Assumed Knowledge

Transition to Processing

Variables

Learning Outcomes

Be able to move a complex shape (or change some other attributes)

Author: Gaurav Gupta

All the codes in this page are provided at movingCompositeShapesCode.zip.

A second version is also available at at movingCompositeShapesCodeTrigonometryVersion.zip.

Moving composite shapes

Once you understand variables, moving simple shapes like circles and rectangles is hopefully straightforward.

float x;

void setup() {
	size(400, 300);
	//we need to wait until size executes to know the correct width
	x = width/2; 
	background(255);
}

void draw() {
	background(255);
	float dia = 50;
	
	/*
	our circle moves horizontally, 
	so we don't need to have y value in a variable
	*/
	fill(255, 0, 0);
	noStroke();
	circle(x, height/2, dia);
	
	x = x - 1; //in the next iteration, x will be one lesser
}

Moving a composite shape is trickier than moving a basic shape. But the key there is to have ONE REFERENCE POINT, and everyhthing else relative to that.

Consider the following composite shape.

size(600, 400); //change to 100, 100 and see what happens
background(255);

rectMode(CENTER); //specify center coordinates instead of top-left coordinates
fill(255);
rect(300, 200, 200, 100); 

triangle(300, 200, 200, 150, 400, 150);

noStroke();
fill(200, 0, 0);
circle(300, 200, 25);

fill(50);
textAlign(CENTER, BOTTOM);
textSize(25);
text("Harry Potter", 300, 250);

The first problem is that if we want to relocate this shape to another position in the display window, we have to replace each of the x and y values.

However, if we store the x and y values in two variables, we only have to change it once in case we change our mind.

size(600, 400); //change to 100, 100 and see what happens
background(255);

float x = width/2;
float y = height/2;

rectMode(CENTER); //specify center coordinates instead of top-left coordinates
fill(255);
rect(x, y, 200, 100); 

triangle(x, y, x-100, y-50, x+100, y-50);

noStroke();
fill(200, 0, 0);
circle(x, y, 25);

fill(50);
textAlign(CENTER, BOTTOM);
textSize(25);
text("Harry Potter", x, y + 50);

Magic numbers

This draws a triangle on a circle on a square. But that dimensions:

200 and 100 in rect,
100 and 50 in triangle,
25 in circle, and,
50 in text

are hard-coded values, we call magic numbers. (As in, appearing magically).

To make the program scalable, we need to fix that. So we identify diameter, and then radius is always going to be half of that.

size(600, 400); //change to 100, 100 and see what happens
background(255);

float x = width/2;
float y = height/2;
float envelopeWidth = width/3;
float envelopeHeight = envelopeWidth/2;
float sealDiameter = envelopeHeight/4;

rectMode(CENTER); //specify center coordinates instead of top-left coordinates
fill(255);
rect(x, y, envelopeWidth, envelopeHeight); 

triangle(x, y, x-envelopeWidth/2, y-envelopeHeight/2, x+envelopeWidth/2, y-envelopeHeight/2);

noStroke();
fill(200, 0, 0);
circle(x, y, sealDiameter);

fill(50);
textAlign(CENTER, BOTTOM);
textSize(sealDiameter);
text("Harry Potter", x, y + envelopeHeight/2);

Next, put the shape into draw, but not move. Variables are local and not global since we don’t need to remember their values from one iteration to another.

void setup() {
  size(600, 400);
  background(255);
}

void draw() {
  /*
  variables are local since we don't need to remember
   their values from one iteration to another
   */

  background(255);

  float x = width/2;
  float y = height/2;
  float envelopeWidth = width/3;
  float envelopeHeight = envelopeWidth/2;
  float sealDiameter = envelopeHeight/4;

  rectMode(CENTER); //specify center coordinates instead of top-left coordinates
  fill(255);
  stroke(0);
  rect(x, y, envelopeWidth, envelopeHeight); 
  
  triangle(x, y, x-envelopeWidth/2, y-envelopeHeight/2, x+envelopeWidth/2, y-envelopeHeight/2);

  noStroke();
  fill(200, 0, 0);
  circle(x, y, sealDiameter);

  fill(50);
  textAlign(CENTER, BOTTOM);
  textSize(sealDiameter);
  text("Harry Potter", x, y + envelopeHeight/2);
}

Trying to update state with local variables

Next, let’s say we want the shape to move UP.

