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/*
* CZonePlacer . cpp , part of VCMI engine
*
* Authors : listed in file AUTHORS in main folder
*
* License : GNU General Public License v2 .0 or later
* Full text of license available in license . txt file , in main folder
*
*/
# include "StdInc.h"
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# include <stack>
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# include "../CRandomGenerator.h"
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# include "CZonePlacer.h"
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# include "../TerrainHandler.h"
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# include "../mapping/CMap.h"
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# include "../mapping/CMapEditManager.h"
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# include "CMapGenOptions.h"
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# include "RmgMap.h"
# include "Zone.h"
# include "Functions.h"
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VCMI_LIB_NAMESPACE_BEGIN
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class CRandomGenerator ;
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CZonePlacer : : CZonePlacer ( RmgMap & map )
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: width ( 0 ) , height ( 0 ) , scaleX ( 0 ) , scaleY ( 0 ) , mapSize ( 0 ) ,
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gravityConstant ( 1e-3 f ) ,
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stiffnessConstant ( 3e-3 f ) ,
stifness ( 0 ) ,
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stiffnessIncreaseFactor ( 1.03f ) ,
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bestTotalDistance ( 1e10 ) ,
bestTotalOverlap ( 1e10 ) ,
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map ( map )
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{
}
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int3 CZonePlacer : : cords ( const float3 & f ) const
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{
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return int3 ( static_cast < si32 > ( std : : max ( 0.f , ( f . x * map . width ( ) ) - 1 ) ) , static_cast < si32 > ( std : : max ( 0.f , ( f . y * map . height ( ) - 1 ) ) ) , f . z ) ;
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}
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float CZonePlacer : : getDistance ( float distance ) const
{
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return ( distance ? distance * distance : 1e-6 f ) ;
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}
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void CZonePlacer : : findPathsBetweenZones ( )
{
auto zones = map . getZones ( ) ;
std : : set < std : : shared_ptr < Zone > > zonesToCheck ;
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// Iterate through each pair of nodes in the graph
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for ( const auto & zone : zones )
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{
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int start = zone . first ;
distancesBetweenZones [ start ] [ start ] = 0 ; // Distance from a node to itself is 0
std : : queue < int > q ;
std : : map < int , bool > visited ;
visited [ start ] = true ;
q . push ( start ) ;
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// Perform Breadth-First Search from the starting node
while ( ! q . empty ( ) )
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{
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int current = q . front ( ) ;
q . pop ( ) ;
const auto & currentZone = zones . at ( current ) ;
const auto & connections = currentZone - > getConnections ( ) ;
for ( uint32_t neighbor : connections )
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{
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if ( ! visited [ neighbor ] )
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{
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visited [ neighbor ] = true ;
q . push ( neighbor ) ;
distancesBetweenZones [ start ] [ neighbor ] = distancesBetweenZones [ start ] [ current ] + 1 ;
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}
}
}
}
}
void CZonePlacer : : placeOnGrid ( CRandomGenerator * rand )
{
auto zones = map . getZones ( ) ;
assert ( zones . size ( ) ) ;
//Make sure there are at least as many grid fields as the number of zones
size_t gridSize = std : : ceil ( std : : sqrt ( zones . size ( ) ) ) ;
typedef boost : : multi_array < std : : shared_ptr < Zone > , 2 > GridType ;
GridType grid ( boost : : extents [ gridSize ] [ gridSize ] ) ;
TZoneVector zonesVector ( zones . begin ( ) , zones . end ( ) ) ;
RandomGeneratorUtil : : randomShuffle ( zonesVector , * rand ) ;
//Place first zone
auto firstZone = zonesVector [ 0 ] . second ;
size_t x = 0 , y = 0 ;
auto getRandomEdge = [ rand , gridSize ] ( size_t & x , size_t & y )
{
switch ( rand - > nextInt ( ) % 4 )
{
case 0 :
x = 0 ;
y = gridSize / 2 ;
break ;
case 1 :
x = gridSize - 1 ;
y = gridSize / 2 ;
break ;
case 2 :
x = gridSize / 2 ;
y = 0 ;
break ;
case 3 :
x = gridSize / 2 ;
y = gridSize - 1 ;
break ;
}
} ;
switch ( firstZone - > getType ( ) )
{
case ETemplateZoneType : : PLAYER_START :
case ETemplateZoneType : : CPU_START :
