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vcmi/client/battle/BattleStacksController.cpp
2023-02-03 18:55:25 +02:00

916 lines
29 KiB
C++

/*
* BattleStacksController.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 "BattleStacksController.h"
#include "BattleSiegeController.h"
#include "BattleInterfaceClasses.h"
#include "BattleInterface.h"
#include "BattleActionsController.h"
#include "BattleAnimationClasses.h"
#include "BattleFieldController.h"
#include "BattleEffectsController.h"
#include "BattleProjectileController.h"
#include "BattleWindow.h"
#include "BattleRenderer.h"
#include "CreatureAnimation.h"
#include "../CPlayerInterface.h"
#include "../CMusicHandler.h"
#include "../CGameInfo.h"
#include "../gui/CGuiHandler.h"
#include "../render/Colors.h"
#include "../render/Canvas.h"
#include "../renderSDL/SDL_Extensions.h"
#include "../../CCallback.h"
#include "../../lib/spells/ISpellMechanics.h"
#include "../../lib/battle/BattleHex.h"
#include "../../lib/CGameState.h"
#include "../../lib/CStack.h"
#include "../../lib/CondSh.h"
static void onAnimationFinished(const CStack *stack, std::weak_ptr<CreatureAnimation> anim)
{
std::shared_ptr<CreatureAnimation> animation = anim.lock();
if(!animation)
return;
if (!stack->isFrozen() && animation->getType() == ECreatureAnimType::FROZEN)
animation->setType(ECreatureAnimType::HOLDING);
if (animation->isIdle())
{
const CCreature *creature = stack->getCreature();
if (stack->isFrozen())
animation->setType(ECreatureAnimType::FROZEN);
else
if (animation->framesInGroup(ECreatureAnimType::MOUSEON) > 0)
{
if (CRandomGenerator::getDefault().nextDouble(99.0) < creature->animation.timeBetweenFidgets *10)
animation->playOnce(ECreatureAnimType::MOUSEON);
else
animation->setType(ECreatureAnimType::HOLDING);
}
else
{
animation->setType(ECreatureAnimType::HOLDING);
}
}
// always reset callback
animation->onAnimationReset += std::bind(&onAnimationFinished, stack, anim);
}
BattleStacksController::BattleStacksController(BattleInterface & owner):
owner(owner),
activeStack(nullptr),
stackToActivate(nullptr),
selectedStack(nullptr),
animIDhelper(0)
{
//preparing graphics for displaying amounts of creatures
amountNormal = IImage::createFromFile("CMNUMWIN.BMP");
amountPositive = IImage::createFromFile("CMNUMWIN.BMP");
amountNegative = IImage::createFromFile("CMNUMWIN.BMP");
amountEffNeutral = IImage::createFromFile("CMNUMWIN.BMP");
static const auto shifterNormal = ColorFilter::genRangeShifter( 0.f, 0.f, 0.f, 0.6f, 0.2f, 1.0f );
static const auto shifterPositive = ColorFilter::genRangeShifter( 0.f, 0.f, 0.f, 0.2f, 1.0f, 0.2f );
static const auto shifterNegative = ColorFilter::genRangeShifter( 0.f, 0.f, 0.f, 1.0f, 0.2f, 0.2f );
static const auto shifterNeutral = ColorFilter::genRangeShifter( 0.f, 0.f, 0.f, 1.0f, 1.0f, 0.2f );
amountNormal->adjustPalette(shifterNormal, 0);
amountPositive->adjustPalette(shifterPositive, 0);
amountNegative->adjustPalette(shifterNegative, 0);
amountEffNeutral->adjustPalette(shifterNeutral, 0);
//Restore border color {255, 231, 132, 255} to its original state
amountNormal->resetPalette(26);
amountPositive->resetPalette(26);
amountNegative->resetPalette(26);
amountEffNeutral->resetPalette(26);
std::vector<const CStack*> stacks = owner.curInt->cb->battleGetAllStacks(true);
for(const CStack * s : stacks)
{
stackAdded(s, true);
}
}
BattleHex BattleStacksController::getStackCurrentPosition(const CStack * stack) const
{
if ( !stackAnimation.at(stack->ID)->isMoving())
