// Plot evolution of Tp vs X. func TestPlotTpVsX(t *testing.T) { flag.Parse() if !*testPlot || *production { return } defaultEnv, err := ptDefaultEnv() if err != nil { t.Fatal(err) } envs := defaultEnv.MultiSplit([]string{"X", "Tz", "Thp"}, []int{2, 2, 2}, []float64{0.01, -0.1, -0.05}, []float64{0.15, 0.1, 0.05}) if *longPlot { if !*tinyX { envs = defaultEnv.MultiSplit([]string{"X", "Tz", "Thp"}, []int{10, 1, 1}, []float64{0.0005, 0.1, 0.1}, []float64{0.15, 0.1, 0.1}) } else { envs = defaultEnv.MultiSplit([]string{"X", "Tz", "Thp"}, []int{10, 2, 2}, []float64{0.001, 0.05, 0.05}, []float64{0.01, 0.1, 0.1}) } } eps := 1e-9 plotEnvs, errs := tempAll.MultiSolve(envs, eps, eps, PairTempSolve) // T_p vs x plot vars := plots.GraphVars{"X", "", []string{"Tz", "Thp"}, []string{"t_z", "t_h^{\\prime}"}, nil, tempAll.GetTemp} fileLabel := "plot_data.tp_x" wd, _ := os.Getwd() grapherPath := wd + "/../plots/grapher.py" graphParams := map[string]string{plots.FILE_KEY: wd + "/" + fileLabel, plots.XLABEL_KEY: "$x_{eff}$", plots.YLABEL_KEY: "$T_p$", plots.YMIN_KEY: "0"} err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making plot: %v", err) } // Mu_h vs x plot fileLabel = "plot_data.mu_x" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$\\mu_h$" graphParams[plots.YMIN_KEY] = "" vars.Y = "Mu_h" vars.YFunc = nil err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making Mu_h plot: %v", err) } // D1 vs x plot fileLabel = "plot_data.D1_x" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$D_1$" vars.Y = "D1" vars.YFunc = nil err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making D1 plot: %v", err) } }
func solveAndPlot(envs []*tempAll.Environment, epsabs, epsrel float64, fileLabelTp, fileLabelMu, fileLabelD1, xmax string) error { // solve plotEnvs, errs := tempAll.MultiSolve(envs, epsabs, epsrel, PairTempSolve) // T_p vs x plot vars := plots.GraphVars{"X", "", []string{"Tz", "Thp"}, []string{"t_z/t_0", "t_h^{\\prime}/t_0"}, nil, tempAll.GetTemp} wd, _ := os.Getwd() grapherPath := wd + "/../plots/grapher.py" graphParams := map[string]string{plots.FILE_KEY: wd + "/" + fileLabelTp, plots.XLABEL_KEY: "$x_{eff}$", plots.YLABEL_KEY: "$T_p/t_0$", plots.YMIN_KEY: "0.0", "xmax": xmax} err := plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, false) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelTp + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // Mu_h vs x plot graphParams[plots.FILE_KEY] = wd + "/" + fileLabelMu graphParams[plots.YLABEL_KEY] = "$\\mu_h/t_0$" graphParams[plots.YMIN_KEY] = "" vars.Y = "Mu_h" vars.YFunc = nil err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, false) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelMu + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // D1 vs x plot graphParams[plots.FILE_KEY] = wd + "/" + fileLabelD1 graphParams[plots.YLABEL_KEY] = "$D_1$" vars.Y = "D1" vars.YFunc = nil err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, false) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelD1 + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } return nil }
