TCAD.TWO.Constraints = {}; TCAD.EQUALS_ELIMINATION_ENABLED = true; /** @constructor */ TCAD.TWO.SubSystem = function() { this.alg = 1; this.error = 0; this.reduce = false; this.constraints = []; }; /** @constructor */ TCAD.TWO.ParametricManager = function(viewer) { this.viewer = viewer; this.subSystems = []; this.listeners = []; }; TCAD.TWO.ParametricManager.prototype.notify = function(event) { for (var i = 0; i < this.listeners.length; ++i) { var l = this.listeners[i]; l(event); } }; TCAD.TWO.ParametricManager.prototype.findComponents = function(constr) { if (this.subSystems.length === 0) { this.subSystems.push(new TCAD.TWO.SubSystem()); } return [0]; }; TCAD.TWO.ParametricManager.prototype.tune = function(subSystem) { }; TCAD.TWO.ParametricManager.prototype._add = function(constr) { var subSystemIds = this.findComponents(constr); var subSystem; switch (subSystemIds.length) { case 0: subSystem = new TCAD.TWO.SubSystem(); this.subSystems.push(subSystem); break; case 1: subSystem = this.subSystems[subSystemIds[0]]; break; default: subSystem = this.subSystems[subSystemIds[0]]; for (var i = 1; i < subSystemIds.length; i++) { var toMerge = subSystemIds[i]; for (var j = 0; j < toMerge.constraints.length; j++) { subSystem.push(toMerge.constraints[j]); } } break; } subSystem.constraints.push(constr); return subSystem; }; TCAD.TWO.ParametricManager.prototype.checkRedundancy = function (subSystem, constr) { var solver = this.prepareForSubSystem([], subSystem.constraints); if (solver.diagnose().conflict) { alert("Most likely this "+constr.NAME + " constraint is CONFLICTING!") } }; TCAD.TWO.ParametricManager.prototype.refresh = function() { this.solve(); this.notify(); this.viewer.refresh(); }; TCAD.TWO.ParametricManager.prototype.add = function(constr) { this.viewer.historyManager.checkpoint(); var subSystem = this._add(constr) this.checkRedundancy(subSystem, constr); this.refresh(); }; TCAD.TWO.ParametricManager.prototype.addAll = function(constrs) { for (var i = 0; i < constrs.length; i++) { var subSystem = this._add(constrs[i]); this.checkRedundancy(subSystem, constrs[i]); } this.refresh(); }; TCAD.TWO.ParametricManager.prototype.remove = function(constr) { this.viewer.historyManager.checkpoint(); for (var j = 0; j < this.subSystems.length; j++) { var sub = this.subSystems[j]; for (var i = 0; i < sub.constraints.length; ++i) { var p = sub.constraints[i]; if (p === constr) { sub.constraints.splice(i, 1); if (p.NAME === 'coi') { this.unlinkObjects(p.a, p.b); } break; } } } this.refresh(); }; TCAD.TWO.ParametricManager.prototype.removeConstraintsByObj = function(obj) { var ownedParams = []; obj.collectParams(ownedParams); this.removeConstraintsByParams(ownedParams); }; TCAD.TWO.ParametricManager.prototype.removeConstraintsByParams = function(ownedParams) { for (var s = 0; s < this.subSystems.length; s++) { var toRemove = []; var sub = this.subSystems[s]; for (var i = 0; i < sub.constraints.length; ++i) { var sdataArr = sub.constraints[i].getSolveData(); MAIN: for (var j = 0; j < sdataArr.length; j++) { var sdata = sdataArr[j]; var params = sdata[1]; for (var oi = 0; oi < ownedParams.length; ++oi) { for (var k = 0; k < params.length; ++k) { if (ownedParams[oi].id === params[k].id) { toRemove.push(i); break MAIN; } } } } } toRemove.sort(); for (var i = toRemove.length - 1; i >= 0 ; --i) { sub.constraints.splice( toRemove[i], 1); } } this.notify(); }; TCAD.TWO.ParametricManager.prototype.lock = function(objs) { var p = this._fetchPoints(objs); for (var i = 0; i < p.length; ++i) { this._add(new TCAD.TWO.Constraints.Lock(p[i], { x : p[i].x, y : p[i].y} )); } this.refresh(); }; TCAD.TWO.ParametricManager.prototype.vertical = function(objs) { this.add(new TCAD.TWO.Constraints.Vertical(this._fetchLine(objs))); }; TCAD.TWO.ParametricManager.prototype.horizontal = function(objs) { this.add(new TCAD.TWO.Constraints.Horizontal(this._fetchLine(objs))); }; TCAD.TWO.ParametricManager.prototype.parallel = function(objs) { var lines = this._fetchTwoLines(objs); this.add(new TCAD.TWO.Constraints.Parallel(lines[0], lines[1])); }; TCAD.TWO.ParametricManager.prototype.perpendicular = function(objs) { var lines = this._fetchTwoLines(objs); this.add(new TCAD.TWO.Constraints.Perpendicular(lines[0], lines[1])); }; TCAD.TWO.ParametricManager.prototype.tangent = function(objs) { var al = this._fetchArcCircAndLine(objs); var arc = al[0]; var line = al[1]; this.add(new TCAD.TWO.Constraints.Tangent( arc, line)); }; TCAD.TWO.ParametricManager.prototype.rr = function(objs) { var arcs = this._fetchArkCirc(objs, 2); var prev = arcs[0]; for (var i = 1; i < arcs.length; ++i) { this._add(new TCAD.TWO.Constraints.RR(prev, arcs[i])); prev = arcs[i]; } this.refresh(); }; TCAD.TWO.ParametricManager.prototype.p2lDistance = function(objs, promptCallback) { var pl = this._fetchPointAndLine(objs); var target = pl[0]; var segment = pl[1]; var ex = new TCAD.Vector(-(segment.b.y - segment.a.y), segment.b.x - segment.a.x).normalize(); var distance = Math.abs(ex.dot(new TCAD.Vector(segment.a.x - target.x, segment.a.y - target.y))); var promptDistance = TCAD.TWO.utils.askNumber(TCAD.TWO.Constraints.P2LDistance.prototype.SettableFields.d, distance.toFixed(2), promptCallback); if (promptDistance != null) { this.add(new TCAD.TWO.Constraints.P2LDistance(target, segment, promptDistance)); } }; TCAD.TWO.ParametricManager.prototype.pointOnLine = function(objs) { var pl = this._fetchPointAndLine(objs); var target = pl[0]; var segment = pl[1]; this.add(new TCAD.TWO.Constraints.PointOnLine(target, segment)); }; TCAD.TWO.utils.constRef = function(value) { return function() { return value; }; }; TCAD.TWO.ParametricManager.prototype.p2pDistance = function(objs, promptCallback) { var p = this._fetchTwoPoints(objs); var distance = new TCAD.Vector(p[1].x - p[0].x, p[1].y - p[0].y).length(); var promptDistance = TCAD.TWO.utils.askNumber(TCAD.TWO.Constraints.P2PDistance.prototype.SettableFields.d, distance.toFixed(2), promptCallback); if (promptDistance != null) { this.add(new TCAD.TWO.Constraints.P2PDistance(p[0], p[1], promptDistance)); } }; TCAD.TWO.utils.askNumber = function(promptText, initValue, promptCallback) { var promptValue = promptCallback(promptText, initValue); if (promptValue != null) { promptValue = Number(promptValue); if (promptValue == promptValue) { // check for NaN return promptValue; } } return null; }; TCAD.TWO.ParametricManager.prototype.radius = function(objs, promptCallback) { var arcs = this._fetchArkCirc(objs, 1); var radius = arcs[0].r.get(); var promptDistance = TCAD.TWO.utils.askNumber(TCAD.TWO.Constraints.Radius.prototype.SettableFields.d, radius.toFixed(2), promptCallback); if (promptDistance != null) { for (var i = 0; i < arcs.length; ++i) { this._add(new TCAD.TWO.Constraints.Radius(arcs[i], promptDistance)); } this.refresh(); } }; TCAD.TWO.ParametricManager.prototype.linkObjects = function(objs) { var i; var masterIdx = -1; for (i = 0; i < objs.length; ++i) { if (TCAD.TWO.ParametricManager.isAux(objs[i])) { if (masterIdx !== -1) { throw "not allowed to have a coincident constraint between two or more auxiliary objects"; } masterIdx = i; } } if (masterIdx === -1) masterIdx = objs.length - 1; for (i = 0; i < objs.length; ++i) { if (i === masterIdx) continue; objs[i].x = objs[masterIdx].x; objs[i].y = objs[masterIdx].y; var c = new TCAD.TWO.Constraints.Coincident(objs[i], objs[masterIdx]); this._add(c); } this.notify(); }; TCAD.TWO.ParametricManager.prototype.unlinkObjects = function(a, b) { function _unlink(a, b) { for (var i = 0; i < a.linked.length; ++i) { var obj = a.linked[i]; if (obj.id === b.id) { a.linked.splice(i, 1); break; } } } _unlink(a, b); _unlink(b, a); }; TCAD.TWO.ParametricManager.prototype.coincident = function(objs) { if (objs.length == 0) return; this.linkObjects(objs); this.solve(); this.viewer.refresh(); }; TCAD.TWO.ParametricManager.prototype.getSolveData = function() { var sdata = []; for (var i = 0; i < this.subSystems.length; i++) { this.