node-red-contrib-smartnode-hook
Version:
this project is dependenced by the node-red-contrib-smartnode for some IoT display function
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JavaScript
// version: 2014-11-15
/**
* o--------------------------------------------------------------------------------o
* | This file is part of the RGraph package - you can learn more at: |
* | |
* | http://www.rgraph.net |
* | |
* | This package is licensed under the Creative Commons BY-NC license. That means |
* | that for non-commercial purposes it's free to use and for business use there's |
* | a 99 GBP per-company fee to pay. You can read the full license here: |
* | |
* | http://www.rgraph.net/license |
* o--------------------------------------------------------------------------------o
*/
/**
* Having this here means that the RGraph libraries can be included in any order, instead of you having
* to include the common core library first.
*/
// Define the RGraph global variable
RGraph = window.RGraph || {isRGraph: true};
RGraph.Drawing = RGraph.Drawing || {};
/**
* The constructor. This function sets up the object. It takes the ID (the HTML attribute) of the canvas as the
* first argument, then the coordinates of the coords of the shape
*
* @param string id The canvas tag ID
* @param number coords The coordinates of the shape
*/
RGraph.Drawing.Poly = function (conf)
{
/**
* Allow for object config style
*/
if ( typeof conf === 'object'
&& typeof conf.coords === 'object'
&& typeof conf.id === 'string') {
var id = conf.id
var coords = conf.coords;
var parseConfObjectForOptions = true; // Set this so the config is parsed (at the end of the constructor)
} else {
var id = conf;
var coords = arguments[1];
}
this.id = id;
this.canvas = document.getElementById(this.id);
this.context = this.canvas.getContext('2d');
this.colorsParsed = false;
this.canvas.__object__ = this;
this.coords = coords;
this.coordsText = [];
this.original_colors = [];
this.firstDraw = true; // After the first draw this will be false
/**
* This defines the type of this shape
*/
this.type = 'drawing.poly';
/**
* This facilitates easy object identification, and should always be true
*/
this.isRGraph = true;
/**
* This adds a uid to the object that you can use for identification purposes
*/
this.uid = RGraph.CreateUID();
/**
* This adds a UID to the canvas for identification purposes
*/
this.canvas.uid = this.canvas.uid ? this.canvas.uid : RGraph.CreateUID();
/**
* Some example background properties
*/
this.properties =
{
'chart.linewidth': 1,
'chart.strokestyle': 'black',
'chart.fillstyle': 'red',
'chart.events.click': null,
'chart.events.mousemove': null,
'chart.tooltips': null,
'chart.tooltips.override': null,
'chart.tooltips.effect': 'fade',
'chart.tooltips.css.class': 'RGraph_tooltip',
'chart.tooltips.event': 'onclick',
'chart.tooltips.highlight': true,
'chart.highlight.stroke': 'rgba(0,0,0,0)',
'chart.highlight.fill': 'rgba(255,255,255,0.7)',
'chart.shadow': false,
'chart.shadow.color': 'rgba(0,0,0,0.2)',
'chart.shadow.offsetx': 3,
'chart.shadow.offsety': 3,
'chart.shadow.blur': 5
}
/**
* A simple check that the browser has canvas support
*/
if (!this.canvas) {
alert('[DRAWING.POLY] No canvas support');
return;
}
/**
* Create the dollar object so that functions can be added to them
*/
this.$0 = {};
/**
* Translate half a pixel for antialiasing purposes - but only if it hasn't beeen
* done already
*/
if (!this.canvas.__rgraph_aa_translated__) {
this.context.translate(0.5,0.5);
this.canvas.__rgraph_aa_translated__ = true;
}
// Short variable names
var RG = RGraph;
var ca = this.canvas;
var co = ca.getContext('2d');
var prop = this.properties;
var jq = jQuery;
var pa = RG.Path;
var win = window;
var doc = document;
var ma = Math;
/**
* "Decorate" the object with the generic effects if the effects library has been included
*/
if (RG.Effects && typeof RG.Effects.decorate === 'function') {
RG.Effects.decorate(this);
}
/**
* A setter method for setting properties.
*
* @param name string The name of the property to set OR it can be a map
* of name/value settings like what you set in the constructor
*/
this.set =
this.Set = function (name)
{
var value = typeof arguments[1] === 'undefined' ? null : arguments[1];
/**
* the number of arguments is only one and it's an
* object - parse it for configuration data and return.
