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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <sal/config.h>
#include <sal/log.hxx>
#include <unotools/configmgr.hxx>
#include <o3tl/temporary.hxx>
#include <vcl/unohelp.hxx>
#include <vcl/font/Feature.hxx>
#include <vcl/font/FeatureParser.hxx>
#include <vcl/svapp.hxx>
#include <ImplLayoutArgs.hxx>
#include <TextLayoutCache.hxx>
#include <font/FontSelectPattern.hxx>
#include <salgdi.hxx>
#include <sallayout.hxx>
#include <com/sun/star/i18n/CharacterIteratorMode.hpp>
#include <unicode/uchar.h>
#include <hb-ot.h>
#include <hb-graphite2.h>
#include <hb-icu.h>
#include <map>
#include <memory>
GenericSalLayout::GenericSalLayout(LogicalFontInstance &rFont)
: m_GlyphItems(rFont)
, mpVertGlyphs(nullptr)
, mbFuzzing(utl::ConfigManager::IsFuzzing())
{
}
GenericSalLayout::~GenericSalLayout()
{
if (mpVertGlyphs)
hb_set_destroy(mpVertGlyphs);
}
void GenericSalLayout::ParseFeatures(std::u16string_view aName)
{
vcl::font::FeatureParser aParser(aName);
const OUString& sLanguage = aParser.getLanguage();
if (!sLanguage.isEmpty())
msLanguage = OUStringToOString(sLanguage, RTL_TEXTENCODING_ASCII_US);
for (auto const &rFeat : aParser.getFeatures())
{
hb_feature_t aFeature { rFeat.m_nTag, rFeat.m_nValue, rFeat.m_nStart, rFeat.m_nEnd };
maFeatures.push_back(aFeature);
}
}
namespace {
struct SubRun
{
int32_t mnMin;
int32_t mnEnd;
hb_script_t maScript;
hb_direction_t maDirection;
};
}
namespace {
int32_t GetVerticalOrientation(sal_UCS4 cCh, const LanguageTag& rTag)
{
// Override orientation of fullwidth colon , semi-colon,
// and Bopomofo tonal marks.
if ((cCh == 0xff1a || cCh == 0xff1b
|| cCh == 0x2ca || cCh == 0x2cb || cCh == 0x2c7 || cCh == 0x2d9)
&& rTag.getLanguage() == "zh")
return U_VO_TRANSFORMED_UPRIGHT;
return u_getIntPropertyValue(cCh, UCHAR_VERTICAL_ORIENTATION);
}
} // namespace
SalLayoutGlyphs GenericSalLayout::GetGlyphs() const
{
SalLayoutGlyphs glyphs;
glyphs.AppendImpl(m_GlyphItems.clone());
return glyphs;
}
void GenericSalLayout::SetNeedFallback(vcl::text::ImplLayoutArgs& rArgs, sal_Int32 nCharPos, bool bRightToLeft)
{
if (nCharPos < 0 || mbFuzzing)
return;
using namespace ::com::sun::star;
if (!mxBreak.is())
mxBreak = vcl::unohelper::CreateBreakIterator();
lang::Locale aLocale(rArgs.maLanguageTag.getLocale());
//if position nCharPos is missing in the font, grab the entire grapheme and
//mark all glyphs as missing so the whole thing is rendered with the same
//font
sal_Int32 nDone;
int nGraphemeEndPos =
mxBreak->nextCharacters(rArgs.mrStr, nCharPos, aLocale,
i18n::CharacterIteratorMode::SKIPCELL, 1, nDone);
// Safely advance nCharPos in case it is a non-BMP character.
rArgs.mrStr.iterateCodePoints(&nCharPos);
int nGraphemeStartPos =
mxBreak->previousCharacters(rArgs.mrStr, nCharPos, aLocale,
i18n::CharacterIteratorMode::SKIPCELL, 1, nDone);
// tdf#107612
// If the start of the fallback run is Mongolian character and the previous
// character is NNBSP, we want to include the NNBSP in the fallback since
// it has special uses in Mongolian and have to be in the same text run to
// work.