__getSolveData(this.subSystems[i].constraints, sdata); } return sdata; }; TCAD.TWO.ParametricManager.prototype.__getSolveData = function(constraints, out) { for (var i = 0; i < constraints.length; ++i) { var constraint = constraints[i]; var data = constraint.getSolveData(); for (var j = 0; j < data.length; ++j) { data[j].push(constraint.reducible !== undefined); out.push(data[j]); } } return out; }; TCAD.TWO.ParametricManager.prototype.solve = function() { var solver = this.prepare([]); solver.solve(false); solver.sync(); }; TCAD.TWO.ParametricManager.prototype.solveWithLock = function(lock) { var solver = this.prepare(lock); solver.solve(false); solver.sync(); }; TCAD.TWO.ParametricManager.prototype.prepare = function(locked, extraConstraints) { return this._prepare(locked, this.subSystems, extraConstraints); }; TCAD.TWO.ParametricManager.prototype._prepare = function(locked, subSystems, extraConstraints) { var solvers = []; for (var i = 0; i < subSystems.length; i++) { solvers.push(this.prepareForSubSystem(locked, subSystems[i].constraints, extraConstraints)); } if (subSystems.length == 0 && locked.length != 0) { solvers.push(this.prepareForSubSystem(locked, [], extraConstraints)); } return { solvers : solvers, solve : function(rough) { for (var i = 0; i < solvers.length; i++) { var alg = i < subSystems.length ? subSystems[i].alg : 1; var res = solvers[i].solve(rough, alg); if (res.returnCode !== 1) { alg = alg == 1 ? 2 : 1; //if (solvers[i].solve(rough, alg).returnCode == 1) { //subSystems[i].alg = alg; //} } } }, sync : function() { for (var i = 0; i < solvers.length; i++) { solvers[i].sync(); } }, updateLock : function(values) { for (var i = 0; i < solvers.length; i++) { solvers[i].updateLock(values); } } } }; TCAD.TWO.ParametricManager.isAux = function(obj) { while (!!obj) { if (!!obj.aux) { return true; } obj = obj.parent; } return false; }; TCAD.TWO.ParametricManager.findAuxIndices = function(system) { var auxParams = []; for (var i = 0; i < system.length; ++i) { for (var p = 0; p < system[i][1].length; ++p) { var parameter = system[i][1][p]; if (parameter.obj !== undefined) { parameter.__aux = TCAD.TWO.ParametricManager.isAux(parameter.obj); if (parameter.__aux) { auxParams.push(parameter); } } } } return auxParams; }; TCAD.TWO.ParametricManager.__toId = function(v) { return v.id; }; TCAD.TWO.ParametricManager.prototype.prepareForSubSystem = function(locked, subSystemConstraints, extraConstraints) { var pdict = {}; var params; var _constrs = []; var equalsDict = {}; var equalsIndex = []; var eqcElimination = {}; var lockedIds = locked.map(function(p) {return p.id}); function peq(p1, p2) { return Math.abs(p1.get() - p2.get()) <= 0.000001 } var system = []; this.__getSolveData(subSystemConstraints, system); if (!!extraConstraints) this.__getSolveData(extraConstraints, system); // system.sort(function(a, b){ // a = a[0] === 'equal' ? 1 : 2; // b = b[0] === 'equal' ? 1 : 2; // return a - b; // }); var auxParams = TCAD.TWO.ParametricManager.findAuxIndices(system); var tuples = []; if (TCAD.EQUALS_ELIMINATION_ENABLED) { var c, pi, paramIndex = {}; function intersect(array1, array2) { if (!array1 || !array2) return false; return array1.filter(function(n) { return array2.indexOf(n) != -1 }).length != 0; } for (i = 0; i < system.length; ++i) { c = system[i]; if (c[3] !