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* Implemented parabolic trajectory of the trebuchet

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* Improved shooting animation
This commit is contained in:
beegee1 2011-05-30 14:16:34 +00:00
parent 96d6d34bc3
commit 2d3caec79b
3 changed files with 131 additions and 45 deletions
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3
AUTHORS
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@ -42,3 +42,6 @@ Rickard Westerlund aka Onion Knight, <onionknigh@gmail.com>
Ivan, <>
* Kingdom overwiew window, a few town structures, general support
Benjamin Gentner aka beegee, <>
* battle support, programming

151
client/CBattleInterface.cpp
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@ -1008,47 +1008,82 @@ bool CShootingAnim::init()
Point xycoord = CBattleHex::getXYUnitAnim(shooter->position, true, shooter, owner);
Point destcoord;
if(attackedStack)
{
destcoord = CBattleHex::getXYUnitAnim(dest, false, attackedStack, owner);
}
else //catapult attack
{
destcoord.x = -160 + 22 * ( ((dest/BFIELD_WIDTH) + 1)%2 ) + 44 * (dest % BFIELD_WIDTH);
destcoord.y = -139 + 42 * (dest/BFIELD_WIDTH);
}
destcoord.x += 250; destcoord.y += 210; //TODO: find a better place to shoot
int animSpeed = 40; // flight speed of projectile
// The "master" point where all projectile positions relate to.
static const Point projectileOrigin(181, 252);
// Calculate projectile start position. Offsets are read out of the CRANIM.TXT.
if (projectileAngle > straightAngle)
if (attackedStack)
{
//upper shot
spi.x = xycoord.x + projectileOrigin.x + shooterInfo->upperRightMissleOffsetX;
spi.y = xycoord.y + projectileOrigin.y + shooterInfo->upperRightMissleOffsetY;
}
else if (projectileAngle < -straightAngle)
{
//lower shot
spi.x = xycoord.x + projectileOrigin.x + shooterInfo->lowerRightMissleOffsetX;
spi.y = xycoord.y + projectileOrigin.y + shooterInfo->lowerRightMissleOffsetY;
destcoord = CBattleHex::getXYUnitAnim(dest, false, attackedStack, owner);
destcoord.x += 250; destcoord.y += 210; //TODO: find a better place to shoot
// Calculate projectile start position. Offsets are read out of the CRANIM.TXT.
if (projectileAngle > straightAngle)
{
//upper shot
spi.x = xycoord.x + projectileOrigin.x + shooterInfo->upperRightMissleOffsetX;
spi.y = xycoord.y + projectileOrigin.y + shooterInfo->upperRightMissleOffsetY;
}
else if (projectileAngle < -straightAngle)
{
//lower shot
spi.x = xycoord.x + projectileOrigin.x + shooterInfo->lowerRightMissleOffsetX;
spi.y = xycoord.y + projectileOrigin.y + shooterInfo->lowerRightMissleOffsetY;
}
else
{
//straight shot
spi.x = xycoord.x + projectileOrigin.x + shooterInfo->rightMissleOffsetX;
spi.y = xycoord.y + projectileOrigin.y + shooterInfo->rightMissleOffsetY;
}
spi.lastStep = sqrt((float)((destcoord.x - spi.x)*(destcoord.x - spi.x) + (destcoord.y - spi.y) * (destcoord.y - spi.y))) / animSpeed;
if(spi.lastStep == 0)
spi.lastStep = 1;
spi.dx = (destcoord.x - spi.x) / spi.lastStep;
spi.dy = (destcoord.y - spi.y) / spi.lastStep;
spi.catapultInfo = 0;
}
else
{
//straight shot
spi.x = xycoord.x + projectileOrigin.x + shooterInfo->rightMissleOffsetX;
spi.y = xycoord.y + projectileOrigin.y + shooterInfo->rightMissleOffsetY;
// Catapult attack
// These are the values for equations of this kind: f(x) = ax^2 + bx + c
