/*========================================================================= platform.cpp Author: CRB Created: Project: Spongebob Purpose: Copyright (c) 2000 Climax Development Ltd ===========================================================================*/ #include "platform\platform.h" #ifndef __LEVEL_LEVEL_H__ #include "level\level.h" #endif #ifndef __FILE_EQUATES_H__ #include #endif #ifndef __GAME_GAME_H__ #include "game\game.h" #endif #ifndef __PLAYER_PLAYER_H__ #include "player\player.h" #endif #ifndef __FRIEND_FRIEND_H__ #include "friend\friend.h" #endif #ifndef __HAZARD_HAZARD_H__ #include "hazard\hazard.h" #endif #ifndef __ENEMY_NPCPATH_H__ #include "enemy\npcpath.h" #endif #ifndef __UTILS_HEADER__ #include "utils\utils.h" #endif #include "Gfx\actor.h" #ifndef __VID_HEADER_ #include "system\vid.h" #endif #ifndef __PLATFORM_PLINEAR_H__ #include "platform\plinear.h" #endif #ifndef __PLATFORM_PCIRCULR_H__ #include "platform\pcirculr.h" #endif #ifndef __PLATFORM_PBUBBLE_H__ #include "platform\pbubble.h" #endif #ifndef __PLATFORM_PCBUBBLE_H__ #include "platform\pcbubble.h" #endif #ifndef __PLATFORM_PFISHHK_H__ #include "platform\pfishhk.h" #endif #ifndef __PLATFORM_PRETRACT_H__ #include "platform\pretract.h" #endif #ifndef __PLATFORM_PGEYSER_H__ #include "platform\pgeyser.h" #endif #ifndef __PLATFORM_PBOB_H__ #include "platform\pbob.h" #endif #ifndef __PLATFORM_PFALLING_H__ #include "platform\pfalling.h" #endif #ifndef __PLATFORM_PPENDULM_H__ #include "platform\ppendulm.h" #endif #ifndef __PLATFORM_PBRANCH_H__ #include "platform\pbranch.h" #endif #ifndef __PLATFORM_PCART_H__ #include "platform\pcart.h" #endif #ifndef __PLATFORM_PSEESAW_H__ #include "platform\pseesaw.h" #endif #ifndef __PLATFORM_PBOUNCE_H__ #include "platform\pbounce.h" #endif #ifndef __PLATFORM_PDUAL_H__ #include "platform\pdual.h" #endif #ifndef __PLATFORM_PPLAYER_H__ #include "platform\pplayer.h" #endif #ifndef __PLATFORM_PFGEN_H__ #include "platform\pfgen.h" #endif #ifndef __PLATFORM_PRAFT_H__ #include "platform\praft.h" #endif #ifndef __PLATFORM_PLANTERN_H__ #include "platform\plantern.h" #endif #ifndef __PLATFORM_PBGEYSER_H__ #include "platform\pbgeyser.h" #endif #ifndef __PLATFORM_PLEAF_H__ #include "platform\pleaf.h" #endif #ifndef __PLATFORM_PBWHEEL_H__ #include "platform\pbwheel.h" #endif #ifndef __PLATFORM_PSBARREL_H__ #include "platform\psbarrel.h" #endif #ifndef __PLATFORM_PJELLFSH_H__ #include "platform\pjellfsh.h" #endif #ifndef __PLATFORM_PFISHHK3_H__ #include "platform\pfishhk3.h" #endif #ifndef __PLATFORM_PRBRIDGE_H__ #include "platform\prbridge.h" #endif #ifndef __PLATFORM_PBALOON_H__ #include "platform\pbaloon.h" #endif #ifndef __PLATFORM_PTRPDOOR_H__ #include "platform\ptrpdoor.h" #endif #ifndef __PLATFORM_PCONVEYR_H__ #include "platform\pconveyr.h" #endif #ifndef __PLATFORM_PFALLNOR_H__ #include "platform\pfallnor.h" #endif #include "fx\fx.h" #include "fx\fxjfish.h" //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// CNpcPlatform *CNpcPlatform::Create(int Type) { CNpcPlatform *platform; platform = (CNpcPlatform*)CThingManager::GetThing(CThing::TYPE_PLATFORM,Type); if (!platform) switch( Type ) { case NPC_LINEAR_PLATFORM: { platform = new ("linear platform") CNpcLinearPlatform; break; } case NPC_CIRCULAR_PLATFORM: { platform = new ("circular platform") CNpcCircularPlatform; break; } case NPC_BUBBLE_PLATFORM: { platform = new ("bubble platform") CNpcBubblePlatform; break; } case NPC_COLLAPSING_BUBBLE_PLATFORM: { platform = new ("collapsing bubble platform") CNpcCollapsingBubblePlatform; break; } case NPC_FISH_HOOK_PLATFORM: { platform = new ("fish hook