31 January 2018

Jackalope-Scope

I made this thinking of my roommate from freshman year and her belief in superstitions and conspiracy, like the Illuminati. I started off with the eye and the triangles since those are the most obvious symbols for the Illuminati, and then I asked her for her ideas. She gave me a number of ideas representing Illuminati but I settled on “the moon bc the landing was probs fake and done by the illuminati”.

//Special thanks to Golan Levin for providing the template for this code and to
//Mera Tegene for telling me the illuminati-related imagery she wanted
 
// Template for KidzLabs/4M/Toysmith Animation Praxinoscope
// https://www.amazon.com/4M-3474-Animation-Praxinoscope/dp/B000P02HYC
// https://www.walmart.com/ip/Animation-Praxinoscope-Science-Kits-by-Toysmith-3474/45681503
// Developed for Processing 3.3.6 * http://processing.org
// 23 January 2018 * Golan Levin 
 
// See information about Processing PDF export at: 
// https://processing.org/reference/libraries/pdf/index.html
// PDF generated by Processing can be opened in Adobe Illustrator.
import processing.pdf.*;
boolean bRecordingPDF = false;
 
float inch = 72; 
float diamArtInner = inch * 1.50; 
float diamArtOuter = inch * 4.80; 
float diamCutInner = inch * 1.41; 
float diamCutOuter = inch * 4.875; 
float holeDy = inch * 0.23;
float holeDx = inch * 0.20;
float holeD = inch * 0.1;
 
final int nFrames = 10; 
int myFrameCount = 0;
int exportFrameCount = 0; 
boolean bAnimate = true; 
boolean bExportFrameImages = false;
 
//-------------------------------------------------------
void setup() {
  size(792, 612); // 11x8.5" at 72DPI
  frameRate(15);
  smooth();
} 
 
//-------------------------------------------------------
void draw() {
  background(240); 
  if (bRecordingPDF) {
    beginRecord(PDF, "praxinoscope-output.pdf");
  }
 
  // Do all the drawing. 
  pushMatrix(); 
  translate(width/2, height/2);
  drawCutLines(); 
  drawGuides(); 
  drawAllFrames();
  popMatrix();
 
  if (bExportFrameImages) {
    // If activated, export .PNG frames 
    if (exportFrameCount < nFrames) {
      String filename = "frame_" + nf((exportFrameCount%nFrames), 3) + ".png";
      saveFrame("frames/" + filename);
      println("Saved: " + filename); 
      exportFrameCount++;
      if (exportFrameCount >= nFrames) {
        bExportFrameImages = false;
        exportFrameCount = 0;
      }
    }
  }
 
  if (bRecordingPDF) {
    endRecord();
    bRecordingPDF = false;
  }
}
 
 
//-------------------------------------------------------
void keyPressed() {
  switch (key) {
  case ' ': 
    // Press spacebar to pause/unpause the animation. 
    bAnimate = !bAnimate;
    break;
 
  case 'p': 
  case 'P':
    // Press 'p' to export a PDF for the Praxinoscope.
    bRecordingPDF = true; 
    break;
 
  case 'f': 
  case 'F': 
    // Press 'f' to export .png Frames (to make an animated .GIF)
    myFrameCount = 0; 
    exportFrameCount = 0; 
    bExportFrameImages = true;
    bAnimate = true; 
    break;
  }
}
 
//-------------------------------------------------------
void drawCutLines() {
  fill(0); 
  textAlign(CENTER, BOTTOM); 
  text("Praxinoscope Template", 0, 0-diamCutOuter/2-6); 
 
  stroke(0); 
  strokeWeight(1.0);
 
  noFill(); 
  if (!bRecordingPDF) {
    fill(255);
  }
  ellipse(0, 0, diamCutOuter, diamCutOuter);
 
  noFill(); 
  if (!bRecordingPDF) {
    fill(240);
  }
  ellipse(0, 0, diamCutInner, diamCutInner);
 
  noFill(); 
  ellipse(diamCutOuter/2 - holeDx, 0-holeDy, holeD, holeD); 
 
