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I have done a 3d graph to plot points in it. I have drawn x,y and z axis. Also you can rotate the axis by pressing arrow keys.Now my problem marking the axis as x,y and z .I tried to add text in canvas by using filltext.But the text gets added to canvas but its not rotating.It is because i have not set rotation effect for it i guess.So how can i set the rotation to text so that when axis rotates the text also rotates together.Below is my code.

  <!DOCTYPE html>



  <html>

  <head>

 <title>Canvas Surface Rotation</title>

 <style>

  body {

    text-align: center;

  }



  canvas {

    border: 1px solid black;

  }

  </style>

  <script>   

  var constants = {

    canvasWidth: 600, // In pixels.

    canvasHeight: 600, // In pixels.

    leftArrow: 37,

    upArrow: 38,

    rightArrow: 39,

    downArrow: 40,

    xMin: -10, // These four max/min values define a square on the xy-plane that the surface will be plotted over.

    xMax: 10,

    yMin: -10,

    yMax: 10, 

    xDelta: 0.01, // Make smaller for more surface points. 

    yDelta: 0.01, // Make smaller for more surface points. 

    colorMap: ["#060"], // There are eleven possible "vertical" color values for the surface, based on the last row of http://www.cs.siena.edu/~lederman/truck/AdvanceDesignTrucks/html_color_chart.gif

    pointWidth: 2, // The size of a rendered surface point (i.e., rectangle width and height) in pixels.

    dTheta: 0.05, // The angle delta, in radians, by which to rotate the surface per key press.

    surfaceScale: 24 // An empirically derived constant that makes the surface a good size for the given canvas size.

  };



  // These are constants too but I've removed them from the above constants literal to ease typing and improve clarity.

  var X = 0;

  var Y = 1;

  var Z = 2;



  // -----------------------------------------------------------------------------------------------------  



  var controlKeyPressed = false; // Shared between processKeyDown() and processKeyUp().

  var surface = new Surface(); // A set of points (in vector format) representing the surface.



  // -----------------------------------------------------------------------------------------------------



  function point(x, y, z)

  /*

    Given a (x, y, z) surface point, returns the 3 x 1 vector form of the point.

  */

  {       

    return [x, y, z]; // Return a 3 x 1 vector representing a traditional (x, y, z) surface point. This vector form eases matrix multiplication.

  }



  // -----------------------------------------------------------------------------------------------------



  function Surface()

  /*

    A surface is a list of (x, y, z) points, in 3 x 1 vector format. This is a constructor function.

  */

  {

    this.points = []; // An array of surface points in vector format. That is, each element of this array is a 3 x 1 array, as in [ [x1, y1, z1], [x2, y2, z2], [x3, y3, z3], ... ]

  }



  // -----------------------------------------------------------------------------------------------------  



  Surface.prototype.equation = function(x, y)

  /*

    Given the point (x, y), returns the associated z-coordinate based on the provided surface equation, of the form z = f(x, y).

  */

  {

    var d = Math.sqrt(x*x + y*y); // The distance d of the xy-point from the z-axis.



    return 4*(Math.sin(d) / d); // Return the z-coordinate for the point (x, y, z). 

  }



  // -----------------------------------------------------------------------------------------------------  



  Surface.prototype.generate = function()

  /*

    Creates a list of (x, y, z) points (in 3 x 1 vector format) representing the surface.

  */

  {

    var i = 0;



    for (var x = constants.xMin; x <= constants.xMax; x += constants.xDelta)

    {

      for (var y = constants.yMin; y <= constants.yMax; y += constants.yDelta)

      {

        this.points[i] = point(x, y, this.equation(x, y)); // Store a surface point (in vector format) into the list of surface points.              

        ++i;

      }

    }

  }



  // -----------------------------------------------------------------------------------------------------



  Surface.prototype.color = function()

  /*

    The color of a surface point is a function of its z-coordinate height.