if ( firstZone - > getConnections ( ) . size ( ) > 2 )
{
getRandomEdge ( x , y ) ;
}
else
{
//Random corner
if ( rand - > nextInt ( ) % 2 )
{
x = 0 ;
}
else
{
x = gridSize - 1 ;
}
if ( rand - > nextInt ( ) % 2 )
{
y = 0 ;
}
else
{
y = gridSize - 1 ;
}
}
break ;
case ETemplateZoneType : : TREASURE :
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if ( gridSize & 1 ) //odd
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{
x = y = ( gridSize / 2 ) ;
}
else
{
//One of 4 squares in the middle
x = ( gridSize / 2 ) - 1 + rand - > nextInt ( ) % 2 ;
y = ( gridSize / 2 ) - 1 + rand - > nextInt ( ) % 2 ;
}
break ;
case ETemplateZoneType : : JUNCTION :
getRandomEdge ( x , y ) ;
break ;
}
grid [ x ] [ y ] = firstZone ;
//Ignore z placement for simplicity
for ( size_t i = 1 ; i < zones . size ( ) ; i + + )
{
auto zone = zonesVector [ i ] . second ;
auto connections = zone - > getConnections ( ) ;
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float maxDistance = - 1000.0 ;
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int3 mostDistantPlace ;
//Iterate over free positions
for ( size_t freeX = 0 ; freeX < gridSize ; + + freeX )
{
for ( size_t freeY = 0 ; freeY < gridSize ; + + freeY )
{
if ( ! grid [ freeX ] [ freeY ] )
{
//There is free space left here
int3 potentialPos ( freeX , freeY , 0 ) ;
//Compute distance to every existing zone
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float distance = 0 ;
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for ( size_t existingX = 0 ; existingX < gridSize ; + + existingX )
{
for ( size_t existingY = 0 ; existingY < gridSize ; + + existingY )
{
auto existingZone = grid [ existingX ] [ existingY ] ;
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if ( existingZone )
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{
//There is already zone here
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float localDistance = 0.0f ;
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auto graphDistance = distancesBetweenZones [ zone - > getId ( ) ] [ existingZone - > getId ( ) ] ;
if ( graphDistance > 1 )
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{
//No direct connection
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localDistance = potentialPos . dist2d ( int3 ( existingX , existingY , 0 ) ) * graphDistance ;
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}
else
{
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//Has direct connection - place as close as possible
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localDistance = - potentialPos . dist2d ( int3 ( existingX , existingY , 0 ) ) ;
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}
//Spread apart player starting zones
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if ( zone - > getOwner ( ) & & existingZone - > getOwner ( ) ) //Players participate in game
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{
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int firstPlayer = zone - > getOwner ( ) . value ( ) ;
int secondPlayer = existingZone - > getOwner ( ) . value ( ) ;
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//Players with lower indexes (especially 1 and 2) will be placed further apart
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localDistance * = ( 1.0f + ( 2.0f / ( firstPlayer * secondPlayer ) ) ) ;
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}
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distance + = localDistance ;
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}
}
}
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if ( distance > maxDistance )
{
maxDistance = distance ;
mostDistantPlace = potentialPos ;
}
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}
}
}
//Place in a free slot
grid [ mostDistantPlace . x ] [ mostDistantPlace . y ] = zone ;
}
//TODO: toggle with a flag
logGlobal - > info ( " Initial zone grid: " ) ;
for ( size_t x = 0 ; x < gridSize ; + + x )
{
std : : string s ;
for ( size_t y = 0 ; y < gridSize ; + + y )
{
if ( grid [ x ] [ y ] )
{
s + = ( boost : : format ( " %3d " ) % grid [ x ] [ y ] - > getId ( ) ) . str ( ) ;
}
else
{
s + = " -- " ;
}
}
logGlobal - > info ( s ) ;
}
//Set initial position for zones - random position in square centered around (x, y)
for ( size_t x = 0 ; x < gridSize ; + + x )
{
for ( size_t y = 0 ; y < gridSize ; + + y )
{
auto zone = grid [ x ] [ y ] ;
if ( zone )
{
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//i.e. for grid size 5 we get range (0.25 - 4.75)
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auto targetX = rand - > nextDouble ( x + 0.25f , x + 0.75f ) ;
vstd : : abetween ( targetX , 0.5 , gridSize - 0.5 ) ;
auto targetY = rand - > nextDouble ( y + 0.25f , y + 0.75f ) ;
vstd : : abetween ( targetY , 0.5 , gridSize - 0.5 ) ;
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zone - > setCenter ( float3 ( targetX / gridSize , targetY / gridSize , zone - > getPos ( ) . z ) ) ;
}
}
}
}
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void CZonePlacer : : placeZones ( CRandomGenerator * rand )
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{
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logGlobal - > info ( " Starting zone placement " ) ;
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width = map . getMapGenOptions ( ) . getWidth ( ) ;