  line (diamCutInner/2, 0, diamCutOuter/2, 0);
}
 
//-------------------------------------------------------
void drawGuides() {
  // This function draws the guidelines. 
  // Don't draw these when we're exporting the PDF. 
  if (!bRecordingPDF) {
 
    noFill(); 
    stroke(128); 
    strokeWeight(0.2); 
    ellipse(0, 0, diamArtInner, diamArtInner); 
    ellipse(0, 0, diamArtOuter, diamArtOuter);
 
    for (int i=0; i<nFrames; i++) {
      float angle = map(i, 0, nFrames, 0, TWO_PI); 
      float pxi = diamArtInner/2 * cos(angle);
      float pyi = diamArtInner/2 * sin(angle);
      float pxo = diamArtOuter/2 * cos(angle);
      float pyo = diamArtOuter/2 * sin(angle);
      stroke(128); 
      strokeWeight(0.2);
      line (pxi, pyi, pxo, pyo);
    }
 
    // Draw the red wedge outline, highlighting the main view.
    int redWedge = 7; // assuming nFrames = 10
    for (int i=redWedge; i<=(redWedge+1); i++) {
      float angle = map(i, 0, nFrames, 0, TWO_PI); 
      float pxi = diamArtInner/2 * cos(angle);
      float pyi = diamArtInner/2 * sin(angle);
      float pxo = diamArtOuter/2 * cos(angle);
      float pyo = diamArtOuter/2 * sin(angle);
      stroke(255, 0, 0); 
      strokeWeight(2.0);
      line (pxi, pyi, pxo, pyo);
    }
    noFill(); 
    stroke(255, 0, 0); 
    strokeWeight(2.0);
    float startAngle = redWedge*TWO_PI/nFrames;
    float endAngle = (redWedge+1)*TWO_PI/nFrames;
    arc(0, 0, diamArtInner, diamArtInner, startAngle, endAngle); 
    arc(0, 0, diamArtOuter, diamArtOuter, startAngle, endAngle); 
 
 
    for (int i=0; i<nFrames; i++) {
      float angle = map(i, 0, nFrames, 0, TWO_PI); 
 
      pushMatrix();
      rotate(angle); 
      float originY = ((diamArtOuter + diamArtInner)/2)/2;
      translate(0, 0-originY); 
 
      noFill(); 
      stroke(128); 
      strokeWeight(0.2);
      line (-inch/2, 0, inch/2, 0); 
      line (0, -inch/2, 0, inch/2); 
 
      popMatrix();
    }
  }
}
 
//-------------------------------------------------------
void drawAllFrames() {
  for (int i=0; i<nFrames; i++) {
    float angle = map(i, 0, nFrames, 0, TWO_PI); 
    float originY = ((diamArtOuter + diamArtInner)/2)/2;
 
    pushMatrix();
    rotate(angle); 
    translate(0, 0-originY); 
    scale(0.8, 0.8); // feel free to ditch this 
 
    int whichFrame = i; 
    if (bAnimate) {
      whichFrame = (i+myFrameCount)%nFrames;
    }
    drawArtFrame (whichFrame); 
    // drawArtFrameAlternate (whichFrame); 
 
    popMatrix();
  }
  myFrameCount++;
}
 
 
//-------------------------------------------------------
void drawArtFrame (int whichFrame) { 
  // Draw the artwork for a generic frame of the Praxinoscope, 
  // given the framenumber (whichFrame) out of nFrames.
  // NOTE #1: The "origin" for the frame is in the center of the wedge.
  // NOTE #2: Remember that everything will appear upside-down!
  fill(0); 
  noStroke(); 
 
  // Draw some rotating triangles, centered on the local origin
  pushMatrix();
  translate(0, -25);
  float x1=0;
  float x2=-65;
  float y1=48;
  float y2=5;
  float z1=-48; 
  float z2=5;
  pushMatrix();
  rotate(PI*whichFrame/5.0);
  translate(0, 21);
  triangle(x1, x2, y1, y2, z1, z2);
  popMatrix();
 