== true) { var sameParams = {}; for (pi = 0; pi < c[1].length; pi++) { var param = c[1][pi]; var paramConstrs = paramIndex[param.id]; if (paramConstrs === undefined) { paramConstrs = []; paramIndex[param.id] = paramConstrs; } paramConstrs.push(i); } } } for (i = 0; i < system.length; ++i) { c = system[i]; if (c[3] === true) { //Reduce flag var cp1 = c[1][0]; var cp2 = c[1][1]; var p0 = cp1.id; var p1 = cp2.id; var assoc0 = paramIndex[p0]; var assoc1 = paramIndex[p1]; if (intersect(assoc0, assoc1)) { continue; } equalsDict[p0] = cp1; equalsDict[p1] = cp2; tuples.push([p0, p1]); eqcElimination[i] = true; } } } function _check(index, p0, p1) { var exists = index.indexOf(p0) >= 0; if (exists) { if (index.indexOf(p1) < 0) { index.push(p1); } } return exists; } function _merge(arr1, arr2) { for (var i = 0; i < arr2.length; ++i) { if (arr1.indexOf(arr2[i]) < 0) { arr1.push(arr2[i]); } } } function _join(tuples, index) { var tuple = tuples[index]; tuples[index] = null; for (var i = 0; i < tuples.length; ++i) { var t1 = tuples[i]; if (t1 == null) continue; if (tuple.indexOf(t1[0]) >= 0 || tuple.indexOf(t1[1]) >= 0) { _join(tuples, i); _merge(tuple, t1); } } } var readOnlyParams = auxParams.concat(locked); for (var i = 0; i < tuples.length; ++i) { var tuple = tuples[i]; if (tuple != null) { equalsIndex.push(tuple); _join(tuples, i) for (var mi = 0; mi < readOnlyParams.length; ++mi) { var master = readOnlyParams[mi]; var masterIdx = tuple.indexOf(master.id); if (masterIdx >= 0) { var tmp = tuple[0]; tuple[0] = tuple[masterIdx]; tuple[masterIdx] = tmp; break; } } } } var equalsElimination = {}; for (ei = 0; ei < equalsIndex.length; ++ei) { var master = equalsIndex[ei][0]; for (i = 1; i < equalsIndex[ei].length; ++i) { equalsElimination[equalsIndex[ei][i]] = master; } } function getParam(p) { var master = equalsElimination[p.id]; if (master !== undefined) { p = equalsDict[master]; } var _p = pdict[p.id]; if (_p === undefined) { if (p.__cachedParam__ === undefined) { _p = new TCAD.parametric.Param(p.id, p.get(), !!p.__aux); p.__cachedParam__ = _p; } else { _p = p.__cachedParam__; _p.reset(p.get()); } _p._backingParam = p; pdict[p.id] = _p; } return _p; } var i; var p; var _p; var ei; var aux = []; for (i = 0; i < system.length; ++i) { if (eqcElimination[i] === true) continue; var sdata = system[i]; params = []; for (p = 0; p < sdata[1].length; ++p) { var param = sdata[1][p]; _p = getParam(param); params.push(_p); if (param.__aux) aux.push(_p); } var _constr = TCAD.constraints.create(sdata[0], params, sdata[2]); _constrs.push(_constr); } var _locked = []; if (locked !== undefined) { for (p = 0; p < locked.length; ++p) { _locked[p] = getParam(locked[p]); } } var solver = TCAD.parametric.prepare(_constrs, _locked, aux); function solve(rough, alg) { for (p in pdict) { _p = pdict[p]; _p.set(_p._backingParam.get()); } return solver.solveSystem(rough, alg); } var viewer = this.viewer; function sync() { for (p in pdict) { _p = pdict[p]; if (!!_p._backingParam.__aux) continue; _p._backingParam.set(_p.get()); } //Make sure all coincident constraints are equal for (ei = 0; ei < equalsIndex.length; ++ei) { var master = equalsDict[ equalsIndex[ei][0]]; for (i = 1; i < equalsIndex[ei].length; ++i) { var slave = equalsDict[equalsIndex[ei][i]]; slave.set(master.get()); } } } solver.solve = solve; solver.sync = sync; return solver; }; TCAD.TWO.Constraints.Factory = {}; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.Coincident = function(a, b) { this.a = a; this.b = b; a.linked.push(b); b.linked.push(a); }; TCAD.TWO.Constraints.Coincident.prototype.NAME = 'coi'; TCAD.TWO.Constraints.Coincident.prototype.UI_NAME = 'Coincident'; TCAD.TWO.Constraints.Coincident.prototype.reducible = true; TCAD.TWO.Constraints.Coincident.prototype.getSolveData = function() { return [ ['equal', [this.a._x, this.b._x], []], ['equal', [this.a._y, this.b._y], []] ]; }; TCAD.TWO.Constraints.Coincident.prototype.serialize = function() { return [this.NAME, [this.a.id, this.b.id]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.Coincident.