func dumpUnusedEdges(unusedEdges []Edge, m r3.Matrix, numExpected int) { if len(unusedEdges) == numExpected { return } fmt.Printf("Wrong number of unused edges (%d expected, %d actual):\n", numExpected, len(unusedEdges)) for _, edge := range unusedEdges { p0 := LatLngFromPoint(Point{m.Transpose().MulVector(edge.v0.Vector)}) p1 := LatLngFromPoint(Point{m.Transpose().MulVector(edge.v1.Vector)}) fmt.Printf(" [%.6f, %.6f] -> [%.6f, %.6f]\n", p0.Lat.Degrees(), p0.Lng.Degrees(), p1.Lat.Degrees(), p1.Lng.Degrees()) } }
func findMissingLoops(actual, expected []*Loop, m r3.Matrix, maxSplits int, maxError float64, label string) bool { // Dump any loops from "actual" that are not present in "expected". found := false for i, loop := range actual { if findLoop(loop, expected, maxSplits, maxError) { continue } fmt.Printf("%s loop %d:\n", label, i) for _, v := range loop.vertices { ll := LatLngFromPoint(Point{m.Transpose().MulVector(v.Vector)}) fmt.Printf(" [%.6f, %.6f]\n", ll.Lat.Degrees(), ll.Lng.Degrees()) } found = true } return found }