sal_Int32 nTempPos = nGraphemeStartPos;
if (nGraphemeStartPos > 0)
{
auto nCurrChar = rArgs.mrStr.iterateCodePoints(&nTempPos, 0);
auto nPrevChar = rArgs.mrStr.iterateCodePoints(&nTempPos, -1);
if (nPrevChar == 0x202F
&& u_getIntPropertyValue(nCurrChar, UCHAR_SCRIPT) == USCRIPT_MONGOLIAN)
nGraphemeStartPos = nTempPos;
}
//stay inside the Layout range (e.g. with tdf124116-1.odt)
nGraphemeStartPos = std::max(rArgs.mnMinCharPos, nGraphemeStartPos);
nGraphemeEndPos = std::min(rArgs.mnEndCharPos, nGraphemeEndPos);
rArgs.AddFallbackRun(nGraphemeStartPos, nGraphemeEndPos, bRightToLeft);
}
void GenericSalLayout::AdjustLayout(vcl::text::ImplLayoutArgs& rArgs)
{
SalLayout::AdjustLayout(rArgs);
if (rArgs.mpDXArray)
ApplyDXArray(rArgs.mpDXArray, rArgs.mpKashidaArray);
else if (rArgs.mnLayoutWidth)
Justify(rArgs.mnLayoutWidth);
// apply asian kerning if the glyphs are not already formatted
else if ((rArgs.mnFlags & SalLayoutFlags::KerningAsian)
&& !(rArgs.mnFlags & SalLayoutFlags::Vertical))
ApplyAsianKerning(rArgs.mrStr);
}
void GenericSalLayout::DrawText(SalGraphics& rSalGraphics) const
{
//call platform dependent DrawText functions
rSalGraphics.DrawTextLayout( *this );
}
// Find if the nominal glyph of the character is an input to “vert” feature.
// We don’t check for a specific script or language as it shouldn’t matter
// here; if the glyph would be the result from applying “vert” for any
// script/language then we want to always treat it as upright glyph.
bool GenericSalLayout::HasVerticalAlternate(sal_UCS4 aChar, sal_UCS4 aVariationSelector)
{
sal_GlyphId nGlyphIndex = GetFont().GetGlyphIndex(aChar, aVariationSelector);
if (!nGlyphIndex)
return false;
if (!mpVertGlyphs)
{
hb_face_t* pHbFace = hb_font_get_face(GetFont().GetHbFont());
mpVertGlyphs = hb_set_create();
// Find all GSUB lookups for “vert” feature.
hb_set_t* pLookups = hb_set_create();
hb_tag_t const pFeatures[] = { HB_TAG('v','e','r','t'), HB_TAG_NONE };
hb_ot_layout_collect_lookups(pHbFace, HB_OT_TAG_GSUB, nullptr, nullptr, pFeatures, pLookups);
if (!hb_set_is_empty(pLookups))
{
// Find the input glyphs in each lookup (i.e. the glyphs that
// this lookup applies to).
hb_codepoint_t nIdx = HB_SET_VALUE_INVALID;
while (hb_set_next(pLookups, &nIdx))
{
hb_set_t* pGlyphs = hb_set_create();
hb_ot_layout_lookup_collect_glyphs(pHbFace, HB_OT_TAG_GSUB, nIdx,
nullptr, // glyphs before
pGlyphs, // glyphs input
nullptr, // glyphs after
nullptr); // glyphs out
hb_set_union(mpVertGlyphs, pGlyphs);
}
}
hb_set_destroy(pLookups);
}
return hb_set_has(mpVertGlyphs, nGlyphIndex) != 0;
}
bool GenericSalLayout::LayoutText(vcl::text::ImplLayoutArgs& rArgs, const SalLayoutGlyphsImpl* pGlyphs)
{
// No need to touch m_GlyphItems at all for an empty string.
if (rArgs.mnEndCharPos - rArgs.mnMinCharPos <= 0)
return true;
if (pGlyphs)
{
// Work with pre-computed glyph items.
m_GlyphItems = *pGlyphs;
for(const GlyphItem& item : m_GlyphItems)
if(!item.glyphId())
SetNeedFallback(rArgs, item.charPos(), item.IsRTLGlyph());
// Some flags are set as a side effect of text layout, restore them here.
