (pit != 0) {
--pit;
newParMetricsUp();
ParagraphMetrics const & pm2 = par_metrics_[pit];
rit = pm2.rows().end();
--rit;
}
} else {
if (rit != rlast)
++rit;
else if (pit != int(par_metrics_.size())) {
++pit;
newParMetricsDown();
ParagraphMetrics const & pm2 = par_metrics_[pit];
rit = pm2.rows().begin();
}
}
}
return *rit;
}
// x,y are absolute screen coordinates
// sets cursor recursively descending into nested editable insets
Inset * TextMetrics::editXY(Cursor & cur, int x, int y,
bool assert_in_view, bool up)
{
if (lyxerr.debugging(Debug::WORKAREA)) {
LYXERR0("TextMetrics::editXY(cur, " << x << ", " << y << ")");
cur.bv().coordCache().dump();
}
pit_type pit = getPitNearY(y);
LASSERT(pit != -1, return 0);
Row const & row = getPitAndRowNearY(y, pit, assert_in_view, up);
bool bound = false;
int xx = x; // is modified by getColumnNearX
pos_type const pos = row.pos()
+ getColumnNearX(pit, row, xx, bound);
cur.pit() = pit;
cur.pos() = pos;
cur.boundary(bound);
cur.setTargetX(x);
// try to descend into nested insets
Inset * inset = checkInsetHit(x, y);
//lyxerr << "inset " << inset << " hit at x: " << x << " y: " << y << endl;
if (!inset) {
// Either we deconst editXY or better we move current_font
// and real_current_font to Cursor
// FIXME: what is needed now that current_font and real_current_font
// are transferred?
cur.setCurrentFont();
return 0;
}
ParagraphList const & pars = text_->paragraphs();
Inset const * insetBefore = pos ? pars[pit].getInset(pos - 1) : 0;
//Inset * insetBehind = pars[pit].getInset(pos);
// This should be just before or just behind the
// cursor position set above.
LASSERT((pos != 0 && inset == insetBefore)
|| inset == pars[pit].getInset(pos), /**/);
// Make sure the cursor points to the position before
// this inset.
if (inset == insetBefore) {
--cur.pos();
cur.boundary(false);
}
// Try to descend recursively inside the inset.
inset = inset->editXY(cur, x, y);
if (cur.top().text() == text_)
cur.setCurrentFont();
return inset;
}
void TextMetrics::setCursorFromCoordinates(Cursor & cur, int const x, int const y)
{
LASSERT(text_ == cur.text(), /**/);
pit_type pit = getPitNearY(y);
LASSERT(pit != -1, return);
ParagraphMetrics const & pm = par_metrics_[pit];
int yy = pm.position() - pm.ascent();
LYXERR(Debug::DEBUG, "x: " << x << " y: " << y <<
" pit: " << pit << " yy: " << yy);
int r = 0;
LASSERT(pm.rows().size(), /**/);
for (; r < int(pm.rows().size()) - 1; ++r) {
Row const & row = pm.rows()[r];
if (int(yy + row.height()) > y)
break;
yy += row.height();
}
Row const & row = pm.rows()[r];
LYXERR(Debug::DEBUG, "row " << r << " from pos: " << row.pos());
bool bound = false;
int xx = x;
pos_type const pos = row.pos() + getColumnNearX(pit, row, xx, bound);
LYXERR(Debug::DEBUG, "setting cursor pit: " << pit << " pos: " << pos);
text_->setCursor(cur, pit, pos, true, bound);
// remember new position.
