/* 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/system.h" #include "common/textconsole.h" #include "hopkins/lines.h" #include "hopkins/graphics.h" #include "hopkins/hopkins.h" namespace Hopkins { LinesManager::LinesManager() { for (int i = 0; i < MAX_LINES; ++i) { Common::fill((byte *)&_zoneLine[i], (byte *)&_zoneLine[i] + sizeof(LigneZoneItem), 0); Common::fill((byte *)&Ligne[i], (byte *)&Ligne[i] + sizeof(LigneItem), 0); } for (int i = 0; i < 4000; ++i) { Common::fill((byte *)&_smoothRoute[i], (byte *)&_smoothRoute[i] + sizeof(SmoothItem), 0); } for (int i = 0; i < 32002; ++i) super_parcours[i] = 0; for (int i = 0; i < 101; ++i) { Common::fill((byte *)&_segment[i], (byte *)&_segment[i] + sizeof(SegmentItem), 0); Common::fill((byte *)&_squareZone[i], (byte *)&_squareZone[i] + sizeof(SquareZoneItem), 0); } _linesNumb = 0; NV_LIGNEDEP = 0; NV_LIGNEOFS = 0; NV_POSI = 0; NVPX = 0; NVPY = 0; _smoothMoveDirection = 0; _lastLine = 0; _maxLineIdx = 0; _pathFindingMaxDepth = 0; essai0 = NULL; essai1 = NULL; essai2 = NULL; BufLig = (int16 *)g_PTRNUL; _route = (int16 *)g_PTRNUL; _currentSegmentId = 0; BUFFERTAPE = NULL; } LinesManager::~LinesManager() { _vm->_globals.freeMemory(BUFFERTAPE); } void LinesManager::setParent(HopkinsEngine *vm) { _vm = vm; } /** * Load lines */ void LinesManager::loadLines(const Common::String &file) { resetLines(); _linesNumb = 0; _lastLine = 0; byte *ptr = _vm->_fileManager.loadFile(file); for (int idx = 0; (int16)READ_LE_UINT16((uint16 *)ptr + (idx * 5)) != -1; idx++) { addLine(idx, (int16)READ_LE_UINT16((uint16 *)ptr + (idx * 5)), (int16)READ_LE_UINT16((uint16 *)ptr + (idx * 5) + 1), (int16)READ_LE_UINT16((uint16 *)ptr + (idx * 5) + 2), (int16)READ_LE_UINT16((uint16 *)ptr + (idx * 5) + 3), (int16)READ_LE_UINT16((uint16 *)ptr + (idx * 5) + 4)); } initRoute(); _vm->_globals.freeMemory(ptr); } /** * Check Hotspots in Inventory screen * Returns the ID of the hotspot under mouse */ int LinesManager::checkInventoryHotspots(int posX, int posY) { int hotspotId = 0; if (posY >= 120 && posY <= 153) hotspotId = checkInventoryHotspotsRow(posX, 1, false); if (posY >= 154 && posY <= 191) hotspotId = checkInventoryHotspotsRow(posX, 7, false); if (posY >= 192 && posY <= 229) hotspotId = checkInventoryHotspotsRow(posX, 13, false); if (posY >= 230 && posY <= 267) hotspotId = checkInventoryHotspotsRow(posX, 19, false); if (posY >= 268 && posY <= 306) hotspotId = checkInventoryHotspotsRow(posX, 25, true); if (posY >= 268 && posY <= 288 && posX >= _vm->_graphicsManager._scrollOffset + 424 && posX <= _vm->_graphicsManager._scrollOffset + 478) hotspotId = 30; if (posY >= 290 && posY <= 306 && posX >= _vm->_graphicsManager._scrollOffset + 424 && posX <= _vm->_graphicsManager._scrollOffset + 478) hotspotId = 31; if (posY < 114 || posY > 306 || posX < _vm->_graphicsManager._scrollOffset + 152 || posX > _vm->_graphicsManager._scrollOffset + 484) hotspotId = 32; return hotspotId; } /** * Check the hotspots in an inventory line * Returns the hotspot Id under the mouse, if any. */ int LinesManager::checkInventoryHotspotsRow(int posX, int minZoneNum, bool lastRow) { int result = minZoneNum; if (posX >= _vm->_graphicsManager._scrollOffset + 158 && posX < _vm->_graphicsManager._scrollOffset + 208) return result; if (posX >= _vm->_graphicsManager._scrollOffset + 208 && posX < _vm->_graphicsManager._scrollOffset + 266) { result += 1; return result; } if (posX >= _vm->_graphicsManager._scrollOffset + 266 && posX < _vm->_graphicsManager._scrollOffset + 320) { result += 2; return result; } if (posX >= _vm->_graphicsManager._scrollOffset + 320 && posX < _vm->_graphicsManager._scrollOffset + 370) { result += 3; return result; } if (posX >= _vm->_graphicsManager._scrollOffset + 370 && posX < _vm->_graphicsManager._scrollOffset + 424) { result += 4; return result; } if (!lastRow && posX >= _vm->_graphicsManager._scrollOffset + 424 && posX <= _vm->_graphicsManager._scrollOffset + 478) { result += 5; return result; } return 0; } /** * Add Zone Line */ void LinesManager::addZoneLine(int idx, int a2, int a3, int a4, int a5, int bobZoneIdx) { int16 *zoneData; if (a2 == a3 && a3 == a4 && a3 == a5) { _vm->_globals.BOBZONE_FLAG[bobZoneIdx] = true; _vm->_globals.BOBZONE[bobZoneIdx] = a3; } else { assert (idx <= MAX_LINES); _zoneLine[idx]._zoneData = (int16 *)_vm->_globals.freeMemory((byte *)_zoneLine[idx]._zoneData); int v8 = abs(a2 - a4); int v9 = abs(a3 - a5); int v20 = 1; if (v8 <= v9) v20 += v9; else v20 += v8; zoneData = (int16 *)_vm->_globals.allocMemory(2 * sizeof(int16) * v20 + (4 * sizeof(int16))); assert(zoneData != (int16 *)g_PTRNUL); _zoneLine[idx]._zoneData = zoneData; int16 *dataP = zoneData; int v23 = 1000 * v8 / v20; int v22 = 1000 * v9 / v20; if (a4 < a2) v23 = -v23; if (a5 < a3) v22 = -v22; int v13 = 1000 * a2; int v16 = 1000 * a3; for (int i = 0; i < v20; i++) { *dataP++ = v13 / 1000; *dataP++ = v16 / 1000; v13 += v23; v16 += v22; } *dataP++ = -1; *dataP++ = -1; _zoneLine[idx]._count = v20; _zoneLine[idx]._bobZoneIdx = bobZoneIdx; } } /** * Add Line */ void LinesManager::addLine(int idx, int direction, int a3, int a4, int a5, int a6) { assert (idx <= MAX_LINES); if (_linesNumb < idx) _linesNumb = idx; Ligne[idx]._lineData = (int16 *)_vm->_globals.freeMemory((byte *)Ligne[idx]._lineData); int v7 = abs(a3 - a5); int v8 = v7 + 1; int v9 = abs(a4 - a6); int v34 = v9 + 1; int v33 = v9 + 1; if (v8 > v34) v34 = v8; byte *v10 = _vm->_globals.allocMemory(4 * v34 + 8); assert (v10 != g_PTRNUL); Common::fill(v10, v10 + 4 * v34 + 8, 0); Ligne[idx]._lineData = (int16 *)v10; int16 *v32 = Ligne[idx]._lineData; int v36 = 1000 * v8; int v39 = 1000 * v8 / (v34 - 1); int v37 = 1000 * v33 / (v34 - 1); if (a5 < a3) v39 = -v39; if (a6 < a4) v37 = -v37; int v11 = (int)v39 / 1000; int v12 = (int)v37 / 1000; if (!v11) { if (v12 == -1) { Ligne[idx].field6 = 1; Ligne[idx].field8 = 5; } if (v12 == 1) { Ligne[idx].field6 = 5; Ligne[idx].field8 = 1; } } if (v11 == 1) { if (v12 == -1) { Ligne[idx].field6 = 2; Ligne[idx].field8 = 6; } if (!v12) { Ligne[idx].field6 = 3; Ligne[idx].field8 = 7; } if (v12 == 1) { Ligne[idx].field6 = 4; Ligne[idx].field8 = 8; } } if (v11 == -1) { if (v12 == 1) { Ligne[idx].field6 = 6; Ligne[idx].field8 = 2; } if (!v12) { Ligne[idx].field6 = 7; Ligne[idx].field8 = 3; } if (v12 == -1) { Ligne[idx].field6 = 8; Ligne[idx].field8 = 4; } } if (v11 == 1 && v37 > 250 && v37 <= 999) { Ligne[idx].field6 = 4; Ligne[idx].field8 = 8; } if (v11 == -1 && v37 > 250 && v37 <= 999) { Ligne[idx].field6 = 6; Ligne[idx].field8 = 2; } if (v11 == 1 && v37 < -250 && v37 > -1000) { Ligne[idx].field6 = 2; Ligne[idx].field8 = 6; } // This condition is impossible to meet! // Code present in the Linux and BeOS executables // CHECKME: maybe it should be checking negative values? if (v11 == -1 && v37 <= 249 && v37 > 1000) { Ligne[idx].field6 = 8; Ligne[idx].field8 = 4; } int v40 = v36 / v34; int v38 = 1000 * v33 / v34; if (a5 < a3) v40 = -v40; if (a6 < a4) v38 = -v38; int v24 = 1000 * a3; int v25 = 1000 * a4; int v31 = 1000 * a3 / 1000; int v30 = 1000 * a4 / 1000; int v35 = v34 - 1; for (int v26 = 0; v26 < v35; v26++) { v32[0] = v31; v32[1] = v30; v32 += 2; v24 += v40; v25 += v38; v31 = v24 / 1000; v30 = v25 / 1000; } v32[0] = a5; v32[1] = a6; v32 += 2; v32[0] = -1; v32[1] = -1; Ligne[idx]._lineDataEndIdx = v35 + 1; Ligne[idx]._direction = direction; ++_linesNumb; } /** * Check collision line */ bool LinesManager::checkCollisionLine(int xp, int yp, int *foundDataIdx, int *foundLineIdx, int startLineIdx, int endLineIdx) { int16 *lineData; int left = xp + 4; int right = xp - 4; int top = yp + 4; int bottom = yp - 4; *foundDataIdx = -1; *foundLineIdx = -1; for (int curLineIdx = startLineIdx; curLineIdx <= endLineIdx; curLineIdx++) { lineData = Ligne[curLineIdx]._lineData; if (lineData == (int16 *)g_PTRNUL) continue; bool collisionFl = true; int lineStartX = lineData[0]; int lineStartY = lineData[1]; int lineDataIdx = 2 * Ligne[curLineIdx]._lineDataEndIdx; int lineEndX = lineData[lineDataIdx - 2]; int lineEndY = lineData[lineDataIdx - 1]; if (lineStartX >= lineEndX) { if (right > lineStartX || left < lineEndX) collisionFl = false; } else { // lineStartX < lineEndX if (left < lineStartX || right > lineEndX) collisionFl = false; } if (lineStartY >= lineEndY) { if (bottom > lineStartY || top < lineEndY) collisionFl = false; } else { // lineStartY < lineEndY if (top < lineStartY || bottom > lineEndY) collisionFl = false; } if (!collisionFl) continue; for (int idx = 0; idx < Ligne[curLineIdx]._lineDataEndIdx; idx++) { int lineX = lineData[0]; int lineY = lineData[1]; lineData += 2; if ((xp == lineX || xp + 1 == lineX) && (yp == lineY || yp + 1 == lineY)) { *foundDataIdx = idx; *foundLineIdx = curLineIdx; return true; } } } return false; } /** * Init route */ void LinesManager::initRoute() { int lineX = Ligne[0]._lineData[0]; int lineY = Ligne[0]._lineData[1]; int lineIdx = 1; for (;;) { int curDataIdx = Ligne[lineIdx]._lineDataEndIdx; int16 *curLineData = Ligne[lineIdx]._lineData; int curLineX = curLineData[2 * curDataIdx - 2]; int curLineY = curLineData[2 * curDataIdx - 1]; if (_vm->_graphicsManager._maxX == curLineX || _vm->_graphicsManager._maxY == curLineY || _vm->_graphicsManager._minX == curLineX || _vm->_graphicsManager._minY == curLineY || (lineX == curLineX && lineY == curLineY)) break; if (lineIdx == MAX_LINES) error("ERROR - LAST LINE NOT FOUND"); int16 *nextLineData = Ligne[lineIdx + 1]._lineData; if (nextLineData[0] != curLineX && nextLineData[1] != curLineY) break; ++lineIdx; } _lastLine = lineIdx; for (int idx = 1; idx < MAX_LINES; idx++) { if ((Ligne[idx]._lineDataEndIdx < _maxLineIdx) && (idx != _lastLine + 1)) { Ligne[idx].field6 = Ligne[idx - 1].field6; Ligne[idx].field8 = Ligne[idx - 1].field8; } } } // Avoid int LinesManager::CONTOURNE(int a1, int a2, int a3, int a4, int a5, int16 *route, int a7) { int v36 = a1; int v7 = a2; int v8 = a3; if (a1 < a4) { for (int i = a2; Ligne[a1]._lineDataEndIdx > i; ++i) { route[v8] = Ligne[a1]._lineData[2 * i]; route[v8 + 1] = Ligne[a1]._lineData[2 * i + 1]; route[v8 + 2] = Ligne[a1].field6; v8 += a7; } for (int i = a1 + 1; i < a4; i++) { for (int j = 0; j < Ligne[i]._lineDataEndIdx; j++) { route[v8] = Ligne[i]._lineData[2 * j]; route[v8 + 1] = Ligne[i]._lineData[2 * j + 1]; route[v8 + 2] = Ligne[i].field6; v8 += a7; } } v7 = 0; v36 = a4; } if (v36 > a4) { for (int i = v7; i > 0; --i) { route[v8] = Ligne[v36]._lineData[2 * i]; route[v8 + 1] = Ligne[v36]._lineData[2 * i + 1]; route[v8 + 2] = Ligne[v36].field8; v8 += a7; } for (int i = v36 - 1; i > a4; i--) { for (int j = Ligne[i]._lineDataEndIdx - 1; j > 0; --j) { route[v8] = Ligne[i]._lineData[2 * j]; route[v8 + 1] = Ligne[i]._lineData[2 * j + 1]; route[v8 + 2] = Ligne[i].field8; v8 += a7; } } v7 = Ligne[a4]._lineDataEndIdx - 1; v36 = a4; } if (v36 == a4) { if (a5 >= v7) { for (int i = v7; i < a5; i++) { route[v8] = Ligne[a4]._lineData[2 * i]; route[v8 + 1] = Ligne[a4]._lineData[2 * i + 1]; route[v8 + 2] = Ligne[a4].field6; v8 += a7; } } else { for (int i = v7; i > a5; --i) { route[v8] = Ligne[a4]._lineData[2 * i]; route[v8 + 1] = Ligne[a4]._lineData[2 * i+ 1]; route[v8 + 2] = Ligne[a4].field8; v8 += a7; } } } return v8; } // Avoid 1 int LinesManager::CONTOURNE1(int a1, int a2, int a3, int a4, int a5, int16 *route, int a7, int a8, int a9) { int v9 = a1; int v10 = a2; int v40 = a3; if (a4 < a1) { for (int i = a2; i < Ligne[a1]._lineDataEndIdx; ++i) { route[v40] = Ligne[a1]._lineData[2 * i]; route[v40 + 1] = Ligne[a1]._lineData[2 * i + 1]; route[v40 + 2] = Ligne[a1].field6; v40 += a7; } int v15 = a1 + 1; if (v15 == a9 + 1) v15 = a8; while (a4 != v15) { for (int i = 0; i < Ligne[v15]._lineDataEndIdx; i++) { route[v40] = Ligne[v15]._lineData[2 * i]; route[v40 + 1] = Ligne[v15]._lineData[2 * i + 1]; route[v40 + 2] = Ligne[v15].field6; v40 += a7; } ++v15; if (a9 + 1 == v15) v15 = a8; } v10 = 0; v9 = a4; } if (a4 > v9) { for (int i = v10; i > 0; --i) { route[v40] = Ligne[v9]._lineData[2 * i]; route[v40 + 1] = Ligne[v9]._lineData[2 * i + 1]; route[v40 + 2] = Ligne[v9].field8; v40 += a7; } int v24 = v9 - 1; if (v24 == a8 - 1) v24 = a9; while (a4 != v24) { for (int i = Ligne[v24]._lineDataEndIdx - 1; i > 0; --i) { route[v40] = Ligne[v24]._lineData[2 * i]; route[v40 + 1] = Ligne[v24]._lineData[2 * i + 1]; route[v40 + 2] = Ligne[v24].field8; v40 += a7; } --v24; if (a8 - 1 == v24) v24 = a9; } v10 = Ligne[a4]._lineDataEndIdx - 1; v9 = a4; } if (a4 == v9) { if (a5 >= v10) { for (int i = v10; i < a5; i++) { route[v40] = Ligne[a4]._lineData[2 * i]; route[v40 + 1] = Ligne[a4]._lineData[2 * i + 1]; route[v40 + 2] = Ligne[a4].field6; v40 += a7; } } else { for (int i = v10; i > a5; i--) { route[v40] = Ligne[a4]._lineData[2 * i]; route[v40 + 1] = Ligne[a4]._lineData[2 * i + 1]; route[v40 + 2] = Ligne[a4].field8; v40 += a7; } } } return v40; } bool LinesManager::MIRACLE(int a1, int a2, int a3, int a4, int a5) { int v5; int v6; int v7; int v9; int v10; int i; int v12; int v13; int j; int v15; int v16; int k; int v18; int v19; int l; int v21; int v23; int v26; int v29; int v32; int v35 = 0; int v36 = 0; int v37; int v38; int v39; int v40; int v41; int v42 = 0; int v43 = 0; int v44 = 0; int v45 = 0; int v46 = 0; int v47 = 0; int v48 = 0; int v49 = 0; int v50; int v51; v5 = a1; v6 = a2; v50 = a3; v7 = a5; if (checkCollisionLine(a1, a2, &v51, &v50, 0, _linesNumb)) { switch (Ligne[v50]._direction) { case 1: v6 = a2 - 2; break; case 2: v6 -= 2; v5 = a1 + 2; break; case 3: v5 += 2; break; case 4: v6 += 2; v5 += 2; break; case 5: v6 += 2; break; case 6: v6 += 2; v5 -= 2; break; case 7: v5 -= 2; break; case 8: v6 -= 2; v5 -= 2; break; } } v41 = v5; v40 = v6; v9 = 0; v10 = v40; for (i = v40; v40 + 200 > v10; i = v10) { if (checkCollisionLine(v41, i, &v49, &v48, 0, _lastLine) == 1 && v48 <= _lastLine) break; v49 = 0; v48 = -1; ++v9; ++v10; } v37 = v9; v12 = 0; v13 = v40; for (j = v40; v40 - 200 < v13; j = v13) { if (checkCollisionLine(v41, j, &v47, &v46, 0, _lastLine) == 1 && v46 <= _lastLine) break; v47 = 0; v46 = -1; ++v12; --v13; } v39 = v12; v15 = 0; v16 = v41; for (k = v41; v41 + 200 > v16; k = v16) { if (checkCollisionLine(k, v40, &v45, &v44, 0, _lastLine) == 1 && v44 <= _lastLine) break; v45 = 0; v44 = -1; ++v15; ++v16; } v38 = v15; v18 = 0; v19 = v41; for (l = v41; v41 - 200 < v19; l = v19) { if (checkCollisionLine(l, v40, &v43, &v42, 0, _lastLine) == 1 && v42 <= _lastLine) break; v43 = 0; v42 = -1; ++v18; --v19; } if (a4 > v50) { if (v46 != -1 && v46 <= v50) v46 = -1; if (v44 != -1 && v50 >= v44) v44 = -1; if (v48 != -1 && v50 >= v48) v48 = -1; if (v42 != -1 && v50 >= v42) v42 = -1; if (v46 != -1 && a4 < v46) v46 = -1; if (v44 != -1 && a4 < v44) v44 = -1; if (v48 != -1 && a4 < v48) v48 = -1; if (v42 != -1 && a4 < v42) v42 = -1; } if (a4 < v50) { if (v46 != -1 && v46 >= v50) v46 = -1; if (v44 != -1 && v50 <= v44) v44 = -1; if (v48 != -1 && v50 <= v48) v48 = -1; if (v42 != -1 && v50 <= v42) v42 = -1; if (v46 != -1 && a4 > v46) v46 = -1; if (v44 != -1 && a4 > v44) v44 = -1; if (v48 != -1 && a4 > v48) v48 = -1; if (v42 != -1 && a4 > v42) v42 = -1; } if (v46 != -1 || v44 != -1 || v48 != -1 || v42 != -1) { v21 = 0; if (a4 > v50) { if (v48 <= v46 && v44 <= v46 && v42 <= v46 && v46 > v50) v21 = 1; if (v48 <= v44 && v46 <= v44 && v42 <= v44 && v50 < v44) v21 = 3; if (v46 <= v48 && v44 <= v48 && v42 <= v48 && v50 < v48) v21 = 5; if (v48 <= v42 && v44 <= v42 && v46 <= v42 && v50 < v42) v21 = 7; } if (a4 < v50) { if (v46 == -1) v46 = 1300; if (v44 == -1) v44 = 1300; if (v48 == -1) v48 = 1300; if (v42 == -1) v42 = 1300; if (v46 != 1300 && v48 >= v46 && v44 >= v46 && v42 >= v46 && v46 < v50) v21 = 1; if (v44 != 1300 && v48 >= v44 && v46 >= v44 && v42 >= v44 && v50 > v44) v21 = 3; if (v48 != 1300 && v46 >= v48 && v44 >= v48 && v42 >= v48 && v50 > v48) v21 = 5; if (v42 != 1300 && v48 >= v42 && v44 >= v42 && v46 >= v42 && v50 > v42) v21 = 7; } if (v21) { if (v21 == 1) { v36 = v46; v35 = v47; } if (v21 == 3) { v36 = v44; v35 = v45; } if (v21 == 5) { v36 = v48; v35 = v49; } if (v21 == 7) { v36 = v42; v35 = v43; } if (v21 == 1) { for (int v22 = 0; v22 < v39; v22++) { if (checkCollisionLine(v41, v40 - v22, &v47, &v46, _lastLine + 1, _linesNumb) && _lastLine < v46) { v23 = GENIAL(v46, v47, v41, v40 - v22, v41, v40 - v39, v7, &super_parcours[0], 4); if (v23 == -1) return false; v7 = v23; if (NVPY != -1) v22 = NVPY - v40; } super_parcours[v7] = v41; super_parcours[v7 + 1] = v40 - v22; super_parcours[v7 + 2] = 1; super_parcours[v7 + 3] = 0; v7 += 4; } NV_LIGNEDEP = v36; NV_LIGNEOFS = v35; NV_POSI = v7; return true; } if (v21 == 5) { for (int v25 = 0; v25 < v37; v25++) { if (checkCollisionLine(v41, v25 + v40, &v47, &v46, _lastLine + 1, _linesNumb) && _lastLine < v46) { v26 = GENIAL(v46, v47, v41, v25 + v40, v41, v37 + v40, v7, &super_parcours[0], 4); if (v26 == -1) return false; v7 = v26; if (NVPY != -1) v25 = v40 - NVPY; } super_parcours[v7] = v41; super_parcours[v7 + 1] = v25 + v40; super_parcours[v7 + 2] = 5; super_parcours[v7 + 3] = 0; v7 += 4; } NV_LIGNEDEP = v36; NV_LIGNEOFS = v35; NV_POSI = v7; return true; } if (v21 == 7) { for (int v28 = 0; v28 < v18; v28++) { if (checkCollisionLine(v41 - v28, v40, &v47, &v46, _lastLine + 1, _linesNumb) && _lastLine < v46) { v29 = GENIAL(v46, v47, v41 - v28, v40, v41 - v18, v40, v7, &super_parcours[0], 4); if (v29 == -1) return false; v7 = v29; if (NVPX != -1) v28 = v41 - NVPX; } super_parcours[v7] = v41 - v28; super_parcours[v7 + 1] = v40; super_parcours[v7 + 2] = 7; super_parcours[v7 + 3] = 0; v7 += 4; } NV_LIGNEDEP = v36; NV_LIGNEOFS = v35; NV_POSI = v7; return true; } if (v21 == 3) { for (int v31 = 0; v31 < v38; v31++) { if (checkCollisionLine(v31 + v41, v40, &v47, &v46, _lastLine + 1, _linesNumb) && _lastLine < v46) { v32 = GENIAL(v46, v47, v31 + v41, v40, v38 + v41, v40, v7, &super_parcours[0], 4); if (v32 == -1) return false; v7 = v32; if (NVPX != -1) v31 = NVPX - v41; } super_parcours[v7] = v31 + v41; super_parcours[v7 + 1] = v40; super_parcours[v7 + 2] = 3; super_parcours[v7 + 3] = 0; v7 += 4; } NV_LIGNEDEP = v36; NV_LIGNEOFS = v35; NV_POSI = v7; return true; } } } return false; } int LinesManager::GENIAL(int lineIdx, int dataIdx, int a3, int a4, int a5, int a6, int a7, int16 *route, int a9) { int result = a7; int v80 = -1; ++_pathFindingMaxDepth; if (_pathFindingMaxDepth > 10) { warning("PathFinding - Max depth reached"); route[a7] = -1; route[a7 + 1] = -1; route[a7 + 2] = -1; return -1; } int16 *v10 = Ligne[lineIdx]._lineData; int v98 = v10[0]; int v97 = v10[1]; int v92 = lineIdx; int v65; bool loopCond = false; for (;;) { int v86 = v92 - 1; int v11 = 2 * Ligne[v92 - 1]._lineDataEndIdx; int16 *v12 = Ligne[v92 - 1]._lineData; if (v12 == (int16 *)g_PTRNUL) break; while (v12[v11 - 2] != v98 || v97 != v12[v11 - 1]) { --v86; if (_lastLine - 1 != v86) { v11 = 2 * Ligne[v86]._lineDataEndIdx; v12 = Ligne[v86]._lineData; if (v12 != (int16 *)g_PTRNUL) continue; } loopCond = true; break; } if (loopCond) break; v92 = v86; v98 = v12[0]; v97 = v12[1]; } int16 *v13 = Ligne[lineIdx]._lineData; int v95 = v13[2 * Ligne[lineIdx]._lineDataEndIdx - 2]; int v93 = v13[2 * Ligne[lineIdx]._lineDataEndIdx - 1]; int v91 = lineIdx; int foundLineIdx, foundDataIdx; loopCond = false; for (;;) { int v87 = v91 + 1; int v15 = 2 * Ligne[v91 + 1]._lineDataEndIdx; int16 *v16 = Ligne[v91 + 1]._lineData; if (v16 == (int16 *)g_PTRNUL) break; int v17; for (;;) { v65 = v15; v17 = v16[v15 - 2]; if (v16[0] == v95 && v93 == v16[1]) break; ++v87; if (v87 != _linesNumb + 1) { v15 = 2 * Ligne[v87]._lineDataEndIdx; v16 = Ligne[v87]._lineData; if (v16 != (int16 *)g_PTRNUL) continue; } loopCond = true; break; } if (loopCond) break; v91 = v87; v95 = v17; v93 = v16[v65 - 1]; } int v58 = abs(a3 - a5) + 1; int v85 = abs(a4 - a6) + 1; int v20 = v85; if (v58 > v20) v85 = v58; int v84 = 1000 * v58 / v85; int v83 = 1000 * v20 / v85; int v21 = 1000 * a3; int v22 = 1000 * a4; int v82 = a3; int v81 = a4; if (a5 < a3) v84 = -v84; if (a6 < a4) v83 = -v83; if (v85 > 800) v85 = 800; Common::fill(&BufLig[0], &BufLig[1000], 0); int bugLigIdx = 0; for (int v88 = 0; v88 < v85 + 1; v88++) { BufLig[bugLigIdx] = v82; BufLig[bugLigIdx + 1] = v81; v21 += v84; v22 += v83; v82 = v21 / 1000; v81 = v22 / 1000; bugLigIdx += 2; } bugLigIdx -= 2; int v77 = 0; int v78 = 0; int v79 = 0; for (int v89 = v85 + 1; v89 > 0; v89--) { if (checkCollisionLine(BufLig[bugLigIdx], BufLig[bugLigIdx + 1], &foundDataIdx, &foundLineIdx, v92, v91) && _lastLine < foundLineIdx) { v80 = foundLineIdx; v77 = foundDataIdx; v78 = BufLig[bugLigIdx]; v79 = BufLig[bugLigIdx + 1]; break; } bugLigIdx -= 2; } int v66 = 0; int v68 = 0; int v70 = 0; int v72 = 0; for (int i = v92; i <= v91; ++i) { int16 *lineData = Ligne[i]._lineData; if (lineData == (int16 *)g_PTRNUL) error("error in genial routine"); if (i == v92) { v72 = lineData[2 * Ligne[i]._lineDataEndIdx - 1]; if (lineData[1] <= lineData[2 * Ligne[i]._lineDataEndIdx - 1]) v72 = lineData[1]; v70 = lineData[2 * Ligne[i]._lineDataEndIdx - 1]; if (lineData[1] >= lineData[2 * Ligne[i]._lineDataEndIdx - 1]) v70 = lineData[1]; v68 = lineData[2 * Ligne[i]._lineDataEndIdx - 2]; if (lineData[0] <= lineData[2 * Ligne[i]._lineDataEndIdx - 2]) v68 = lineData[0]; v66 = lineData[2 * Ligne[i]._lineDataEndIdx - 2]; if (lineData[0] >= lineData[2 * Ligne[i]._lineDataEndIdx - 2]) v66 = lineData[0]; } else { if (lineData[1] < lineData[2 * Ligne[i]._lineDataEndIdx - 1] && lineData[1] < v72) v72 = lineData[1]; if (lineData[2 * Ligne[i]._lineDataEndIdx - 1] < lineData[1] && lineData[2 * Ligne[i]._lineDataEndIdx - 1] < v72) v72 = lineData[2 * Ligne[i]._lineDataEndIdx - 1]; if (lineData[1] > lineData[2 * Ligne[i]._lineDataEndIdx - 1] && lineData[1] > v70) v70 = lineData[1]; if (lineData[2 * Ligne[i]._lineDataEndIdx - 1] > lineData[1] && lineData[2 * Ligne[i]._lineDataEndIdx - 1] > v70) v70 = lineData[2 * Ligne[i]._lineDataEndIdx - 1]; if (lineData[0] < lineData[2 * Ligne[i]._lineDataEndIdx - 2] && v68 > lineData[0]) v68 = lineData[0]; if (lineData[2 * Ligne[i]._lineDataEndIdx - 2] < lineData[0] && v68 > lineData[2 * Ligne[i]._lineDataEndIdx - 2]) v68 = lineData[2 * Ligne[i]._lineDataEndIdx - 2]; if (lineData[0] > lineData[2 * Ligne[i]._lineDataEndIdx - 2] && v66 < lineData[0]) v66 = lineData[0]; if (lineData[2 * Ligne[i]._lineDataEndIdx - 2] > lineData[0] && v66 < lineData[2 * Ligne[i]._lineDataEndIdx - 2]) v66 = lineData[2 * Ligne[i]._lineDataEndIdx - 2]; } } int v69 = v68 - 2; int v73 = v72 - 2; int v67 = v66 + 2; int v71 = v70 + 2; if (a5 >= v69 && a5 <= v67 && a6 >= v73 && a6 <= v71) { int v34 = a6; int v76 = -1; for (;;) { --v34; if (!checkCollisionLine(a5, v34, &foundDataIdx, &foundLineIdx, v92, v91)) break; v76 = foundLineIdx; if (!v34 || v73 > v34) break; } int v35 = a6; int v75 = -1; for (;;) { ++v35; if (!checkCollisionLine(a5, v35, &foundDataIdx, &foundLineIdx, v92, v91)) break; v75 = foundLineIdx; if (_vm->_globals._characterMaxPosY <= v35 || v71 <= v35) break; } int v36 = a5; int v74 = -1; for (;;) { ++v36; if (!checkCollisionLine(v36, a6, &foundDataIdx, &foundLineIdx, v92, v91)) break; v74 = foundLineIdx; if (_vm->_graphicsManager._maxX <= v36 || v67 <= v36) break; } int v37 = a5; int v38 = -1; for(;;) { --v37; if (!checkCollisionLine(v37, a6, &foundDataIdx, &foundLineIdx, v92, v91)) break; v38 = foundLineIdx; if (v37 <= 0 || v69 >= v37) break;; } if (v74 != -1 && v38 != -1 && v76 != -1 && v75 != -1) { route[a7] = -1; route[a7 + 1] = -1; route[a7 + 2] = -1; return -1; } } if (v78 < a3 - 1 || v78 > a3 + 1 || v79 < a4 - 1 || v79 > a4 + 1) { NVPX = v78; NVPY = v79; if (lineIdx < v80) { int v43 = 0; int v42 = lineIdx; do { if (v42 == v92 - 1) v42 = v91; ++v43; --v42; if (v42 == v92 - 1) v42 = v91; } while (v80 != v42); if (abs(v80 - lineIdx) == v43) { if (dataIdx > abs(Ligne[lineIdx]._lineDataEndIdx / 2)) { result = CONTOURNE(lineIdx, dataIdx, a7, v80, v77, route, a9); } else { result = CONTOURNE1(lineIdx, dataIdx, a7, v80, v77, route, a9, v92, v91); } } if (abs(v80 - lineIdx) < v43) result = CONTOURNE(lineIdx, dataIdx, result, v80, v77, route, a9); if (v43 < abs(v80 - lineIdx)) result = CONTOURNE1(lineIdx, dataIdx, result, v80, v77, route, a9, v92, v91); } if (lineIdx > v80) { int v45 = abs(lineIdx - v80); int v47 = lineIdx; int v48 = 0; do { if (v47 == v91 + 1) v47 = v92; ++v48; ++v47; if (v47 == v91 + 1) v47 = v92; } while (v80 != v47); if (v45 == v48) { if (dataIdx > abs(Ligne[lineIdx]._lineDataEndIdx / 2)) { result = CONTOURNE1(lineIdx, dataIdx, result, v80, v77, route, a9, v92, v91); } else { result = CONTOURNE(lineIdx, dataIdx, result, v80, v77, route, a9); } } if (v45 < v48) result = CONTOURNE(lineIdx, dataIdx, result, v80, v77, route, a9); if (v48 < v45) result = CONTOURNE1(lineIdx, dataIdx, result, v80, v77, route, a9, v92, v91); } if (lineIdx == v80) result = CONTOURNE(lineIdx, dataIdx, result, lineIdx, v77, route, a9); for(;;) { if (!checkCollisionLine(NVPX, NVPY, &foundDataIdx, &foundLineIdx, _lastLine + 1, _linesNumb)) break; switch (Ligne[foundLineIdx]._direction) { case 1: --NVPY; break; case 2: --NVPY; ++NVPX; break; case 3: ++NVPX; break; case 4: ++NVPY; ++NVPX; break; case 5: ++NVPY; break; case 6: ++NVPY; --NVPX; break; case 7: --NVPX; break; case 8: --NVPY; --NVPX; break; } } } else { NVPX = -1; NVPY = -1; } return result; } // Avoid 2 int16 *LinesManager::PARCOURS2(int fromX, int fromY, int destX, int destY) { int foundLineIdx; int foundDataIdx; int v118 = 0; int v119 = 0; int v126[9]; int v131[9]; int v136[9]; int v141[9]; int clipDestX = destX; int clipDestY = destY; int v121 = 0; int v120 = 0; int v115 = 0; int v114 = 0; int v113 = 0; int v111 = 0; if (destY <= 24) clipDestY = 25; if (!_vm->_globals.NOT_VERIF) { if (abs(fromX - _vm->_globals._oldRouteFromX) <= 4 && abs(fromY - _vm->_globals._oldRouteFromY) <= 4 && abs(_vm->_globals._oldRouteDestX - destX) <= 4 && abs(_vm->_globals._oldRouteDestY - clipDestY) <= 4) return (int16 *)g_PTRNUL; if (abs(fromX - destX) <= 4 && abs(fromY - clipDestY) <= 4) return (int16 *)g_PTRNUL; if (_vm->_globals._oldZoneNum > 0 && _vm->_objectsManager._zoneNum > 0 && _vm->_globals._oldZoneNum == _vm->_objectsManager._zoneNum) return (int16 *)g_PTRNUL; } _vm->_globals.NOT_VERIF = false; _vm->_globals._oldZoneNum = _vm->_objectsManager._zoneNum; _vm->_globals._oldRouteFromX = fromX; _vm->_globals._oldRouteDestX = destX; _vm->_globals._oldRouteFromY = fromY; _vm->_globals._oldRouteDestY = clipDestY; _pathFindingMaxDepth = 0; int v112 = 0; if (destX <= 19) clipDestX = 20; if (clipDestY <= 19) clipDestY = 20; if (clipDestX > _vm->_graphicsManager._maxX - 10) clipDestX = _vm->_graphicsManager._maxX - 10; if (clipDestY > _vm->_globals._characterMaxPosY) clipDestY = _vm->_globals._characterMaxPosY; if (abs(fromX - clipDestX) <= 3 && abs(fromY - clipDestY) <= 3) return (int16 *)g_PTRNUL; for (int i = 0; i <= 8; ++i) { v141[i] = -1; v136[i] = 0; v131[i] = 1300; v126[i] = 1300; } if (PARC_PERS(fromX, fromY, clipDestX, clipDestY, -1, -1, 0) == 1) return &super_parcours[0]; int v14 = 0; for (int tmpY = clipDestY; tmpY < _vm->_graphicsManager._maxY; tmpY++, v14++) { if (checkCollisionLine(clipDestX, tmpY, &v136[5], &v141[5], 0, _lastLine) && v141[5] <= _lastLine) break; v136[5] = 0; v141[5] = -1; } v131[5] = v14; v14 = 0; for (int tmpY = clipDestY; tmpY > _vm->_graphicsManager._minY; tmpY--, v14++) { if (checkCollisionLine(clipDestX, tmpY, &v136[1], &v141[1], 0, _lastLine) && v141[1] <= _lastLine) break; v136[1] = 0; v141[1] = -1; if (v131[5] < v14 && v141[5] != -1) break; } v131[1] = v14; v14 = 0; for (int tmpX = clipDestX; tmpX < _vm->_graphicsManager._maxX; tmpX++) { if (checkCollisionLine(tmpX, clipDestY, &v136[3], &v141[3], 0, _lastLine) && v141[3] <= _lastLine) break; v136[3] = 0; v141[3] = -1; ++v14; if (v131[1] < v14 && v141[1] != -1) break; if (v131[5] < v14 && v141[5] != -1) break; } v131[3] = v14; v14 = 0; for (int tmpX = clipDestX; tmpX > _vm->_graphicsManager._minX; tmpX--) { if (checkCollisionLine(tmpX, clipDestY, &v136[7], &v141[7], 0, _lastLine) && v141[7] <= _lastLine) break; v136[7] = 0; v141[7] = -1; ++v14; if (v131[1] < v14 && v141[1] != -1) break; if (v131[5] < v14 && v141[5] != -1) break; if (v131[3] < v14 && v141[3] != -1) break; } v131[7] = v14; if (v141[1] < 0 || _lastLine < v141[1]) v141[1] = -1; if (v141[3] < 0 || _lastLine < v141[3]) v141[3] = -1; if (v141[5] < 0 || _lastLine < v141[5]) v141[5] = -1; if (v141[7] < 0 || _lastLine < v141[7]) v141[7] = -1; if (v141[1] < 0) v131[1] = 1300; if (v141[3] < 0) v131[3] = 1300; if (v141[5] < 0) v131[5] = 