rArgs.mnFlags |= pGlyphs->GetFlags();
return true;
}
hb_font_t *pHbFont = GetFont().GetHbFont();
bool isGraphite = GetFont().IsGraphiteFont();
int nGlyphCapacity = 2 * (rArgs.mnEndCharPos - rArgs.mnMinCharPos);
m_GlyphItems.reserve(nGlyphCapacity);
const int nLength = rArgs.mrStr.getLength();
const sal_Unicode *pStr = rArgs.mrStr.getStr();
std::optional<vcl::text::TextLayoutCache> oNewScriptRun;
vcl::text::TextLayoutCache const* pTextLayout;
if (rArgs.m_pTextLayoutCache)
{
pTextLayout = rArgs.m_pTextLayoutCache; // use cache!
}
else
{
oNewScriptRun.emplace(pStr, rArgs.mnEndCharPos);
pTextLayout = &*oNewScriptRun;
}
// nBaseOffset is used to align vertical text to the center of rotated
// horizontal text. That is the offset from original baseline to
// the center of EM box. Maybe we can use OpenType base table to improve this
// in the future.
double nBaseOffset = 0;
if (rArgs.mnFlags & SalLayoutFlags::Vertical)
{
hb_font_extents_t extents;
if (hb_font_get_h_extents(pHbFont, &extents))
nBaseOffset = ( extents.ascender + extents.descender ) / 2.0;
}
hb_buffer_t* pHbBuffer = hb_buffer_create();
hb_buffer_pre_allocate(pHbBuffer, nGlyphCapacity);
const vcl::font::FontSelectPattern& rFontSelData = GetFont().GetFontSelectPattern();
if (rArgs.mnFlags & SalLayoutFlags::DisableKerning)
{
SAL_INFO("vcl.harfbuzz", "Disabling kerning for font: " << rFontSelData.maTargetName);
maFeatures.push_back({ HB_TAG('k','e','r','n'), 0, 0, static_cast<unsigned int>(-1) });
}
if (rArgs.mnFlags & SalLayoutFlags::DisableLigatures)
{
SAL_INFO("vcl.harfbuzz", "Disabling ligatures for font: " << rFontSelData.maTargetName);
// Both of these are optional ligatures, enabled by default but not for
// orthographically-required ligatures.
maFeatures.push_back({ HB_TAG('l','i','g','a'), 0, 0, static_cast<unsigned int>(-1) });
maFeatures.push_back({ HB_TAG('c','l','i','g'), 0, 0, static_cast<unsigned int>(-1) });
}
ParseFeatures(rFontSelData.maTargetName);
double nXScale = 0;
double nYScale = 0;
GetFont().GetScale(&nXScale, &nYScale);
basegfx::B2DPoint aCurrPos(0, 0);
while (true)
{
int nBidiMinRunPos, nBidiEndRunPos;
bool bRightToLeft;
if (!rArgs.GetNextRun(&nBidiMinRunPos, &nBidiEndRunPos, &bRightToLeft))
break;
// Find script subruns.
std::vector<SubRun> aSubRuns;
int nCurrentPos = nBidiMinRunPos;
size_t k = 0;
for (; k < pTextLayout->runs.size(); ++k)
{
vcl::text::Run const& rRun(pTextLayout->runs[k]);
if (rRun.nStart <= nCurrentPos && nCurrentPos < rRun.nEnd)
{
break;
}
}
if (isGraphite)
{
hb_script_t aScript = hb_icu_script_to_script(pTextLayout->runs[k].nCode);
aSubRuns.push_back({ nBidiMinRunPos, nBidiEndRunPos, aScript, bRightToLeft ? HB_DIRECTION_RTL : HB_DIRECTION_LTR });
}
else
{
while (nCurrentPos < nBidiEndRunPos && k < pTextLayout->runs.size())
{
int32_t nMinRunPos = nCurrentPos;
int32_t nEndRunPos = std::min(pTextLayout->runs[k].nEnd, nBidiEndRunPos);
hb_direction_t aDirection = bRightToLeft ? HB_DIRECTION_RTL : HB_DIRECTION_LTR;
hb_script_t aScript = hb_icu_script_to_script(pTextLayout->runs[k].nCode);
// For vertical text, further divide the runs based on character
// orientation.