return stack->getPosition();
if (stack->hasBonusOfType(Bonus::FLYING) && stackAnimation.at(stack->ID)->getType() == ECreatureAnimType::MOVING )
return BattleHex::HEX_AFTER_ALL;
for (auto & anim : currentAnimations)
{
// certainly ugly workaround but fixes quite annoying bug
// stack position will be updated only *after* movement is finished
// before this - stack is always at its initial position. Thus we need to find
// its current position. Which can be found only in this class
if (StackMoveAnimation *move = dynamic_cast<StackMoveAnimation*>(anim))
{
if (move->stack == stack)
return std::max(move->prevHex, move->nextHex);
}
}
return stack->getPosition();
}
void BattleStacksController::collectRenderableObjects(BattleRenderer & renderer)
{
auto stacks = owner.curInt->cb->battleGetAllStacks(false);
for (auto stack : stacks)
{
if (stackAnimation.find(stack->ID) == stackAnimation.end()) //e.g. for summoned but not yet handled stacks
continue;
//FIXME: hack to ignore ghost stacks
if ((stackAnimation[stack->ID]->getType() == ECreatureAnimType::DEAD || stackAnimation[stack->ID]->getType() == ECreatureAnimType::HOLDING) && stack->isGhost())
continue;
auto layer = stackAnimation[stack->ID]->isDead() ? EBattleFieldLayer::CORPSES : EBattleFieldLayer::STACKS;
auto location = getStackCurrentPosition(stack);
renderer.insert(layer, location, [this, stack]( BattleRenderer::RendererRef renderer ){
showStack(renderer, stack);
});
if (stackNeedsAmountBox(stack))
{
renderer.insert(EBattleFieldLayer::STACK_AMOUNTS, location, [this, stack]( BattleRenderer::RendererRef renderer ){
showStackAmountBox(renderer, stack);
});
}
}
}
void BattleStacksController::stackReset(const CStack * stack)
{
assert(owner.getAnimationCondition(EAnimationEvents::ACTION) == false);
//reset orientation?
//stackFacingRight[stack->ID] = stack->side == BattleSide::ATTACKER;
auto iter = stackAnimation.find(stack->ID);
if(iter == stackAnimation.end())
{
logGlobal->error("Unit %d have no animation", stack->ID);
return;
}
auto animation = iter->second;
if(stack->alive() && animation->isDeadOrDying())
{
owner.executeOnAnimationCondition(EAnimationEvents::HIT, true, [=]()
{
addNewAnim(new ResurrectionAnimation(owner, stack));
});
}
}
void BattleStacksController::stackAdded(const CStack * stack, bool instant)
{
// Tower shooters have only their upper half visible
static const int turretCreatureAnimationHeight = 225;
stackFacingRight[stack->ID] = stack->side == BattleSide::ATTACKER; // must be set before getting stack position
Point coords = getStackPositionAtHex(stack->getPosition(), stack);
if(stack->initialPosition < 0) //turret
{
assert(owner.siegeController);
const CCreature *turretCreature = owner.siegeController->getTurretCreature();
stackAnimation[stack->ID] = AnimationControls::getAnimation(turretCreature);
stackAnimation[stack->ID]->pos.h = turretCreatureAnimationHeight;
coords = owner.siegeController->getTurretCreaturePosition(stack->initialPosition);
}
else
{
stackAnimation[stack->ID] = AnimationControls::getAnimation(stack->getCreature());
stackAnimation[stack->ID]->onAnimationReset += std::bind(&onAnimationFinished, stack, stackAnimation[stack->ID]);
stackAnimation[stack->ID]->pos.h = stackAnimation[stack->ID]->getHeight();
}
stackAnimation[stack->ID]->pos.x = coords.x;
stackAnimation[stack->ID]->pos.y = coords.y;
stackAnimation[stack->ID]->pos.w = stackAnimation[stack->ID]->getWidth();
stackAnimation[stack->ID]->setType(ECreatureAnimType::HOLDING);
