/* 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. * * $URL$ * $Id$ * */ /* TODO: - rewrite functions (GetShortestPath etc.) */ #include "graphics/primitives.h" #include "common/list.h" #include "common/rect.h" #include "common/util.h" #include "m4/rails.h" #include "m4/m4.h" namespace M4 { #define TOP_EDGE 1 << 0 #define LEFT_EDGE 1 << 1 #define BOTTOM_EDGE 1 << 2 #define RIGHT_EDGE 1 << 3 Rails::Rails() { } Rails::~Rails() { clearRails(); } void Rails::clearRails() { uint32 i; Common::List::iterator j; RailNode *tempNode; for (i = 0; i < _nodes.size(); i++) { tempNode = _nodes[i]; _nodes.remove_at(i); delete tempNode; } for (i = 0; i < _edges.size(); i++) { _edges.remove_at(i); } for (j = _noWalkRects.begin(); j != _noWalkRects.end(); ++j) delete (*j); _noWalkRects.clear(); } static void checkPoint(int x, int y, int color, void *data) { IsWalkableData *isWalkableData = (IsWalkableData*)data; if (!isWalkableData->result) return; else { M4Surface *codes = isWalkableData->codes; if (x >= 0 && x < codes->width() && y >= 0 && y < codes->height()) { isWalkableData->result = !((*((uint8*)codes->getBasePtr(x, y))) & 0x10); } else { isWalkableData->result = false; } } } bool Rails::isLineWalkable(int x0, int y0, int x1, int y1) { IsWalkableData isWalkableData; isWalkableData.codes = _walkCodes; isWalkableData.result = true; Graphics::drawLine(x0, y0, x1, y1, 0, &checkPoint, &isWalkableData); return isWalkableData.result; } // helper function uint8 getEndCode(int32 x, int32 y, Common::Rect rect) { uint8 endCode = 0; endCode = (x < rect.left) ? LEFT_EDGE : endCode; endCode = (x > rect.right) ? RIGHT_EDGE : endCode; endCode = (y < rect.top) ? endCode | TOP_EDGE : endCode; endCode = (y > rect.bottom) ? endCode | BOTTOM_EDGE : endCode; return endCode; } bool Rails::lineCrossesRect(int32 x1, int32 y1, int32 x2, int32 y2, Common::Rect rect) { int32 mX, mY; int32 pX1 = x1, pX2 = x2, pY1 = y1, pY2 = y2; uint8 endCode1, endCode2, midCode; if (rect.left > rect.right || rect.top > rect.bottom) return false; // Cohen-Sutherland line clipping algorithm endCode1 = getEndCode(pX1, pY1, rect); endCode2 = getEndCode(pX2, pY2, rect); if (!endCode1 || !endCode2) // if both endcodes are zero return true; // point is inside the rectangle, therefore the line intersects while (true) { if (endCode1 & endCode2) // if both endcodes have a common bitset return false; // line is completely off one edge // calculate midpoint mX = (pX1 + pX2)>>1; mY = (pY1 + pY2)>>1; // avoid round-off error: make sure that the midpoint isn't the same as one of the // two endpoints if (((mX == pX1) && (mY == pY1)) || ((mX == pX2) && (mY == pY2))) return false; midCode = getEndCode(mX, mY, rect); if (!midCode) { return true; } else if (midCode & endCode1) { // the midCode and an end point form a line segment completely off one edge, so // remove that half of the line segment pX1 = mX; pY1 = mY; endCode1 = midCode; } else { pX2 = mX; pY2 = mY; endCode2 = midCode; } } } bool Rails::linePassesThroughRect(int32 x1, int32 y1, int32 x2, int32 y2) { if (_noWalkRects.empty()) return false; bool intersected = false; Common::List::iterator i; for (i = _noWalkRects.begin(); i != _noWalkRects.end(); ++i) { intersected = lineCrossesRect(x1, y1, x2, y2, Common::Rect((*i)->x1, (*i)->y1, (*i)->x2, (*i)->y2)); if (intersected) break; } return intersected; } long SqrtF16(long n) { uint32 r = 0, s; uint32 v = (uint32)n; for (int i = 15; i <= 0; i--) { s = r + (1L << i * 2); r >>= 1; if (s <= v) { v -= s; r |= (1L << i * 2); } } return (long)r; } void Rails::createEdge(int32 node1, int32 node2) { uint32 index; int32 x1, y1, x2, y2; bool valid, finished; long