109 lines
3.6 KiB
C++
109 lines
3.6 KiB
C++
#include "precompiled.h"
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#include "ps/Profile.h"
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#include "EntityOrders.h"
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#include "Entity.h"
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#include "PathfindEngine.h"
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CPathfindEngine::CPathfindEngine()
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{
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}
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void CPathfindEngine::requestPath( HEntity entity, const CVector2D& destination )
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{
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/* TODO: Add code to generate high level path
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For now, just the one high level waypoint to the final
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destination is added
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*/
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CEntityOrder waypoint;
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waypoint.m_type = CEntityOrder::ORDER_GOTO_WAYPOINT;
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waypoint.m_data[0].location = destination;
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*((float*)&waypoint.m_data[0].data) = 0.0f;
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entity->m_orderQueue.push_front( waypoint );
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}
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void CPathfindEngine::requestLowLevelPath( HEntity entity, const CVector2D& destination, bool UNUSED(contact), float radius )
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{
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PROFILE_START("Pathfinding");
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CVector2D source( entity->m_position.X, entity->m_position.Z );
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if ( mLowPathfinder.findPath(source, destination, entity->m_player, radius) )
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{
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std::vector<CVector2D> path = mLowPathfinder.getLastPath();
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if( path.size() > 0 )
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{
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// Push the path onto the front of our order queue in reverse order,
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// so that we run through it before continuing other orders.
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CEntityOrder node;
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// Hack to make pathfinding slightly more precise:
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// If the radius was 0, make the final node be exactly at the destination
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// (otherwise, go to wherever the pathfinder tells us since we just want to be in range)
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CVector2D finalDest = (radius==0 ? destination : path[path.size()-1]);
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node.m_type = CEntityOrder::ORDER_PATH_END_MARKER; // push end marker (used as a sentinel when repathing)
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node.m_data[0].location = finalDest;
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entity->m_orderQueue.push_front(node);
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node.m_type = CEntityOrder::ORDER_GOTO_NOPATHING; // push final goto step
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node.m_data[0].location = finalDest;
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entity->m_orderQueue.push_front(node);
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for( int i = ((int) path.size()) - 2; i >= 0; i-- )
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{
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node.m_type = CEntityOrder::ORDER_GOTO_NOPATHING; // TODO: For non-contact paths, do we want some other order type?
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node.m_data[0].location = path[i];
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entity->m_orderQueue.push_front(node);
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}
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}
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else {
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// Hack to make pathfinding slightly more precise:
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// If radius = 0, we have an empty path but the user still wants us to move
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// within the same tile, so add a GOTO order anyway
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if(radius == 0)
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{
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CEntityOrder node;
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node.m_type = CEntityOrder::ORDER_PATH_END_MARKER;
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node.m_data[0].location = destination;
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entity->m_orderQueue.push_front(node);
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node.m_type = CEntityOrder::ORDER_GOTO_NOPATHING;
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node.m_data[0].location = destination;
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entity->m_orderQueue.push_front(node);
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}
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}
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}
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else
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{
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// If no path was found, then unsolvable
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// TODO: Figure out what to do in this case
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}
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PROFILE_END("Pathfinding");
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}
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void CPathfindEngine::requestContactPath( HEntity entity, CEntityOrder* current, float range )
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{
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/* TODO: Same as non-contact: need high-level planner */
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CEntityOrder waypoint;
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waypoint.m_type = CEntityOrder::ORDER_GOTO_WAYPOINT_CONTACT;
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waypoint.m_data[0].location = current->m_data[0].entity->m_position;
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*((float*)&waypoint.m_data[0].data) = std::max( current->m_data[0].entity->m_bounds->m_radius, range );
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entity->m_orderQueue.push_front( waypoint );
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//pathSparse( entity, current->m_data[0].entity->m_position );
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//// For attack orders, do some additional postprocessing (replace goto/nopathing
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//// with attack/nopathing, up until the attack order marker)
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//std::deque<CEntityOrder>::iterator it;
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//for( it = entity->m_orderQueue.begin(); it != entity->m_orderQueue.end(); it++ )
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//{
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// if( it->m_type == CEntityOrder::ORDER_PATH_END_MARKER )
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// break;
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// if( it->m_type == CEntityOrder::ORDER_GOTO_NOPATHING )
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// {
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// *it = *current;
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// }
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//}
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}
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