  */

  {

    var z; // The z-coordinate for a given surface point (x, y, z).



    this.zMin = this.zMax = this.points[0][Z]; // A starting value. Note that zMin and zMax are custom properties that could possibly be useful if this code is extended later.

    for (var i = 0; i < this.points.length; i++)

    {            

      z = this.points[i][Z];

      if (z < this.zMin) { this.zMin = z; }

      if (z > this.zMax) { this.zMax = z; }

    }   



    var zDelta = Math.abs(this.zMax - this.zMin) / constants.colorMap.length; 



    for (var i = 0; i < this.points.length; i++)

    {

      this.points[i].color = constants.colorMap[ Math.floor( (this.points[i][Z]-this.zMin)/zDelta ) ];

    }



    /* Note that the prior FOR loop is functionally equivalent to the follow (much less elegant) loop:       

    for (var i = 0; i < this.points.length; i++)

    {

      if (this.points[i][Z] <= this.zMin + zDelta) {this.points[i].color = "#060";}

      else if (this.points[i][Z] <= this.zMin + 2*zDelta) {this.points[i].color = "#090";}

      else if (this.points[i][Z] <= this.zMin + 3*zDelta) {this.points[i].color = "#0C0";}

      else if (this.points[i][Z] <= this.zMin + 4*zDelta) {this.points[i].color = "#0F0";}

      else if (this.points[i][Z] <= this.zMin + 5*zDelta) {this.points[i].color = "#9F0";}

      else if (this.points[i][Z] <= this.zMin + 6*zDelta) {this.points[i].color = "#9C0";}

      else if (this.points[i][Z] <= this.zMin + 7*zDelta) {this.points[i].color = "#990";}

      else if (this.points[i][Z] <= this.zMin + 8*zDelta) {this.points[i].color = "#960";}

      else if (this.points[i][Z] <= this.zMin + 9*zDelta) {this.points[i].color = "#930";}

      else if (this.points[i][Z] <= this.zMin + 10*zDelta) {this.points[i].color = "#900";}          

      else {this.points[i].color = "#C00";}

    }

    */

  }



  // -----------------------------------------------------------------------------------------------------



  function appendCanvasElement()

  /*

    Creates and then appends the "myCanvas" canvas element to the DOM.

  */

  {

    var canvasElement = document.createElement('canvas');



    canvasElement.width = constants.canvasWidth;

    canvasElement.height = constants.canvasHeight;

    canvasElement.id = "myCanvas";



    canvasElement.getContext('2d').translate(constants.canvasWidth/2, constants.canvasHeight/2); // Translate the surface's origin to the center of the canvas.



    document.body.appendChild(canvasElement); // Make the canvas element a child of the body element.

  }



  //------------------------------------------------------------------------------------------------------



  Surface.prototype.sortByZIndex = function(A, B) 

  {

    return A[Z] - B[Z]; // Determines if point A is behind, in front of, or at the same level as point B (with respect to the z-axis).

  }



  // -----------------------------------------------------------------------------------------------------



  Surface.prototype.draw = function()

  {

    var myCanvas = document.getElementById("myCanvas"); // Required for Firefox.

    var ctx = myCanvas.getContext("2d");



    this.points = surface.points.sort(surface.sortByZIndex); // Sort the set of points based on relative z-axis position. If the points are visibly small, you can sort of get away with removing this step.

  var c=document.getElementById("myCanvas");
 var ctx=c.getContext("2d");
  ctx.font="20px Arial";
  ctx.fillText("X",250,0);

    for (var i = 0; i < this.points.length; i++)

    {

      ctx.fillStyle = this.points[i].color; 

      ctx.fillRect(this.points[i][X] * constants.surfaceScale, this.points[i][Y] * constants.surfaceScale, constants.pointWidth, constants.pointWidth);  

    }    

  }



  // -----------------------------------------------------------------------------------------------------



  Surface.prototype.multi = function(R)

  /*

    Assumes that R is a 3 x 3 matrix and that this.points (i.e., P) is a 3 x n matrix. This method performs P = R * P.

  */

  {

    var Px = 0, Py = 0, Pz = 0; // Variables to hold temporary results.

    var P = this.points; // P is a pointer to the set of surface points (i.e., the set of 3 x 1 vectors).

    var sum; // The sum for each row/column matrix product.



    for (var V = 0; V < P.length; V++) // For all 3 x 1 vectors in the point list.

    {

      Px = P[V][X], Py = P[V][Y], Pz = P[V][Z];

      for (var Rrow = 0; Rrow < 3; Rrow++) // For each row in the R matrix.

