/**************************************************************************** * Copyright (C) 2015 Dimok * * 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 3 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, see . ****************************************************************************/ #include #include #include FreeTypeGX *GuiText::presentFont = NULL; int32_t GuiText::presetSSAA = 2; int32_t GuiText::presetSize = 28; int32_t GuiText::presetMaxWidth = 0xFFFF; int32_t GuiText::presetAlignment = ALIGN_CENTER | ALIGN_MIDDLE; GX2ColorF32 GuiText::presetColor = (GX2ColorF32) { 1.0f, 1.0f, 1.0f, 1.0f }; #define TEXT_SCROLL_DELAY 6 #define TEXT_SCROLL_INITIAL_DELAY 10 #define MAX_LINES_TO_DRAW 10 /** * Constructor for the GuiText class. */ GuiText::GuiText() { text = NULL; currentSize = presetSize; color = glm::vec4(presetColor.r, presetColor.g, presetColor.b, presetColor.a); alpha = presetColor.a; alignment = presetAlignment; maxWidth = presetMaxWidth; internalSSAA = presetSSAA; wrapMode = 0; font = presentFont; linestodraw = MAX_LINES_TO_DRAW; textScrollPos = 0; textScrollInitialDelay = TEXT_SCROLL_INITIAL_DELAY; textScrollDelay = TEXT_SCROLL_DELAY; defaultBlur = 4.0f; blurGlowIntensity = 0.0f; blurAlpha = 0.0f; blurGlowColor = glm::vec4(0.0f); } GuiText::GuiText(const char *t, int32_t s, const glm::vec4 &c) { text = NULL; currentSize = s; color = c; alpha = c[3]; alignment = ALIGN_CENTER | ALIGN_MIDDLE; maxWidth = presetMaxWidth; internalSSAA = presetSSAA; wrapMode = 0; font = presentFont; linestodraw = MAX_LINES_TO_DRAW; textScrollPos = 0; textScrollInitialDelay = TEXT_SCROLL_INITIAL_DELAY; textScrollDelay = TEXT_SCROLL_DELAY; defaultBlur = 4.0f; blurGlowIntensity = 0.0f; blurAlpha = 0.0f; blurGlowColor = glm::vec4(0.0f); if (t) { text = FreeTypeGX::charToWideChar(t); if (!text) { return; } } } GuiText::GuiText(const wchar_t *t, int32_t s, const glm::vec4 &c) { text = NULL; currentSize = s; color = c; alpha = c[3]; alignment = ALIGN_CENTER | ALIGN_MIDDLE; maxWidth = presetMaxWidth; internalSSAA = presetSSAA; wrapMode = 0; font = presentFont; linestodraw = MAX_LINES_TO_DRAW; textScrollPos = 0; textScrollInitialDelay = TEXT_SCROLL_INITIAL_DELAY; textScrollDelay = TEXT_SCROLL_DELAY; defaultBlur = 4.0f; blurGlowIntensity = 0.0f; blurAlpha = 0.0f; blurGlowColor = glm::vec4(0.0f); if (t) { text = new(std::nothrow) wchar_t[wcslen(t) + 1]; if (!text) { return; } wcscpy(text, t); } } /** * Constructor for the GuiText class, uses presets */ GuiText::GuiText(const char *t) { text = NULL; currentSize = presetSize; color = glm::vec4(presetColor.r, presetColor.g, presetColor.b, presetColor.a); alpha = presetColor.a; alignment = presetAlignment; maxWidth = presetMaxWidth; internalSSAA = presetSSAA; wrapMode = 0; font = presentFont; linestodraw = MAX_LINES_TO_DRAW; textScrollPos = 0; textScrollInitialDelay = TEXT_SCROLL_INITIAL_DELAY; textScrollDelay = TEXT_SCROLL_DELAY; defaultBlur = 4.0f; blurGlowIntensity = 0.0f; blurAlpha = 0.0f; blurGlowColor = glm::vec4(0.0f); if (t) { text = FreeTypeGX::charToWideChar(t); if (!text) { return; } } } /** * Destructor for the GuiText class. */ GuiText::~GuiText() { if (text) { delete[] text; } text = NULL; clearDynamicText(); } void GuiText::setText(const char *t) { if (text) { delete[] text; } text = NULL; clearDynamicText(); textScrollPos = 0; textScrollInitialDelay = TEXT_SCROLL_INITIAL_DELAY; if (t) { text = FreeTypeGX::charToWideChar(t); if (!text) { return; } } } void GuiText::setTextf(const char *format, ...) { if (!format) { setText((char *) NULL); return; } int32_t max_len = strlen(format) + 8192; char *tmp = new char[max_len]; va_list va; va_start(va, format); if ((vsnprintf(tmp, max_len, format, va) >= 0) && tmp) { setText(tmp); } va_end(va); if (tmp) { delete[] tmp; } } void GuiText::setText(const wchar_t *t) { if (text) { delete[] text; } text = NULL; clearDynamicText(); textScrollPos = 0; textScrollInitialDelay = TEXT_SCROLL_INITIAL_DELAY; if (t) { text = new(std::nothrow) wchar_t[wcslen(t) + 1]; if (!text) { return; } wcscpy(text, t); } } void GuiText::clearDynamicText() { for (uint32_t i = 0; i < textDyn.size(); i++) { if (textDyn[i]) { delete[] textDyn[i]; } } textDyn.clear(); textDynWidth.clear(); } void GuiText::setPresets(int32_t sz, const glm::vec4 &c, int32_t w, int32_t a) { presetSize = sz; presetColor = (GX2ColorF32) { (float) c.r / 255.0f, (float) c.g / 255.0f, (float) c.b / 255.0f, (float) c.a / 255.0f }; presetMaxWidth = w; presetAlignment = a; } void GuiText::setPresetFont(FreeTypeGX *f) { presentFont = f; } void GuiText::setFontSize(int32_t s) { currentSize = s; } void GuiText::setMaxWidth(int32_t width, int32_t w) { maxWidth = width; wrapMode = w; if (w == SCROLL_HORIZONTAL) { textScrollPos = 0; textScrollInitialDelay = TEXT_SCROLL_INITIAL_DELAY; textScrollDelay = TEXT_SCROLL_DELAY; } clearDynamicText(); } void GuiText::setColor(const glm::vec4 &c) { color = c; alpha = c[3]; } void GuiText::setBlurGlowColor(float blur, const glm::vec4 &c) { blurGlowColor = c; blurGlowIntensity = blur; blurAlpha = c[3]; } int32_t GuiText::getTextWidth(int32_t ind) { if (ind < 0 || ind >= (int32_t) textDyn.size()) { return this->getTextWidth(); } return font->getWidth(textDyn[ind], currentSize); } //!Get the Horizontal Size of Text int32_t GuiText::getTextWidth() { auto res = font->getWidth(text, currentSize); res = res > maxWidth && maxWidth > 0 ? maxWidth : res; return res; } const wchar_t *GuiText::getDynText(int32_t ind) { if (ind < 0 || ind >= (int32_t) textDyn.size()) { return text; } return textDyn[ind]; } /** * Change font */ bool GuiText::setFont(FreeTypeGX *f) { if (!f) { return false; } font = f; return true; } std::string GuiText::toUTF8(void) const { if (!text) { return std::string(); } char *pUtf8 = FreeTypeGX::wideCharToUTF8(text); if (!pUtf8) { return std::string(); } std::string strOutput(pUtf8); delete[] pUtf8; return strOutput; } void GuiText::makeDottedText() { int32_t pos = textDyn.size(); textDyn.resize(pos + 1); int32_t i = 0, currentWidth = 0; textDyn[pos] = new(std::nothrow) wchar_t[maxWidth]; if (!textDyn[pos]) { textDyn.resize(pos); return; } while (text[i]) { currentWidth += font->getCharWidth(text[i], currentSize, i > 0 ? text[i - 1] : 0); if (currentWidth >= maxWidth && i > 2) { textDyn[pos][i - 2] = '.'; textDyn[pos][i - 1] = '.'; textDyn[pos][i] = '.'; i++; break; } textDyn[pos][i] = text[i]; i++; } textDyn[pos][i] = 0; } void GuiText::scrollText(uint32_t frameCount) { if (textDyn.size() == 0) { int32_t pos = textDyn.size(); int32_t i = 0, currentWidth = 0; textDyn.resize(pos + 1); textDyn[pos] = new(std::nothrow) wchar_t[maxWidth]; if (!textDyn[pos]) { textDyn.resize(pos); return; } while (text[i] && currentWidth < maxWidth) { textDyn[pos][i] = text[i]; currentWidth += font->getCharWidth(text[i], currentSize, i > 0 ? text[i - 1] : 0); ++i; } textDyn[pos][i] = 0; return; } if (frameCount % textScrollDelay != 0) { return; } if (textScrollInitialDelay) { --textScrollInitialDelay; return; } int32_t stringlen = wcslen(text); ++textScrollPos; if (textScrollPos > stringlen) { textScrollPos = 0; textScrollInitialDelay = TEXT_SCROLL_INITIAL_DELAY; } int32_t ch = textScrollPos; int32_t pos = textDyn.size() - 1; if (!textDyn[pos]) { textDyn[pos] = new(std::nothrow) wchar_t[maxWidth]; } if (!textDyn[pos]) { textDyn.resize(pos); return; } int32_t i = 0, currentWidth = 0; while (currentWidth < maxWidth) { if (ch > stringlen - 1) { textDyn[pos][i++] = ' '; currentWidth += font->getCharWidth(L' ', currentSize, ch > 0 ? text[ch - 1] : 0); textDyn[pos][i++] = ' '; currentWidth += font->getCharWidth(L' ', currentSize, L' '); textDyn[pos][i++] = ' '; currentWidth += font->getCharWidth(L' ', currentSize, L' '); ch = 0; if (currentWidth >= maxWidth) { break; } } textDyn[pos][i] = text[ch]; currentWidth += font->getCharWidth(text[ch], currentSize, ch > 0 ? text[ch - 1] : 0); ++ch; ++i; } textDyn[pos][i] = 0; } void GuiText::wrapText() { if (textDyn.size() > 0) { return; } int32_t i = 0; int32_t ch = 0; int32_t linenum = 0; int32_t lastSpace = -1; int32_t lastSpaceIndex = -1; int32_t currentWidth = 0; while (text[ch] && linenum < linestodraw) { if (linenum >= (int32_t) textDyn.size()) { textDyn.resize(linenum + 1); textDyn[linenum] = new(std::nothrow) wchar_t[maxWidth]; if (!textDyn[linenum]) { textDyn.resize(linenum); break; } } textDyn[linenum][i] = text[ch]; textDyn[linenum][i + 1] = 0; currentWidth += font->getCharWidth(text[ch], currentSize, ch > 0 ? text[ch - 1] : 0x0000); if (currentWidth >= maxWidth || (text[ch] == '\n')) { if (text[ch] == '\n') { lastSpace = -1; lastSpaceIndex = -1; } else if (lastSpace >= 0) { textDyn[linenum][lastSpaceIndex] = 0; // discard space, and everything after ch = lastSpace; // go backwards to the last space lastSpace = -1; // we have used this space lastSpaceIndex = -1; } if (linenum + 1 == linestodraw && text[ch + 1] != 0x0000) { if (i < 2) { i = 2; } textDyn[linenum][i - 2] = '.'; textDyn[linenum][i - 1] = '.'; textDyn[linenum][i] = '.'; textDyn[linenum][i + 1] = 0; } currentWidth = 0; ++linenum; i = -1; } if (text[ch] == ' ' && i >= 0) { lastSpace = ch; lastSpaceIndex = i; } ++ch; ++i; } } /** * Draw the text on screen */ void GuiText::draw(CVideo *pVideo) { if (!text) { return; } if (!isVisible()) { return; } color[3] = getAlpha(); blurGlowColor[3] = blurAlpha * getAlpha(); auto internalRenderingScale = internalSSAA == 0 ? 1 : internalSSAA << 1; int32_t normal_size = currentSize * getScale(); int32_t internalRenderingSize = normal_size * internalRenderingScale; auto textWidth = font->getWidth(text, normal_size); float x_pos = getCenterX() * internalRenderingScale; float y_pos = getCenterY() * internalRenderingScale; if (maxWidth > 0 && maxWidth <= textWidth) { if (wrapMode == DOTTED) { // text dotted if (textDyn.size() == 0) { makeDottedText(); } if (textDynWidth.size() != textDyn.size()) { textDynWidth.resize(textDyn.size()); for (uint32_t i = 0; i < textDynWidth.size(); i++) { textDynWidth[i] = font->getWidth(textDyn[i], internalRenderingSize); } } if (textDyn.size() > 0) { font->drawText(pVideo, x_pos, y_pos, getDepth(), textDyn[textDyn.size() - 1], internalRenderingSize, color, alignment, textDynWidth[textDyn.size() - 1], defaultBlur, blurGlowIntensity, blurGlowColor, internalRenderingScale); } return; } else if (wrapMode == SCROLL_HORIZONTAL) { scrollText(pVideo->getFrameCount()); if (textDyn.size() > 0) { font->drawText(pVideo, x_pos, y_pos, getDepth(), textDyn[textDyn.size() - 1], internalRenderingSize, color, alignment, maxWidth * internalRenderingScale * getScale(), defaultBlur, blurGlowIntensity, blurGlowColor, internalRenderingScale); } return; } else if (wrapMode == WRAP) { int32_t lineheight = internalRenderingSize + 6; int32_t yoffset = 0; int32_t voffset = 0; if (textDyn.size() == 0) { wrapText(); } if (textDynWidth.size() != textDyn.size()) { textDynWidth.resize(textDyn.size()); for (uint32_t i = 0; i < textDynWidth.size(); i++) { textDynWidth[i] = font->getWidth(textDyn[i], internalRenderingSize); } } if (alignment & ALIGN_MIDDLE) { voffset = (lineheight * (textDyn.size() - 1)) >> 1; } for (uint32_t i = 0; i < textDyn.size(); i++) { font->drawText(pVideo, x_pos, y_pos + y_offset + voffset, getDepth(), textDyn[i], internalRenderingSize, color, alignment, textDynWidth[i], defaultBlur, blurGlowIntensity, blurGlowColor, internalRenderingScale); yoffset -= lineheight; } return; } } auto newTextWidth = font->getWidth(text, internalRenderingSize); font->drawText(pVideo, x_pos, y_pos, getDepth(), text, internalRenderingSize, color, alignment, newTextWidth, defaultBlur, blurGlowIntensity, blurGlowColor, internalRenderingScale); textMutex.unlock(); }