// X = 0.1; tz = 0.1; thp = 0.1; -0.7 < mu_b < -0.8 func TestPlotX2Collapse(t *testing.T) { flag.Parse() if !*collapsePlot { return } defaultEnv, err := flucDefaultEnv() if err != nil { t.Fatal(err) } defaultEnv.X = 0.1 defaultEnv.Tz = 0.1 defaultEnv.Thp = 0.1 envs := defaultEnv.MultiSplit([]string{"Mu_b"}, []int{20}, []float64{-0.75}, []float64{-0.9}) eps := 1e-6 plotEnvs, errs := tempAll.MultiSolve(envs, eps, eps, FlucTempSolve) // X2 vs Mu_b plots vars := plots.GraphVars{"Mu_b", "", []string{"Tz"}, []string{"t_z"}, nil, tempCrit.GetX2} fileLabel := "plot.x2_mu_b" wd, _ := os.Getwd() grapherPath := wd + "/../plots/grapher.py" graphParams := map[string]string{plots.FILE_KEY: wd + "/" + fileLabel, plots.XLABEL_KEY: "$\\mu_b$", plots.YLABEL_KEY: "$x_2$"} err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making Mu_b plot: %v", err) } // T vs Mu_b plots fileLabel = "plot_data.T_mu_b" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$T$" vars.YFunc = tempAll.GetTemp err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making T plot: %v", err) } // Mu_h vs Mu_b plots fileLabel = "plot_data.mu_h_mu_b" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$\\mu_h$" vars.Y = "Mu_h" vars.YFunc = nil err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making Mu_h plot: %v", err) } }
func TestPlotX2VsT(t *testing.T) { flag.Parse() if !(*testPlot || *longPlot) { return } var plotEnvs []interface{} var errs []error wd, _ := os.Getwd() cachePath := wd + "/__data_cache_tempLow" if *loadCache { var err error plotEnvs, errs, err = tempAll.LoadEnvCache(cachePath) if err != nil { t.Fatal(err) } } else { envs, err := lowDefaultEnvSet(*longPlot) if err != nil { t.Fatal(err) } // solve the full system eps := 1e-9 plotEnvs, errs = tempAll.MultiSolve(envs, eps, eps, D1MuBetaSolve) // cache results for future use err = tempAll.SaveEnvCache(cachePath, plotEnvs, errs) if err != nil { t.Fatal(err) } } Xs := getXs(plotEnvs) // T vs F0 plots vars := plots.GraphVars{"F0", "", []string{"Tz", "Thp", "X", "Be_field"}, []string{"t_z", "t_h^{\\prime}", "x", "eB"}, nil, tempAll.GetTemp} fileLabel := "plot_data.T_F0" grapherPath := wd + "/../plots/grapher.py" graphParams := map[string]string{plots.FILE_KEY: wd + "/" + fileLabel, plots.XLABEL_KEY: "$F_0$", plots.YLABEL_KEY: "$T$"} err := plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making T(F0) plot: %v", err) } // X2 vs T plots fileLabel = "plot_data.x2_T" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.XLABEL_KEY] = "$T$" graphParams[plots.YLABEL_KEY] = "$x_2$" vars.X = "" vars.XFunc = tempAll.GetTemp vars.YFunc = tempCrit.GetX2 err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making X2(T) plot: %v", err) } // Mu_h vs T plots fileLabel = "plot_data.mu_h_T" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$\\mu_h$" vars.Y = "Mu_h" vars.YFunc = nil err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making Mu_h(T) plot: %v", err) } // if looking for magnetization plot, make that plot and don't get Cv if *magnetization_calc { fileLabel = "plot_data.M_eB" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.XLABEL_KEY] = "$eB$" graphParams[plots.YLABEL_KEY] = "$M$" vars.X = "Be_field" vars.XFunc = nil vars.Y = "" vars.YFunc = tempCrit.GetMagnetization vars.Params = []string{"Tz", "Thp", "X", "F0"} vars.ParamLabels = []string{"t_z", "t_h^{\\prime}", "x", "F_0"} err := plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making M plot: %v", err) } return } // calculate specific heat contributions SHenvs := make([]interface{}, len(plotEnvs)) F := func(i int, cerr chan<- error) { pe := plotEnvs[i] if pe == nil { cerr <- errors.New("pe is nil") return } if errs[i] != nil { cerr <- errs[i] return } env, ok := pe.