/**
* @author George https://github.com/georgiee
* @author Richard Davey <rich@photonstorm.com>
* @copyright 2014 Photon Storm Ltd.
* @license {@link https://github.com/photonstorm/phaser/blob/master/license.txt|MIT License}
*/
/**
* Draws a P2 Body to a Graphics instance for visual debugging.
* Needless to say, for every body you enable debug drawing on, you are adding processor and graphical overhead.
* So use sparingly and rarely (if ever) in production code.
*
* @class Phaser.Physics.P2.BodyDebug
* @classdesc Physics Body Debug Constructor
* @constructor
* @extends Phaser.Group
* @param {Phaser.Game} game - Game reference to the currently running game.
* @param {Phaser.Physics.P2.Body} body - The P2 Body to display debug data for.
* @param {object} settings - Settings object.
*/
Phaser.Physics.P2.BodyDebug = function(game, body, settings) {
Phaser.Group.call(this, game);
/**
* @property {object} defaultSettings - Default debug settings.
* @private
*/
var defaultSettings = {
pixelsPerLengthUnit: 20,
debugPolygons: false,
lineWidth: 1,
alpha: 0.5
};
this.settings = Phaser.Utils.extend(defaultSettings, settings);
/**
* @property {number} ppu - Pixels per Length Unit.
*/
this.ppu = this.settings.pixelsPerLengthUnit;
this.ppu = -1 * this.ppu;
/**
* @property {Phaser.Physics.P2.Body} body - The P2 Body to display debug data for.
*/
this.body = body;
/**
* @property {Phaser.Graphics} canvas - The canvas to render the debug info to.
*/
this.canvas = new Phaser.Graphics(game);
this.canvas.alpha = this.settings.alpha;
this.add(this.canvas);
this.draw();
};
Phaser.Physics.P2.BodyDebug.prototype = Object.create(Phaser.Group.prototype);
Phaser.Physics.P2.BodyDebug.prototype.constructor = Phaser.Physics.P2.BodyDebug;
Phaser.Utils.extend(Phaser.Physics.P2.BodyDebug.prototype, {
/**
* Core update.
*
* @method Phaser.Physics.P2.BodyDebug#update
*/
update: function() {
this.updateSpriteTransform();
},
/**
* Core update.
*
* @method Phaser.Physics.P2.BodyDebug#updateSpriteTransform
*/
updateSpriteTransform: function() {
this.position.x = this.body.position[0] * this.ppu;
this.position.y = this.body.position[1] * this.ppu;
return this.rotation = this.body.angle;
},
/**
* Draws the P2 shapes to the Graphics object.
*
* @method Phaser.Physics.P2.BodyDebug#draw
*/
draw: function() {
var angle, child, color, i, j, lineColor, lw, obj, offset, sprite, v, verts, vrot, _j, _ref1;
obj = this.body;
sprite = this.canvas;
sprite.clear();
color = parseInt(this.randomPastelHex(), 16);
lineColor = 0xff0000;
lw = this.lineWidth;
if (obj instanceof p2.Body && obj.shapes.length)
{
var l = obj.shapes.length;
i = 0;
while (i !== l)
{
child = obj.shapes[i];
offset = obj.shapeOffsets[i];
angle = obj.shapeAngles[i];
offset = offset || 0;
angle = angle || 0;
if (child instanceof p2.Circle)
{
this.drawCircle(sprite, offset[0] * this.ppu, offset[1] * this.ppu, angle, child.radius * this.ppu, color, lw);
}
else if (child instanceof p2.Convex)
{
verts = [];
vrot = p2.vec2.create();
for (j = _j = 0, _ref1 = child.vertices.length; 0 <= _ref1 ? _j < _ref1 : _j > _ref1; j = 0 <= _ref1 ? ++_j : --_j)
{
v = child.vertices[j];
p2.vec2.rotate(vrot, v, angle);
verts.push([(vrot[0] + offset[0]) * this.ppu, -(vrot[1] + offset[1]) * this.ppu]);
}
this.drawConvex(sprite, verts, child.triangles, lineColor, color, lw, this.settings.debugPolygons, [offset[0] * this.ppu, -offset[1] * this.ppu]);
}
else if (child instanceof p2.Plane)
{
this.drawPlane(sprite, offset[0] * this.ppu, -offset[1] * this.ppu, color, lineColor, lw * 5, lw * 10, lw * 10, this.ppu * 100, angle);
}
else if (child instanceof p2.Line)
{
this.drawLine(sprite, child.length * this.ppu, lineColor, lw);
}
else if (child instanceof p2.Rectangle)
{
this.drawRectangle(sprite, offset[0] * this.ppu, -offset[1] * this.ppu, angle, child.width * this.ppu, child.height * this.ppu, lineColor, color, lw);
}
i++;
}
}
},
/**
* Draws the P2 shapes to the Graphics object.