      {

        sum = (R[Rrow][X] * Px) + (R[Rrow][Y] * Py) + (R[Rrow][Z] * Pz);

        P[V][Rrow] = sum;

      }

    }     

  }



  // -----------------------------------------------------------------------------------------------------



  Surface.prototype.erase = function()

  {

    var myCanvas = document.getElementById("myCanvas"); // Required for Firefox.

    var ctx = myCanvas.getContext("2d");



    ctx.clearRect(-constants.canvasWidth/2, -constants.canvasHeight/2, myCanvas.width, myCanvas.height);

  }



  // -----------------------------------------------------------------------------------------------------



  Surface.prototype.xRotate = function(sign)

  /*

    Assumes "sign" is either 1 or -1, which is used to rotate the surface "clockwise" or "counterclockwise".

  */

  {

    var Rx = [ [0, 0, 0],

               [0, 0, 0],

               [0, 0, 0] ]; // Create an initialized 3 x 3 rotation matrix.



    Rx[0][0] = 1;

    Rx[0][1] = 0; // Redundant but helps with clarity.

    Rx[0][2] = 0; 

    Rx[1][0] = 0; 

    Rx[1][1] = Math.cos( sign*constants.dTheta );

    Rx[1][2] = -Math.sin( sign*constants.dTheta );

    Rx[2][0] = 0; 

    Rx[2][1] = Math.sin( sign*constants.dTheta );

    Rx[2][2] = Math.cos( sign*constants.dTheta );



    this.multi(Rx); // If P is the set of surface points, then this method performs the matrix multiplcation: Rx * P

    this.erase(); // Note that one could use two canvases to speed things up, which also eliminates the need to erase.

    this.draw();

  }



  // -----------------------------------------------------------------------------------------------------



  Surface.prototype.yRotate = function(sign)

  /*

    Assumes "sign" is either 1 or -1, which is used to rotate the surface "clockwise" or "counterclockwise".

  */      

  {

    var Ry = [ [0, 0, 0],

               [0, 0, 0],

               [0, 0, 0] ]; // Create an initialized 3 x 3 rotation matrix.



    Ry[0][0] = Math.cos( sign*constants.dTheta );

    Ry[0][1] = 0; // Redundant but helps with clarity.

    Ry[0][2] = Math.sin( sign*constants.dTheta );

    Ry[1][0] = 0; 

    Ry[1][1] = 1;

    Ry[1][2] = 0; 

    Ry[2][0] = -Math.sin( sign*constants.dTheta );

    Ry[2][1] = 0; 

    Ry[2][2] = Math.cos( sign*constants.dTheta );



    this.multi(Ry); // If P is the set of surface points, then this method performs the matrix multiplcation: Rx * P

    this.erase(); // Note that one could use two canvases to speed things up, which also eliminates the need to erase.

    this.draw();

  }



  // -----------------------------------------------------------------------------------------------------



  Surface.prototype.zRotate = function(sign)

  /*

    Assumes "sign" is either 1 or -1, which is used to rotate the surface "clockwise" or "counterclockwise".

  */      

  {

    var Rz = [ [0, 0, 0],

               [0, 0, 0],

               [0, 0, 0] ]; // Create an initialized 3 x 3 rotation matrix.



    Rz[0][0] = Math.cos( sign*constants.dTheta );

    Rz[0][1] = -Math.sin( sign*constants.dTheta );        

    Rz[0][2] = 0; // Redundant but helps with clarity.

    Rz[1][0] = Math.sin( sign*constants.dTheta );

    Rz[1][1] = Math.cos( sign*constants.dTheta );

    Rz[1][2] = 0;

    Rz[2][0] = 0

    Rz[2][1] = 0;

    Rz[2][2] = 1;



    this.multi(Rz); // If P is the set of surface points, then this method performs the matrix multiplcation: Rx * P

    this.erase(); // Note that one could use two canvases to speed things up, which also eliminates the need to erase.

    this.draw();

  }



  // -----------------------------------------------------------------------------------------------------



  function processKeyDown(evt)

  {                    

    if (evt.ctrlKey)

    {

      switch (evt.keyCode)

      {

        case constants.upArrow: 

          // No operation other than preventing the default behavior of the arrow key.

          evt.preventDefault(); // This prevents the default behavior of the arrow keys, which is to scroll the browser window when scroll bars are present. The user can still scroll the window with the mouse.              

          break;

        case constants.downArrow:

          // No operation other than preventing the default behavior of the arrow key.

          evt.preventDefault();

          break;

        case constants.leftArrow:

          // console.log("ctrl+leftArrow");

          surface.zRotate(-1); // The sign determines if the surface rotates "clockwise" or "counterclockwise". 

          evt.preventDefault(); 

          break;

        case constants.rightArrow:

          // console.log("ctrl+rightArrow");

          surface.zRotate(1);

          evt.preventDefault(); 

          break;

      }

      return; // When the control key is pressed, only the left and right arrows have meaning, no need to process any other key strokes (i.e., bail now).

