/* 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. * * $URL$ * $Id$ * */ #include "sci/sci.h" // for INCLUDE_OLDGFX #ifdef INCLUDE_OLDGFX #include "sci/gfx/palette.h" #include "sci/gfx/gfx_system.h" // #define DEBUG_MERGE namespace Sci { Palette::Palette(uint s) { _size = s; _colors = new PaletteEntry[s]; _parent = 0; _dirty = true; _refcount = 1; _revision = 0; } Palette::Palette(const PaletteEntry *colors, uint s) { _size = s; _colors = new PaletteEntry[s]; _parent = 0; _dirty = true; _refcount = 1; _revision = 0; for (uint i = 0; i < _size; ++i) { _colors[i].r = colors[i].r; _colors[i].g = colors[i].g; _colors[i].b = colors[i].b; _colors[i].refcount = 0; _colors[i]._parentIndex = -1; } } Palette::~Palette() { if (_parent) unmerge(); delete[] _colors; _colors = 0; } Palette *Palette::getref() { _refcount++; return this; } void Palette::free() { assert(_refcount > 0); _refcount--; if (_refcount == 0) delete this; } void Palette::resize(uint s) { if (s == _size) return; assert(!_parent); assert(_refcount == 1); assert(s >= _size); PaletteEntry *n = new PaletteEntry[s]; for (uint i = 0; i < _size; ++i) n[i] = _colors[i]; delete[] _colors; _colors = n; _size = s; } void Palette::unmerge() { assert(_parent); #ifdef DEBUG_MERGE fprintf(stderr, "Unmerge %s from %s (%d colors)\n", name.c_str(), _parent->name.c_str(), _size); #endif if (_parent->_revision != _revision) { #ifdef DEBUG_MERGE fprintf(stderr, "NOP (revision mismatch)\n"); #endif return; } int count = 0; for (uint i = 0; i < _size; ++i) { if (_colors[i].refcount == PaletteEntry::FREE) { assert(_colors[i]._parentIndex == 0); } int pi = _colors[i]._parentIndex; assert(pi >= 0); assert(pi < (int)_parent->_size); assert(_parent->_colors[pi].refcount != 0); assert(_parent->_colors[pi].refcount != PaletteEntry::FREE); if (_parent->_colors[pi].refcount != PaletteEntry::LOCKED) _parent->_colors[pi].refcount--; if (_parent->_colors[pi].refcount == 0) { _parent->_colors[pi].refcount = PaletteEntry::FREE; count++; } _colors[i]._parentIndex = -1; } #ifdef DEBUG_MERGE fprintf(stderr, "Unmerge free %d colors\n", count); #endif _parent = 0; } void Palette::setColor(uint index, byte r, byte g, byte b, int parentIndex) { assert(index < _size); assert(!_parent); // FIXME: We may want to have this assert. This will require changing the // way loops sharing a single view's palette works. // assert(_refcount == 1); PaletteEntry& entry = _colors[index]; assert(entry.refcount == PaletteEntry::FREE || entry.refcount == 0); entry.refcount = 0; entry.r = r; entry.g = g; entry.b = b; entry._parentIndex = parentIndex; _dirty = true; } void Palette::makeSystemColor(uint index, const PaletteEntry &color) { assert(index < _size); PaletteEntry& entry = _colors[index]; entry.r = color.r; entry.g = color.g; entry.b = color.b; entry.refcount = PaletteEntry::LOCKED; } uint Palette::findNearbyColor(byte r, byte g, byte b, bool lock) { int bestdelta = 1 + ((0x100 * 0x100) * 3); int bestcolor = -1; int firstfree = -1; assert(_size != 0); for (uint i = 0; i < _size; ++i) { PaletteEntry& entry = _colors[i]; if (entry.refcount != PaletteEntry::FREE) { int dr = abs(entry.r - r); int dg = abs(entry.g - g); int db = abs(entry.b - b); if (dr == 0 && dg == 0 && db == 0) { // Exact match //exact = true; if (lock && entry.refcount != PaletteEntry::LOCKED) entry.refcount++; return i; } int delta = (dr * dr) + (dg * dg) + (db * db); if (delta < bestdelta) { bestdelta = delta; bestcolor = i; } } else { if (firstfree == -1) firstfree = i; } } if (firstfree != -1) { // TODO: mark palette as dirty setColor(firstfree, r, g, b); //exact = true; if (lock) _colors[firstfree].refcount++; return firstfree; } //exact = false; if (lock && _colors[bestcolor].refcount != PaletteEntry::LOCKED) { #if 0 _colors[bestcolor].r = r; _colors[bestcolor].g = g; _colors[bestcolor].b = b; _dirty = true; #endif _colors[bestcolor].refcount++; } return bestcolor; } bool Palette::mergeInto(Palette *parent) { assert(!_parent || _parent == parent); assert(parent != this); #ifdef DEBUG_MERGE fprintf(stderr, "Merge: %s into %s (%d colors)\n", name.c_str(), parent->name.c_str(), _size); #endif if (_parent == parent && parent->_revision == _revision) { #ifdef DEBUG_MERGE fprintf(stderr, "NOP\n"); #endif return false; } _parent = parent; _revision = parent->_revision; #ifdef DEBUG_MERGE bool *used = new bool[_parent->size()]; for (uint i = 0; i < _parent->size(); ++i) used[i] = false; int count = 0; uint used_min = 1000; uint used_max = 0; #endif for (uint i = 0; i < _size; ++i) { PaletteEntry& entry = _colors[i]; if (entry.refcount == PaletteEntry::FREE) { // Force all unused colours to index 0 entry._parentIndex = 0; if (_parent->_colors[0].refcount != PaletteEntry::LOCKED) _parent->_colors[0].refcount++; if (_colors[i].r || _colors[i].g || _colors[i].b) warning("Non-black unused colour in pic: index %d, %02X %02X %02X", i, _colors[i].r, _colors[i].g, _colors[i].b); continue; } uint pi = _parent->findNearbyColor(entry.r, entry.g, entry.b); #ifdef DEBUG_MERGE if (!used[pi]) count++; used[pi] = true; if (pi > used_max) used_max = pi; if (pi < used_min) used_min = pi; #endif entry._parentIndex = pi; if (_parent->_colors[pi].refcount != PaletteEntry::LOCKED) _parent->_colors[pi].refcount++; } #ifdef DEBUG_MERGE fprintf(stderr, "Merge used %d colours in [%d..%d]\n", count, used_min, used_max); delete[] used; #endif return true; } void Palette::forceInto(Palette *parent) { assert(!_parent || _parent == parent); assert(parent != this); #ifdef DEBUG_MERGE fprintf(stderr, "Merge: force %s into %s (%d colors)\n", name.c_str(), parent->name.c_str(), _size); #endif _parent = parent; parent->_revision++; _revision = parent->_revision; for (unsigned int i = 0; i < _size; ++i) { // FIXME: PaletteEntry::LOCKED doesn't work well with forceInto... if (_colors[i].refcount != PaletteEntry::FREE) { _parent->_colors[i] = _colors[i]; _parent->_colors[i]._parentIndex = -1; _colors[i]._parentIndex = i; if (_parent->_colors[i].refcount != PaletteEntry::LOCKED) _parent->_colors[i].refcount = 1; } else { _parent->_colors[i].refcount = 0; // Force all unused colours to index 0 _colors[i]._parentIndex = 0; if (_parent->_colors[0].refcount != PaletteEntry::LOCKED) { if (i == 0) _parent->_colors[0].refcount = 1; else _parent->_colors[0].refcount++; } if (_colors[i].r || _colors[i].g || _colors[i].b) warning("Non-black unused colour in pic: index %d, %02X %02X %02X", i, _colors[i].r, _colors[i].g, _colors[i].b); } } _parent->_dirty = true; } Palette *Palette::copy() { assert(!_parent); Palette* p = new Palette(_size); p->name = "copy of " + name; for (uint i = 0; i < _size; ++i) { p->_colors[i] = _colors[i]; if (p->_colors[i].refcount >= 0) p->_colors[i].refcount = 0; } return p; } } // End of namespace Sci #endif