2023-10-19 16:19:09 +02:00
/*
* BattleFieldController . 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"
# include "BattleFieldController.h"
# include "BattleInterface.h"
2024-01-07 17:38:37 +02:00
# include "BattleWindow.h"
2023-10-19 16:19:09 +02:00
# include "BattleActionsController.h"
# include "BattleInterfaceClasses.h"
# include "BattleEffectsController.h"
# include "BattleSiegeController.h"
# include "BattleStacksController.h"
# include "BattleObstacleController.h"
# include "BattleProjectileController.h"
# include "BattleRenderer.h"
# include "../CGameInfo.h"
# include "../CPlayerInterface.h"
# include "../render/CAnimation.h"
# include "../render/Canvas.h"
# include "../render/IImage.h"
# include "../renderSDL/SDL_Extensions.h"
# include "../render/IRenderHandler.h"
# include "../gui/CGuiHandler.h"
# include "../gui/CursorHandler.h"
# include "../adventureMap/CInGameConsole.h"
# include "../client/render/CAnimation.h"
# include "../../CCallback.h"
# include "../../lib/BattleFieldHandler.h"
# include "../../lib/CConfigHandler.h"
# include "../../lib/CStack.h"
# include "../../lib/spells/ISpellMechanics.h"
namespace HexMasks
{
// mask definitions that has set to 1 the edges present in the hex edges highlight image
/*
/ \
0 1
/ \
| |
5 2
| |
\ /
4 3
\ /
*/
enum HexEdgeMasks {
empty = 0b000000 , // empty used when wanting to keep indexes the same but no highlight should be displayed
topLeft = 0b000001 ,
topRight = 0b000010 ,
right = 0b000100 ,
bottomRight = 0b001000 ,
bottomLeft = 0b010000 ,
left = 0b100000 ,
top = 0b000011 ,
bottom = 0b011000 ,
topRightHalfCorner = 0b000110 ,
bottomRightHalfCorner = 0b001100 ,
bottomLeftHalfCorner = 0b110000 ,
topLeftHalfCorner = 0b100001 ,
rightTopAndBottom = 0b001010 , // special case, right half can be drawn instead of only top and bottom
leftTopAndBottom = 0b010001 , // special case, left half can be drawn instead of only top and bottom
rightHalf = 0b001110 ,
leftHalf = 0b110001 ,
topRightCorner = 0b000111 ,
bottomRightCorner = 0b011100 ,
bottomLeftCorner = 0b111000 ,
topLeftCorner = 0b100011
} ;
}
2024-07-16 22:14:49 +02:00
static const std : : map < int , int > hexEdgeMaskToFrameIndex =
2023-10-19 16:19:09 +02:00
{
2024-07-16 22:14:49 +02:00
{ HexMasks : : empty , 0 } ,
{ HexMasks : : topLeft , 1 } ,
{ HexMasks : : topRight , 2 } ,
{ HexMasks : : right , 3 } ,
{ HexMasks : : bottomRight , 4 } ,
{ HexMasks : : bottomLeft , 5 } ,
{ HexMasks : : left , 6 } ,
{ HexMasks : : top , 7 } ,
{ HexMasks : : bottom , 8 } ,
{ HexMasks : : topRightHalfCorner , 9 } ,
{ HexMasks : : bottomRightHalfCorner , 10 } ,
{ HexMasks : : bottomLeftHalfCorner , 11 } ,
{ HexMasks : : topLeftHalfCorner , 12 } ,
{ HexMasks : : rightTopAndBottom , 13 } ,
{ HexMasks : : leftTopAndBottom , 14 } ,
{ HexMasks : : rightHalf , 13 } ,
{ HexMasks : : leftHalf , 14 } ,
{ HexMasks : : topRightCorner , 15 } ,
{ HexMasks : : bottomRightCorner , 16 } ,
{ HexMasks : : bottomLeftCorner , 17 } ,
{ HexMasks : : topLeftCorner , 18 }
} ;
2023-10-19 16:19:09 +02:00
BattleFieldController : : BattleFieldController ( BattleInterface & owner ) :
owner ( owner )
{
2024-08-09 17:30:04 +02:00
OBJECT_CONSTRUCTION ;
2023-10-19 16:19:09 +02:00
//preparing cells and hexes
cellBorder = GH . renderHandler ( ) . loadImage ( ImagePath : : builtin ( " CCELLGRD.BMP " ) , EImageBlitMode : : COLORKEY ) ;
2024-12-08 02:17:01 +02:00
cellShade = GH . renderHandler ( ) . loadImage ( ImagePath : : builtin ( " CCELLSHD.BMP " ) , EImageBlitMode : : ONLY_SHADOW ) ;
2023-10-19 16:19:09 +02:00
cellUnitMovementHighlight = GH . renderHandler ( ) . loadImage ( ImagePath : : builtin ( " UnitMovementHighlight.PNG " ) , EImageBlitMode : : COLORKEY ) ;
cellUnitMaxMovementHighlight = GH . renderHandler ( ) . loadImage ( ImagePath : : builtin ( " UnitMaxMovementHighlight.PNG " ) , EImageBlitMode : : COLORKEY ) ;
2024-06-08 09:35:13 +02:00
attackCursors = GH . renderHandler ( ) . loadAnimation ( AnimationPath : : builtin ( " CRCOMBAT " ) , EImageBlitMode : : COLORKEY ) ;