(tempAll.Environment) if !ok { cerr <- errors.New("pe is not Environment") } X2, err := tempCrit.X2(&env) if err != nil { cerr <- err return } SHenvs[i] = SpecificHeatEnv{env, X2, 0.0, 0.0} if X2 == 0.0 { cerr <- nil return } sh_1, err := HolonSpecificHeat(&env) if err != nil { cerr <- err return } fmt.Printf("sh_1 = %f\n", sh_1) sh_2, err := PairSpecificHeat(&env) if err != nil { cerr <- err return } fmt.Printf("sh_2 = %f\n", sh_2) SHenvs[i] = SpecificHeatEnv{env, X2, sh_1, sh_2} cerr <- nil } SHerrs := parallel.Run(F, len(plotEnvs)) for _, err := range SHerrs { if err != nil { fmt.Println(err) } } SHenvs = fixXs(SHenvs, Xs) // specific heat plots fileLabel = "plot_data.SH-1_mu_b" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$C_V^{1}$" vars.XFunc = GetSHTemp vars.Y = "SH_1" vars.YFunc = nil err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making specific heat plot: %v", err) } fileLabel = "plot_data.SH-2_mu_b" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$C_V^{2}$" vars.Y = "SH_2" err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making specific heat plot: %v", err) } SH12 := func(d interface{}) float64 { env := d.(SpecificHeatEnv) return env.SH_1 + env.SH_2 } fileLabel = "plot_data.SH-12_mu_b" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$C_V^{12}$" vars.Y = "" vars.YFunc = SH12 err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making specific heat plot: %v", err) } // C_V / T = C_V * Beta Gamma := func(d interface{}) float64 { env := d.(SpecificHeatEnv) return SH12(d) * env.Beta } fileLabel = "plot_data.gamma-12_mu_b" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$\\gamma^{12}$" vars.YFunc = Gamma err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making specific heat plot: %v", err) } Gamma1 := func(d interface{}) float64 { env := d.(SpecificHeatEnv) return env.SH_1 * env.Beta } fileLabel = "plot_data.gamma-1_mu_b" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$\\gamma^{1}$" vars.YFunc = Gamma1 err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making specific heat plot: %v", err) } Gamma2 := func(d interface{}) float64 { env := d.(SpecificHeatEnv) return env.SH_2 * env.Beta } fileLabel = "plot_data.gamma-2_mu_b" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$\\gamma^{2}$" vars.YFunc = Gamma2 err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making specific heat plot: %v", err) } }
func solveAndPlot(envs []*tempAll.Environment, epsabs, epsrel float64, fileLabelMu_b, fileLabelMu_h, fileLabelD1, fileLabel_a, fileLabel_b, fileLabel_x2, fileLabel_x1 string) error { // solve plotEnvs, errs := tempAll.MultiSolve(envs, epsabs, epsrel, FlucTempSolve) // Mu_b vs T plot vars := plots.GraphVars{"", "Mu_b", []string{"Tz", "Thp", "X"}, []string{"t_z/t_0", "t_h^{\\prime}/t_0", "x_{eff}"}, tempAll.GetTemp, nil} wd, _ := os.Getwd() grapherPath := wd + "/../plots/grapher.py" graphParams := map[string]string{plots.FILE_KEY: wd + "/" + fileLabelMu_b, plots.XLABEL_KEY: "$T$", plots.YLABEL_KEY: "$\\mu_{pair}/t_0$", plots.YMIN_KEY: ""} err := plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, false) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelMu_b + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // Mu_h vs T plots graphParams[plots.FILE_KEY] = wd + "/" + fileLabelMu_h graphParams[plots.YLABEL_KEY] = "$\\mu_h/t_0$" vars.Y = "Mu_h" err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelMu_h + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // D_1 vs T plots graphParams[plots.FILE_KEY] = wd + "/" + fileLabelD1 graphParams[plots.YLABEL_KEY] = "$D_1$" vars.Y = "D1" err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelD1 + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // x_2 vs T plots graphParams[plots.FILE_KEY] = wd + "/" + fileLabel_x2 graphParams[plots.YLABEL_KEY] = "$x_2$" graphParams[plots.YMIN_KEY] = "0.0" vars.Y = "" vars.YFunc = tempCrit.GetX2 err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabel_x2 + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // x_1 vs T plots graphParams[plots.FILE_KEY] = wd + "/" + fileLabel_x1 graphParams[plots.YLABEL_KEY] = "$x_1$" x1fn := func(data interface{}) float64 { env := data.