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Please fix the bug: 'ReferenceError: coconut is not defined' in or related to this line: 'scoreTest = "Zone contact = " + zoneIntersectParasol(coconut[i]);' Line Number: 434
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Please fix the bug: 'TypeError: livesLeftGraphics[i] is undefined' in or related to this line: 'livesLeftGraphics[i].destroy();' Line Number: 264
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Please fix the bug: 'TypeError: Sprite is not a constructor' in or related to this line: 'var newLife = new Sprite('life');' Line Number: 267
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Please fix the bug: 'ReferenceError: scor is not defined' in or related to this line: 'scor += 1;' Line Number: 120
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Please fix the bug: 'TypeError: OptionsZone is undefined' in or related to this line: 'parasol.y = OptionsZone.y - 400;' Line Number: 189
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Please fix the bug: 'ReferenceError: abs is not defined' in or related to this line: 'var deltaX = abs(coconuts[i].x - coconuts[i].X1);' Line Number: 307
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Please fix the bug: 'ReferenceError: scoreText is not defined' in or related to this line: 'scoreText.setText(nouveauScore);' Line Number: 214
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===================================================================
--- original.js
+++ change.js
@@ -81,9 +81,9 @@
self.Y0 = Y0;
self.Yh = Yh;
self.totalTicks = totalTicks;
self.isStarted = false;
- scoreTest = "typeTrajectory: " + typeTrajectory + " X1: " + self.X1 + " X2: " + self.X2 + " Y0: " + self.Y0 + " Yh: " + self.Yh + " totalTicks: " + self.totalTicks;
+ //scoreTest = "typeTrajectory: " + typeTrajectory + " X1: " + self.X1 + " X2: " + self.X2 + " Y0: " + self.Y0 + " Yh: " + self.Yh + " totalTicks: " + self.totalTicks;
}; //fin setParameters
self.updateLinear = function () {
// Trajectory logic can be added here
var lastY = self.y;
@@ -209,8 +209,10 @@
var coconuts = [];
var nombreCoconuts = 1;
var sommetParaboleHaute = ScoreZone.height + 200;
var sommetParaboleBasse = ScoreZone.height + 400;
+var nbTicksToBounceHight = 500;
+var nbTicksTobounceLow = 500;
var score = 0;
var scoreTest = 0;
var startPoints = [XL = game.width / 4, XC = game.width / 2, XR = 3 * game.width / 4]; // Define the startPoints array
/****
@@ -298,9 +300,9 @@
newCoconut.trajectory.setParameters(typeTrajectory, X1, X2, Y0, Yh, totalTicks);
coconuts.push(newCoconut);
return newCoconut;
} //fin chooseNextStartPoint
-//Fonction checkPosition : donne la position XL, XC, ou XR la plus proche de la position x
+//Fonction checkPosition : donne la position XL, XC, ou XR la plus proche de la position x du parasol
function checkPosition(x) {
var deltaX = Math.abs(x - XL);
var deltaY = Math.abs(x - XC);
var deltaZ = Math.abs(x - XR);
@@ -315,8 +317,23 @@
Xreturn = XR;
}
return Xreturn;
} //fin checkPosition
+//Fonction zoneIntersectParasol: renvoie la zone du parasol qui intersecte le coconut (PL=parasol.width/3, PC=2*PL, PR=3*PL)
+function zoneIntersectParasol(coconut) {
+ var zone = -1;
+ var deltaX = Math.abs(coconut.x - parasol.x);
+ if (deltaX <= parasol.width / 3) {
+ zone = XL;
+ }
+ if (deltaX > parasol.width / 3 && deltaX <= 2 * parasol.width / 3) {
+ zone = XC;
+ }
+ if (deltaX > 2 * parasol.width / 3) {
+ zone = XR;
+ }
+ return zone;
+} //fin zoneIntersectParasol
//Fonction changeTrajectory: change la trajectoire d'un coconut en fonction de la position du parasol en XL, XC ou XR (position de startPoints)
//Si la position du parasol est en XL le coconut rebondit aléatoirement :
// - vers la gauche, donc vers l'extérieur de l'écran
// - vers la droite, donc vers la zone centrale avec une parabole de somment sommetParaboleHaute
@@ -330,50 +347,58 @@