cur.setTargetX();
}
//takes screen x,y coordinates
Inset * TextMetrics::checkInsetHit(int x, int y)
{
pit_type pit = getPitNearY(y);
LASSERT(pit != -1, return 0);
Paragraph const & par = text_->paragraphs()[pit];
ParagraphMetrics const & pm = par_metrics_[pit];
LYXERR(Debug::DEBUG, "x: " << x << " y: " << y << " pit: " << pit);
InsetList::const_iterator iit = par.insetList().begin();
InsetList::const_iterator iend = par.insetList().end();
for (; iit != iend; ++iit) {
Inset * inset = iit->inset;
LYXERR(Debug::DEBUG, "examining inset " << inset);
if (!bv_->coordCache().getInsets().has(inset)) {
LYXERR(Debug::DEBUG, "inset has no cached position");
return 0;
}
Dimension const & dim = pm.insetDimension(inset);
Point p = bv_->coordCache().getInsets().xy(inset);
LYXERR(Debug::DEBUG, "xo: " << p.x_ << "..." << p.x_ + dim.wid
<< " yo: " << p.y_ - dim.asc << "..." << p.y_ + dim.des);
if (x >= p.x_
&& x <= p.x_ + dim.wid
&& y >= p.y_ - dim.asc
&& y <= p.y_ + dim.des) {
LYXERR(Debug::DEBUG, "Hit inset: " << inset);
return inset;
}
}
LYXERR(Debug::DEBUG, "No inset hit. ");
return 0;
}
int TextMetrics::cursorX(CursorSlice const & sl,
bool boundary) const
{
LASSERT(sl.text() == text_, /**/);
pit_type const pit = sl.pit();
Paragraph const & par = text_->paragraphs()[pit];
ParagraphMetrics const & pm = par_metrics_[pit];
if (pm.rows().empty())
return 0;
pos_type ppos = sl.pos();
// Correct position in front of big insets
bool const boundary_correction = ppos != 0 && boundary;
if (boundary_correction)
--ppos;
Row const & row = pm.getRow(sl.pos(), boundary);
pos_type cursor_vpos = 0;
Buffer const & buffer = bv_->buffer();
double x = row.x;
Bidi bidi;
bidi.computeTables(par, buffer, row);
pos_type const row_pos = row.pos();
pos_type const end = row.endpos();
// Spaces at logical line breaks in bidi text must be skipped during
// cursor positioning. However, they may appear visually in the middle
// of a row; they must be skipped, wherever they are...
// * logically "abc_[HEBREW_\nHEBREW]"
// * visually "abc_[_WERBEH\nWERBEH]"
pos_type skipped_sep_vpos = -1;
if (end <= row_pos)
cursor_vpos = row_pos;
else if (ppos >= end)
cursor_vpos = text_->isRTL(buffer, par) ? row_pos : end;
else if (ppos > row_pos && ppos >= end)
// Place cursor after char at (logical) position pos - 1
cursor_vpos = (bidi.level(ppos - 1) % 2 == 0)
? bidi.log2vis(ppos - 1) + 1 : bidi.log2vis(ppos - 1);
else
// Place cursor before char at (logical) position ppos
cursor_vpos = (bidi.level(ppos) % 2 == 0)
? bidi.log2vis(ppos) : bidi.log2vis(ppos) + 1;
pos_type body_pos = par.beginOfBody();
if (body_pos > 0 &&
(body_pos > end || !par.isLineSeparator(body_pos - 1)))
body_pos = 0;
// check for possible inline completion in this row
DocIterator const & inlineCompletionPos = bv_->inlineCompletionPos();
pos_type inlineCompletionVPos = -1;
if (inlineCompletionPos.inTexted()
&& inlineCompletionPos.text() == text_
&& inlineCompletionPos.pit() == pit
&& inlineCompletionPos.pos() - 1 >= row_pos
&& inlineCompletionPos.pos() - 1 < end) {
// draw logically behind the previous character
inlineCompletionVPos = bidi.log2vis(inlineCompletionPos.pos() - 1);
}
// Use font span to speed things up, see below
FontSpan font_span;
Font font;
// If the last logical character is a separator, skip it, unless
