//////////////////////////////////////////////////////////////////////////////////////// // --- 연결 차트 표시 --- // //////////////////////////////////////////////////////////////////////////////////////// /* ---------------------------------------- d3 config ------------------------------------ */ /* d3 */ // var treeData = { // name: "product service name", // type: "Product(service)", // children: [ // { // name: "Visualization", // type: "Jira JQL", // children: [ // { // name: "test", // type: "Jira JQL" // } // ] // } // ] // }; function initD3Chart(href) { d3.json(href, function(error, data) { console.log("=================================================================="); console.log("check href :: " + href); d3.selectAll("#tree_container svg").remove(); // 그려진 트리 차트가 모두 제거 var treeData = data.response; console.log(JSON.stringify(treeData)); console.table(treeData); // Calculate total nodes, max label length var totalNodes = 0; var maxLabelLength = 0; // variables for drag/drop var selectedNode = null; var draggingNode = null; // panning variables var panSpeed = 200; var panBoundary = 20; // Within 20px from edges will pan when dragging. // Misc. variables var i = 0; var duration = 750; var root; // size of the diagram var viewerWidth = $("#tree_container")[0].clientWidth; var viewerHeight = 545; var tree = d3.layout.tree().size([viewerHeight, viewerWidth]); console.log("tree layout :: " + tree); // define a d3 diagonal projection for use by the node paths later on. var diagonal = d3.svg.diagonal().projection(function(d) { return [d.y, d.x]; }); console.log("tree diagonal :: " + diagonal); // A recursive helper function for performing some setup by walking through all nodes function visit(parent, visitFn, childrenFn) { // parent: 현재 방문 중인 노드, visitFn: 노드 방문시 실행 , childrenFn: 현재 노드의 자식 반환 if (!parent) return; visitFn(parent); var children = childrenFn(parent); if (children) { var count = children.length; for (var i = 0; i < count; i++) { visit(children[i], visitFn, childrenFn); } } } // Call visit function to establish maxLabelLength //visit(): 트리 데이터를 순회하면서 각 노드를 방문합니다. treeData를 시작으로 각 노드를 visitFn으로 전달하여 totalNodes 변수를 증가시키고, maxLabelLength 변수를 업데이트합니다. maxLabelLength는 노드 이름의 최대 길이를 나타냅니다. visit( treeData, function(d) { totalNodes++; console.log("initD3Chart visit check d"); // console.log(d); console.table(d); maxLabelLength = Math.max(d.name.length, maxLabelLength); }, function(d) { return d.children && d.children.length > 0 ? d.children : null; } ); // sort the tree according to the node names function sortTree() { tree.sort(function(a, b) { return b.name.toLowerCase() < a.name.toLowerCase() ? 1 : -1; }); } // Sort the tree initially incase the JSON isn't in a sorted order. sortTree(); // TODO: Pan function, can be better implemented. function pan(domNode, direction) { var speed = panSpeed; if (panTimer) { clearTimeout(panTimer); translateCoords = d3.transform(svgGroup.attr("transform")); if (direction == "left" || direction == "right") { translateX = direction == "left" ? translateCoords.translate[0] + speed : translateCoords.translate[0] - speed; translateY = translateCoords.translate[1]; } else if (direction == "up" || direction == "down") { translateX = translateCoords.translate[0]; translateY = direction == "up" ? translateCoords.translate[1] + speed : translateCoords.translate[1] - speed; } scaleX = translateCoords.scale[0]; scaleY = translateCoords.scale[1]; scale = zoomListener.scale(); svgGroup.transition().attr("transform", "translate(" + translateX + "," + translateY + ")scale(" + scale + ")"); d3.select(domNode) .select("g.node") .attr("transform", "translate(" + translateX + "," + translateY + ")"); zoomListener.scale(zoomListener.scale()); zoomListener.translate([translateX, translateY]); panTimer = setTimeout(function() { pan(domNode, speed, direction); }, 50); } } // Define the zoom function for the zoomable tree