  // Draw a pulsating eyeball
  noFill(); 
  stroke(255);
  strokeWeight(1); 
  float t = map(whichFrame, 0, nFrames, 0, 1); 
  float diam = map(cos(t*TWO_PI), -1, 1, 25, 50);
  strokeWeight(2);
  arc(0, -5, diam, diam*0.8, PI, 2*PI);
  arc(0, -5+.8*whichFrame, diam, diam*(0.8-.025*whichFrame), PI, 2*PI);
  strokeWeight(1);
  arc(0, -5, diam, diam*0.8, 0, PI);
  fill(0);
  ellipse(0, -3, diam/3, diam/3);
 
  popMatrix();
  int moon = whichFrame%5;
  // Draw some moon phases
  if (whichFrame<5) {
    fill(0);
    ellipse(0, 40, 30, 30);
    fill(255);
    ellipse(0+moon*10, 40, 30+moon*5, 30+moon*5);
  } else {
    moon = 4-moon;
    fill(0);
    ellipse(0, 40, 30, 30);
    fill(255);
    ellipse(0-moon*10, 40, 30+moon*5, 30+moon*5);
  }
}

//Special thanks to Golan Levin for providing the template for this code and to //Mera Tegene for telling me the illuminati-related imagery she wanted // Template for KidzLabs/4M/Toysmith Animation Praxinoscope // https://www.amazon.com/4M-3474-Animation-Praxinoscope/dp/B000P02HYC // https://www.walmart.com/ip/Animation-Praxinoscope-Science-Kits-by-Toysmith-3474/45681503 // Developed for Processing 3.3.6 * http://processing.org // 23 January 2018 * Golan Levin // See information about Processing PDF export at: // https://processing.org/reference/libraries/pdf/index.html // PDF generated by Processing can be opened in Adobe Illustrator. import processing.pdf.*; boolean bRecordingPDF = false; float inch = 72; float diamArtInner = inch * 1.50; float diamArtOuter = inch * 4.80; float diamCutInner = inch * 1.41; float diamCutOuter = inch * 4.875; float holeDy = inch * 0.23; float holeDx = inch * 0.20; float holeD = inch * 0.1; final int nFrames = 10; int myFrameCount = 0; int exportFrameCount = 0; boolean bAnimate = true; boolean bExportFrameImages = false; //------------------------------------------------------- void setup() { size(792, 612); // 11x8.5" at 72DPI frameRate(15); smooth(); } //------------------------------------------------------- void draw() { background(240); if (bRecordingPDF) { beginRecord(PDF, "praxinoscope-output.pdf"); } // Do all the drawing. pushMatrix(); translate(width/2, height/2); drawCutLines(); drawGuides(); drawAllFrames(); popMatrix(); if (bExportFrameImages) { // If activated, export .PNG frames if (exportFrameCount < nFrames) { String filename = "frame_" + nf((exportFrameCount%nFrames), 3) + ".png"; saveFrame("frames/" + filename); println("Saved: " + filename); exportFrameCount++; if (exportFrameCount >= nFrames) { bExportFrameImages = false; exportFrameCount = 0; } } } if (bRecordingPDF) { endRecord(); bRecordingPDF = false; } } //------------------------------------------------------- void keyPressed() { switch (key) { case ' ': // Press spacebar to pause/unpause the animation. bAnimate = !bAnimate; break; case 'p': case 'P': // Press 'p' to export a PDF for the Praxinoscope. bRecordingPDF = true; break; case 'f': case 'F': // Press 'f' to export .png Frames (to make an animated .GIF) myFrameCount = 0; exportFrameCount = 0; bExportFrameImages = true; bAnimate = true; break; } } //------------------------------------------------------- void drawCutLines() { fill(0); textAlign(CENTER, BOTTOM); text("Praxinoscope Template", 0, 0-diamCutOuter/2-6); stroke(0); strokeWeight(1.0); noFill(); if (!bRecordingPDF) { fill(255); } ellipse(0, 0, diamCutOuter, diamCutOuter); noFill(); if (!bRecordingPDF) { fill(240); } ellipse(0, 0, diamCutInner, diamCutInner); noFill(); ellipse(diamCutOuter/2 - holeDx, 0-holeDy, holeD, holeD); line (diamCutInner/2, 0, diamCutOuter/2, 0); } //------------------------------------------------------- void drawGuides() { // This function draws the guidelines. // Don't draw these when we're exporting the PDF. if (!bRecordingPDF) { noFill(); stroke(128); strokeWeight(0.2); ellipse(0, 0, diamArtInner, diamArtInner); ellipse(0, 0, diamArtOuter, diamArtOuter); for (int i=0; i<nFrames; i++) { float angle = map(i, 0, nFrames, 0, TWO_PI); float pxi = diamArtInner/2 * cos(angle); float pyi = diamArtInner/2 * sin(angle); float pxo = diamArtOuter/2 * cos(angle); float pyo = diamArtOuter/2 * sin(angle); stroke(128); strokeWeight(0.2); line (pxi, pyi, pxo, pyo); } // Draw the red wedge outline, highlighting the main view. int redWedge = 7; // assuming nFrames = 10 for (int i=redWedge; i<=(redWedge+1); i++) { float angle = map(i, 0, nFrames, 0, TWO_PI); float pxi = diamArtInner/2 * cos(angle); float pyi = diamArtInner/2 * sin(angle); float pxo = diamArtOuter/2 * cos(angle); float pyo = diamArtOuter/2 * sin(angle); stroke(255, 0, 0); strokeWeight(2.0); line (pxi, pyi, pxo, pyo); } noFill(); stroke(255, 0, 0); strokeWeight(2.0); float startAngle = redWedge*TWO_PI/nFrames; float endAngle = (redWedge+1)*TWO_PI/nFrames; arc(0, 0, diamArtInner, diamArtInner, startAngle, endAngle); arc(0, 0, diamArtOuter, diamArtOuter, startAngle, endAngle); for (int i=0; i<nFrames; i++) { float angle = map(i, 0, nFrames, 0, TWO_PI); pushMatrix(); rotate(angle); float originY = ((diamArtOuter + diamArtInner)/2)/2; translate(0, 0-originY); noFill(); stroke(128); strokeWeight(0.2); line (-inch/2, 0, inch/2, 0); line (0, -inch/2, 0, inch/2); popMatrix(); } } } //------------------------------------------------------- void drawAllFrames() { for (int i=0; i<nFrames; i++) { float angle = map(i, 0, nFrames, 0, TWO_PI); float originY = ((diamArtOuter + diamArtInner)/2)/2; pushMatrix(); rotate(angle); translate(0, 0-originY); scale(0.8, 0.8); // feel free to ditch this int whichFrame = i; if (bAnimate) { whichFrame = (i+myFrameCount)%nFrames; } drawArtFrame (whichFrame); // drawArtFrameAlternate (whichFrame); popMatrix(); } myFrameCount++; } //------------------------------------------------------- void drawArtFrame (int whichFrame) { // Draw the artwork for a generic frame of the Praxinoscope, // given the framenumber (whichFrame) out of nFrames. // NOTE #1: The "origin" for the frame is in the center of the wedge. // NOTE #2: Remember that everything will appear upside-down! fill(0); noStroke(); // Draw some rotating triangles, centered on the local origin pushMatrix(); translate(0, -25); float x1=0; float x2=-65; float y1=48; float y2=5; float z1=-48; float z2=5; pushMatrix(); rotate(PI*whichFrame/5.0); translate(0, 21); triangle(x1, x2, y1, y2, z1, z2); popMatrix(); // Draw a pulsating eyeball noFill(); stroke(255); strokeWeight(1); float t = map(whichFrame, 0, nFrames, 0, 1); float diam = map(cos(t*TWO_PI), -1, 1, 25, 50); strokeWeight(2); arc(0, -5, diam, diam*0.8, PI, 2*PI); arc(0, -5+.8*whichFrame, diam, diam*(0.8-.025*whichFrame), PI, 2*PI); strokeWeight(1); arc(0, -5, diam, diam*0.8, 0, PI); fill(0); ellipse(0, -3, diam/3, diam/3); popMatrix(); int moon = whichFrame%5; // Draw some moon phases if (whichFrame<5) { fill(0); ellipse(0, 40, 30, 30); fill(255); ellipse(0+moon*10, 40, 30+moon*5, 30+moon*5); } else { moon = 4-moon; fill(0); ellipse(0, 40, 30, 30); fill(255); ellipse(0-moon*10, 40, 30+moon*5, 30+moon*5); } }