// it's in the last row of a paragraph; see skipped_sep_vpos declaration
if (end > 0 && end < par.size() && par.isSeparator(end - 1))
skipped_sep_vpos = bidi.log2vis(end - 1);
// Inline completion RTL special case row_pos == cursor_pos:
// "__|b" => cursor_pos is right of __
if (row_pos == inlineCompletionVPos && row_pos == cursor_vpos) {
font = displayFont(pit, row_pos + 1);
docstring const & completion = bv_->inlineCompletion();
if (font.isRightToLeft() && completion.length() > 0)
x += theFontMetrics(font.fontInfo()).width(completion);
}
for (pos_type vpos = row_pos; vpos < cursor_vpos; ++vpos) {
// Skip the separator which is at the logical end of the row
if (vpos == skipped_sep_vpos)
continue;
pos_type pos = bidi.vis2log(vpos);
if (body_pos > 0 && pos == body_pos - 1) {
FontMetrics const & labelfm = theFontMetrics(
text_->labelFont(buffer, par));
x += row.label_hfill + labelfm.width(par.layout().labelsep);
if (par.isLineSeparator(body_pos - 1))
x -= singleWidth(pit, body_pos - 1);
}
// Use font span to speed things up, see above
if (pos < font_span.first || pos > font_span.last) {
font_span = par.fontSpan(pos);
font = displayFont(pit, pos);
}
x += pm.singleWidth(pos, font);
// Inline completion RTL case:
// "a__|b", __ of b => non-boundary a-pos is right of __
if (vpos + 1 == inlineCompletionVPos
&& (vpos + 1 < cursor_vpos || !boundary_correction)) {
font = displayFont(pit, vpos + 1);
docstring const & completion = bv_->inlineCompletion();
if (font.isRightToLeft() && completion.length() > 0)
x += theFontMetrics(font.fontInfo()).width(completion);
}
// Inline completion LTR case:
// "b|__a", __ of b => non-boundary a-pos is in front of __
if (vpos == inlineCompletionVPos
&& (vpos + 1 < cursor_vpos || boundary_correction)) {
font = displayFont(pit, vpos);
docstring const & completion = bv_->inlineCompletion();
if (!font.isRightToLeft() && completion.length() > 0)
x += theFontMetrics(font.fontInfo()).width(completion);
}
if (par.isSeparator(pos) && pos >= body_pos)
x += row.separator;
}
// see correction above
if (boundary_correction) {
if (isRTL(sl, boundary))
x -= singleWidth(pit, ppos);
else
x += singleWidth(pit, ppos);
}
return int(x);
}
int TextMetrics::cursorY(CursorSlice const & sl, bool boundary) const
{
//lyxerr << "TextMetrics::cursorY: boundary: " << boundary << endl;
ParagraphMetrics const & pm = par_metrics_[sl.pit()];
if (pm.rows().empty())
return 0;
int h = 0;
h -= par_metrics_[0].rows()[0].ascent();
for (pit_type pit = 0; pit < sl.pit(); ++pit) {
h += par_metrics_[pit].height();
}
int pos = sl.pos();
if (pos && boundary)
--pos;
size_t const rend = pm.pos2row(pos);
for (size_t rit = 0; rit != rend; ++rit)
h += pm.rows()[rit].height();
h += pm.rows()[rend].ascent();
return h;
}
// the cursor set functions have a special mechanism. When they
// realize you left an empty paragraph, they will delete it.
bool TextMetrics::cursorHome(Cursor & cur)
{
LASSERT(text_ == cur.text(), /**/);
ParagraphMetrics const & pm = par_metrics_[cur.pit()];
Row const & row = pm.getRow(cur.pos(),cur.boundary());
return text_->setCursor(cur, cur.pit(), row.pos());
}
bool TextMetrics::cursorEnd(Cursor & cur)
{
LASSERT(text_ == cur.text(), /**/);
// if not on the last row of the par, put the cursor before
// the final space exept if I have a spanning inset or one string
// is so long that we force a break.