function zoom() { //edit 313devops svgGroup.attr("transform", "translate(" + d3.event.translate + ")scale(" + d3.event.scale + ")"); //svgGroup.attr("transform", "translate(" + "221,79" + ")scale(" + 1.5 + ")"); } // define the zoomListener which calls the zoom function on the "zoom" event constrained within the scaleExtents var zoomListener = d3.behavior.zoom().scaleExtent([0.5, 2.5]).on("zoom", zoom); function initiateDrag(d, domNode) { draggingNode = d; d3.select(domNode).select(".ghostCircle").attr("pointer-events", "none"); d3.selectAll(".ghostCircle").attr("class", "ghostCircle show"); d3.select(domNode).attr("class", "node activeDrag"); svgGroup.selectAll("g.node").sort(function(a, b) { // select the parent and sort the path's if (a.id != draggingNode.id) return 1; // a is not the hovered element, send "a" to the back else return -1; // a is the hovered element, bring "a" to the front }); // if nodes has children, remove the links and nodes if (nodes.length > 1) { // remove link paths links = tree.links(nodes); nodePaths = svgGroup .selectAll("path.link") .data(links, function(d) { return d.target.id; }) .remove(); // remove child nodes nodesExit = svgGroup .selectAll("g.node") .data(nodes, function(d) { return d.id; }) .filter(function(d, i) { if (d.id == draggingNode.id) { return false; } return true; }) .remove(); } // remove parent link parentLink = tree.links(tree.nodes(draggingNode.parent)); svgGroup .selectAll("path.link") .filter(function(d, i) { if (d.target.id == draggingNode.id) { return true; } return false; }) .remove(); dragStarted = null; } // define the baseSvg, attaching a class for styling and the zoomListener var baseSvg = d3 .select("#tree_container") .append("svg") .attr("width", viewerWidth) .attr("height", viewerHeight) .attr("class", "overlay") .call(zoomListener); // Define the drag listeners for drag/drop behaviour of nodes. dragListener = d3.behavior .drag() .on("dragstart", function(d) { if (d == root) { return; } dragStarted = true; nodes = tree.nodes(d); d3.event.sourceEvent.stopPropagation(); // it's important that we suppress the mouseover event on the node being dragged. Otherwise it will absorb the mouseover event and the underlying node will not detect it d3.select(this).attr('pointer-events', 'none'); }) .on("drag", function(d) { if (d == root) { return; } if (dragStarted) { domNode = this; initiateDrag(d, domNode); } // get coords of mouseEvent relative to svg container to allow for panning relCoords = d3.mouse($("svg").get(0)); if (relCoords[0] < panBoundary) { panTimer = true; pan(this, "left"); } else if (relCoords[0] > $("svg").width() - panBoundary) { panTimer = true; pan(this, "right"); } else if (relCoords[1] < panBoundary) { panTimer = true; pan(this, "up"); } else if (relCoords[1] > $("svg").height() - panBoundary) { panTimer = true; pan(this, "down"); } else { try { clearTimeout(panTimer); } catch (e) { } } d.x0 += d3.event.dy; d.y0 += d3.event.dx; var node = d3.select(this); node.attr("transform", "translate(" + d.y0 + "," + d.x0 + ")"); updateTempConnector(); }) .on("dragend", function(d) { if (d == root) { return; } domNode = this; if (selectedNode) { // now remove the element from the parent, and insert it into the new elements children var index = draggingNode.parent.children.indexOf(draggingNode); if (index > -1) { draggingNode.parent.children.splice(index, 1); } if (typeof selectedNode.children !== "undefined" || typeof selectedNode._children !== "undefined") { if (typeof selectedNode.children !== "undefined") { selectedNode.children.push(draggingNode); } else { selectedNode._children.push(draggingNode); } } else { selectedNode.children = []; selectedNode.children.push(draggingNode); } // Make sure that the node being added to is expanded so user can see added node is correctly moved expand(selectedNode); sortTree(); endDrag(); } else { endDrag(); } }); function endDrag() { selectedNode = null; d3.selectAll(".ghostCircle").attr("class", "ghostCircle"); d3.select(domNode).attr("class", "node"); // now restore the mouseover event or we won't be able to drag a 2nd time d3.select(domNode).select(".ghostCircle").attr("pointer-events", ""); updateTempConnector(); if (draggingNode !