func TestSolveFlucSystem_LargeMu_b(t *testing.T) { flag.Parse() // if we're plotting, don't care about this regression test if *testPlot || *production { return } // kz^2 value //expected := []float64{0.03047703936397049, -0.7236663299469903, 1.7649274240769777} // cos(kz) value expected := []float64{0.023531752926395578, -0.7559676688769393, 1.9480858817824946} vars := []string{"D1", "Mu_h", "Beta"} eps := 1e-8 env, err := flucDefaultEnv() if err != nil { t.Fatal(err) } env.Mu_b = -0.6 env.Tz = 0.05 err = tempAll.VerifySolution(env, FlucTempSolve, FlucTempFullSystem, vars, eps, eps, expected) if err != nil { t.Fatal(err) } }
// Solve a pair-temperature system for the appropriate values of (D1,Mu_h,Beta) func TestSolvePairTempSystem(t *testing.T) { expected := []float64{0.04287358467304004, -0.3927161711585197, 2.2902594921928188} vars := []string{"D1", "Mu_h", "Beta"} eps := 1e-9 env, err := ptDefaultEnv() if err != nil { t.Fatal(err) } err = tempAll.VerifySolution(env, PairTempSolve, PairTempSystem, vars, eps, eps, expected) if err != nil { t.Fatal(err) } }
// Solve a zero-temperature system for the appropriate values of (D1, Mu_h, F0) func TestSolveZeroTempSystem(t *testing.T) { expected := []float64{0.055910261243245905, -0.27877890663573984, 0.13007419282082078} vars := []string{"D1", "Mu_h", "F0"} eps := 1e-9 env, err := ztDefaultEnv() if err != nil { t.Fatal(err) } err = tempAll.VerifySolution(env, ZeroTempSolve, ZeroTempSystem, vars, eps, eps, expected) if err != nil { t.Fatal(err) } }
// Solve a critical-temperature system for the appropriate values of // (D1,Mu_h,Beta) func TestSolveCritTempSystem(t *testing.T) { flag.Parse() if *production { return } vars := []string{"D1", "Mu_h", "Beta"} eps := 1e-6 env, err := ctDefaultEnv() if err != nil { t.Fatal(err) } err = tempAll.VerifySolution(env, CritTempSolve, CritTempFullSystem, vars, eps, eps, defaultEnvSolution) if err != nil { fmt.Printf("T_c = %f\n", 1.0/env.Beta) t.Fatal(err) } }
func TestSolveLowSystem(t *testing.T) { flag.Parse() // if we're plotting, don't care about this regression test if *testPlot || *longPlot { return } vars := []string{"D1", "Mu_h", "F0"} eps := 1e-8 env, err := lowDefaultEnv() if err != nil { t.Fatal(err) } err = tempAll.VerifySolution(env, D1MuF0Solve, D1MuF0System, vars, eps, eps, defaultEnvSolution) if err != nil { t.Fatal(err) } }
func TestSolveFlucSystem(t *testing.T) { flag.Parse() // if we're plotting, don't care about this regression test if *testPlot || *production { return } vars := []string{"D1", "Mu_h", "Beta"} eps := 1e-9 env, err := flucDefaultEnv() if err != nil { t.Fatal(err) } err = tempAll.VerifySolution(env, FlucTempSolve, FlucTempFullSystem, vars, eps, eps, defaultEnvSolution) if err != nil { t.Fatal(err) } }