//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ // //=============================================================================// // nav_simplify.cpp #include "cbase.h" #include "nav_mesh.h" #include "nav_node.h" // NOTE: This has to be the last file included! #include "tier0/memdbgon.h" extern ConVar nav_snap_to_grid; extern ConVar nav_split_place_on_ground; extern ConVar nav_coplanar_slope_limit; extern ConVar nav_coplanar_slope_limit_displacement; //-------------------------------------------------------------------------------------------------------- static bool ReduceToComponentAreas( CNavArea *area, bool addToSelectedSet ) { if ( !area ) return false; bool splitAlongX; float splitEdge; const float minSplitSize = 2.0f; // ensure the first split is larger than this float sizeX = area->GetSizeX(); float sizeY = area->GetSizeY(); CNavArea *first = NULL; CNavArea *second = NULL; CNavArea *third = NULL; CNavArea *fourth = NULL; bool didSplit = false; if ( sizeX > GenerationStepSize ) { splitEdge = RoundToUnits( area->GetCorner( NORTH_WEST ).x, GenerationStepSize ); if ( splitEdge < area->GetCorner( NORTH_WEST ).x + minSplitSize ) splitEdge += GenerationStepSize; splitAlongX = false; didSplit = area->SplitEdit( splitAlongX, splitEdge, &first, &second ); } if ( sizeY > GenerationStepSize ) { splitEdge = RoundToUnits( area->GetCorner( NORTH_WEST ).y, GenerationStepSize ); if ( splitEdge < area->GetCorner( NORTH_WEST ).y + minSplitSize ) splitEdge += GenerationStepSize; splitAlongX = true; if ( didSplit ) { didSplit = first->SplitEdit( splitAlongX, splitEdge, &third, &fourth ); didSplit = second->SplitEdit( splitAlongX, splitEdge, &first, &second ); } else { didSplit = area->SplitEdit( splitAlongX, splitEdge, &first, &second ); } } if ( !didSplit ) return false; if ( addToSelectedSet ) { TheNavMesh->AddToSelectedSet( first ); TheNavMesh->AddToSelectedSet( second ); TheNavMesh->AddToSelectedSet( third ); TheNavMesh->AddToSelectedSet( fourth ); } ReduceToComponentAreas( first, addToSelectedSet ); ReduceToComponentAreas( second, addToSelectedSet ); ReduceToComponentAreas( third, addToSelectedSet ); ReduceToComponentAreas( fourth, addToSelectedSet ); return true; } //-------------------------------------------------------------------------------------------------------- CON_COMMAND_F( nav_chop_selected, "Chops all selected areas into their component 1x1 areas", FCVAR_CHEAT ) { if ( !UTIL_IsCommandIssuedByServerAdmin() || engine->IsDedicatedServer() ) return; TheNavMesh->StripNavigationAreas(); TheNavMesh->SetMarkedArea( NULL ); NavAreaCollector collector; TheNavMesh->ForAllSelectedAreas( collector ); for ( int i=0; iGetSelecteSetSize() ); } //-------------------------------------------------------------------------------------------------------- void CNavMesh::RemoveNodes( void ) { FOR_EACH_VEC( TheNavAreas, it ) { TheNavAreas[ it ]->ResetNodes(); } // destroy navigation nodes created during map generation CNavNode::CleanupGeneration(); } //-------------------------------------------------------------------------------------------------------- void CNavMesh::GenerateNodes( const Extent &bounds ) { m_simplifyGenerationExtent = bounds; m_seedIdx = 0; Assert( m_generationMode == GENERATE_SIMPLIFY ); while ( SampleStep() ) { // do nothing } } //-------------------------------------------------------------------------------------------------------- // Simplifies the selected set by reducing to 1x1 areas and re-merging them up with loosened tolerances void CNavMesh::SimplifySelectedAreas( void ) { // Save off somve cvars: we need to place nodes on ground, we need snap to grid set, and we loosen slope tolerances