CachedFont* CText::GetOrOpenFont(FontType font, float size) { Math::IntPoint windowSize = m_engine->GetWindowSize(); int pointSize = static_cast<int>(size * (windowSize.Length() / REFERENCE_SIZE.Length())); if (m_lastCachedFont != nullptr) { if (m_lastFontType == font && m_lastFontSize == pointSize) return m_lastCachedFont; } auto it = m_fonts.find(font); if (it == m_fonts.end()) { m_error = std::string("Invalid font type ") + StrUtils::ToString<int>(static_cast<int>(font)); return nullptr; } MultisizeFont* mf = (*it).second; auto jt = mf->fonts.find(pointSize); if (jt != mf->fonts.end()) { m_lastCachedFont = (*jt).second; m_lastFontType = font; m_lastFontSize = pointSize; return m_lastCachedFont; } m_lastCachedFont = new CachedFont(); SDL_RWops* file = CResourceManager::GetSDLFileHandler(mf->fileName); if(file == nullptr) { m_error = std::string("Unable to open file"); return nullptr; } m_lastCachedFont->font = TTF_OpenFontRW(file, 1, pointSize); if (m_lastCachedFont->font == nullptr) m_error = std::string("TTF_OpenFont error ") + std::string(TTF_GetError()); mf->fonts[pointSize] = m_lastCachedFont; return m_lastCachedFont; }
CachedFont* CText::GetOrOpenFont(FontType font, float size) { Math::IntPoint windowSize = m_engine->GetWindowSize(); int pointSize = static_cast<int>(size * (windowSize.Length() / REFERENCE_SIZE.Length())); if (m_lastCachedFont != nullptr) { if (m_lastFontType == font && m_lastFontSize == pointSize) return m_lastCachedFont; } auto it = m_fonts.find(font); if (it == m_fonts.end()) { m_error = std::string("Invalid font type ") + StrUtils::ToString<int>(static_cast<int>(font)); return nullptr; } MultisizeFont* mf = (*it).second; auto jt = mf->fonts.find(pointSize); if (jt != mf->fonts.end()) { m_lastCachedFont = (*jt).second; m_lastFontType = font; m_lastFontSize = pointSize; return m_lastCachedFont; } std::string path = CApplication::GetInstance().GetDataFilePath(DIR_FONT, mf->fileName); m_lastCachedFont = new CachedFont(); m_lastCachedFont->font = TTF_OpenFont(path.c_str(), pointSize); if (m_lastCachedFont->font == nullptr) m_error = std::string("TTF_OpenFont error ") + std::string(TTF_GetError()); mf->fonts[pointSize] = m_lastCachedFont; return m_lastCachedFont; }
namespace Gfx { /** * \struct CachedFont * \brief Base TTF font with UTF-8 char cache */ struct CachedFont { TTF_Font* font; std::map<UTF8Char, CharTexture> cache; CachedFont() : font(nullptr) {} }; const Math::IntPoint REFERENCE_SIZE(800, 600); CText::CText(CEngine* engine) { m_device = nullptr; m_engine = engine; m_defaultSize = 12.0f; m_tabSize = 4; m_lastFontType = FONT_COLOBOT; m_lastFontSize = 0; m_lastCachedFont = nullptr; } CText::~CText() { m_device = nullptr; m_engine = nullptr; } bool CText::Create() { if (TTF_Init() != 0) { m_error = std::string("TTF_Init error: ") + std::string(TTF_GetError()); return false; } m_fonts[FONT_COLOBOT] = new MultisizeFont("fonts/dvu_sans.ttf"); m_fonts[FONT_COLOBOT_BOLD] = new MultisizeFont("fonts/dvu_sans_bold.ttf"); m_fonts[FONT_COLOBOT_ITALIC] = new MultisizeFont("fonts/dvu_sans_italic.ttf"); m_fonts[FONT_COURIER] = new MultisizeFont("fonts/dvu_sans_mono.ttf"); m_fonts[FONT_COURIER_BOLD] = new MultisizeFont("fonts/dvu_sans_mono_bold.ttf"); for (auto it = m_fonts.begin(); it != m_fonts.end(); ++it) { FontType type = (*it).first; CachedFont* cf = GetOrOpenFont(type, m_defaultSize); if (cf == nullptr || cf->font == nullptr) return false; } return true; } void CText::Destroy() { for (auto it = m_fonts.begin(); it != m_fonts.end(); ++it) { MultisizeFont* mf = (*it).second; for (auto jt = mf->fonts.begin(); jt != mf->fonts.end(); ++jt) { CachedFont* cf = (*jt).second; TTF_CloseFont(cf->font); cf->font = nullptr; delete cf; } mf->fonts.clear(); delete mf; } m_fonts.clear(); m_lastCachedFont = nullptr; TTF_Quit(); } void CText::SetDevice(CDevice* device) { m_device = device; } std::string CText::GetError() { return m_error; } void CText::FlushCache() { for (auto it = m_fonts.begin(); it != m_fonts.end(); ++it) { MultisizeFont *mf = (*it).second; for (auto jt = mf->fonts.begin(); jt != mf->fonts.end(); ++jt) { CachedFont *f = (*jt).second; for (auto ct = f->cache.begin(); ct != f->cache.end(); ++ct) { Texture tex; tex.id = (*ct).second.id; m_device->DestroyTexture(tex); } f->cache.clear(); } } m_lastFontType = FONT_COLOBOT; m_lastFontSize = 0; m_lastCachedFont = nullptr; } int CText::GetTabSize() { return m_tabSize; } void CText::SetTabSize(int tabSize) { m_tabSize = tabSize; } void CText::DrawText(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size, Math::Point pos, float width, TextAlign align, int eol, Color color) { float sw = 0.0f; if (align == TEXT_ALIGN_CENTER) { sw = GetStringWidth(text, format, end, size); if (sw > width) sw = width; pos.x -= sw / 2.0f; } else if (align == TEXT_ALIGN_RIGHT) { sw = GetStringWidth(text, format, end, size); if (sw > width) sw = width; pos.x -= sw; } DrawString(text, format, end, size, pos, width, eol, color); } void CText::DrawText(const std::string &text, FontType font, float size, Math::Point pos, float width, TextAlign align, int eol, Color color) { float sw = 0.0f; if (align == TEXT_ALIGN_CENTER) { sw = GetStringWidth(text, font, size); if (sw > width) sw = width; pos.x -= sw / 2.0f; } else if (align == TEXT_ALIGN_RIGHT) { sw = GetStringWidth(text, font, size); if (sw > width) sw = width; pos.x -= sw; } DrawString(text, font, size, pos, width, eol, color); } void CText::SizeText(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator endFormat, float size, Math::Point pos, TextAlign align, Math::Point &start, Math::Point &end) { start = end = pos; float sw = GetStringWidth(text, format, endFormat, size); end.x += sw; if (align == TEXT_ALIGN_CENTER) { start.x -= sw/2.0f; end.x -= sw/2.0f; } else if (align == TEXT_ALIGN_RIGHT) { start.x -= sw; end.x -= sw; } start.y -= GetDescent(FONT_COLOBOT, size); end.y += GetAscent(FONT_COLOBOT, size); } void CText::SizeText(const std::string &text, FontType font, float size, Math::Point pos, TextAlign align, Math::Point &start, Math::Point &end) { start = end = pos; float sw = GetStringWidth(text, font, size); end.x += sw; if (align == TEXT_ALIGN_CENTER) { start.x -= sw/2.0f; end.x -= sw/2.0f; } else if (align == TEXT_ALIGN_RIGHT) { start.x -= sw; end.x -= sw; } start.y -= GetDescent(font, size); end.y += GetAscent(font, size); } float CText::GetAscent(FontType font, float size) { assert(font != FONT_BUTTON); CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::IntPoint wndSize; wndSize.y = TTF_FontAscent(cf->font); Math::Point ifSize = m_engine->WindowToInterfaceSize(wndSize); return ifSize.y; } float CText::GetDescent(FontType font, float size) { assert(font != FONT_BUTTON); CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::IntPoint wndSize; wndSize.y = TTF_FontDescent(cf->font); Math::Point ifSize = m_engine->WindowToInterfaceSize(wndSize); return ifSize.y; } float CText::GetHeight(FontType font, float size) { assert(font != FONT_BUTTON); CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::IntPoint wndSize; wndSize.y = TTF_FontHeight(cf->font); Math::Point ifSize = m_engine->WindowToInterfaceSize(wndSize); return ifSize.y; } float CText::GetStringWidth(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size) { float width = 0.0f; unsigned int index = 0; unsigned int fmtIndex = 0; while (index < text.length()) { FontType font = FONT_COLOBOT; if (format + fmtIndex != end) font = static_cast<FontType>(*(format + fmtIndex) & FONT_MASK_FONT); UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; width += GetCharWidth(ch, font, size, width); index += len; fmtIndex++; } return width; } float CText::GetStringWidth(std::string text, FontType font, float size) { assert(font != FONT_BUTTON); // Skip special chars for (char& c : text) { if (c < 32 && c >= 0) c = ':'; } CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::IntPoint wndSize; TTF_SizeUTF8(cf->font, text.c_str(), &wndSize.x, &wndSize.y); Math::Point ifSize = m_engine->WindowToInterfaceSize(wndSize); return ifSize.x; } float CText::GetCharWidth(UTF8Char ch, FontType font, float size, float offset) { if (font == FONT_BUTTON) { Math::IntPoint windowSize = m_engine->GetWindowSize(); float height = GetHeight(FONT_COLOBOT, size); float width = height*(static_cast<float>(windowSize.y)/windowSize.x); return width; } int width = 1; if (ch.c1 < 32 && ch.c1 >= 0) { if (ch.c1 == '\t') width = m_tabSize; // TODO: tab sizing at intervals? ch.c1 = ':'; } CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::Point charSize; auto it = cf->cache.find(ch); if (it != cf->cache.end()) { charSize = (*it).second.charSize; } else { Math::IntPoint wndSize; std::string text; text.append({ch.c1, ch.c2, ch.c3}); TTF_SizeUTF8(cf->font, text.c_str(), &wndSize.x, &wndSize.y); charSize = m_engine->WindowToInterfaceSize(wndSize); } return charSize.x * width; } int CText::Justify(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size, float width) { float pos = 0.0f; int cut = 0; unsigned int index = 0; unsigned int fmtIndex = 0; while (index < text.length()) { FontType font = FONT_COLOBOT; if (format + fmtIndex != end) font = static_cast<FontType>(*(format + fmtIndex) & FONT_MASK_FONT); UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; if (font != FONT_BUTTON) { if (ch.c1 == '\n') return index+1; if (ch.c1 == ' ') cut = index+1; } pos += GetCharWidth(ch, font, size, pos); if (pos > width) { if (cut == 0) return index; else return cut; } index += len; fmtIndex++; } return index; } int CText::Justify(const std::string &text, FontType font, float size, float width) { assert(font != FONT_BUTTON); float pos = 0.0f; int cut = 0; unsigned int index = 0; while (index < text.length()) { UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; if (ch.c1 == '\n') { return index+1; } if (ch.c1 == ' ' ) cut = index+1; pos += GetCharWidth(ch, font, size, pos); if (pos > width) { if (cut == 0) return index; else return cut; } index += len; } return index; } int CText::Detect(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size, float offset) { float pos = 0.0f; unsigned int index = 0; unsigned int fmtIndex = 0; while (index < text.length()) { FontType font = FONT_COLOBOT; if (format + fmtIndex != end) font = static_cast<FontType>(*(format + fmtIndex) & FONT_MASK_FONT); // TODO: if (font == FONT_BUTTON) //if (font == FONT_BUTTON) continue; UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; if (ch.c1 == '\n') return index; float width = GetCharWidth(ch, font, size, pos); if (offset <= pos + width/2.0f) return index; pos += width; index += len; fmtIndex++; } return index; } int CText::Detect(const std::string &text, FontType font, float size, float offset) { assert(font != FONT_BUTTON); float pos = 0.0f; unsigned int index = 0; while (index < text.length()) { UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; index += len; if (ch.c1 == '\n') return index; float width = GetCharWidth(ch, font, size, pos); if (offset <= pos + width/2.0f) return index; pos += width; } return index; } UTF8Char CText::TranslateSpecialChar(int specialChar) { UTF8Char ch; switch (specialChar) { case CHAR_TAB: ch.c1 = ':'; ch.c2 = 0; ch.c3 = 0; break; case CHAR_NEWLINE: // Unicode: U+21B2 ch.c1 = 0xE2; ch.c2 = 0x86; ch.c3 = 0xB2; break; case CHAR_DOT: // Unicode: U+23C5 ch.c1 = 0xE2; ch.c2 = 0x8F; ch.c3 = 0x85; break; case CHAR_SQUARE: // Unicode: U+25FD ch.c1 = 0xE2; ch.c2 = 0x97; ch.c3 = 0xBD; break; case CHAR_SKIP_RIGHT: // Unicode: U+25B6 ch.c1 = 0xE2; ch.c2 = 0x96; ch.c3 = 0xB6; break; case CHAR_SKIP_LEFT: // Unicode: U+25C0 ch.c1 = 0xE2; ch.c2 = 0x97; ch.c3 = 0x80; break; default: ch.c1 = '?'; ch.c2 = 0; ch.c3 = 0; break; } return ch; } void CText::DrawString(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size, Math::Point pos, float width, int eol, Color color) { m_engine->SetState(ENG_RSTATE_TEXT); float start = pos.x; unsigned int fmtIndex = 0; std::vector<UTF8Char> chars; StringToUTFCharList(text, chars, format, end); for (auto it = chars.begin(); it != chars.end(); ++it) { FontType font = FONT_COLOBOT; if (format + fmtIndex != end) font = static_cast<FontType>(*(format + fmtIndex) & FONT_MASK_FONT); UTF8Char ch = *it; float offset = pos.x - start; float cw = GetCharWidth(ch, font, size, offset); if (offset + cw > width) // exceeds the maximum width? { ch = TranslateSpecialChar(CHAR_SKIP_RIGHT); cw = GetCharWidth(ch, font, size, offset); pos.x = start + width - cw; color = Color(1.0f, 0.0f, 0.0f); DrawCharAndAdjustPos(ch, font, size, pos, color); break; } FontHighlight hl = static_cast<FontHighlight>(format[fmtIndex] & FONT_MASK_HIGHLIGHT); if (hl != FONT_HIGHLIGHT_NONE) { Math::Point charSize; charSize.x = GetCharWidth(ch, font, size, offset); charSize.y = GetHeight(font, size); DrawHighlight(hl, pos, charSize); } DrawCharAndAdjustPos(ch, font, size, pos, color); // increment fmtIndex for each byte in multibyte character if ( ch.c1 != 0 ) fmtIndex++; if ( ch.c2 != 0 ) fmtIndex++; if ( ch.c3 != 0 ) fmtIndex++; } if (eol != 0) { FontType font = FONT_COLOBOT; UTF8Char ch = TranslateSpecialChar(eol); color = Color(1.0f, 0.0f, 0.0f); DrawCharAndAdjustPos(ch, font, size, pos, color); } } void CText::StringToUTFCharList(const std::string &text, std::vector<UTF8Char> &chars) { unsigned int index = 0; unsigned int totalLength = text.length(); while (index < totalLength) { UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; index += len; chars.push_back(ch); } } void CText::StringToUTFCharList(const std::string &text, std::vector<UTF8Char> &chars, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end) { unsigned int index = 0; unsigned int totalLength = text.length(); while (index < totalLength) { UTF8Char ch; FontType font = FONT_COLOBOT; if(format + index != end) font = static_cast<FontType>(*(format + index) & FONT_MASK_FONT); int len; if(font == FONT_BUTTON) { len = 1; } else { len = StrUtils::Utf8CharSizeAt(text, index); } if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; index += len; chars.push_back(ch); } } void CText::DrawString(const std::string &text, FontType font, float size, Math::Point pos, float width, int eol, Color color) { assert(font != FONT_BUTTON); m_engine->SetState(ENG_RSTATE_TEXT); std::vector<UTF8Char> chars; StringToUTFCharList(text, chars); for (auto it = chars.begin(); it != chars.end(); ++it) { DrawCharAndAdjustPos(*it, font, size, pos, color); } } void CText::DrawHighlight(FontHighlight hl, Math::Point pos, Math::Point size) { // Gradient colors Color grad[4]; // TODO: switch to alpha factors switch (hl) { case FONT_HIGHLIGHT_LINK: grad[0] = grad[1] = grad[2] = grad[3] = Color(0.0f, 0.0f, 1.0f, 0.5f); break; case FONT_HIGHLIGHT_TOKEN: grad[0] = grad[1] = Color(248.0f / 256.0f, 248.0f / 256.0f, 248.0f / 256.0f, 0.5f); grad[2] = grad[3] = Color(248.0f / 256.0f, 220.0f / 256.0f, 188.0f / 256.0f, 0.5f); break; case FONT_HIGHLIGHT_TYPE: grad[0] = grad[1] = Color(248.0f / 256.0f, 248.0f / 256.0f, 248.0f / 256.0f, 0.5f); grad[2] = grad[3] = Color(169.0f / 256.0f, 234.0f / 256.0f, 169.0f / 256.0f, 0.5f); break; case FONT_HIGHLIGHT_CONST: grad[0] = grad[1] = Color(248.0f / 256.0f, 248.0f / 256.0f, 248.0f / 256.0f, 0.5f); grad[2] = grad[3] = Color(248.0f / 256.0f, 176.0f / 256.0f, 169.0f / 256.0f, 0.5f); break; case FONT_HIGHLIGHT_REM: grad[0] = grad[1] = Color(248.0f / 256.0f, 248.0f / 256.0f, 248.0f / 256.0f, 0.5f); grad[2] = grad[3] = Color(248.0f / 256.0f, 169.0f / 256.0f, 248.0f / 256.0f, 0.5f); break; case FONT_HIGHLIGHT_KEY: grad[0] = grad[1] = grad[2] = grad[3] = Color(192.0f / 256.0f, 192.0f / 256.0f, 192.0f / 256.0f, 0.5f); break; default: return; } Math::IntPoint vsize = m_engine->GetWindowSize(); float h = 0.0f; if (vsize.y <= 768.0f) // 1024x768 or less? h = 1.01f / vsize.y; // 1 pixel else // more than 1024x768? h = 2.0f / vsize.y; // 2 pixels Math::Point p1, p2; p1.x = pos.x; p2.x = pos.x + size.x; if (hl == FONT_HIGHLIGHT_LINK) { p1.y = pos.y; p2.y = pos.y + h; // just emphasized } else { p1.y = pos.y; p2.y = pos.y + size.y; } m_device->SetTextureEnabled(0, false); VertexCol quad[] = { VertexCol(Math::Vector(p1.x, p1.y, 0.0f), grad[3]), VertexCol(Math::Vector(p1.x, p2.y, 0.0f), grad[0]), VertexCol(Math::Vector(p2.x, p1.y, 0.0f), grad[2]), VertexCol(Math::Vector(p2.x, p2.y, 0.0f), grad[1]) }; m_device->DrawPrimitive(PRIMITIVE_TRIANGLE_STRIP, quad, 4); m_engine->AddStatisticTriangle(2); m_device->SetTextureEnabled(0, true); } void CText::DrawCharAndAdjustPos(UTF8Char ch, FontType font, float size, Math::Point &pos, Color color) { if(font == FONT_BUTTON) { Math::IntPoint windowSize = m_engine->GetWindowSize(); float height = GetHeight(FONT_COLOBOT, size); float width = height*(static_cast<float>(windowSize.y)/windowSize.x); Math::Point p1(pos.x, pos.y); Math::Point p2(pos.x + width, pos.y + height); Math::Vector n(0.0f, 0.0f, -1.0f); // normal // For whatever reason ch.c1 is a SIGNED char, we need to fix that unsigned char icon = static_cast<unsigned char>(ch.c1); if ( icon >= 192 ) { icon -= 192; m_engine->SetTexture("textures/interface/text.png"); m_engine->SetState(ENG_RSTATE_TTEXTURE_WHITE); } else if ( icon >= 128 ) { icon -= 128; m_engine->SetTexture("textures/interface/button3.png"); m_engine->SetState(ENG_RSTATE_TTEXTURE_WHITE); } else if ( icon >= 64 ) { icon -= 64; m_engine->SetTexture("textures/interface/button2.png"); m_engine->SetState(ENG_RSTATE_TTEXTURE_WHITE); } else { m_engine->SetTexture("textures/interface/button1.png"); m_engine->SetState(ENG_RSTATE_TTEXTURE_WHITE); } Math::Point uv1, uv2; uv1.x = (32.0f / 256.0f) * (icon%8); uv1.y = (32.0f / 256.0f) * (icon/8); uv2.x = (32.0f / 256.0f) + uv1.x; uv2.y = (32.0f / 256.0f) + uv1.y; float dp = 0.5f / 256.0f; uv1.x += dp; uv1.y += dp; uv2.x -= dp; uv2.y -= dp; Vertex quad[4] = { Vertex(Math::Vector(p1.x, p1.y, 0.0f), n, Math::Point(uv1.x, uv2.y)), Vertex(Math::Vector(p1.x, p2.y, 0.0f), n, Math::Point(uv1.x, uv1.y)), Vertex(Math::Vector(p2.x, p1.y, 0.0f), n, Math::Point(uv2.x, uv2.y)), Vertex(Math::Vector(p2.x, p2.y, 0.0f), n, Math::Point(uv2.x, uv1.y)) }; m_device->DrawPrimitive(PRIMITIVE_TRIANGLE_STRIP, quad, 4, color); m_engine->AddStatisticTriangle(2); pos.x += width; // Don't forget to restore the state! m_engine->SetState(ENG_RSTATE_TEXT); } else { CachedFont* cf = GetOrOpenFont(font, size); if (cf == nullptr) return; int width = 1; if (ch.c1 > 0 && ch.c1 < 32) { if (ch.c1 == '\t') width = m_tabSize; ch = TranslateSpecialChar(ch.c1); } auto it = cf->cache.find(ch); CharTexture tex; if (it != cf->cache.end()) { tex = (*it).second; } else { tex = CreateCharTexture(ch, cf); if (tex.id == 0) // invalid return; cf->cache[ch] = tex; } Math::Point p1(pos.x, pos.y + tex.charSize.y - tex.texSize.y); Math::Point p2(pos.x + tex.texSize.x, pos.y + tex.charSize.y); Math::Vector