pos_type end = cur.textRow().endpos();
if (end == 0)
// empty text, end-1 is no valid position
return false;
bool boundary = false;
if (end != cur.lastpos()) {
if (!cur.paragraph().isLineSeparator(end-1)
&& !cur.paragraph().isNewline(end-1))
boundary = true;
else
--end;
}
return text_->setCursor(cur, cur.pit(), end, true, boundary);
}
void TextMetrics::deleteLineForward(Cursor & cur)
{
LASSERT(text_ == cur.text(), /**/);
if (cur.lastpos() == 0) {
// Paragraph is empty, so we just go forward
text_->cursorForward(cur);
} else {
cur.resetAnchor();
cur.setSelection(true); // to avoid deletion
cursorEnd(cur);
cur.setSelection();
// What is this test for ??? (JMarc)
if (!cur.selection())
text_->deleteWordForward(cur);
else
cap::cutSelection(cur, true, false);
cur.checkBufferStructure();
}
}
bool TextMetrics::isLastRow(pit_type pit, Row const & row) const
{
ParagraphList const & pars = text_->paragraphs();
return row.endpos() >= pars[pit].size()
&& pit + 1 == pit_type(pars.size());
}
bool TextMetrics::isFirstRow(pit_type pit, Row const & row) const
{
return row.pos() == 0 && pit == 0;
}
int TextMetrics::leftMargin(int max_width, pit_type pit) const
{
LASSERT(pit >= 0, /**/);
LASSERT(pit < int(text_->paragraphs().size()), /**/);
return leftMargin(max_width, pit, text_->paragraphs()[pit].size());
}
int TextMetrics::leftMargin(int max_width,
pit_type const pit, pos_type const pos) const
{
ParagraphList const & pars = text_->paragraphs();
LASSERT(pit >= 0, /**/);
LASSERT(pit < int(pars.size()), /**/);
Paragraph const & par = pars[pit];
LASSERT(pos >= 0, /**/);
LASSERT(pos <= par.size(), /**/);
Buffer const & buffer = bv_->buffer();
//lyxerr << "TextMetrics::leftMargin: pit: " << pit << " pos: " << pos << endl;
DocumentClass const & tclass = buffer.params().documentClass();
Layout const & layout = par.layout();
docstring parindent = layout.parindent;
int l_margin = 0;
if (text_->isMainText(buffer))
l_margin += bv_->leftMargin();
l_margin += theFontMetrics(buffer.params().getFont()).signedWidth(
tclass.leftmargin());
if (par.getDepth() != 0) {
// find the next level paragraph
pit_type newpar = outerHook(pit, pars);
if (newpar != pit_type(pars.size())) {
if (pars[newpar].layout().isEnvironment()) {
l_margin = leftMargin(max_width, newpar);
}
if (tclass.isDefaultLayout(par.layout())
|| tclass.isPlainLayout(par.layout())) {
if (pars[newpar].params().noindent())
parindent.erase();
else
parindent = pars[newpar].layout().parindent;
}
}
}
// This happens after sections in standard classes. The 1.3.x
// code compared depths too, but it does not seem necessary
// (JMarc)
if (tclass.isDefaultLayout(par.layout())
&& pit > 0 && pars[pit - 1].layout().nextnoindent)
parindent.erase();
FontInfo const labelfont = text_->labelFont(buffer, par);
FontMetrics const & labelfont_metrics = theFontMetrics(labelfont);
switch (layout.margintype) {
case MARGIN_DYNAMIC:
if (!layout.leftmargin.empty()) {
l_margin += theFontMetrics(buffer.params().getFont()).signedWidth(
layout.leftmargin);
}
if (!par.labelString().empty()) {
l_margin += labelfont_metrics.signedWidth(layout.labelindent);
l_margin += labelfont_metrics.width(par.labelString());
l_margin += labelfont_metrics.width(layout.labelsep);
}
break;
case MARGIN_MANUAL: {
l_margin += labelfont_metrics.signedWidth(layout.labelindent);
// The width of an empty par, even with manual label, should be 0
if (!par.empty() && pos >= par.beginOfBody()) {
if (!par.getLabelWidthString().empty()) {
docstring labstr = par.getLabelWidthString();
l_margin += labelfont_metrics.width(labstr);
l_margin += labelfont_metrics.width(layout.labelsep);
}
}
break;
}
case MARGIN_STATIC: {
l_margin += theFontMetrics(buffer.params().getFont()).