if (rArgs.mnFlags & SalLayoutFlags::Vertical)
{
sal_Int32 nIdx = nMinRunPos;
while (nIdx < nEndRunPos)
{
sal_Int32 nPrevIdx = nIdx;
sal_UCS4 aChar = rArgs.mrStr.iterateCodePoints(&nIdx);
int32_t aVo = GetVerticalOrientation(aChar, rArgs.maLanguageTag);
sal_UCS4 aVariationSelector = 0;
if (nIdx < nEndRunPos)
{
sal_Int32 nNextIdx = nIdx;
sal_UCS4 aNextChar = rArgs.mrStr.iterateCodePoints(&nNextIdx);
if (u_hasBinaryProperty(aNextChar, UCHAR_VARIATION_SELECTOR))
{
nIdx = nNextIdx;
aVariationSelector = aNextChar;
}
}
// Characters with U and Tu vertical orientation should
// be shaped in vertical direction. But characters
// with Tr should be shaped in vertical direction
// only if they have vertical alternates, otherwise
// they should be shaped in horizontal direction
// and then rotated.
// See http://unicode.org/reports/tr50/#vo
if (aVo == U_VO_UPRIGHT || aVo == U_VO_TRANSFORMED_UPRIGHT ||
(aVo == U_VO_TRANSFORMED_ROTATED &&
HasVerticalAlternate(aChar, aVariationSelector)))
{
aDirection = HB_DIRECTION_TTB;
}
else
{
aDirection = bRightToLeft ? HB_DIRECTION_RTL : HB_DIRECTION_LTR;
}
if (aSubRuns.empty() || aSubRuns.back().maDirection != aDirection || aSubRuns.back().maScript != aScript)
aSubRuns.push_back({ nPrevIdx, nIdx, aScript, aDirection });
else
aSubRuns.back().mnEnd = nIdx;
}
}
else
{
aSubRuns.push_back({ nMinRunPos, nEndRunPos, aScript, aDirection });
}
nCurrentPos = nEndRunPos;
++k;
}
}
// RTL subruns should be reversed to ensure that final glyph order is
// correct.
if (bRightToLeft)
std::reverse(aSubRuns.begin(), aSubRuns.end());
for (const auto& aSubRun : aSubRuns)
{
hb_buffer_clear_contents(pHbBuffer);
const int nMinRunPos = aSubRun.mnMin;
const int nEndRunPos = aSubRun.mnEnd;
const int nRunLen = nEndRunPos - nMinRunPos;
int nHbFlags = HB_BUFFER_FLAGS_DEFAULT;
// Produce HB_GLYPH_FLAG_SAFE_TO_INSERT_TATWEEL that we use below.
nHbFlags |= HB_BUFFER_FLAG_PRODUCE_SAFE_TO_INSERT_TATWEEL;
if (nMinRunPos == 0)
nHbFlags |= HB_BUFFER_FLAG_BOT; /* Beginning-of-text */
if (nEndRunPos == nLength)
nHbFlags |= HB_BUFFER_FLAG_EOT; /* End-of-text */
hb_buffer_set_direction(pHbBuffer, aSubRun.maDirection);
hb_buffer_set_script(pHbBuffer, aSubRun.maScript);
if (!msLanguage.isEmpty())
{
hb_buffer_set_language(pHbBuffer, hb_language_from_string(msLanguage.getStr(), msLanguage.getLength()));
}
else
{
OString sLanguage = OUStringToOString(rArgs.maLanguageTag.getBcp47(), RTL_TEXTENCODING_ASCII_US);
hb_buffer_set_language(pHbBuffer, hb_language_from_string(sLanguage.getStr(), sLanguage.getLength()));
}
hb_buffer_set_flags(pHbBuffer, static_cast<hb_buffer_flags_t>(nHbFlags));
hb_buffer_add_utf16(
pHbBuffer, reinterpret_cast<uint16_t const *>(pStr), nLength,
nMinRunPos, nRunLen);
// The shapers that we want HarfBuzz to use, in the order of
// preference.
