blob: 02d6c8bf8d6e9d12653cfb7f8c36ada6960c81d2 [file] [log] [blame]
/**
* Parse a relational tree and visualize using arcs.
*
* @author Nils Diewald
*/
define([], function () {
"use strict";
var svgNS = "http://www.w3.org/2000/svg";
var _TermRE = new RegExp("^(?:([^\/]+?)\/)?([^:]+?):(.+?)$");
return {
create : function (snippet) {
return Object.create(this)._init(snippet);
},
// Initialize the state of the object
_init : function (snippet) {
// Predefine some values
this._tokens = [];
this._arcs = [];
this._tokenElements = [];
this._y = 0;
// Some configurations
this.maxArc = 200; // maximum height of the bezier control point
this.overlapDiff = 40; // Difference on overlaps and minimum height for self-refernces
this.arcDiff = 15;
this.anchorDiff = 8;
this.anchorStart = 15;
this.tokenSep = 30;
this.xPadding = 10;
this.yPadding = 5;
// No snippet to process
if (snippet == undefined || snippet == null)
return this;
// Parse the snippet
var html = document.createElement("div");
html.innerHTML = snippet;
// Establish temporary parsing memory
this.temp = {
target : {}, // Remember the map id => pos
edges : [], // Remember edge definitions
pos : 0 // Keep track of the current token position
};
// Start parsing from root
this._parse(0, html.childNodes, undefined);
// Establish edge list
var targetMap = this.temp['target'];
var edges = this.temp['edges'];
// Iterate over edge lists
// TODO:
// Support spans for anchors!
for (var i in edges) {
var edge = edges[i];
// Check the target identifier
var targetID = edge.targetID;
var target = targetMap[targetID];
if (target != undefined) {
// Check if the source is a span anchor
var start = edge.srcStart;
if (start !== edge.srcEnd) {
start = [start, edge.srcEnd];
};
// Add relation
var relation = {
start : start,
end : target,
direction : 'uni',
label : edge.label
};
// console.log(relation);
this.addRel(relation);
};
};
// Reset parsing memory
this.temp = {};
return this;
},
// Parse a node of the tree snippet
_parse : function (parent, children, mark) {
// Iterate over all child nodes
for (var i in children) {
var c = children[i];
// Element node
if (c.nodeType == 1) {
var xmlid, target;
// Node is an identifier
if (c.hasAttribute('xml:id')) {
// Remember that pos has this identifier
xmlid = c.getAttribute('xml:id');
this.temp['target'][xmlid] = [this.temp['pos'], this.temp['pos']];
}
// Node is a relation
else if (c.hasAttribute('xlink:href')) {
var label;
// Get target id
target = c.getAttribute('xlink:href').replace(/^#/, "");
if (c.hasAttribute('xlink:title')) {
label = this._clean(c.getAttribute('xlink:title'));
};
// Remember the defined edge
var edge = {
label : label,
srcStart : this.temp['pos'],
targetID : target
};
this.temp['edges'].push(edge);
};
// Go on with child nodes
if (c.hasChildNodes()) {
this._parse(0, c.childNodes, mark);
};
if (xmlid !== undefined) {
this.temp['target'][xmlid][1] = this.temp['pos'] -1;
/*
console.log('Target ' + xmlid + ' spans from ' +
this.temp['target'][xmlid][0] +
' to ' +
this.temp['target'][xmlid][1]
);
*/
xmlid = undefined;
}
else if (target !== undefined) {
edge["srcEnd"] = this.temp['pos'] -1;
/*
console.log('Source spans from ' +
edge["srcStart"] +
' to ' +
edge["srcEnd"]
);
*/
target = undefined;
};
}
// Text node
else if (c.nodeType == 3) {
// Check, if there is a non-whitespace token
if (c.nodeValue !== undefined) {
var str = c.nodeValue.trim();
if (str !== undefined && str.length > 0) {
// Add token to token list
this.addToken(str);
// Move token position
this.temp['pos']++;
};
};
}
};
},
// Remove foundry and layer for labels
_clean : function (title) {
return title.replace(_TermRE, "$3");
},
// Return the number of leaf nodes
// (not necessarily part of a relation).
// Consecutive nodes that are not part of any
// relation are summarized in one node.