*/
if (arguments.length === 1 && typeof name === 'object') {
RG.parseObjectStyleConfig(this, name);
return this;
}
name = name.toLowerCase();
/**
* This should be done first - prepend the property name with "chart." if necessary
*/
if (name.substr(0,6) != 'chart.') {
name = 'chart.' + name;
}
prop[name] = value;
return this;
};
/**
* A getter method for retrieving graph properties. It can be used like this: obj.Get('chart.strokestyle');
*
* @param name string The name of the property to get
*/
this.get =
this.Get = function (name)
{
/**
* This should be done first - prepend the property name with "chart." if necessary
*/
if (name.substr(0,6) != 'chart.') {
name = 'chart.' + name;
}
return prop[name.toLowerCase()];
};
/**
* Draws the shape
*/
this.draw =
this.Draw = function ()
{
/**
* Fire the onbeforedraw event
*/
RG.FireCustomEvent(this, 'onbeforedraw');
/**
* Parse the colors. This allows for simple gradient syntax
*/
if (!this.colorsParsed) {
this.parseColors();
// Don't want to do this again
this.colorsParsed = true;
}
/**
* Stop this growing uncntrollably
*/
this.coordsText = [];
/**
* DRAW THE SHAPE HERE
*/
var obj = this;
pa(this, ['b','fu',function (obj){if (prop['chart.shadow'])
{
co.shadowColor = prop['chart.shadow.color'];
co.shadowOffsetX = prop['chart.shadow.offsetx'];
co.shadowOffsetY = prop['chart.shadow.offsety'];
co.shadowBlur = prop['chart.shadow.blur'];
}},'fu',function (obj)
{
co.strokeStyle=prop['chart.strokestyle'];
co.fillStyle=prop['chart.fillstyle'];
obj.DrawPoly();
},'lw',prop['chart.linewidth'],'f',prop['chart.fillstyle'], 'fu', function ()
{
RG.NoShadow(obj);
}, 's',prop['chart.strokestyle']]);
/**
* Turn off shadow again
*/
RG.NoShadow(this)
/**
* This installs the event listeners
*/
RG.InstallEventListeners(this);
/**
* Fire the onfirstdraw event
*/
if (this.firstDraw) {
RG.fireCustomEvent(this, 'onfirstdraw');
this.firstDraw = false;
this.firstDrawFunc();
}
/**
* Fire the ondraw event
*/
RG.FireCustomEvent(this, 'ondraw');
return this;
};
/**
* The getObjectByXY() worker method
*/
this.getObjectByXY = function (e)
{
if (this.getShape(e)) {
return this;
}
};
/**
* Draw the Poly but doesn't stroke or fill - that's left to other functions
*/
this.drawPoly =
this.DrawPoly = function ()
{
var coords = this.coords;
pa(this, ['b','m',coords[0][0], coords[0][1]]);
// Draw lines to subsequent coords
for (var i=1,len=coords.length; i<len; ++i) {
co.lineTo(coords[i][0],coords[i][1]);
}
// Close the path and stroke/fill it with whatever the current fill/stroke styles are
pa(this, ['lw', prop['chart.linewidth'], 'c','f',co.fillStyle, 's',co.strokeStyle]);
};
/**
* Not used by the class during creating the graph, but is used by event handlers
* to get the coordinates (if any) of the selected bar
*
* @param object e The event object
*/
this.getShape = function (e)
{
var coords = this.coords;
var mouseXY = RGraph.getMouseXY(e);
var mouseX = mouseXY[0];
var mouseY = mouseXY[1];
// Should redraw the poly but not stroke or fill it and then use isPointInPath() to test it
// DON'T USE PATH OBJECT HERE
co.beginPath();
co.strokeStyle = 'rgba(0,0,0,0)';
co.fillStyle = 'rgba(0,0,0,0)';
this.DrawPoly();
if (co.isPointInPath(mouseX, mouseY)) {
return {
0: this, 1: this.coords, 2: 0,
'object': this, 'coords': this.coords, 'index': 0, 'tooltip': prop['chart.tooltips'] ? prop['chart.tooltips'][0] : null
};
}
return null;
};
/**
* This function positions a tooltip when it is displayed
*
* @param obj object The chart object
* @param int x The X coordinate specified for the tooltip
* @param int y The Y coordinate specified for the tooltip
* @param objec tooltip The tooltips DIV element
*/
this.positionTooltip = function (obj, x, y, tooltip, idx)
{
var canvasXY = RGraph.getCanvasXY(obj.canvas);
var width = tooltip.offsetWidth;
var height = tooltip.offsetHeight;