const char*const pHbShapers[] = { "graphite2", "ot", "fallback", nullptr };
bool ok = hb_shape_full(pHbFont, pHbBuffer, maFeatures.data(), maFeatures.size(), pHbShapers);
assert(ok);
(void) ok;
int nRunGlyphCount = hb_buffer_get_length(pHbBuffer);
hb_glyph_info_t *pHbGlyphInfos = hb_buffer_get_glyph_infos(pHbBuffer, nullptr);
hb_glyph_position_t *pHbPositions = hb_buffer_get_glyph_positions(pHbBuffer, nullptr);
for (int i = 0; i < nRunGlyphCount; ++i) {
int32_t nGlyphIndex = pHbGlyphInfos[i].codepoint;
int32_t nCharPos = pHbGlyphInfos[i].cluster;
int32_t nCharCount = 0;
bool bInCluster = false;
bool bClusterStart = false;
// Find the number of characters that make up this glyph.
if (!bRightToLeft)
{
// If the cluster is the same as previous glyph, then this
// already consumed, skip.
if (i > 0 && pHbGlyphInfos[i].cluster == pHbGlyphInfos[i - 1].cluster)
{
nCharCount = 0;
bInCluster = true;
}
else
{
// Find the next glyph with a different cluster, or the
// end of text.
int j = i;
int32_t nNextCharPos = nCharPos;
while (nNextCharPos == nCharPos && j < nRunGlyphCount)
nNextCharPos = pHbGlyphInfos[j++].cluster;
if (nNextCharPos == nCharPos)
nNextCharPos = nEndRunPos;
nCharCount = nNextCharPos - nCharPos;
if ((i == 0 || pHbGlyphInfos[i].cluster != pHbGlyphInfos[i - 1].cluster) &&
(i < nRunGlyphCount - 1 && pHbGlyphInfos[i].cluster == pHbGlyphInfos[i + 1].cluster))
bClusterStart = true;
}
}
else
{
// If the cluster is the same as previous glyph, then this
// will be consumed later, skip.
if (i < nRunGlyphCount - 1 && pHbGlyphInfos[i].cluster == pHbGlyphInfos[i + 1].cluster)
{
nCharCount = 0;
bInCluster = true;
}
else
{
// Find the previous glyph with a different cluster, or
// the end of text.
int j = i;
int32_t nNextCharPos = nCharPos;
while (nNextCharPos == nCharPos && j >= 0)
nNextCharPos = pHbGlyphInfos[j--].cluster;
if (nNextCharPos == nCharPos)
nNextCharPos = nEndRunPos;
nCharCount = nNextCharPos - nCharPos;
if ((i == nRunGlyphCount - 1 || pHbGlyphInfos[i].cluster != pHbGlyphInfos[i + 1].cluster) &&
(i > 0 && pHbGlyphInfos[i].cluster == pHbGlyphInfos[i - 1].cluster))
bClusterStart = true;
}
}
// if needed request glyph fallback by updating LayoutArgs
if (!nGlyphIndex)
{
SetNeedFallback(rArgs, nCharPos, bRightToLeft);
if (SalLayoutFlags::ForFallback & rArgs.mnFlags)
continue;
}
GlyphItemFlags nGlyphFlags = GlyphItemFlags::NONE;
if (bRightToLeft)
nGlyphFlags |= GlyphItemFlags::IS_RTL_GLYPH;
if (bClusterStart)
nGlyphFlags |= GlyphItemFlags::IS_CLUSTER_START;
if (bInCluster)
nGlyphFlags |= GlyphItemFlags::IS_IN_CLUSTER;
sal_UCS4 aChar
= rArgs.mrStr.iterateCodePoints(&o3tl::temporary(sal_Int32(nCharPos)), 0);
if (u_isUWhiteSpace(aChar))
nGlyphFlags |= GlyphItemFlags::IS_SPACING;
if (hb_glyph_info_get_glyph_flags(&pHbGlyphInfos[i]) & HB_GLYPH_FLAG_UNSAFE_TO_BREAK)
nGlyphFlags |= GlyphItemFlags::IS_UNSAFE_TO_BREAK;
if (hb_glyph_info_get_glyph_flags(&pHbGlyphInfos[i]) & HB_GLYPH_FLAG_SAFE_TO_INSERT_TATWEEL)
nGlyphFlags |= GlyphItemFlags::IS_SAFE_TO_INSERT_KASHIDA;
double nAdvance, nXOffset, nYOffset;
if (aSubRun.maDirection == HB_DIRECTION_TTB)
{
nGlyphFlags |= GlyphItemFlags::IS_VERTICAL;
nAdvance = -pHbPositions[i].y_advance;
nXOffset = -pHbPositions[i].y_offset;
nYOffset = -pHbPositions[i].x_offset - nBaseOffset;
if (GetFont().NeedOffsetCorrection(pHbPositions[i].y_offset))
{
// We need glyph's advance, top bearing, and height to
// correct y offset.