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.Coincident(refs(data[0]), refs(data[1])); }; TCAD.TWO.Constraints.Coincident.prototype.getObjects = function() { return [this.a, this.b]; }; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.Lock = function(p, c) { this.p = p; this.c = c; }; TCAD.TWO.Constraints.Lock.prototype.NAME = 'lock'; TCAD.TWO.Constraints.Lock.prototype.UI_NAME = 'Lock'; TCAD.TWO.Constraints.Lock.prototype.getSolveData = function() { return [ ['equalsTo', [this.p._x], [this.c.x]], ['equalsTo', [this.p._y], [this.c.y]] ]; }; TCAD.TWO.Constraints.Lock.prototype.serialize = function() { return [this.NAME, [this.p.id, this.c]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.Lock.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.Lock(refs(data[0]), data[1]); }; TCAD.TWO.Constraints.Lock.prototype.getObjects = function() { return [this.p]; }; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.Parallel = function(l1, l2) { this.l1 = l1; this.l2 = l2; }; TCAD.TWO.Constraints.Parallel.prototype.NAME = 'parallel'; TCAD.TWO.Constraints.Parallel.prototype.UI_NAME = 'Parallel'; TCAD.TWO.Constraints.Parallel.prototype.getSolveData = function() { var params = []; this.l1.collectParams(params); this.l2.collectParams(params); return [[this.NAME, params, []]]; }; TCAD.TWO.Constraints.Parallel.prototype.serialize = function() { return [this.NAME, [this.l1.id, this.l2.id]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.Parallel.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.Parallel(refs(data[0]), refs(data[1])); }; TCAD.TWO.Constraints.Parallel.prototype.getObjects = function() { return [this.l1, this.l2]; }; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.Perpendicular = function(l1, l2) { this.l1 = l1; this.l2 = l2; }; TCAD.TWO.Constraints.Perpendicular.prototype.NAME = 'perpendicular'; TCAD.TWO.Constraints.Perpendicular.prototype.UI_NAME = 'Perpendicular'; TCAD.TWO.Constraints.Perpendicular.prototype.getSolveData = function() { var params = []; this.l1.collectParams(params); this.l2.collectParams(params); return [[this.NAME, params, []]]; }; TCAD.TWO.Constraints.Perpendicular.prototype.serialize = function() { return [this.NAME, [this.l1.id, this.l2.id]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.Perpendicular.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.Perpendicular(refs(data[0]), refs(data[1])); }; TCAD.TWO.Constraints.Perpendicular.prototype.getObjects = function() { return [this.l1, this.l2]; }; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.P2LDistance = function(p, l, d) { this.p = p; this.l = l; this.d = d; }; TCAD.TWO.Constraints.P2LDistance.prototype.NAME = 'P2LDistance'; TCAD.TWO.Constraints.P2LDistance.prototype.UI_NAME = 'Distance P & L'; TCAD.TWO.Constraints.P2LDistance.prototype.getSolveData = function() { var params = []; this.p.collectParams(params); this.l.collectParams(params); return [[this.NAME, params, [this.d]]]; }; TCAD.TWO.Constraints.P2LDistance.prototype.serialize = function() { return [this.NAME, [this.p.id, this.l.id, this.d]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.P2LDistance.