/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "graphics/macgui/macfontmanager.h" #include "graphics/macgui/mactext.h" #include "graphics/macgui/macwindowmanager.h" #include "graphics/font.h" namespace Graphics { const Font *MacFontRun::getFont() { if (font) return font; MacFont macFont = MacFont(fontId, fontSize, textSlant); font = wm->_fontMan->getFont(macFont); return font; } const Common::String MacFontRun::toString() { return Common::String::format("\001\015%c%c%c%c%c%c%c%c%c%c%c", (fontId >> 8) & 0xff, fontId & 0xff, textSlant & 0xff, (fontSize >> 8) & 0xff, fontSize & 0xff, (palinfo1 >> 8) & 0xff, palinfo1 & 0xff, (palinfo2 >> 8) & 0xff, palinfo2 & 0xff, (palinfo3 >> 8) & 0xff, palinfo3 & 0xff); } MacText::~MacText() { delete _surface; delete _macFont; } MacText::MacText(Common::U32String s, MacWindowManager *wm, const MacFont *macFont, int fgcolor, int bgcolor, int maxWidth, TextAlign textAlignment, int interlinear) { _str = s; _wm = wm; _macFont = macFont; _fgcolor = fgcolor; _bgcolor = bgcolor; _maxWidth = maxWidth; _textMaxWidth = 0; _textMaxHeight = 0; _surface = nullptr; _textAlignment = textAlignment; _interLinear = interlinear; if (macFont) { _defaultFormatting = MacFontRun(_wm, macFont->getId(), macFont->getSlant(), macFont->getSize(), 0, 0, 0); _defaultFormatting.font = wm->_fontMan->getFont(*macFont); } else { _defaultFormatting.font = NULL; } _defaultFormatting.wm = wm; _currentFormatting = _defaultFormatting; if (!_str.empty()) splitString(_str); recalcDims(); _fullRefresh = true; } MacText::MacText(const Common::String &s, MacWindowManager *wm, const MacFont *macFont, int fgcolor, int bgcolor, int maxWidth, TextAlign textAlignment, int interlinear) { _str = Common::U32String(s); _wm = wm; _macFont = macFont; _fgcolor = fgcolor; _bgcolor = bgcolor; _maxWidth = maxWidth; _textMaxWidth = 0; _textMaxHeight = 0; _surface = nullptr; _textAlignment = textAlignment; _interLinear = interlinear; if (macFont) { _defaultFormatting = MacFontRun(_wm, macFont->getId(), macFont->getSlant(), macFont->getSize(), 0, 0, 0); _defaultFormatting.font = wm->_fontMan->getFont(*macFont); } else { _defaultFormatting.font = NULL; } _defaultFormatting.wm = wm; _currentFormatting = _defaultFormatting; if (!_str.empty()) splitString(_str); recalcDims(); _fullRefresh = true; } void MacText::setMaxWidth(int maxWidth) { _maxWidth = maxWidth; _textLines.clear(); if (!_str.empty()) { splitString(_str); recalcDims(); _fullRefresh = true; } } void MacText::splitString(Common::U32String &str) { const Common::U32String::value_type *s = str.c_str(); Common::U32String tmp; bool prevCR = false; if (_textLines.empty()) { _textLines.resize(1); _textLines[0].chunks.push_back(_defaultFormatting); } int curLine = _textLines.size() - 1; int curChunk = _textLines[curLine].chunks.size() - 1; bool nextChunk = false; MacFontRun previousFormatting; while (*s) { #if DEBUG for (uint i = 0; i < _textLines.size(); i++) { debugN(7, "%2d ", i); for (uint j = 0; j < _textLines[i].chunks.size(); j++) debugN(7, "[%d] \"%s\"", _textLines[i].chunks[j].fontId, _textLines[i].chunks[j].text.c_str()); debug(7, " --> %c %d, '%s'", (*s > 0x20 ? *s : ' '), (byte)*s, tmp.c_str()); } #endif if (*s == '\001') { s++; if (*s == '\001') { // Copy it verbatim } else { if (*s++ != '\015') error("MacText: formatting error"); uint16 fontId = *s++; fontId = (fontId << 8) | *s++; byte textSlant = *s++; uint16 fontSize = *s++; fontSize = (fontSize << 8) | *s++; uint16 palinfo1 = *s++; palinfo1 = (palinfo1 << 8) | *s++; uint16 palinfo2 = *s++; palinfo2 = (palinfo2 << 8) | *s++; uint16 palinfo3 = *s++; palinfo3 = (palinfo3 << 8) | *s++; debug(8, "******** splitString: fontId: %d, textSlant: %d, fontSize: %d, p0: %x p1: %x p2: %x", fontId, textSlant, fontSize, palinfo1, palinfo2, palinfo3); previousFormatting = _currentFormatting; _currentFormatting.setValues(_wm, fontId, textSlant, fontSize, palinfo1, palinfo2, palinfo3); if (curLine == 0 && curChunk == 0 && tmp.empty()) previousFormatting = _currentFormatting; nextChunk = true; } } else if (*s == '\n' && prevCR) { // trean \r\n as one prevCR = false; s++; continue; } else if (*s == '\r') { prevCR = true; } if (*s == '\r' || *s == '\n' || nextChunk) { Common::Array text; if (!nextChunk) previousFormatting = _currentFormatting; int w = getLineWidth(curLine, true); previousFormatting.getFont()->wordWrapText(tmp, _maxWidth, text, w); tmp.clear(); if (text.size()) { for (uint i = 0; i < text.size(); i++) { _textLines[curLine].chunks[curChunk].text += text[i]; if ((text.size() > 1 || !nextChunk) && !(i == text.size() - 1 && nextChunk)) { curLine++; _textLines.resize(curLine + 1); _textLines[curLine].chunks.push_back(previousFormatting); curChunk = 0; } } if (nextChunk) { curChunk++; _textLines[curLine].chunks.push_back(_currentFormatting); } else { _textLines[curLine].chunks[0] = _currentFormatting; } } else { if (nextChunk) { // No text, replacing formatting _textLines[curLine].chunks[curChunk] = _currentFormatting; } else { // Otherwise it is an empty line curLine++; _textLines.resize(curLine + 1); _textLines[curLine].chunks.push_back(previousFormatting); curChunk = 0; } } if (!nextChunk) // Don't skip next character s++; nextChunk = false; continue; } tmp += *s; s++; } if (tmp.size()) { Common::Array text; int w = getLineWidth(curLine, true); _currentFormatting.getFont()->wordWrapText(tmp, _maxWidth, text, w); _textLines[curLine].chunks[curChunk].text = text[0]; if (text.size() > 1) { for (uint i = 1; i < text.size(); i++) { curLine++; _textLines.resize(curLine + 1); _textLines[curLine].chunks.push_back(_currentFormatting); _textLines[curLine].chunks[0].text = text[i]; } } } } void MacText::reallocSurface() { // round to closest 10 //TODO: work out why this rounding doesn't correctly fill the entire width //int requiredH = (_text.size() + (_text.size() * 10 + 9) / 10) * lineH if (!_surface) { _surface = new ManagedSurface(_textMaxWidth, _textMaxHeight); return; } if (_surface->w < _textMaxWidth || _surface->h < _textMaxHeight) { // realloc surface and copy old content ManagedSurface *n = new ManagedSurface(_textMaxWidth, _textMaxHeight); n->clear(_bgcolor); n->blitFrom(*_surface, Common::Point(0, 0)); delete _surface; _surface = n; } } void MacText::render() { if (_fullRefresh) { render(0, _textLines.size()); _fullRefresh = false; } } void MacText::render(int from, int to) { if (_textLines.empty()) return; reallocSurface(); from = MAX(0, from); to = MIN(to, _textLines.size() - 1); // Clear the screen _surface->fillRect(Common::Rect(0, _textLines[from].y, _surface->w, _textLines[to].y + getLineHeight(to)), _bgcolor); for (int i = from; i <= to; i++) { int xOffset = 0; if (_textAlignment == kTextAlignRight) xOffset = _textMaxWidth - getLineWidth(i); else if (_textAlignment == kTextAlignCenter) xOffset = (_textMaxWidth / 2) - (getLineWidth(i) / 2); // TODO: _textMaxWidth, when -1, was not rendering ANY text. for (uint j = 0; j < _textLines[i].chunks.size(); j++) { debug(5, "line %d[%d]/%d at %d,%d (%s)", i, j, xOffset, _textLines[i].chunks[j].fontId, _textLines[i].y, _textLines[i].chunks[j].text.encode().c_str()); if (_textLines[i].chunks[j].text.empty()) continue; _textLines[i].chunks[j].getFont()->drawString(_surface, _textLines[i].chunks[j].text, xOffset, _textLines[i].y, _maxWidth, _fgcolor); xOffset += _textLines[i].chunks[j].getFont()->getStringWidth(_textLines[i].chunks[j].text); } } for (uint i = 