tools::Rectangle aRect;
// Get cached bound rect value for the font,
GetFont().GetGlyphBoundRect(nGlyphIndex, aRect, true);
nXOffset = -(aRect.Top() / nXScale + ( pHbPositions[i].y_advance
+ ( aRect.GetHeight() / nXScale ) ) / 2.0 );
}
}
else
{
nAdvance = pHbPositions[i].x_advance;
nXOffset = pHbPositions[i].x_offset;
nYOffset = -pHbPositions[i].y_offset;
}
nAdvance = nAdvance * nXScale;
nXOffset = nXOffset * nXScale;
nYOffset = nYOffset * nYScale;
if (!GetSubpixelPositioning())
{
nAdvance = std::lround(nAdvance);
nXOffset = std::lround(nXOffset);
nYOffset = std::lround(nYOffset);
}
basegfx::B2DPoint aNewPos(aCurrPos.getX() + nXOffset, aCurrPos.getY() + nYOffset);
const GlyphItem aGI(nCharPos, nCharCount, nGlyphIndex, aNewPos, nGlyphFlags,
nAdvance, nXOffset, nYOffset);
m_GlyphItems.push_back(aGI);
aCurrPos.adjustX(nAdvance);
}
}
}
hb_buffer_destroy(pHbBuffer);
// Some flags are set as a side effect of text layout, save them here.
if (rArgs.mnFlags & SalLayoutFlags::GlyphItemsOnly)
m_GlyphItems.SetFlags(rArgs.mnFlags);
return true;
}
void GenericSalLayout::GetCharWidths(std::vector<double>& rCharWidths, const OUString& rStr) const
{
const int nCharCount = mnEndCharPos - mnMinCharPos;
rCharWidths.clear();
rCharWidths.resize(nCharCount, 0);
css::uno::Reference<css::i18n::XBreakIterator> xBreak;
auto aLocale(maLanguageTag.getLocale());
for (auto const& aGlyphItem : m_GlyphItems)
{
if (aGlyphItem.charPos() >= mnEndCharPos)
continue;
unsigned int nGraphemeCount = 0;
if (aGlyphItem.charCount() > 1 && aGlyphItem.newWidth() != 0 && !rStr.isEmpty())
{
// We are calculating DX array for cursor positions and this is a
// ligature, find out how many grapheme clusters are in it.
if (!xBreak.is())
xBreak = mxBreak.is() ? mxBreak : vcl::unohelper::CreateBreakIterator();
// Count grapheme clusters in the ligature.
sal_Int32 nDone;
sal_Int32 nPos = aGlyphItem.charPos();
while (nPos < aGlyphItem.charPos() + aGlyphItem.charCount())
{
nPos = xBreak->nextCharacters(rStr, nPos, aLocale,
css::i18n::CharacterIteratorMode::SKIPCELL, 1, nDone);
nGraphemeCount++;
}
}
if (nGraphemeCount > 1)
{
// More than one grapheme cluster, we want to distribute the glyph
// width over them.
std::vector<double> aWidths(nGraphemeCount);
// Check if the glyph has ligature caret positions.
unsigned int nCarets = nGraphemeCount;
std::vector<hb_position_t> aCarets(nGraphemeCount);
hb_ot_layout_get_ligature_carets(GetFont().GetHbFont(),
aGlyphItem.IsRTLGlyph() ? HB_DIRECTION_RTL : HB_DIRECTION_LTR,
aGlyphItem.glyphId(), 0, &nCarets, aCarets.data());
// Carets are 1-less than the grapheme count (since the last
// position is defined by glyph width), if the count does not
// match, ignore it.