platform") CNpcFishHookPlatform; break; } case NPC_RETRACTING_PLATFORM: { platform = new ("retracting platform") CNpcRetractingPlatform; break; } case NPC_GEYSER_PLATFORM: { platform = new ("geyser platform") CNpcGeyserPlatform; break; } case NPC_BOBBING_PLATFORM: { platform = new ("bobbing platform") CNpcBobbingPlatform; break; } case NPC_OILDRUM_PLATFORM: case NPC_CRATE_PLATFORM: case NPC_FALLING_PLATFORM: { platform = new ("falling platform") CNpcFallingNoRespawnPlatform; break; } case NPC_FISH_HOOK_2_PLATFORM: { platform = new ("fish hook 2 platform") CNpcPendulumPlatform; break; } case NPC_BRANCH_PLATFORM: { platform = new ("branch platform") CNpcBranchPlatform; break; } case NPC_CART_PLATFORM: { platform = new ("cart platform") CNpcCartPlatform; break; } case NPC_SEESAW_PLATFORM: { platform = new ("seesaw platform") CNpcSeesawPlatform; break; } case NPC_BOUNCE_PLATFORM: { platform = new ("bounce platform") CNpcBouncePlatform; break; } case NPC_DUAL_PLATFORM: { platform = new ("dual platform master") CNpcDualPlatform; break; } case NPC_OILDRUM_GENERATOR: { CNpcFallingPlatformGenerator *generator; generator = new ("oildrum generator") CNpcFallingPlatformGenerator; generator->setTargetType( NPC_OILDRUM_PLATFORM ); platform = generator; break; } case NPC_CRATE_GENERATOR: { CNpcFallingPlatformGenerator *generator; generator = new ("crate generator") CNpcFallingPlatformGenerator; generator->setTargetType( NPC_CRATE_PLATFORM ); platform = generator; break; } case NPC_RAFT_PLATFORM: { platform = new ("raft platform") CNpcRaftPlatform; break; } case NPC_VERTICAL_OILDRUM_GENERATOR: { CNpcFallingPlatformGenerator *generator; generator = new ("vertical oildrum generator") CNpcFallingPlatformGenerator; generator->setTargetType( NPC_VERTICAL_OILDRUM_PLATFORM ); platform = generator; break; } case NPC_BUBBLE_GEYSER_GENERATOR: { CNpcGeyserPlatformGenerator *generator; generator = new ("bubble geyser generator") CNpcGeyserPlatformGenerator; generator->setTargetType( NPC_BUBBLE_PLATFORM ); platform = generator; break; } case NPC_LANTERN_PLATFORM: { platform = new ("lantern platform") CNpcLanternPlatform; break; } case NPC_LEAF_PLATFORM: { platform = new ("leaf platform") CNpcLeafPlatform; break; } case NPC_BIG_WHEEL_PLATFORM: { platform = new ("big wheel platform") CNpcBigWheelPlatform; break; } case NPC_STEERABLE_BARREL_PLATFORM: { platform = new ("steerable barrel platform") CNpcSteerableBarrelPlatform; break; } case NPC_JELLYFISH_PLATFORM: { platform = new ("jellyfish platform") CNpcJellyfishPlatform; break; } case NPC_FISH_HOOK_3_PLATFORM: { platform = new ("fish hook 3 platform") CNpcFishHook3Platform; break; } case NPC_RISING_BRIDGE_PLATFORM: { platform = new ("rising bridge platform") CNpcRisingBridgePlatform; break; } case NPC_BALLOON_BRIDGE_PLATFORM: { platform = new ("balloon bridge platform") CNpcBalloonBridgePlatform; break; } case NPC_TRAPDOOR_PLATFORM: { platform = new ("trapdoor platform") CNpcTrapdoorPlatform; break; } case NPC_CONVEYOR_GENERATOR: { platform = new ("conveyor generator") CNpcConveyorPlatformGenerator; break; } case NPC_CONVEYOR_PLATFORM: { platform = new ("conveyor platform") CNpcConveyorPlatform; break; } default: { ASSERT( 0 ); platform = new ("platform") CNpcPlatform; break; } } ASSERT(platform); platform->setThingSubType( Type ); platform->setTiltable( false ); return( platform ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// CNpcPlatform *CNpcPlatform::Create(sThingPlatform *ThisPlatform) { CNpcPlatform *platform; NPC_PLATFORM_UNIT_TYPE Type = getTypeFromMapEdit( ThisPlatform->Type ); platform=Create(Type); switch( Type ) { case NPC_DUAL_PLATFORM: { CNpcDualPlatform *dualPlatformMaster = (CNpcDualPlatform *) platform; dualPlatformMaster->setMaster( true ); CNpcDualPlatform *dualPlatformSlave; dualPlatformSlave = (CNpcDualPlatform *) CNpcPlatform::Create( NPC_DUAL_PLATFORM ); dualPlatformSlave->setMaster( false ); dualPlatformSlave->setThingSubType( Type ); dualPlatformSlave->setGraphic( ThisPlatform ); dualPlatformSlave->setTiltable( false ); dualPlatformMaster->setOtherPlatform( dualPlatformSlave ); dualPlatformSlave->setOtherPlatform( dualPlatformMaster ); break; } default: break; } ASSERT(platform); platform->setGraphic( ThisPlatform ); platform->setWaypoints( ThisPlatform ); return( platform ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::setWaypoints( sThingPlatform *ThisPlatform ) { int pointNum; u16 *PntList=(u16*)MakePtr(ThisPlatform,sizeof(sThingPlatform)); u16 *waypoints; u16 newXPos, newYPos; newXPos = (u16) *PntList; waypoints = PntList; PntList++; newYPos = (u16) *PntList; PntList++; DVECTOR startPos; startPos.vx = newXPos << 4; startPos.vy = newYPos << 4; init( startPos ); setWaypointCount( ThisPlatform->PointCount - 1 ); setWaypointPtr( waypoints ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::setGraphic( sThingPlatform *ThisPlatform ) { m_graphicNum = ThisPlatform->Gfx; m_modelGfx = new ("ModelGfx") CModelGfx; m_modelGfx->SetModel( m_graphicNum ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::setGraphic( u8 graphicNum ) { m_graphicNum = graphicNum; m_modelGfx = new ("ModelGfx") CModelGfx; m_modelGfx->SetModel( graphicNum ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::init() { CPlatformThing::init(); m_dataPtr=&m_data[getThingSubType()]; m_heading = 0; m_velocity = 0; m_rotation = 0; m_reversed = false; m_extension = 0; m_contact = false; m_timer = m_dataPtr->initTimer * GameState::getOneSecondInFrames(); m_timerType = m_dataPtr->initTimerType; m_isActive = true; m_detectCollision = m_dataPtr->detectCollision; m_state = 0; m_tiltAngle = 0; m_tiltVelocity = 0; m_tiltable = false; m_initRotation = 0; m_lifetime = 0; m_lifetimeType = m_dataPtr->lifetimeType; m_isShuttingDown = false; m_npcPath.initPath(); m_speed = m_dataPtr->speed; } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::init( DVECTOR initPos ) { init(); Pos = m_initPos = m_base = initPos; m_initLifetime = m_lifetime = GameState::getOneSecondInFrames() * m_dataPtr->lifetime; } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::init( DVECTOR initPos, s32 initLifetime ) { init( initPos ); m_initLifetime = m_lifetime = GameState::getOneSecondInFrames() * initLifetime; } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::reinit() { m_heading = 0; m_velocity = 0; m_rotation = 0; m_reversed = false; m_contact = false; m_timer = m_dataPtr->initTimer * GameState::getOneSecondInFrames(); m_timerType = m_dataPtr->initTimerType; m_isActive = true; m_detectCollision = m_dataPtr->detectCollision; m_state = 0; m_tiltAngle = 0; m_tiltVelocity = 0; m_lifetime = m_initLifetime; Pos = m_initPos; } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::calculateNonRotatedCollisionData() { DVECTOR collisionSize = getCollisionSize(); DVECTOR collisionOffset = getCollisionCentreOffset(); m_nonRotatedCollisionArea.XMax = ( collisionSize.vx >> 1 ) + collisionOffset.vx; m_nonRotatedCollisionArea.XMin = -( collisionSize.vx >> 1 ) + collisionOffset.vx; m_nonRotatedCollisionArea.YMax = ( collisionSize.vy >> 1 ) + collisionOffset.vy; m_nonRotatedCollisionArea.YMin = -( collisionSize.vy >> 1 ) + collisionOffset.vy; m_nonRotatedCollisionOffset = collisionOffset; } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::postInit() { sBBox boundingBox = m_modelGfx->GetBBox(); setCollisionSize( ( boundingBox.XMax - boundingBox.XMin ), ( boundingBox.YMax - boundingBox.YMin ) ); setCollisionCentreOffset( ( boundingBox.XMax + boundingBox.XMin ) >> 1, ( boundingBox.YMax + boundingBox.YMin ) >> 1 ); calculateNonRotatedCollisionData(); setCollisionAngle( m_tiltAngle >> 8 ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::shutdown() { delete m_modelGfx; //m_npcPath.removeAllWaypoints(); // temporary CPlatformThing::shutdown(); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::processLifetime( int _frames ) { switch( m_lifetimeType ) { case NPC_PLATFORM_FINITE_LIFE: { m_lifetime -= _frames; if ( m_lifetime <= 0 ) { setToShutdown(); return; } break; } case NPC_PLATFORM_FINITE_LIFE_RESPAWN: { m_lifetime -= _frames; if ( m_lifetime <= 0 ) { reinit(); } break; } case NPC_PLATFORM_INFINITE_LIFE_COLLAPSIBLE: { if ( m_contact ) { m_lifetime -= _frames; if ( m_lifetime <= 0 ) { m_isActive = false; m_timer = 3 * GameState::getOneSecondInFrames(); m_timerType = NPC_PLATFORM_TIMER_RESPAWN; } } break; } default: break; } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::think(int _frames) { if ( m_isActive ) { if ( m_tiltable ) { processTilt( _frames ); } processLifetime( _frames ); if ( m_heading > 1024 && m_heading < 3072 ) { m_reversed = true; } else { m_reversed = false; } int moveFrames = _frames; if ( moveFrames > 2 ) { // make sure platforms don't go berserk if too many frames are dropped moveFrames = 2; } processMovement( moveFrames ); m_contact = false; } processTimer( _frames ); CPlatformThing::think(_frames); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::setCollisionAngle(int newAngle) { m_collisionAngle=newAngle; // CPlatformThing::setCollisionAngle(newAngle); calculateBoundingBoxSize(); CPlayer *player; // Is the player stood on this platform as it rotates? player=GameScene.getPlayer(); if(player->isOnPlatform()==this) { DVECTOR playerPos; playerPos=player->getPos(); DVECTOR shove; shove.vx = 0; shove.vy = getHeightFromPlatformAtPosition( playerPos.vx, playerPos.vy ); player->shove(shove); } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::calculateBoundingBoxSize() { sBBox boundingBox = m_nonRotatedCollisionArea; // 'render' collision box at correct angle SVECTOR testPointsNonRel[4]; VECTOR testPoints[4]; testPointsNonRel[0].vx = boundingBox.XMin; testPointsNonRel[0].vy = boundingBox.YMin; testPointsNonRel[1].vx = boundingBox.XMax; testPointsNonRel[1].vy = boundingBox.YMin; testPointsNonRel[2].vx = boundingBox.XMax; testPointsNonRel[2].vy = boundingBox.YMax; testPointsNonRel[3].vx = boundingBox.XMin; testPointsNonRel[3].vy = boundingBox.YMax; MATRIX mtx; SetIdentNoTrans(&mtx ); RotMatrixZ( getCollisionAngle() + m_initRotation, &mtx ); int i; for ( i = 0 ; i < 4 ; i++ ) { ApplyMatrix( &mtx, &testPointsNonRel[i], &testPoints[i] ); } SVECTOR offsetSource; VECTOR offsetTarget; offsetSource.vx = m_nonRotatedCollisionOffset.vx; offsetSource.vy = m_nonRotatedCollisionOffset.vy; ApplyMatrix( &mtx, &offsetSource, &offsetTarget ); int x1, x2, y1, y2; x1 = x2 = testPoints[0].vx; y1 = y2 = testPoints[0].vy; for ( i = 1 ; i < 4 ; i++ ) { if ( testPoints[i].vy < y1 ) { y1 = testPoints[i].vy; } else if ( testPoints[i].vy > y2 ) { y2 = testPoints[i].vy; } if ( testPoints[i].vx < x1 ) { x1 = testPoints[i].vx; } else if ( testPoints[i].vx > x2 ) { x2 = testPoints[i].vx; } } setCollisionSize( x2 - x1 + 1, y2 - y1 + 1 ); setCollisionCentreOffset( offsetTarget.vx, offsetTarget.vy ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::processTilt( int _frames ) { bool forceActing = false; if ( m_contact ) { // user is