if (!instant)
{
// immediately make stack transparent, giving correct shifter time to start
auto shifterFade = ColorFilter::genAlphaShifter(0);
setStackColorFilter(shifterFade, stack, nullptr, true);
owner.executeOnAnimationCondition(EAnimationEvents::HIT, true, [=]()
{
addNewAnim(new ColorTransformAnimation(owner, stack, "summonFadeIn", nullptr));
if (stack->isClone())
addNewAnim(new ColorTransformAnimation(owner, stack, "cloning", SpellID(SpellID::CLONE).toSpell() ));
});
}
}
void BattleStacksController::setActiveStack(const CStack *stack)
{
if (activeStack) // update UI
stackAnimation[activeStack->ID]->setBorderColor(AnimationControls::getNoBorder());
activeStack = stack;
if (activeStack) // update UI
stackAnimation[activeStack->ID]->setBorderColor(AnimationControls::getGoldBorder());
owner.windowObject->blockUI(activeStack == nullptr);
}
bool BattleStacksController::stackNeedsAmountBox(const CStack * stack) const
{
BattleHex currentActionTarget;
if(owner.curInt->curAction)
{
auto target = owner.curInt->curAction->getTarget(owner.curInt->cb.get());
if(!target.empty())
currentActionTarget = target.at(0).hexValue;
}
//do not show box for singular war machines, stacked war machines with box shown are supported as extension feature
if(stack->hasBonusOfType(Bonus::SIEGE_WEAPON) && stack->getCount() == 1)
return false;
if(!stack->alive())
return false;
//hide box when target is going to die anyway - do not display "0 creatures"
if(stack->getCount() == 0)
return false;
// if stack has any ongoing animation - hide the box
for(auto anim : currentAnimations)
{
auto stackAnimation = dynamic_cast<BattleStackAnimation*>(anim);
if(stackAnimation && (stackAnimation->stack->ID == stack->ID))
return false;
}
return true;
}
std::shared_ptr<IImage> BattleStacksController::getStackAmountBox(const CStack * stack)
{
std::vector<si32> activeSpells = stack->activeSpells();
if ( activeSpells.empty())
return amountNormal;
int effectsPositivness = 0;
for ( auto const & spellID : activeSpells)
effectsPositivness += CGI->spellh->objects.at(spellID)->positiveness;
if (effectsPositivness > 0)
return amountPositive;
if (effectsPositivness < 0)
return amountNegative;
return amountEffNeutral;
}
void BattleStacksController::showStackAmountBox(Canvas & canvas, const CStack * stack)
{
//blitting amount background box
auto amountBG = getStackAmountBox(stack);
const int sideShift = stack->side == BattleSide::ATTACKER ? 1 : -1;
const int reverseSideShift = stack->side == BattleSide::ATTACKER ? -1 : 1;
const BattleHex nextPos = stack->getPosition() + sideShift;
const bool edge = stack->getPosition() % GameConstants::BFIELD_WIDTH == (stack->side == BattleSide::ATTACKER ? GameConstants::BFIELD_WIDTH - 2 : 1);
const bool moveInside = !edge && !owner.fieldController->stackCountOutsideHex(nextPos);
int xAdd = (stack->side == BattleSide::ATTACKER ? 220 : 202) +
(stack->doubleWide() ? 44 : 0) * sideShift +
(moveInside ? amountBG->width() + 10 : 0) * reverseSideShift;
int yAdd = 260 + ((stack->side == BattleSide::ATTACKER || moveInside) ? 0 : -15);
canvas.draw(amountBG, stackAnimation[stack->ID]->pos.topLeft() + Point(xAdd, yAdd));
//blitting amount
Point textPos = stackAnimation[stack->ID]->pos.topLeft() + amountBG->dimensions()/2 + Point(xAdd, yAdd);
canvas.drawText(textPos, EFonts::FONT_TINY, Colors::WHITE, ETextAlignment::CENTER, vstd::formatMetric(stack->getCount(), 4));
}
void BattleStacksController::showStack(Canvas & canvas, const CStack * stack)
{