spellCursors = GH . renderHandler ( ) . loadAnimation ( AnimationPath : : builtin ( " CRSPELL " ) , EImageBlitMode : : COLORKEY ) ;
2023-10-19 16:19:09 +02:00
2024-06-08 09:35:13 +02:00
rangedFullDamageLimitImages = GH . renderHandler ( ) . loadAnimation ( AnimationPath : : builtin ( " battle/rangeHighlights/rangeHighlightsGreen.json " ) , EImageBlitMode : : COLORKEY ) ;
shootingRangeLimitImages = GH . renderHandler ( ) . loadAnimation ( AnimationPath : : builtin ( " battle/rangeHighlights/rangeHighlightsRed.json " ) , EImageBlitMode : : COLORKEY ) ;
2023-10-19 16:19:09 +02:00
if ( ! owner . siegeController )
{
auto bfieldType = owner . getBattle ( ) - > battleGetBattlefieldType ( ) ;
if ( bfieldType = = BattleField : : NONE )
logGlobal - > error ( " Invalid battlefield returned for current battle " ) ;
else
background = GH . renderHandler ( ) . loadImage ( bfieldType . getInfo ( ) - > graphics , EImageBlitMode : : OPAQUE ) ;
}
else
{
auto backgroundName = owner . siegeController - > getBattleBackgroundName ( ) ;
background = GH . renderHandler ( ) . loadImage ( backgroundName , EImageBlitMode : : OPAQUE ) ;
}
pos . w = background - > width ( ) ;
pos . h = background - > height ( ) ;
2024-07-22 13:00:45 +02:00
backgroundWithHexes = std : : make_unique < Canvas > ( Point ( background - > width ( ) , background - > height ( ) ) , CanvasScalingPolicy : : AUTO ) ;
2023-10-19 16:19:09 +02:00
updateAccessibleHexes ( ) ;
addUsedEvents ( LCLICK | SHOW_POPUP | MOVE | TIME | GESTURE ) ;
}
void BattleFieldController : : activate ( )
{
LOCPLINT - > cingconsole - > pos = this - > pos ;
CIntObject : : activate ( ) ;
}
void BattleFieldController : : createHeroes ( )
{
2024-08-09 17:30:04 +02:00
OBJECT_CONSTRUCTION ;
2023-10-19 16:19:09 +02:00
// create heroes as part of our constructor for correct positioning inside battlefield
if ( owner . attackingHeroInstance )
owner . attackingHero = std : : make_shared < BattleHero > ( owner , owner . attackingHeroInstance , false ) ;
if ( owner . defendingHeroInstance )
owner . defendingHero = std : : make_shared < BattleHero > ( owner , owner . defendingHeroInstance , true ) ;
}
void BattleFieldController : : gesture ( bool on , const Point & initialPosition , const Point & finalPosition )
{
if ( ! on & & pos . isInside ( finalPosition ) )
clickPressed ( finalPosition ) ;
}
void BattleFieldController : : gesturePanning ( const Point & initialPosition , const Point & currentPosition , const Point & lastUpdateDistance )
{
Point distance = currentPosition - initialPosition ;
if ( distance . length ( ) < settings [ " battle " ] [ " swipeAttackDistance " ] . Float ( ) )
hoveredHex = getHexAtPosition ( initialPosition ) ;
else
hoveredHex = BattleHex : : INVALID ;
currentAttackOriginPoint = currentPosition ;
if ( pos . isInside ( initialPosition ) )
owner . actionsController - > onHexHovered ( getHoveredHex ( ) ) ;
}
void BattleFieldController : : mouseMoved ( const Point & cursorPosition , const Point & lastUpdateDistance )
{
hoveredHex = getHexAtPosition ( cursorPosition ) ;
currentAttackOriginPoint = cursorPosition ;
if ( pos . isInside ( cursorPosition ) )
owner . actionsController - > onHexHovered ( getHoveredHex ( ) ) ;
else
owner . actionsController - > onHoverEnded ( ) ;
}
void BattleFieldController : : clickPressed ( const Point & cursorPosition )
{
BattleHex selectedHex = getHoveredHex ( ) ;
if ( selectedHex ! = BattleHex : : INVALID )
owner . actionsController - > onHexLeftClicked ( selectedHex ) ;
}
void BattleFieldController : : showPopupWindow ( const Point & cursorPosition )
{
BattleHex selectedHex = getHoveredHex ( ) ;
if ( selectedHex ! = BattleHex : : INVALID )
owner . actionsController - > onHexRightClicked ( selectedHex ) ;
}
void BattleFieldController : : renderBattlefield ( Canvas & canvas )
{
Canvas clippedCanvas ( canvas , pos ) ;
showBackground ( clippedCanvas ) ;
BattleRenderer renderer ( owner ) ;
renderer . execute ( clippedCanvas ) ;
owner . projectilesController - > render ( clippedCanvas ) ;
}
void BattleFieldController : : showBackground ( Canvas & canvas )