(tempAll.Environment) return env.X - tempCrit.GetX2(data) } vars.Y = "" vars.YFunc = x1fn err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabel_x1 + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // omega_+(q) parameters (a, b) vs T get_fit := func(data interface{}, i int) float64 { env := data.(tempAll.Environment) if env.FixedPairCoeffs { if i == 0 || i == 1 { return env.A } else { return env.B } } fit, err := tempCrit.OmegaFit(&env, tempCrit.OmegaPlus) if err != nil { fmt.Printf("%v\n", err) } return fit[i] } get_a := func(data interface{}) float64 { return get_fit(data, 0) } get_b := func(data interface{}) float64 { return get_fit(data, 2) } graphParams[plots.FILE_KEY] = wd + "/" + fileLabel_a graphParams[plots.YLABEL_KEY] = "$a/t_0$" graphParams[plots.YMIN_KEY] = "" vars.Y = "" vars.YFunc = get_a err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabel_a + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabel_b graphParams[plots.YLABEL_KEY] = "$b/t_0$" vars.Y = "" vars.YFunc = get_b err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabel_b + "_BW_" err = plots.MultiPlotStyle(plotEnvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } return nil }
func makeSHPlots(SHenvs []interface{}, errs []error, fileLabelSH1, fileLabelSH2, fileLabelSH12, fileLabelGamma1, fileLabelGamma2, fileLabelGamma12 string) error { wd, _ := os.Getwd() vars := plots.GraphVars{"", "", []string{"Tz", "Thp", "X", "Be_field"}, []string{"t_z", "t_h^{\\prime}", "x_{eff}", "eB"}, GetSHTemp, nil} grapherPath := wd + "/../plots/grapher.py" graphParams := map[string]string{plots.XLABEL_KEY: "$T$"} // specific heat from unpaired holons graphParams[plots.FILE_KEY] = wd + "/" + fileLabelSH1 graphParams[plots.YLABEL_KEY] = "$C_V^{1}$" vars.Y = "SH_1" err := plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelSH1 + "_BW_" err = plots.MultiPlotStyle(SHenvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // specific heat from pairs graphParams[plots.FILE_KEY] = wd + "/" + fileLabelSH2 graphParams[plots.YLABEL_KEY] = "$C_V^{2}$" vars.Y = "SH_2" err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelSH2 + "_BW_" err = plots.MultiPlotStyle(SHenvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // specific heat from holons+pairs SH12 := func(d interface{}) float64 { env := d.(SpecificHeatEnv) return env.SH_1 + env.SH_2 } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelSH12 graphParams[plots.YLABEL_KEY] = "$C_V^{12}$" vars.Y = "" vars.YFunc = SH12 err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelSH12 + "_BW_" err = plots.MultiPlotStyle(SHenvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // plot gamma = C_V / T = C_V * Beta // gamma from holons+pairs Gamma := func(d interface{}) float64 { env := d.(SpecificHeatEnv) return SH12(d) * env.Beta } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelGamma12 graphParams[plots.YLABEL_KEY] = "$\\gamma^{12}$" vars.YFunc = Gamma err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelGamma12 + "_BW_" err = plots.MultiPlotStyle(SHenvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // gamma from unpaired holons Gamma1 := func(d interface{}) float64 { env := d.