0; i < _textLines.size(); i++) { debugN(4, "%2d ", i); for (uint j = 0; j < _textLines[i].chunks.size(); j++) debugN(4, "[%d (%d)] \"%s\" ", _textLines[i].chunks[j].fontId, _textLines[i].chunks[j].textSlant, _textLines[i].chunks[j].text.encode().c_str()); debug(4, "%s", ""); } } int MacText::getLineWidth(int line, bool enforce) { if ((uint)line >= _textLines.size()) return 0; if (_textLines[line].width != -1 && !enforce) return _textLines[line].width; int width = 0; int height = 0; for (uint i = 0; i < _textLines[line].chunks.size(); i++) { if (enforce) _textLines[line].chunks[i].font = nullptr; if (!_textLines[line].chunks[i].text.empty()) width += _textLines[line].chunks[i].getFont()->getStringWidth(_textLines[line].chunks[i].text); height = MAX(height, _textLines[line].chunks[i].getFont()->getFontHeight()); } _textLines[line].width = width; _textLines[line].height = height; return width; } int MacText::getLineHeight(int line) { if ((uint)line >= _textLines.size()) return 0; getLineWidth(line); // This calculates height also return _textLines[line].height; } void MacText::setInterLinear(int interLinear) { _interLinear = interLinear; recalcDims(); } void MacText::recalcDims() { if (_textLines.empty()) return; int y = 0; _textMaxWidth = 0; for (uint i = 0; i < _textLines.size(); i++) { _textLines[i].y = y; y += getLineHeight(i) + _interLinear; _textMaxWidth = MAX(_textMaxWidth, getLineWidth(i, true)); } _textMaxHeight = y - _interLinear; } void MacText::draw(ManagedSurface *g, int x, int y, int w, int h, int xoff, int yoff) { if (_textLines.empty()) return; render(); if (x + w < _surface->w || y + h < _surface->h) { g->fillRect(Common::Rect(x, y, x + w, y + w), _bgcolor); } g->blitFrom(*_surface, Common::Rect(MIN(_surface->w, x), MIN(_surface->h, y), MIN(_surface->w, x + w), MIN(_surface->h, y + h)), Common::Point(xoff, yoff)); } void MacText::drawToPoint(ManagedSurface *g, Common::Rect srcRect, Common::Point dstPoint) { if (_textLines.empty()) return; render(); srcRect.clip(_surface->getBounds()); if (srcRect.isEmpty()) return; g->blitFrom(*_surface, srcRect, dstPoint); } void MacText::drawToPoint(ManagedSurface *g, Common::Point dstPoint) { if (_textLines.empty()) return; render(); g->blitFrom(*_surface, dstPoint); } // Count newline characters in String uint getNewlinesInString(const Common::U32String &str) { Common::U32String::const_iterator p = str.begin(); uint newLines = 0; while (*p) { if (*p == '\n') newLines++; p++; } return newLines; } void MacText::appendText(Common::U32String str, int fontId, int fontSize, int fontSlant, bool skipAdd) { uint oldLen = _textLines.size(); MacFontRun fontRun = MacFontRun(_wm, fontId, fontSlant, fontSize, 0, 0, 0); _currentFormatting = fontRun; if (!skipAdd) { _str += fontRun.toString(); _str += str; } splitString(str); recalcDims(); render(oldLen - 1, _textLines.size()); } void MacText::appendText(const Common::String &str, int fontId, int fontSize, int fontSlant, bool skipAdd) { appendText(Common::U32String(str), fontId, fontSize, fontSlant, skipAdd); } void MacText::appendTextDefault(Common::U32String str, bool skipAdd) { uint oldLen = _textLines.size(); _currentFormatting = _defaultFormatting; if (!skipAdd) { _str += _defaultFormatting.toString(); _str += str; } splitString(str); recalcDims(); render(oldLen - 1, _textLines.size()); } void MacText::appendTextDefault(const Common::String &str, bool skipAdd) { appendTextDefault(Common::U32String(str), skipAdd); } void MacText::clearText() { _textLines.clear(); _str.clear(); if (_surface) _surface->clear(_bgcolor); recalcDims(); } void MacText::replaceLastLine(Common::U32String str) { int oldLen = MAX(0, _textLines.size() - 1); // TODO: Recalc length, adapt to _textLines if (_textLines.size()) _textLines.pop_back(); splitString(str); recalcDims(); render(oldLen, _textLines.size()); } void MacText::removeLastLine() { if (!