size : function () {
return this._tokens.length;
},
// This is a shorthand for SVG element creation
_c : function (tag) {
return document.createElementNS(svgNS, tag);
},
// Returns the center point of the requesting token
_tokenPoint : function (node) {
var box = node.getBoundingClientRect();
return box.x + (box.width / 2);
},
// Draws an anchor
_drawAnchor : function (anchor) {
// Calculate the span of the first and last token, the anchor spans
var firstBox = this._tokenElements[anchor.first].getBoundingClientRect();
var lastBox = this._tokenElements[anchor.last].getBoundingClientRect();
var startPos = firstBox.left - this.offsetLeft;
var endPos = lastBox.right - this.offsetLeft;
var y = this._y + (anchor.overlaps * this.anchorDiff) - this.anchorStart;
var l = this._c('path');
this._arcsElement.appendChild(l);
l.setAttribute("d", "M " + startPos + "," + y + " L " + endPos + "," + y);
l.setAttribute("class", "anchor");
anchor.element = l;
anchor.y = y;
return l;
},
// Create an arc with an optional label
// Potentially needs a height parameter for stacks
_drawArc : function (arc) {
var startPos, endPos;
var startY = this._y;
var endY = this._y;
if (arc.startAnchor !== undefined) {
startPos = this._tokenPoint(arc.startAnchor.element);
startY = arc.startAnchor.y;
}
else {
startPos = this._tokenPoint(this._tokenElements[arc.first]);
};
if (arc.endAnchor !== undefined) {
endPos = this._tokenPoint(arc.endAnchor.element)
endY = arc.endAnchor.y;
}
else {
endPos = this._tokenPoint(this._tokenElements[arc.last]);
};
startPos -= this.offsetLeft;
endPos -= this.offsetLeft;
// Special treatment for self-references
var overlaps = arc.overlaps;
if (startPos == endPos) {
startPos -= this.overlapDiff / 3;
endPos += this.overlapDiff / 3;
overlaps += .5;
};
var g = this._c("g");
g.setAttribute("class", "arc");
var p = g.appendChild(this._c("path"));
p.setAttribute('class', 'edge');
// Attach the new arc before drawing, so computed values are available
this._arcsElement.appendChild(g);
// Create arc
var middle = Math.abs(endPos - startPos) / 2;
// TODO:
// take the number of tokens into account!
var cHeight = this.arcDiff + (overlaps * this.overlapDiff) + (middle / 2);
// Respect the maximum height
cHeight = cHeight < this.maxArc ? cHeight : this.maxArc;
var x = Math.min(startPos, endPos);
//var controlY = (startY + endY - cHeight);
var controlY = (endY - cHeight);
var arcE = "M "+ startPos + "," + startY +
" C " + startPos + "," + controlY +
" " + endPos + "," + controlY +
" " + endPos + "," + endY;
p.setAttribute("d", arcE);
if (arc.direction !== undefined) {
p.setAttribute("marker-end", "url(#arr)");
if (arc.direction === 'bi') {
p.setAttribute("marker-start", "url(#arr)");
};
};
if (arc.label === undefined)
return g;
/*
* Calculate the top point of the arc for labeling using
* de Casteljau's algorithm, see e.g.
* http://blog.sklambert.com/finding-the-control-points-of-a-bezier-curve/
* of course simplified to symmetric arcs ...
*/
// Interpolate one side of the control polygon
var middleY = (((startY + controlY) / 2) + controlY) / 2;
// Create a boxed label
g = this._c("g");
g.setAttribute("class", "label");
this._labelsElement.appendChild(g);
var that = this;
g.addEventListener('mouseenter', function () {
that._labelsElement.appendChild(this);
});
var labelE = g.appendChild(this._c("text"));
labelE.setAttribute("x", x + middle);
labelE.setAttribute("y", middleY + 3);
labelE.setAttribute("text-anchor", "middle");
var textNode = document.createTextNode(arc.label);
labelE.appendChild(textNode);
var labelBox = labelE.getBBox();
var textWidth = labelBox.width; // labelE.getComputedTextLength();
var textHeight = labelBox.height; // labelE.getComputedTextLength();
// Add box with padding to left and right
var labelR = g.insertBefore(this._c("rect"), labelE);
var boxWidth = textWidth + 2 * this.xPadding;
labelR.setAttribute("x", x + middle - (boxWidth / 2));
labelR.setAttribute("ry", 5);
labelR.setAttribute("y", labelBox.y - this.yPadding);
labelR.setAttribute("width", boxWidth);
labelR.setAttribute("height", textHeight + 2 * this.yPadding);
},
// Get the svg element
element : function () {
if (this._element !== undefined)
return this._element;
// Create svg
var svg = this._c("svg");
window.addEventListener("resize", function () {
// TODO:
// Only if text-size changed!
// TODO:
// This is currently untested
this.show();
}.bind(this));
// Define marker arrows
var defs = svg.appendChild(this._c("defs"));
var marker = defs.appendChild(this._c("marker"));
marker.setAttribute("refX", 9);
marker.setAttribute("id", "arr");
marker.setAttribute("orient", "auto-start-reverse");
marker.setAttribute("markerUnits","userSpaceOnUse");
var arrow = this._c("path");
arrow.setAttribute("transform", "scale(0.8)");
arrow.setAttribute("d", "M 0,-5 0,5 10,0 Z");
marker.appendChild(arrow);
this._element = svg;
return this._element;
},
// Add a relation with a start, an end,
// a direction value and an optional label text
addRel : function (rel) {
this._arcs.push(rel);
return this;
},
// Add a token to the list (this will mostly be a word)
addToken : function(token) {
this._tokens.push(token);
return this;
},
/*
* All arcs need to be sorted before shown,
* to avoid nesting.
*/
_sortArcs : function () {
// TODO:
// Keep in mind that the arcs may have long anchors!