(SpecificHeatEnv) return env.SH_1 * env.Beta } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelGamma1 graphParams[plots.YLABEL_KEY] = "$\\gamma^{1}$" vars.YFunc = Gamma1 err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelGamma1 + "_BW_" err = plots.MultiPlotStyle(SHenvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } // gamma from pairs Gamma2 := func(d interface{}) float64 { env := d.(SpecificHeatEnv) return env.SH_2 * env.Beta } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelGamma2 graphParams[plots.YLABEL_KEY] = "$\\gamma^{2}$" vars.YFunc = Gamma2 err = plots.MultiPlot(SHenvs, errs, vars, graphParams, grapherPath) if err != nil { return err } graphParams[plots.FILE_KEY] = wd + "/" + fileLabelGamma2 + "_BW_" err = plots.MultiPlotStyle(SHenvs, errs, vars, graphParams, grapherPath, true) if err != nil { return err } return nil }
func TestPlotX2VsMu_b(t *testing.T) { flag.Parse() if !(*testPlot || *longPlot) { return } var plotEnvs []interface{} var errs []error wd, _ := os.Getwd() cachePath := wd + "/__data_cache_tempFluc" if *loadCache { var err error plotEnvs, errs, err = tempAll.LoadEnvCache(cachePath) if err != nil { t.Fatal(err) } } else { envs, err := flucDefaultEnvSet(*longPlot) if err != nil { t.Fatal(err) } // solve the full system eps := 1e-9 plotEnvs, errs = tempAll.MultiSolve(envs, eps, eps, FlucTempSolve) // cache results for future use err = tempAll.SaveEnvCache(cachePath, plotEnvs, errs) if err != nil { t.Fatal(err) } } Xs := getXs(plotEnvs) // T vs Mu_b plots vars := plots.GraphVars{"Mu_b", "", []string{"Tz", "Thp", "X", "Be_field"}, []string{"t_z", "t_h^{\\prime}", "x", "eB"}, nil, tempAll.GetTemp} fileLabel := "plot_data.T_mu_b" grapherPath := wd + "/../plots/grapher.py" graphParams := map[string]string{plots.FILE_KEY: wd + "/" + fileLabel, plots.XLABEL_KEY: "$\\mu_b$", plots.YLABEL_KEY: "$T$"} if !*skipPlots { err := plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making T(Mu_b) plot: %v", err) } } // X2 vs T plots fileLabel = "plot_data.x2_T" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.XLABEL_KEY] = "$T$" graphParams[plots.YLABEL_KEY] = "$x_2$" vars.X = "" vars.XFunc = tempAll.GetTemp vars.YFunc = tempCrit.GetX2 if !*skipPlots { err := plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making X2(T) plot: %v", err) } } // Mu_h vs T plots fileLabel = "plot_data.mu_h_T" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$\\mu_h$" vars.Y = "Mu_h" vars.YFunc = nil if !*skipPlots { err := plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making Mu_h plot: %v", err) } } // omega(q) parameters (a, b) vs T get_fit := func(data interface{}, i int) float64 { env := data.(tempAll.Environment) if env.FixedPairCoeffs { if i == 0 || i == 1 { return env.A } else { return env.B } } fit, err := tempCrit.OmegaFit(&env, tempCrit.OmegaPlus) if err != nil { fmt.Printf("%v\n", err) } return fit[i] } get_a := func(data interface{}) float64 { return get_fit(data, 0) } get_b := func(data interface{}) float64 { return get_fit(data, 2) } fileLabel = "plot_data.a_T" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$a$" vars.Y = "" vars.YFunc = get_a if !*skipPlots { err := plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making a plot: %v", err) } } fileLabel = "plot_data.b_T" graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$b$" vars.Y = "" vars.YFunc = get_b if !