*
* @method Phaser.Physics.P2.BodyDebug#draw
*/
drawRectangle: function(g, x, y, angle, w, h, color, fillColor, lineWidth) {
if (typeof lineWidth === 'undefined') { lineWidth = 1; }
if (typeof color === 'undefined') { color = 0x000000; }
g.lineStyle(lineWidth, color, 1);
g.beginFill(fillColor);
g.drawRect(x - w / 2, y - h / 2, w, h);
},
/**
* Draws a P2 Circle shape.
*
* @method Phaser.Physics.P2.BodyDebug#drawCircle
*/
drawCircle: function(g, x, y, angle, radius, color, lineWidth) {
if (typeof lineWidth === 'undefined') { lineWidth = 1; }
if (typeof color === 'undefined') { color = 0xffffff; }
g.lineStyle(lineWidth, 0x000000, 1);
g.beginFill(color, 1.0);
g.drawCircle(x, y, -radius);
g.endFill();
g.moveTo(x, y);
g.lineTo(x + radius * Math.cos(-angle), y + radius * Math.sin(-angle));
},
/**
* Draws a P2 Line shape.
*
* @method Phaser.Physics.P2.BodyDebug#drawCircle
*/
drawLine: function(g, len, color, lineWidth) {
if (typeof lineWidth === 'undefined') { lineWidth = 1; }
if (typeof color === 'undefined') { color = 0x000000; }
g.lineStyle(lineWidth * 5, color, 1);
g.moveTo(-len / 2, 0);
g.lineTo(len / 2, 0);
},
/**
* Draws a P2 Convex shape.
*
* @method Phaser.Physics.P2.BodyDebug#drawConvex
*/
drawConvex: function(g, verts, triangles, color, fillColor, lineWidth, debug, offset) {
var colors, i, v, v0, v1, x, x0, x1, y, y0, y1;
if (typeof lineWidth === 'undefined') { lineWidth = 1; }
if (typeof color === 'undefined') { color = 0x000000; }
if (!debug)
{
g.lineStyle(lineWidth, color, 1);
g.beginFill(fillColor);
i = 0;
while (i !== verts.length)
{
v = verts[i];
x = v[0];
y = v[1];
if (i === 0)
{
g.moveTo(x, -y);
}
else
{
g.lineTo(x, -y);
}
i++;
}
g.endFill();
if (verts.length > 2)
{
g.moveTo(verts[verts.length - 1][0], -verts[verts.length - 1][1]);
return g.lineTo(verts[0][0], -verts[0][1]);
}
}
else
{
colors = [0xff0000, 0x00ff00, 0x0000ff];
i = 0;
while (i !== verts.length + 1)
{
v0 = verts[i % verts.length];
v1 = verts[(i + 1) % verts.length];
x0 = v0[0];
y0 = v0[1];
x1 = v1[0];
y1 = v1[1];
g.lineStyle(lineWidth, colors[i % colors.length], 1);
g.moveTo(x0, -y0);
g.lineTo(x1, -y1);
g.drawCircle(x0, -y0, lineWidth * 2);
i++;
}
g.lineStyle(lineWidth, 0x000000, 1);
return g.drawCircle(offset[0], offset[1], lineWidth * 2);
}
},
/**
* Draws a P2 Path.
