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float scalex = 1.0, scaley = 1.0;
void setup() {
size(768, 256);
}
void draw() {
PImage img = loadImage("lena.png");
img.resize(256, 256);
image(img, 0, 0);
image(scale_forward(img, scalex, scaley), 256, 0);
image(inverse_scale(img, scalex, scaley), 512, 0);
}
void keyPressed() {
if (key == '+') {
scalex+=0.1;
scaley+=0.1;
} else if (key == '-' && (scalex > 0 && scaley > 0)) {
scalex-=0.1;
scaley-=0.1;
}
}
PImage scale_forward(PImage I, float sx, float sy) {
PImage out = createImage(I.width, I.height, RGB);
out.loadPixels();
for (int i = 0; i < out.pixels.length; ++i) {
out.pixels[i] = color(0);
}
float x, y;
float u1, v1;
for (int u = 0; u < I.width; ++u) {
for (int v = 0; v < I.height; ++v) {
u1 = u-I.width/2;
v1 = v-I.height/2;
x = u1*sx;
y = v1*sy;
x+=I.width/2;
y+=I.height/2;
out.set(round(x), round(y), I.get(u, v));
}
}
out.updatePixels();
return out;
}
PImage inverse_scale(PImage I, float sx, float sy) {
PImage out = createImage(I.width, I.height, RGB);
out.loadPixels();
for (int i = 0; i < out.pixels.length; ++i) {
out.pixels[i] = color(0);
}
float u, v;
float x1, y1;
for (int x = 0; x < I.width; ++x) {
for (int y = 0; y < I.height; ++y) {
x1 = x-I.width/2;
y1 = y-I.height/2;
u = x1*1/sx;
v = y1*1/sy;
u+=I.width/2;
v+=I.height/2;
out.set(x, y, I.get(round(u), round(v)));
}
}
out.updatePixels();
return out;
}
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