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.P2LDistance(refs(data[0]), refs(data[1]), data[2]); }; TCAD.TWO.Constraints.P2LDistance.prototype.getObjects = function() { return [this.p, this.l]; }; TCAD.TWO.Constraints.P2LDistance.prototype.SettableFields = {'d' : "Enter the distance"}; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.P2LDistanceV = function(p, l, d) { this.p = p; this.l = l; this.d = d; this.aux = true; }; TCAD.TWO.Constraints.P2LDistanceV.prototype.NAME = 'P2LDistanceV'; TCAD.TWO.Constraints.P2LDistanceV.prototype.UI_NAME = 'Distance P & L'; TCAD.TWO.Constraints.P2LDistanceV.prototype.getSolveData = function() { var params = []; this.p.collectParams(params); this.l.collectParams(params); params.push(this.d); return [[this.NAME, params]]; }; // We don't serialize auxiliary constraints // //TCAD.TWO.Constraints.P2LDistanceV.prototype.serialize = function() { // return [this.NAME, [this.p.id, this.l.id, this.d.id]]; //}; // //TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.P2LDistanceV.prototype.NAME] = function(refs, data) { // return new TCAD.TWO.Constraints.P2LDistanceV(refs(data[0]), refs(data[1]), refs(data[2])); //}; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.P2PDistance = function(p1, p2, d) { this.p1 = p1; this.p2 = p2; this.d = d; }; TCAD.TWO.Constraints.P2PDistance.prototype.NAME = 'P2PDistance'; TCAD.TWO.Constraints.P2PDistance.prototype.UI_NAME = 'Distance Points'; TCAD.TWO.Constraints.P2PDistance.prototype.getSolveData = function() { var params = []; this.p1.collectParams(params); this.p2.collectParams(params); return [[this.NAME, params, [this.d]]]; }; TCAD.TWO.Constraints.P2PDistance.prototype.serialize = function() { return [this.NAME, [this.p1.id, this.p2.id, this.d]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.P2PDistance.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.P2PDistance(refs(data[0]), refs(data[1]), data[2]); }; TCAD.TWO.Constraints.P2PDistance.prototype.getObjects = function() { return [this.p1, this.p2]; }; TCAD.TWO.Constraints.P2PDistance.prototype.SettableFields = {'d' : "Enter the distance"}; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.P2PDistanceV = function(p1, p2, d) { this.p1 = p1; this.p2 = p2; this.d = d; this.aux = true; }; TCAD.TWO.Constraints.P2PDistanceV.prototype.NAME = 'P2PDistanceV'; TCAD.TWO.Constraints.P2PDistanceV.prototype.UI_NAME = 'Distance Points'; TCAD.TWO.Constraints.P2PDistanceV.prototype.getSolveData = function() { var params = []; this.p1.collectParams(params); this.p2.collectParams(params); params.push(this.d); return [[this.NAME, params]]; }; // We don't serialize auxiliary constraints // //TCAD.TWO.Constraints.P2PDistanceV.prototype.serialize = function() { // return [this.NAME, [this.p1.id, this.p2.id, this.d.id]]; //}; // //TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.P2PDistanceV.prototype.NAME] = function(refs, data) { // return new TCAD.TWO.Constraints.P2PDistanceV(refs(data[0]), refs(data[1]), refs(data[2])); //}; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.Radius = function(arc, d) { this.arc = arc; this.d = d; }; TCAD.TWO.Constraints.Radius.prototype.NAME = 'Radius'; TCAD.TWO.Constraints.Radius.prototype.UI_NAME = 'Radius Value'; TCAD.TWO.Constraints.Radius.prototype.getSolveData = function() { return [['equalsTo', [this.arc.r], [this.d]]]; }; TCAD.TWO.Constraints.Radius.prototype.serialize = function() { return [this.NAME, [this.arc.id, this.d]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.Radius.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.Radius(refs(data[0]), data[1]); }; TCAD.TWO.Constraints.Radius.prototype.getObjects = function() { return [this.arc]; }; TCAD.TWO.Constraints.Radius.prototype.SettableFields = {'d' : "Enter the radius value"}; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.RR = function(arc1, arc2) { this.arc1 = arc1; this.arc2 = arc2; }; TCAD.TWO.Constraints.RR.prototype.NAME = 'RR'; TCAD.TWO.Constraints.RR.prototype.UI_NAME = 'Radius Equality'; //TCAD.TWO.Constraints.RR.prototype.reducible = true; TCAD.TWO.Constraints.RR.prototype.getSolveData = function() { return [['equal', [this.arc1.r, this.arc2.r], []]]; }; TCAD.TWO.Constraints.RR.prototype.serialize = function() { return [this.NAME, [this.arc1.id, this.arc2.id]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.RR.