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c1173eb11c
git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@26335 a592a061-630c-0410-9148-cb99ea01b6c8
277 lines
6.1 KiB
C++
277 lines
6.1 KiB
C++
/**
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* \file GuiFontMetrics.cpp
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* This file is part of LyX, the document processor.
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* Licence details can be found in the file COPYING.
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*
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* \author unknown
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* \author John Levon
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*
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* Full author contact details are available in file CREDITS.
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*/
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#include <config.h>
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#include "GuiFontMetrics.h"
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#include "qt_helpers.h"
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#include "Language.h"
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#include "Dimension.h"
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#include "insets/Inset.h"
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#include "support/lassert.h"
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using namespace std;
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namespace lyx {
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namespace frontend {
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/**
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* Convert a UCS4 character into a QChar.
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* This is a hack (it does only make sense for the common part of the UCS4
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* and UTF16 encodings) and should not be used.
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* This does only exist because of performance reasons (a real conversion
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* using iconv is too slow on windows).
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*/
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static inline QChar const ucs4_to_qchar(char_type const ucs4)
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{
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LASSERT(is_utf16(ucs4), /**/);
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return QChar(static_cast<unsigned short>(ucs4));
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}
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// Caution: When using ucs4_to_qchar() in these methods, this is no
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// real conversion but a simple cast in reality. This is the reason
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// why this works well for symbol fonts used in mathed too, even though
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// these are not real ucs4 characters. These are codepoints in the
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// modern fonts used, nothing unicode related.
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// See comment in QLPainter::text() for more explanation.
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GuiFontMetrics::GuiFontMetrics(QFont const & font)
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: metrics_(font), smallcaps_metrics_(font), smallcaps_shape_(false)
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{
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}
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GuiFontMetrics::GuiFontMetrics(QFont const & font, QFont const & smallcaps_font)
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: metrics_(font), smallcaps_metrics_(smallcaps_font), smallcaps_shape_(true)
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{
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}
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int GuiFontMetrics::maxAscent() const
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{
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return metrics_.ascent();
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}
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int GuiFontMetrics::maxDescent() const
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{
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// We add 1 as the value returned by QT is different than X
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// See http://doc.trolltech.com/2.3/qfontmetrics.html#200b74
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return metrics_.descent() + 1;
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}
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int GuiFontMetrics::lbearing(char_type c) const
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{
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if (!is_utf16(c))
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// FIXME: QFontMetrics::leftBearingdoes not support the
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// full unicode range. Once it does, we could use:
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//return metrics_.leftBearing(toqstr(docstring(1, c)));
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return 0;
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return metrics_.leftBearing(ucs4_to_qchar(c));
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}
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namespace {
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int const outOfLimitMetric = -10000;
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}
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int GuiFontMetrics::rbearing(char_type c) const
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{
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int value = rbearing_cache_.value(c, outOfLimitMetric);
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if (value != outOfLimitMetric)
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return value;
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// Qt rbearing is from the right edge of the char's width().
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if (is_utf16(c)) {
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QChar sc = ucs4_to_qchar(c);
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value = width(c) - metrics_.rightBearing(sc);
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} else {
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// FIXME: QFontMetrics::leftBearing does not support the
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// full unicode range. Once it does, we could use:
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// metrics_.rightBearing(toqstr(docstring(1, c)));
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value = width(c);
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}
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rbearing_cache_.insert(c, value);
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return value;
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}
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int GuiFontMetrics::smallcapsWidth(char_type c) const
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{
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// FIXME: Optimisation probably needed: we don't use the width cache.
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if (is_utf16(c)) {
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QChar const qc = ucs4_to_qchar(c);
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QChar const uc = qc.toUpper();
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if (qc != uc)
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return smallcaps_metrics_.width(uc);
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else
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return metrics_.width(qc);
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} else {
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QString const s = toqstr(docstring(1, c));
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QString const us = s.toUpper();
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if (s != us)
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return smallcaps_metrics_.width(us);
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else
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return metrics_.width(s);
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}
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}
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int GuiFontMetrics::width(docstring const & s) const
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{
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size_t ls = s.size();
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int w = 0;
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for (unsigned int i = 0; i < ls; ++i) {
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//FIXME: we need to detect surrogate pairs and act accordingly
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/**
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if isSurrogateBase(s[i]) {
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docstring c = s[i];
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if (smallcaps_shape_)
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w += metrics_.width(toqstr(c + s[i + 1]));
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else
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w += smallcaps_metrics_.width(toqstr(c + s[i + 1]));
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++i;
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}
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else
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*/
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w += width(s[i]);
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}
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return w;
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}
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int GuiFontMetrics::width(QString const & ucs2) const
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{
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return width(qstring_to_ucs4(ucs2));
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}
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int GuiFontMetrics::signedWidth(docstring const & s) const
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{
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if (s.empty())
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return 0;
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if (s[0] == '-')
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return -width(s.substr(1, s.size() - 1));
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else
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return width(s);
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}
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void GuiFontMetrics::rectText(docstring const & str,
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int & w, int & ascent, int & descent) const
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{
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static int const d = Inset::TEXT_TO_INSET_OFFSET / 2;
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w = width(str) + Inset::TEXT_TO_INSET_OFFSET;
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ascent = metrics_.ascent() + d;
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descent = metrics_.descent() + d;
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}
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void GuiFontMetrics::buttonText(docstring const & str,
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int & w, int & ascent, int & descent) const
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{
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rectText(str, w, ascent, descent);
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w += Inset::TEXT_TO_INSET_OFFSET;
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}
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Dimension const GuiFontMetrics::defaultDimension() const
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{
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return Dimension(0, maxAscent(), maxDescent());
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}
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Dimension const GuiFontMetrics::dimension(char_type c) const
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{
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return Dimension(width(c), ascent(c), descent(c));
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}
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GuiFontMetrics::AscendDescend const GuiFontMetrics::fillMetricsCache(
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char_type c) const
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{
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QRect r;
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if (is_utf16(c))
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r = metrics_.boundingRect(ucs4_to_qchar(c));
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else
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r = metrics_.boundingRect(toqstr(docstring(1, c)));
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AscendDescend ad = { -r.top(), r.bottom() + 1};
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// We could as well compute the width but this is not really
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// needed for now as it is done directly in width() below.
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metrics_cache_.insert(c, ad);
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return ad;
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}
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int GuiFontMetrics::width(char_type c) const
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{
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if (smallcaps_shape_)
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return smallcapsWidth(c);
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int value = width_cache_.value(c, outOfLimitMetric);
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if (value != outOfLimitMetric)
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return value;
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if (is_utf16(c))
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value = metrics_.width(ucs4_to_qchar(c));
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else
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value = metrics_.width(toqstr(docstring(1, c)));
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width_cache_.insert(c, value);
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return value;
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}
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int GuiFontMetrics::ascent(char_type c) const
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{
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static AscendDescend const outOfLimitAD =
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{outOfLimitMetric, outOfLimitMetric};
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AscendDescend value = metrics_cache_.value(c, outOfLimitAD);
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if (value.ascent != outOfLimitMetric)
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return value.ascent;
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value = fillMetricsCache(c);
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return value.ascent;
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}
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int GuiFontMetrics::descent(char_type c) const
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{
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static AscendDescend const outOfLimitAD =
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{outOfLimitMetric, outOfLimitMetric};
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AscendDescend value = metrics_cache_.value(c, outOfLimitAD);
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if (value.descent != outOfLimitMetric)
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return value.descent;
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value = fillMetricsCache(c);
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return value.descent;
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}
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} // namespace frontend
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} // namespace lyx
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