{
if ( owner . stacksController - > getActiveStack ( ) ! = nullptr )
showBackgroundImageWithHexes ( canvas ) ;
else
showBackgroundImage ( canvas ) ;
showHighlightedHexes ( canvas ) ;
}
void BattleFieldController : : showBackgroundImage ( Canvas & canvas )
{
canvas . draw ( background , Point ( 0 , 0 ) ) ;
owner . obstacleController - > showAbsoluteObstacles ( canvas ) ;
if ( owner . siegeController )
owner . siegeController - > showAbsoluteObstacles ( canvas ) ;
if ( settings [ " battle " ] [ " cellBorders " ] . Bool ( ) )
{
for ( int i = 0 ; i < GameConstants : : BFIELD_SIZE ; + + i )
{
if ( i % GameConstants : : BFIELD_WIDTH = = 0 )
continue ;
if ( i % GameConstants : : BFIELD_WIDTH = = GameConstants : : BFIELD_WIDTH - 1 )
continue ;
canvas . draw ( cellBorder , hexPositionLocal ( i ) . topLeft ( ) ) ;
}
}
}
void BattleFieldController : : showBackgroundImageWithHexes ( Canvas & canvas )
{
canvas . draw ( * backgroundWithHexes , Point ( 0 , 0 ) ) ;
}
void BattleFieldController : : redrawBackgroundWithHexes ( )
{
const CStack * activeStack = owner . stacksController - > getActiveStack ( ) ;
std : : vector < BattleHex > attackableHexes ;
if ( activeStack )
occupiableHexes = owner . getBattle ( ) - > battleGetAvailableHexes ( activeStack , false , true , & attackableHexes ) ;
// prepare background graphic with hexes and shaded hexes
backgroundWithHexes - > draw ( background , Point ( 0 , 0 ) ) ;
owner . obstacleController - > showAbsoluteObstacles ( * backgroundWithHexes ) ;
if ( owner . siegeController )
owner . siegeController - > showAbsoluteObstacles ( * backgroundWithHexes ) ;
// show shaded hexes for active's stack valid movement and the hexes that it can attack
if ( settings [ " battle " ] [ " stackRange " ] . Bool ( ) )
{
std : : vector < BattleHex > hexesToShade = occupiableHexes ;
hexesToShade . insert ( hexesToShade . end ( ) , attackableHexes . begin ( ) , attackableHexes . end ( ) ) ;
for ( BattleHex hex : hexesToShade )
{
showHighlightedHex ( * backgroundWithHexes , cellShade , hex , false ) ;
}
}
// draw cell borders
if ( settings [ " battle " ] [ " cellBorders " ] . Bool ( ) )
{
for ( int i = 0 ; i < GameConstants : : BFIELD_SIZE ; + + i )
{
if ( i % GameConstants : : BFIELD_WIDTH = = 0 )
continue ;
if ( i % GameConstants : : BFIELD_WIDTH = = GameConstants : : BFIELD_WIDTH - 1 )
continue ;
backgroundWithHexes - > draw ( cellBorder , hexPositionLocal ( i ) . topLeft ( ) ) ;
}
}
}
void BattleFieldController : : showHighlightedHex ( Canvas & canvas , std : : shared_ptr < IImage > highlight , BattleHex hex , bool darkBorder )
{
Point hexPos = hexPositionLocal ( hex ) . topLeft ( ) ;
canvas . draw ( highlight , hexPos ) ;
if ( ! darkBorder & & settings [ " battle " ] [ " cellBorders " ] . Bool ( ) )
canvas . draw ( cellBorder , hexPos ) ;
}
std : : set < BattleHex > BattleFieldController : : getHighlightedHexesForActiveStack ( )
{
std : : set < BattleHex > result ;
if ( ! owner . stacksController - > getActiveStack ( ) )
return result ;
if ( ! settings [ " battle " ] [ " stackRange " ] . Bool ( ) )
return result ;
auto hoveredHex = getHoveredHex ( ) ;
std : : set < BattleHex > set = owner . getBattle ( ) - > battleGetAttackedHexes ( owner . stacksController - > getActiveStack ( ) , hoveredHex ) ;
for ( BattleHex hex : set )
result . insert ( hex ) ;
return result ;
}
std : : set < BattleHex > BattleFieldController : : getMovementRangeForHoveredStack ( )
{
std : : set < BattleHex > result ;
if ( ! owner . stacksController - > getActiveStack ( ) )
return result ;
if ( ! settings [ " battle " ] [ " movementHighlightOnHover " ] . Bool ( ) & & ! GH . isKeyboardShiftDown ( ) )
return result ;
2024-01-07 17:38:37 +02:00
auto hoveredStack = getHoveredStack ( ) ;
2023-10-19 16:19:09 +02:00
if ( hoveredStack )
{
std : : vector < BattleHex > v = owner . getBattle ( ) - > battleGetAvailableHexes ( hoveredStack , true , true , nullptr ) ;
for ( BattleHex hex : v )
result . insert ( hex ) ;
}
return result ;
}
std : : set < BattleHex > BattleFieldController : : getHighlightedHexesForSpellRange ( )
