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493 lines
9.5 KiB
493 lines
9.5 KiB
/* Ball animation classes */
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#include "Ball.h"
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#include <tqtimer.h>
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#include <tqbitmap.h>
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#include <tqimage.h>
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#include <tqpixmap.h>
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#include <math.h>
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#include <stdio.h>
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Ball* Ball::first = 0;
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//TQImage Ball::back;
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int Ball::sizeX, Ball::sizeY;
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double Ball::lightX, Ball::lightY, Ball::lightZ;
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TQColor Ball::lightColor;
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double Ball::rippleCount, Ball::rippleDepth;
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/* set global Ball parameter */
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void Ball::setSize(int x, int y)
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{
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sizeX = x;
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sizeY = y;
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invalidate();
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}
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void Ball::invalidate()
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{
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Ball *b;
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/* invalidate all Balls... */
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for(b=first;b!=0;b=b->next)
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b->pm.resize(0,0);
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}
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void Ball::setLight(int x, int y, int z, const TQColor& c)
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{
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double len = sqrt(double(x*x + y*y + z*z));
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lightX = x/len;
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lightY = y/len;
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lightZ = z/len;
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lightColor = c;
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invalidate();
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}
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void Ball::setTexture(double c, double d)
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{
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rippleCount = c;
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rippleDepth = d;
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invalidate();
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}
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Ball::Ball(const TQColor& c, double a, int t)
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{
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if (first ==0) {
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sizeX = sizeY = -1;
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setLight();
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setTexture(7,.3);
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}
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bColor = c;
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an = a;
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sina = sin(a), cosa = cos(a);
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zoom= 1.05, flip = 2.0, limit = 0;
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tex = t;
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next = first;
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first = this;
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}
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Ball::~Ball()
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{
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Ball* b;
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if (first == this)
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first = next;
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else {
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for(b = first; b!=0; b=b->next)
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if (b->next == this) break;
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if (b!=0)
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b->next = next;
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}
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}
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TQPixmap* Ball::pixmap()
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{
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if (pm.isNull() && sizeX>0 && sizeY>0)
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render();
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return ±
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}
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void Ball::render()
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{
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int x,y;
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double xx,yy,zz, ll,lll, red,green,blue;
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if (sizeX==0 || sizeY==0)
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return;
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TQImage image(sizeX,sizeY,32);
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image.fill(0);
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double vv=2./(sizeX+sizeY);
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/* Go through all pixels, mapping x/y to (-1..1,-1..1) */
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for(y=0;y<sizeY;y++) {
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yy = (2.*y-sizeY)/(sizeY-2) *zoom;
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for(x=0;x<sizeX;x++) {
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xx = (2.*x-sizeX)/(sizeX-2) *zoom;
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/* Change only if inside the ball */
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zz = 1 - (xx*xx + yy*yy);
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if (zz>flip) zz=2*flip-zz;
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else {
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zz -= limit;
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}
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if (zz>-vv) {
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zz = (zz<0) ? 0 : sqrt(zz);
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/* ll: light intensity at this point */
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ll = xx*lightX + yy*lightY + zz*lightZ;
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/* some face modification */
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double mapx = xx*(2-zz);
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double mapy = yy*(2-zz);
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double rmapx = cosa*mapx + sina*mapy; /* rotate */
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double rmapy = -sina*mapx + cosa*mapy;
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if (tex>0)
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ll += rippleDepth* cos(rippleCount*rmapx)*cos(rippleCount*rmapy);
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ll = (ll<0.01) ? 0.0 : (ll>.99) ? 1.0 : ll;
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lll = ll*ll;
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// printf("x %f, y %f, z %f : ll %f lll %f\n", xx,yy,zz,ll,lll);
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/* mix ball+light */
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red = lll * lightColor.red() + (1-lll) * bColor.red();
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green = lll * lightColor.green() + (1-lll) * bColor.green();
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blue = lll * lightColor.blue() + (1-lll) * bColor.blue();
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/* lightness */
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red = .2 * bColor.red() + .8 * ll * red;
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green = .2 * bColor.green() + .8 * ll * green;
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blue = .2 * bColor.blue() + .8 * ll * blue;
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image.setPixel(x,y, tqRgb( (int)red, (int)green, (int)blue ));
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}
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}
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}
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const TQImage iMask = image.createHeuristicMask();
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TQBitmap bMask;
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bMask.convertFromImage(iMask);
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pm.convertFromImage( image, 0 );
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pm.setMask(bMask);
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}