If you simply add,

y=y-1;

as the last statement, nothing will happen (seriously, try it!). This is because y decreases by 1 and is IMMEDIATELY destroyed in the memory upon completion of first iteration of draw(). Then, it is declared and assigned to height/2 again at the start of the second iteration. Again, it is destroyed in the memory upon completion of second iteration of draw() and so on and so forth.

draw() iteration 1
y declared and becomes height/2.
on the last statement in draw, y decreases by 1, becomes height/2 - 1.
y immediately destroyed and erased from memory upon completion of iteration 1.

draw() iteration 2
y declared and becomes height/2.
on the last statement in draw, y decreases by 1, becomes height/2 - 1.
y immediately destroyed and erased from memory upon completion of iteration 2.

draw() iteration 3
y declared and becomes height/2.
on the last statement in draw, y decreases by 1, becomes height/2 - 1.
y immediately destroyed and erased from memory upon completion of iteration 3.

forever and ever…

Instead, we need to retain the value of the varying parameter, which is y.

Now, our variables need to be global because we need to retain their values from one iteration of draw to another.

Actually, in this scenario, only y needs to be global as others remain the same, but that would mean we can’t make changes later on.

What if I need the shape to go left/right? Yes, it will be x that I vary. What if I want the shape to becomes smaller/bigger? It will be envelopeWidth , envelopeHeight and sealDiameter.

So we keep all relevant variables global.

x, y and envelopeWidth depend on width and height and therefore need to be declared global but cannot be assigned the right value until size executes.

envelopeHeight and sealDiameter then depend on envelopeWidth so they are assigned values after envelopeWidth is assigned the right value.

Global Declaration, Local Initialization

Finally, we get our answer:

float x;
float y;
float envelopeWidth;
float envelopeHeight;
float sealDiameter;

void setup() {
  size(600, 400);
  //once we know size, we can assign values to x, y, envelopeWidth
  x = width/2;
  y = height/2;
  envelopeWidth = width/3;

  /*
  and only after we know envelopeWidth, 
   can we assign values to envelopeHeight, sealDiameter
   */
  envelopeHeight = envelopeWidth/2;
  sealDiameter = envelopeHeight/4;

  background(255);
}

void draw() {
  background(255);

  rectMode(CENTER); //specify center coordinates instead of top-left coordinates
  fill(255);
  stroke(0);
  rect(x, y, envelopeWidth, envelopeHeight); 
  
  triangle(x, y, x-envelopeWidth/2, y-envelopeHeight/2, x+envelopeWidth/2, y-envelopeHeight/2);
  
  noStroke();
  fill(200, 0, 0);
  circle(x, y, sealDiameter);
  
  fill(50);
  textAlign(CENTER, BOTTOM);
  textSize(sealDiameter);
  text("Harry Potter", x, y + envelopeHeight/2);
  
  /*
  and finally update the aspect that needs updating
  here we move up, so y will decrease.
  
  if you want to expand the envelope, envelopeWidth will increase.
  but in that case, you will need to re-calculate envelopeHeight, sealDiameter
  */
  
  y = y - 1; 
}

It is incredibly easy it is to change the varying aspect here.

Instead of,

y = y - 1;

try,

x = x - 1;

and see what happens.

You can also change the dimensions of the shape but in this case, you have to be careful.

If you only add the following, the envelope’s height and seal’s diameter won’t change.

envelopeWidth = envelopeWidth + 1;

If you increase all three by 1, the shape will be lost.

envelopeWidth = envelopeWidth + 1;
envelopeHeight = envelopeHeight + 1;
sealDiameter = sealDiameter + 1;

What you need to do is to increase envelopeWidth and calculate the others based on it.

envelopeWidth = envelopeWidth + 1;
envelopeHeight = envelopeWidth/2;
sealDiameter = envelopeHeight/4;

Now you know how to move complex shapes/actors/characters around.