{
std : : set < BattleHex > result ;
auto hoveredHex = getHoveredHex ( ) ;
const spells : : Caster * caster = nullptr ;
const CSpell * spell = nullptr ;
spells : : Mode mode = owner . actionsController - > getCurrentCastMode ( ) ;
spell = owner . actionsController - > getCurrentSpell ( hoveredHex ) ;
caster = owner . actionsController - > getCurrentSpellcaster ( ) ;
if ( caster & & spell ) //when casting spell
{
// printing shaded hex(es)
spells : : BattleCast event ( owner . getBattle ( ) . get ( ) , caster , mode , spell ) ;
auto shadedHexes = spell - > battleMechanics ( & event ) - > rangeInHexes ( hoveredHex ) ;
for ( BattleHex shadedHex : shadedHexes )
{
if ( ( shadedHex . getX ( ) ! = 0 ) & & ( shadedHex . getX ( ) ! = GameConstants : : BFIELD_WIDTH - 1 ) )
result . insert ( shadedHex ) ;
}
}
return result ;
}
std : : set < BattleHex > BattleFieldController : : getHighlightedHexesForMovementTarget ( )
{
const CStack * stack = owner . stacksController - > getActiveStack ( ) ;
auto hoveredHex = getHoveredHex ( ) ;
if ( ! stack )
return { } ;
std : : vector < BattleHex > availableHexes = owner . getBattle ( ) - > battleGetAvailableHexes ( stack , false , false , nullptr ) ;
auto hoveredStack = owner . getBattle ( ) - > battleGetStackByPos ( hoveredHex , true ) ;
if ( owner . getBattle ( ) - > battleCanAttack ( stack , hoveredStack , hoveredHex ) )
{
if ( isTileAttackable ( hoveredHex ) )
{
BattleHex attackFromHex = fromWhichHexAttack ( hoveredHex ) ;
if ( stack - > doubleWide ( ) )
return { attackFromHex , stack - > occupiedHex ( attackFromHex ) } ;
else
return { attackFromHex } ;
}
}
if ( vstd : : contains ( availableHexes , hoveredHex ) )
{
if ( stack - > doubleWide ( ) )
return { hoveredHex , stack - > occupiedHex ( hoveredHex ) } ;
else
return { hoveredHex } ;
}
if ( stack - > doubleWide ( ) )
{
for ( auto const & hex : availableHexes )
{
if ( stack - > occupiedHex ( hex ) = = hoveredHex )
return { hoveredHex , hex } ;
}
}
return { } ;
}
// Range limit highlight helpers
std : : vector < BattleHex > BattleFieldController : : getRangeHexes ( BattleHex sourceHex , uint8_t distance )
{
std : : vector < BattleHex > rangeHexes ;
if ( ! settings [ " battle " ] [ " rangeLimitHighlightOnHover " ] . Bool ( ) & & ! GH . isKeyboardShiftDown ( ) )
return rangeHexes ;
// get only battlefield hexes that are within the given distance
for ( auto i = 0 ; i < GameConstants : : BFIELD_SIZE ; i + + )
{
BattleHex hex ( i ) ;
if ( hex . isAvailable ( ) & & BattleHex : : getDistance ( sourceHex , hex ) < = distance )
rangeHexes . push_back ( hex ) ;
}
return rangeHexes ;
}
std : : vector < BattleHex > BattleFieldController : : getRangeLimitHexes ( BattleHex hoveredHex , std : : vector < BattleHex > rangeHexes , uint8_t distanceToLimit )
{
std : : vector < BattleHex > rangeLimitHexes ;
// from range hexes get only the ones at the limit
for ( auto & hex : rangeHexes )
{
if ( BattleHex : : getDistance ( hoveredHex , hex ) = = distanceToLimit )
rangeLimitHexes . push_back ( hex ) ;
}
return rangeLimitHexes ;
}
bool BattleFieldController : : IsHexInRangeLimit ( BattleHex hex , std : : vector < BattleHex > & rangeLimitHexes , int * hexIndexInRangeLimit )
{
bool hexInRangeLimit = false ;
if ( ! rangeLimitHexes . empty ( ) )
{
auto pos = std : : find ( rangeLimitHexes . begin ( ) , rangeLimitHexes . end ( ) , hex ) ;
* hexIndexInRangeLimit = std : : distance ( rangeLimitHexes . begin ( ) , pos ) ;
hexInRangeLimit = pos ! = rangeLimitHexes . end ( ) ;
}
return hexInRangeLimit ;
}
std : : vector < std : : vector < BattleHex : : EDir > > BattleFieldController : : getOutsideNeighbourDirectionsForLimitHexes ( std : : vector < BattleHex > wholeRangeHexes , std : : vector < BattleHex > rangeLimitHexes )
{
std : : vector < std : : vector < BattleHex : : EDir > > output ;
if ( wholeRangeHexes . empty ( ) )
return output ;
for ( auto & hex : rangeLimitHexes )
{
// get all neighbours and their directions
auto neighbouringTiles = hex . allNeighbouringTiles ( ) ;