touching platform, tilt accordingly CPlayer *player = GameScene.getPlayer(); DVECTOR playerPos = player->getPos(); if ( playerPos.vx > Pos.vx + 10 ) { forceActing = true; // tilt clockwise if ( m_tiltVelocity < 2560 ) { m_tiltVelocity += 64; } } else if ( playerPos.vx < Pos.vx - 10 ) { forceActing = true; // tilt anticlockwise if ( m_tiltVelocity > -2560 ) { m_tiltVelocity -= 64; } } } if ( !forceActing ) { // no force acting, hence reduce velocity s32 reduction = abs( m_tiltVelocity ); if ( reduction > 64 ) { reduction = 64; } if ( m_tiltVelocity >= 0 ) { reduction *= -1; } m_tiltVelocity += reduction; } m_tiltAngle += m_tiltVelocity; if ( m_tiltAngle > ( 512 << 8 ) ) { m_tiltAngle = ( 512 << 8 ); m_tiltVelocity = 0; } else if ( m_tiltAngle < -( 512 << 8 ) ) { m_tiltAngle = -( 512 << 8 ); m_tiltVelocity = 0; } setCollisionAngle( m_tiltAngle >> 8 ); /*if ( getCollisionAngle() > 512 && getCollisionAngle() < 3584 ) { m_detectCollision = false; } else { m_detectCollision = true; }*/ } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::processTimer( int _frames ) { switch( m_timerType ) { case NPC_PLATFORM_TIMER_NONE: break; case NPC_PLATFORM_TIMER_RESPAWN: { if ( m_timer > 0 ) { m_timer -= _frames; } else { reinit(); } break; } } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// u8 CNpcPlatform::checkCollisionDelta( CThing *_thisThing, int threshold, CRECT collisionArea ) { // check for case of "was not colliding previously because was above" + // "is not colliding now because is below" DVECTOR otherPos = _thisThing->getPos(); if ( getHeightFromPlatformAtPosition( otherPos.vx, otherPos.vy ) < 0 ) { // is currently below platform landing point DVECTOR otherPosDelta = _thisThing->getPosDelta(); DVECTOR posDelta = getPosDelta(); if ( otherPosDelta.vy > 0 || posDelta.vy < 0 ) { // object is dropping vertically, or platform is rising vertically // get both object's previous positions s32 oldXPos = otherPos.vx - otherPosDelta.vx; s32 oldYPos = otherPos.vy - otherPosDelta.vy; collisionArea.x1 -= posDelta.vx; collisionArea.x2 -= posDelta.vx; collisionArea.y1 -= posDelta.vy; s32 oldCollisionY = collisionArea.y2; collisionArea.y2 -= posDelta.vy; if ( oldXPos >= collisionArea.x1 && oldXPos <= collisionArea.x2 ) { //if ( oldYPos < collisionArea.y1 + threshold ) //&& otherPos.vy > oldCollisionY ) if ( getHeightFromPlatformAtPosition( oldXPos, oldYPos, -posDelta.vx, -posDelta.vy ) > 0 ) { // if object's old position was above old platform collision area, // but is now below current platform collision area, we can assume // the player has hit the platform in the intervening time return( true ); } } } } return( false ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::collidedWith( CThing *_thisThing ) { switch(_thisThing->getThingType()) { case TYPE_PLAYER: { CPlayer *player; DVECTOR playerPos; CRECT collisionArea; // Only interested in SBs feet colliding with the box (pkg) player=(CPlayer*)_thisThing; playerPos=player->getPos(); collisionArea=getCollisionArea(); s32 threshold = abs( collisionArea.y2 - collisionArea.y1 ); if ( threshold > 16 ) { threshold = 16; } if( playerPos.vx >= collisionArea.x1 && playerPos.vx <= collisionArea.x2 ) { if ( checkCollisionDelta( _thisThing, threshold, collisionArea ) ) { player->setPlatform( this ); m_contact = true; } else { if( playerPos.vy >= collisionArea.y1 && playerPos.vy <= collisionArea.y2 ) { int height = getHeightFromPlatformAtPosition( playerPos.vx, playerPos.vy ); if ( height >= -threshold && height < 1 ) { player->setPlatform( this ); m_contact = true; } } } } break; } case TYPE_NPC: { CNpcFriend *friendNpc; DVECTOR friendPos; CRECT