m_generationMode = GENERATE_SIMPLIFY; bool savedSplitPlaceOnGround = nav_split_place_on_ground.GetBool(); nav_split_place_on_ground.SetValue( 1 ); float savedCoplanarSlopeDisplacementLimit = nav_coplanar_slope_limit_displacement.GetFloat(); nav_coplanar_slope_limit_displacement.SetValue( MIN( 0.5f, savedCoplanarSlopeDisplacementLimit ) ); float savedCoplanarSlopeLimit = nav_coplanar_slope_limit.GetFloat(); nav_coplanar_slope_limit.SetValue( MIN( 0.5f, savedCoplanarSlopeLimit ) ); int savedGrid = nav_snap_to_grid.GetInt(); nav_snap_to_grid.SetValue( 1 ); StripNavigationAreas(); SetMarkedArea( NULL ); NavAreaCollector collector; ForAllSelectedAreas( collector ); // Select walkable seeds and re-generate nodes in the bounds ClearWalkableSeeds(); Extent bounds; bounds.lo.Init( FLT_MAX, FLT_MAX, FLT_MAX ); bounds.hi.Init( -FLT_MAX, -FLT_MAX, -FLT_MAX ); for ( int i=0; iGetExtent( &areaExtent ); areaExtent.lo.z -= HalfHumanHeight; areaExtent.hi.z += 2 * HumanHeight; bounds.Encompass( areaExtent ); Vector center = area->GetCenter(); center.x = SnapToGrid( center.x ); center.y = SnapToGrid( center.y ); Vector normal; if ( FindGroundForNode( ¢er, &normal ) ) { AddWalkableSeed( center, normal ); center.z += HumanHeight; bounds.Encompass( center ); } } RemoveNodes(); GenerateNodes( bounds ); ClearWalkableSeeds(); // Split nav areas up into 1x1 component areas for ( int i=0; iGetCorner( NORTH_EAST ); Vector normal; if ( FindGroundForNode( &corner, &normal ) ) { area->m_node[ NORTH_EAST ] = CNavNode::GetNode( corner ); if ( area->m_node[ NORTH_EAST ] ) { area->m_node[ NORTH_WEST ] = area->m_node[ NORTH_EAST ]->GetConnectedNode( WEST ); area->m_node[ SOUTH_EAST ] = area->m_node[ NORTH_EAST ]->GetConnectedNode( SOUTH ); if ( area->m_node[ SOUTH_EAST ] ) { area->m_node[ SOUTH_WEST ] = area->m_node[ SOUTH_EAST ]->GetConnectedNode( WEST ); if ( area->m_node[ NORTH_WEST ] && area->m_node[ SOUTH_WEST ] ) { area->AssignNodes( area ); } } } } Assert ( area->m_node[ NORTH_EAST ] && area->m_node[ NORTH_WEST ] && area->m_node[ SOUTH_EAST ] && area->m_node[ SOUTH_WEST ] ); if ( !( area->m_node[ NORTH_EAST ] && area->m_node[ NORTH_WEST ] && area->m_node[ SOUTH_EAST ] && area->m_node[ SOUTH_WEST ] ) ) { Warning( "Area %d didn't get any nodes!\n", area->GetID() ); } } // Run a subset of incremental generation on the component areas MergeGeneratedAreas(); SquareUpAreas(); MarkJumpAreas(); SplitAreasUnderOverhangs(); MarkStairAreas(); StichAndRemoveJumpAreas(); HandleObstacleTopAreas(); FixUpGeneratedAreas(); // Re-select the new areas ClearSelectedSet(); FOR_EACH_VEC( TheNavAreas, i ) { CNavArea *area = TheNavAreas[i]; if ( area->HasNodes() ) { AddToSelectedSet( area ); } } #ifndef _DEBUG // leave nodes in debug for testing RemoveNodes(); #endif m_generationMode = GENERATE_NONE; nav_split_place_on_ground.SetValue( savedSplitPlaceOnGround ); nav_coplanar_slope_limit_displacement.SetValue( savedCoplanarSlopeDisplacementLimit ); nav_coplanar_slope_limit.SetValue( savedCoplanarSlopeLimit ); nav_snap_to_grid.SetValue( savedGrid ); } //-------------------------------------------------------------------------------------------------------- CON_COMMAND_F( nav_simplify_selected, "Chops all selected areas into their component 1x1 areas and re-merges them together into larger areas", FCVAR_CHEAT ) { if ( !UTIL_IsCommandIssuedByServerAdmin() || engine->IsDedicatedServer() ) return; int selectedSetSize = TheNavMesh->GetSelecteSetSize(); if ( selectedSetSize == 0 ) { Msg( "nav_simplify_selected only works on the selected set\n" ); return; } TheNavMesh->SimplifySelectedAreas(); Msg( "%d areas simplified - %d remain\n", selectedSetSize, TheNavMesh->GetSelecteSetSize() ); }