1300; if (v141[7] < 0) v131[7] = 1300; if (v141[1] == -1 && v141[3] == -1 && v141[5] == -1 && v141[7] == -1) return (int16 *)g_PTRNUL; if (v141[5] != -1 && v131[1] >= v131[5] && v131[3] >= v131[5] && v131[7] >= v131[5]) { v121 = v141[5]; v120 = v136[5]; } else if (v141[1] != -1 && v131[5] >= v131[1] && v131[3] >= v131[1] && v131[7] >= v131[1]) { v121 = v141[1]; v120 = v136[1]; } else if (v141[3] != -1 && v131[1] >= v131[3] && v131[5] >= v131[3] && v131[7] >= v131[3]) { v121 = v141[3]; v120 = v136[3]; } else if (v141[7] != -1 && v131[5] >= v131[7] && v131[3] >= v131[7] && v131[1] >= v131[7]) { v121 = v141[7]; v120 = v136[7]; } for (int i = 0; i <= 8; ++i) { v141[i] = -1; v136[i] = 0; v131[i] = 1300; v126[i] = 1300; } v14 = 0; for (int tmpY = fromY; tmpY < _vm->_graphicsManager._maxY; tmpY++, v14++) { if (checkCollisionLine(fromX, tmpY, &v136[5], &v141[5], 0, _lastLine) && v141[5] <= _lastLine) break; v136[5] = 0; v141[5] = -1; } v131[5] = v14 + 1; v14 = 0; for (int tmpY = fromY; tmpY > _vm->_graphicsManager._minY; tmpY--) { if (checkCollisionLine(fromX, tmpY, &v136[1], &v141[1], 0, _lastLine) && v141[1] <= _lastLine) break; v136[1] = 0; v141[1] = -1; ++v14; if (v141[5] != -1 && v14 > 80) break; } v131[1] = v14 + 1; v14 = 0; for (int tmpX = fromX; tmpX < _vm->_graphicsManager._maxX; tmpX++) { if (checkCollisionLine(tmpX, fromY, &v136[3], &v141[3], 0, _lastLine) && v141[3] <= _lastLine) break; v136[3] = 0; v141[3] = -1; ++v14; if ((v141[5] != -1 || v141[1] != -1) && (v14 > 100)) break; } v131[3] = v14 + 1; v14 = 0; for (int tmpX = fromX; tmpX > _vm->_graphicsManager._minX; tmpX--) { if (checkCollisionLine(tmpX, fromY, &v136[7], &v141[7], 0, _lastLine) && v141[7] <= _lastLine) break; v136[7] = 0; v141[7] = -1; ++v14; if ((v141[5] != -1 || v141[1] != -1 || v141[3] != -1) && (v14 > 100)) break; } v131[7] = v14 + 1; if (v141[1] != -1) v126[1] = abs(v141[1] - v121); if (v141[3] != -1) v126[3] = abs(v141[3] - v121); if (v141[5] != -1) v126[5] = abs(v141[5] - v121); if (v141[7] != -1) v126[7] = abs(v141[7] - v121); if (v141[1] == -1 && v141[3] == -1 && v141[5] == -1 && v141[7] == -1) error("Nearest point not found"); if (v141[1] != -1 && v126[3] >= v126[1] && v126[5] >= v126[1] && v126[7] >= v126[1]) { v115 = v141[1]; v111 = v131[1]; v113 = 1; v114 = v136[1]; } else if (v141[5] != -1 && v126[3] >= v126[5] && v126[1] >= v126[5] && v126[7] >= v126[5]) { v115 = v141[5]; v111 = v131[5]; v113 = 5; v114 = v136[5]; } else if (v141[3] != -1 && v126[1] >= v126[3] && v126[5] >= v126[3] && v126[7] >= v126[3]) { v115 = v141[3]; v111 = v131[3]; v113 = 3; v114 = v136[3]; } else if (v141[7] != -1 && v126[1] >= v126[7] && v126[5] >= v126[7] && v126[3] >= v126[7]) { v115 = v141[7]; v111 = v131[7]; v113 = 7; v114 = v136[7]; } int v55 = PARC_PERS(fromX, fromY, clipDestX, clipDestY, v115, v121, 0); if (v55 == 1) return &super_parcours[0]; if (v55 == 2) { v115 = NV_LIGNEDEP; v114 = NV_LIGNEOFS; v112 = NV_POSI; } else { if (v113 == 1) { for (int deltaY = 0; deltaY < v111; deltaY++) { if (checkCollisionLine(fromX, fromY - deltaY, &foundDataIdx, &foundLineIdx, _lastLine + 1, _linesNumb) && _lastLine < foundLineIdx) { int v58 = GENIAL(foundLineIdx, foundDataIdx, fromX, fromY - deltaY, fromX, fromY - v111, v112, &super_parcours[0], 4); if (v58 == -1) { super_parcours[v112] = -1; super_parcours[v112 + 1] = -1; super_parcours[v112 + 2] = -1; super_parcours[v112 + 3] = -1; return &super_parcours[0]; } v112 = v58; if (NVPY != -1) deltaY = fromY - NVPY; } super_parcours[v112] = fromX; super_parcours[v112 + 1] = fromY - deltaY; super_parcours[v112 + 2] = 1; super_parcours[v112 + 3] = 0; v112 += 4; } } if (v113 == 5) { for (int deltaY = 0; deltaY < v111; deltaY++) { if (checkCollisionLine(fromX, deltaY + fromY, &foundDataIdx, &foundLineIdx, _lastLine + 1, _linesNumb) && _lastLine < foundLineIdx) { int v61 = GENIAL(foundLineIdx, foundDataIdx, fromX, deltaY + fromY, fromX, v111 + fromY, v112, &super_parcours[0], 4); if (v61 == -1) { super_parcours[v112] = -1; super_parcours[v112 + 1] = -1; super_parcours[v112 + 2] = -1; super_parcours[v112 + 3] = -1; return &super_parcours[0]; } v112 = v61; if (NVPY != -1) deltaY = NVPY - fromY; } super_parcours[v112] = fromX; super_parcours[v112 + 1] = deltaY + fromY; super_parcours[v112 + 2] = 5; super_parcours[v112 + 3] = 0; v112 += 4; } } if (v113 == 7) { for (int deltaX = 0; deltaX < v111; deltaX++) { if (checkCollisionLine(fromX - deltaX, fromY, &foundDataIdx, &foundLineIdx, _lastLine + 1, _linesNumb) && _lastLine < foundLineIdx) { int v64 = GENIAL(foundLineIdx, foundDataIdx, fromX - deltaX, fromY, fromX - v111, fromY, v112, &super_parcours[0], 4); if (v64 == -1) { super_parcours[v112] = -1; super_parcours[v112 + 1] = -1; super_parcours[v112 + 2] = -1; super_parcours[v112 + 3] = -1; return &super_parcours[0]; } v112 = v64; if (NVPX != -1) deltaX = fromX - NVPX; } super_parcours[v112] = fromX - deltaX; super_parcours[v112 + 1] = fromY; super_parcours[v112 + 2] = 7; super_parcours[v112 + 3] = 0; v112 += 4; } } if (v113 == 3) { for (int deltaX = 0; deltaX < v111; deltaX++) { if (checkCollisionLine(deltaX + fromX, fromY, &foundDataIdx, &foundLineIdx, _lastLine + 1, _linesNumb) && _lastLine < foundLineIdx) { int v67 = GENIAL(foundLineIdx, foundDataIdx, deltaX + fromX, fromY, v111 + fromX, fromY, v112, &super_parcours[0], 4); if (v67 == -1) { super_parcours[v112] = -1; super_parcours[v112 + 1] = -1; super_parcours[v112 + 2] = -1; super_parcours[v112 + 3] = -1; return &super_parcours[0]; } v112 = v67; if (NVPX != -1) deltaX = NVPX - fromX; } super_parcours[v112] = deltaX + fromX; super_parcours[v112 + 1] = fromY; super_parcours[v112 + 2] = 3; super_parcours[v112 + 3] = 0; v112 += 4; } } } bool loopCond; do { loopCond = false; if (v115 < v121) { for (int i = v114; Ligne[v115]._lineDataEndIdx > i; ++i) { v119 = Ligne[v115]._lineData[2 * i]; v118 = Ligne[v115]._lineData[2 * i + 1]; super_parcours[v112] = Ligne[v115]._lineData[2 * i]; super_parcours[v112 + 1] = Ligne[v115]._lineData[2 * i + 1]; super_parcours[v112 + 2] = Ligne[v115].field6; super_parcours[v112 + 3] = 0; v112 += 4; } for (int v116 = v115 + 1; v116 < v121; v116++) { int v72 = 0; int v110 = v116; for (int j = v116; Ligne[j]._lineDataEndIdx > v72; j = v116) { v119 = Ligne[v110]._lineData[2 * v72]; v118 = Ligne[v110]._lineData[2 * v72 + 1]; super_parcours[v112] = Ligne[v110]._lineData[2 * v72]; super_parcours[v112 + 1] = Ligne[v110]._lineData[2 * v72 + 1]; super_parcours[v112 + 2] = Ligne[v110].field6; super_parcours[v112 + 3] = 0; v112 += 4; if (Ligne[v110]._lineDataEndIdx > 30 && v72 == Ligne[v110]._lineDataEndIdx / 2) { int v78 = PARC_PERS(Ligne[v110]._lineData[2 * v72], Ligne[v110]._lineData[2 * v72 + 1], clipDestX, clipDestY, v110, v121, v112); if (v78 == 1) return &super_parcours[0]; if (v78 == 2 || MIRACLE(v119, v118, v110, v121, v112)) { v115 = NV_LIGNEDEP; v114 = NV_LIGNEOFS; v112 = NV_POSI; loopCond = true; break; } } ++v72; v110 = v116; } if (loopCond) break; int v79 = PARC_PERS(v119, v118, clipDestX, clipDestY, v116, v121, v112); if (v79 == 1) return &super_parcours[0]; if (v79 == 2 || MIRACLE(v119, v118, v116, v121, v112)) { v115 = NV_LIGNEDEP; v114 = NV_LIGNEOFS; v112 = NV_POSI; loopCond = true; break; } } if (loopCond) continue; v114 = 0; v115 = v121; } if (v115 > v121) { for (int dataIdx = v114; dataIdx > 0; dataIdx--) { v119 = Ligne[v115]._lineData[2 * dataIdx]; v118 = Ligne[v115]._lineData[2 * dataIdx + 1]; super_parcours[v112] = Ligne[v115]._lineData[2 * dataIdx]; super_parcours[v112 + 1] = Ligne[v115]._lineData[2 * dataIdx + 1]; super_parcours[v112 + 2] = Ligne[v115].field8; super_parcours[v112 + 3] = 0; v112 += 4; } for (int v117 = v115 - 1; v117 > v121; v117--) { for (int dataIdx = Ligne[v117]._lineDataEndIdx - 1; dataIdx > -1; dataIdx--) { v119 = Ligne[v117]._lineData[2 * dataIdx]; v118 = Ligne[v117]._lineData[2 * dataIdx + 1]; super_parcours[v112] = Ligne[v117]._lineData[2 * dataIdx]; super_parcours[v112 + 1] = Ligne[v117]._lineData[2 * dataIdx + 1]; super_parcours[v112 + 2] = Ligne[v117].field8; super_parcours[v112 + 3] = 0; v112 += 4; if (Ligne[v117]._lineDataEndIdx > 30 && dataIdx == Ligne[v117]._lineDataEndIdx / 2) { int v88 = PARC_PERS(v119, v118, clipDestX, clipDestY, v117, v121, v112); if (v88 == 1) return &super_parcours[0]; if (v88 == 2 || MIRACLE(v119, v118, v117, v121, v112)) { v115 = NV_LIGNEDEP; v114 = NV_LIGNEOFS; v112 = NV_POSI; loopCond = true; break; } } } if (!loopCond) { int v89 = PARC_PERS(v119, v118, clipDestX, clipDestY, v117, v121, v112); if (v89 == 1) return &super_parcours[0]; if (v89 == 2 || MIRACLE(v119, v118, v117, v121, v112)) { v115 = NV_LIGNEDEP; v114 = NV_LIGNEOFS; v112 = NV_POSI; loopCond = true; break; } } } if (!loopCond) { v114 = Ligne[v121]._lineDataEndIdx - 1; v115 = v121; } } } while (loopCond); if (v115 == v121) { if (v114 <= v120) { for (int dataIdx = v114; dataIdx < v120; dataIdx++) { super_parcours[v112] = Ligne[v121]._lineData[2 * dataIdx]; super_parcours[v112 + 1] = Ligne[v121]._lineData[2 * dataIdx + 1]; super_parcours[v112 + 2] = Ligne[v121].field6; super_parcours[v112 + 3] = 0; v112 += 4; } } else { for (int dataIdx = v114; dataIdx > v120; dataIdx--) { super_parcours[v112] = Ligne[v121]._lineData[2 * dataIdx]; super_parcours[v112 + 1] = Ligne[v121]._lineData[2 * dataIdx + 1]; super_parcours[v112 + 2] = Ligne[v121].field8; super_parcours[v112 + 3] = 0; v112 += 4; } } } if (PARC_PERS(super_parcours[v112 - 4], super_parcours[v112 - 3], clipDestX, clipDestY, -1, -1, v112) != 