// Set the top position
tooltip.style.left = 0;
tooltip.style.top = (y - height - 7) + 'px';
// By default any overflow is hidden
tooltip.style.overflow = '';
// The arrow
var img = new Image();
img.src = 'data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABEAAAAFCAYAAACjKgd3AAAARUlEQVQYV2NkQAN79+797+RkhC4M5+/bd47B2dmZEVkBCgcmgcsgbAaA9GA1BCSBbhAuA/AagmwQPgMIGgIzCD0M0AMMAEFVIAa6UQgcAAAAAElFTkSuQmCC';
img.style.position = 'absolute';
img.id = '__rgraph_tooltip_pointer__';
img.style.top = (tooltip.offsetHeight - 2) + 'px';
tooltip.appendChild(img);
/**
* Reposition the tooltip if at the edges:
*/
// LEFT edge
if (x - (width / 2) < 10) {
tooltip.style.left = (canvasXY[0] + x - (width * 0.1)) - 8.5+ 'px';
img.style.left = ((width * 0.1) - 8.5) + 'px';
// RIGHT edge
} else if ((x + (width / 2)) > doc.body.offsetWidth) {
tooltip.style.left = x - (width * 0.9) + 'px';
img.style.left = ((width * 0.9) - 8.5) + 'px';
// Default positioning - CENTERED
} else {
tooltip.style.left = x - (width / 2) + 'px';
img.style.left = ((width * 0.5) - 8.5) + 'px';
}
};
/**
* Each object type has its own Highlight() function which highlights the appropriate shape
*
* @param object shape The shape to highlight
*/
this.highlight =
this.Highlight = function (shape)
{
// Evidentally this is necessary
co.fillStyle = prop['chart.fillstyle'];
// Add the new highlight
if (prop['chart.tooltips.highlight']) {
pa(this, ['b','fu', function (obj){obj.DrawPoly();},'f',prop['chart.highlight.fill'],'s',prop['chart.highlight.stroke']]);
}
};
/**
* This allows for easy specification of gradients
*/
this.parseColors = function ()
{
// Save the original colors so that they can be restored when the canvas is reset
if (this.original_colors.length === 0) {
this.original_colors['chart.fillstyle'] = RG.array_clone(prop['chart.fillstyle']);
this.original_colors['chart.strokestyle'] = RG.array_clone(prop['chart.strokestyle']);
this.original_colors['chart.highlight.stroke'] = RG.array_clone(prop['chart.highlight.stroke']);
this.original_colors['chart.highlight.fill'] = RG.array_clone(prop['chart.highlight.fill']);
}
var func = this.parseSingleColorForGradient;
/**
* Parse various properties for colors
*/
prop['chart.fillstyle'] = func(prop['chart.fillstyle']);
prop['chart.strokestyle'] = func(prop['chart.strokestyle']);
prop['chart.highlight.stroke'] = func(prop['chart.highlight.stroke']);
prop['chart.highlight.fill'] = func(prop['chart.highlight.fill']);
};
/**
* Use this function to reset the object to the post-constructor state. Eg reset colors if
* need be etc
*/
this.reset = function ()
{
};
/**
* This parses a single color value
*/
this.parseSingleColorForGradient = function (color)
{
if (!color) {
return color;
}
if (typeof color === 'string' && color.match(/^gradient\((.*)\)$/i)) {
var parts = RegExp.$1.split(':');
// Create the gradient
var grad = co.createLinearGradient(0,0,ca.width,0);
var diff = 1 / (parts.length - 1);
grad.addColorStop(0, RG.trim(parts[0]));
for (var j=1,len=parts.length; j<len; ++j) {
grad.addColorStop(j * diff, RG.trim(parts[j]));
}
}
return grad ? grad : color;
};
/**
* Using a function to add events makes it easier to facilitate method chaining
*
* @param string type The type of even to add
* @param function func
*/
this.on = function (type, func)
{
if (type.substr(0,2) !== 'on') {
type = 'on' + type;
}
this[type] = func;
return this;
};
/**
* This function runs once only
* (put at the end of the file (before any effects))
*/
this.firstDrawFunc = function ()
{
};
/**
* Objects are now always registered so that the chart is redrawn if need be.
*/
RG.Register(this);
/**
* This is the 'end' of the constructor so if the first argument
* contains configuration data - handle that.
*/
if (parseConfObjectForOptions) {
RG.parseObjectStyleConfig(this, conf.options);
}
};