Initial commit

.vscode/settings.json

+{}
\ No newline at end of file

plat.txt

+#H400
+ll	40	83
+ls	40	83
+lh	40	83
+ss	40	83
+sh	40	83
+hh	40	83
+#N300
+ll	58	95
+lh	58	95
+hh	58	95
+#N200
+ll	85	105
+ls	85	105
+lh	85	105
+ss	85	105
+sh	83	110
+hh	83	110 
+#N203
+ll	85	105
+ls	85	105
+lh	85	105
+ss	85	105
+sh	83	110
+hh	81	95
+#J303
+ll	120	140
+ls	123	140
+lh	123	140
+ss	123	140
+sh	123	140
+hh	123	155
+#end

results_example/results.txt

+Data analysis results
+ 
+#================================# 
+ 
+Setup:
+Ensembles analysed: ["J303", "H400", "N300"]
+Data storage: /Users/ale/Desktop/data
+Plateaux file: /Users/ale/Google Drive/phd/analysis/automation/plat.txt
+Results storage: /Users/ale/Desktop/results
+Sector analysed: ["sh", "hh", "lh"]
+Reweighting factor: false
+Mass shift: false
+t0 values: extracted from const.jl 
+Phi2 = 8t0m_pi^2: m_pi extracted from ens_db in const.jl 
+ 
+#================================# 
+ 
+
+ Results at finite lattice spacings 
+ 
+Ensemble J303
+$Z^{tm}_M \mu_c \sqrt{8t_0}$ = 3.087441457058999 +/- 0.06439682032069077
+$m_{D_s} \sqrt{8t_0}$ = 4.078057960579361 +/- 0.007655108297108985
+$m_{D_s^*} \sqrt{8t_0}$ = 4.366977977493505 +/- 0.016814805398813727
+$f_{D_s} \sqrt{8t_0}$ = 0.5214236581218687 +/- 0.0030340134610223573
+$f_{D_s^*} \sqrt{8t_0}$ = 0.2032742010074851 +/- 0.003960549693487588
+$m_etac \sqrt{8t_0}$ = 6.199438233112716 +/- 0.010541567771375073
+$m_{J/ψ} \sqrt{8t_0}$ = 6.434900979492144 +/- 0.011365930108534554
+$f_{η_c} \sqrt{8t_0}$ = 0.8796445828751452 +/- 0.0021849815789922664
+$f_{J/ψ} \sqrt{8t_0}$ = 0.40718773063280017 +/- 0.0020634759520040164
+$m_D \sqrt{8t_0}$ = 3.933940114645234 +/- 0.010469403775963788
+$m_{D^*} \sqrt{8t_0}$ = 4.16768216402017 +/- 0.0515103684503361
+$f_D \sqrt{8t_0}$ = 0.4644351651742726 +/- 0.004867644723937044
+$f_{D^*} \sqrt{8t_0}$ = 0.1669527140863556 +/- 0.009789813214623628
+
+Ensemble H400
+$Z^{tm}_M \mu_c \sqrt{8t_0}$ = 3.032580394380745 +/- 0.06662773022505761
+$m_{D_s} \sqrt{8t_0}$ = 3.981978398192009 +/- 0.010337458568118262
+$m_{D_s^*} \sqrt{8t_0}$ = 4.280043260057022 +/- 0.024078918141912688
+$f_{D_s} \sqrt{8t_0}$ = 0.5171746574232967 +/- 0.002516809833076454
+$f_{D_s^*} \sqrt{8t_0}$ = 0.21320483338707588 +/- 0.0038707041022579716
+$m_etac \sqrt{8t_0}$ = 6.101838242920741 +/- 0.013458129500559598
+$m_{J/ψ} \sqrt{8t_0}$ = 6.3555552025914634 +/- 0.014190406675632187
+$f_{η_c} \sqrt{8t_0}$ = 0.9780867087401416 +/- 0.0051276448486433585
+$f_{J/ψ} \sqrt{8t_0}$ = 0.4511410830392943 +/- 0.001641511389275644
+$m_D \sqrt{8t_0}$ = 3.981978398192009 +/- 0.010337458568118262
+$m_{D^*} \sqrt{8t_0}$ = 4.280043260057022 +/- 0.024078918141912688
+$f_D \sqrt{8t_0}$ = 0.5171746574232967 +/- 0.002516809833076454
+$f_{D^*} \sqrt{8t_0}$ = 0.21320483338707588 +/- 0.0038707041022579716
+
+Ensemble N300
+$Z^{tm}_M \mu_c \sqrt{8t_0}$ = 3.0482237405271984 +/- 0.06522961439540911
+$m_{D_s} \sqrt{8t_0}$ = 3.981978398192391 +/- 0.011986238131587756
+$m_{D_s^*} \sqrt{8t_0}$ = 4.328632905699455 +/- 0.027254375933845283
+$f_{D_s} \sqrt{8t_0}$ = 0.5037122885948799 +/- 0.0037756921455479706
+$f_{D_s^*} \sqrt{8t_0}$ = 0.2085589430073183 +/- 0.0035401003493775417
+$m_etac \sqrt{8t_0}$ = 6.155963678990474 +/- 0.010568925225646663
+$m_{J/ψ} \sqrt{8t_0}$ = 6.401012264543191 +/- 0.011576539802341586
+$f_{η_c} \sqrt{8t_0}$ = 0.8900266271330511 +/- 0.003491761532756627
+$f_{J/ψ} \sqrt{8t_0}$ = 0.4165899334662931 +/- 0.0022199719238052123
+$m_D \sqrt{8t_0}$ = 3.981978398192391 +/- 0.011986238131587756
+$m_{D^*} \sqrt{8t_0}$ = 4.328632905699455 +/- 0.027254375933845283
+$f_D \sqrt{8t_0}$ = 0.5037122885948799 +/- 0.0037756921455479706
+$f_{D^*} \sqrt{8t_0}$ = 0.2085589430073183 +/- 0.0035401003493775417
+
+ 
+#================================# 
+ 
+
+ Results in the continuum limit 
+ 
+$Z^{tm}_M \mu_c \sqrt{8t_0}$ = 3.1154197662181335 +/- 0.06434746612878896
+mu_c(MeV) = 1488.514225535831 +/- 14.442336011452733
+
+$m_{D_s} \sqrt{8t_0}$ = 4.118192443077841 +/- 0.015300857438356928
+m_Ds(MeV) = 1967.6282796577461 +/- 25.10390083093398
+
+$m_{D_s^*} \sqrt{8t_0}$ = 4.419014477026606 +/- 0.03184398137612806
+m_Ds_star(MeV) = 2111.357828318512 +/- 29.81362983034594
+
+$f_{D_s} \sqrt{8t_0}$ = 0.5188425758435204 +/- 0.004915964933987481
+f_Ds(MeV) = 247.89743049433383 +/- 3.839298874911889
+
+$f_{D_s^*} \sqrt{8t_0}$ = 0.19762270647855212 +/- 0.006417471690963253
+f_Ds_star(MeV) = 94.42201435324021 +/- 3.268597172693712
+
+$m_etac \sqrt{8t_0}$ = 6.257721044563254 +/- 0.020838906788024733
+m_etac(MeV) = 2989.872149901212 +/- 37.62658949775549
+
+$m_{J/ψ} \sqrt{8t_0}$ = 6.482753815478666 +/- 0.02217903123519892
+m_jpsi(MeV) = 3097.3903997215107 +/- 39.033522687614926
+
+$f_{η_c} \sqrt{8t_0}$ = 0.810029856386968 +/- 0.005231302539793005
+f_etac(MeV) = 387.0235970815643 +/- 5.291825151882144
+
+$f_{J/ψ} \sqrt{8t_0}$ = 0.3776478603806127 +/- 0.003316526386863686
+f_jpsi(MeV) = 180.43610640054987 +/- 2.683138885393678
+
+$m_D \sqrt{8t_0}$ = 3.9138734989952284 +/- 0.018303398304057722
+m_D(MeV) = 1870.0068746351353 +/- 24.178312527760543
+
+$m_{D^*} \sqrt{8t_0}$ = 4.1364685514681 +/- 0.07600617878699434
+m_D_star(MeV) = 1976.3604086701266 +/- 43.30819593423517
+
+$f_D \sqrt{8t_0}$ = 0.4380487738792999 +/- 0.0072962610338359055
+f_D(MeV) = 209.29501650732362 +/- 4.262403623126786
+
+$f_{D^*} \sqrt{8t_0}$ = 0.14612895976638235 +/- 0.014223229623081625
+f_D_star(MeV) = 69.81885321959642 +/- 6.83761644174843
+