1) { super_parcours[v112] = -1; super_parcours[v112 + 1] = -1; super_parcours[v112 + 2] = -1; super_parcours[v112 + 3] = -1; } return &super_parcours[0]; } int LinesManager::PARC_PERS(int fromX, int fromY, int destX, int destY, int a5, int a6, int a7) { int v18; int v19; int v20; int v21; int v22; int v23; int v24; int v33; int v36; int v39; int v40; bool v45; int v54; int v55; int v58; int v66; int newDirection; int v92; int v93; int v94; int v95; int v96; int v97; int v98; int v99; int v100; int v101; int v102; int v103; int v104; int v105; int v106; int v107; int v108; int v109; int v111; int v113; int v114; int v115; int v116; int v117; int v118; int v119; int v120; int v121; int v122; int v123; int v124; int v125; bool v126 = false; int collLineIdx; int collDataIdx; int v140; int v141; int v142; int v143; bool colResult = false; int curX = fromX; int curY = fromY; int v137 = a7; bool v136 = false; if (a5 == -1 && a6 == -1) v136 = true; int foundDataIdx; int foundLineIdx = a5; if (checkCollisionLine(fromX, fromY, &foundDataIdx, &foundLineIdx, 0, _linesNumb)) { switch (Ligne[foundLineIdx]._direction) { case 1: curY -= 2; break; case 2: curY -= 2; curX += 2; break; case 3: curX += 2; break; case 4: curY += 2; curX += 2; case 5: curY += 2; break; case 6: curY += 2; curX -= 2; break; case 7: curX -= 2; break; case 8: curY -= 2; curX -= 2; break; } } v98 = curX; v97 = curY; v115 = 0; v142 = -1; v140 = -1; collLineIdx = -1; int distX, v10, distY, v12, v13, v14; for (;;) { v111 = curX; v109 = curY; if (destX >= curX - 2 && destX <= curX + 2 && destY >= curY - 2 && destY <= curY + 2) { LABEL_149: essai0[v115] = -1; essai0[v115 + 1] = -1; essai0[v115 + 2] = -1; LABEL_150: if (v115) { v116 = 0; for (;;) { super_parcours[v137] = essai0[v116]; super_parcours[v137 + 1] = essai0[v116 + 1]; super_parcours[v137 + 2] = essai0[v116 + 2]; super_parcours[v137 + 3] = 0; v116 += 3; v137 += 4; if (essai0[v116] == -1 && essai0[v116 + 1] == -1) break; } } super_parcours[v137] = -1; super_parcours[v137 + 1] = -1; super_parcours[v137 + 2] = -1; super_parcours[v137 + 3] = -1; return 1; } distX = abs(curX - destX); v10 = distX + 1; distY = abs(curY - destY); v107 = distY + 1; if (v10 > v107) v107 = v10; v12 = v107 - 1; assert(v12 != 0); v101 = 1000 * v10 / v12; v99 = 1000 * (distY + 1) / v12; if (destX < curX) v101 = -v101; if (destY < curY) v99 = -v99; v13 = (int16)v101 / 1000; v94 = (int16)v99 / 1000; newDirection = -1; if (v94 == -1 && (v101 >= 0 && v101 <= 150)) newDirection = 1; if (v13 == 1 && (v99 >= -1 && v99 <= 150)) newDirection = 3; if (v94 == 1 && (v101 >= -150 && v101 <= 150)) newDirection = 5; if (v13 == -1 && (v99 >= -150 && v99 <= 150)) newDirection = 7; if (v94 == -1 && (v101 >= -150 && v101 <= 0)) newDirection = 1; if (newDirection == -1 && !checkSmoothMove(curX, v109, destX, destY) && !makeSmoothMove(curX, v109, destX, destY)) break; LABEL_72: v19 = abs(v111 - destX); v20 = v19 + 1; v95 = abs(v109 - destY); v108 = v95 + 1; if (v20 > (v95 + 1)) v108 = v20; if (v108 <= 10) goto LABEL_149; v21 = v108 - 1; v102 = 1000 * v20 / v21; v100 = 1000 * (v95 + 1) / v21; if (destX < v111) v102 = -v102; if (destY < v109) v100 = -v100; v22 = v102 / 1000; v96 = v100 / 1000; v106 = 1000 * v111; v105 = 1000 * v109; v104 = 1000 * v111 / 1000; v103 = v105 / 1000; if (!(v102 / 1000) && v96 == -1) newDirection = 1; if (v22 == 1) { if (v96 == -1) newDirection = 2; if (!v96) newDirection = 3; if (v96 == 1) newDirection = 4; } if (!v22 && v96 == 1) newDirection = 5; if ((v22 != -1) && (v96 == -1)) { if (v102 >= 0 && v102 < 510) newDirection = 1; else if (v102 >= 510 && v102 <= 1000) newDirection = 2; } else { if (v96 == 1) newDirection = 6; else if (!v96) newDirection = 7; else if (v96 == -1) { if (v102 >= 0 && v102 < 510) newDirection = 1; else if (v102 >= 510 && v102 <= 1000) newDirection = 2; else newDirection = 8; } } if (v22 == 1) { if (v100 >= -1 && v100 <= 510) newDirection = 2; if (v100 >= -510 && v100 <= 0) newDirection = 3; if (v100 >= 0 && v100 <= 510) newDirection = 3; if (v100 >= 510 && v100 <= 1000) newDirection = 4; } if (v96 == 1) { if (v102 >= 510 && v102 <= 1000) newDirection = 4; if (v102 >= 0 && v102 <= 510) newDirection = 5; // CHECKME: The two conditions on v102 are not compatible! if (v102 >= -1 && v102 <= -510) newDirection = 6; if (v102 >= -510 && v102 <= 0) newDirection = 5; } if (v22 == -1) { if (v100 >= 510 && v100 <= 1000) newDirection = 6; if (v100 >= 0 && v100 <= 510) newDirection = 7; if (v100 >= -1000 && v100 <= -510) newDirection = 8; if (v100 >= -510 && v100 <= 0) newDirection = 7; } if (v96 == -1) { if (v102 >= -1000 && v102 <= -510) newDirection = 8; if (v102 >= -510 && v102 <= 0) newDirection = 1; } v23 = 0; if (v108 + 1 <= 0) goto LABEL_149; while (!checkCollisionLine(v104, v103, &v143, &v142, 0, _linesNumb)) { essai0[v115] = v104; essai0[v115 + 1] = v103; essai0[v115 + 2] = newDirection; v106 += v102; v105 += v100; v104 = v106 / 1000; v103 = v105 / 1000; v115 += 3; ++v23; if (v23 >= v108 + 1) goto LABEL_149; } if (_lastLine >= v142) goto LABEL_157; v24 = GENIAL(v142, v143, v104, v103, destX, destY, v115, essai0, 3); if (v24 == -1) goto LABEL_150; v115 = v24; if (NVPX != -1 || NVPY != -1) { v142 = -1; goto LABEL_157; } curX = -1; curY = -1; } newDirection = _smoothMoveDirection; v14 = 0; for (;;) { if (_smoothRoute[v14]._posX == -1 || _smoothRoute[v14]._posY == -1) { v126 = true; v18 = v14 - 1; v111 = _smoothRoute[v18]._posX; v109 = _smoothRoute[v18]._posY; goto LABEL_72; } if (checkCollisionLine(_smoothRoute[v14]._posX, _smoothRoute[v14]._posY, &v143, &v142, 0, _linesNumb)) break; essai0[v115] = _smoothRoute[v14]._posX; essai0[v115 + 1] = _smoothRoute[v14]._posY; essai0[v115 + 2] = newDirection; v115 += 3; ++v14; if (v126) { v18 = v14 - 1; v111 = _smoothRoute[v18]._posX; v109 = _smoothRoute[v18]._posY; goto LABEL_72; } } if (v142 > _lastLine) v142 = -1; LABEL_157: essai0[v115] = -1; essai0[v115 + 1] = -1; essai0[v115 + 2] = -1; v117 = 0; v33 = v98; v92 = v97; LABEL_158: v113 = v33; if (destX >= v33 - 2 && destX <= v33 + 2 && destY >= v92 - 2 && destY <= v92 + 2) goto LABEL_194; if (v33 >= destX) { LABEL_165: if (v113 > destX) { v36 = v113; while (!checkCollisionLine(v36, v92, &v141, &v140, 0, _linesNumb)) { essai1[v117] = v36; essai1[v117 + 1] = v92; essai1[v117 + 2] = 7; v117 += 3; --v36; if (destX >= v36) goto LABEL_171; } goto LABEL_168; } LABEL_171: if (v92 >= destY) { LABEL_181: for (int v43 = v92; v43 > destY; v43--) { if (checkCollisionLine(destX, v43, &v141, &v140, 0, _linesNumb)) { if (_lastLine < v140) { int v44 = GENIAL(v140, v141, destX, v43, destX, destY, v117, essai1, 3); if (v44 == -1) goto LABEL_195; v117 = v44; if (NVPX != -1 && NVPY != -1) { v33 = NVPX; v92 = NVPY; v45 = checkCollisionLine(NVPX, NVPY, &v141, &v140, 0, _lastLine); if (v45 && v140 <= _lastLine) goto LABEL_202; goto LABEL_158; } } if (v140 <= _lastLine) goto LABEL_202; } essai1[v117] = destX; essai1[v117 + 1] = v43; essai1[v117 + 2] = 1; v117 += 3; } LABEL_194: essai1[v117] = -1; essai1[v117 + 1] = -1; essai1[v117 + 2] = -1; LABEL_195: if (v117) { v118 = 0; for (;;) { super_parcours[v137] = essai1[v118]; super_parcours[v137 + 1] = essai1[v118 + 1]; super_parcours[v137 + 2] = essai1[v118 + 2]; super_parcours[v137 + 3] = 0; v118 += 3; v137 += 4; if (essai1[v118] == -1 && essai1[v118 + 1] == -1) break; } } super_parcours[v137] = -1; super_parcours[v137 + 1] = -1; super_parcours[v137 + 2] = -1; super_parcours[v137 + 3] = -1; return 1; } v39 = v92; for (;;) { if (checkCollisionLine(destX, v39, &v141, &v140, 0, _linesNumb)) { if (_lastLine < v140) { v40 = GENIAL(v140, v141, destX, v39, destX, destY, v117, essai1, 3); if (v40 == -1) goto LABEL_195; v117 = v40; if (NVPX != -1 && NVPY != -1) { v33 = NVPX; v92 = NVPY; v45 = checkCollisionLine(NVPX, NVPY, &v141, &v140, 0, _lastLine); if (v45 && v140 <= _lastLine) goto LABEL_202; goto LABEL_158; } } if (v140 <= _lastLine) goto LABEL_202; } essai1[v117] = destX; essai1[v117 + 1] = v39; essai1[v117 + 2] = 5; v117 += 3; ++v39; if (destY <= v39) goto LABEL_181; } } while (!checkCollisionLine(v33, v92, &v141, &v140, 0, _linesNumb)) { essai1[v117] = v33; essai1[v117 + 1] = v92; essai1[v117 + 2] = 3; v117 += 3; ++v33; if (destX <= v33) goto LABEL_165; } LABEL_168: if (v140 > _lastLine) v140 = -1; LABEL_202: essai1[v117] = -1; essai1[v117 + 1] = -1; essai1[v117 + 2] = -1; v117 = 0; v54 = v98; v93 = v97; LABEL_203: v114 = v54; if (destX >= v54 - 2 && destX <= v54 + 2 && destY >= v93 - 2 && destY <= v93 + 2) goto LABEL_241; if (v93 < destY) { v55 = v93; while (!checkCollisionLine(v114, v55, &collDataIdx, &collLineIdx, 0, _linesNumb)) { essai2[v117] = v114; essai2[v117 + 1] = v55; essai2[v117 + 2] = 5; v117 += 3; ++v55; if (destY <= v55) goto LABEL_211; } goto LABEL_214; } LABEL_211: if (v93 > destY) { v58 = v93; while (!checkCollisionLine(v114, v58, &collDataIdx, &collLineIdx, 0, _linesNumb)) { essai2[v117] = v114; essai2[v117 + 1] = v58; essai2[v117 + 2] = 1; v117 += 3; --v58; if (destY >= v58) goto LABEL_217; } LABEL_214: if (collLineIdx > _lastLine) collLineIdx = -1; LABEL_249: essai2[v117] = -1; essai2[v117 + 1] = -1; essai2[v117 + 2] = -1; if (!v136) { if (a6 > foundLineIdx) { if (essai0[0] != -1 && v142 > foundLineIdx && v140 <= v142 && collLineIdx <= v142 && a6 >= v142) { NV_LIGNEDEP = v142; NV_LIGNEOFS = v143; v120 = 0; for (;;) { super_parcours[v137] = essai0[v120]; super_parcours[v137 + 1] = essai0[v120 + 1]; super_parcours[v137 + 2] = essai0[v120 + 2]; super_parcours[v137 + 3] = 0; v120 += 3; v137 += 4; if (essai0[v120] == -1 && essai0[v120 + 1] == -1) break; } NV_POSI = v137; return 2; } if (essai1[0] != -1 && foundLineIdx < v140 && collLineIdx <= v140 && v142 <= v140 && a6 >= v140) { NV_LIGNEDEP = v140; NV_LIGNEOFS = v141; v121 = 0; for (;;) { assert(v137 <= 32000); super_parcours[v137] = essai1[v121]; super_parcours[v137 + 1] = essai1[v121 + 1]; super_parcours[v137 + 2] = essai1[v121 + 2]; super_parcours[v137 + 3] = 0; v121 += 3; v137 += 4; if (essai1[v121] == -1 && essai1[v121 + 1] == -1) break; } NV_POSI = v137; return 2; } if (essai2[0] != -1) { if (foundLineIdx < collLineIdx && v140 < collLineIdx && v142 < collLineIdx && a6 >= collLineIdx) { NV_LIGNEDEP = collLineIdx; NV_LIGNEOFS = collDataIdx; v122 = 0; for (;;) { assert(v137 <= 32000); super_parcours[v137] = essai2[v122]; super_parcours[v137 + 1] = essai2[v122 + 1]; super_parcours[v137 + 2] = essai2[v122 + 2]; super_parcours[v137 + 3] = 0; v122 += 3; v137 += 4; if (essai2[v122] == -1 && essai2[v122 + 1] == -1) break; }; NV_POSI = v137; return 2; } } } if (a6 < foundLineIdx) { if (v142 == -1) v142 = 1300; if (v140 == -1) v142 = 1300; if (collLineIdx == -1) v142 = 1300; if (essai1[0] != -1 && v140 < foundLineIdx && collLineIdx >= v140 && v142 >= v140 && a6 <= v140) { NV_LIGNEDEP = v140; NV_LIGNEOFS = v141; v123 = 0; for (;;) { assert(137 <= 32000); super_parcours[v137] = essai1[v123]; super_parcours[v137 + 1] = essai1[v123 + 1]; super_parcours[v137 + 2] = essai1[v123 + 2]; super_parcours[v137 + 3] = 0; v123 += 3; v137 += 4; if (essai1[v123] == -1 && essai1[v123 + 1] == -1) break; } NV_POSI = v137; return 2; } if (essai2[0] != -1 && foundLineIdx > collLineIdx && v140 >= collLineIdx && v142 >= collLineIdx && a6 <= collLineIdx) { NV_LIGNEDEP = collLineIdx; NV_LIGNEOFS = collDataIdx; v124 = 0; for (;;) { assert(v137 <= 32000); super_parcours[v137] = essai2[v124]; super_parcours[v137 + 1] = essai2[v124 + 1]; super_parcours[v137 + 2] = essai2[v124 + 2]; super_parcours[v137 + 3] = 0; v124 += 3; v137 += 4; if (essai2[v124] == -1 && essai2[v124 + 1] == -1) break; } NV_POSI = v137; return 2; } if (essai1[0] != -1 && foundLineIdx > v142 && v140 >= v142 && collLineIdx >= v142 && a6 <= v142) { NV_LIGNEDEP = v142; NV_LIGNEOFS = v143; v125 = 0; for (;;) { assert(137 <= 32000); super_parcours[v137] = essai0[v125]; super_parcours[v137 + 1] = essai0[v125 + 1]; super_parcours[v137 + 2] = essai0[v125 + 2]; super_parcours[v137 + 3] = 0; v125 += 3; v137 += 4; if (essai0[v125] == -1 && essai0[v125 + 1] == -1) break; } NV_POSI = v137; return 2; } } } return 0; } LABEL_217: if (v114 < destX) { for (int v61 = v114; v61 < destX; v61++) { if (checkCollisionLine(v61, destY, &collDataIdx, &collLineIdx, 0, _linesNumb)) { if (_lastLine < collLineIdx) { int v62 = GENIAL(collLineIdx, collDataIdx, v61, destY, destX, destY, v117, essai2, 3); if (v62 == -1) goto LABEL_195; v117 = v62; if (NVPX != -1) { if (NVPY != -1) { v54 = NVPX; v93 = NVPY; colResult = checkCollisionLine(NVPX, NVPY, &collDataIdx, &collLineIdx, 0, _lastLine); if (colResult && collLineIdx <= _lastLine) goto LABEL_249; goto LABEL_203; } } } if (collLineIdx <= _lastLine) goto LABEL_249; } essai2[v117] = v61; essai2[v117 + 1] = destY; essai2[v117 + 2] = 3; v117 += 3; } } if (v114 > destX) { for (int v65 = v114; v65 > destX; v65--) { if (checkCollisionLine(v65, destY, &collDataIdx, &collLineIdx, 0, _linesNumb)) { if (_lastLine < collLineIdx) { v66 = GENIAL(collLineIdx, collDataIdx, v65, destY, destX, destY, v117, essai2, 3); if (v66 == -1) goto LABEL_242; v117 = v66; if (NVPX != -1 && NVPY != -1) { v54 = NVPX; v93 = NVPY; colResult = checkCollisionLine(NVPX, NVPY, &collDataIdx, &collLineIdx, 0, _lastLine); if (colResult && collLineIdx <= _lastLine) goto LABEL_249; goto LABEL_203; } } if (collLineIdx <= _lastLine) goto LABEL_249; } essai2[v117] = v65; essai2[v117 + 1] = destY; essai2[v117 + 2] = 7; v117 += 3; } } collLineIdx = -1; LABEL_241: essai2[v117] = -1; essai2[v117 + 1] = -1; essai2[v117 + 2] = -1; LABEL_242: if (v117) { v119 = 0; for (;;) { super_parcours[v137] = essai2[v119]; super_parcours[v137 + 1] = essai2[v119 + 1]; super_parcours[v137 + 2] = essai2[v119 + 2]; super_parcours[v137 + 3] = 0; v119 += 3; v137 += 4; if (essai2[v119] == -1 && essai2[v119 + 1] == -1) break; } } super_parcours[v137] = -1; super_parcours[v137 + 1] = -1; super_parcours[v137 + 2] = -1; super_parcours[v137 + 3] = -1; return 1; } int16 *LinesManager::cityMapCarRoute(int x1, int y1, int x2, int y2) { int16 *result; int arrDelta[10]; int arrDataIdx[10]; int arrLineIdx[10]; int clipX2 = x2; int clipY2 = y2; int superRouteIdx = 0; if (x2 <= 14) clipX2 = 15; if (y2 <= 14) clipY2 = 15; if (clipX2 > _vm->_graphicsManager._maxX - 10) clipX2 = _vm->_graphicsManager._maxX - 10; if (clipY2 > 445) clipY2 = 440; int delta = 0; for (delta = 0; clipY2 + delta < _vm->_graphicsManager._maxY; delta++) { if (checkCollisionLine(clipX2, clipY2 + delta, &arrDataIdx[5], &arrLineIdx[5], 0, _lastLine) && arrLineIdx[5] <= _lastLine) break; arrDataIdx[5] = 0; arrLineIdx[5] = -1; } arrDelta[5] = delta; for (delta = 0; clipY2 - delta > _vm->_graphicsManager._minY; delta++) { if (checkCollisionLine(clipX2, clipY2 - delta , &arrDataIdx[1], &arrLineIdx[1], 0, _lastLine) && arrLineIdx[1] <= _lastLine) break; arrDataIdx[1] = 0; arrLineIdx[1] = -1; if (arrDelta[5] < delta && arrLineIdx[5] != -1) break; } arrDelta[1] = delta; for (delta = 0; clipX2 + delta < _vm->_graphicsManager._maxX; delta++) { if (checkCollisionLine(clipX2 + delta, clipY2, &arrDataIdx[3], &arrLineIdx[3], 0, _lastLine) && arrLineIdx[3] <= _lastLine) break; arrDataIdx[3] = 0; arrLineIdx[3] = -1; if (arrDelta[1] <= delta && arrLineIdx[1] != -1) break; if (arrDelta[5] <= delta && arrLineIdx[5] != -1) break; } arrDelta[3] = delta; for (delta = 0; clipX2 - delta > _vm->_graphicsManager._minX; delta++) { if (checkCollisionLine(clipX2 - delta, clipY2, &arrDataIdx[7], &arrLineIdx[7], 0, _lastLine) && arrLineIdx[7] <= _lastLine) break; arrDataIdx[7] = 0; arrLineIdx[7] = -1; if ((arrDelta[1] <= delta && arrLineIdx[1] != -1) || (arrDelta[3] <= delta && arrLineIdx[3] != -1) || (arrDelta[5] <= delta && arrLineIdx[5] != -1)) break; } arrDelta[7] = delta; int v68 = 0; int v69 = 0; int v72 = 0; int v73 = 0; if (arrLineIdx[1] == -1) arrDelta[1] = 1300; if (arrLineIdx[3] == -1) arrDelta[3] = 1300; if (arrLineIdx[5] == -1) arrDelta[5] = 1300; if (arrLineIdx[7] == -1) arrDelta[7] = 1300; if (arrLineIdx[1] != -1 || arrLineIdx[3] != -1 || arrLineIdx[5] != -1 || arrLineIdx[7] != -1) { bool v23 = false; if (arrLineIdx[5] != -1 && arrDelta[1] >= arrDelta[5] && arrDelta[3] >= arrDelta[5] && arrDelta[7] >= arrDelta[5]) { v73 = arrLineIdx[5]; v72 = arrDataIdx[5]; v23 = true; } if (arrLineIdx[1] != -1 && !v23 && arrDelta[5] >= arrDelta[1] && arrDelta[3] >= arrDelta[1] && arrDelta[7] >= arrDelta[1]) { v73 = arrLineIdx[1]; v72 = arrDataIdx[1]; v23 = true; } if (arrLineIdx[3] != -1 && !v23 && arrDelta[1] >= arrDelta[3] && arrDelta[5] >= arrDelta[3] && arrDelta[7] >= arrDelta[3]) { v73 = arrLineIdx[3]; v72 = arrDataIdx[3]; v23 = true; } if (arrLineIdx[7] != -1 && !v23 && arrDelta[5] >= arrDelta[7] && arrDelta[3] >= arrDelta[7] && arrDelta[1] >= arrDelta[7]) { v73 = arrLineIdx[7]; v72 = arrDataIdx[7]; } for (int v24 = 0; v24 <= 8; v24++) { arrLineIdx[v24] = -1; arrDataIdx[v24] = 0; arrDelta[v24] = 1300; } if (checkCollisionLine(x1, y1, &arrDataIdx[1], &arrLineIdx[1], 0, _lastLine)) { v69 = arrLineIdx[1]; v68 = arrDataIdx[1]; } else if (checkCollisionLine(x1, y1, &arrDataIdx[1], &arrLineIdx[1], 0, _linesNumb)) { int v27 = 0; int v28; for (;;) { v28 = essai2[v27]; int v29 = essai2[v27 + 1]; int v66 = essai2[v27 + 2]; v27 += 4; if (checkCollisionLine(v28, v29, &arrDataIdx[1], &arrLineIdx[1], 0, _lastLine)) break; super_parcours[superRouteIdx] = v28; super_parcours[superRouteIdx + 1] = v29; super_parcours[superRouteIdx + 2] = v66; super_parcours[superRouteIdx + 3] = 0; essai0[superRouteIdx] = v28; essai0[superRouteIdx + 1] = v29; essai0[superRouteIdx + 2] = v66; essai0[superRouteIdx + 3] = 0; superRouteIdx += 4; if (v28 == -1) break;; } if (v28 != -1) { v69 = arrLineIdx[1]; v68 = arrDataIdx[1]; } } else { v69 = 1; v68 = 1; superRouteIdx = 0; } bool loopFl = true; while (loopFl) { loopFl = false; if (v69 < v73) { int v34 = v68; for (int i = Ligne[v69]._lineDataEndIdx; v34 < i - 2; i = Ligne[v69]._lineDataEndIdx) { super_parcours[superRouteIdx] = Ligne[v69]._lineData[2 * v34]; super_parcours[superRouteIdx + 1] = Ligne[v69]._lineData[2 * v34 + 1]; super_parcours[superRouteIdx + 2] = Ligne[v69].field6; super_parcours[superRouteIdx + 3] = 0; superRouteIdx += 4; ++v34; } for (int j = v69 + 1; j < v73; ++j) { if (PLAN_TEST(Ligne[j]._lineData[0], Ligne[j]._lineData[1], superRouteIdx, j, v73)) { v69 = NV_LIGNEDEP; v68 = NV_LIGNEOFS; superRouteIdx = NV_POSI; loopFl = true; break; } if (Ligne[j]._lineDataEndIdx - 2 > 0) { for (int v40 = 0; v40 < Ligne[j]._lineDataEndIdx - 2; v40++) { super_parcours[superRouteIdx] = Ligne[j]._lineData[2 * v40]; super_parcours[superRouteIdx + 1] = Ligne[j]._lineData[2 * v40 + 1]; super_parcours[superRouteIdx + 2] = Ligne[j].field6; super_parcours[superRouteIdx + 3] = 0; superRouteIdx += 4; } } } if (loopFl) continue; v68 = 0; v69 = v73; } if (v69 > v73) { for (int k = v68; k > 0; --k) { super_parcours[superRouteIdx] = Ligne[v69]._lineData[2 * k]; super_parcours[superRouteIdx + 1] = Ligne[v69]._lineData[2 * k + 1]; super_parcours[superRouteIdx + 2] = Ligne[v69].field8; super_parcours[superRouteIdx + 3] = 