ColorFilter fullFilter = ColorFilter::genEmptyShifter();
for (auto const & filter : stackFilterEffects)
{
if (filter.target == stack)
fullFilter = ColorFilter::genCombined(fullFilter, filter.effect);
}
bool stackHasProjectile = owner.projectilesController->hasActiveProjectile(stack, true);
if (stackHasProjectile)
stackAnimation[stack->ID]->pause();
else
stackAnimation[stack->ID]->play();
stackAnimation[stack->ID]->nextFrame(canvas, fullFilter, facingRight(stack)); // do actual blit
stackAnimation[stack->ID]->incrementFrame(float(GH.mainFPSmng->getElapsedMilliseconds()) / 1000);
}
void BattleStacksController::update()
{
updateHoveredStacks();
updateBattleAnimations();
}
void BattleStacksController::initializeBattleAnimations()
{
auto copiedVector = currentAnimations;
for (auto & elem : copiedVector)
if (elem && !elem->isInitialized())
elem->tryInitialize();
}
void BattleStacksController::stepFrameBattleAnimations()
{
// operate on copy - to prevent potential iterator invalidation due to push_back's
// FIXME? : remove remaining calls to addNewAnim from BattleAnimation::nextFrame (only Catapult explosion at the time of writing)
auto copiedVector = currentAnimations;
for (auto & elem : copiedVector)
if (elem && elem->isInitialized())
elem->nextFrame();
}
void BattleStacksController::updateBattleAnimations()
{
bool hadAnimations = !currentAnimations.empty();
initializeBattleAnimations();
stepFrameBattleAnimations();
vstd::erase(currentAnimations, nullptr);
if (hadAnimations && currentAnimations.empty())
owner.setAnimationCondition(EAnimationEvents::ACTION, false);
initializeBattleAnimations();
}
void BattleStacksController::addNewAnim(BattleAnimation *anim)
{
currentAnimations.push_back(anim);
owner.setAnimationCondition(EAnimationEvents::ACTION, true);
}
void BattleStacksController::stackRemoved(uint32_t stackID)
{
if (getActiveStack() && getActiveStack()->ID == stackID)
{
BattleAction *action = new BattleAction();
action->side = owner.defendingHeroInstance ? (owner.curInt->playerID == owner.defendingHeroInstance->tempOwner) : false;
action->actionType = EActionType::CANCEL;
action->stackNumber = getActiveStack()->ID;
owner.givenCommand.setn(action);
setActiveStack(nullptr);
}
}
void BattleStacksController::stacksAreAttacked(std::vector<StackAttackedInfo> attackedInfos)
{
owner.executeOnAnimationCondition(EAnimationEvents::HIT, true, [=](){
// remove any potentially erased petrification effect
removeExpiredColorFilters();
});
for(auto & attackedInfo : attackedInfos)
{
if (!attackedInfo.attacker)
continue;
// In H3, attacked stack will not reverse on ranged attack
if (attackedInfo.indirectAttack)
continue;
// Another type of indirect attack - dragon breath
if (!CStack::isMeleeAttackPossible(attackedInfo.attacker, attackedInfo.defender))
continue;
// defender need to face in direction opposited to out attacker
bool needsReverse = shouldAttackFacingRight(attackedInfo.attacker, attackedInfo.defender) == facingRight(attackedInfo.defender);
// FIXME: this check is better, however not usable since stacksAreAttacked is called after net pack is applyed - petrification is already removed
// if (needsReverse && !attackedInfo.defender->isFrozen())
if (needsReverse && stackAnimation[attackedInfo.defender->ID]->getType() != ECreatureAnimType::FROZEN)
{
owner.executeOnAnimationCondition(EAnimationEvents::MOVEMENT, true, [=]()
{
addNewAnim(new ReverseAnimation(owner, attackedInfo.defender, attackedInfo.defender->getPosition()));
});
}
}