height = map . getMapGenOptions ( ) . getHeight ( ) ;
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auto zones = map . getZones ( ) ;
vstd : : erase_if ( zones , [ ] ( const std : : pair < TRmgTemplateZoneId , std : : shared_ptr < Zone > > & pr )
{
return pr . second - > getType ( ) = = ETemplateZoneType : : WATER ;
} ) ;
bool underground = map . getMapGenOptions ( ) . getHasTwoLevels ( ) ;
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findPathsBetweenZones ( ) ;
placeOnGrid ( rand ) ;
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/*
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Fruchterman - Reingold algorithm
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Let ' s assume we try to fit N circular zones with radius = size on a map
Connected zones attract , intersecting zones and map boundaries push back
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*/
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TZoneVector zonesVector ( zones . begin ( ) , zones . end ( ) ) ;
assert ( zonesVector . size ( ) ) ;
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RandomGeneratorUtil : : randomShuffle ( zonesVector , * rand ) ;
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//0. set zone sizes and surface / underground level
prepareZones ( zones , zonesVector , underground , rand ) ;
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std : : map < std : : shared_ptr < Zone > , float3 > bestSolution ;
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TForceVector forces ;
TForceVector totalForces ; // both attraction and pushback, overcomplicated?
TDistanceVector distances ;
TDistanceVector overlaps ;
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//Start with low stiffness. Bigger graphs need more time and more flexibility
for ( stifness = stiffnessConstant / zones . size ( ) ; stifness < = stiffnessConstant ; stifness * = stiffnessIncreaseFactor )
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{
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//1. attract connected zones
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attractConnectedZones ( zones , forces , distances ) ;
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for ( const auto & zone : forces )
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{
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zone . first - > setCenter ( zone . first - > getCenter ( ) + zone . second ) ;
totalForces [ zone . first ] = zone . second ; //override
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}
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//2. separate overlapping zones
separateOverlappingZones ( zones , forces , overlaps ) ;
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for ( const auto & zone : forces )
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{
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zone . first - > setCenter ( zone . first - > getCenter ( ) + zone . second ) ;
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totalForces [ zone . first ] + = zone . second ; //accumulate
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}
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//3. now perform drastic movement of zone that is completely not linked
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moveOneZone ( zones , totalForces , distances , overlaps ) ;
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//4. NOW after everything was moved, re-evaluate zone positions
attractConnectedZones ( zones , forces , distances ) ;
separateOverlappingZones ( zones , forces , overlaps ) ;
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float totalDistance = 0 ;
float totalOverlap = 0 ;
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for ( const auto & zone : distances ) //find most misplaced zone
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{
totalDistance + = zone . second ;
float overlap = overlaps [ zone . first ] ;
totalOverlap + = overlap ;
}
//check fitness function
bool improvement = false ;
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if ( ( totalDistance + 1 ) * ( totalOverlap + 1 ) < ( bestTotalDistance + 1 ) * ( bestTotalOverlap + 1 ) )
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{
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//multiplication is better for auto-scaling, but stops working if one factor is 0
improvement = true ;
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}
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logGlobal - > trace ( " Total distance between zones after this iteration: %2.4f, Total overlap: %2.4f, Improved: %s " , totalDistance , totalOverlap , improvement ) ;
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//save best solution
if ( improvement )
{
bestTotalDistance = totalDistance ;
bestTotalOverlap = totalOverlap ;
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for ( const auto & zone : zones )
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bestSolution [ zone . second ] = zone . second - > getCenter ( ) ;
}
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}
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logGlobal - > trace ( " Best fitness reached: total distance %2.4f, total overlap %2.4f " , bestTotalDistance , bestTotalOverlap ) ;