0; superRouteIdx += 4; } for (int l = v69 - 1; l > v73; --l) { int v48 = l; if (PLAN_TEST(Ligne[l]._lineData[2 * Ligne[v48]._lineDataEndIdx - 2], Ligne[l]._lineData[2 * Ligne[v48]._lineDataEndIdx - 1], superRouteIdx, l, v73)) { v69 = NV_LIGNEDEP; v68 = NV_LIGNEOFS; superRouteIdx = NV_POSI; loopFl = true; break; } for (int v49 = Ligne[v48]._lineDataEndIdx - 2; v49 > 0; v49 --) { super_parcours[superRouteIdx] = Ligne[l]._lineData[2 * v49]; super_parcours[superRouteIdx + 1] = Ligne[l]._lineData[2 * v49 + 1]; super_parcours[superRouteIdx + 2] = Ligne[l].field8; super_parcours[superRouteIdx + 3] = 0; superRouteIdx += 4; } } if (loopFl) continue; v68 = Ligne[v73]._lineDataEndIdx - 1; v69 = v73; } if (v69 == v73) { if (v68 <= v72) { for (int v57 = v68; v57 < v72; v57++) { super_parcours[superRouteIdx] = Ligne[v73]._lineData[2 * v57]; super_parcours[superRouteIdx + 1] = Ligne[v73]._lineData[2 * v57 + 1]; super_parcours[superRouteIdx + 2] = Ligne[v73].field6; super_parcours[superRouteIdx + 3] = 0; superRouteIdx += 4; } } else { for (int v53 = v68; v53 > v72; v53--) { super_parcours[superRouteIdx] = Ligne[v73]._lineData[2 * v53]; super_parcours[superRouteIdx + 1] = Ligne[v73]._lineData[2 * v53 + 1]; super_parcours[superRouteIdx + 2] = Ligne[v73].field8; super_parcours[superRouteIdx + 3] = 0; superRouteIdx += 4; } } } } super_parcours[superRouteIdx] = -1; super_parcours[superRouteIdx + 1] = -1; super_parcours[superRouteIdx + 2] = -1; super_parcours[superRouteIdx + 3] = -1; result = &super_parcours[0]; } else { result = (int16 *)g_PTRNUL; } return result; } bool LinesManager::checkSmoothMove(int fromX, int fromY, int destX, int destY) { int foundLineIdx; int foundDataIdx; int distX = abs(fromX - destX) + 1; int distY = abs(fromY - destY) + 1; if (distX > distY) distY = distX; if (distY <= 10) return true; int stepX = 1000 * distX / (distY - 1); int stepY = 1000 * distY / (distY - 1); if (destX < fromX) stepX = -stepX; if (destY < fromY) stepY = -stepY; int smoothPosX = 1000 * fromX; int smoothPosY = 1000 * fromY; int newPosX = fromX; int newPosY = fromY; if (distY + 1 > 0) { int stepCount = 0; while (!checkCollisionLine(newPosX, newPosY, &foundDataIdx, &foundLineIdx, 0, _linesNumb) || foundLineIdx > _lastLine) { smoothPosX += stepX; smoothPosY += stepY; newPosX = smoothPosX / 1000; newPosY = smoothPosY / 1000; ++stepCount; if (stepCount >= distY + 1) return false; } return true; } return false; } bool LinesManager::makeSmoothMove(int fromX, int fromY, int destX, int destY) { int curX = fromX; int curY = fromY; if (fromX > destX && destY > fromY) { int hopkinsIdx = 36; int smoothIdx = 0; int stepCount = 0; while (curX > destX && destY > curY) { int v25 = _vm->_globals.Hopkins[hopkinsIdx].field0; int v40 = _vm->_globals.Hopkins[hopkinsIdx].field2; int spriteSize = _vm->_globals._spriteSize[curY]; if (spriteSize < 0) { v25 = _vm->_graphicsManager.zoomOut(v25, -spriteSize); v40 = _vm->_graphicsManager.zoomOut(v40, -spriteSize); } else if (spriteSize > 0) { v25 = _vm->_graphicsManager.zoomIn(v25, spriteSize); v40 = _vm->_graphicsManager.zoomIn(v40, spriteSize); } for (int i = 0; i < v25; i++) { --curX; _smoothRoute[smoothIdx]._posX = curX; if (curY != curY + v40) curY++; _smoothRoute[smoothIdx]._posY = curY; smoothIdx++; } ++hopkinsIdx; if (hopkinsIdx == 48) hopkinsIdx = 36; ++stepCount; } if (stepCount > 5) { _smoothRoute[smoothIdx]._posX = -1; _smoothRoute[smoothIdx]._posY = -1; _smoothMoveDirection = 6; return false; } } else if (fromX < destX && destY > fromY) { int hopkinsIdx = 36; int smoothIdx = 0; int stepCount = 0; while (curX < destX && destY > curY) { int v14 = _vm->_globals.Hopkins[hopkinsIdx].field0; int v39 = _vm->_globals.Hopkins[hopkinsIdx].field2; int spriteSize = _vm->_globals._spriteSize[curY]; if (spriteSize < 0) { v14 = _vm->_graphicsManager.zoomOut(v14, -spriteSize); v39 = _vm->_graphicsManager.zoomOut(v39, -spriteSize); } else if (spriteSize > 0) { v14 = _vm->_graphicsManager.zoomIn(v14, spriteSize); v39 = _vm->_graphicsManager.zoomIn(v39, spriteSize); } for (int i = 0; i < v14; i++) { ++curX; _smoothRoute[smoothIdx]._posX = curX; if (curY != curY + v39) curY++; _smoothRoute[smoothIdx]._posY = curY; smoothIdx++; } ++hopkinsIdx; if (hopkinsIdx == 48) hopkinsIdx = 36; ++stepCount; } if (stepCount > 5) { _smoothRoute[smoothIdx]._posX = -1; _smoothRoute[smoothIdx]._posY = -1; _smoothMoveDirection = 4; return false; } } else if (fromX > destX && destY < fromY) { int hopkinsIdx = 12; int smoothIdx = 0; int stepCount = 0; while (curX > destX && destY < curY) { int v11 = _vm->_graphicsManager.zoomOut(_vm->_globals.Hopkins[hopkinsIdx].field0, 25); int v38 = _vm->_graphicsManager.zoomOut(_vm->_globals.Hopkins[hopkinsIdx].field2, 25); int oldY = curY; for (int v12 = 0; v12 < v11; v12++) { --curX; _smoothRoute[smoothIdx]._posX = curX; if ((uint16)curY != (uint16)oldY + v38) curY--; _smoothRoute[smoothIdx]._posY = curY; smoothIdx++; } ++hopkinsIdx; if (hopkinsIdx == 24) hopkinsIdx = 12; ++stepCount; } if (stepCount > 5) { _smoothRoute[smoothIdx]._posX = -1; _smoothRoute[smoothIdx]._posY = -1; _smoothMoveDirection = 8; return false; } } else if (fromX < destX && destY < fromY) { int hopkinsIdx = 12; int smoothIdx = 0; int stepCount = 0; while (curX < destX && destY < curY) { int oldY = curY; int v7 = _vm->_graphicsManager.zoomOut(_vm->_globals.Hopkins[hopkinsIdx].field0, 25); int v37 = _vm->_graphicsManager.zoomOut(_vm->_globals.Hopkins[hopkinsIdx].field2, 25); for (int i = 0; i < v7; i++) { ++curX; _smoothRoute[smoothIdx]._posX = curX; if ((uint16)curY != (uint16)oldY + v37) curY--; _smoothRoute[smoothIdx]._posY = curY; smoothIdx++; } ++hopkinsIdx; if (hopkinsIdx == 24) hopkinsIdx = 12; ++stepCount; } if (stepCount > 5) { _smoothRoute[smoothIdx]._posX = -1; _smoothRoute[smoothIdx]._posY = -1; _smoothMoveDirection = 2; return false; } } return true; } bool LinesManager::PLAN_TEST(int paramX, int paramY, int a3, int a4, int a5) { int v42; int v43; int v44; int v45; int dataIdxTestUp; int dataIdxTestDown; int dataIdxTestLeft; int dataIdxTestRight; int lineIdxTestUp; int lineIdxTestDown; int lineIdxTestLeft; int lineIdxTestRight; int idxTestUp = TEST_LIGNE(paramX, paramY - 2, &v42, &lineIdxTestUp, &dataIdxTestUp); int idxTestDown = TEST_LIGNE(paramX, paramY + 2, &v43, &lineIdxTestDown, &dataIdxTestDown); int idxTestLeft = TEST_LIGNE(paramX - 2, paramY, &v44, &lineIdxTestLeft, &dataIdxTestLeft); int idxTestRight = TEST_LIGNE(paramX + 2, paramY, &v45, &lineIdxTestRight, &dataIdxTestRight); if (idxTestUp == -1 && idxTestDown == -1 && idxTestLeft == -1 && idxTestRight == -1) return false; int v8; if (a4 == -1 || a5 == -1) { if (idxTestUp != -1) v8 = 1; else if (idxTestDown != -1) v8 = 2; else if (idxTestLeft != -1) v8 = 3; else if (idxTestRight != -1) v8 = 4; else return false; } else { int v28 = 100; int v7 = 100; int v35 = 100; int v27 = 100; int v36 = abs(a4 - a5); if (idxTestUp != -1) { v28 = abs(lineIdxTestUp - a5); } if (idxTestDown != -1) { v7 = abs(lineIdxTestDown - a5); } if (idxTestLeft != -1) { v35 = abs(lineIdxTestLeft - a5); } if (idxTestRight != -1) { v27 = abs(lineIdxTestRight - a5); } if (v28 < v36 && v28 <= v7 && v28 <= v35 && v28 <= v27) v8 = 1; else if (v36 > v7 && v28 >= v7 && v35 >= v7 && v27 >= v7) v8 = 2; else if (v35 < v36 && v35 <= v28 && v35 <= v7 && v35 <= v27) v8 = 3; else if (v27 < v36 && v27 <= v28 && v27 <= v7 && v27 <= v35) v8 = 4; else return false; } int v33 = 0; int idxTest = 0; if (v8 == 1) { idxTest = idxTestUp; v33 = v42; NV_LIGNEDEP = lineIdxTestUp; NV_LIGNEOFS = dataIdxTestUp; } else if (v8 == 2) { idxTest = idxTestDown; v33 = v43; NV_LIGNEDEP = lineIdxTestDown; NV_LIGNEOFS = dataIdxTestDown; } else if (v8 == 3) { idxTest = idxTestLeft; v33 = v44; NV_LIGNEDEP = lineIdxTestLeft; NV_LIGNEOFS = dataIdxTestLeft; } else if (v8 == 4) { idxTest = idxTestRight; v33 = v45; NV_LIGNEDEP = lineIdxTestRight; NV_LIGNEOFS = dataIdxTestRight; } int superRouteIdx = a3; if (v33 == 1) { for (int i = 0; i < Ligne[idxTest]._lineDataEndIdx; i++) { super_parcours[superRouteIdx] = Ligne[idxTest]._lineData[2 * i]; super_parcours[superRouteIdx + 1] = Ligne[idxTest]._lineData[2 * i + 1]; super_parcours[superRouteIdx + 2] = Ligne[idxTest].field6; super_parcours[superRouteIdx + 3] = 0; superRouteIdx += 4; } } else if (v33 == 2) { for (int v19 = Ligne[idxTest]._lineDataEndIdx - 1; v19 > -1; v19--) { super_parcours[superRouteIdx] = Ligne[idxTest]._lineData[2 * v19]; super_parcours[superRouteIdx + 1] = Ligne[idxTest]._lineData[2 * v19 + 1]; super_parcours[superRouteIdx + 2] = Ligne[idxTest].field8; super_parcours[superRouteIdx + 3] = 0; superRouteIdx += 4; } } NV_POSI = superRouteIdx; return true; } // Test line int LinesManager::TEST_LIGNE(int paramX, int paramY, int *a3, int *foundLineIdx, int *foundDataIdx) { int16 *lineData; int lineDataEndIdx; int collLineIdx; int collDataIdx; for (int idx = _lastLine + 1; idx < _linesNumb + 1; idx++) { lineData = Ligne[idx]._lineData; lineDataEndIdx = Ligne[idx]._lineDataEndIdx; if (lineData[0] == paramX && lineData[1] == paramY) { *a3 = 1; int posX = lineData[2 * (lineDataEndIdx - 1)]; int posY = lineData[2 * (lineDataEndIdx - 1) + 1]; if (Ligne[idx].field6 == 5 || Ligne[idx].field6 == 1) posY += 2; if (Ligne[idx].field6 == 3 || Ligne[idx].field8 == 7) posX += 2; if (!checkCollisionLine(posX, posY, &collDataIdx, &collLineIdx, 0, _lastLine)) error("Error in test line"); *foundLineIdx = collLineIdx; *foundDataIdx = collDataIdx; return idx; } if (lineData[2 * (lineDataEndIdx - 