/* 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 "common/util.h" #include "common/system.h" #include "gui/ThemeLayout.h" #include "graphics/font.h" #ifdef LAYOUT_DEBUG_DIALOG #include "graphics/surface.h" #endif namespace GUI { void ThemeLayout::importLayout(ThemeLayout *layout) { assert(layout->getLayoutType() == kLayoutMain); if (layout->_children.size() == 0) return; layout = layout->_children[0]; if (getLayoutType() == layout->getLayoutType()) { for (uint i = 0; i < layout->_children.size(); ++i) _children.push_back(layout->_children[i]->makeClone(this)); } else { _children.push_back(layout->makeClone(this)); } } bool ThemeLayout::getWidgetData(const Common::String &name, int16 &x, int16 &y, uint16 &w, uint16 &h) { if (name.empty()) { assert(getLayoutType() == kLayoutMain); x = _x; y = _y; w = _w; h = _h; return true; } for (uint i = 0; i < _children.size(); ++i) { if (_children[i]->getWidgetData(name, x, y, w, h)) return true; } return false; } Graphics::TextAlign ThemeLayout::getWidgetTextHAlign(const Common::String &name) { if (name.empty()) { assert(getLayoutType() == kLayoutMain); return _textHAlign; } Graphics::TextAlign res; for (uint i = 0; i < _children.size(); ++i) { if ((res = _children[i]->getWidgetTextHAlign(name)) != Graphics::kTextAlignInvalid) return res; } return Graphics::kTextAlignInvalid; } int16 ThemeLayoutStacked::getParentWidth() { ThemeLayout *p = _parent; int width = 0; while (p && p->getLayoutType() != kLayoutMain) { width += p->_padding.right + p->_padding.left; if (p->getLayoutType() == kLayoutHorizontal) { const int spacing = ((ThemeLayoutStacked *)p)->_spacing; for (uint i = 0; i < p->_children.size(); ++i) width += p->_children[i]->getWidth() + spacing; } // FIXME: Do we really want to assume that any layout type different // from kLayoutHorizontal corresponds to width 0 ? p = p->_parent; } assert(p && p->getLayoutType() == kLayoutMain); return p->getWidth() - width; } int16 ThemeLayoutStacked::getParentHeight() { ThemeLayout *p = _parent; int height = 0; while (p && p->getLayoutType() != kLayoutMain) { height += p->_padding.bottom + p->_padding.top; if (p->getLayoutType() == kLayoutVertical) { const int spacing = ((ThemeLayoutStacked *)p)->_spacing; for (uint i = 0; i < p->_children.size(); ++i) height += p->_children[i]->getHeight() + spacing; } // FIXME: Do we really want to assume that any layout type different // from kLayoutVertical corresponds to height 0 ? p = p->_parent; } assert(p && p->getLayoutType() == kLayoutMain); return p->getHeight() - height; } #ifdef LAYOUT_DEBUG_DIALOG void ThemeLayout::debugDraw(Graphics::Surface *screen, const Graphics::Font *font) { uint32 color = 0xFFFFFFFF; font->drawString(screen, getName(), _x, _y, _w, color, Graphics::kTextAlignRight, 0, true); screen->hLine(_x, _y, _x + _w, color); screen->hLine(_x, _y + _h, _x + _w , color); screen->vLine(_x, _y, _y + _h, color); screen->vLine(_x + _w, _y, _y + _h, color); for (uint i = 0; i < _children.size(); ++i) _children[i]->debugDraw(screen, font); } #endif bool ThemeLayoutWidget::getWidgetData(const Common::String &name, int16 &x, int16 &y, uint16 &w, uint16 &h) { if (name == _name) { x = _x; y = _y; w = _w; h = _h; return true; } return false; } Graphics::TextAlign ThemeLayoutWidget::getWidgetTextHAlign(const Common::String &name) { if (name == _name) { return _textHAlign; } return Graphics::kTextAlignInvalid; } void ThemeLayoutMain::reflowLayout() { assert(_children.size() <= 1); if (_children.size()) { _children[0]->resetLayout(); _children[0]->setWidth(_w); _children[0]->setHeight(_h); _children[0]->reflowLayout(); if (_w == -1) _w = _children[0]->getWidth(); if (_h == -1) _h = _children[0]->getHeight(); if (_y == -1) _y = (g_system->getOverlayHeight() >> 1) - (_h >> 1); if (_x == -1) _x = (g_system->getOverlayWidth() >> 