if (nCarets == nGraphemeCount - 1)
{
// Scale the carets and apply glyph offset to them since they
// are based on the default glyph metrics.
double fScale = 0;
GetFont().GetScale(&fScale, nullptr);
for (size_t i = 0; i < nCarets; i++)
aCarets[i] = (aCarets[i] * fScale) + aGlyphItem.xOffset();
// Use the glyph width for the last caret.
aCarets[nCarets] = aGlyphItem.newWidth();
// Carets are absolute from the X origin of the glyph, turn
// them to relative widths that we need below.
for (size_t i = 0; i < nGraphemeCount; i++)
aWidths[i] = aCarets[i] - (i == 0 ? 0 : aCarets[i - 1]);
// Carets are in visual order, but we want widths in logical
// order.
if (aGlyphItem.IsRTLGlyph())
std::reverse(aWidths.begin(), aWidths.end());
}
else
{
// The glyph has no carets, distribute the width evenly.
auto nWidth = aGlyphItem.newWidth() / nGraphemeCount;
std::fill(aWidths.begin(), aWidths.end(), nWidth);
// Add rounding difference to the last component to maintain
// ligature width.
aWidths[nGraphemeCount - 1] += aGlyphItem.newWidth() - (nWidth * nGraphemeCount);
}
// Set the width of each grapheme cluster.
sal_Int32 nDone;
sal_Int32 nPos = aGlyphItem.charPos();
for (auto nWidth : aWidths)
{
rCharWidths[nPos - mnMinCharPos] += nWidth;
nPos = xBreak->nextCharacters(rStr, nPos, aLocale,
css::i18n::CharacterIteratorMode::SKIPCELL, 1, nDone);
}
}
else
rCharWidths[aGlyphItem.charPos() - mnMinCharPos] += aGlyphItem.newWidth();
}
}
// - pDXArray: is the adjustments to glyph advances (usually due to
// justification).
// - pKashidaArray: is the places where kashidas are inserted (for Arabic
// justification). The number of kashidas is calculated from the pDXArray.
void GenericSalLayout::ApplyDXArray(const double* pDXArray, const sal_Bool* pKashidaArray)
{
int nCharCount = mnEndCharPos - mnMinCharPos;
std::vector<double> aOldCharWidths;
std::unique_ptr<double[]> const pNewCharWidths(new double[nCharCount]);
// Get the natural character widths (i.e. before applying DX adjustments).
GetCharWidths(aOldCharWidths, {});
// Calculate the character widths after DX adjustments.
for (int i = 0; i < nCharCount; ++i)
{
if (i == 0)
pNewCharWidths[i] = pDXArray[i];
else
pNewCharWidths[i] = pDXArray[i] - pDXArray[i - 1];
}
// Map of Kashida insertion points (in the glyph items vector) and the
// requested width.
std::map<size_t, std::pair<double, double>> pKashidas;
// The accumulated difference in X position.
double nDelta = 0;
// Apply the DX adjustments to glyph positions and widths.
size_t i = 0;
while (i < m_GlyphItems.size())
{
// Accumulate the width difference for all characters corresponding to
// this glyph.
int nCharPos = m_GlyphItems[i].charPos() - mnMinCharPos;
double nDiff = 0;
for (int j = 0; j < m_GlyphItems[i].charCount(); j++)
nDiff += pNewCharWidths[nCharPos + j] - aOldCharWidths[nCharPos + j];
if (!m_GlyphItems[i].IsRTLGlyph())
{
// Adjust the width and position of the first (leftmost) glyph in
// the cluster.
m_GlyphItems[i].addNewWidth(nDiff);
m_GlyphItems[i].adjustLinearPosX(nDelta);
// Adjust the position of the rest of the glyphs in the cluster.
while (++i < m_GlyphItems.size())
{
if (!m_GlyphItems[i].IsInCluster())
break;
m_GlyphItems[i].adjustLinearPosX(nDelta);
}
}
else if (m_GlyphItems[i].IsInCluster())
{
// RTL glyph in the middle of the cluster, will be handled in the
// loop below.
i++;
}
else // RTL
{
// Adjust the width and position of the first (rightmost) glyph in
// the cluster. This is RTL, so we put all the adjustment to the
// left of the glyph.
m_GlyphItems[i].addNewWidth(nDiff);
m_GlyphItems[i].adjustLinearPosX(nDelta + nDiff);
// Adjust the X position of the rest of the glyphs in the cluster.