collisionArea; friendNpc = (CNpcFriend*) _thisThing; friendPos = friendNpc->getPos(); collisionArea=getCollisionArea(); s32 threshold = abs( collisionArea.y2 - collisionArea.y1 ); if ( threshold > 16 ) { threshold = 16; } if( friendPos.vx >= collisionArea.x1 && friendPos.vx <= collisionArea.x2 ) { if ( checkCollisionDelta( _thisThing, threshold, collisionArea ) ) { int height = getHeightFromPlatformAtPosition( friendPos.vx, friendPos.vy ); friendNpc->setPlatform( this ); m_contact = true; } else { if( friendPos.vy >= collisionArea.y1 && friendPos.vy <= collisionArea.y2 ) { int height = getHeightFromPlatformAtPosition( friendPos.vx, friendPos.vy ); if ( height >= -threshold && height < 1 ) { friendNpc->setPlatform( this ); m_contact = true; } } } } break; } case TYPE_HAZARD: break; default: ASSERT(0); break; } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::processMovement( int _frames ) { } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::render() { if ( m_isActive ) { CPlatformThing::render(); // Render if (canRender()) { DVECTOR &renderPos=getRenderPos(); m_modelGfx->Render(renderPos); } } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// int CNpcPlatform::checkCollisionAgainst(CThing *_thisThing, int _frames) { switch(_thisThing->getThingType()) { case TYPE_PLAYERPROJECTILE: return( false ); default: { int collided = false; if ( m_detectCollision && m_isActive && !isSetToShutdown() ) { CRECT thisRect, thatRect; thisRect = getCollisionArea(); thatRect = _thisThing->getCollisionArea(); DVECTOR posDelta = getPosDelta(); thisRect.y1 -= abs( posDelta.vy ) >> 1; thisRect.y2 += abs( posDelta.vy ) >> 1; posDelta = _thisThing->getPosDelta(); thatRect.y1 -= abs( posDelta.vy ) >> 1; thatRect.y2 += abs( posDelta.vy ) >> 1; if(((thisRect.x1>=thatRect.x1&&thisRect.x1<=thatRect.x2)||(thisRect.x2>=thatRect.x1&&thisRect.x2<=thatRect.x2)||(thisRect.x1<=thatRect.x1&&thisRect.x2>=thatRect.x2))&& ((thisRect.y1>=thatRect.y1&&thisRect.y1<=thatRect.y2)||(thisRect.y2>=thatRect.y1&&thisRect.y2<=thatRect.y2)||(thisRect.y1<=thatRect.y1&&thisRect.y2>=thatRect.y2))) { collided = true; } } return( collided ); } } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::setTiltable( bool isTiltable ) { m_tiltable = isTiltable; } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// int CNpcPlatform::getHeightFromPlatformAtPosition(int _x,int _y, int offsetX, int offsetY) { DVECTOR top; int angle; CRECT collisionArea = getCollisionArea(); top.vy = offsetY + collisionArea.y1; angle=getCollisionAngle() + m_initRotation; if(angle==0) { // Non-rotated platform return( top.vy - _y ); } else { if ( angle > 0 ) { top.vx = offsetX + collisionArea.x1; } else { top.vx = offsetX + collisionArea.x2; } // Rotate backwards to find height at current position s16 cosVal = rcos( angle ); if ( !cosVal ) { return( top.vy - _y ); } else { int hypotenuse = ( ( top.vx - _x ) << 12 ) / cosVal; int angleHeight = -( hypotenuse * rsin( angle ) ) >> 12; return( ( top.vy - _y ) + angleHeight ); } } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// /*void CNpcPlatform::addWaypoint( u16 *ptr ) { m_npcPath.addWaypoint( ptr ); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::addWaypoint( u16 *ptrX, u16 *ptrY ) { m_npcPath.addWaypoint( ptrX, ptrY ); }*/ //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void CNpcPlatform::setTypeFromMapEdit( u16 newType ) { int Type= mapEditConvertTable[newType]; setThingSubType(Type); } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// CNpcPlatform::NPC_PLATFORM_UNIT_TYPE CNpcPlatform::getTypeFromMapEdit( u16 newType ) { return( mapEditConvertTable[newType] ); }