/* ScummVM - Scumm Interpreter * Copyright (C) 2004-2005 The ScummVM project * * The ReInherit Engine is (C)2000-2003 by Daniel Balsom. * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * $Header$ * */ // Isometric level module #include "saga/saga.h" #include "saga/gfx.h" #include "saga/resnames.h" #include "saga/scene.h" #include "saga/isomap.h" #include "saga/stream.h" namespace Saga { enum MaskRules { kMaskRuleNever = 0, kMaskRuleAlways, kMaskRuleUMIN, kMaskRuleUMID, kMaskRuleUMAX, kMaskRuleVMIN, kMaskRuleVMID, kMaskRuleVMAX, kMaskRuleYMIN, kMaskRuleYMID, kMaskRuleYMAX, kMaskRuleUVMAX, kMaskRuleUVMIN, kMaskRuleUorV, kMaskRuleUandV }; static const IsoMap::TilePoint normalDirTable[8] = { { 1, 1, 0, SAGA_DIAG_NORMAL_COST}, { 1, 0, 0, SAGA_STRAIGHT_NORMAL_COST}, { 1,-1, 0, SAGA_DIAG_NORMAL_COST}, { 0,-1, 0, SAGA_STRAIGHT_NORMAL_COST}, {-1,-1, 0, SAGA_DIAG_NORMAL_COST}, {-1, 0, 0, SAGA_STRAIGHT_NORMAL_COST}, {-1, 1, 0, SAGA_DIAG_NORMAL_COST}, { 0, 1, 0, SAGA_STRAIGHT_NORMAL_COST}, }; static const IsoMap::TilePoint easyDirTable[8] = { { 1, 1, 0, SAGA_DIAG_EASY_COST}, { 1, 0, 0, SAGA_STRAIGHT_EASY_COST}, { 1,-1, 0, SAGA_DIAG_EASY_COST}, { 0,-1, 0, SAGA_STRAIGHT_EASY_COST}, {-1,-1, 0, SAGA_DIAG_EASY_COST}, {-1, 0, 0, SAGA_STRAIGHT_EASY_COST}, {-1, 1, 0, SAGA_DIAG_EASY_COST}, { 0, 1, 0, SAGA_STRAIGHT_EASY_COST}, }; static const IsoMap::TilePoint hardDirTable[8] = { { 1, 1, 0, SAGA_DIAG_HARD_COST}, { 1, 0, 0, SAGA_STRAIGHT_HARD_COST}, { 1,-1, 0, SAGA_DIAG_HARD_COST}, { 0,-1, 0, SAGA_STRAIGHT_HARD_COST}, {-1,-1, 0, SAGA_DIAG_HARD_COST}, {-1, 0, 0, SAGA_STRAIGHT_HARD_COST}, {-1, 1, 0, SAGA_DIAG_HARD_COST}, { 0, 1, 0, SAGA_STRAIGHT_HARD_COST}, }; IsoMap::IsoMap(SagaEngine *vm) : _vm(vm) { _tileData = NULL; _tilesCount = 0; _tilePlatformList = NULL; _tilePlatformsCount = 0; _metaTileList = NULL; _metaTilesCount = 0; _multiTable = NULL; _multiCount = 0; _multiTableData = NULL; _multiDataCount = 0; _viewScroll.x = (128 - 8) * 16; _viewScroll.x = (128 - 8) * 16 - 64; _viewDiff = 1; } void IsoMap::loadImages(const byte *resourcePointer, size_t resourceLength) { IsoTileData *tileData; uint16 i; if (resourceLength == 0) { error("IsoMap::loadImages wrong resourceLength"); } _tileData = (byte*)malloc(resourceLength); _tileDataLength = resourceLength; memcpy(_tileData, resourcePointer, resourceLength); MemoryReadStreamEndian readS(_tileData, _tileDataLength, IS_BIG_ENDIAN); readS.readUint16(); // skip _tilesCount = readS.readUint16(); _tilesCount = _tilesCount / SAGA_ISOTILEDATA_LEN; readS.seek(0); _tilesTable = (IsoTileData *)malloc(_tilesCount * sizeof(*_tilesTable)); if (_tilesTable == NULL) { memoryError("IsoMap::loadImages"); } for (i = 0; i < _tilesCount; i++) { tileData = &_tilesTable[i]; tileData->height = readS.readByte(); tileData->attributes = readS.readByte(); tileData->offset = readS.readUint16(); tileData->terrainMask = readS.readSint16(); tileData->FGDBGDAttr = readS.readByte(); readS.readByte(); //skip } } void IsoMap::loadPlatforms(const byte * resourcePointer, size_t resourceLength) { TilePlatformData *tilePlatformData; uint16 i, x, y; if (resourceLength == 0) { error("IsoMap::loadPlatforms wrong resourceLength"); } MemoryReadStreamEndian readS(resourcePointer, resourceLength, IS_BIG_ENDIAN); _tilePlatformsCount = resourceLength / SAGA_TILEPLATFORMDATA_LEN; _tilePlatformList = (TilePlatformData *)malloc(_tilePlatformsCount * sizeof(*_tilePlatformList)); if (_tilePlatformList == NULL) { memoryError("IsoMap::loadPlatforms"); } for (i = 0; i < _tilePlatformsCount; i++) { tilePlatformData = &_tilePlatformList[i]; tilePlatformData->metaTile = readS.readSint16(); tilePlatformData->height = readS.readSint16(); tilePlatformData->highestPixel = readS.readSint16(); tilePlatformData->vBits = readS.readByte(); tilePlatformData->uBits = readS.readByte(); for (x = 0; x < SAGA_PLATFORM_W; x++) { for (y = 0; y < SAGA_PLATFORM_W; y++) { tilePlatformData->tiles[x][y] = readS.readSint16(); } } } } void IsoMap::loadMap(const byte * resourcePointer, size_t resourceLength) { uint16 x, y; if (resourceLength != SAGA_TILEMAP_LEN) { error("IsoMap::loadMap wrong resourceLength"); } MemoryReadStreamEndian readS(resourcePointer, resourceLength, IS_BIG_ENDIAN); _tileMap.edgeType = readS.readByte(); readS.readByte(); //skip for (x = 0; x < SAGA_TILEMAP_W; x++) { for (y = 0; y < SAGA_TILEMAP_H; y++) { _tileMap.tilePlatforms[x][y] = readS.readSint16(); } } } void IsoMap::loadMetaTiles(const byte * resourcePointer, size_t resourceLength) { MetaTileData *metaTileData; uint16 i, j; if (resourceLength == 0) { error("IsoMap::loadMetaTiles wrong resourceLength"); } MemoryReadStreamEndian readS(resourcePointer, resourceLength, IS_BIG_ENDIAN); _metaTilesCount = resourceLength / SAGA_METATILEDATA_LEN; _metaTileList = (MetaTileData *)malloc(_metaTilesCount * sizeof(*_metaTileList)); if (_metaTileList == NULL) { memoryError("IsoMap::loadMetaTiles"); } for (i = 0; i < _metaTilesCount; i++) { metaTileData = &_metaTileList[i]; metaTileData->highestPlatform = readS.readUint16(); metaTileData->highestPixel = readS.readUint16(); for (j = 0; j < SAGA_MAX_PLATFORM_H; j++) { metaTileData->stack[j] = readS.readSint16(); } } } void IsoMap::loadMulti(const byte * resourcePointer, size_t resourceLength) { MultiTileEntryData *multiTileEntryData; uint16 i; if (resourceLength < 2) { error("IsoMap::loadMetaTiles wrong resourceLength"); } MemoryReadStreamEndian readS(resourcePointer, resourceLength, IS_BIG_ENDIAN); _multiCount = readS.readUint16(); _multiTable = (MultiTileEntryData *)malloc(_multiCount * sizeof(*_multiTable)); if (_multiTable == NULL) { memoryError("IsoMap::loadMulti"); } debug(0,"resourceLength=%d but should be %d",resourceLength, 14*_multiCount + 2); for (i = 0; i < _multiCount; i++) { multiTileEntryData = &_multiTable[i]; readS.readUint32();//skip multiTileEntryData->offset = readS.readSint16(); multiTileEntryData->u = readS.readByte(); multiTileEntryData->v = readS.readByte(); multiTileEntryData->h = readS.readByte(); multiTileEntryData->uSize = readS.readByte(); multiTileEntryData->vSize = readS.readByte(); multiTileEntryData->numStates = readS.readByte(); multiTileEntryData->currentState = readS.readByte(); readS.readByte();//skip } for (i = 0; i < _multiCount; i++) { _multiTable[i].offset -= readS.pos(); } _multiDataCount = (readS.size() - readS.pos()) / 2; _multiTableData = (int16 *)malloc(_multiDataCount * sizeof(*_multiTableData)); for (i = 0; i < _multiDataCount; i++) { _multiTableData[i] = readS.readSint16(); } } void IsoMap::freeMem() { free(_tileData); _tilesCount = 0; free(_tilePlatformList); _tilePlatformsCount = 0; free(_metaTileList); _metaTilesCount = 0; free(_multiTable); _multiCount = 0; free(_multiTableData); _multiDataCount = 0; } void IsoMap::adjustScroll(bool jump) { Point playerPoint; Point minScrollPos; Point maxScrollPos; tileCoordsToScreenPoint(_vm->_actor->_centerActor->location, playerPoint); if (_vm->_scene->currentSceneNumber() == RID_ITE_OVERMAP_SCENE) { _mapPosition.x = (playerPoint.x + _viewScroll.x) * 30 / 100 - (381); _mapPosition.y = (playerPoint.y + _viewScroll.y) * 30 / 100 - (342); } if (_vm->_actor->_centerActor != _vm->_actor->_protagonist) { playerPoint.y -= 24; } playerPoint.y -= 28; playerPoint.x += _viewScroll.x - _vm->getDisplayWidth()/2; playerPoint.y += _viewScroll.y - _vm->getSceneHeight()/2; minScrollPos.x = playerPoint.x - SAGA_SCROLL_LIMIT_X1; minScrollPos.y = playerPoint.y - SAGA_SCROLL_LIMIT_Y1; maxScrollPos.x = playerPoint.x + SAGA_SCROLL_LIMIT_X1; maxScrollPos.y = playerPoint.y + SAGA_SCROLL_LIMIT_Y2; if (jump) { if (_viewScroll.y < minScrollPos.y) { _viewScroll.y = minScrollPos.y; } if (_viewScroll.y > maxScrollPos.y) { _viewScroll.y = maxScrollPos.y; } if (_viewScroll.x < minScrollPos.x) { _viewScroll.x = minScrollPos.x; } if (_viewScroll.x > maxScrollPos.x) { _viewScroll.x = maxScrollPos.x; } } else { _viewScroll.y = smoothSlide( _viewScroll.y, minScrollPos.y, maxScrollPos.y ); _viewScroll.x = smoothSlide( _viewScroll.x, minScrollPos.x, maxScrollPos.x ); } if (_vm->_scene->currentSceneNumber() == RID_ITE_OVERMAP_SCENE) { ObjectData *obj; uint16 objectId; objectId = _vm->_actor->objIndexToId(ITE_OBJ_MAP); obj = _vm->_actor->getObj(objectId); if (obj->sceneNumber != ITE_SCENE_INV) { _viewScroll.x = 1552 + 8; _viewScroll.y = 1456 + 8; } } } int16 IsoMap::findMulti(int16 tileIndex, int16 absU, int16 absV, int16 absH) { MultiTileEntryData *multiTileEntryData; int16 ru; int16 rv; int16 mu; int16 mv; int16 state; uint16 i, offset; ru = (tileIndex >> 13) & 0x03; rv = (tileIndex >> 11) & 0x03; mu = absU - ru; mv = absV - rv; tileIndex = 0; for (i = 0; i < _multiCount; i++) { multiTileEntryData = &_multiTable[i]; if ((multiTileEntryData->u == mu) && (multiTileEntryData->v == mv) && (multiTileEntryData->h == absH)) { state = multiTileEntryData->currentState; offset = (ru + state * multiTileEntryData->uSize) * multiTileEntryData->vSize + rv; offset += multiTileEntryData->offset; if (offset >= _multiDataCount * sizeof(*_multiTableData)) { error("wrong multiTileEntryData->offset"); } tileIndex = _multiTableData[offset]; if (tileIndex >= 256) { warning("something terrible happened"); return 1; } return tileIndex; } } warning("something terrible happened"); return 1; } int IsoMap::draw(SURFACE *ds) { Rect isoRect(_vm->getDisplayWidth(), _vm->getDisplayInfo().sceneHeight); drawRect(ds, &isoRect, 0); _tileClip = isoRect; drawTiles(ds, NULL); return SUCCESS; } void IsoMap::drawSprite(SURFACE *ds, SpriteList &spriteList, int spriteNumber, const Location &location, const Point &screenPosition, int scale) { int width; int height; int xAlign; int yAlign; const byte *spriteBuffer; Point spritePointer; Rect clip(_vm->getDisplayWidth(),_vm->getSceneHeight()); _vm->_sprite->getScaledSpriteBuffer(spriteList,spriteNumber,scale, width, height, xAlign, yAlign, spriteBuffer); spritePointer.x = screenPosition.x + xAlign; spritePointer.y = screenPosition.y + yAlign; _tileClip.left = spritePointer.x; _tileClip.top = spritePointer.y; _tileClip.right = spritePointer.x + width; _tileClip.bottom = spritePointer.y + height; if (_tileClip.left < 0) { _tileClip.left = 0; } if (_tileClip.right > _vm->getDisplayWidth()) { _tileClip.right = _vm->getDisplayWidth(); } if (_tileClip.top < 0) { _tileClip.top = 0; } if (_tileClip.bottom > _vm->getSceneHeight()) { _tileClip.bottom = _vm->getSceneHeight(); } _vm->_sprite->drawClip(ds, clip, spritePointer, width, height, spriteBuffer); drawTiles(ds, &location); } void IsoMap::drawTiles(SURFACE *ds, const Location *location) { Point view1; Point fineScroll; Point tileScroll; Point metaTileY; Point metaTileX; int16 u0, v0, u1, v1, u2, v2, uc, vc; uint16 metaTileIndex; Location rLocation; int16 workAreaWidth; int16 workAreaHeight; tileScroll.x = _viewScroll.x >> 4; tileScroll.y = _viewScroll.y >> 4; fineScroll.x = _viewScroll.x & 0xf; fineScroll.y = _viewScroll.y & 0xf; view1.x = tileScroll.x - (8 * SAGA_TILEMAP_W); view1.y = (8 * SAGA_TILEMAP_W) - tileScroll.y; u0 = ((view1.y + 64) * 2 + view1.x) >> 4; v0 = ((view1.y + 64) * 2 - view1.x) >> 4; metaTileY.x = (u0 - v0) * 128 - (view1.x * 16 + fineScroll.x); metaTileY.y = (view1.y * 16 - fineScroll.y) - (u0 + v0) * 64; workAreaWidth = _vm->getDisplayWidth() + 128; workAreaHeight = _vm->getDisplayInfo().sceneHeight + 128 + 80; for (u1 = u0, v1 = v0; metaTileY.y < workAreaHeight; u1--, v1-- ) { metaTileX = metaTileY; for (u2 = u1, v2 = v1; metaTileX.x < workAreaWidth; u2++, v2--, metaTileX.x += 256) { uc = u2 & (SAGA_TILEMAP_W - 1); vc = v2 & (SAGA_TILEMAP_W - 1); if (uc != u2 || vc != v2) { metaTileIndex = 0; switch ( _tileMap.edgeType) { case