// Copyright 2017 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package trace import ( "math/rand" "testing" ) func TestMUD(t *testing.T) { // Insert random uniforms and check histogram mass and // cumulative sum approximations. rnd := rand.New(rand.NewSource(42)) mass := 0.0 var mud mud for i := 0; i < 100; i++ { area, l, r := rnd.Float64(), rnd.Float64(), rnd.Float64() if rnd.Intn(10) == 0 { r = l } t.Log(l, r, area) mud.add(l, r, area) mass += area // Check total histogram weight. hmass := 0.0 for _, val := range mud.hist { hmass += val } if !aeq(mass, hmass) { t.Fatalf("want mass %g, got %g", mass, hmass) } // Check inverse cumulative sum approximations. for j := 0.0; j < mass; j += mass * 0.099 { mud.setTrackMass(j) l, u, ok := mud.approxInvCumulativeSum() inv, ok2 := mud.invCumulativeSum(j) if !ok || !ok2 { t.Fatalf("inverse cumulative sum failed: approx %v, exact %v", ok, ok2) } if !(l <= inv && inv < u) { t.Fatalf("inverse(%g) = %g, not ∈ [%g, %g)", j, inv, l, u) } } } } func TestMUDTracking(t *testing.T) { // Test that the tracked mass is tracked correctly across // updates. rnd := rand.New(rand.NewSource(42)) const uniforms = 100 for trackMass := 0.0; trackMass < uniforms; trackMass += uniforms / 50 { var mud mud mass := 0.0 mud.setTrackMass(trackMass) for i := 0; i < uniforms; i++ { area, l, r := rnd.Float64(), rnd.Float64(), rnd.Float64() mud.add(l, r, area) mass += area l, u, ok := mud.approxInvCumulativeSum() inv, ok2 := mud.invCumulativeSum(trackMass) if mass < trackMass { if ok { t.Errorf("approx(%g) = [%g, %g), but mass = %g", trackMass, l, u, mass) } if ok2 { t.Errorf("exact(%g) = %g, but mass = %g", trackMass, inv, mass) } } else { if !ok { t.Errorf("approx(%g) failed, but mass = %g", trackMass, mass) } if !ok2 { t.Errorf("exact(%g) failed, but mass = %g", trackMass, mass) } if ok && ok2 && !(l <= inv && inv < u) { t.Errorf("inverse(%g) = %g, not ∈ [%g, %g)", trackMass, inv, l, u) } } } } }