== null) { update(root); centerNode(draggingNode); draggingNode = null; } } // Helper functions for collapsing and expanding nodes. function collapse(d) { if (d.children) { d._children = d.children; d._children.forEach(collapse); d.children = null; } } function expand(d) { if (d._children) { d.children = d._children; d.children.forEach(expand); d._children = null; } } var overCircle = function(d) { selectedNode = d; updateTempConnector(); }; var outCircle = function(d) { selectedNode = null; updateTempConnector(); }; // Function to update the temporary connector indicating dragging affiliation var updateTempConnector = function() { var data = []; if (draggingNode !== null && selectedNode !== null) { // have to flip the source coordinates since we did this for the existing connectors on the original tree data = [ { source: { x: selectedNode.y0, y: selectedNode.x0 }, target: { x: draggingNode.y0, y: draggingNode.x0 } } ]; } var link = svgGroup.selectAll(".templink").data(data); link.enter().append("path").attr("class", "templink").attr("d", d3.svg.diagonal()).attr("pointer-events", "none"); link.attr("d", d3.svg.diagonal()); link.exit().remove(); }; // Function to center node when clicked/dropped so node doesn't get lost when collapsing/moving with large amount of children. function centerNode(source) { var nodes = tree.nodes(root); console.log(nodes); scale = zoomListener.scale(); scale = 1.0; x = source.y0; y = -source.x0; console.log("x => " + x); translateCoords = d3.transform(svgGroup.attr("transform")); var speed = panSpeed; translateCoords = d3.transform(svgGroup.attr("transform")); translateX = translateCoords.translate[0] + speed; console.log("translateX = " + translateX); if( translateX < 250 ){ x = x * scale + viewerWidth / 2 - translateX; }else{ x = x * scale + viewerWidth / 3 - translateX; } console.log("x => " + x); y = y * scale + viewerHeight / 2; d3.select("g") .transition() .duration(duration) .attr("transform", "translate(" + x + "," + y + ")scale(" + scale + ")"); zoomListener.scale(scale); zoomListener.translate([x, y]); } // Toggle children function function toggleChildren(d) { if (d.children) { d._children = d.children; d.children = null; } else if (d._children) { d.children = d._children; d._children = null; } return d; } // Toggle children on click. function click(d) { console.log("clickEvent", d); if (d3.event.defaultPrevented) return; // click suppressed d = toggleChildren(d); update(d); centerNode(d); } function update(source) { // Compute the new height, function counts total children of root node and sets tree height accordingly. // This prevents the layout looking squashed when new nodes are made visible or looking sparse when nodes are removed // This makes the layout more consistent. var levelWidth = [1]; var childCount = function(level, n) { if (n.children && n.children.length > 0) { if (levelWidth.length <= level + 1) levelWidth.push(0); levelWidth[level + 1] += n.children.length; n.children.forEach(function(d) { childCount(level + 1, d); }); } }; childCount(0, root); var newHeight = d3.max(levelWidth) * 40; // 25 pixels per line tree = tree.size([newHeight, viewerWidth]); // Compute the new tree layout. var nodes = tree.nodes(root).reverse(), links = tree.links(nodes); // Set widths between levels based on maxLabelLength. nodes.forEach(function(d) { console.log("[common.js] update :: maxLabelLength = " + maxLabelLength); if( maxLabelLength < 20 ) { d.y = d.depth * (maxLabelLength * 10); //maxLabelLength * 10px }else{ d.y = d.depth * (maxLabelLength * 5); //maxLabelLength * 10px } // alternatively to keep a