deltaX, deltaY, distance; uint8 *walkCodePtr; if ((node1 < 0) || (node1 >= MAXRAILNODES) || (node2 < 0) || (node2 >= MAXRAILNODES)) return; if (node1 == node2) return; if (node2 < node1) SWAP(node1, node2); // ensure node1 < node2 // Find the table entry i.e. tableWidth * node1 + node2 and then subtract // n(n+1)/2, since only the upper triangle of the table is stored index = (MAXRAILNODES-1) * node1 + node2 - 1 - (node1*(node1+1)>>1); if (index > _edges.size() - 1) _edges.resize(index + 1); _edges.insert_at(index, 0); valid = true; walkCodePtr = NULL; finished = false; if (_nodes.size() <= (uint32)node1 || _nodes.size() <= (uint32)node2) return; x1 = _nodes[node1]->x; y1 = _nodes[node1]->y; x2 = _nodes[node2]->x; y2 = _nodes[node2]->y; // Make sure that the algorithm is symmetric if (x2 < x1) { SWAP(x1, x2); SWAP(y1, y2); } valid = isLineWalkable(_nodes[node1]->x, _nodes[node1]->y, _nodes[node2]->x, _nodes[node2]->y); printf("test code says: %d\n", valid); // Check if the line passes through a forbidden rectangle if (valid) { if (linePassesThroughRect(x1, y1, x2, y2)) { valid = false; } } if (valid) { deltaX = ABS(((long)(x2 - x1)) << 16); deltaY = ABS(((long)(y2 - y1)) << 16); if ((deltaX >= 0x800000) || (deltaY >= 0x800000)) { deltaX >>= 16; deltaY >>= 16; distance = (long)(SqrtF16(deltaX * deltaX + deltaY * deltaY) << 16); } else { distance = SqrtF16(FixedMul(deltaX, deltaX) + FixedMul(deltaY, deltaY)) << 8; } _edges.insert_at(index, (int16*)(distance >> 16)); } printf("node1 = %d, node2 = %d, valid = %d\n", node1, node2, valid); } void Rails::restoreNodeEdges(int32 nodeID) { for (int32 i = 0; i < MAXRAILNODES; i++) { createEdge(i, nodeID); } } void Rails::restoreEdgeList() { int32 j; for (int32 i = 0; i < MAXRAILNODES; i++) { for (j = i + 1; j < MAXRAILNODES; j++) { createEdge(i, j); } } } int32 Rails::addRailNode(int32 x, int32 y, bool restoreEdges) { uint32 i = _nodes.size(); if (i >= MAXRAILNODES) return -1; RailNode *newNode = new RailNode(); newNode->nodeID = i; newNode->x = x; newNode->y = y; _nodes.insert_at(i, newNode); if (restoreEdges) { for (uint32 j=0; j<_nodes.size(); j++) createEdge(i, j); } return i; } bool Rails::removeRailNode(int32 nodeID, bool restoreEdges) { if (nodeID < 0 || nodeID >= MAXRAILNODES) return false; if (_nodes.empty() || _edges.empty()) return false; RailNode *tempNode = _nodes[nodeID]; _nodes.remove_at(nodeID); delete tempNode; if (restoreEdges) { restoreNodeEdges(nodeID); } return true; } int16 Rails::getEdgeLength(int32 node1, int32 node2) { int32 index; if (_edges.empty() || node1 == node2) return 0; if (node2 < node1) SWAP(node1, node2); // Find the table entry i.e. tableWidth * node1 + node2 and then subtract // n(n+1)/2, since only the upper triangle of the table is stored index = (MAXRAILNODES-1)*node1 + node2 - 1 - (node1*(node1+1)>>1); return *_edges[index]; } void Rails::disposePath(RailNode *pathStart) { RailNode *tempNode = pathStart; while (tempNode) { pathStart = pathStart->shortPath; delete tempNode; tempNode = pathStart; } } /* static RailNode* duplicatePath(RailNode *pathStart) { RailNode *newNode = NULL; RailNode *firstNode = NULL; RailNode *prevNode = NULL; // A valid path is assumed RailNode *pathNode = pathStart; while (pathNode) { newNode = new RailNode(); newNode->x = pathNode->x; newNode->y = pathNode->y; newNode->shortPath = NULL; if (!firstNode) firstNode = newNode; else prevNode->shortPath = newNode; prevNode = newNode; // Get the next node pathNode = pathNode->shortPath; } return firstNode; } */ bool Rails::getShortestPath(int32 origID, int32 destID, RailNode **shortPath) { // TODO return true; } } // End of namespace M4