    }



    // Assert: The control key is not pressed.



    switch (evt.keyCode)

    {

      case constants.upArrow:

        // console.log("upArrow");

        surface.xRotate(1);

        evt.preventDefault(); 

        break;

      case constants.downArrow:

        // console.log("downArrow");

        surface.xRotate(-1); 

        evt.preventDefault(); 

        break;

      case constants.leftArrow:

        // console.log("leftArrow");

        surface.yRotate(-1);  

        evt.preventDefault(); 

        break;

      case constants.rightArrow:

        // console.log("rightArrow");

        surface.yRotate(1);   

        evt.preventDefault(); 

        break;

    }

  }



  // -----------------------------------------------------------------------------------------------------
  Surface.prototype.plot = function(x, y, z)
  /*
    add the point (x, y, z)  (in 3 x 1 vector format) to the surface.
  */
  {
        this.points.push(point(x, y, z)); // Store a surface point
        var x=0;
        for (var x = constants.xMin; x <= constants.xMax; x += constants.xDelta)
        {
        this.points.push(point(x, 0, 0));

        }

        /*for (var x = constants.xMax+1; x <= constants.xMax+2; x += constants.xDelta)
        {
        this.points.push(point(11, 0, 0))
        }*/
        for (var x = constants.xMin; x <= constants.xMax; x += constants.yDelta)
        {
        this.points.push(point(0, x, 0));   
        }
        for (var x = constants.xMin; x <= constants.xMax; x += constants.yDelta)
        {
        this.points.push(point(0,0,x)); 
        }
  }


  function onloadInit()

  {

    appendCanvasElement(); // Create and append the canvas element to the DOM.

    surface.draw(); // Draw the surface on the canvas.

    document.addEventListener('keydown', processKeyDown, false); // Used to detect if the control key has been pressed.

  }



  // -----------------------------------------------------------------------------------------------------




  //surface.generate(); // Creates the set of points reprsenting the surface. Must be called before color().
   surface.plot(1,1,1);
  surface.color(); // Based on the min and max z-coordinate values, chooses colors for each point based on the point's z-ccordinate value (i.e., height).

  window.addEventListener('load', onloadInit, false); // Perform processing that must occur after the page has fully loaded.

  </script>

  </head>

  <body>


  <p>The z-axis extends out from the center of the screen.<br>

    To rotate about the x-axis, press the up/down arrow keys.
    To rotate about the y-axis, press the left/right arrow keys.
    To rotate about the z-axis, press the ctrl+left/ctrl+down arrow keys.
     Note that pressing an arrow key down continuously will not rotate the surface. The surface is rotated once per key press.</p>

  <!-- The canvas element is append to the DOM here. -->

    </body>

  </html>
share|improve this question
1  
Consider putting your example on something like jsfiddle. – joojaa Feb 12 '13 at 15:04
up vote 0 down vote accepted

Text is drawn on a rectangular plane. Let the co-ordinates of top left be (xtl,ytl,ztl) to right corner be (xtr,ytr,ztr) and bottom left be (xbl,ybl,zbl) then any transformations have to be applied to these coordinates and then the coordoinates for the 2D projection onto the canvas have to be calculated. This will produce a parallelogram into which the text can be drawn but would also need to be transformed.

The simplest would be to calculate the top left corner transformation and draw standard text at that point, perhaps reducing text size depending on z.

share|improve this answer
    
Any examples will be helpful because i am new to this. – Navaneeth Feb 13 '13 at 5:56
    
You may find this c3dl.org easier than trying to modify the code above – jing3142 Feb 14 '13 at 13:35
    
i have used following to add text to canvas so that i can indicate x,y and z axis. var c=document.getElementById("myCanvas"); var ctx=c.getContext("2d"); ctx.font="12px Arial"; ctx.fillText("X",250,0); similarly i can add text y and z using fill text. but how to rotate this text while rotating the axis? I didn't get any method.how can i apply rotation matrix for this? – Navaneeth Feb 19 '13 at 12:29
    
Please look at my another question in stackoverflow.com/questions/15026450/… – Navaneeth Feb 22 '13 at 14:34

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