for(auto & attackedInfo : attackedInfos)
{
bool useDeathAnim = attackedInfo.killed;
bool useDefenceAnim = attackedInfo.defender->defendingAnim && !attackedInfo.indirectAttack && !attackedInfo.killed;
EAnimationEvents usedEvent = useDefenceAnim ? EAnimationEvents::ATTACK : EAnimationEvents::HIT;
owner.executeOnAnimationCondition(usedEvent, true, [=]()
{
if (useDeathAnim)
addNewAnim(new DeathAnimation(owner, attackedInfo.defender, attackedInfo.indirectAttack));
else if(useDefenceAnim)
addNewAnim(new DefenceAnimation(owner, attackedInfo.defender));
else
addNewAnim(new HittedAnimation(owner, attackedInfo.defender));
if (attackedInfo.fireShield)
owner.effectsController->displayEffect(EBattleEffect::FIRE_SHIELD, "FIRESHIE", attackedInfo.attacker->getPosition());
if (attackedInfo.spellEffect != SpellID::NONE)
{
auto spell = attackedInfo.spellEffect.toSpell();
if (!spell->getCastSound().empty())
CCS->soundh->playSound(spell->getCastSound());
owner.displaySpellEffect(spell, attackedInfo.defender->getPosition());
}
});
}
for (auto & attackedInfo : attackedInfos)
{
if (attackedInfo.rebirth)
{
owner.executeOnAnimationCondition(EAnimationEvents::AFTER_HIT, true, [=](){
owner.effectsController->displayEffect(EBattleEffect::RESURRECT, "RESURECT", attackedInfo.defender->getPosition());
addNewAnim(new ResurrectionAnimation(owner, attackedInfo.defender));
});
}
if (attackedInfo.killed && attackedInfo.defender->summoned)
{
owner.executeOnAnimationCondition(EAnimationEvents::AFTER_HIT, true, [=](){
addNewAnim(new ColorTransformAnimation(owner, attackedInfo.defender, "summonFadeOut", nullptr));
stackRemoved(attackedInfo.defender->ID);
});
}
}
executeAttackAnimations();
}
void BattleStacksController::stackTeleported(const CStack *stack, std::vector<BattleHex> destHex, int distance)
{
assert(destHex.size() > 0);
assert(owner.getAnimationCondition(EAnimationEvents::ACTION) == false);
owner.executeOnAnimationCondition(EAnimationEvents::HIT, true, [=](){
addNewAnim( new ColorTransformAnimation(owner, stack, "teleportFadeOut", nullptr) );
});
owner.executeOnAnimationCondition(EAnimationEvents::AFTER_HIT, true, [=](){
stackAnimation[stack->ID]->pos.moveTo(getStackPositionAtHex(destHex.back(), stack));
addNewAnim( new ColorTransformAnimation(owner, stack, "teleportFadeIn", nullptr) );
});
// animations will be executed by spell
}
void BattleStacksController::stackMoved(const CStack *stack, std::vector<BattleHex> destHex, int distance)
{
assert(destHex.size() > 0);
assert(owner.getAnimationCondition(EAnimationEvents::ACTION) == false);
bool stackTeleports = stack->hasBonus(Selector::typeSubtype(Bonus::FLYING, 1));
owner.setAnimationCondition(EAnimationEvents::MOVEMENT, true);
auto enqueMoveEnd = [&](){
addNewAnim(new MovementEndAnimation(owner, stack, destHex.back()));
owner.executeOnAnimationCondition(EAnimationEvents::ACTION, false, [&](){
owner.setAnimationCondition(EAnimationEvents::MOVEMENT, false);
});
};
auto enqueMove = [&](){
if (!stackTeleports)
{
addNewAnim(new MovementAnimation(owner, stack, destHex, distance));
owner.executeOnAnimationCondition(EAnimationEvents::ACTION, false, enqueMoveEnd);
}
else
enqueMoveEnd();
};
auto enqueMoveStart = [&](){
addNewAnim(new MovementStartAnimation(owner, stack));
owner.executeOnAnimationCondition(EAnimationEvents::ACTION, false, enqueMove);
};
if(shouldRotate(stack, stack->getPosition(), destHex[0]))
{
addNewAnim(new ReverseAnimation(owner, stack, stack->getPosition()));