signedWidth(layout.leftmargin) * 4 / (par.getDepth() + 4);
break;
}
case MARGIN_FIRST_DYNAMIC:
if (layout.labeltype == LABEL_MANUAL) {
// if we are at position 0, we are never in the body
if (pos > 0 && pos >= par.beginOfBody())
l_margin += labelfont_metrics.signedWidth(layout.leftmargin);
else
l_margin += labelfont_metrics.signedWidth(layout.labelindent);
} else if (pos != 0
// Special case to fix problems with
// theorems (JMarc)
|| (layout.labeltype == LABEL_STATIC
&& layout.latextype == LATEX_ENVIRONMENT
&& !isFirstInSequence(pit, pars))) {
l_margin += labelfont_metrics.signedWidth(layout.leftmargin);
} else if (layout.labeltype != LABEL_TOP_ENVIRONMENT
&& layout.labeltype != LABEL_BIBLIO
&& layout.labeltype !=
LABEL_CENTERED_TOP_ENVIRONMENT) {
l_margin += labelfont_metrics.signedWidth(layout.labelindent);
l_margin += labelfont_metrics.width(layout.labelsep);
l_margin += labelfont_metrics.width(par.labelString());
}
break;
case MARGIN_RIGHT_ADDRESS_BOX: {
#if 0
// ok, a terrible hack. The left margin depends on the widest
// row in this paragraph.
RowList::iterator rit = par.rows().begin();
RowList::iterator end = par.rows().end();
// FIXME: This is wrong.
int minfill = max_width;
for ( ; rit != end; ++rit)
if (rit->fill() < minfill)
minfill = rit->fill();
l_margin += theFontMetrics(params.getFont()).signedWidth(layout.leftmargin);
l_margin += minfill;
#endif
// also wrong, but much shorter.
l_margin += max_width / 2;
break;
}
}
if (!par.params().leftIndent().zero())
l_margin += par.params().leftIndent().inPixels(max_width);
LyXAlignment align;
if (par.params().align() == LYX_ALIGN_LAYOUT)
align = layout.align;
else
align = par.params().align();
// set the correct parindent
if (pos == 0
&& (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, pars)))
&& align == LYX_ALIGN_BLOCK
&& !par.params().noindent()
// in some insets, paragraphs are never indented
&& !par.inInset().neverIndent()
// display style insets are always centered, omit indentation
&& !(!par.empty()
&& par.isInset(pos)
&& par.getInset(pos)->display())
&& (!(tclass.isDefaultLayout(par.layout())
|| tclass.isPlainLayout(par.layout()))
|| buffer.params().paragraph_separation == BufferParams::ParagraphIndentSeparation)
)
{
l_margin += theFontMetrics(buffer.params().getFont()).signedWidth(
parindent);
}
return l_margin;
}
int TextMetrics::singleWidth(pit_type pit, pos_type pos) const
{
ParagraphMetrics const & pm = par_metrics_[pit];
return pm.singleWidth(pos, displayFont(pit, pos));
}
void TextMetrics::draw(PainterInfo & pi, int x, int y) const
{
if (par_metrics_.empty())
return;
origin_.x_ = x;
origin_.y_ = y;
ParMetricsCache::iterator it = par_metrics_.begin();
ParMetricsCache::iterator const pm_end = par_metrics_.end();
y -= it->second.ascent();
for (; it != pm_end; ++it) {
ParagraphMetrics const & pmi = it->second;
y += pmi.ascent();
pit_type const pit = it->first;
// Save the paragraph position in the cache.
it->second.setPosition(y);
drawParagraph(pi, pit, x, y);
y += pmi.descent();
}
}
void TextMetrics::drawParagraph(PainterInfo & pi, pit_type pit, int x, int y) const
{
BufferParams const & bparams = bv_->buffer().params();
ParagraphMetrics const & pm = par_metrics_[pit];
if (pm.rows().empty())
return;
Bidi bidi;
bool const original_drawing_state = pi.pain.isDrawingEnabled();
int const ww = bv_->workHeight();
size_t const nrows = pm.rows().size();
Cursor const & cur = bv_->cursor();
DocIterator sel_beg = cur.selectionBegin();
DocIterator sel_end = cur.selectionEnd();
bool selection = cur.selection()
// This is our text.