std : : vector < BattleHex : : EDir > outsideNeighbourDirections ;
// for each neighbour add to output only the valid ones and only that are not found in range Hexes
for ( auto direction = 0 ; direction < 6 ; direction + + )
{
if ( ! neighbouringTiles [ direction ] . isAvailable ( ) )
continue ;
auto it = std : : find ( wholeRangeHexes . begin ( ) , wholeRangeHexes . end ( ) , neighbouringTiles [ direction ] ) ;
if ( it = = wholeRangeHexes . end ( ) )
outsideNeighbourDirections . push_back ( BattleHex : : EDir ( direction ) ) ; // push direction
}
output . push_back ( outsideNeighbourDirections ) ;
}
return output ;
}
std : : vector < std : : shared_ptr < IImage > > BattleFieldController : : calculateRangeLimitHighlightImages ( std : : vector < std : : vector < BattleHex : : EDir > > hexesNeighbourDirections , std : : shared_ptr < CAnimation > limitImages )
{
std : : vector < std : : shared_ptr < IImage > > output ; // if no image is to be shown an empty image is still added to help with traverssing the range
if ( hexesNeighbourDirections . empty ( ) )
return output ;
for ( auto & directions : hexesNeighbourDirections )
{
std : : bitset < 6 > mask ;
// convert directions to mask
for ( auto direction : directions )
mask . set ( direction ) ;
uint8_t imageKey = static_cast < uint8_t > ( mask . to_ulong ( ) ) ;
2024-07-16 22:14:49 +02:00
output . push_back ( limitImages - > getImage ( hexEdgeMaskToFrameIndex . at ( imageKey ) ) ) ;
2023-10-19 16:19:09 +02:00
}
return output ;
}
2024-06-24 03:23:26 +02:00
void BattleFieldController : : calculateRangeLimitAndHighlightImages ( uint8_t distance , std : : shared_ptr < CAnimation > rangeLimitImages , std : : vector < BattleHex > & rangeLimitHexes , std : : vector < std : : shared_ptr < IImage > > & rangeLimitHexesHighlights )
2023-10-19 16:19:09 +02:00
{
std : : vector < BattleHex > rangeHexes = getRangeHexes ( hoveredHex , distance ) ;
rangeLimitHexes = getRangeLimitHexes ( hoveredHex , rangeHexes , distance ) ;
std : : vector < std : : vector < BattleHex : : EDir > > rangeLimitNeighbourDirections = getOutsideNeighbourDirectionsForLimitHexes ( rangeHexes , rangeLimitHexes ) ;
2024-06-24 03:23:26 +02:00
rangeLimitHexesHighlights = calculateRangeLimitHighlightImages ( rangeLimitNeighbourDirections , rangeLimitImages ) ;
2023-10-19 16:19:09 +02:00
}
void BattleFieldController : : showHighlightedHexes ( Canvas & canvas )
{
std : : vector < BattleHex > rangedFullDamageLimitHexes ;
std : : vector < BattleHex > shootingRangeLimitHexes ;
2024-06-24 03:23:26 +02:00
std : : vector < std : : shared_ptr < IImage > > rangedFullDamageLimitHexesHighlights ;
std : : vector < std : : shared_ptr < IImage > > shootingRangeLimitHexesHighlights ;
2023-10-19 16:19:09 +02:00
std : : set < BattleHex > hoveredStackMovementRangeHexes = getMovementRangeForHoveredStack ( ) ;
std : : set < BattleHex > hoveredSpellHexes = getHighlightedHexesForSpellRange ( ) ;
std : : set < BattleHex > hoveredMoveHexes = getHighlightedHexesForMovementTarget ( ) ;
2024-01-07 19:12:17 +02:00
BattleHex hoveredHex = getHoveredHex ( ) ;
2024-07-19 21:35:39 +02:00
std : : set < BattleHex > hoveredMouseHex = hoveredHex . isValid ( ) ? std : : set < BattleHex > ( { hoveredHex } ) : std : : set < BattleHex > ( ) ;
2023-10-19 16:19:09 +02:00
const CStack * hoveredStack = getHoveredStack ( ) ;
2024-01-07 19:12:17 +02:00
if ( ! hoveredStack & & hoveredHex = = BattleHex : : INVALID )
2024-01-07 17:38:37 +02:00
return ;
2023-10-19 16:19:09 +02:00
// skip range limit calculations if unit hovered is not a shooter
if ( hoveredStack & & hoveredStack - > isShooter ( ) )
{
// calculate array with highlight images for ranged full damage limit
auto rangedFullDamageDistance = hoveredStack - > getRangedFullDamageDistance ( ) ;
2024-06-24 03:23:26 +02:00
calculateRangeLimitAndHighlightImages ( rangedFullDamageDistance , rangedFullDamageLimitImages , rangedFullDamageLimitHexes , rangedFullDamageLimitHexesHighlights ) ;
2023-10-19 16:19:09 +02:00
// calculate array with highlight images for shooting range limit