1)] == paramX && lineData[2 * (lineDataEndIdx - 1) + 1] == paramY) { *a3 = 2; int posX = lineData[0]; int posY = lineData[1]; if (Ligne[idx].field6 == 5 || Ligne[idx].field6 == 1) posY -= 2; if (Ligne[idx].field6 == 3 || Ligne[idx].field8 == 7) posX -= 2; if (!checkCollisionLine(posX, posY, &collDataIdx, &collLineIdx, 0, _lastLine)) error("Error in test line"); *foundLineIdx = collLineIdx; *foundDataIdx = collDataIdx; return idx; } } return -1; } int LinesManager::CALC_PROPRE(int idx) { int retVal = 25; int size = _vm->_globals._spriteSize[idx]; if (_vm->_globals.PERSO_TYPE == 1) { if (size < 0) size = -size; size = 20 * (5 * size - 100) / -80; } else if (_vm->_globals.PERSO_TYPE == 2) { if (size < 0) size = -size; size = 20 * (5 * size - 165) / -67; } if (size < 0) retVal = _vm->_graphicsManager.zoomOut(25, -size); else if (size > 0) retVal = _vm->_graphicsManager.zoomIn(25, size); return retVal; } void LinesManager::PACOURS_PROPRE(int16 *route) { int v4; int v5; int v9; int v10; int v11; int v12; int v1 = 0; int v14 = -1; int v2 = route[1]; int v15 = route[2]; if (route[0] == -1 && v2 == -1) return; for (;;) { if (v14 != -1 && v15 != v14) { v11 = v1; v12 = 0; v10 = CALC_PROPRE(v2); v4 = route[v1]; v9 = route[v1]; v5 = route[v1 + 1]; while (v4 != -1 || v5 != -1) { int idx = v1; v1 += 4; ++v12; if (route[idx + 2] != v15) break; v4 = route[v1]; v9 = route[v1]; v5 = route[v1 + 1]; } if (v12 < v10) { int v7 = v11; for (int v8 = 0; v8 < v12; v8++) { route[v7 + 2] = v14; v7 += 4; } v15 = v14; } v1 = v11; if (v9 == -1 && v5 == -1) break; } v1 += 4; v14 = v15; v2 = route[v1 + 1]; v15 = route[v1 + 2]; if (route[v1] == -1 && v2 == -1) break; } } int LinesManager::MZONE() { int result; int xp = _vm->_eventsManager._mousePos.x + _vm->_eventsManager._mouseOffset.x; int yp = _vm->_eventsManager._mousePos.y + _vm->_eventsManager._mouseOffset.y; if ((_vm->_eventsManager._mousePos.y + _vm->_eventsManager._mouseOffset.y) > 19) { for (int bobZoneId = 0; bobZoneId <= 48; bobZoneId++) { int bobId = _vm->_globals.BOBZONE[bobZoneId]; if (bobId && _vm->_globals.BOBZONE_FLAG[bobZoneId] && _vm->_objectsManager._bob[bobId].field0 && _vm->_objectsManager._bob[bobId]._frameIndex != 250 && !_vm->_objectsManager._bob[bobId]._disabledAnimationFl && xp > _vm->_objectsManager._bob[bobId]._oldX && xp < _vm->_objectsManager._bob[bobId]._oldWidth + _vm->_objectsManager._bob[bobId]._oldX && yp > _vm->_objectsManager._bob[bobId]._oldY) { if (yp < _vm->_objectsManager._bob[bobId]._oldHeight + _vm->_objectsManager._bob[bobId]._oldY) { if (_vm->_globals.ZONEP[bobZoneId]._spriteIndex == -1) { _vm->_globals.ZONEP[bobZoneId]._destX = 0; _vm->_globals.ZONEP[bobZoneId]._destY = 0; } if (!_vm->_globals.ZONEP[bobZoneId]._destX && !_vm->_globals.ZONEP[bobZoneId]._destY) { _vm->_globals.ZONEP[bobZoneId]._destX = _vm->_objectsManager._bob[bobId]._oldWidth + _vm->_objectsManager._bob[bobId]._oldX; _vm->_globals.ZONEP[bobZoneId]._destY = _vm->_objectsManager._bob[bobId]._oldHeight + _vm->_objectsManager._bob[bobId]._oldY + 6; _vm->_globals.ZONEP[bobZoneId]._spriteIndex = -1; } return bobZoneId; } } } _currentSegmentId = 0; for (int squareZoneId = 0; squareZoneId <= 99; squareZoneId++) { if (_vm->_globals.ZONEP[squareZoneId]._enabledFl && _squareZone[squareZoneId]._enabledFl == 1 && _squareZone[squareZoneId]._left <= xp && _squareZone[squareZoneId]._right >= xp && _squareZone[squareZoneId]._top <= yp && _squareZone[squareZoneId]._bottom >= yp) { if (_squareZone[squareZoneId]._squareZoneFl) return _zoneLine[_squareZone[squareZoneId]._minZoneLineIdx]._bobZoneIdx; _segment[_currentSegmentId]._minZoneLineIdx = _squareZone[squareZoneId]._minZoneLineIdx; _segment[_currentSegmentId]._maxZoneLineIdx = _squareZone[squareZoneId]._maxZoneLineIdx; ++_currentSegmentId; } } if (!_currentSegmentId) return -1; int colRes1 = 0; for (int yCurrent = yp; yCurrent >= 0; --yCurrent) { colRes1 = colision(xp, yCurrent); if (colRes1 != -1 && _vm->_globals.ZONEP[colRes1]._enabledFl) break; } if (colRes1 == -1) return -1; int colRes2 = 0; for (int j = yp; j < _vm->_graphicsManager._maxY; ++j) { colRes2 = colision(xp, j); if (colRes2 != -1 && _vm->_globals.ZONEP[colRes1]._enabledFl) break; } if (colRes2 == -1) return -1; int colRes3 = 0; for (int k = xp; k >= 0; --k) { colRes3 = colision(k, yp); if (colRes3 != -1 && _vm->_globals.ZONEP[colRes1]._enabledFl) break; } if (colRes3 == -1) return -1; int colRes4 = 0; for (int xCurrent = xp; _vm->_graphicsManager._maxX > xCurrent; ++xCurrent) { colRes4 = colision(xCurrent, yp); if (colRes4 != -1 && _vm->_globals.ZONEP[colRes1]._enabledFl) break; } if (colRes1 == colRes2 && colRes1 == colRes3 && colRes1 == colRes4) result = colRes1; else result = -1; } else { result = 0; } return result; } int LinesManager::colision(int xp, int yp) { if (_currentSegmentId <= 0) return -1; int xMax = xp + 4; int xMin = xp - 4; for (int idx = 0; idx <= _currentSegmentId; ++idx) { int curZoneLineIdx = _segment[idx]._minZoneLineIdx; if (_segment[idx]._maxZoneLineIdx < curZoneLineIdx) continue; int yMax = yp + 4; int yMin = yp - 4; do { int16 *dataP = _vm->_linesManager._zoneLine[curZoneLineIdx]._zoneData; if (dataP != (int16 *)g_PTRNUL) { int count = _vm->_linesManager._zoneLine[curZoneLineIdx]._count; int v1 = dataP[0]; int v2 = dataP[1]; int v3 = dataP[count * 2 - 2]; int v4 = dataP[count * 2 - 1]; bool flag = true; if (v1 < v3 && (xMax < v1 || xMin > v3)) flag = false; if (v1 >= v3 && (xMin > v1 || xMax < v3)) flag = false; if (v2 < v4 && (yMax < v2 || yMin > v4)) flag = false; if (v2 >= v4 && (yMin > v2 || yMax < v4)) flag = false; if (flag && _vm->_linesManager._zoneLine[curZoneLineIdx]._count > 0) { for (int i = 0; i < count; ++i) { int xCheck = *dataP++; int yCheck = *dataP++; if ((xp == xCheck || (xp + 1) == xCheck) && (yp == yCheck)) return _vm->_linesManager._zoneLine[curZoneLineIdx]._bobZoneIdx; } } } } while (++curZoneLineIdx <= _segment[idx]._maxZoneLineIdx); } return -1; } // Square Zone void LinesManager::CARRE_ZONE() { for (int idx = 0; idx < 100; ++idx) { _squareZone[idx]._enabledFl = 0; _squareZone[idx]._squareZoneFl = false; _squareZone[idx]._left = 1280; _squareZone[idx]._right = 0; _squareZone[idx]._top = 460; _squareZone[idx]._bottom = 0; _squareZone[idx]._minZoneLineIdx = 401; _squareZone[idx]._maxZoneLineIdx = 0; } for (int idx = 0; idx < MAX_LINES; ++idx) { int16 *dataP = _vm->_linesManager._zoneLine[idx]._zoneData; if (dataP == (int16 *)g_PTRNUL) continue; int carreZoneId = _vm->_linesManager._zoneLine[idx]._bobZoneIdx; _squareZone[carreZoneId]._enabledFl = 1; if (_squareZone[carreZoneId]._maxZoneLineIdx < idx) _squareZone[carreZoneId]._maxZoneLineIdx = idx; if (_squareZone[carreZoneId]._minZoneLineIdx > idx) _squareZone[carreZoneId]._minZoneLineIdx = idx; for (int i = 0; i < _vm->_linesManager._zoneLine[idx]._count; i++) { int zoneX = *dataP++; int zoneY = *dataP++; if (_squareZone[carreZoneId]._left >= zoneX) _squareZone[carreZoneId]._left = zoneX; if (_squareZone[carreZoneId]._right <= zoneX) _squareZone[carreZoneId]._right = zoneX; if (_squareZone[carreZoneId]._top >= zoneY) _squareZone[carreZoneId]._top = zoneY; if (_squareZone[carreZoneId]._bottom <= zoneY) _squareZone[carreZoneId]._bottom = zoneY; } } for (int idx = 0; idx < 100; idx++) { int zoneWidth = abs(_squareZone[idx]._left - _squareZone[idx]._right); int zoneHeight = abs(_squareZone[idx]._top - _squareZone[idx]._bottom); if (zoneWidth == zoneHeight) _squareZone[idx]._squareZoneFl = true; } } void LinesManager::clearAll() { _vm->_linesManager.essai0 = (int16 *)g_PTRNUL; _vm->_linesManager.essai1 = (int16 *)g_PTRNUL; _vm->_linesManager.essai2 = (int16 *)g_PTRNUL; _vm->_linesManager.BufLig = (int16 *)g_PTRNUL; _vm->_linesManager._route = (int16 *)g_PTRNUL; for (int idx = 0; idx < MAX_LINES; ++idx) { _vm->_linesManager.Ligne[idx]._lineDataEndIdx = 0; _vm->_linesManager.Ligne[idx]._direction = 0; _vm->_linesManager.Ligne[idx].field6 = 0; _vm->_linesManager.Ligne[idx].field8 = 0; _vm->_linesManager.Ligne[idx]._lineData = (int16 *)g_PTRNUL; _vm->_linesManager._zoneLine[idx]._count = 0; _vm->_linesManager._zoneLine[idx]._bobZoneIdx = 0; _vm->_linesManager._zoneLine[idx]._zoneData = (int16 *)g_PTRNUL; } for (int idx = 0; idx < 100; ++idx) { _vm->_linesManager._squareZone[idx]._enabledFl = 0; } BUFFERTAPE = _vm->_globals.allocMemory(85000); _vm->_linesManager.essai0 = (int16 *)BUFFERTAPE; _vm->_linesManager.essai1 = (int16 *)(BUFFERTAPE + 25000); _vm->_linesManager.essai2 = (int16 *)(BUFFERTAPE + 50000); _vm->_linesManager.BufLig = (int16 *)(BUFFERTAPE + 75000); } /** * Clear all zones and reset nextLine */ void LinesManager::clearAllZones() { for (int idx = 0; idx < MAX_LINES; ++idx) removeZoneLine(idx); } /** * Remove Zone Line */ void LinesManager::removeZoneLine(int idx) { assert (idx <= MAX_LINES); _zoneLine[idx]._zoneData = (int16 *)_vm->_globals.freeMemory((byte *)_zoneLine[idx]._zoneData); } void LinesManager::resetLines() { for (int idx = 0; idx < MAX_LINES; ++idx) { removeLine(idx); Ligne[idx]._lineDataEndIdx = 0; Ligne[idx]._lineData = (int16 *)g_PTRNUL; } } // Remove Line void LinesManager::removeLine(int idx) { if (idx > MAX_LINES) error("Attempting to add a line obstacle > MAX_LIGNE."); Ligne[idx]._lineData = (int16 *)_vm->_globals.freeMemory((byte *)Ligne[idx]._lineData); } void LinesManager::setMaxLineIdx(int idx) { _maxLineIdx = idx; } void LinesManager::resetLastLine() { _lastLine = 0; } void LinesManager::resetLinesNumb() { _linesNumb = 0; } } // End of namespace Hopkins