kEdgeTypeBlack: continue; case kEdgeTypeFill0: break; case kEdgeTypeFill1: metaTileIndex = 1; break; case kEdgeTypeRpt: uc = clamp( 0, u2, SAGA_TILEMAP_W - 1); vc = clamp( 0, v2, SAGA_TILEMAP_W - 1); metaTileIndex = _tileMap.tilePlatforms[uc][vc]; break; case kEdgeTypeWrap: metaTileIndex = _tileMap.tilePlatforms[uc][vc]; break; } } else { metaTileIndex = _tileMap.tilePlatforms[uc][vc]; } if (location != NULL) { rLocation.u() = location->u() - (u2 << 7); rLocation.v() = location->v() - (v2 << 7); rLocation.z = location->z; drawSpriteMetaTile(ds, metaTileIndex, metaTileX, rLocation, u2 << 3, v2 << 3); } else { drawMetaTile(ds, metaTileIndex, metaTileX, u2 << 3, v2 << 3); } } metaTileY.y += 64; metaTileX = metaTileY; metaTileX.x -= 128; for (u2 = u1 - 1, v2 = v1; metaTileX.x < workAreaWidth; u2++, v2--, metaTileX.x += 256) { uc = u2 & (SAGA_TILEMAP_W - 1); vc = v2 & (SAGA_TILEMAP_W - 1); if (uc != u2 || vc != v2) { metaTileIndex = 0; switch ( _tileMap.edgeType) { case kEdgeTypeBlack: continue; case kEdgeTypeFill0: break; case kEdgeTypeFill1: metaTileIndex = 1; break; case kEdgeTypeRpt: uc = clamp( 0, u2, SAGA_TILEMAP_W - 1); vc = clamp( 0, v2, SAGA_TILEMAP_W - 1); metaTileIndex = _tileMap.tilePlatforms[uc][vc]; break; case kEdgeTypeWrap: metaTileIndex = _tileMap.tilePlatforms[uc][vc]; break; } } else { metaTileIndex = _tileMap.tilePlatforms[uc][vc]; } if (location != NULL) { rLocation.u() = location->u() - (u2 << 7); rLocation.v() = location->v() - (v2 << 7); rLocation.z = location->z; drawSpriteMetaTile(ds, metaTileIndex, metaTileX, rLocation, u2 << 3, v2 << 3); } else { drawMetaTile(ds, metaTileIndex, metaTileX, u2 << 3, v2 << 3); } } metaTileY.y += 64; } } void IsoMap::drawSpriteMetaTile(SURFACE *ds, uint16 metaTileIndex, const Point &point, Location &location, int16 absU, int16 absV) { MetaTileData * metaTile; uint16 high; int16 platformIndex; Point platformPoint; platformPoint = point; if (_metaTilesCount <= metaTileIndex) { error("IsoMap::drawMetaTile wrong metaTileIndex"); } metaTile = &_metaTileList[metaTileIndex]; if (metaTile->highestPlatform > 18) { metaTile->highestPlatform = 0; } for (high = 0; high <= metaTile->highestPlatform; high++, platformPoint.y -= 8, location.z -= 8) { assert(SAGA_MAX_PLATFORM_H > high); platformIndex = metaTile->stack[high]; if (platformIndex >= 0) { drawSpritePlatform( ds, platformIndex, platformPoint, location, absU, absV, high ); } } } void IsoMap::drawMetaTile(SURFACE *ds, uint16 metaTileIndex, const Point &point, int16 absU, int16 absV) { MetaTileData * metaTile; uint16 high; int16 platformIndex; Point platformPoint; platformPoint = point; if (_metaTilesCount <= metaTileIndex) { error("IsoMap::drawMetaTile wrong metaTileIndex"); } metaTile = &_metaTileList[metaTileIndex]; if (metaTile->highestPlatform > 18) { metaTile->highestPlatform = 0; } for (high = 0; high <= metaTile->highestPlatform; high++, platformPoint.y -= 8) { assert(SAGA_MAX_PLATFORM_H > high); platformIndex = metaTile->stack[high]; if (platformIndex >= 0) { drawPlatform( ds, platformIndex, platformPoint, absU, absV, high ); } } } void IsoMap::drawSpritePlatform(SURFACE *ds, uint16 platformIndex, const Point &point, const Location &location, int16 absU, int16 absV, int16 absH) { TilePlatformData *tilePlatform; int16 u, v; Point s; Point s0; int16 tileIndex; Location copyLocation(location); if (_tilePlatformsCount <= platformIndex) { error("IsoMap::drawPlatform wrong platformIndex"); } tilePlatform = &_tilePlatformList[platformIndex]; if ((point.y <= _tileClip.top) || (point.y - SAGA_MAX_TILE_H - SAGA_PLATFORM_W * SAGA_TILE_NOMINAL_H >= _tileClip.bottom)) { return; } s0 = point; s0.y -= (((SAGA_PLATFORM_W - 1) + (SAGA_PLATFORM_W - 1)) * 8); for (v = SAGA_PLATFORM_W - 1, copyLocation.v() = location.v() - ((SAGA_PLATFORM_W - 1) << 4); v >= 0 && s0.y - SAGA_MAX_TILE_H < _tileClip.bottom && s0.x - 128 < _tileClip.right; v--, copyLocation.v() += 16, s0.x += 16, s0.y += 8) { if ((tilePlatform->vBits & (1 << v)) == 0) { continue; } if (s0.x + 128 + 32 < _tileClip.left) { continue; } s = s0; for (u = SAGA_PLATFORM_W - 1, copyLocation.u() = location.u() - ((SAGA_PLATFORM_W - 1) << 4); u >= 0 && s.x + 32 > _tileClip.left && s.y - SAGA_MAX_TILE_H < _tileClip.bottom; u--, copyLocation.u() += 16, s.x -= 16, s.y += 8 ) { if (s.x < _tileClip.right && s.y > _tileClip.top) { tileIndex = tilePlatform->tiles[u][v]; if (tileIndex != 0) { if (tileIndex & SAGA_MULTI_TILE) { tileIndex = findMulti(tileIndex, absU + u, absU + v, absH); } drawTile(ds, tileIndex, s, &location); } } } } } void IsoMap::drawPlatform(SURFACE *ds, uint16 platformIndex, const Point &point, int16 absU, int16 absV, int16 absH) { TilePlatformData *tilePlatform; int16 u, v; Point s; Point s0; int16 tileIndex; if (_tilePlatformsCount <= platformIndex) { error("IsoMap::drawPlatform wrong platformIndex"); } tilePlatform = &_tilePlatformList[platformIndex]; if ((point.y <= _tileClip.top) || (point.y - SAGA_MAX_TILE_H - SAGA_PLATFORM_W * SAGA_TILE_NOMINAL_H >= _tileClip.bottom)) { return; } s0 = point; s0.y -= (((SAGA_PLATFORM_W - 1) + (SAGA_PLATFORM_W - 1)) * 8); for (v = SAGA_PLATFORM_W - 1; v >= 0 && s0.y - SAGA_MAX_TILE_H < _tileClip.bottom && s0.x - 128 < _tileClip.right; v--, s0.x += 16, s0.y += 8) { if ((tilePlatform->vBits & (1 << v)) == 0) { continue; } if (s0.x + 128 + 32 < _tileClip.left) { continue; } s = s0; for (u = SAGA_PLATFORM_W - 1; u >= 0 && s.x + 32 > _tileClip.left && s.y - SAGA_MAX_TILE_H < _tileClip.bottom; u--, s.x -= 16, s.y += 8 ) { if (s.x < _tileClip.right && s.y > _tileClip.top) { tileIndex = tilePlatform->tiles[u][v]; if (tileIndex > 1) { if (tileIndex & SAGA_MULTI_TILE) { tileIndex = findMulti(tileIndex, absU + u, absU + v, absH); } drawTile(ds, tileIndex, s, NULL); } } } } } #define THRESH0 0 #define THRESH8 8 #define THRESH16 16 void IsoMap::drawTile(SURFACE *ds, uint16 tileIndex, const Point &point, const Location *location) { const byte *tilePointer; const byte *readPointer; byte *drawPointer; Point drawPoint; int height; int widthCount = 0; int row, col, count, lowBound; int bgRunCount; int fgRunCount; if (tileIndex >= _tilesCount) { error("IsoMap::drawTile wrong tileIndex"); } if (point.x + SAGA_ISOTILE_WIDTH < _tileClip.left) { return; } if (point.x - SAGA_ISOTILE_WIDTH >= _tileClip.right) { return; } tilePointer = _tileData + _tilesTable[tileIndex].offset; height = _tilesTable[tileIndex].height; if ((height <= 8) || (height > 64)) { return; } drawPoint = point; drawPoint.y -= height; if (drawPoint.y >= _tileClip.bottom) { return; } if (location != NULL) { if (location->z <= -16) { if (location->z <= -48) { if (location->u() < -THRESH8 || location->v() < -THRESH8) { return; } } else { if (location->u() < THRESH0 || location->v() < THRESH0) { return; } } } else { if (location->z >= 16) { return; } else { switch (_tilesTable[tileIndex].GetMaskRule()) { case kMaskRuleNever: return; case kMaskRuleAlways: break; case kMaskRuleUMIN: if (location->u() < THRESH0) { return; } break; case kMaskRuleUMID: if (location->u() < THRESH8) { return; } break; case kMaskRuleUMAX: if (location->u() < THRESH16) { return; } break; case kMaskRuleVMIN: if (location->v() < THRESH0) { return; } break; case kMaskRuleVMID: if (location->v() < THRESH8) { return; } break; case kMaskRuleVMAX: if (location->v() < THRESH16) { return; } break; case kMaskRuleYMIN: if (location->u() + location->v() < THRESH0 * 2) { return; } break; case kMaskRuleYMID: if (location->u() + location->v() < THRESH8 * 2) { return; } break; case kMaskRuleYMAX: if (location->u() + location->v() < THRESH16 * 2) { return; } break; case kMaskRuleUVMAX: if (location->u() < THRESH16 && location->v() < THRESH16) { return; } break; case kMaskRuleUVMIN: if (location->u() < THRESH0 || location->v() < THRESH0) { return; } break; case kMaskRuleUorV: if (location->u() < THRESH8 && location->v() < THRESH8) { return; } break; case kMaskRuleUandV: if (location->u() < THRESH8 || location->v() < THRESH8) { return; } break; } } } } readPointer = tilePointer; lowBound = MIN((int)(drawPoint.y + height), (int)_tileClip.bottom); for (row = drawPoint.y; row < lowBound; row++) { widthCount = 0; if (row >= _tileClip.top) { drawPointer = (byte *)ds->pixels + drawPoint.x + (row * ds->pitch); col = drawPoint.x; for (;;) { bgRunCount = *readPointer++; widthCount += bgRunCount; if (widthCount >= SAGA_ISOTILE_WIDTH) { break; } drawPointer += bgRunCount; col += bgRunCount; fgRunCount = *readPointer++; widthCount += fgRunCount; count = 0; while ((col < _tileClip.left) && (count < fgRunCount)) { count++; col++; } while ((col < _tileClip.right) && (count < fgRunCount)) { assert((uint)ds->pixels <= (uint)(drawPointer + count)); assert(((uint)ds->pixels + (_vm->getDisplayWidth() * _vm->getDisplayHeight())) > (uint)(drawPointer + count)); drawPointer[count] = readPointer[count]; count++; col++; } readPointer += fgRunCount; drawPointer += fgRunCount; } } else { for (;;) { bgRunCount = *readPointer++; widthCount += bgRunCount; if (widthCount >= SAGA_ISOTILE_WIDTH) { break; } fgRunCount = *readPointer++; widthCount += fgRunCount; readPointer += fgRunCount; } } } } // void IsoMap::pushPoint(int16 u, int16 v, uint16 cost, uint16 direction) { int16 upper; int16 lower; int16 mid; TilePoint *tilePoint; PathCell *pathCell; upper = _queueCount; lower = 0; if ((u < 1) || (u >= SAGA_SEARCH_DIAMETER - 1) || (v < 1) || (v >= SAGA_SEARCH_DIAMETER - 1)) { return; } pathCell = _searchArray.getPathCell(u, v); if ((pathCell->visited) && (pathCell->cost <= cost)) { return; } if (_queueCount >= SAGA_SEARCH_QUEUE_SIZE) { return; } while(1) { mid = (upper + lower) / 2; tilePoint = _searchArray.getQueue(mid); if (upper <= lower) { break; } if (cost < tilePoint->cost) { lower = mid + 1; } else { upper = mid; } } if (mid < _queueCount ) { memmove(tilePoint + 1, tilePoint, (_queueCount - mid) * sizeof (*tilePoint)); } _queueCount++; tilePoint->u = u; tilePoint->v = v; tilePoint->cost = cost; tilePoint->direction = direction; pathCell->visited = 1; pathCell->direction = direction; pathCell->cost = cost; } IsoTileData *IsoMap::getTile(int16 u, int16 v, int16 z) { int16 mtileU; int16 mtileV; int16 uc; int16 vc; int16 u0; int16 v0; int16 tileIndex; int16 platformIndex; int16 metaTileIndex; mtileU = u >> 3; mtileV = v >> 3; uc = mtileU & (SAGA_TILEMAP_W - 1); vc = mtileV & (SAGA_TILEMAP_W - 1); u0 = u & (SAGA_PLATFORM_W - 1); v0 = v & (SAGA_PLATFORM_W - 1); if ((uc != mtileU) || (vc != mtileV)) { metaTileIndex = 0; switch ( _tileMap.edgeType) { case kEdgeTypeBlack: return NULL; case kEdgeTypeFill0: break; case kEdgeTypeFill1: metaTileIndex = 1; break; case kEdgeTypeRpt: uc = clamp( 0, mtileU, SAGA_TILEMAP_W - 1); vc = clamp( 0, mtileV, SAGA_TILEMAP_W - 1); metaTileIndex = _tileMap.tilePlatforms[uc][vc]; break; case kEdgeTypeWrap: metaTileIndex = _tileMap.tilePlatforms[uc][vc]; break; } } else { metaTileIndex = _tileMap.tilePlatforms[uc][vc]; } if (_metaTilesCount <= metaTileIndex) { error("IsoMap::getTile wrong metaTileIndex"); } platformIndex = _metaTileList[metaTileIndex].stack[z]; if (platformIndex < 0) { return NULL; } if (_tilePlatformsCount <= platformIndex) { error("IsoMap::getTile wrong platformIndex"); } tileIndex = _tilePlatformList[platformIndex].tiles[u0][v0]; if (tileIndex == 0) { return NULL; } if (tileIndex & SAGA_MULTI_TILE) { tileIndex = findMulti(tileIndex, u, v, z); } return &_tilesTable[tileIndex]; } void IsoMap::testPossibleDirections(int16 u, int16 v, uint16 terraComp[8], int skipCenter) { IsoTileData *tile; uint16 fgdMask; uint16 bgdMask; uint16 mask; memset(terraComp, 0, 8 * sizeof(uint16)); #define FILL_MASK(index, testMask) \ if ( mask & testMask) { \ terraComp[index] |= fgdMask; \ } \ if (~mask & testMask) { \ terraComp[index] |= bgdMask; \ } #define TEST_TILE_PROLOG(offsetU, offsetV) \ tile = getTile(u + offsetU, v + offsetV , _platformHeight); \ if (tile != NULL) { \ fgdMask = tile->GetFGDMask(); \ bgdMask = tile->GetBGDMask(); \ mask = tile->terrainMask; #define TEST_TILE_EPILOG(index) \ } else { \ if (_vm->_actor->_protagonist->location.z > 0) { \ terraComp[index] = SAGA_IMPASSABLE; \ } \ } TEST_TILE_PROLOG(0, 0) if (skipCenter) { if ((mask & 0x0660) && (fgdMask & SAGA_IMPASSABLE)) { fgdMask = 0; } if ((~mask & 0x0660) && (bgdMask & SAGA_IMPASSABLE)) { bgdMask = 0; } } FILL_MASK(0, 0xcc00) FILL_MASK(1, 0x6600) FILL_MASK(2, 0x3300) FILL_MASK(3, 0x0330) FILL_MASK(4, 0x0033) FILL_MASK(5, 0x0066) FILL_MASK(6, 0x00cc) FILL_MASK(7, 0x0cc0) } TEST_TILE_PROLOG(1, 1) FILL_MASK(0, 0x0673) TEST_TILE_EPILOG(0) TEST_TILE_PROLOG(1, 0) FILL_MASK(0, 0x0008) FILL_MASK(1, 0x0666) FILL_MASK(2, 0x0001) TEST_TILE_EPILOG(1) TEST_TILE_PROLOG(1, -1) FILL_MASK(2, 0x06ec) TEST_TILE_EPILOG(2) TEST_TILE_PROLOG(0, 1) FILL_MASK(0, 0x1000) FILL_MASK(7, 0x0770) FILL_MASK(6, 0x0001) TEST_TILE_EPILOG(7) TEST_TILE_PROLOG(0, -1) FILL_MASK(2, 0x8000) FILL_MASK(3, 0x0ee0) FILL_MASK(4, 0x0008) TEST_TILE_EPILOG(3) TEST_TILE_PROLOG(-1, 1) FILL_MASK(6, 0x3670) TEST_TILE_EPILOG(6) TEST_TILE_PROLOG(-1, 0) FILL_MASK(6, 0x8000) FILL_MASK(5, 0x6660) FILL_MASK(4, 0x1000) TEST_TILE_EPILOG(5) TEST_TILE_PROLOG(-1, -1) FILL_MASK(4, 0xce60) TEST_TILE_EPILOG(4) } void IsoMap::placeOnTileMap(const Location &start, Location &result, int16 distance, uint16 direction) { int16 bestDistance; int16 bestU; int16 bestV; int16 uBase; int16 vBase; int16 u; int16 v; int i; ActorData *actor; TilePoint tilePoint; uint16 dir; int16 dist; uint16 terraComp[8]; const TilePoint *tdir; uint16 terrainMask; bestDistance = 0; uBase = (start.u() >> 4) - SAGA_SEARCH_CENTER; vBase = (start.v() >> 4) - SAGA_SEARCH_CENTER; bestU = SAGA_SEARCH_CENTER; bestV = SAGA_SEARCH_CENTER; _platformHeight = _vm->_actor->_protagonist->location.z / 8; memset( &_searchArray, 0, sizeof(_searchArray)); for (i = 0; i < _vm->_actor->_actorsCount; i++) { actor = _vm->_actor->_actors[i]; if (actor->disabled) continue; if (actor->sceneNumber != _vm->_scene->currentSceneNumber()) continue; u = (actor->location.u() >> 4) - uBase; v = (actor->location.v() >> 4) - vBase; if ((u >= 0) && (u < SAGA_SEARCH_DIAMETER) && (v >= 0) && (v < SAGA_SEARCH_DIAMETER) && ((u != SAGA_SEARCH_CENTER) || (v != SAGA_SEARCH_CENTER))) { _searchArray.getPathCell(u, v)->visited = 1; } } _queueCount = 0; pushPoint(SAGA_SEARCH_CENTER, SAGA_SEARCH_CENTER, 0, 0); while (_queueCount > 0) { _queueCount--; tilePoint = *_searchArray.getQueue(_queueCount); dist = ABS(tilePoint.u - SAGA_SEARCH_CENTER) + ABS(tilePoint.v - SAGA_SEARCH_CENTER); if (dist > bestDistance) { bestU = tilePoint.u; bestV = tilePoint.v; bestDistance = dist; if (dist >= distance) { break; } } testPossibleDirections(uBase + tilePoint.u, vBase + tilePoint.v, terraComp, 0); for (dir = 0; dir < 8; dir++) { terrainMask = terraComp[dir]; if (terrainMask & SAGA_IMPASSABLE ) { continue; } if (dir == direction) { tdir = &easyDirTable[ dir ]; } else { if (dir + 1 == direction || dir - 1 == direction) { tdir = &normalDirTable[ dir ]; } else { tdir = &hardDirTable[ dir ]; } } pushPoint(tilePoint.u + tdir->u,tilePoint.v + tdir->v, tilePoint.cost + tdir->cost, dir); } } result.u() = ((uBase + bestU) << 4) + 8; result.v() = ((vBase + bestV) << 4) + 8; } void IsoMap::findTilePath(ActorData* actor, const Location &start, const Location &end) { ActorData *other; int i; int16 u; int16 v; int16 bestDistance; int16 bestU; int16 bestV; int16 uBase; int16 vBase; int16 uFinish; int16 vFinish; TilePoint tilePoint; uint16 dir; int16 dist; uint16 terraComp[8]; const TilePoint *tdir; uint16 terrainMask; const PathCell *pcell; byte *res; bestDistance = SAGA_SEARCH_DIAMETER; bestU = SAGA_SEARCH_CENTER, bestV = SAGA_SEARCH_CENTER; uBase = (start.u() >> 4) - SAGA_SEARCH_CENTER; vBase = (start.v() >> 4) - SAGA_SEARCH_CENTER; uFinish = (end.u() >> 4) - uBase; vFinish = (end.v() >> 4) - vBase; _platformHeight = _vm->_actor->_protagonist->location.z / 8; memset( &_searchArray, 0, sizeof(_searchArray)); if (!