*skipPlots { err := plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making b plot: %v", err) } } // if looking for magnetization plot, make that plot and don't get Cv if *magnetization_calc && !*skipPlots { fileLabel = "plot_data.M_eB" //fileLabel := "plot_data.M_eB" //graphParams := map[string]string{plots.FILE_KEY: wd + "/" + fileLabel, plots.XLABEL_KEY: "$eB$", plots.YLABEL_KEY: "$M$"} graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.XLABEL_KEY] = "$eB$" graphParams[plots.YLABEL_KEY] = "$M$" //vars := plots.GraphVars{"Be_field", "", []string{"Tz", "Thp", "X", "Mu_b"}, []string{"t_z", "t_h^{\\prime}", "x", "\\mu_b"}, nil, tempCrit.GetMagnetization} vars.X = "Be_field" vars.XFunc = nil vars.Y = "" vars.YFunc = tempCrit.GetMagnetization vars.Params = []string{"Tz", "Thp", "X", "Mu_b"} vars.ParamLabels = []string{"t_z", "t_h^{\\prime}", "x", "\\mu_b"} //grapherPath := wd + "/../plots/grapher.py" err := plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making M plot: %v", err) } return } // calculate specific heat contributions SH_envs := makeSHEnvs(plotEnvs, errs, Xs) // specific heat plots fileLabelSH1 := "plot_data.SH-1_mu_b" fileLabelSH2 := "plot_data.SH-2_mu_b" fileLabelSH12 := "plot_data.SH-12_mu_b" fileLabelGamma12 := "plot_data.gamma-12_mu_b" fileLabelGamma1 := "plot_data.gamma-1_mu_b" fileLabelGamma2 := "plot_data.gamma-2_mu_b" err := makeSHPlots(SH_envs, errs, fileLabelSH1, fileLabelSH2, fileLabelSH12, fileLabelGamma1, fileLabelGamma2, fileLabelGamma12) if err != nil { t.Fatalf("error making specific heat plot: %v", err) } }
// Plot evolution of Tc vs X. func TestPlotTcVsX(t *testing.T) { flag.Parse() if !*testPlot && !*longPlot { return } defaultEnv, err := ctDefaultEnv() if err != nil { t.Fatal(err) } envs := defaultEnv.MultiSplit([]string{"X", "Tz", "Thp"}, []int{4, 1, 1}, []float64{0.025, 0.05, 0.05}, []float64{0.10, 0.1, 0.1}) if *longPlot { if !*tinyX { envs = defaultEnv.MultiSplit([]string{"X", "Tz", "Thp"}, []int{10, 2, 2}, []float64{0.0001, 0.05, 0.05}, []float64{0.15, 0.1, 0.10}) } else { envs = defaultEnv.MultiSplit([]string{"X", "Tz", "Thp"}, []int{10, 2, 2}, []float64{0.001, 0.05, 0.05}, []float64{0.01, 0.1, 0.1}) } } vars := plots.GraphVars{"X", "", []string{"Tz", "Thp"}, []string{"t_z", "t_h^{\\prime}"}, nil, tempAll.GetTemp} eps := 1e-6 // solve the full system plotEnvs, errs := tempAll.MultiSolve(envs, eps, eps, CritTempSolve) // Tc vs x plots wd, _ := os.Getwd() grapherPath := wd + "/../plots/grapher.py" var fileLabel string if !*tinyX { fileLabel = "plot_data.tc_x" } else { fileLabel = "plot_data.tinyX_tc_x" } graphParams := map[string]string{plots.FILE_KEY: wd + "/" + fileLabel, plots.XLABEL_KEY: "$x_{eff}$", plots.YLABEL_KEY: "$T_c/t_0$"} err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making Tc plot: %v", err) } // Mu_h vs x plots if !*tinyX { fileLabel = "plot_data.mu_x_data" } else { fileLabel = "plot_data.tinyX_mu_x_data" } graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$\\mu_h/t_0$" vars.Y = "Mu_h" vars.YFunc = nil err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making Mu_h plot: %v", err) } // D_1 vs x plots if !*tinyX { fileLabel = "plot_data.D1_x_data" } else { fileLabel = "plot_data.tinyX_D1_x_data" } graphParams[plots.FILE_KEY] = wd + "/" + fileLabel graphParams[plots.YLABEL_KEY] = "$D_1$" vars.Y = "D1" vars.YFunc = nil err = plots.MultiPlot(plotEnvs, errs, vars, graphParams, grapherPath) if err != nil { t.Fatalf("error making D1 plot: %v", err) } }