// 1. Iterate over all arcs
// 2. Sort all multi
var anchors = [];
// 1. Sort by length
// 2. Tag all spans with the number of overlaps before
// a) Iterate over all spans
// b) check the latest preceeding overlapping span (lpos)
// -> not found: tag with 0
// -> found: Add +1 to the level of the (lpos)
// c) If the new tag is smaller than the previous element,
// reorder
// Normalize start and end
var sortedArcs = this._arcs.map(function (v) {
// Check for long anchors
if (v.start instanceof Array) {
var middle = Math.ceil(Math.abs(v.start[1] - v.start[0]) / 2) + v.start[0];
v.startAnchor = {
"first": v.start[0],
"last" : v.start[1],
"length" : v.start[1] - v.start[0]
};
// Add to anchors list
anchors.push(v.startAnchor);
v.start = middle;
};
if (v.end instanceof Array) {
var middle = Math.abs(v.end[0] - v.end[1]) + v.end[0];
v.endAnchor = {
"first": v.end[0],
"last" : v.end[1],
"length" : v.end[1] - v.end[0]
};
// Add to anchors list
anchors.push(v.endAnchor);
v.end = middle;
};
v.first = v.start;
v.last = v.end;
// calculate the arch length
if (v.start < v.end) {
v.length = v.end - v.start;
}
else {
// v.first = v.end;
// v.last = v.start;
v.length = v.start - v.end;
};
if (v.label === "OBJA") {
console.log(v);
};
// console.log(v);
return v;
});
// Sort based on length
sortedArcs.sort(function (a, b) {
if (a.length < b.length)
return -1;
else
return 1;
});
// Add sorted arcs and anchors
this._sortedArcs = lengthSort(sortedArcs, false);
this._sortedAnchors = lengthSort(anchors, true);
},
// Show the element
show : function () {
var svg = this._element;
var height = this.maxArc;
// Delete old group
if (svg.getElementsByTagName("g")[0] !== undefined) {
var group = svg.getElementsByTagName("g")[0];
svg.removeChild(group);
this._tokenElements = [];
};
var g = svg.appendChild(this._c("g"));
// Draw token list
var text = g.appendChild(this._c("text"));
text.setAttribute('class', 'leaf');
text.setAttribute("text-anchor", "start");
text.setAttribute("y", height);
// Calculate the start position
this._y = height - (this.anchorStart);
// Introduce some prepending whitespace (yeah - I know ...)
var ws = text.appendChild(this._c("tspan"));
ws.appendChild(document.createTextNode('\u00A0'));
ws.style.textAnchor = "start";
var lastRight = 0;
for (var node_i in this._tokens) {
// Append svg
var tspan = text.appendChild(this._c("tspan"));
tspan.appendChild(document.createTextNode(this._tokens[node_i]));
tspan.setAttribute("text-anchor", "middle");
this._tokenElements.push(tspan);
// Add whitespace!
tspan.setAttribute("dx", this.tokenSep);
};
// Get some global position data that may change on resize
var globalBoundingBox = g.getBoundingClientRect();
this.offsetLeft = globalBoundingBox.left;
// The group of arcs
var arcs = g.appendChild(this._c("g"));
this._arcsElement = arcs;
arcs.classList.add("arcs");
var labels = g.appendChild(this._c("g"));
this._labelsElement = labels;
labels.classList.add("labels");
// Sort arcs if not sorted yet
if (this._sortedArcs === undefined)
this._sortArcs();
// 1. Draw all anchors
var i;
for (i in this._sortedAnchors) {
this._drawAnchor(this._sortedAnchors[i]);
};
// 2. Draw all arcs
for (i in this._sortedArcs) {
this._drawArc(this._sortedArcs[i]);
};
// Resize the svg with some reasonable margins
var width = text.getBoundingClientRect().width;
svg.setAttribute("width", width + 20);
svg.setAttribute("height", height + 20);
svg.setAttribute("class", "relTree");
}
};
// Sort relations regarding their span
function lengthSort (list, inclusive) {
/*
* The "inclusive" flag allows to
* modify the behaviour for inclusivity check,
* e.g. if identical start or endpoints mean overlap or not.
*/
var stack = [];
// Iterate over all definitions
for (var i = 0; i < list.length; i++) {
var current = list[i];
// Check the stack order
var overlaps = 0;
for (var j = (stack.length - 1); j >= 0; j--) {
var check = stack[j];
// (a..(b..b)..a)
if (current.first <= check.first && current.last >= check.last) {
overlaps = check.overlaps + 1;
break;
}
// (a..(b..a)..b)
else if (current.first <= check.first && current.last >= check.first) {
if (inclusive || (current.first != check.first && current.last != check.first)) {
overlaps = check.overlaps + (current.length == check.length ? 0 : 1);
};
}
// (b..(a..b)..a)
else if (current.first <= check.last && current.last >= check.last) {
if (inclusive || (current.first != check.last && current.last != check.last)) {
overlaps = check.overlaps + (current.length == check.length ? 0 : 1);
};
};
};
// Set overlaps
current.overlaps = overlaps;
stack.push(current);
// Although it is already sorted,
// the new item has to be put at the correct place
// TODO:
// Use something like splice() instead
stack.sort(function (a,b) {
b.overlaps - a.overlaps
});
};
return stack;
};
});