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for ( const auto & zone : zones ) //finalize zone positions
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{
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zone . second - > setPos ( cords ( bestSolution [ zone . second ] ) ) ;
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logGlobal - > trace ( " Placed zone %d at relative position %s and coordinates %s " , zone . first , zone . second - > getCenter ( ) . toString ( ) , zone . second - > getPos ( ) . toString ( ) ) ;
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}
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}
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void CZonePlacer : : prepareZones ( TZoneMap & zones , TZoneVector & zonesVector , const bool underground , CRandomGenerator * rand )
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{
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std : : vector < float > totalSize = { 0 , 0 } ; //make sure that sum of zone sizes on surface and uderground match size of the map
int zonesOnLevel [ 2 ] = { 0 , 0 } ;
//even distribution for surface / underground zones. Surface zones always have priority.
TZoneVector zonesToPlace ;
std : : map < TRmgTemplateZoneId , int > levels ;
//first pass - determine fixed surface for zones
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for ( const auto & zone : zonesVector )
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{
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if ( ! underground ) //this step is ignored
zonesToPlace . push_back ( zone ) ;
else //place players depending on their factions
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{
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if ( std : : optional < int > owner = zone . second - > getOwner ( ) )
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{
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auto player = PlayerColor ( * owner - 1 ) ;
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auto playerSettings = map . getMapGenOptions ( ) . getPlayersSettings ( ) ;
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si32 faction = CMapGenOptions : : CPlayerSettings : : RANDOM_TOWN ;
if ( vstd : : contains ( playerSettings , player ) )
faction = playerSettings [ player ] . getStartingTown ( ) ;
else
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logGlobal - > error ( " Can't find info for player %d (starting zone) " , player . getNum ( ) ) ;
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if ( faction = = CMapGenOptions : : CPlayerSettings : : RANDOM_TOWN ) //TODO: check this after a town has already been randomized
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zonesToPlace . push_back ( zone ) ;
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else
{
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auto & tt = ( * VLC - > townh ) [ faction ] - > nativeTerrain ;
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if ( tt = = ETerrainId : : NONE )
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{
//any / random
zonesToPlace . push_back ( zone ) ;
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}
else
{
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const auto & terrainType = VLC - > terrainTypeHandler - > getById ( tt ) ;
if ( terrainType - > isUnderground ( ) & & ! terrainType - > isSurface ( ) )
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{
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//underground only
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zonesOnLevel [ 1 ] + + ;
levels [ zone . first ] = 1 ;
}
else
{
//surface
zonesOnLevel [ 0 ] + + ;
levels [ zone . first ] = 0 ;
}
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}
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}
}
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else //no starting zone or no underground altogether
{
zonesToPlace . push_back ( zone ) ;
}
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}
}
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for ( const auto & zone : zonesToPlace )
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{
if ( underground ) //only then consider underground zones
{
int level = 0 ;
if ( zonesOnLevel [ 1 ] < zonesOnLevel [ 0 ] ) //only if there are less underground zones
level = 1 ;
else
level = 0 ;
levels [ zone . first ] = level ;
zonesOnLevel [ level ] + + ;
}
else
levels [ zone . first ] = 0 ;
}
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for ( const auto & zone : zonesVector )
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{
int level = levels [ zone . first ] ;
totalSize [ level ] + = ( zone . second - > getSize ( ) * zone . second - > getSize ( ) ) ;
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float3 center = zone . second - > getCenter ( ) ;
center . z = level ;
zone . second - > setCenter ( center ) ;
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}
/*
prescale zones
formula : sum ( ( prescaler * n ) ^ 2 ) * pi = WH
prescaler = sqrt ( ( WH ) / ( sum ( n ^ 2 ) * pi ) )
*/
std : : vector < float > prescaler = { 0 , 0 } ;
for ( int i = 0 ; i < 2 ; i + + )
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prescaler [ i ] = std : : sqrt ( ( width * height ) / ( totalSize [ i ] * 3.14f ) ) ;