// - vers la droite, donc vers l'extérieur de l'écran
// - vers la gauche, donc vers la zone centrale avec une parabole de somment sommetParaboleHaute
// - vers l'extrême gauche, donc vers la zone de gauche avec une parabole de somment sommetParaboleBasse
function changeTrajectory(coconut) {
- //var randomIndex = Math.floor(Math.random() * 3);
- var randomIndex = 1;
+ var randomIndex = Math.floor(Math.random() * 3);
var Xposition = checkPosition(parasol.x);
var deltaX = Math.abs(coconut.x - Xposition);
if (Xposition == XL) {
if (randomIndex == 0) {
//vers la gauche, sortie de l'écran
- coconut.trajectory.setParameters(1, coconut.x, -XL - deltaX, coconut.y, sommetParaboleHaute, 500);
+ coconut.trajectory.setParameters(1, coconut.x, -XL - deltaX, coconut.y, sommetParaboleHaute, nbTicksToBounceHight);
}
if (randomIndex == 1) {
//vers le centre, parabole haute
- coconut.trajectory.setParameters(1, coconut.x, XC - deltaX, coconut.y, sommetParaboleHaute, 500);
+ coconut.trajectory.setParameters(1, coconut.x, XC - deltaX, coconut.y, sommetParaboleHaute, nbTicksToBounceHight);
}
if (randomIndex == 2) {
//vers l'extrême droite, parabole basse
- coconut.trajectory.setParameters(1, coconut.x, XR - deltaX, coconut.y, sommetParaboleBasse, 500);
+ coconut.trajectory.setParameters(1, coconut.x, XR - deltaX, coconut.y, sommetParaboleBasse, nbTicksTobounceLow);
}
}
if (Xposition == XC) {
+ //randomIndex = Math.floor(Math.random() * 4);
+ randomIndex = 2;
if (randomIndex == 0) {
- coconut.trajectory.setParameters(1, coconut.x, XC + deltaX, coconut.y, sommetParaboleHaute, 500);
+ //vers la gauche, parabole haute
+ coconut.trajectory.setParameters(1, coconut.x, XL + deltaX, coconut.y, sommetParaboleHaute, nbTicksToBounceHight);
}
if (randomIndex == 1) {
- coconut.trajectory.setParameters(1, coconut.x, XL + deltaX, coconut.y, sommetParaboleHaute, 500);
+ //vers la gauche, sortie d'ecran
+ coconut.trajectory.setParameters(1, coconut.x, -XL + deltaX, coconut.y, sommetParaboleBasse, nbTicksTobounceLow);
}
if (randomIndex == 2) {
- coconut.trajectory.setParameters(1, coconut.x, XL, coconut.y, sommetParaboleBasse, 500);
+ //Vers la droite, parabole haute
+ coconut.trajectory.setParameters(1, coconut.x, XR - deltaX, coconut.y, sommetParaboleHaute, nbTicksToBounceHight);
}
+ if (randomIndex == 3) {
+ //Vers la droite, sortie d'ecran
+ coconut.trajectory.setParameters(1, coconut.x, XR + 2 * XL - deltaX, coconut.y, sommetParaboleBasse, nbTicksTobounceLow);
+ }
}
if (Xposition == XR) {
if (randomIndex == 0) {
//vers la droite, sortie de l'écran
- coconut.trajectory.setParameters(1, coconut.x, XR + 2 * XL - deltaX, coconut.y, sommetParaboleHaute, 500);
+ coconut.trajectory.setParameters(1, coconut.x, XR + 2 * XL - deltaX, coconut.y, sommetParaboleHaute, nbTicksToBounceHight);
}
if (randomIndex == 1) {
//vers le centre, parabole haute
- coconut.trajectory.setParameters(1, coconut.x, XR + deltaX, coconut.y, sommetParaboleHaute, 500);
+ coconut.trajectory.setParameters(1, coconut.x, XC + deltaX, coconut.y, sommetParaboleHaute, nbTicksToBounceHight);
}
//beta.frvr.ai/creator/P1fQaUz3am#
https: if (randomIndex == 2) {
//vers l'extrême gauche, parabole basse
- coconut.trajectory.setParameters(1, coconut.x, XL + deltaX, coconut.y, sommetParaboleBasse, 500);
+ coconut.trajectory.setParameters(1, coconut.x, XL + deltaX, coconut.y, sommetParaboleBasse, nbTicksTobounceLow);
}
}
} //fin changeTrajectory
/****
@@ -396,8 +421,9 @@
}
//Check if a coconut has touched the parasol et changement de trajectoire
for (var i = coconuts.length - 1; i >= 0; i--) {
if (coconuts[i].intersects(parasol) && coconuts[i].isFalling) {
+ scoreTest = "Zone contact = " + zoneIntersectParasol(coconuts[i]);
score += 1;
coconuts[i].isFalling = false;
var deltaX = Math.abs(coconuts[i].x - XL);
//coconuts[i].trajectory.setParameters(1, coconuts[i].x, XC - deltaX, coconuts[i].y, sommetParaboleHaute, 500);