_textLines.size()) return; int h = getLineHeight(_textLines.size() - 1) + _interLinear; _surface->fillRect(Common::Rect(0, _textMaxHeight - h, _surface->w, _textMaxHeight), _bgcolor); _textLines.pop_back(); _textMaxHeight -= h; } void MacText::getRowCol(int x, int y, int *sx, int *sy, int *row, int *col) { if (y > _textMaxHeight) { x = _surface->w; } y = CLIP(y, 0, _textMaxHeight); // FIXME: We should use bsearch() here *row = _textLines.size() - 1; while (*row && _textLines[*row].y > y) (*row)--; *sy = _textLines[*row].y; *col = 0; int width = 0, pwidth = 0; int mcol = 0, pmcol = 0; uint chunk; for (chunk = 0; chunk < _textLines[*row].chunks.size(); chunk++) { pwidth = width; pmcol = mcol; if (!_textLines[*row].chunks[chunk].text.empty()) { width += _textLines[*row].chunks[chunk].getFont()->getStringWidth(_textLines[*row].chunks[chunk].text); mcol += _textLines[*row].chunks[chunk].text.size(); } if (width > x) break; } if (chunk == _textLines[*row].chunks.size()) chunk--; Common::U32String str = _textLines[*row].chunks[chunk].text; *col = mcol; for (int i = str.size(); i >= 0; i--) { int strw = _textLines[*row].chunks[chunk].getFont()->getStringWidth(str); if (strw + pwidth < x) { *col = pmcol + i; *sx = strw + pwidth; break; } str.deleteLastChar(); } } Common::U32String MacText::getTextChunk(int startRow, int startCol, int endRow, int endCol, bool formatted, bool newlines) { Common::U32String res; startRow = CLIP(startRow, 0, (int)_textLines.size() - 1); endRow = CLIP(endRow, 0, (int)_textLines.size() - 1); for (int i = startRow; i <= endRow; i++) { if (i == startRow && i == endRow) { for (uint chunk = 0; chunk < _textLines[i].chunks.size(); chunk++) { if (startCol <= 0) { if (formatted) res += _textLines[i].chunks[chunk].toString(); if (endCol >= (int)_textLines[i].chunks[chunk].text.size()) res += _textLines[i].chunks[chunk].text; else res += Common::U32String(_textLines[i].chunks[chunk].text.c_str(), endCol); } else if ((int)_textLines[i].chunks[chunk].text.size() > startCol) { if (formatted) res += _textLines[i].chunks[chunk].toString(); res += Common::U32String(_textLines[i].chunks[chunk].text.c_str() + startCol, endCol - startCol); } startCol -= _textLines[i].chunks[chunk].text.size(); endCol -= _textLines[i].chunks[chunk].text.size(); if (endCol <= 0) break; } } else if (i == startRow && startCol != 0) { for (uint chunk = 0; chunk < _textLines[i].chunks.size(); chunk++) { if (startCol <= 0) { if (formatted) res += _textLines[i].chunks[chunk].toString(); res += _textLines[i].chunks[chunk].text; } else if ((int)_textLines[i].chunks[chunk].text.size() > startCol) { if (formatted) res += _textLines[i].chunks[chunk].toString(); res += Common::U32String(_textLines[i].chunks[chunk].text.c_str() + startCol); } startCol -= _textLines[i].chunks[chunk].text.size(); } if (newlines) res += '\n'; else res += ' '; } else if (i == endRow) { for (uint chunk = 0; chunk < _textLines[i].chunks.size(); chunk++) { if (formatted) res += _textLines[i].chunks[chunk].toString(); if (endCol >= (int)_textLines[i].chunks[chunk].text.size()) res += _textLines[i].chunks[chunk].text; else res += Common::U32String(_textLines[i].chunks[chunk].text.c_str(), endCol); endCol -= _textLines[i].chunks[chunk].text.size(); if (endCol <= 0) break; } } else { for (uint chunk = 0; chunk < _textLines[i].chunks.size(); chunk++) { if (formatted) res += _textLines[i].chunks[chunk].toString(); res += _textLines[i].chunks[chunk].text; } if (newlines) res += '\n'; else res += ' '; } } return res; } } // End of namespace Graphics