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mapSize = static_cast < float > ( sqrt ( width * height ) ) ;
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for ( const auto & zone : zones )
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{
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zone . second - > setSize ( static_cast < int > ( zone . second - > getSize ( ) * prescaler [ zone . second - > getCenter ( ) . z ] ) ) ;
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}
}
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void CZonePlacer : : attractConnectedZones ( TZoneMap & zones , TForceVector & forces , TDistanceVector & distances ) const
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{
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for ( const auto & zone : zones )
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{
float3 forceVector ( 0 , 0 , 0 ) ;
float3 pos = zone . second - > getCenter ( ) ;
float totalDistance = 0 ;
for ( auto con : zone . second - > getConnections ( ) )
{
auto otherZone = zones [ con ] ;
float3 otherZoneCenter = otherZone - > getCenter ( ) ;
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auto distance = static_cast < float > ( pos . dist2d ( otherZoneCenter ) ) ;
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forceVector + = ( otherZoneCenter - pos ) * distance * gravityConstant ; //positive value
//Attract zone centers always
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float minDistance = 0 ;
if ( pos . z ! = otherZoneCenter . z )
minDistance = 0 ; //zones on different levels can overlap completely
else
minDistance = ( zone . second - > getSize ( ) + otherZone - > getSize ( ) ) / mapSize ; //scale down to (0,1) coordinates
if ( distance > minDistance )
totalDistance + = ( distance - minDistance ) ;
}
distances [ zone . second ] = totalDistance ;
forceVector . z = 0 ; //operator - doesn't preserve z coordinate :/
forces [ zone . second ] = forceVector ;
}
}
void CZonePlacer : : separateOverlappingZones ( TZoneMap & zones , TForceVector & forces , TDistanceVector & overlaps )
{
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for ( const auto & zone : zones )
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{
float3 forceVector ( 0 , 0 , 0 ) ;
float3 pos = zone . second - > getCenter ( ) ;
float overlap = 0 ;
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//separate overlapping zones
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for ( const auto & otherZone : zones )
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{
float3 otherZoneCenter = otherZone . second - > getCenter ( ) ;
//zones on different levels don't push away
if ( zone = = otherZone | | pos . z ! = otherZoneCenter . z )
continue ;
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auto distance = static_cast < float > ( pos . dist2d ( otherZoneCenter ) ) ;
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float minDistance = ( zone . second - > getSize ( ) + otherZone . second - > getSize ( ) ) / mapSize ;
if ( distance < minDistance )
{
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float3 localForce = ( ( ( otherZoneCenter - pos ) * ( minDistance / ( distance ? distance : 1e-3 f ) ) ) / getDistance ( distance ) ) * stifness ;
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//negative value
forceVector - = localForce * ( distancesBetweenZones [ zone . second - > getId ( ) ] [ otherZone . second - > getId ( ) ] / 2.0f ) ;
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overlap + = ( minDistance - distance ) ; //overlapping of small zones hurts us more
}
}
//move zones away from boundaries
//do not scale boundary distance - zones tend to get squashed
float size = zone . second - > getSize ( ) / mapSize ;
auto pushAwayFromBoundary = [ & forceVector , pos , size , & overlap , this ] ( float x , float y )
{
float3 boundary = float3 ( x , y , pos . z ) ;
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auto distance = static_cast < float > ( pos . dist2d ( boundary ) ) ;
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overlap + = std : : max < float > ( 0 , distance - size ) ; //check if we're closer to map boundary than value of zone size
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forceVector - = ( boundary - pos ) * ( size - distance ) / this - > getDistance ( distance ) * this - > stifness ; //negative value
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} ;
if ( pos . x < size )
{
pushAwayFromBoundary ( 0 , pos . y ) ;
}
if ( pos . x > 1 - size )
{
pushAwayFromBoundary ( 1 , pos . y ) ;
}
if ( pos . y < size )
{
pushAwayFromBoundary ( pos . x , 0 ) ;
}
if ( pos . y > 1 - size )
{
pushAwayFromBoundary ( pos . x , 1 ) ;
}
overlaps [ zone . second ] = overlap ;
forceVector . z = 0 ; //operator - doesn't preserve z coordinate :/
forces [ zone . second ] = forceVector ;
}
}
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void CZonePlacer : : moveOneZone ( TZoneMap & zones , TForceVector & totalForces , TDistanceVector & distances , TDistanceVector & overlaps )
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{
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const int maxDistanceMovementRatio = zones . size ( ) * zones . size ( ) ; //The more zones, the greater total distance expected