static const std::vector<CatapultProjectileInfo*> trajectoryCurves = boost::assign::list_of<CatapultProjectileInfo*>(new CatapultProjectileInfo(4.309, -3.198, 569.2, -296, 182))
(new CatapultProjectileInfo(4.710, -3.11, 558.68, -258, 175))(new CatapultProjectileInfo(5.056, -3.003, 546.9, -236, 174))
(new CatapultProjectileInfo(4.760, -2.74, 526.47, -216, 215))(new CatapultProjectileInfo(4.288, -2.496, 508.98, -223, 274))
(new CatapultProjectileInfo(3.683, -3.018, 558.39, -324, 176))(new CatapultProjectileInfo(2.884, -2.607, 528.95, -366, 312))
(new CatapultProjectileInfo(3.783, -2.364, 501.35, -227, 318));
static std::map<int, int> hexToCurve = boost::assign::map_list_of<int, int>(29, 0)(62, 1)(95, 2)(130, 3)(182, 4)(12, 5)(50, 6)(183, 7);
std::map<int, int>::iterator it = hexToCurve.find(dest.hex);
if (it == hexToCurve.end())
{
tlog1 << "For the hex position " << dest.hex << " is no curve defined.";
endAnim();
return false;
}
else
{
int curveID = it->second;
spi.catapultInfo = trajectoryCurves[curveID];
animSpeed /= 2;
spi.lastStep = (spi.catapultInfo->toX - spi.catapultInfo->fromX) / animSpeed;
spi.dx = animSpeed;
spi.dy = 0;
spi.x = xycoord.x + projectileOrigin.x + shooterInfo->rightMissleOffsetX + 17;
spi.y = xycoord.y + projectileOrigin.y + shooterInfo->rightMissleOffsetY + 10;
// Add explosion anim
int xEnd = spi.x + spi.lastStep * spi.dx;
int yEnd = spi.catapultInfo->calculateY(xEnd);
owner->addNewAnim( new CSpellEffectAnim(owner, "SGEXPL.DEF", xEnd - 126, yEnd - 105));
}
}
spi.lastStep = sqrt((float)((destcoord.x - spi.x)*(destcoord.x - spi.x) + (destcoord.y - spi.y) * (destcoord.y - spi.y))) / 40;
if(spi.lastStep == 0)
spi.lastStep = 1;
spi.dx = (destcoord.x - spi.x) / spi.lastStep;
spi.dy = (destcoord.y - spi.y) / spi.lastStep;
//set starting frame
// Set starting frame
if(spi.spin)
{
spi.frameNum = 0;
@ -1092,19 +1127,13 @@ void CShootingAnim::nextFrame()
void CShootingAnim::endAnim()
{
CBattleAnimation::endAnim();
delete this;
}
CShootingAnim::CShootingAnim(CBattleInterface * _owner, const CStack * attacker, THex _dest, const CStack * _attacked, bool _catapult, int _catapultDmg)
: CBattleAttack(_owner, attacker, _dest, _attacked), catapultDamage(_catapultDmg), catapult(_catapult)
{
if(catapult) //catapult attack
{
owner->addNewAnim( new CSpellEffectAnim(owner, "SGEXPL.DEF",
-130 + 22 * ( ((dest/BFIELD_WIDTH) + 1)%2 ) + 44 * (dest % BFIELD_WIDTH) + owner->pos.x,
-50 + 42 * (dest/BFIELD_WIDTH) + owner->pos.y ));
}
}
////////////////////////
@ -3361,7 +3390,20 @@ void CBattleInterface::showAliveStack(const CStack *stack, SDL_Surface * to)
}
}
creAnims[ID]->nextFrame(to, creAnims[ID]->pos.x, creAnims[ID]->pos.y, creDir[ID], animCount, incrementFrame, activeStack && ID==activeStack->ID, ID==mouseHoveredStack); //increment always when moving, never if stack died
// As long as the projectile of the shooter-stack is flying incrementFrame should be false
bool shootingFinished = true;
for (std::list<SProjectileInfo>::iterator it = projectiles.begin(); it != projectiles.end(); ++it)
{
if (it->stackID == ID)
{
shootingFinished = false;
if (it->animStartDelay == 0)
incrementFrame = false;
}
}
// Increment always when moving, never if stack died
creAnims[ID]->nextFrame(to, creAnims[ID]->pos.x, creAnims[ID]->pos.y, creDir[ID], animCount, incrementFrame, activeStack && ID==activeStack->ID, ID==mouseHoveredStack);
//printing amount