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.RR(refs(data[0]), refs(data[1])); }; TCAD.TWO.Constraints.RR.prototype.getObjects = function() { return [this.arc1, this.arc2]; }; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.Vertical = function(line) { this.line = line; }; TCAD.TWO.Constraints.Vertical.prototype.NAME = 'Vertical'; TCAD.TWO.Constraints.Vertical.prototype.UI_NAME = 'Vertical'; //TCAD.TWO.Constraints.Vertical.prototype.reducible = true; TCAD.TWO.Constraints.Vertical.prototype.getSolveData = function() { return [['equal', [this.line.a._x, this.line.b._x], []]]; }; TCAD.TWO.Constraints.Vertical.prototype.serialize = function() { return [this.NAME, [this.line.id]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.Vertical.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.Vertical(refs(data[0])); }; TCAD.TWO.Constraints.Vertical.prototype.getObjects = function() { return [this.line]; }; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.Horizontal = function(line) { this.line = line; }; TCAD.TWO.Constraints.Horizontal.prototype.NAME = 'Horizontal'; TCAD.TWO.Constraints.Horizontal.prototype.UI_NAME = 'Horizontal'; //TCAD.TWO.Constraints.Horizontal.prototype.reducible = true; TCAD.TWO.Constraints.Horizontal.prototype.getSolveData = function() { return [['equal', [this.line.a._y, this.line.b._y], []]]; }; TCAD.TWO.Constraints.Horizontal.prototype.serialize = function() { return [this.NAME, [this.line.id]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.Horizontal.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.Horizontal(refs(data[0])); }; TCAD.TWO.Constraints.Horizontal.prototype.getObjects = function() { return [this.line]; }; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.Tangent = function(arc, line) { this.arc = arc; this.line = line; }; TCAD.TWO.Constraints.Tangent.prototype.NAME = 'Tangent'; TCAD.TWO.Constraints.Tangent.prototype.UI_NAME = 'Tangent'; TCAD.TWO.Constraints.Tangent.prototype.getSolveData = function() { var params = []; this.arc.c.collectParams(params); this.line.collectParams(params); params.push(this.arc.r); return [['P2LDistanceV', params, []]]; }; TCAD.TWO.Constraints.Tangent.prototype.serialize = function() { return [this.NAME, [this.arc.id, this.line.id]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.Tangent.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.Tangent(refs(data[0]), refs(data[1])); }; TCAD.TWO.Constraints.Tangent.prototype.getObjects = function() { return [this.arc, this.line]; }; // ------------------------------------------------------------------------------------------------------------------ // /** @constructor */ TCAD.TWO.Constraints.PointOnLine = function(point, line) { this.point = point; this.line = line; }; TCAD.TWO.Constraints.PointOnLine.prototype.NAME = 'PointOnLine'; TCAD.TWO.Constraints.PointOnLine.prototype.UI_NAME = 'Point On Line'; TCAD.TWO.Constraints.PointOnLine.prototype.getSolveData = function() { var params = []; this.point.collectParams(params); this.line.collectParams(params); return [['P2LDistance', params, [0]]]; }; TCAD.TWO.Constraints.PointOnLine.prototype.serialize = function() { return [this.NAME, [this.point.id, this.line.id]]; }; TCAD.TWO.Constraints.Factory[TCAD.TWO.Constraints.PointOnLine.prototype.NAME] = function(refs, data) { return new TCAD.TWO.Constraints.PointOnLine(refs(data[0]), refs(data[1])); }; TCAD.TWO.Constraints.PointOnLine.prototype.getObjects = function() { return [this.point, this.line]; }; // ------------------------------------------------------------------------------------------------------------------ //