#include "StarTextPainter.hpp" #include "StarJsonExtra.hpp" #include namespace Star { namespace Text { String stripEscapeCodes(String const& s) { String regex = strf("\\%s[^;]*%s", CmdEsc, EndEsc); return std::regex_replace(s.utf8(), std::regex(regex.utf8()), ""); } String preprocessEscapeCodes(String const& s) { bool escape = false; auto result = s.utf8(); size_t escapeStartIdx = 0; for (size_t i = 0; i < result.size(); i++) { auto& c = result[i]; if (c == CmdEsc || c == StartEsc) { escape = true; escapeStartIdx = i; } if ((c <= SpecialCharLimit) && !(c == StartEsc)) escape = false; if ((c == EndEsc) && escape) result[escapeStartIdx] = StartEsc; } return {result}; } String extractCodes(String const& s) { bool escape = false; StringList result; String escapeCode; for (auto c : preprocessEscapeCodes(s)) { if (c == StartEsc) escape = true; if (c == EndEsc) { escape = false; for (auto command : escapeCode.split(',')) result.append(command); escapeCode = ""; } if (escape && (c != StartEsc)) escapeCode.append(c); } if (!result.size()) return ""; return "^" + result.join(",") + ";"; } } TextPositioning::TextPositioning() { pos = Vec2F(); hAnchor = HorizontalAnchor::LeftAnchor; vAnchor = VerticalAnchor::BottomAnchor; } TextPositioning::TextPositioning(Vec2F pos, HorizontalAnchor hAnchor, VerticalAnchor vAnchor, Maybe wrapWidth, Maybe charLimit) : pos(pos), hAnchor(hAnchor), vAnchor(vAnchor), wrapWidth(wrapWidth), charLimit(charLimit) {} TextPositioning::TextPositioning(Json const& v) { pos = v.opt("position").apply(jsonToVec2F).value(); hAnchor = HorizontalAnchorNames.getLeft(v.getString("horizontalAnchor", "left")); vAnchor = VerticalAnchorNames.getLeft(v.getString("verticalAnchor", "top")); wrapWidth = v.optUInt("wrapWidth"); charLimit = v.optUInt("charLimit"); } Json TextPositioning::toJson() const { return JsonObject{ {"position", jsonFromVec2F(pos)}, {"horizontalAnchor", HorizontalAnchorNames.getRight(hAnchor)}, {"verticalAnchor", VerticalAnchorNames.getRight(vAnchor)}, {"wrapWidth", jsonFromMaybe(wrapWidth)} }; } TextPositioning TextPositioning::translated(Vec2F translation) const { return {pos + translation, hAnchor, vAnchor, wrapWidth, charLimit}; } TextPainter::TextPainter(FontPtr font, RendererPtr renderer, TextureGroupPtr textureGroup) : m_renderer(renderer), m_fontTextureGroup(move(font), textureGroup), m_fontSize(8), m_lineSpacing(1.30f), m_renderSettings({FontMode::Normal, Vec4B::filled(255)}), m_splitIgnore(" \t"), m_splitForce("\n\v"), m_nonRenderedCharacters("\n\v\r") {} RectF TextPainter::renderText(String const& s, TextPositioning const& position) { if (position.charLimit) { unsigned charLimit = *position.charLimit; return doRenderText(s, position, true, &charLimit); } else { return doRenderText(s, position, true, nullptr); } } RectF TextPainter::renderLine(String const& s, TextPositioning const& position) { if (position.charLimit) { unsigned charLimit = *position.charLimit; return doRenderLine(s, position, true, &charLimit); } else { return doRenderLine(s, position, true, nullptr); } } RectF TextPainter::renderGlyph(String::Char c, TextPositioning const& position) { return doRenderGlyph(c, position, true); } RectF TextPainter::determineTextSize(String const& s, TextPositioning const& position) { return doRenderText(s, position, false, nullptr); } RectF TextPainter::determineLineSize(String const& s, TextPositioning const& position) { return doRenderLine(s, position, false, nullptr); } RectF TextPainter::determineGlyphSize(String::Char c, TextPositioning const& position) { return doRenderGlyph(c, position, false); } int TextPainter::glyphWidth(String::Char c) { return m_fontTextureGroup.glyphWidth(c, m_fontSize); } int TextPainter::stringWidth(String const& s) { int width = 0; bool escape = false; for (String::Char c : Text::preprocessEscapeCodes(s)) { if (c == Text::StartEsc) escape = true; if (!escape) width += glyphWidth(c); if (c == Text::EndEsc) escape = false; } return width; } StringList TextPainter::wrapText(String const& s, Maybe wrapWidth) { String text = Text::preprocessEscapeCodes(s); unsigned lineStart = 0; // Where does this line start ? unsigned lineCharSize = 0; // how many characters in this line ? unsigned linePixelWidth = 0; // How wide is this line so far bool inEscapeSequence = false; unsigned splitPos = 0; // Where did we last see a place to split the string ? unsigned splitWidth = 0; // How wide was the string there ? StringList lines; // list of renderable string lines // loop through every character in the string for (auto character : text) { // this up here to deal with the (common) occurance that the first charcter // is an escape initiator if (character == Text::StartEsc) inEscapeSequence = true; if (inEscapeSequence) { lineCharSize++; // just jump straight to the next character, we don't care what it is. if (character == Text::EndEsc) inEscapeSequence = false; } else { lineCharSize++; // assume at least one character if we get here. // is this a linefeed / cr / whatever that forces a line split ? if (m_splitForce.find(String(character)) != NPos) { // knock one off the end because we don't render the CR lines.push_back(text.substr(lineStart, lineCharSize - 1)); lineStart += lineCharSize; // next line starts after the CR lineCharSize = 0; // with no characters in it. linePixelWidth = 0; // No width splitPos = 0; // and no known splits. } else { int charWidth = glyphWidth(character); // is it a place where we might want to split the line ? if (m_splitIgnore.find(String(character)) != NPos) { splitPos = lineStart + lineCharSize; // this is the character after the space. splitWidth = linePixelWidth + charWidth; // the width of the string at // the split point, i.e. after the space. } // would the line be too long if we render this next character ? if (wrapWidth && (linePixelWidth + charWidth) > *wrapWidth) { // did we find somewhere to split the line ? if (splitPos) { lines.push_back(text.substr(lineStart, (splitPos - lineStart) - 1)); unsigned stringEnd = lineStart + lineCharSize; lineCharSize = stringEnd - splitPos; // next line has the characters after the space. unsigned stringWidth = (linePixelWidth - splitWidth); linePixelWidth = stringWidth + charWidth; // and is as wide as the bit after the space. lineStart = splitPos; // next line starts after the space splitPos = 0; // split is used up. } else { // don't draw the last character that puts us over the edge lines.push_back(text.substr(lineStart, lineCharSize - 1)); lineStart += lineCharSize - 1; // skip back by one to include that // character on the next line. lineCharSize = 1; // next line has that character in linePixelWidth = charWidth; // and is as wide as that character } } else { linePixelWidth += charWidth; } } } } // if we hit the end of the string before hitting the end of the line. if (lineCharSize > 0) lines.push_back(text.substr(lineStart, lineCharSize)); return lines; } unsigned TextPainter::fontSize() const { return m_fontSize; } void TextPainter::setFontSize(unsigned size) { m_fontSize = size; } void TextPainter::setLineSpacing(float lineSpacing) { m_lineSpacing = lineSpacing; } void TextPainter::setMode(FontMode mode) { m_renderSettings.mode = mode; } void TextPainter::setSplitIgnore(String const& splitIgnore) { m_splitIgnore = splitIgnore; } void TextPainter::setFontColor(Vec4B color) { m_renderSettings.color = move(color); } void TextPainter::setProcessingDirectives(String directives) { m_processingDirectives = move(directives); } void TextPainter::cleanup(int64_t timeout) { m_fontTextureGroup.cleanup(timeout); } RectF TextPainter::doRenderText(String const& s, TextPositioning const& position, bool reallyRender, unsigned* charLimit) { Vec2F pos = position.pos; StringList lines = wrapText(s, position.wrapWidth); int height = (lines.size() - 1) * m_lineSpacing * m_fontSize + m_fontSize; auto savedRenderSettings = m_renderSettings; m_savedRenderSettings = m_renderSettings; if (position.vAnchor == VerticalAnchor::BottomAnchor) pos[1] += (height - m_fontSize); else if (position.vAnchor == VerticalAnchor::VMidAnchor) pos[1] += (height - m_fontSize) / 2; RectF bounds = RectF::withSize(pos, Vec2F()); for (auto i : lines) { bounds.combine(doRenderLine(i, { pos, position.hAnchor, position.vAnchor }, reallyRender, charLimit)); pos[1] -= m_fontSize * m_lineSpacing; if (charLimit && *charLimit == 0) break; } m_renderSettings = savedRenderSettings; return bounds; } RectF TextPainter::doRenderLine(String const& s, TextPositioning const& position, bool reallyRender, unsigned* charLimit) { String text = s; TextPositioning pos = position; if (pos.hAnchor == HorizontalAnchor::RightAnchor) { auto trimmedString = s; if (charLimit) trimmedString = s.slice(0, *charLimit); pos.pos[0] -= stringWidth(trimmedString); pos.hAnchor = HorizontalAnchor::LeftAnchor; } else if (pos.hAnchor == HorizontalAnchor::HMidAnchor) { auto trimmedString = s; if (charLimit) trimmedString = s.slice(0, *charLimit); unsigned width = stringWidth(trimmedString); pos.pos[0] -= std::floor(width / 2); pos.hAnchor = HorizontalAnchor::LeftAnchor; } bool escape = false; String escapeCode; RectF bounds = RectF::withSize(pos.pos, Vec2F()); for (String::Char c : text) { if (c == Text::StartEsc) escape = true; if (!escape) { if (charLimit) { if (*charLimit == 0) break; else --*charLimit; } RectF glyphBounds = doRenderGlyph(c, pos, reallyRender); bounds.combine(glyphBounds); pos.pos[0] += glyphBounds.width(); } else if (c == Text::EndEsc) { auto commands = escapeCode.split(','); for (auto command : commands) { try { if (command == "reset") { m_renderSettings = m_savedRenderSettings; } else if (command == "set") { m_savedRenderSettings = m_renderSettings; } else if (command == "shadow") { m_renderSettings.mode = (FontMode)((int)m_renderSettings.mode | (int)FontMode::Shadow); } else if (command == "noshadow") { m_renderSettings.mode = (FontMode)((int)m_renderSettings.mode & (-1 ^ (int)FontMode::Shadow)); } else { // expects both #... sequences and plain old color names. Color c = jsonToColor(command); c.setAlphaF(c.alphaF() * ((float)m_savedRenderSettings.color[3]) / 255); m_renderSettings.color = c.toRgba(); } } catch (JsonException&) { } catch (ColorException&) { } } escape = false; escapeCode = ""; } if (escape && (c != Text::StartEsc)) escapeCode.append(c); } return bounds; } RectF TextPainter::doRenderGlyph(String::Char c, TextPositioning const& position, bool reallyRender) { if (m_nonRenderedCharacters.find(String(c)) != NPos) return RectF(); int width = glyphWidth(c); // Offset left by width if right anchored. float hOffset = 0; if (position.hAnchor == HorizontalAnchor::RightAnchor) hOffset = -width; else if (position.hAnchor == HorizontalAnchor::HMidAnchor) hOffset = -std::floor(width / 2); float vOffset = 0; if (position.vAnchor == VerticalAnchor::VMidAnchor) vOffset = -std::floor((float)m_fontSize / 2); else if (position.vAnchor == VerticalAnchor::TopAnchor) vOffset = -(float)m_fontSize; if (reallyRender) { if ((int)m_renderSettings.mode & (int)FontMode::Shadow) { Color shadow = Color::Black; uint8_t alphaU = m_renderSettings.color[3]; if (alphaU != 255) { float alpha = byteToFloat(alphaU); shadow.setAlpha(floatToByte(alpha * (1.5f - 0.5f * alpha))); } else shadow.setAlpha(alphaU); //Kae: Draw only one shadow glyph instead of stacking two, alpha modified to appear perceptually the same as vanilla renderGlyph(c, position.pos + Vec2F(hOffset, vOffset - 2), m_fontSize, 1, shadow.toRgba(), m_processingDirectives); } renderGlyph(c, position.pos + Vec2F(hOffset, vOffset), m_fontSize, 1, m_renderSettings.color, m_processingDirectives); } return RectF::withSize(position.pos + Vec2F(hOffset, vOffset), {(float)width, (int)m_fontSize}); } void TextPainter::renderGlyph(String::Char c, Vec2F const& screenPos, unsigned fontSize, float scale, Vec4B const& color, String const& processingDirectives) { if (!fontSize) return; const FontTextureGroup::GlyphTexture& glyphTexture = m_fontTextureGroup.glyphTexture(c, fontSize, processingDirectives); Vec2F offset = glyphTexture.processingOffset * (scale * 0.5f); //Kae: Re-center the glyph if the image scale was changed by the directives (it is positioned from the bottom left) m_renderer->render(renderTexturedRect(glyphTexture.texture, Vec2F(screenPos) + offset, scale, color, 0.0f)); } }