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/* Class BallAnimation */
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BallAnimation::BallAnimation(int s, Ball* ball1, Ball* ball2)
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{
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TQColor c1 = ball1->ballColor();
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double a1 = ball1->angle();
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int r1 = c1.red(), g1 = c1.green(), b1 = c1.blue();
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TQColor c2 = ball2->ballColor();
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double a2 = ball2->angle();
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int r2 = c2.red(), g2 = c2.green(), b2 = c2.blue();
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TQColor c;
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double a;
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int i;
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steps = s;
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s--;
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balls.append( new Ball( c1,a1 ) );
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for(i=1; i< s; i++) {
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c.setRgb( r1+(r2-r1)*i/s, g1+(g2-g1)*i/s, b1+(b2-b1)*i/s );
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a = a1+(a2-a1)*i/s;
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balls.append( new Ball( c,a ) );
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}
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balls.append( new Ball( c2,a2 ) );
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}
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/* Class BallPosition */
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BallPosition::BallPosition(int xp,int yp, Ball* d)
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{
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x=xp;
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y=yp;
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def=d;
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actStep = -1;
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actType = ANIMATION_STOPPED;
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actAnimation=0;
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}
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/* Class BallWidget */
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BallWidget::BallWidget( int _freq, int bFr, TQWidget *parent, const char *name )
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: TQWidget(parent,name), positions(MAX_POSITION), animations(MAX_ANIMATION)
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{
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int i;
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for(i=0;i<MAX_POSITION;i++)
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positions[i] = 0;
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for(i=0;i<MAX_ANIMATION;i++)
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animations[i] = 0;
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freq = _freq;
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isRunning = false;
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ballFraction = bFr;
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realSize = -1;
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timer = new TQTimer(this);
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connect( timer, TQT_SIGNAL(timeout()), TQT_SLOT(animate()) );
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}
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BallWidget::~BallWidget()
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{
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if (timer !=0)
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delete timer;
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}
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void BallWidget::createBlending(int no, int s, Ball* b1, Ball* b2)
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{
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if (no<0 || no>= MAX_ANIMATION) return;
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if (animations[no] !=0)
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delete animations[no];
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animations[no] = new BallAnimation(s,b1,b2);
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}
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/* X, Y are coordinates in a virtual 1000x1000 area */
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void BallWidget::createBallPosition(int no, int x, int y, Ball* def)
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{
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if (no<0 || no>= MAX_POSITION) return;
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if (positions[no] !=0)
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delete positions[no];
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positions[no] = new BallPosition(x,y, def);
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}
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void BallWidget::startAnimation(int pos, int anim, int type)
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{
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BallPosition *p;
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if (pos<0 || pos>=MAX_POSITION || positions[pos]==0) return;
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if (anim<0 || anim>=MAX_ANIMATION || animations[anim]==0) return;
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p = positions.at(pos);
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p->actAnimation = animations.at(anim);
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/* One step *BEFORE* start */
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p->actStep = -1;
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p->actDir = 1;
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p->actType = type;
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if (!isRunning) {
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isRunning = true;
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timer->start( 0, true );
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}
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}
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/* If LOOP: Set to ONESHOT, otherwise set to last frame */
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void BallWidget::stopAnimation(int pos)
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{
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BallPosition *p;
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if (pos<0 || pos>=MAX_POSITION || positions[pos]==0) return;
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p = positions.at(pos);
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if (p->actType == ANIMATION_STOPPED ||
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p->actAnimation == 0) return;
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if (p->actType == ANIMATION_LOOP ||
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p->actType == ANIMATION_CYCLE) {
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p->actType = ANIMATION_FORWARD;
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// return;
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}
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/* Set last step: animate() does the rest */
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p->actDir = 1;
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p->actStep = p->actAnimation->steps;
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}
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void BallWidget::resizeEvent(TQResizeEvent *)
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{
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int w = width() *10/12, h = height();
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realSize = (w>h) ? h:w;
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Ball::setSize( realSize/ballFraction, realSize/ballFraction );
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repaint();
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}
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void BallWidget::paintEvent(TQPaintEvent *)
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{
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paint(TQT_TQPAINTDEVICE(this));
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}
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void BallWidget::paint(TQPaintDevice *pd)
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{
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int i;
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BallPosition *p;
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int xReal, yReal;
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int w = width(), h = height();
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if (realSize<0) return;
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for(i=0;i<MAX_POSITION;i++) {
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p = positions.at(i);
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if (p==0) continue;
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xReal = (w + p->x * realSize / 500 - Ball::w() )/2;
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yReal = (h + p->y * realSize / 500 - Ball::h() )/2;