auto shootingRangeDistance = hoveredStack - > getShootingRangeDistance ( ) ;
2024-06-24 03:23:26 +02:00
calculateRangeLimitAndHighlightImages ( shootingRangeDistance , shootingRangeLimitImages , shootingRangeLimitHexes , shootingRangeLimitHexesHighlights ) ;
2023-10-19 16:19:09 +02:00
}
2024-09-22 20:38:49 +02:00
bool useSpellRangeForMouse = hoveredHex ! = BattleHex : : INVALID
& & ( owner . actionsController - > currentActionSpellcasting ( getHoveredHex ( ) )
| | owner . actionsController - > creatureSpellcastingModeActive ( ) ) ; //at least shooting with SPELL_LIKE_ATTACK can operate in spellcasting mode without being actual spellcast
2024-07-19 21:35:39 +02:00
bool useMoveRangeForMouse = ! hoveredMoveHexes . empty ( ) | | ! settings [ " battle " ] [ " mouseShadow " ] . Bool ( ) ;
const auto & hoveredMouseHexes = useSpellRangeForMouse ? hoveredSpellHexes : ( useMoveRangeForMouse ? hoveredMoveHexes : hoveredMouseHex ) ;
2023-10-19 16:19:09 +02:00
for ( int hex = 0 ; hex < GameConstants : : BFIELD_SIZE ; + + hex )
{
bool stackMovement = hoveredStackMovementRangeHexes . count ( hex ) ;
bool mouse = hoveredMouseHexes . count ( hex ) ;
// calculate if hex is Ranged Full Damage Limit and its position in highlight array
int hexIndexInRangedFullDamageLimit = 0 ;
bool hexInRangedFullDamageLimit = IsHexInRangeLimit ( hex , rangedFullDamageLimitHexes , & hexIndexInRangedFullDamageLimit ) ;
// calculate if hex is Shooting Range Limit and its position in highlight array
int hexIndexInShootingRangeLimit = 0 ;
bool hexInShootingRangeLimit = IsHexInRangeLimit ( hex , shootingRangeLimitHexes , & hexIndexInShootingRangeLimit ) ;
if ( stackMovement & & mouse ) // area where hovered stackMovement can move shown with highlight. Because also affected by mouse cursor, shade as well
{
showHighlightedHex ( canvas , cellUnitMovementHighlight , hex , false ) ;
showHighlightedHex ( canvas , cellShade , hex , true ) ;
}
if ( ! stackMovement & & mouse ) // hexes affected only at mouse cursor shown as shaded
{
showHighlightedHex ( canvas , cellShade , hex , true ) ;
}
if ( stackMovement & & ! mouse ) // hexes where hovered stackMovement can move shown with highlight
{
showHighlightedHex ( canvas , cellUnitMovementHighlight , hex , false ) ;
}
if ( hexInRangedFullDamageLimit )
{
2024-06-24 03:23:26 +02:00
showHighlightedHex ( canvas , rangedFullDamageLimitHexesHighlights [ hexIndexInRangedFullDamageLimit ] , hex , false ) ;
2023-10-19 16:19:09 +02:00
}
if ( hexInShootingRangeLimit )
{
2024-06-24 03:23:26 +02:00
showHighlightedHex ( canvas , shootingRangeLimitHexesHighlights [ hexIndexInShootingRangeLimit ] , hex , false ) ;
2023-10-19 16:19:09 +02:00
}
}
}
Rect BattleFieldController : : hexPositionLocal ( BattleHex hex ) const
{
int x = 14 + ( ( hex . getY ( ) ) % 2 = = 0 ? 22 : 0 ) + 44 * hex . getX ( ) ;
int y = 86 + 42 * hex . getY ( ) ;
int w = cellShade - > width ( ) ;
int h = cellShade - > height ( ) ;
return Rect ( x , y , w , h ) ;
}
Rect BattleFieldController : : hexPositionAbsolute ( BattleHex hex ) const
{
return hexPositionLocal ( hex ) + pos . topLeft ( ) ;
}
bool BattleFieldController : : isPixelInHex ( Point const & position )
{
return ! cellShade - > isTransparent ( position ) ;
}
BattleHex BattleFieldController : : getHoveredHex ( )
{
return hoveredHex ;
}
const CStack * BattleFieldController : : getHoveredStack ( )
{
auto hoveredHex = getHoveredHex ( ) ;
const CStack * hoveredStack = owner . getBattle ( ) - > battleGetStackByPos ( hoveredHex , true ) ;
2024-01-07 17:38:37 +02:00
if ( owner . windowObject - > getQueueHoveredUnitId ( ) . has_value ( ) )
{
auto stacks = owner . getBattle ( ) - > battleGetAllStacks ( ) ;
for ( const CStack * stack : stacks )
if ( stack - > unitId ( ) = = * owner . windowObject - > getQueueHoveredUnitId ( ) )
hoveredStack = stack ;
}
2023-10-19 16:19:09 +02:00
return hoveredStack ;
}
BattleHex BattleFieldController : : getHexAtPosition ( Point hoverPos )
{
if ( owner . attackingHero )
{
if ( owner . attackingHero - > pos . isInside ( hoverPos ) )