fixed scale one can set a fixed depth per level // Normalize for fixed-depth by commenting out below line // d.y = (d.depth * 500); //500px per level. }); // Update the nodes… node = svgGroup.selectAll("g.node").data(nodes, function(d) { return d.id || (d.id = ++i); }); // Enter any new nodes at the parent's previous position. var nodeEnter = node .enter() .append("g") .call(dragListener) .attr("class", "node") .attr("transform", function(d) { return "translate(" + source.y0 + "," + source.x0 + ")"; }) .on("click", click); nodeEnter .append("circle") .attr("class", "nodeCircle") .attr("r", 0) .style("fill", function(d) { return d._children ? "lightsteelblue" : "#fff"; }); nodeEnter .append("text") .attr("x", function(d) { return d.children || d._children ? -10 : 10; }) .attr("dy", function(d) { return d.children ? "-1em" : ".35em"; }) .attr("class", "nodeText") .attr("text-anchor", function(d) { return d.children || d._children ? "end" : "start"; }) .text(function(d) { return d.name; }) .style("text-align", "center") .style("fill-opacity", 0); nodeEnter .append("text") .attr("x", function(d) { return d.children ? -15 : -7; }) .attr("y", function(d) { return 15; }) .text(function(d) { return d.type; }) .on("click", function(d) { window.location = d.url; }) .style("font-size", "8px"); // phantom node to give us mouseover in a radius around it nodeEnter .append("circle") .attr("class", "ghostCircle") .attr("r", 15) .attr("opacity", function(d) { return d.children ? 0.2 : 0; }) // change this to zero to hide the target area .style("fill", "red") .attr("pointer-events", "mouseover") .on("mouseover", function(node) { overCircle(node); }) .on("mouseout", function(node) { outCircle(node); }); // Update the text to reflect whether node has children or not. node .select("text") .attr("x", function(d) { return d.children || d._children ? -10 : 10; }) .attr("text-anchor", function(d) { return d.children || d._children ? "end" : "start"; }) .text(function(d) { return replaceNbsp(d.name); }); // Change the circle fill depending on whether it has children and is collapsed node .select("circle.nodeCircle") .attr("r", 4.5) .style("fill", function(d) { return d._children ? "lightsteelblue" : "#fff"; }); // Transition nodes to their new position. var nodeUpdate = node .transition() .duration(duration) .attr("transform", function(d) { return "translate(" + d.y + "," + d.x + ")"; }); // Fade the text in nodeUpdate.select("text").style("fill-opacity", 1); // Transition exiting nodes to the parent's new position. var nodeExit = node .exit() .transition() .duration(duration) .attr("transform", function(d) { return "translate(" + source.y + "," + source.x + ")"; }) .remove(); nodeExit.select("circle").attr("r", 0); nodeExit.select("text").style("fill-opacity", 0); // Update the links… var link = svgGroup.selectAll("path.link").data(links, function(d) { return d.target.id; }); // Enter any new links at the parent's previous position. link .enter() .insert("path", "g") .attr("class", "link") .attr("d", function(d) { var o = { x: source.x0, y: source.y0 }; return diagonal({ source: o, target: o }); }); // Transition links to their new position. link.transition().duration(duration).attr("d", diagonal); // Transition exiting nodes to the parent's new position. link .exit() .transition() .duration(duration) .attr("d", function(d) { var o = { x: source.x, y: source.y }; return diagonal({ source: o, target: o }); }) .remove(); // Stash the old positions for transition. nodes.forEach(function(d) { d.x0 = d.x; d.y0 = d.y; }); } // Append a group which holds all nodes and which the zoom Listener can act upon. var svgGroup = baseSvg.append("g"); // Define the root root = treeData; root.x0 = viewerHeight / 2; root.y0 = 0; // Layout the tree initially and center on the root node. update(root); centerNode(root); }); } function replaceNbsp(text) { return text.replace(/ /g, ' '); }