1) - (_w >> 1); } } void ThemeLayoutStacked::reflowLayoutVertical() { int curX, curY; int resize[8]; int rescount = 0; curX = _padding.left; curY = _padding.top; _h = _padding.top + _padding.bottom; for (uint i = 0; i < _children.size(); ++i) { _children[i]->resetLayout(); _children[i]->reflowLayout(); if (_children[i]->getWidth() == -1) _children[i]->setWidth((_w == -1 ? getParentWidth() : _w) - _padding.left - _padding.right); if (_children[i]->getHeight() == -1) { assert(rescount < ARRAYSIZE(resize)); resize[rescount++] = i; _children[i]->setHeight(0); } _children[i]->offsetY(curY); // Center child if it this has been requested *and* the space permits it. if (_centered && _children[i]->getWidth() < _w && _w != -1) { _children[i]->offsetX((_w >> 1) - (_children[i]->getWidth() >> 1)); } else _children[i]->offsetX(curX); // Advance the vertical offset by the height of the newest item, plus // the item spacing value. curY += _children[i]->getHeight() + _spacing; // Update width and height of this stack layout _w = MAX(_w, (int16)(_children[i]->getWidth() + _padding.left + _padding.right)); _h += _children[i]->getHeight() + _spacing; } // If there are any children at all, then we added the spacing value once // too often. Correct that. if (!_children.empty()) _h -= _spacing; // If there were any items with undetermined height, then compute and set // their height now. We do so by determining how much space is left, and // then distributing this equally over all items which need auto-resizing. if (rescount) { int newh = (getParentHeight() - _h - _padding.bottom) / rescount; for (int i = 0; i < rescount; ++i) { // Set the height of the item. _children[resize[i]]->setHeight(newh); // Increase the height of this ThemeLayoutStacked accordingly, and // then shift all subsequence children. _h += newh; for (uint j = resize[i] + 1; j < _children.size(); ++j) _children[j]->offsetY(newh); } } } void ThemeLayoutStacked::reflowLayoutHorizontal() { int curX, curY; int resize[8]; int rescount = 0; curX = _padding.left; curY = _padding.top; _w = _padding.left + _padding.right; for (uint i = 0; i < _children.size(); ++i) { _children[i]->resetLayout(); _children[i]->reflowLayout(); if (_children[i]->getHeight() == -1) _children[i]->setHeight((_h == -1 ? getParentHeight() : _h) - _padding.top - _padding.bottom); if (_children[i]->getWidth() == -1) { assert(rescount < ARRAYSIZE(resize)); resize[rescount++] = i; _children[i]->setWidth(0); } _children[i]->offsetX(curX); // Center child if it this has been requested *and* the space permits it. if (_centered && _children[i]->getHeight() < _h && _h != -1) _children[i]->offsetY((_h >> 1) - (_children[i]->getHeight() >> 1)); else _children[i]->offsetY(curY); // Advance the horizontal offset by the width of the newest item, plus // the item spacing value. curX += (_children[i]->getWidth() + _spacing); // Update width and height of this stack layout _w += _children[i]->getWidth() + _spacing; _h = MAX(_h, (int16)(_children[i]->getHeight() + _padding.top + _padding.bottom)); } // If there are any children at all, then we added the spacing value once // too often. Correct that. if (!_children.empty()) _w -= _spacing; // If there were any items with undetermined width, then compute and set // their width now. We do so by determining how much space is left, and // then distributing this equally over all items which need auto-resizing. if (rescount) { int neww = (getParentWidth() - _w - _padding.right) / rescount; for (int i = 0; i < rescount; ++i) { // Set the width of the item. _children[resize[i]]->setWidth(neww); // Increase the width of this ThemeLayoutStacked accordingly, and // then shift all subsequence children. _w += neww; for (uint j = resize[i] + 1; j < _children.size(); ++j) _children[j]->offsetX(neww); } } } } // End of namespace GUI