typedef std : : pair < float , std : : shared_ptr < Zone > > Misplacement ;
std : : vector < Misplacement > misplacedZones ;
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float totalDistance = 0 ;
float totalOverlap = 0 ;
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for ( const auto & zone : distances ) //find most misplaced zone
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{
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if ( vstd : : contains ( lastSwappedZones , zone . first - > getId ( ) ) )
{
continue ;
}
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totalDistance + = zone . second ;
float overlap = overlaps [ zone . first ] ;
totalOverlap + = overlap ;
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//if distance to actual movement is long, the zone is misplaced
float ratio = ( zone . second + overlap ) / static_cast < float > ( totalForces [ zone . first ] . mag ( ) ) ;
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if ( ratio > maxDistanceMovementRatio )
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{
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misplacedZones . emplace_back ( std : : make_pair ( ratio , zone . first ) ) ;
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}
}
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if ( misplacedZones . empty ( ) )
return ;
boost : : sort ( misplacedZones , [ ] ( const Misplacement & lhs , Misplacement & rhs )
{
return lhs . first > rhs . first ; //Biggest first
} ) ;
logGlobal - > trace ( " Worst misplacement/movement ratio: %3.2f " , misplacedZones . front ( ) . first ) ;
if ( misplacedZones . size ( ) > = 2 )
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{
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//Swap 2 misplaced zones
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auto firstZone = misplacedZones . front ( ) . second ;
std : : shared_ptr < Zone > secondZone ;
auto level = firstZone - > getCenter ( ) . z ;
for ( size_t i = 1 ; i < misplacedZones . size ( ) ; i + + )
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{
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//Only swap zones on the same level
//Don't swap zones that should be connected (Jebus)
if ( misplacedZones [ i ] . second - > getCenter ( ) . z = = level & &
! vstd : : contains ( firstZone - > getConnections ( ) , misplacedZones [ i ] . second - > getId ( ) ) )
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{
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secondZone = misplacedZones [ i ] . second ;
break ;
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}
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}
if ( secondZone )
{
logGlobal - > trace ( " Swapping two misplaced zones %d and %d " , firstZone - > getId ( ) , secondZone - > getId ( ) ) ;
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auto firstCenter = firstZone - > getCenter ( ) ;
auto secondCenter = secondZone - > getCenter ( ) ;
firstZone - > setCenter ( secondCenter ) ;
secondZone - > setCenter ( firstCenter ) ;
lastSwappedZones . insert ( firstZone - > getId ( ) ) ;
lastSwappedZones . insert ( secondZone - > getId ( ) ) ;
return ;
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}
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}
lastSwappedZones . clear ( ) ; //If we didn't swap zones in this iteration, we can do it in the next
//find most distant zone that should be attracted and move inside it
std : : shared_ptr < Zone > targetZone ;
auto misplacedZone = misplacedZones . front ( ) . second ;
float3 ourCenter = misplacedZone - > getCenter ( ) ;
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if ( ( totalDistance / ( bestTotalDistance + 1 ) ) > ( totalOverlap / ( bestTotalOverlap + 1 ) ) )
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{
//Move one zone towards most distant zone to reduce distance
float maxDistance = 0 ;
for ( auto con : misplacedZone - > getConnections ( ) )
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{
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auto otherZone = zones [ con ] ;
float distance = static_cast < float > ( otherZone - > getCenter ( ) . dist2dSQ ( ourCenter ) ) ;
if ( distance > maxDistance )
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{
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maxDistance = distance ;
targetZone = otherZone ;
}
}
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if ( targetZone )
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{
float3 vec = targetZone - > getCenter ( ) - ourCenter ;
float newDistanceBetweenZones = ( std : : max ( misplacedZone - > getSize ( ) , targetZone - > getSize ( ) ) ) / mapSize ;
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logGlobal - > trace ( " Trying to move zone %d %s towards %d %s. Direction is %s " , misplacedZone - > getId ( ) , ourCenter . toString ( ) , targetZone - > getId ( ) , targetZone - > getCenter ( ) . toString ( ) , vec . toString ( ) ) ;
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misplacedZone - > setCenter ( targetZone - > getCenter ( ) - vec . unitVector ( ) * newDistanceBetweenZones ) ; //zones should now overlap by half size
}
}
else
{
//Move misplaced zone away from overlapping zone
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float maxOverlap = 0 ;