return BattleHex : : HERO_ATTACKER ;
}
if ( owner . defendingHero )
{
if ( owner . attackingHero - > pos . isInside ( hoverPos ) )
return BattleHex : : HERO_DEFENDER ;
}
for ( int h = 0 ; h < GameConstants : : BFIELD_SIZE ; + + h )
{
Rect hexPosition = hexPositionAbsolute ( h ) ;
if ( ! hexPosition . isInside ( hoverPos ) )
continue ;
if ( isPixelInHex ( hoverPos - hexPosition . topLeft ( ) ) )
return h ;
}
return BattleHex : : INVALID ;
}
BattleHex : : EDir BattleFieldController : : selectAttackDirection ( BattleHex myNumber )
{
const bool doubleWide = owner . stacksController - > getActiveStack ( ) - > doubleWide ( ) ;
auto neighbours = myNumber . allNeighbouringTiles ( ) ;
// 0 1
// 5 x 2
// 4 3
// if true - our current stack can move into this hex (and attack)
std : : array < bool , 8 > attackAvailability ;
if ( doubleWide )
{
// For double-hexes we need to ensure that both hexes needed for this direction are occupyable:
// | -0- | -1- | -2- | -3- | -4- | -5- | -6- | -7-
// | o o - | - o o | - - | - - | - - | - - | o o | - -
// | - x - | - x - | - x o o| - x - | - x - |o o x - | - x - | - x -
// | - - | - - | - - | - o o | o o - | - - | - - | o o
for ( size_t i : { 1 , 2 , 3 } )
attackAvailability [ i ] = vstd : : contains ( occupiableHexes , neighbours [ i ] ) & & vstd : : contains ( occupiableHexes , neighbours [ i ] . cloneInDirection ( BattleHex : : RIGHT , false ) ) ;
for ( size_t i : { 4 , 5 , 0 } )
attackAvailability [ i ] = vstd : : contains ( occupiableHexes , neighbours [ i ] ) & & vstd : : contains ( occupiableHexes , neighbours [ i ] . cloneInDirection ( BattleHex : : LEFT , false ) ) ;
attackAvailability [ 6 ] = vstd : : contains ( occupiableHexes , neighbours [ 0 ] ) & & vstd : : contains ( occupiableHexes , neighbours [ 1 ] ) ;
attackAvailability [ 7 ] = vstd : : contains ( occupiableHexes , neighbours [ 3 ] ) & & vstd : : contains ( occupiableHexes , neighbours [ 4 ] ) ;
}
else
{
for ( size_t i = 0 ; i < 6 ; + + i )
attackAvailability [ i ] = vstd : : contains ( occupiableHexes , neighbours [ i ] ) ;
attackAvailability [ 6 ] = false ;
attackAvailability [ 7 ] = false ;
}
// Zero available tiles to attack from
if ( vstd : : find ( attackAvailability , true ) = = attackAvailability . end ( ) )
{
logGlobal - > error ( " Error: cannot find a hex to attack hex %d from! " , myNumber ) ;
return BattleHex : : NONE ;
}
// For each valid direction, select position to test against
std : : array < Point , 8 > testPoint ;
for ( size_t i = 0 ; i < 6 ; + + i )
if ( attackAvailability [ i ] )
testPoint [ i ] = hexPositionAbsolute ( neighbours [ i ] ) . center ( ) ;
// For bottom/top directions select central point, but move it a bit away from true center to reduce zones allocated to them
if ( attackAvailability [ 6 ] )
testPoint [ 6 ] = ( hexPositionAbsolute ( neighbours [ 0 ] ) . center ( ) + hexPositionAbsolute ( neighbours [ 1 ] ) . center ( ) ) / 2 + Point ( 0 , - 5 ) ;
if ( attackAvailability [ 7 ] )
testPoint [ 7 ] = ( hexPositionAbsolute ( neighbours [ 3 ] ) . center ( ) + hexPositionAbsolute ( neighbours [ 4 ] ) . center ( ) ) / 2 + Point ( 0 , 5 ) ;
// Compute distance between tested position & cursor position and pick nearest
std : : array < int , 8 > distance2 ;
for ( size_t i = 0 ; i < 8 ; + + i )
if ( attackAvailability [ i ] )
distance2 [ i ] = ( testPoint [ i ] . y - currentAttackOriginPoint . y ) * ( testPoint [ i ] . y - currentAttackOriginPoint . y ) + ( testPoint [ i ] . x - currentAttackOriginPoint . x ) * ( testPoint [ i ] . x - currentAttackOriginPoint . x ) ;
size_t nearest = - 1 ;
for ( size_t i = 0 ; i < 8 ; + + i )
if ( attackAvailability [ i ] & & ( nearest = = - 1 | | distance2 [ i ] < distance2 [ nearest ] ) )
nearest = i ;
assert ( nearest ! = - 1 ) ;
return BattleHex : : EDir ( nearest ) ;
}
BattleHex BattleFieldController : : fromWhichHexAttack ( BattleHex attackTarget )
{
BattleHex : : EDir direction = selectAttackDirection ( getHoveredHex ( ) ) ;
const CStack * attacker = owner . stacksController - > getActiveStack ( ) ;