n(0.0f, 0.0f, -1.0f); // normal Vertex quad[4] = { Vertex(Math::Vector(p1.x, p1.y, 0.0f), n, Math::Point(0.0f, 1.0f)), Vertex(Math::Vector(p1.x, p2.y, 0.0f), n, Math::Point(0.0f, 0.0f)), Vertex(Math::Vector(p2.x, p1.y, 0.0f), n, Math::Point(1.0f, 1.0f)), Vertex(Math::Vector(p2.x, p2.y, 0.0f), n, Math::Point(1.0f, 0.0f)) }; m_device->SetTexture(0, tex.id); m_device->DrawPrimitive(PRIMITIVE_TRIANGLE_STRIP, quad, 4, color); m_engine->AddStatisticTriangle(2); pos.x += tex.charSize.x * width; } } CachedFont* CText::GetOrOpenFont(FontType font, float size) { Math::IntPoint windowSize = m_engine->GetWindowSize(); int pointSize = static_cast<int>(size * (windowSize.Length() / REFERENCE_SIZE.Length())); if (m_lastCachedFont != nullptr) { if (m_lastFontType == font && m_lastFontSize == pointSize) return m_lastCachedFont; } auto it = m_fonts.find(font); if (it == m_fonts.end()) { m_error = std::string("Invalid font type ") + StrUtils::ToString<int>(static_cast<int>(font)); return nullptr; } MultisizeFont* mf = (*it).second; auto jt = mf->fonts.find(pointSize); if (jt != mf->fonts.end()) { m_lastCachedFont = (*jt).second; m_lastFontType = font; m_lastFontSize = pointSize; return m_lastCachedFont; } m_lastCachedFont = new CachedFont(); SDL_RWops* file = CResourceManager::GetSDLFileHandler(mf->fileName); if(file == nullptr) { m_error = std::string("Unable to open file"); return nullptr; } m_lastCachedFont->font = TTF_OpenFontRW(file, 1, pointSize); if (m_lastCachedFont->font == nullptr) m_error = std::string("TTF_OpenFont error ") + std::string(TTF_GetError()); mf->fonts[pointSize] = m_lastCachedFont; return m_lastCachedFont; } CharTexture CText::CreateCharTexture(UTF8Char ch, CachedFont* font) { CharTexture texture; SDL_Surface* textSurface = nullptr; SDL_Color white = {255, 255, 255, 0}; char str[] = { ch.c1, ch.c2, ch.c3, '\0' }; textSurface = TTF_RenderUTF8_Blended(font->font, str, white); if (textSurface == nullptr) { m_error = "TTF_Render error"; return texture; } int w = Math::NextPowerOfTwo(textSurface->w); int h = Math::NextPowerOfTwo(textSurface->h); textSurface->flags = textSurface->flags & (~SDL_SRCALPHA); SDL_Surface* textureSurface = SDL_CreateRGBSurface(0, w, h, 32, 0x00ff0000, 0x0000ff00, 0x000000ff, 0xff000000); SDL_BlitSurface(textSurface, NULL, textureSurface, NULL); ImageData data; data.surface = textureSurface; TextureCreateParams createParams; createParams.format = TEX_IMG_RGBA; createParams.filter = TEX_FILTER_NEAREST; createParams.mipmap = false; Texture tex = m_device->CreateTexture(&data, createParams); data.surface = nullptr; if (! tex.Valid()) { m_error = "Texture create error"; } else { texture.id = tex.id; texture.texSize = m_engine->WindowToInterfaceSize(Math::IntPoint(textureSurface->w, textureSurface->h)); texture.charSize = m_engine->WindowToInterfaceSize(Math::IntPoint(textSurface->w, textSurface->h)); } SDL_FreeSurface(textSurface); SDL_FreeSurface(textureSurface); return texture; } } // namespace Gfx
namespace Gfx { /** * \struct CachedFont * \brief Base TTF font with UTF-8 char cache */ struct CachedFont { TTF_Font* font; std::map<UTF8Char, CharTexture> cache; CachedFont() : font(nullptr) {} }; const Math::IntPoint REFERENCE_SIZE(800, 600); CText::CText(CEngine* engine) { m_device = nullptr; m_engine = engine; m_defaultSize = 12.0f; m_lastFontType = FONT_COLOBOT; m_lastFontSize = 0; m_lastCachedFont = nullptr; } CText::~CText() { m_device = nullptr; m_engine = nullptr; } bool CText::Create() { if (TTF_Init() != 0) { m_error = std::string("TTF_Init error: ") + std::string(TTF_GetError()); return false; } m_fonts[FONT_COLOBOT] = new MultisizeFont("dvu_sans.ttf"); m_fonts[FONT_COLOBOT_BOLD] = new MultisizeFont("dvu_sans_bold.ttf"); m_fonts[FONT_COLOBOT_ITALIC] = new MultisizeFont("dvu_sans_italic.ttf"); m_fonts[FONT_COURIER] = new MultisizeFont("dvu_sans_mono.ttf"); m_fonts[FONT_COURIER_BOLD] = new MultisizeFont("dvu_sans_mono_bold.ttf"); for (auto it = m_fonts.begin(); it != m_fonts.end(); ++it) { FontType type = (*it).first; CachedFont* cf = GetOrOpenFont(type, m_defaultSize); if (cf == nullptr || cf->font == nullptr) return false; } return true; } void CText::Destroy() { for (auto it = m_fonts.begin(); it != m_fonts.end(); ++it) { MultisizeFont* mf = (*it).second; for (auto jt = mf->fonts.begin(); jt != mf->fonts.end(); ++jt) { CachedFont* cf = (*jt).second; TTF_CloseFont(cf->font); cf->font = nullptr; delete cf; } mf->fonts.clear(); delete mf; } m_fonts.clear(); m_lastCachedFont = nullptr; TTF_Quit(); } void CText::SetDevice(CDevice* device) { m_device = device; } std::string CText::GetError() { return m_error; } void CText::FlushCache() { for (auto it = m_fonts.begin(); it != m_fonts.end(); ++it) { MultisizeFont *mf = (*it).second; for (auto jt = mf->fonts.begin(); jt != mf->fonts.end(); ++jt) { CachedFont *f = (*jt).second; f->cache.clear(); } } m_lastFontType = FONT_COLOBOT; m_lastFontSize = 0; m_lastCachedFont = nullptr; } void CText::DrawText(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size, Math::Point pos, float width, TextAlign align, int eol, Color color) { float sw = 0.0f; if (align == TEXT_ALIGN_CENTER) { sw = GetStringWidth(text, format, end, size); if (sw > width) sw = width; pos.x -= sw / 2.0f; } else if (align == TEXT_ALIGN_RIGHT) { sw = GetStringWidth(text, format, end, size); if (sw > width) sw = width; pos.x -= sw; } DrawString(text, format, end, size, pos, width, eol, color); } void CText::DrawText(const std::string &text, FontType font, float size, Math::Point pos, float width, TextAlign align, int eol, Color color) { float sw = 0.0f; if (align == TEXT_ALIGN_CENTER) { sw = GetStringWidth(text, font, size); if (sw > width) sw = width; pos.x -= sw / 2.0f; } else if (align == TEXT_ALIGN_RIGHT) { sw = GetStringWidth(text, font, size); if (sw > width) sw = width; pos.x -= sw; } DrawString(text, font, size, pos, width, eol, color); } void CText::SizeText(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator endFormat, float size, Math::Point pos, TextAlign align, Math::Point &start, Math::Point &end) { start = end = pos; float sw = GetStringWidth(text, format, endFormat, size); end.x += sw; if (align == TEXT_ALIGN_CENTER) { start.x -= sw/2.0f; end.x -= sw/2.0f; } else if (align == TEXT_ALIGN_RIGHT) { start.x -= sw; end.x -= sw; } start.y -= GetDescent(FONT_COLOBOT, size); end.y += GetAscent(FONT_COLOBOT, size); } void CText::SizeText(const std::string &text, FontType font, float size, Math::Point pos, TextAlign align, Math::Point &start, Math::Point &end) { start = end = pos; float sw = GetStringWidth(text, font, size); end.x += sw; if (align == TEXT_ALIGN_CENTER) { start.x -= sw/2.0f; end.x -= sw/2.0f; } else if (align == TEXT_ALIGN_RIGHT) { start.x -= sw; end.x -= sw; } start.y -= GetDescent(font, size); end.y += GetAscent(font, size); } float CText::GetAscent(FontType font, float size) { assert(font != FONT_BUTTON); CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::IntPoint wndSize; wndSize.y = TTF_FontAscent(cf->font); Math::Point ifSize = m_engine->WindowToInterfaceSize(wndSize); return ifSize.y; } float CText::GetDescent(FontType font, float size) { assert(font != FONT_BUTTON); CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::IntPoint wndSize; wndSize.y = TTF_FontDescent(cf->font); Math::Point ifSize = m_engine->WindowToInterfaceSize(wndSize); return ifSize.y; } float CText::GetHeight(FontType font, float size) { assert(font != FONT_BUTTON); CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::IntPoint wndSize; wndSize.y = TTF_FontHeight(cf->font); Math::Point ifSize = m_engine->WindowToInterfaceSize(wndSize); return ifSize.y; } float CText::GetStringWidth(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size) { float width = 0.0f; unsigned int index = 0; unsigned int fmtIndex = 0; while (index < text.length()) { FontType font = FONT_COLOBOT; if (format + fmtIndex != end) font = static_cast<FontType>(*(format + fmtIndex) & FONT_MASK_FONT); UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; width += GetCharWidth(ch, font, size, width); index += len; fmtIndex++; } return width; } float CText::GetStringWidth(const std::string &text, FontType font, float size) { assert(font != FONT_BUTTON); // TODO: special chars? CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); Math::IntPoint wndSize; TTF_SizeUTF8(cf->font, text.c_str(), &wndSize.x, &wndSize.y); Math::Point ifSize = m_engine->WindowToInterfaceSize(wndSize); return ifSize.x; } float CText::GetCharWidth(UTF8Char ch, FontType font, float size, float offset) { // TODO: if (font == FONT_BUTTON) if (font == FONT_BUTTON) return 0.0f; // TODO: special chars? // TODO: tab sizing CachedFont* cf = GetOrOpenFont(font, size); assert(cf != nullptr); CharTexture tex; auto it = cf->cache.find(ch); if (it != cf->cache.end()) tex = (*it).second; else tex = CreateCharTexture(ch, cf); return tex.charSize.x; } int CText::Justify(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size, float width) { float pos = 0.0f; int cut = 0; unsigned int index = 0; unsigned int fmtIndex = 0; while (index < text.length()) { FontType font = FONT_COLOBOT; if (format + fmtIndex != end) font = static_cast<FontType>(*(format + fmtIndex) & FONT_MASK_FONT); UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; if (font != FONT_BUTTON) { if (ch.c1 == '\n') return index+1; if (ch.c1 == ' ') cut = index+1; } pos += GetCharWidth(ch, font, size, pos); if (pos > width) { if (cut == 0) return index; else return cut; } index += len; fmtIndex++; } return index; } int CText::Justify(const std::string &text, FontType font, float size, float width) { assert(font != FONT_BUTTON); float pos = 0.0f; int cut = 0; unsigned int index = 0; while (index < text.length()) { UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; if (ch.c1 == '\n') { return index+1; } if (ch.c1 == ' ' ) cut = index+1; pos += GetCharWidth(ch, font, size, pos); if (pos > width) { if (cut == 0) return index; else return cut; } index += len; } return index; } int CText::Detect(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size, float offset) { float pos = 0.0f; unsigned int index = 0; unsigned int fmtIndex = 0; while (index < text.length()) { FontType font = FONT_COLOBOT; if (format + fmtIndex != end) font = static_cast<FontType>(*(format + fmtIndex) & FONT_MASK_FONT); // TODO: if (font == FONT_BUTTON) //if (font == FONT_BUTTON) continue; UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; if (ch.c1 == '\n') return index; float width = GetCharWidth(ch, font, size, pos); if (offset <= pos + width/2.0f) return index; pos += width; index += len; fmtIndex++; } return index; } int CText::Detect(const std::string &text, FontType font, float size, float offset) { assert(font != FONT_BUTTON); float pos = 0.0f; unsigned int index = 0; while (index < text.length()) { UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; index += len; if (ch.c1 == '\n') return index; float width = GetCharWidth(ch, font, size, pos); if (offset <= pos + width/2.0f) return index; pos += width; } return index; } void CText::DrawString(const std::string &text, std::vector<FontMetaChar>::iterator format, std::vector<FontMetaChar>::iterator end, float size, Math::Point pos, float width, int eol, Color color) { m_engine->SetState(ENG_RSTATE_TEXT); float start = pos.x; unsigned int fmtIndex = 0; std::vector<UTF8Char> chars; StringToUTFCharList(text, chars); for (auto it = chars.begin(); it != chars.end(); ++it) { FontType font = FONT_COLOBOT; if (format + fmtIndex != end) font = static_cast<FontType>(*(format + fmtIndex) & FONT_MASK_FONT); // TODO: if (font == FONT_BUTTON) if (font == FONT_BUTTON) continue; UTF8Char ch = *it; float offset = pos.x - start; float cw = GetCharWidth(ch, font, size, offset); if (offset + cw > width) // exceeds the maximum width? { // TODO: special end-of-line char break; } FontHighlight hl = static_cast<FontHighlight>(format[fmtIndex] & FONT_MASK_HIGHLIGHT); if (hl != FONT_HIGHLIGHT_NONE) { Math::Point charSize; charSize.x = GetCharWidth(ch, font, size, offset); charSize.y = GetHeight(font, size); DrawHighlight(hl, pos, charSize); } DrawCharAndAdjustPos(ch, font, size, pos, color); fmtIndex++; } // TODO: eol } void CText::StringToUTFCharList(const std::string &text, std::vector<UTF8Char> &chars) { unsigned int index = 0; unsigned int totalLength = text.length(); while (index < totalLength) { UTF8Char ch; int len = StrUtils::Utf8CharSizeAt(text, index); if (len >= 1) ch.c1 = text[index]; if (len >= 2) ch.c2 = text[index+1]; if (len >= 3) ch.c3 = text[index+2]; index += len; chars.push_back(ch); } } void CText::DrawString(const std::string &text, FontType font, float size, Math::Point pos, float width, int eol, Color color) { assert(font != FONT_BUTTON); m_engine->SetState(ENG_RSTATE_TEXT); std::vector<UTF8Char> chars; StringToUTFCharList(text, chars); for (auto it = chars.begin(); it != chars.end(); ++it) { DrawCharAndAdjustPos(*it, font, size, pos, color); } } void CText::DrawHighlight(FontHighlight hl, Math::Point pos, Math::Point size) { // Gradient colors Color grad[4]; // TODO: switch to alpha factors switch (hl) { case FONT_HIGHLIGHT_LINK: grad[0] = grad[1] = grad[2] = grad[3] = Color(0.0f, 0.0f, 1.0f, 0.5f); break; case FONT_HIGHLIGHT_TOKEN: grad[0] = grad[1] = Color(248.0f / 256.0f, 248.0f / 256.0f, 248.0f / 256.0f, 0.5f); grad[2] = grad[3] = Color(248.0f / 256.0f, 220.0f / 256.0f, 188.0f / 256.0f, 0.5f); break; case FONT_HIGHLIGHT_TYPE: grad[0] = grad[1] = Color(248.0f / 256.0f, 248.0f / 256.0f, 248.0f / 256.0f, 0.5f); grad[2] = grad[3] = Color(169.0f / 256.0f, 234.0f / 256.0f, 169.0f / 256.0f, 0.5f); break; case FONT_HIGHLIGHT_CONST: grad[0] = grad[1] = Color(248.0f / 256.0f, 248.0f / 256.0f, 248.0f / 256.0f, 0.5f); grad[2] = grad[3] = Color(248.0f / 256.0f, 176.0f / 256.0f, 169.0f / 256.0f, 0.5f); break; case FONT_HIGHLIGHT_REM: grad[0] = grad[1] = Color(248.0f / 256.0f, 248.0f / 256.0f, 248.0f / 256.0f, 0.5f); grad[2] = grad[3] = Color(248.0f / 256.0f, 169.0f / 256.0f, 248.0f / 256.0f, 0.5f); break; case FONT_HIGHLIGHT_KEY: grad[0] = grad[1] = grad[2] = grad[3] = Color(192.0f / 256.0f, 192.0f / 256.0f, 192.0f / 256.0f, 0.5f); break; default: return; } Math::IntPoint vsize = m_engine->GetWindowSize(); float h = 0.0f; if (vsize.y <= 768.0f) // 1024x768 or less? h = 1.01f / vsize.y; // 1 pixel else // more than 1024x768? h = 2.0f / vsize.y; // 2 pixels Math::Point p1, p2; p1.x = pos.x; p2.x = pos.x + size.x; if (hl == FONT_HIGHLIGHT_LINK) { p1.y = pos.y; p2.y = pos.y + h; // just emphasized } else { p1.y = pos.y; p2.y = pos.y + size.y; } m_device->SetTextureEnabled(0, false); VertexCol quad[] = { VertexCol(Math::Vector(p1.x, p1.y, 0.0f), grad[3]), VertexCol(Math::Vector(p1.x, p2.y, 0.0f), grad[0]), VertexCol(Math::Vector(p2.x, p1.y, 0.0f), grad[2]), VertexCol(Math::Vector(p2.x, p2.y, 0.0f), grad[1]) }; m_device->DrawPrimitive(PRIMITIVE_TRIANGLE_STRIP, quad, 4); m_engine->AddStatisticTriangle(2); m_device->SetTextureEnabled(0, true); } void CText::DrawCharAndAdjustPos(UTF8Char ch, FontType font, float size, Math::Point &pos, Color color) { // TODO: if (font == FONT_BUTTON) if (font == FONT_BUTTON) return; // TODO: special chars? CachedFont* cf = GetOrOpenFont(font, size); if (cf == nullptr) return; int width = 1; if (ch.c1 > 0 && ch.c1 < 32) { // FIXME add support for chars with code 9 10 23 if (ch.c1 == '\t') { ch.c1 = ':'; width = 4; } else { ch.c1 = ' '; } ch.c2 = 0; ch.c3 = 0; } auto it = cf->cache.find(ch); CharTexture tex; if (it != cf->cache.end()) { tex = (*it).second; } else { tex = CreateCharTexture(ch, cf); if (tex.id == 0) // invalid return; cf->cache[ch] = tex; } Math::Point p1(pos.x, pos.y + tex.charSize.y - tex.texSize.y); Math::Point p2(pos.x + tex.texSize.x, pos.y + tex.charSize.y); Math::Vector n(0.0f, 0.0f, -1.0f); // normal Vertex quad[4] = { Vertex(Math::Vector(p1.x, p1.y, 0.0f), n, Math::Point(0.0f, 1.0f)), Vertex(Math::Vector(p1.x, p2.y, 0.0f), n, Math::Point(0.0f, 0.0f)), Vertex(Math::Vector(p2.x, p1.y, 0.0f), n, Math::Point(1.0f, 1.0f)), Vertex(Math::Vector(p2.x, p2.y, 0.0f), n, Math::Point(1.0f, 0.0f)) }; m_device->SetTexture(0, tex.id); m_device->DrawPrimitive(PRIMITIVE_TRIANGLE_STRIP, quad, 4, color); m_engine->AddStatisticTriangle(2); pos.x += tex.charSize.x * width; } CachedFont* CText::GetOrOpenFont(FontType font, float size) { Math::IntPoint windowSize = m_engine->GetWindowSize(); int pointSize = static_cast<int>(size * (windowSize.Length() / REFERENCE_SIZE.Length())); if (m_lastCachedFont != nullptr) { if (m_lastFontType == font && m_lastFontSize == pointSize) return m_lastCachedFont; } auto it = m_fonts.find(font); if (it == m_fonts.end()) { m_error = std::string("Invalid font type ") + StrUtils::ToString<int>(static_cast<int>(font)); return nullptr; } MultisizeFont* mf = (*it).second; auto jt = mf->fonts.find(pointSize); if (jt != mf->fonts.end()) { m_lastCachedFont = (*jt).second; m_lastFontType = font; m_lastFontSize = pointSize; return m_lastCachedFont; } std::string path = CApplication::GetInstance().GetDataFilePath(DIR_FONT, mf->fileName); m_lastCachedFont = new CachedFont(); m_lastCachedFont->font = TTF_OpenFont(path.c_str(), pointSize); if (m_lastCachedFont->font == nullptr) m_error = std::string("TTF_OpenFont error ") + std::string(TTF_GetError()); mf->fonts[pointSize] = m_lastCachedFont; return m_lastCachedFont; } CharTexture CText::CreateCharTexture(UTF8Char ch, CachedFont* font) { CharTexture texture; SDL_Surface* textSurface = nullptr; SDL_Color white = {255, 255, 255, 0}; char str[] = { ch.c1, ch.c2, ch.c3, '\0' }; textSurface = TTF_RenderUTF8_Blended(font->font, str, white); if (textSurface == nullptr) { m_error = "TTF_Render error"; return texture; } int w = Math::NextPowerOfTwo(textSurface->w); int h = Math::NextPowerOfTwo(textSurface->h); textSurface->flags = textSurface->flags & (~SDL_SRCALPHA); SDL_Surface* textureSurface = SDL_CreateRGBSurface(0, w, h, 32, 0x00ff0000, 0x0000ff00, 0x000000ff, 0xff000000); SDL_BlitSurface(textSurface, NULL, textureSurface, NULL); ImageData data; data.surface = textureSurface; TextureCreateParams createParams; createParams.format = TEX_IMG_RGBA; createParams.minFilter = TEX_MIN_FILTER_NEAREST; createParams.magFilter = TEX_MAG_FILTER_NEAREST; createParams.mipmap = false; Texture tex = m_device->CreateTexture(&data, createParams); data.surface = nullptr; if (! tex.Valid()) { m_error = "Texture create error"; return texture; } else { texture.id = tex.id; texture.texSize = m_engine->WindowToInterfaceSize(Math::IntPoint(textureSurface->w, textureSurface->h)); texture.charSize = m_engine->WindowToInterfaceSize(Math::IntPoint(textSurface->w, textSurface->h)); } SDL_FreeSurface(textSurface); SDL_FreeSurface(textureSurface); return texture; } } // namespace Gfx