var editor = {}; var pi2 = Math.PI / 2; editor.selection = undefined; editor.mouseOver = undefined; editor.gridTimeOut = 0; editor.orientations = [ new THREE.Euler(pi2, 0, 0), new THREE.Euler(0, 0, 0), new THREE.Euler(pi2, 0, pi2), ]; editor.checkTimeOut = function() { editor.gridTimeOut += 1; editor.grid.visible = editor.gridTimeOut < 500; } editor.onFreeMove = function() { var found = editor.findNodeOnRay(mouse.ray); if (editor.mouseOver !== found) { editor.mouseOver = found; if (found) { var n = abj.node[found]; var s = "Node " + found + "
"; for (var i in n) { if (i!="position"){ s += i + ":" + n[i] + " "; } } s += ""; gui.nodeMessage(s); } else { gui.hideNodeMessage(); } } }; editor.focus = function(node) { gui.hideNodeMessage(); editor.selection = node; var rotation = editor.orientations[editor.orientation]; var normal = new THREE.Vector3(0, 1, 0); normal.applyEuler(rotation); editor.grid.rotation.copy(rotation); editor.plane = new THREE.Plane(); editor.plane.setFromNormalAndCoplanarPoint(normal, editor.grid.position); //gui.serverMessage("Selected node " + node + "."); }; editor.addQubitAtPoint = function(point) { if (point === null) { return; } point.round(); var new_node = Math.floor(point.x) + "," + Math.floor(point.y) + "," + Math.floor(point.z); if (Object.prototype.hasOwnProperty.call(abj.node, new_node)) { gui.serverMessage("Node " + new_node +" already exists."); return; } api.edit({action:"create", name:new_node, position: point}); editor.focus(new_node); gui.serverMessage("Created node " + new_node +"."); }; editor.onClick = function() { var found = editor.findNodeOnRay(mouse.ray); if (found) { var node=found; editor.grid.position.copy(abj.node[node].position); gui.controls.target.copy(abj.node[node].position); editor.focus(found); node_name.innerHTML = "Node " + node; node_data.className = "visible"; node_vop.innerHTML = "VOP: " + abj.node[node].vop; } else { var intersection = mouse.ray.intersectPlane(editor.plane); if (intersection !== null) { editor.addQubitAtPoint(intersection); } } }; editor.onShiftClick = function() { var found = editor.findNodeOnRay(mouse.ray); if (found === undefined){ return; } if (editor.selection === undefined){ return; } if (found === editor.selection){ return; } //abj.act_cz(found, editor.selection); api.edit({action:"cz", start:found, end:editor.selection}); gui.serverMessage("Acted CZ between " + found + " & " + editor.selection + "."); editor.focus(found); }; editor.onCtrlClick = function() { var found = editor.findNodeOnRay(mouse.ray); if (found === undefined){ return; } if (editor.selection === undefined){ return; } editor.focus(found); api.edit({action:"hadamard", node:found}); gui.serverMessage("Acted H on node " + found + "."); }; editor.prepare = function() { mouse.onFreeMove = editor.onFreeMove; mouse.onClick = editor.onClick; mouse.onShiftClick = editor.onShiftClick; mouse.onCtrlClick = editor.onCtrlClick; document.addEventListener("keydown", editor.onKey, false); editor.makeGrid(); }; editor.onKey = function(evt) { if (evt.keyCode === 32) { editor.setOrientation((editor.orientation + 1) % 3); } if (evt.keyCode === 46 || evt.keyCode === 68) { editor.deleteNode(); } }; editor.setOrientation = function(orientation) { editor.orientation = orientation; var rotation = editor.orientations[orientation]; var normal = new THREE.Vector3(0, 1, 0); normal.applyEuler(rotation); editor.grid.rotation.copy(rotation); editor.plane = new THREE.Plane(); editor.plane.setFromNormalAndCoplanarPoint(normal, editor.grid.position); gui.render(); }; editor.makeGrid = function() { editor.grid = new THREE.GridHelper(10, 1); editor.grid.setColors(0xbbbbbb, 0xeeeeee); editor.grid.renderOrder = 1000; editor.setOrientation(0); gui.scene.add(editor.grid); gui.scene.children[0].renderOrder = -3000; }; editor.update = function() {}; // Gets a reference to the node nearest to the mouse cursor editor.findNodeOnRay = function(ray) { for (var n in abj.node) { if (ray.distanceSqToPoint(abj.node[n].position) < 0.012) { return n; } } return undefined; }; editor.deleteNode = function() { if (editor.selection === undefined){ return; } api.edit({action:"delete", node:editor.selection}); gui.serverMessage("Deleted node " + editor.selection + "."); editor.selection = undefined; node_data.className = "hidden"; }; //TODO: loadsa space for DRY here editor.hadamard = function() { if (editor.selection === undefined){ return; } api.edit({action:"hadamard", node:editor.selection}); gui.serverMessage("Acted Hadamard on node " + editor.selection + "."); }; editor.phase = function() { if (editor.selection === undefined){ return; } api.edit({action:"phase", node:editor.selection}); gui.serverMessage("Acted phase on node " + editor.selection + "."); }; editor.measureX = function() { if (editor.selection === undefined){ return; } api.edit({action:"measure", node:editor.selection, basis:"x"}); gui.serverMessage("Measured node " + editor.selection + " in X."); }; editor.measureY = function() { if (editor.selection === undefined){ return; } api.edit({action:"measure", node:editor.selection, basis:"y"}); gui.serverMessage("Measured node " + editor.selection + " in Y."); }; editor.measureZ = function() { if (editor.selection === undefined){ return; } api.edit({action:"measure", node:editor.selection, basis:"z"}); gui.serverMessage("Measured node " + editor.selection + " in z."); }; editor.clear = function() { api.edit({action:"clear"}); gui.serverMessage("Cleared the graph"); }; editor.raussendorf = function() { api.edit({action:"raussendorf"}); gui.serverMessage("Made some Raussendorf lattice"); }; editor.localComplementation = function() { if (editor.selection === undefined){ return; } api.edit({action:"localcomplementation", node:editor.selection}); abj.local_complementation(editor.selection); gui.serverMessage("Inverted neighbourhood of " + editor.selection + "."); }; setInterval(editor.checkTimeOut, 100);