(actor->actorFlags & kActorNoCollide) && (_vm->_scene->currentSceneNumber() != RID_ITE_OVERMAP_SCENE)) { for (i = 0; i < _vm->_actor->_actorsCount; i++) { other = _vm->_actor->_actors[i]; if (other->disabled) continue; if (other->sceneNumber != _vm->_scene->currentSceneNumber()) continue; if (other==actor) continue; u = (other->location.u() >> 4) - uBase; v = (other->location.v() >> 4) - vBase; if ((u >= 1) && (u < SAGA_SEARCH_DIAMETER) && (v >= 1) && (v < SAGA_SEARCH_DIAMETER) && ((u != SAGA_SEARCH_CENTER) || (v != SAGA_SEARCH_CENTER))) { _searchArray.getPathCell(u, v)->visited = 1; } } } _queueCount = 0; pushPoint(SAGA_SEARCH_CENTER, SAGA_SEARCH_CENTER, 0, 0); while (_queueCount > 0) { _queueCount--; tilePoint = *_searchArray.getQueue(_queueCount); if (tilePoint.cost > 100 && actor == _vm->_actor->_protagonist) continue; dist = ABS(tilePoint.u - uFinish) + ABS(tilePoint.v - vFinish); if (dist < bestDistance) { bestU = tilePoint.u; bestV = tilePoint.v; bestDistance = dist; if (dist == 0) { break; } } testPossibleDirections(uBase + tilePoint.u, vBase + tilePoint.v, terraComp, (tilePoint.u == SAGA_SEARCH_CENTER && tilePoint.v == SAGA_SEARCH_CENTER)); for (dir = 0; dir < 8; dir++) { terrainMask = terraComp[dir]; if (terrainMask & SAGA_IMPASSABLE) { continue; } else { if(terrainMask & (1 << kTerrRough)) { tdir = &hardDirTable[ dir ]; } else { if(terrainMask & (1 << kTerrNone)) { tdir = &normalDirTable[ dir ]; } else { tdir = &easyDirTable[ dir ]; } } } pushPoint(tilePoint.u + tdir->u, tilePoint.v + tdir->v, tilePoint.cost + tdir->cost, dir); } } res = &_pathDirections[SAGA_MAX_PATH_DIRECTIONS]; i = 0; while ((bestU != SAGA_SEARCH_CENTER) || (bestV != SAGA_SEARCH_CENTER)) { pcell = _searchArray.getPathCell(bestU, bestV); *--res = pcell->direction; i++; if (i >= SAGA_MAX_PATH_DIRECTIONS) { break; } dir = (pcell->direction + 4) & 0x07; bestU += normalDirTable[dir].u; bestV += normalDirTable[dir].v; } /* if (i > 64) { i = 64; }*/ actor->walkStepsCount = i; if (i) { if (actor->tileDirectionsAlloced < i) { actor->tileDirectionsAlloced = i; actor->tileDirections = (byte*)realloc(actor->tileDirections, actor->tileDirectionsAlloced * sizeof(*actor->tileDirections)); } memcpy(actor->tileDirections, res, i ); } } static const int16 directions[8][2] = { { 16, 16}, { 16, 0}, { 16, -16}, { 0, -16}, { -16, -16}, { -16, 0}, { -16, 16}, { 0, 16} }; bool IsoMap::nextTileTarget(ActorData* actor) { uint16 dir; if (actor->walkStepIndex >= actor->walkStepsCount) { return false; } actor->actionDirection = dir = actor->tileDirections[actor->walkStepIndex++]; actor->partialTarget.u() = (actor->location.u() & ~0x0f) + 8 + directions[dir][0]; actor->partialTarget.v() = (actor->location.v() & ~0x0f) + 8 + directions[dir][1]; if (dir == 0) { actor->facingDirection = kDirUp; } else { if (dir == 4) { actor->facingDirection = kDirDown; } else { if (dir < 4) { actor->facingDirection = kDirRight; } else { actor->facingDirection = kDirLeft; } } } return true; } void IsoMap::screenPointToTileCoords(const Point &position, Location &location) { Point mPos(position); int x,y; if (_vm->_scene->currentSceneNumber() == RID_ITE_OVERMAP_SCENE){ if (mPos.y < 16) { mPos.y = 16; } } x = mPos.x + _viewScroll.x - (128 * SAGA_TILEMAP_W) - 16; y = mPos.y + _viewScroll.y - (128 * SAGA_TILEMAP_W) + _vm->_actor->_protagonist->location.z; location.u() = (x - y * 2) >> 1; location.v() = - (x + y * 2) >> 1; location.z = _vm->_actor->_protagonist->location.z; } } // End of namespace Saga