/* * This program source code file is part of KICAD, a free EDA CAD application. * * Copyright (C) 2021 Ola Rinta-Koski * Copyright (C) 2021-2023 Kicad Developers, see AUTHORS.txt for contributors. * * Font abstract base class * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include #include #include #include #include #include // The "official" name of the Kicad stroke font (always existing) #include #include // markup_parser.h includes pegtl.hpp which includes windows.h... which leaks #define DrawText #undef DrawText using namespace KIFONT; METRICS g_defaultMetrics; const METRICS& METRICS::Default() { return g_defaultMetrics; } FONT* FONT::s_defaultFont = nullptr; std::map< std::tuple, FONT*> FONT::s_fontMap; class MARKUP_CACHE { public: struct ENTRY { std::string source; std::unique_ptr root; }; typedef std::pair CACHE_ENTRY; MARKUP_CACHE( size_t aMaxSize ) : m_maxSize( aMaxSize ) { } ENTRY& Put( const CACHE_ENTRY::first_type& aQuery, ENTRY&& aResult ) { auto it = m_cache.find( aQuery ); m_cacheMru.emplace_front( CACHE_ENTRY( aQuery, std::move( aResult ) ) ); if( it != m_cache.end() ) { m_cacheMru.erase( it->second ); m_cache.erase( it ); } m_cache[aQuery] = m_cacheMru.begin(); if( m_cache.size() > m_maxSize ) { auto last = m_cacheMru.end(); last--; m_cache.erase( last->first ); m_cacheMru.pop_back(); } return m_cacheMru.begin()->second; } ENTRY* Get( const CACHE_ENTRY::first_type& aQuery ) { auto it = m_cache.find( aQuery ); if( it == m_cache.end() ) return nullptr; m_cacheMru.splice( m_cacheMru.begin(), m_cacheMru, it->second ); return &m_cacheMru.begin()->second; } void Clear() { m_cacheMru.clear(); m_cache.clear(); } private: size_t m_maxSize; std::list m_cacheMru; std::unordered_map::iterator> m_cache; }; static MARKUP_CACHE s_markupCache( 1024 ); static std::mutex s_markupCacheMutex; FONT::FONT() { } FONT* FONT::getDefaultFont() { if( !s_defaultFont ) s_defaultFont = STROKE_FONT::LoadFont( wxEmptyString ); return s_defaultFont; } FONT* FONT::GetFont( const wxString& aFontName, bool aBold, bool aItalic ) { if( aFontName.empty() || aFontName.StartsWith( KICAD_FONT_NAME ) ) return getDefaultFont(); std::tuple key = { aFontName, aBold, aItalic }; FONT* font = s_fontMap[key]; if( !font ) font = OUTLINE_FONT::LoadFont( aFontName, aBold, aItalic ); if( !font ) font = getDefaultFont(); s_fontMap[key] = font; return font; } bool FONT::IsStroke( const wxString& aFontName ) { // This would need a more complex implementation if we ever support more stroke fonts // than the KiCad Font. return aFontName == _( "Default Font" ) || aFontName == KICAD_FONT_NAME; } void FONT::getLinePositions( const wxString& aText, const VECTOR2I& aPosition, wxArrayString& aTextLines, std::vector& aPositions, std::vector& aExtents, const TEXT_ATTRIBUTES& aAttrs, const METRICS& aFontMetrics ) const { wxStringSplit( aText, aTextLines, '\n' ); int lineCount = aTextLines.Count(); aPositions.reserve( lineCount ); int interline = GetInterline( aAttrs.m_Size.y, aFontMetrics ) * aAttrs.m_LineSpacing; int height = 0; for( int i = 0; i < lineCount; i++ ) { VECTOR2I pos( aPosition.x, aPosition.y + i * interline ); VECTOR2I end = boundingBoxSingleLine( nullptr, aTextLines[i], pos, aAttrs.m_Size, aAttrs.m_Italic, aFontMetrics ); VECTOR2I bBox( end - pos ); aExtents.push_back( bBox ); if( i == 0 ) height += ( aAttrs.m_Size.y * 1.17 ); // 1.17 is a fudge to match 6.0 positioning else height += interline; } VECTOR2I offset( 0, 0 ); offset.y += aAttrs.m_Size.y; if( IsStroke() ) { // Fudge factors to match 6.0 positioning offset.x += aAttrs.m_StrokeWidth / 1.52; offset.y -= aAttrs.m_StrokeWidth * 0.052; } switch( aAttrs.m_Valign ) { case GR_TEXT_V_ALIGN_TOP: break; case GR_TEXT_V_ALIGN_CENTER: offset.y -= height / 2; break; case GR_TEXT_V_ALIGN_BOTTOM: offset.y -= height; break; } for( int i = 0; i < lineCount; i++ ) { VECTOR2I lineSize = aExtents.at( i ); VECTOR2I lineOffset( offset ); lineOffset.y += i * interline; switch( aAttrs.m_Halign ) { case GR_TEXT_H_ALIGN_LEFT: break; case GR_TEXT_H_ALIGN_CENTER: lineOffset.x = -lineSize.x / 2; break; case GR_TEXT_H_ALIGN_RIGHT: lineOffset.x = -( lineSize.x + offset.x ); break; } aPositions.push_back( aPosition + lineOffset ); } } /** * Draw a string. * * @param aGal * @param aText is the text to be drawn. * @param aPosition is the text object position in world coordinates. * @param aCursor is the current text position (for multiple text blocks within a single text * object, such as a run of superscript characters) * @param aAttrs are the styling attributes of the text, including its rotation */ void FONT::Draw( KIGFX::GAL* aGal, const wxString& aText, const VECTOR2I& aPosition, const VECTOR2I& aCursor, const TEXT_ATTRIBUTES& aAttrs, const METRICS& aFontMetrics ) const { if( !aGal || aText.empty() ) return; VECTOR2I position( aPosition - aCursor ); // Split multiline strings into separate ones and draw them line by line wxArrayString strings_list; std::vector positions; std::vector extents; getLinePositions( aText, position, strings_list, positions, extents, aAttrs, aFontMetrics ); aGal->SetLineWidth( aAttrs.m_StrokeWidth ); for( size_t i = 0; i < strings_list.GetCount(); i++ ) { drawSingleLineText( aGal, nullptr, strings_list[i], positions[i], aAttrs.m_Size, aAttrs.m_Angle, aAttrs.m_Mirrored, aPosition, aAttrs.m_Italic, aAttrs.m_Underlined, aFontMetrics ); } } /** * @return position of cursor for drawing next substring */ VECTOR2I drawMarkup( BOX2I* aBoundingBox, std::vector>* aGlyphs, const MARKUP::NODE* aNode, const VECTOR2I& aPosition, const KIFONT::FONT* aFont, const VECTOR2I& aSize, const EDA_ANGLE& aAngle, bool aMirror, const VECTOR2I& aOrigin, TEXT_STYLE_FLAGS aTextStyle, const METRICS& aFontMetrics ) { VECTOR2I nextPosition = aPosition; bool drawUnderline = false; bool drawOverbar = false; if( aNode ) { TEXT_STYLE_FLAGS textStyle = aTextStyle; if( !aNode->is_root() ) { if( aNode->isSubscript() ) textStyle |= TEXT_STYLE::SUBSCRIPT; else if( aNode->isSuperscript() ) textStyle |= TEXT_STYLE::SUPERSCRIPT; if( aNode->isOverbar() ) drawOverbar = true; if( aNode->has_content() ) { BOX2I bbox; nextPosition = aFont->GetTextAsGlyphs( &bbox, aGlyphs, aNode->asWxString(), aSize, nextPosition, aAngle, aMirror, aOrigin, textStyle ); if( aBoundingBox ) aBoundingBox->Merge( bbox ); } } else if( aTextStyle & TEXT_STYLE::UNDERLINE ) { drawUnderline = true; } for( const std::unique_ptr& child : aNode->children ) { nextPosition = drawMarkup( aBoundingBox, aGlyphs, child.get(), nextPosition, aFont, aSize, aAngle, aMirror, aOrigin, textStyle, aFontMetrics ); } } if( drawUnderline ) { // Shorten the bar a little so its rounded ends don't make it over-long double barTrim = aSize.x * 0.1; double barOffset = aFontMetrics.GetUnderlineVerticalPosition( aSize.y ); VECTOR2D barStart( aPosition.x + barTrim, aPosition.y - barOffset ); VECTOR2D barEnd( nextPosition.x - barTrim, nextPosition.y - barOffset ); if( aGlyphs ) { STROKE_GLYPH barGlyph; barGlyph.AddPoint( barStart ); barGlyph.AddPoint( barEnd ); barGlyph.Finalize(); aGlyphs->push_back( barGlyph.Transform( { 1.0, 1.0 }, { 0, 0 }, false, aAngle, aMirror, aOrigin ) ); } } if( drawOverbar ) { // Shorten the bar a little so its rounded ends don't make it over-long double barTrim = aSize.x * 0.1; double barOffset = aFontMetrics.GetOverbarVerticalPosition( aSize.y ); VECTOR2D barStart( aPosition.x + barTrim, aPosition.y - barOffset ); VECTOR2D barEnd( nextPosition.x - barTrim, nextPosition.y - barOffset ); if( aGlyphs ) { STROKE_GLYPH barGlyph; barGlyph.AddPoint( barStart ); barGlyph.AddPoint( barEnd ); barGlyph.Finalize(); aGlyphs->push_back( barGlyph.Transform( { 1.0, 1.0 }, { 0, 0 }, false, aAngle, aMirror, aOrigin ) ); } } return nextPosition; } VECTOR2I FONT::drawMarkup( BOX2I* aBoundingBox, std::vector>* aGlyphs, const wxString& aText, const VECTOR2I& aPosition, const VECTOR2I& aSize, const EDA_ANGLE& aAngle, bool aMirror, const VECTOR2I& aOrigin, TEXT_STYLE_FLAGS aTextStyle, const METRICS& aFontMetrics ) const { std::lock_guard lock( s_markupCacheMutex ); MARKUP_CACHE::ENTRY* markup = s_markupCache.Get( aText ); if( !markup || !markup->root ) { MARKUP_CACHE::ENTRY& cached = s_markupCache.Put( aText, {} ); cached.source = TO_UTF8( aText ); MARKUP::MARKUP_PARSER markupParser( &cached.source ); cached.root = markupParser.Parse(); markup = &cached; } wxASSERT( markup && markup->root ); return ::drawMarkup( aBoundingBox, aGlyphs, markup->root.get(), aPosition, this, aSize, aAngle, aMirror, aOrigin, aTextStyle, aFontMetrics ); } void FONT::drawSingleLineText( KIGFX::GAL* aGal, BOX2I* aBoundingBox, const wxString& aText, const VECTOR2I& aPosition, const VECTOR2I& aSize, const EDA_ANGLE& aAngle, bool aMirror, const VECTOR2I& aOrigin, bool aItalic, bool aUnderline, const METRICS& aFontMetrics ) const { if( !aGal ) return; TEXT_STYLE_FLAGS textStyle = 0; if( aItalic ) textStyle |= TEXT_STYLE::ITALIC; if( aUnderline ) textStyle |= TEXT_STYLE::UNDERLINE; std::vector> glyphs; (void) drawMarkup( aBoundingBox, &glyphs, aText, aPosition, aSize, aAngle, aMirror, aOrigin, textStyle, aFontMetrics ); aGal->DrawGlyphs( glyphs ); } VECTOR2I FONT::StringBoundaryLimits( const wxString& aText, const VECTOR2I& aSize, int aThickness, bool aBold, bool aItalic, const METRICS& aFontMetrics ) const { // TODO do we need to parse every time - have we already parsed? BOX2I boundingBox; TEXT_STYLE_FLAGS textStyle = 0; if( aBold ) textStyle |= TEXT_STYLE::BOLD; if( aItalic ) textStyle |= TEXT_STYLE::ITALIC; (void) drawMarkup( &boundingBox, nullptr, aText, VECTOR2I(), aSize, ANGLE_0, false, VECTOR2I(), textStyle, aFontMetrics ); if( IsStroke() ) { // Inflate by a bit more than thickness/2 to catch diacriticals, descenders, etc. boundingBox.Inflate( KiROUND( aThickness * 1.5 ) ); } else if( IsOutline() ) { // Outline fonts have thickness built in, and *usually* stay within their ascent/descent } return boundingBox.GetSize(); } VECTOR2I FONT::boundingBoxSingleLine( BOX2I* aBBox, const wxString& aText, const VECTOR2I& aPosition, const VECTOR2I& aSize, bool aItalic, const METRICS& aFontMetrics ) const { TEXT_STYLE_FLAGS textStyle = 0; if( aItalic ) textStyle |= TEXT_STYLE::ITALIC; VECTOR2I extents = drawMarkup( aBBox, nullptr, aText, aPosition, aSize, ANGLE_0, false, VECTOR2I(), textStyle, aFontMetrics ); return extents; } /* * Break marked-up text into "words". In this context, a "word" is EITHER a run of marked-up * text (subscript, superscript or overbar), OR a run of non-marked-up text separated by spaces. */ void wordbreakMarkup( std::vector>* aWords, const std::unique_ptr& aNode, const KIFONT::FONT* aFont, const VECTOR2I& aSize, TEXT_STYLE_FLAGS aTextStyle ) { TEXT_STYLE_FLAGS textStyle = aTextStyle; if( !aNode->is_root() ) { wxChar escapeChar = 0; if( aNode->isSubscript() ) { escapeChar = '_'; textStyle = TEXT_STYLE::SUBSCRIPT; } else if( aNode->isSuperscript() ) { escapeChar = '^'; textStyle = TEXT_STYLE::SUPERSCRIPT; } if( aNode->isOverbar() ) { escapeChar = '~'; textStyle |= TEXT_STYLE::OVERBAR; } if( escapeChar ) { wxString word = wxString::Format( wxT( "%c{" ), escapeChar ); int width = 0; if( aNode->has_content() ) { VECTOR2I next = aFont->GetTextAsGlyphs( nullptr, nullptr, aNode->asWxString(), aSize, { 0, 0 }, ANGLE_0, false, { 0, 0 }, textStyle ); word += aNode->asWxString(); width += next.x; } std::vector> childWords; for( const std::unique_ptr& child : aNode->children ) wordbreakMarkup( &childWords, child, aFont, aSize, textStyle ); for( const std::pair& childWord : childWords ) { word += childWord.first; width += childWord.second; } word += wxT( "}" ); aWords->emplace_back( std::make_pair( word, width ) ); return; } else { wxString textRun = aNode->asWxString(); wxStringTokenizer tokenizer( textRun, " ", wxTOKEN_RET_DELIMS ); std::vector words; while( tokenizer.HasMoreTokens() ) words.emplace_back( tokenizer.GetNextToken() ); for( const wxString& word : words ) { wxString chars = word; chars.Trim(); int w = aFont->GetTextAsGlyphs( nullptr, nullptr, chars, aSize, { 0, 0 }, ANGLE_0, false, { 0, 0 }, textStyle ).x; aWords->emplace_back( std::make_pair( word, w ) ); } } } for( const std::unique_ptr& child : aNode->children ) wordbreakMarkup( aWords, child, aFont, aSize, textStyle ); } void FONT::wordbreakMarkup( std::vector>* aWords, const wxString& aText, const VECTOR2I& aSize, TEXT_STYLE_FLAGS aTextStyle ) const { MARKUP::MARKUP_PARSER markupParser( TO_UTF8( aText ) ); std::unique_ptr root = markupParser.Parse(); ::wordbreakMarkup( aWords, root, this, aSize, aTextStyle ); } /* * This is a highly simplified line-breaker. KiCad is an EDA tool, not a word processor. * * 1) It breaks only on spaces. If you type a word wider than the column width then you get * overflow. * 2) It treats runs of formatted text (superscript, subscript, overbar) as single words. * 3) It does not perform justification. * * The results of the linebreaking are the addition of \n in the text. It is presumed that this * function is called on m_shownText (or equivalent) rather than the original source text. */ void FONT::LinebreakText( wxString& aText, int aColumnWidth, const VECTOR2I& aSize, int aThickness, bool aBold, bool aItalic ) const { TEXT_STYLE_FLAGS textStyle = 0; if( aBold ) textStyle |= TEXT_STYLE::BOLD; if( aItalic ) textStyle |= TEXT_STYLE::ITALIC; int spaceWidth = GetTextAsGlyphs( nullptr, nullptr, wxS( " " ), aSize, VECTOR2I(), ANGLE_0, false, VECTOR2I(), textStyle ).x; wxArrayString textLines; wxStringSplit( aText, textLines, '\n' ); aText = wxEmptyString; for( size_t ii = 0; ii < textLines.Count(); ++ii ) { std::vector> markup; std::vector> words; wordbreakMarkup( &markup, textLines[ii], aSize, textStyle ); for( const auto& [ run, runWidth ] : markup ) { if( !words.empty() && !words.back().first.EndsWith( ' ' ) ) { words.back().first += run; words.back().second += runWidth; } else { words.emplace_back( std::make_pair( run, runWidth ) ); } } bool buryMode = false; int lineWidth = 0; wxString pendingSpaces; for( const auto& [ word, wordWidth ] : words ) { int pendingSpaceWidth = (int) pendingSpaces.Length() * spaceWidth; bool overflow = lineWidth + pendingSpaceWidth + wordWidth > aColumnWidth - aThickness; if( overflow && pendingSpaces.Length() > 0 ) { aText += '\n'; lineWidth = 0; pendingSpaces = wxEmptyString; pendingSpaceWidth = 0; buryMode = true; } if( word == wxS( " " ) ) { pendingSpaces += word; } else { if( buryMode ) { buryMode = false; } else { aText += pendingSpaces; lineWidth += pendingSpaceWidth; } if( word.EndsWith( ' ' ) ) { aText += word.Left( word.Length() - 1 ); pendingSpaces = wxS( " " ); } else { aText += word; pendingSpaces = wxEmptyString; } lineWidth += wordWidth; } } // Add the newlines back onto the string if( ii != ( textLines.Count() - 1 ) ) aText += '\n'; } }