// We iterate backwards since this is an RTL glyph.
for (int j = i - 1; j >= 0 && m_GlyphItems[j].IsInCluster(); j--)
m_GlyphItems[j].adjustLinearPosX(nDelta + nDiff);
// This is a Kashida insertion position, mark it. Kashida glyphs
// will be inserted below.
if (pKashidaArray && pKashidaArray[nCharPos])
pKashidas[i] = { nDiff, pNewCharWidths[nCharPos] };
i++;
}
// Increment the delta, the loop above makes sure we do so only once
// for every character (cluster) not for every glyph (otherwise we
// would apply it multiple times for each glyph belonging to the same
// character which is wrong as DX adjustments are character based).
nDelta += nDiff;
}
// Insert Kashida glyphs.
if (pKashidas.empty())
return;
// Find Kashida glyph width and index.
sal_GlyphId nKashidaIndex = GetFont().GetGlyphIndex(0x0640);
double nKashidaWidth = GetFont().GetKashidaWidth();
if (!GetSubpixelPositioning())
nKashidaWidth = std::ceil(nKashidaWidth);
if (nKashidaWidth <= 0)
{
SAL_WARN("vcl.gdi", "Asked to insert Kashidas in a font with bogus Kashida width");
return;
}
size_t nInserted = 0;
for (auto const& pKashida : pKashidas)
{
auto pGlyphIter = m_GlyphItems.begin() + nInserted + pKashida.first;
// The total Kashida width.
auto const& [nTotalWidth, nClusterWidth] = pKashida.second;
// Number of times to repeat each Kashida.
int nCopies = 1;
if (nTotalWidth > nKashidaWidth)
nCopies = nTotalWidth / nKashidaWidth;
// See if we can improve the fit by adding an extra Kashidas and
// squeezing them together a bit.
double nOverlap = 0;
double nShortfall = nTotalWidth - nKashidaWidth * nCopies;
if (nShortfall > 0)
{
++nCopies;
double nExcess = nCopies * nKashidaWidth - nTotalWidth;
if (nExcess > 0)
nOverlap = nExcess / (nCopies - 1);
}
basegfx::B2DPoint aPos = pGlyphIter->linearPos();
int nCharPos = pGlyphIter->charPos();
GlyphItemFlags const nFlags = GlyphItemFlags::IS_IN_CLUSTER | GlyphItemFlags::IS_RTL_GLYPH;
// Move to the left side of the adjusted width and start inserting
// glyphs there.
aPos.adjustX(-nClusterWidth + pGlyphIter->origWidth());
while (nCopies--)
{
GlyphItem aKashida(nCharPos, 0, nKashidaIndex, aPos, nFlags, 0, 0, 0);
pGlyphIter = m_GlyphItems.insert(pGlyphIter, aKashida);
aPos.adjustX(nKashidaWidth - nOverlap);
++pGlyphIter;
++nInserted;
}
}
}
// Kashida will be inserted between nCharPos and nNextCharPos.
bool GenericSalLayout::IsKashidaPosValid(int nCharPos, int nNextCharPos) const
{
// Search for glyph items corresponding to nCharPos and nNextCharPos.
auto const& rGlyph = std::find_if(m_GlyphItems.begin(), m_GlyphItems.end(),
[&](const GlyphItem& g) { return g.charPos() == nCharPos; });
auto const& rNextGlyph = std::find_if(m_GlyphItems.begin(), m_GlyphItems.end(),
[&](const GlyphItem& g) { return g.charPos() == nNextCharPos; });
// If either is not found then a ligature is created at this position, we
// can’t insert Kashida here.
if (rGlyph == m_GlyphItems.end() || rNextGlyph == m_GlyphItems.end())
return false;
// If the either character is not supported by this layout, return false so
// that fallback layouts would be checked for it.
if (rGlyph->glyphId() == 0 || rNextGlyph->glyphId() == 0)
return false;
// Lastly check if this position is kashida-safe.
return rNextGlyph->IsSafeToInsertKashida();
}
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