for ( const auto & otherZone : zones )
{
float3 otherZoneCenter = otherZone . second - > getCenter ( ) ;
if ( otherZone . second = = misplacedZone | | otherZoneCenter . z ! = ourCenter . z )
continue ;
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auto distance = static_cast < float > ( otherZoneCenter . dist2dSQ ( ourCenter ) ) ;
if ( distance > maxOverlap )
{
maxOverlap = distance ;
targetZone = otherZone . second ;
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}
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}
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if ( targetZone )
{
float3 vec = ourCenter - targetZone - > getCenter ( ) ;
float newDistanceBetweenZones = ( misplacedZone - > getSize ( ) + targetZone - > getSize ( ) ) / mapSize ;
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logGlobal - > trace ( " Trying to move zone %d %s away from %d %s. Direction is %s " , misplacedZone - > getId ( ) , ourCenter . toString ( ) , targetZone - > getId ( ) , targetZone - > getCenter ( ) . toString ( ) , vec . toString ( ) ) ;
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misplacedZone - > setCenter ( targetZone - > getCenter ( ) + vec . unitVector ( ) * newDistanceBetweenZones ) ; //zones should now be just separated
}
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}
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//Don't swap that zone in next iteration
lastSwappedZones . insert ( misplacedZone - > getId ( ) ) ;
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}
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float CZonePlacer : : metric ( const int3 & A , const int3 & B ) const
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{
float dx = abs ( A . x - B . x ) * scaleX ;
float dy = abs ( A . y - B . y ) * scaleY ;
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/*
1. Normal euclidean distance
2. Sinus for extra curves
3. Nonlinear mess for fuzzy edges
*/
return dx * dx + dy * dy +
5 * std : : sin ( dx * dy / 10 ) +
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25 * std : : sin ( std : : sqrt ( A . x * B . x ) * ( A . y - B . y ) / 100 * ( scaleX * scaleY ) ) ;
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}
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void CZonePlacer : : assignZones ( CRandomGenerator * rand )
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{
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logGlobal - > info ( " Starting zone colouring " ) ;
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auto width = map . getMapGenOptions ( ) . getWidth ( ) ;
auto height = map . getMapGenOptions ( ) . getHeight ( ) ;
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//scale to Medium map to ensure smooth results
scaleX = 72.f / width ;
scaleY = 72.f / height ;
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auto zones = map . getZones ( ) ;
vstd : : erase_if ( zones , [ ] ( const std : : pair < TRmgTemplateZoneId , std : : shared_ptr < Zone > > & pr )
{
return pr . second - > getType ( ) = = ETemplateZoneType : : WATER ;
} ) ;
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using Dpair = std : : pair < std : : shared_ptr < Zone > , float > ;
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std : : vector < Dpair > distances ;
distances . reserve ( zones . size ( ) ) ;
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//now place zones correctly and assign tiles to each zone
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auto compareByDistance = [ ] ( const Dpair & lhs , const Dpair & rhs ) - > bool
{
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//bigger zones have smaller distance
return lhs . second / lhs . first - > getSize ( ) < rhs . second / rhs . first - > getSize ( ) ;
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} ;
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auto moveZoneToCenterOfMass = [ ] ( const std : : shared_ptr < Zone > & zone ) - > void
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{
int3 total ( 0 , 0 , 0 ) ;
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auto tiles = zone - > area ( ) . getTiles ( ) ;
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for ( const auto & tile : tiles )
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{
total + = tile ;
}
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int size = static_cast < int > ( tiles . size ( ) ) ;
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assert ( size ) ;
zone - > setPos ( int3 ( total . x / size , total . y / size , total . z / size ) ) ;
} ;
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int levels = map . levels ( ) ;
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/*
1. Create Voronoi diagram
2. find current center of mass for each zone . Move zone to that center to balance zones sizes
*/
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int3 pos ;
for ( pos . z = 0 ; pos . z < levels ; pos . z + + )
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{
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for ( pos . x = 0 ; pos . x < width ; pos . x + + )
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{
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for ( pos . y = 0 ; pos . y < height ; pos . y + + )