&& cur.text() == text_
// if the anchor is outside, this is not our selection
&& cur.anchor().text() == text_
&& pit >= sel_beg.pit() && pit <= sel_end.pit();
// We store the begin and end pos of the selection relative to this par
DocIterator sel_beg_par = cur.selectionBegin();
DocIterator sel_end_par = cur.selectionEnd();
// We care only about visible selection.
if (selection) {
if (pit != sel_beg.pit()) {
sel_beg_par.pit() = pit;
sel_beg_par.pos() = 0;
}
if (pit != sel_end.pit()) {
sel_end_par.pit() = pit;
sel_end_par.pos() = sel_end_par.lastpos();
}
}
for (size_t i = 0; i != nrows; ++i) {
Row const & row = pm.rows()[i];
if (i)
y += row.ascent();
bool const inside = (y + row.descent() >= 0
&& y - row.ascent() < ww);
// It is not needed to draw on screen if we are not inside.
pi.pain.setDrawingEnabled(inside && original_drawing_state);
RowPainter rp(pi, *text_, pit, row, bidi, x, y);
if (selection)
row.setSelectionAndMargins(sel_beg_par, sel_end_par);
else
row.setSelection(-1, -1);
// The row knows nothing about the paragraph, so we have to check
// whether this row is the first or last and update the margins.
if (row.selection()) {
if (row.sel_beg == 0)
row.begin_margin_sel = sel_beg.pit() < pit;
if (row.sel_end == sel_end_par.lastpos())
row.end_margin_sel = sel_end.pit() > pit;
}
// Row signature; has row changed since last paint?
row.setCrc(pm.computeRowSignature(row, bparams));
bool row_has_changed = row.changed();
// Don't paint the row if a full repaint has not been requested
// and if it has not changed.
if (!pi.full_repaint && !row_has_changed) {
// Paint only the insets if the text itself is
// unchanged.
rp.paintOnlyInsets();
y += row.descent();
continue;
}
// Clear background of this row if paragraph background was not
// already cleared because of a full repaint.
if (!pi.full_repaint && row_has_changed) {
pi.pain.fillRectangle(x, y - row.ascent(),
width(), row.height(), pi.background_color);
}
if (row.selection())
drawRowSelection(pi, x, row, cur, pit);
// Instrumentation for testing row cache (see also
// 12 lines lower):
if (lyxerr.debugging(Debug::PAINTING) && inside
&& (row.selection() || pi.full_repaint || row_has_changed)) {
string const foreword = text_->isMainText(bv_->buffer()) ?
"main text redraw " : "inset text redraw: ";
LYXERR(Debug::PAINTING, foreword << "pit=" << pit << " row=" << i
<< " row_selection=" << row.selection()
<< " full_repaint=" << pi.full_repaint
<< " row_has_changed=" << row_has_changed);
}
// Backup full_repaint status and force full repaint
// for inner insets as the Row has been cleared out.
bool tmp = pi.full_repaint;
pi.full_repaint = true;
rp.paintAppendix();
rp.paintDepthBar();
rp.paintChangeBar();
if (i == 0)
rp.paintFirst();
rp.paintText();
if (i == nrows - 1)
rp.paintLast();
y += row.descent();
// Restore full_repaint status.
pi.full_repaint = tmp;
}
// Re-enable screen drawing for future use of the painter.