if(stack->count > 0 //don't print if stack is not alive
@ -3561,6 +3603,15 @@ void CBattleInterface::projectileShowHelper(SDL_Surface * to)
dst.w = idToProjectile[it->creID]->ourImages[it->frameNum].bitmap->w;
dst.x = it->x;
dst.y = it->y;
// The equation below calculates the center pos of the canon, but we need the top left pos
// of it for drawing
if (it->catapultInfo)
{
dst.x -= 17;
dst.y -= 10;
}
if(it->reverse)
{
SDL_Surface * rev = CSDL_Ext::rotate01(idToProjectile[it->creID]->ourImages[it->frameNum].bitmap);
@ -3572,7 +3623,7 @@ void CBattleInterface::projectileShowHelper(SDL_Surface * to)
CSDL_Ext::blit8bppAlphaTo24bpp(idToProjectile[it->creID]->ourImages[it->frameNum].bitmap, NULL, to, &dst);
}
//actualizing projectile
// Update projectile
++it->step;
if(it->step == it->lastStep)
{
@ -3580,8 +3631,19 @@ void CBattleInterface::projectileShowHelper(SDL_Surface * to)
}
else
{
it->x += it->dx;
it->y += it->dy;
if (it->catapultInfo)
{
// Parabolic shot of the trajectory, as follows: f(x) = ax^2 + bx + c
it->x += it->dx;
it->y = it->catapultInfo->calculateY(it->x);
}
else
{
// Normal projectile, just add the calculated "deltas" to the x and y positions.
it->x += it->dx;
it->y += it->dy;
}
if(it->spin)
{
++(it->frameNum);
@ -4678,3 +4740,8 @@ void CStackQueue::StackBox::hover( bool on )
{
}
int CatapultProjectileInfo::calculateY(int x)
{
return (facA * pow(10., -3.)) * pow(x, 2.0) + facB * x + facC;
}

18
client/CBattleInterface.h
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@ -34,6 +34,7 @@ struct BattleAction;
class CGTownInstance;
struct CatapultAttack;
class CBattleInterface;
struct CatapultProjectileInfo;
/// Small struct which contains information about the id of the attacked stack, the damage dealt,...
struct SStackAttackedInfo
@ -58,6 +59,7 @@ struct SProjectileInfo
bool spin; //if true, frameNum will be increased
int animStartDelay; //how many times projectile must be attempted to be shown till it's really show (decremented after hit)
bool reverse; //if true, projectile will be flipped by vertical asix
CatapultProjectileInfo *catapultInfo; // holds info about the parabolic trajectory of the cannon
};
@ -394,6 +396,19 @@ public:
//void showAll(SDL_Surface *to);
};
/// Small struct which is needed for drawing the parabolic trajectory of the catapult cannon
struct CatapultProjectileInfo
{
const double facA, facB, facC;
const int fromX, toX;
CatapultProjectileInfo() : facA(0), facB(0), facC(0), fromX(0), toX(0) { };
CatapultProjectileInfo(double factorA, double factorB, double factorC, int fromXX, int toXX) : facA(factorA), facB(factorB), facC(factorC),
fromX(fromXX), toX(toXX) { };
int calculateY(int x);
};
/// Big class which handles the overall battle interface actions and it is also responsible for
/// drawing everything correctly.
class CBattleInterface : public CIntObject
@ -447,7 +462,7 @@ private:
std::list<SBattleEffect> battleEffects; //different animations to display on the screen like spell effects
/// Class which is resposible for the wall of a siege during battle
/// Class which is responsible for drawing the wall of a siege during battle
class SiegeHelper
{
private:
@ -456,6 +471,7 @@ private:
const CBattleInterface * owner;
public:
const CGTownInstance * town; //besieged town
SiegeHelper(const CGTownInstance * siegeTown, const CBattleInterface * _owner); //c-tor
~SiegeHelper(); //d-tor