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{
distances . clear ( ) ;
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for ( const auto & zone : zones )
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{
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if ( zone . second - > getPos ( ) . z = = pos . z )
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distances . emplace_back ( zone . second , static_cast < float > ( pos . dist2dSQ ( zone . second - > getPos ( ) ) ) ) ;
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else
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distances . emplace_back ( zone . second , std : : numeric_limits < float > : : max ( ) ) ;
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}
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boost : : min_element ( distances , compareByDistance ) - > first - > area ( ) . add ( pos ) ; //closest tile belongs to zone
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}
}
}
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for ( const auto & zone : zones )
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{
if ( zone . second - > area ( ) . empty ( ) )
throw rmgException ( " Empty zone is generated, probably RMG template is inappropriate for map size " ) ;
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moveZoneToCenterOfMass ( zone . second ) ;
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}
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//assign actual tiles to each zone using nonlinear norm for fine edges
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for ( const auto & zone : zones )
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zone . second - > clearTiles ( ) ; //now populate them again
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for ( pos . z = 0 ; pos . z < levels ; pos . z + + )
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{
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for ( pos . x = 0 ; pos . x < width ; pos . x + + )
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{
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for ( pos . y = 0 ; pos . y < height ; pos . y + + )
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{
distances . clear ( ) ;
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for ( const auto & zone : zones )
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{
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if ( zone . second - > getPos ( ) . z = = pos . z )
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distances . emplace_back ( zone . second , metric ( pos , zone . second - > getPos ( ) ) ) ;
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else
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distances . emplace_back ( zone . second , std : : numeric_limits < float > : : max ( ) ) ;
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}
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auto zone = boost : : min_element ( distances , compareByDistance ) - > first ; //closest tile belongs to zone
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zone - > area ( ) . add ( pos ) ;
map . setZoneID ( pos , zone - > getId ( ) ) ;
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}
}
}
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//set position (town position) to center of mass of irregular zone
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for ( const auto & zone : zones )
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{
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moveZoneToCenterOfMass ( zone . second ) ;
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//TODO: similiar for islands
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# define CREATE_FULL_UNDERGROUND true //consider linking this with water amount
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if ( zone . second - > isUnderground ( ) )
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{
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if ( ! CREATE_FULL_UNDERGROUND )
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{
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auto discardTiles = collectDistantTiles ( * zone . second , zone . second - > getSize ( ) + 1.f ) ;
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for ( const auto & t : discardTiles )
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zone . second - > area ( ) . erase ( t ) ;
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}
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//make sure that terrain inside zone is not a rock
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auto v = zone . second - > getArea ( ) . getTilesVector ( ) ;
map . getMapProxy ( ) - > drawTerrain ( * rand , v , ETerrainId : : SUBTERRANEAN ) ;
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}
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}
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logGlobal - > info ( " Finished zone colouring " ) ;
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}
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const TDistanceMap & CZonePlacer : : getDistanceMap ( )
{
return distancesBetweenZones ;
}
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VCMI_LIB_NAMESPACE_END