owner.executeOnAnimationCondition(EAnimationEvents::ACTION, false, enqueMoveStart);
}
else
enqueMoveStart();
owner.waitForAnimationCondition(EAnimationEvents::MOVEMENT, false);
}
bool BattleStacksController::shouldAttackFacingRight(const CStack * attacker, const CStack * defender)
{
bool mustReverse = owner.curInt->cb->isToReverse(
attacker,
defender);
if (attacker->side == BattleSide::ATTACKER)
return !mustReverse;
else
return mustReverse;
}
void BattleStacksController::stackAttacking( const StackAttackInfo & info )
{
assert(owner.getAnimationCondition(EAnimationEvents::ACTION) == false);
auto attacker = info.attacker;
auto defender = info.defender;
auto tile = info.tile;
auto spellEffect = info.spellEffect;
auto multiAttack = !info.secondaryDefender.empty();
bool needsReverse = false;
if (info.indirectAttack)
{
needsReverse = shouldRotate(attacker, attacker->position, info.tile);
}
else
{
needsReverse = shouldAttackFacingRight(attacker, defender) != facingRight(attacker);
}
if (needsReverse)
{
owner.executeOnAnimationCondition(EAnimationEvents::MOVEMENT, true, [=]()
{
addNewAnim(new ReverseAnimation(owner, attacker, attacker->getPosition()));
});
}
if(info.lucky)
{
owner.executeOnAnimationCondition(EAnimationEvents::BEFORE_HIT, true, [=]() {
owner.appendBattleLog(info.attacker->formatGeneralMessage(-45));
owner.effectsController->displayEffect(EBattleEffect::GOOD_LUCK, "GOODLUCK", attacker->getPosition());
});
}
if(info.unlucky)
{
owner.executeOnAnimationCondition(EAnimationEvents::BEFORE_HIT, true, [=]() {
owner.appendBattleLog(info.attacker->formatGeneralMessage(-44));
owner.effectsController->displayEffect(EBattleEffect::BAD_LUCK, "BADLUCK", attacker->getPosition());
});
}
if(info.deathBlow)
{
owner.executeOnAnimationCondition(EAnimationEvents::BEFORE_HIT, true, [=]() {
owner.appendBattleLog(info.attacker->formatGeneralMessage(365));
owner.effectsController->displayEffect(EBattleEffect::DEATH_BLOW, "DEATHBLO", defender->getPosition());
});
for(auto elem : info.secondaryDefender)
{
owner.executeOnAnimationCondition(EAnimationEvents::BEFORE_HIT, true, [=]() {
owner.effectsController->displayEffect(EBattleEffect::DEATH_BLOW, elem->getPosition());
});
}
}
owner.executeOnAnimationCondition(EAnimationEvents::ATTACK, true, [=]()
{
if (info.indirectAttack)
{
addNewAnim(new ShootingAnimation(owner, attacker, tile, defender));
}
else
{
addNewAnim(new MeleeAttackAnimation(owner, attacker, tile, defender, multiAttack));
}
});
if (info.spellEffect != SpellID::NONE)
{
owner.executeOnAnimationCondition(EAnimationEvents::HIT, true, [=]()
{
owner.displaySpellHit(spellEffect.toSpell(), tile);
});
}
if (info.lifeDrain)
{
owner.executeOnAnimationCondition(EAnimationEvents::AFTER_HIT, true, [=]()
{
owner.effectsController->displayEffect(EBattleEffect::DRAIN_LIFE, "DRAINLIF", attacker->getPosition());
});
}
//return, animation playback will be handled by stacksAreAttacked
}
void BattleStacksController::executeAttackAnimations()
{
owner.setAnimationCondition(EAnimationEvents::MOVEMENT, true);
owner.waitForAnimationCondition(EAnimationEvents::ACTION, false);
owner.setAnimationCondition(EAnimationEvents::MOVEMENT, false);
owner.setAnimationCondition(EAnimationEvents::BEFORE_HIT, true);
owner.waitForAnimationCondition(EAnimationEvents::ACTION, false);
owner.setAnimationCondition(EAnimationEvents::BEFORE_HIT, false);
owner.setAnimationCondition(EAnimationEvents::ATTACK, true);
owner.waitForAnimationCondition(EAnimationEvents::ACTION, false);
