describe('iD.actionOrthogonalize', function () { var projection = d3.geoMercator(); it('orthogonalizes a perfect quad', function () { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [2, 0]}), iD.Node({id: 'c', loc: [2, 2]}), iD.Node({id: 'd', loc: [0, 2]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'a']}) ]); graph = iD.actionOrthogonalize('-', projection)(graph); expect(graph.entity('-').nodes).to.have.length(5); }); it('orthogonalizes a quad', function () { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [4, 0]}), iD.Node({id: 'c', loc: [3, 2]}), iD.Node({id: 'd', loc: [0, 2]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'a']}) ]); graph = iD.actionOrthogonalize('-', projection)(graph); expect(graph.entity('-').nodes).to.have.length(5); }); it('orthogonalizes a triangle', function () { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [3, 0]}), iD.Node({id: 'c', loc: [2, 2]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'a']}) ]); graph = iD.actionOrthogonalize('-', projection)(graph); expect(graph.entity('-').nodes).to.have.length(4); }); it('deletes empty redundant nodes', function() { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [2, 0]}), iD.Node({id: 'c', loc: [2, 2]}), iD.Node({id: 'd', loc: [1, 2]}), iD.Node({id: 'e', loc: [0, 2]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'e', 'a']}) ]); graph = iD.actionOrthogonalize('-', projection)(graph); expect(graph.hasEntity('d')).to.eq(undefined); }); it('preserves non empty redundant nodes', function() { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [2, 0]}), iD.Node({id: 'c', loc: [2, 2]}), iD.Node({id: 'd', loc: [1, 2], tags: {foo: 'bar'}}), iD.Node({id: 'e', loc: [0, 2]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'e', 'a']}) ]); graph = iD.actionOrthogonalize('-', projection)(graph); expect(graph.entity('-').nodes).to.have.length(6); expect(graph.hasEntity('d')).to.not.eq(undefined); }); it('preserves the shape of skinny quads', function () { var tests = [ [ [-77.0339864831478, 38.8616391227204], [-77.0209775298677, 38.8613609264884], [-77.0210405781065, 38.8607390721519], [-77.0339024188294, 38.8610663645859] ], [ [-89.4706683, 40.6261177], [-89.4706664, 40.6260574], [-89.4693973, 40.6260830], [-89.4694012, 40.6261355] ] ]; for (var i = 0; i < tests.length; i++) { var graph = iD.Graph([ iD.Node({id: 'a', loc: tests[i][0]}), iD.Node({id: 'b', loc: tests[i][1]}), iD.Node({id: 'c', loc: tests[i][2]}), iD.Node({id: 'd', loc: tests[i][3]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'a']}) ]), initialWidth = iD.geoSphericalDistance(graph.entity('a').loc, graph.entity('b').loc), finalWidth; graph = iD.actionOrthogonalize('-', projection)(graph); finalWidth = iD.geoSphericalDistance(graph.entity('a').loc, graph.entity('b').loc); expect(finalWidth / initialWidth).within(0.90, 1.10); } }); it('only moves nodes which are near right or near straight', function() { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [3, 0.001]}), iD.Node({id: 'c', loc: [3, 1]}), iD.Node({id: 'd', loc: [2, 1]}), iD.Node({id: 'e', loc: [1, 2]}), iD.Node({id: 'f', loc: [0, 2]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'e', 'f', 'a']}) ]), diff = iD.Difference(graph, iD.actionOrthogonalize('-', projection)(graph)); expect(Object.keys(diff.changes()).sort()).to.eql(['a', 'b', 'c', 'f']); }); describe('transitions', function () { it('is transitionable', function() { expect(iD.actionOrthogonalize().transitionable).to.be.true; }); it('orthogonalize at t = 0', function() { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [1, 0.01], tags: {foo: 'bar'}}), iD.Node({id: 'c', loc: [2, -0.01]}), iD.Node({id: 'd', loc: [3, 0]}), iD.Node({id: 'e', loc: [3, 1]}), iD.Node({id: 'f', loc: [0, 1]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'e', 'f', 'a']}) ]); graph = iD.actionOrthogonalize('-', projection)(graph, 0); expect(graph.entity('-').nodes).to.eql(['a', 'b', 'c', 'd', 'e', 'f', 'a']); expect(graph.entity('b').loc[0]).to.be.closeTo(1, 1e-6); expect(graph.entity('b').loc[1]).to.be.closeTo(0.01, 1e-6); expect(graph.entity('c').loc[0]).to.be.closeTo(2, 1e-6); expect(graph.entity('c').loc[1]).to.be.closeTo(-0.01, 1e-6); }); it('orthogonalize at t = 0.5', function() { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [1, 0.01], tags: {foo: 'bar'}}), iD.Node({id: 'c', loc: [2, -0.01]}), iD.Node({id: 'd', loc: [3, 0]}), iD.Node({id: 'e', loc: [3, 1]}), iD.Node({id: 'f', loc: [0, 1]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'e', 'f', 'a']}) ]); graph = iD.actionOrthogonalize('-', projection)(graph, 0.5); expect(graph.entity('-').nodes).to.eql(['a', 'b', 'c', 'd', 'e', 'f', 'a']); expect(graph.entity('b').loc[0]).to.be.closeTo(1, 1e-3); expect(graph.entity('b').loc[1]).to.be.closeTo(0.005, 1e-3); expect(graph.entity('c').loc[0]).to.be.closeTo(2, 1e-3); expect(graph.entity('c').loc[1]).to.be.closeTo(-0.005, 1e-3); }); it('orthogonalize at t = 1', function() { var graph = iD.Graph([ iD.Node({id: 'a', loc: [0, 0]}), iD.Node({id: 'b', loc: [1, 0.01], tags: {foo: 'bar'}}), iD.Node({id: 'c', loc: [2, -0.01]}), iD.Node({id: 'd', loc: [3, 0]}), iD.Node({id: 'e', loc: [3, 1]}), iD.Node({id: 'f', loc: [0, 1]}), iD.Way({id: '-', nodes: ['a', 'b', 'c', 'd', 'e', 'f', 'a']}) ]); graph = iD.actionOrthogonalize('-', projection)(graph, 1); expect(graph.entity('-').nodes).to.eql(['a', 'b', 'd', 'e', 'f', 'a']); expect(graph.entity('b').loc[0]).to.be.closeTo(1, 2e-3); expect(graph.entity('b').loc[1]).to.be.closeTo(0, 2e-3); expect(graph.hasEntity('c')).to.eq(undefined); }); }); });