*
* @method Phaser.Physics.P2.BodyDebug#drawPath
*/
drawPath: function(g, path, color, fillColor, lineWidth) {
var area, i, lastx, lasty, p1x, p1y, p2x, p2y, p3x, p3y, v, x, y;
if (typeof lineWidth === 'undefined') { lineWidth = 1; }
if (typeof color === 'undefined') { color = 0x000000; }
g.lineStyle(lineWidth, color, 1);
if (typeof fillColor === "number")
{
g.beginFill(fillColor);
}
lastx = null;
lasty = null;
i = 0;
while (i < path.length)
{
v = path[i];
x = v[0];
y = v[1];
if (x !== lastx || y !== lasty)
{
if (i === 0)
{
g.moveTo(x, y);
}
else
{
p1x = lastx;
p1y = lasty;
p2x = x;
p2y = y;
p3x = path[(i + 1) % path.length][0];
p3y = path[(i + 1) % path.length][1];
area = ((p2x - p1x) * (p3y - p1y)) - ((p3x - p1x) * (p2y - p1y));
if (area !== 0)
{
g.lineTo(x, y);
}
}
lastx = x;
lasty = y;
}
i++;
}
if (typeof fillColor === "number")
{
g.endFill();
}
if (path.length > 2 && typeof fillColor === "number")
{
g.moveTo(path[path.length - 1][0], path[path.length - 1][1]);
g.lineTo(path[0][0], path[0][1]);
}
},
/**
* Draws a P2 Plane shape.
*
* @method Phaser.Physics.P2.BodyDebug#drawPlane
*/
drawPlane: function(g, x0, x1, color, lineColor, lineWidth, diagMargin, diagSize, maxLength, angle) {
var max, xd, yd;
if (typeof lineWidth === 'undefined') { lineWidth = 1; }
if (typeof color === 'undefined') { color = 0xffffff; }
g.lineStyle(lineWidth, lineColor, 11);
g.beginFill(color);
max = maxLength;
g.moveTo(x0, -x1);
xd = x0 + Math.cos(angle) * this.game.width;
yd = x1 + Math.sin(angle) * this.game.height;
g.lineTo(xd, -yd);
g.moveTo(x0, -x1);
xd = x0 + Math.cos(angle) * -this.game.width;
yd = x1 + Math.sin(angle) * -this.game.height;
g.lineTo(xd, -yd);
},
/**
* Picks a random pastel color.
*
* @method Phaser.Physics.P2.BodyDebug#randomPastelHex
*/
randomPastelHex: function() {
var blue, green, mix, red;
mix = [255, 255, 255];
red = Math.floor(Math.random() * 256);
green = Math.floor(Math.random() * 256);
blue = Math.floor(Math.random() * 256);
red = Math.floor((red + 3 * mix[0]) / 4);
green = Math.floor((green + 3 * mix[1]) / 4);
blue = Math.floor((blue + 3 * mix[2]) / 4);
return this.rgbToHex(red, green, blue);
},
/**
* Converts from RGB to Hex.
*
* @method Phaser.Physics.P2.BodyDebug#rgbToHex
*/
rgbToHex: function(r, g, b) {
return this.componentToHex(r) + this.componentToHex(g) + this.componentToHex(b);
},
/**
* Component to hex conversion.
*
* @method Phaser.Physics.P2.BodyDebug#componentToHex
*/
componentToHex: function(c) {
var hex;
hex = c.toString(16);
if (hex.len === 2)
{
return hex;
}
else
{
return hex + '0';
}
}
});