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269 lines
6.8 KiB
269 lines
6.8 KiB
//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//
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//=============================================================================//
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// nav_generate.cpp
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// Auto-generate a Navigation Mesh by sampling the current map
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// Author: Michael S. Booth ([email protected]), 2003
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#include "cbase.h"
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#include "util_shared.h"
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#include "nav_mesh.h"
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#include "cs_nav_area.h"
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#include "cs_nav_node.h"
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#include "cs_nav_pathfind.h"
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#include "viewport_panel_names.h"
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enum { MAX_BLOCKED_AREAS = 256 };
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static unsigned int blockedID[ MAX_BLOCKED_AREAS ];
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static int blockedIDCount = 0;
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static float lastMsgTime = 0.0f;
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//ConVar nav_slope_limit( "nav_slope_limit", "0.7", FCVAR_GAMEDLL, "The ground unit normal's Z component must be greater than this for nav areas to be generated." );
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ConVar nav_restart_after_analysis( "nav_restart_after_analysis", "1", FCVAR_GAMEDLL, "When nav nav_restart_after_analysis finishes, restart the server. Turning this off can cause crashes, but is useful for incremental generation." );
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//--------------------------------------------------------------------------------------------------------------
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/**
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* Shortest path cost, paying attention to "blocked" areas
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*/
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class ApproachAreaCost
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{
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public:
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// HPE_TODO[pmf]: check that these new parameters are okay to be ignored
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float operator() ( CNavArea *area, CNavArea *fromArea, const CNavLadder *ladder, const CFuncElevator *elevator, float length )
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{
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// check if this area is "blocked"
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for( int i=0; i<blockedIDCount; ++i )
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{
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if (area->GetID() == blockedID[i])
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{
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return -1.0f;
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}
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}
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if (fromArea == NULL)
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{
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// first area in path, no cost
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return 0.0f;
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}
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else
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{
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// compute distance traveled along path so far
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float dist;
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if (ladder)
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{
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dist = ladder->m_length;
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}
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else
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{
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dist = (area->GetCenter() - fromArea->GetCenter()).Length();
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}
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float cost = dist + fromArea->GetCostSoFar();
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return cost;
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}
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}
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};
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/*
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* Determine the set of "approach areas".
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* An approach area is an area representing a place where players
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* move into/out of our local neighborhood of areas.
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* @todo Optimize by search from eye outward and modifying pathfinder to treat all links as bi-directional
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*/
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void CCSNavArea::ComputeApproachAreas( void )
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{
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m_approachCount = 0;
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if (nav_quicksave.GetBool())
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return;
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// use the center of the nav area as the "view" point
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Vector eye = GetCenter();
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if (TheNavMesh->GetGroundHeight( eye, &eye.z ) == false)
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return;
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// approximate eye position
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if (GetAttributes() & NAV_MESH_CROUCH)
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eye.z += 0.9f * HalfHumanHeight;
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else
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eye.z += 0.9f * HumanHeight;
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enum { MAX_PATH_LENGTH = 256 };
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CNavArea *path[ MAX_PATH_LENGTH ];
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ApproachAreaCost cost;
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enum SearchType
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{
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FROM_EYE, ///< start search from our eyepoint outward to farArea
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TO_EYE, ///< start search from farArea beack towards our eye
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SEARCH_FINISHED
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};
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//
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// In order to *completely* enumerate all of the approach areas, we
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// need to search from our eyepoint outward, as well as from outwards
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// towards our eyepoint
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//
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for( int searchType = FROM_EYE; searchType != SEARCH_FINISHED; ++searchType )
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{
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//
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// In order to enumerate all of the approach areas, we need to
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// run the algorithm many times, once for each "far away" area
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// and keep the union of the approach area sets
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//
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int it;
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for( it = 0; it < TheNavAreas.Count(); ++it )
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{
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CNavArea *farArea = TheNavAreas[ it ];
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blockedIDCount = 0;
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// skip the small areas
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const float minSize = 200.0f; // 150
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Extent extent;
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farArea->GetExtent(&extent);
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if (extent.SizeX() < minSize || extent.SizeY() < minSize)
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{
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continue;
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}
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// if we can see 'farArea', try again - the whole point is to go "around the bend", so to speak
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if (farArea->IsVisible( eye ))
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{
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continue;
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}
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//
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// Keep building paths to farArea and blocking them off until we
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// cant path there any more.
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// As areas are blocked off, all exits will be enumerated.
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//
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while( m_approachCount < MAX_APPROACH_AREAS )
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{
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CNavArea *from, *to;
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if (searchType == FROM_EYE)
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{
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// find another path *to* 'farArea'
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// we must pathfind from us in order to pick up one-way paths OUT OF our area
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from = this;
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to = farArea;
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}
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else // TO_EYE
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{
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// find another path *from* 'farArea'
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// we must pathfind to us in order to pick up one-way paths INTO our area
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from = farArea;
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to = this;
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}
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// build the actual path
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if (NavAreaBuildPath( from, to, NULL, cost ) == false)
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{
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break;
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}
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// find number of areas on path
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int count = 0;
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CNavArea *area;
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for( area = to; area; area = area->GetParent() )
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{
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++count;
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}
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if (count > MAX_PATH_LENGTH)
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{
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count = MAX_PATH_LENGTH;
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}
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// if the path is only two areas long, there can be no approach points
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if (count <= 2)
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{
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break;
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}
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// build path starting from eye
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int i = 0;
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if (searchType == FROM_EYE)
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{
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for( area = to; i < count && area; area = area->GetParent() )
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{
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path[ count-i-1 ] = area;
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++i;
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}
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}
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else // TO_EYE
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{
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for( area = to; i < count && area; area = area->GetParent() )
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{
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path[ i++ ] = area;
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}
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}
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// traverse path to find first area we cannot see (skip the first area)
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for( i=1; i<count; ++i )
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{
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// if we see this area, continue on
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if (path[i]->IsVisible( eye ))
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{
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continue;
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}
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// we can't see this area - mark this area as "blocked" and unusable by subsequent approach paths
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if (blockedIDCount == MAX_BLOCKED_AREAS)
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{
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Msg( "Overflow computing approach areas for area #%d.\n", GetID());
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return;
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}
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// if the area to be blocked is actually farArea, block the one just prior
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// (blocking farArea will cause all subsequent pathfinds to fail)
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int block = (path[i] == farArea) ? i-1 : i;
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// dont block the start area, or all subsequence pathfinds will fail
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if (block == 0)
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{
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continue;
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}
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blockedID[ blockedIDCount++ ] = path[ block ]->GetID();
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// store new approach area if not already in set
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int a;
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for( a=0; a<m_approachCount; ++a )
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{
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if (m_approach[a].here.area == path[block-1])
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{
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break;
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}
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}
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if (a == m_approachCount)
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{
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m_approach[ m_approachCount ].prev.area = (block >= 2) ? path[block-2] : NULL;
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m_approach[ m_approachCount ].here.area = path[block-1];
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m_approach[ m_approachCount ].prevToHereHow = path[block-1]->GetParentHow();
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m_approach[ m_approachCount ].next.area = path[block];
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m_approach[ m_approachCount ].hereToNextHow = path[block]->GetParentHow();
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++m_approachCount;
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}
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// we are done with this path
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break;
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}
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}
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}
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}
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}
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