assert ( direction ! = BattleHex : : NONE ) ;
assert ( attacker ) ;
if ( ! attacker - > doubleWide ( ) )
{
assert ( direction ! = BattleHex : : BOTTOM ) ;
assert ( direction ! = BattleHex : : TOP ) ;
return attackTarget . cloneInDirection ( direction ) ;
}
else
{
// We need to find position of right hex of double-hex creature (or left for defending side)
// | TOP_LEFT |TOP_RIGHT | RIGHT |BOTTOM_RIGHT|BOTTOM_LEFT| LEFT | TOP |BOTTOM
// | o o - | - o o | - - | - - | - - | - - | o o | - -
// | - x - | - x - | - x o o| - x - | - x - |o o x - | - x - | - x -
// | - - | - - | - - | - o o | o o - | - - | - - | o o
switch ( direction )
{
case BattleHex : : TOP_LEFT :
case BattleHex : : LEFT :
case BattleHex : : BOTTOM_LEFT :
{
if ( attacker - > unitSide ( ) = = BattleSide : : ATTACKER )
return attackTarget . cloneInDirection ( direction ) ;
else
return attackTarget . cloneInDirection ( direction ) . cloneInDirection ( BattleHex : : LEFT ) ;
}
case BattleHex : : TOP_RIGHT :
case BattleHex : : RIGHT :
case BattleHex : : BOTTOM_RIGHT :
{
if ( attacker - > unitSide ( ) = = BattleSide : : ATTACKER )
return attackTarget . cloneInDirection ( direction ) . cloneInDirection ( BattleHex : : RIGHT ) ;
else
return attackTarget . cloneInDirection ( direction ) ;
}
case BattleHex : : TOP :
{
if ( attacker - > unitSide ( ) = = BattleSide : : ATTACKER )
return attackTarget . cloneInDirection ( BattleHex : : TOP_RIGHT ) ;
else
return attackTarget . cloneInDirection ( BattleHex : : TOP_LEFT ) ;
}
case BattleHex : : BOTTOM :
{
if ( attacker - > unitSide ( ) = = BattleSide : : ATTACKER )
return attackTarget . cloneInDirection ( BattleHex : : BOTTOM_RIGHT ) ;
else
return attackTarget . cloneInDirection ( BattleHex : : BOTTOM_LEFT ) ;
}
default :
assert ( 0 ) ;
return BattleHex : : INVALID ;
}
}
}
bool BattleFieldController : : isTileAttackable ( const BattleHex & number ) const
{
for ( auto & elem : occupiableHexes )
{
if ( BattleHex : : mutualPosition ( elem , number ) ! = - 1 | | elem = = number )
return true ;
}
return false ;
}
void BattleFieldController : : updateAccessibleHexes ( )
{
2024-06-24 03:23:26 +02:00
auto accessibility = owner . getBattle ( ) - > getAccessibility ( ) ;
2023-10-19 16:19:09 +02:00
for ( int i = 0 ; i < accessibility . size ( ) ; i + + )
stackCountOutsideHexes [ i ] = ( accessibility [ i ] = = EAccessibility : : ACCESSIBLE | | ( accessibility [ i ] = = EAccessibility : : SIDE_COLUMN ) ) ;
}
bool BattleFieldController : : stackCountOutsideHex ( const BattleHex & number ) const
{
return stackCountOutsideHexes [ number ] ;
}
void BattleFieldController : : showAll ( Canvas & to )
{
show ( to ) ;
}
void BattleFieldController : : tick ( uint32_t msPassed )
{
updateAccessibleHexes ( ) ;
owner . stacksController - > tick ( msPassed ) ;
owner . obstacleController - > tick ( msPassed ) ;
owner . projectilesController - > tick ( msPassed ) ;
}
void BattleFieldController : : show ( Canvas & to )
{
CSDL_Ext : : CClipRectGuard guard ( to . getInternalSurface ( ) , pos ) ;
renderBattlefield ( to ) ;
if ( isActive ( ) & & isGesturing ( ) & & getHoveredHex ( ) ! = BattleHex : : INVALID )
{
auto combatCursorIndex = CCS - > curh - > get < Cursor : : Combat > ( ) ;
if ( combatCursorIndex )
{
auto combatImageIndex = static_cast < size_t > ( * combatCursorIndex ) ;
to . draw ( attackCursors - > getImage ( combatImageIndex ) , hexPositionAbsolute ( getHoveredHex ( ) ) . center ( ) - CCS - > curh - > getPivotOffsetCombat ( combatImageIndex ) ) ;
return ;
}
auto spellCursorIndex = CCS - > curh - > get < Cursor : : Spellcast > ( ) ;
if ( spellCursorIndex )
{
auto spellImageIndex = static_cast < size_t > ( * spellCursorIndex ) ;
to . draw ( spellCursors - > getImage ( spellImageIndex ) , hexPositionAbsolute ( getHoveredHex ( ) ) . center ( ) - CCS - > curh - > getPivotOffsetSpellcast ( ) ) ;
return ;
}
}
}
bool BattleFieldController : : receiveEvent ( const Point & position , int eventType ) const
{
if ( eventType = = HOVER )
return true ;
return CIntObject : : receiveEvent ( position , eventType ) ;
}