owner.setAnimationCondition(EAnimationEvents::ATTACK, false);
// Note that HIT event can also be emitted by attack animation
owner.setAnimationCondition(EAnimationEvents::HIT, true);
owner.waitForAnimationCondition(EAnimationEvents::ACTION, false);
owner.setAnimationCondition(EAnimationEvents::HIT, false);
owner.setAnimationCondition(EAnimationEvents::AFTER_HIT, true);
owner.waitForAnimationCondition(EAnimationEvents::ACTION, false);
owner.setAnimationCondition(EAnimationEvents::AFTER_HIT, false);
owner.waitForAnimationCondition(EAnimationEvents::ACTION, false);
}
bool BattleStacksController::shouldRotate(const CStack * stack, const BattleHex & oldPos, const BattleHex & nextHex) const
{
Point begPosition = getStackPositionAtHex(oldPos,stack);
Point endPosition = getStackPositionAtHex(nextHex, stack);
if((begPosition.x > endPosition.x) && facingRight(stack))
return true;
else if((begPosition.x < endPosition.x) && !facingRight(stack))
return true;
return false;
}
void BattleStacksController::endAction(const BattleAction* action)
{
assert(owner.getAnimationCondition(EAnimationEvents::ACTION) == false);
//check if we should reverse stacks
TStacks stacks = owner.curInt->cb->battleGetStacks(CBattleCallback::MINE_AND_ENEMY);
for (const CStack *s : stacks)
{
bool shouldFaceRight = s && s->side == BattleSide::ATTACKER;
if (s && facingRight(s) != shouldFaceRight && s->alive() && stackAnimation[s->ID]->isIdle())
{
addNewAnim(new ReverseAnimation(owner, s, s->getPosition()));
}
}
owner.waitForAnimationCondition(EAnimationEvents::ACTION, false);
//Ensure that all animation flags were reset
assert(owner.getAnimationCondition(EAnimationEvents::OPENING) == false);
assert(owner.getAnimationCondition(EAnimationEvents::ACTION) == false);
assert(owner.getAnimationCondition(EAnimationEvents::MOVEMENT) == false);
assert(owner.getAnimationCondition(EAnimationEvents::ATTACK) == false);
assert(owner.getAnimationCondition(EAnimationEvents::HIT) == false);
owner.windowObject->blockUI(activeStack == nullptr);
removeExpiredColorFilters();
}
void BattleStacksController::startAction(const BattleAction* action)
{
removeExpiredColorFilters();
}
void BattleStacksController::stackActivated(const CStack *stack)
{
stackToActivate = stack;
owner.waitForAnimationCondition(EAnimationEvents::ACTION, false);
owner.activateStack();
}
void BattleStacksController::activateStack()
{
if ( !currentAnimations.empty())
return;
if ( !stackToActivate)
return;
owner.trySetActivePlayer(stackToActivate->owner);
setActiveStack(stackToActivate);
stackToActivate = nullptr;
const CStack * s = getActiveStack();
if(!s)
return;
}
void BattleStacksController::setSelectedStack(const CStack *stack)
{
selectedStack = stack;
}
const CStack* BattleStacksController::getSelectedStack() const
{
return selectedStack;
}
const CStack* BattleStacksController::getActiveStack() const
{
return activeStack;
}
bool BattleStacksController::facingRight(const CStack * stack) const
{
return stackFacingRight.at(stack->ID);
}
Point BattleStacksController::getStackPositionAtHex(BattleHex hexNum, const CStack * stack) const
{
Point ret(-500, -500); //returned value
if(stack && stack->initialPosition < 0) //creatures in turrets
return owner.siegeController->getTurretCreaturePosition(stack->initialPosition);
static const Point basePos(-190, -139); // position of creature in topleft corner
static const int imageShiftX = 30; // X offset to base pos for facing right stacks, negative for facing left