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if (p->actAnimation==0 || p->actStep==-1) {
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if (p->def !=0 )
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bitBlt( pd, xReal, yReal, p->def->pixmap() );
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}
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else {
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int s = p->actStep;
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if (s>= p->actAnimation->steps)
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s = p->actAnimation->steps-1;
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Ball* b = p->actAnimation->balls.at(s);
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bitBlt( pd, xReal, yReal, b->pixmap() );
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}
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}
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}
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void BallWidget::animate()
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{
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bool doAnimation = false;
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int i;
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BallPosition *p;
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int xReal, yReal;
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int w = width(), h = height();
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for(i=0;i<MAX_POSITION;i++) {
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p = positions.at(i);
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if (p==0) continue;
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if (p->actType == ANIMATION_STOPPED ||
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p->actAnimation ==0) continue;
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p->actStep += p->actDir;
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if (p->actStep <= -1) {
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p->actDir = 1;
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p->actStep = 1;
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doAnimation = true;
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}
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else if (p->actStep >= p->actAnimation->steps) {
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if (p->actType == ANIMATION_CYCLE) {
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p->actDir = -1;
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p->actStep = p->actAnimation->steps -2;
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doAnimation = true;
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}
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else if (p->actType == ANIMATION_LOOP) {
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p->actStep = 1; /*skip first frame for smooth animation */
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doAnimation = true;
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}
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else {
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p->actType = ANIMATION_STOPPED;
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p->actAnimation = 0;
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emit animationFinished(i);
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}
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}
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else {
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doAnimation = true;
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}
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/* Update Pixmap */
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xReal = (w + p->x * realSize / 500 - Ball::w() )/2;
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yReal = (h + p->y * realSize / 500 - Ball::h() )/2;
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if (p->actAnimation==0 || p->actStep==-1) {
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if (p->def !=0 )
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bitBlt( this, xReal, yReal, p->def->pixmap() );
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}
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else {
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int s = p->actStep;
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if (s>= p->actAnimation->steps)
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s = p->actAnimation->steps-1;
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Ball* b = p->actAnimation->balls.at(s);
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bitBlt( this, xReal, yReal, b->pixmap() );
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}
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}
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if (!doAnimation) {
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isRunning = false;
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emit animationsFinished();
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}
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else {
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timer->start(1000/freq,true);
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}
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// repaint( false );
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}
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/* Ball Test */
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BallTest::BallTest( TQWidget *parent, const char *name )
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: BallWidget(10,2,parent,name)
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{
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int w,h;
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w = h = 150;
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resize(w,h);
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// Ball::setSize( w/2, h/2, this );
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Ball *b1 = new Ball( green );
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Ball *b2 = new Ball( yellow );
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Ball *b3 = new Ball( red );
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Ball *b4 = new Ball( red, 3.14/2 );
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createBlending(0,5,b1,b2);
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createBallPosition( 0,250, 250, b1);
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createBlending(1,10,b1,b3);
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createBallPosition(1, 250, 750, b1);
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createBlending(2,15,b3,b2);
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createBallPosition( 2, 750, 250, b3);
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createBlending(3,20,b3,b4);
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createBallPosition(3, 750, 750, b3);
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}
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/*
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void BallTest::paintEvent( TQPaintEvent * )
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{
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bitBlt(this,0,0, b.pixmap());
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}
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*/
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void BallTest::mousePressEvent( TQMouseEvent * )
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{
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startAnimation(0,0, ANIMATION_CYCLE);
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startAnimation(1,1);
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startAnimation(2,2);
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startAnimation(3,3, ANIMATION_LOOP);
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}
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void BallTest::mouseReleaseEvent( TQMouseEvent * )
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{
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stopAnimation(0);
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stopAnimation(1);
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stopAnimation(3);
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}
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/* Test...
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#include <kapplication.h>
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int main(int argc, char *argv[])
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{
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zoom=.52;
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flip=.85;
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limit=.75;
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KApplication app(argc, argv, "BallTest");
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BallTest top;
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app.setMainWidget( &top );
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top.show();
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return app.exec();
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}
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*/
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#include "Ball.moc"
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