pi.pain.setDrawingEnabled(original_drawing_state);
//LYXERR(Debug::PAINTING, ".");
}
void TextMetrics::drawRowSelection(PainterInfo & pi, int x, Row const & row,
Cursor const & curs, pit_type pit) const
{
DocIterator beg = curs.selectionBegin();
beg.pit() = pit;
beg.pos() = row.sel_beg;
DocIterator end = curs.selectionEnd();
end.pit() = pit;
end.pos() = row.sel_end;
bool const begin_boundary = beg.pos() >= row.endpos();
bool const end_boundary = row.sel_end == row.endpos();
Buffer & buffer = bv_->buffer();
DocIterator cur = beg;
cur.boundary(begin_boundary);
int x1 = cursorX(beg.top(), begin_boundary);
int x2 = cursorX(end.top(), end_boundary);
int const y1 = bv_->getPos(cur, cur.boundary()).y_ - row.ascent();
int const y2 = y1 + row.height();
int const rm = text_->isMainText(buffer) ? bv_->rightMargin() : 0;
int const lm = text_->isMainText(buffer) ? bv_->leftMargin() : 0;
// draw the margins
if (row.begin_margin_sel) {
if (text_->isRTL(buffer, beg.paragraph())) {
pi.pain.fillRectangle(x + x1, y1, width() - rm - x1, y2 - y1,
Color_selection);
} else {
pi.pain.fillRectangle(x + lm, y1, x1 - lm, y2 - y1,
Color_selection);
}
}
if (row.end_margin_sel) {
if (text_->isRTL(buffer, beg.paragraph())) {
pi.pain.fillRectangle(x + lm, y1, x2 - lm, y2 - y1,
Color_selection);
} else {
pi.pain.fillRectangle(x + x2, y1, width() - rm - x2, y2 - y1,
Color_selection);
}
}
// if we are on a boundary from the beginning, it's probably
// a RTL boundary and we jump to the other side directly as this
// segement is 0-size and confuses the logic below
if (cur.boundary())
cur.boundary(false);
// go through row and draw from RTL boundary to RTL boundary
while (cur < end) {
bool drawNow = false;
// simplified cursorForward code below which does not
// descend into insets and which does not go into the
// next line. Compare the logic with the original cursorForward
// if left of boundary -> just jump to right side, but
// for RTL boundaries don't, because: abc|DDEEFFghi -> abcDDEEF|Fghi
if (cur.boundary()) {
cur.boundary(false);
} else if (isRTLBoundary(cur.pit(), cur.pos() + 1)) {
// in front of RTL boundary -> Stay on this side of the boundary
// because: ab|cDDEEFFghi -> abc|DDEEFFghi
++cur.pos();
cur.boundary(true);
drawNow = true;
} else {
// move right
++cur.pos();
// line end?
if (cur.pos() == row.endpos())
cur.boundary(true);
}
if (x1 == -1) {
// the previous segment was just drawn, now the next starts
x1 = cursorX(cur.top(), cur.boundary());
}
if (!(cur < end) || drawNow) {
x2 = cursorX(cur.top(), cur.boundary());
pi.pain.fillRectangle(x + min(x1,x2), y1, abs(x2 - x1), y2 - y1,
Color_selection);
// reset x1, so it is set again next round (which will be on the
// right side of a boundary or at the selection end)
x1 = -1;
}
}
}
void TextMetrics::completionPosAndDim(Cursor const & cur, int & x, int & y,
Dimension & dim) const
{
Cursor const & bvcur = cur.bv().cursor();
// get word in front of cursor
docstring word = text_->previousWord(bvcur.top());
DocIterator wordStart = bvcur;
wordStart.pos() -= word.length();
// get position on screen of the word start and end
Point lxy = cur.bv().getPos(wordStart, false);
Point rxy = cur.bv().getPos(bvcur, bvcur.boundary());
// calculate dimensions of the word
dim = rowHeight(bvcur.pit(), wordStart.pos(), bvcur.pos(), false);
dim.wid = abs(rxy.x_ - lxy.x_);
// calculate position of word
y = lxy.y_;
x = min(rxy.x_, lxy.x_);
//lyxerr << "wid=" << dim.width() << " x=" << x << " y=" << y << " lxy.x_=" << lxy.x_ << " rxy.x_=" << rxy.x_ << " word=" << word << std::endl;
//lyxerr << " wordstart=" << wordStart << " bvcur=" << bvcur << " cur=" << cur << std::endl;
}
//int TextMetrics::pos2x(pit_type pit, pos_type pos) const
//{
// ParagraphMetrics const & pm = par_metrics_[pit];
// Row const & r = pm.rows()[row];
// int x = 0;
// pos -= r.pos();
//}
int defaultRowHeight()
{
return int(theFontMetrics(sane_font).maxHeight() * 1.2);
}
} // namespace lyx