ret.x = basePos.x + 22 * ( (hexNum.getY() + 1)%2 ) + 44 * hexNum.getX();
ret.y = basePos.y + 42 * hexNum.getY();
if (stack)
{
if(facingRight(stack))
ret.x += imageShiftX;
else
ret.x -= imageShiftX;
//shifting position for double - hex creatures
if(stack->doubleWide())
{
if(stack->side == BattleSide::ATTACKER)
{
if(facingRight(stack))
ret.x -= 44;
}
else
{
if(!facingRight(stack))
ret.x += 44;
}
}
}
//returning
return ret;
}
void BattleStacksController::setStackColorFilter(const ColorFilter & effect, const CStack * target, const CSpell * source, bool persistent)
{
for (auto & filter : stackFilterEffects)
{
if (filter.target == target && filter.source == source)
{
filter.effect = effect;
filter.persistent = persistent;
return;
}
}
stackFilterEffects.push_back({ effect, target, source, persistent });
}
void BattleStacksController::removeExpiredColorFilters()
{
vstd::erase_if(stackFilterEffects, [&](const BattleStackFilterEffect & filter)
{
if (!filter.persistent)
{
if (filter.source && !filter.target->hasBonus(Selector::source(Bonus::SPELL_EFFECT, filter.source->id), Selector::all))
return true;
if (filter.effect == ColorFilter::genEmptyShifter())
return true;
}
return false;
});
}
void BattleStacksController::updateHoveredStacks()
{
auto newStacks = selectHoveredStacks();
for (auto const * stack : mouseHoveredStacks)
{
if (vstd::contains(newStacks, stack))
continue;
if (stack == activeStack)
stackAnimation[stack->ID]->setBorderColor(AnimationControls::getGoldBorder());
else
stackAnimation[stack->ID]->setBorderColor(AnimationControls::getNoBorder());
}
for (auto const * stack : newStacks)
{
if (vstd::contains(mouseHoveredStacks, stack))
continue;
stackAnimation[stack->ID]->setBorderColor(AnimationControls::getBlueBorder());
if (stackAnimation[stack->ID]->framesInGroup(ECreatureAnimType::MOUSEON) > 0 && stack->alive() && !stack->isFrozen())
stackAnimation[stack->ID]->playOnce(ECreatureAnimType::MOUSEON);
}
mouseHoveredStacks = newStacks;
}
std::vector<const CStack *> BattleStacksController::selectHoveredStacks()
{
// only allow during our turn - do not try to highlight creatures while they are in the middle of actions
if (!activeStack)
return {};
if(owner.getAnimationCondition(EAnimationEvents::ACTION) == true)
return {};
auto hoveredQueueUnitId = owner.windowObject->getQueueHoveredUnitId();
if(hoveredQueueUnitId.is_initialized())
{
return { owner.curInt->cb->battleGetStackByID(hoveredQueueUnitId.value(), true) };
}
auto hoveredHex = owner.fieldController->getHoveredHex();
if (!hoveredHex.isValid())
return {};
const spells::Caster *caster = nullptr;
const CSpell *spell = nullptr;
spells::Mode mode = owner.actionsController->getCurrentCastMode();
spell = owner.actionsController->getCurrentSpell();
caster = owner.actionsController->getCurrentSpellcaster();
if(caster && spell && owner.actionsController->currentActionSpellcasting(hoveredHex) ) //when casting spell
{
spells::Target target;
target.emplace_back(hoveredHex);
spells::BattleCast event(owner.curInt->cb.get(), caster, mode, spell);
auto mechanics = spell->battleMechanics(&event);
return mechanics->getAffectedStacks(target);
}
if(hoveredHex.isValid())
{
const CStack * const stack = owner.curInt->cb->battleGetStackByPos(hoveredHex, true);
if (stack)
return {stack};
}
return {};
}
const std::vector<uint32_t> BattleStacksController::getHoveredStacksUnitIds() const
{
auto result = std::vector<uint32_t>();
for (auto const * stack : mouseHoveredStacks)
{
result.push_back(stack->unitId());
}
return result;
}