src/const.jl

+#========= ENSEMBLE DATABASE ========#
+ens_db = Dict(
+    #"ens_id"=>[L, beta, is_deg?, m_pi]
+    "H400" => [32, 3.46, true, 0.16345],
+    "N200" => [48, 3.55, false, 0.09222],
+    "N203" => [48, 3.55, false, 0.11224],
+    "N300" => [48, 3.70, true, 0.10630],
+    "J303" => [64, 3.70, false, 0.06514]
+)
+ttl_obs_db = Dict(
+    "muc"=> ["mu_c"],
+    "ll" => ["m_pi", "m_rho", "f_pi", "f_rho"],
+    "ls" => ["m_k", "m_k_star", "f_k", "f_k_star"],
+    "lh" => ["m_D", "m_D_star", "f_D", "f_D_star"],
+    "ss" => ["m_etaprime", "m_phi", "f_etaprime", "f_phi"],
+    "sh" => ["m_Ds", "m_Ds_star", "f_Ds", "f_Ds_star"],
+    "hh" => ["m_etac", "m_jpsi", "f_etac", "f_jpsi"]
+)
+ylbl_db = Dict(
+    "muc" => [L"$Z^{tm}_M \mu_c \sqrt{8t_0}$"],
+    "ll" => [L"$m_{π} \sqrt{8t_0}$", L"$m_{\rho} \sqrt{8t_0}$", L"$f_{\pi} \sqrt{8t_0}$", L"$f_{\rho} \sqrt{8t_0}$"],
+    "ls" => [L"$m_K \sqrt{8t_0}$", L"$m_{K^*} \sqrt{8t_0}$", L"$f_K \sqrt{8t_0}$", L"$f_{K^*} \sqrt{8t_0}$"],
+    "lh" => [L"$m_D \sqrt{8t_0}$", L"$m_{D^*} \sqrt{8t_0}$", L"$f_D \sqrt{8t_0}$", L"$f_{D^*} \sqrt{8t_0}$"],
+    "ss" => [L"$m_{\eta'} \sqrt{8t_0}$", L"$m_{\phi} \sqrt{8t_0}$", L"$f_{η'} \sqrt{8t_0}$", L"$f_{\phi} \sqrt{8t_0}$"],
+    "sh" => [L"$m_{D_s} \sqrt{8t_0}$", L"$m_{D_s^*} \sqrt{8t_0}$", L"$f_{D_s} \sqrt{8t_0}$", L"$f_{D_s^*} \sqrt{8t_0}$"],
+    "hh" => [L"$m_etac \sqrt{8t_0}$", L"$m_{J/ψ} \sqrt{8t_0}$", L"$f_{η_c} \sqrt{8t_0}$", L"$f_{J/ψ} \sqrt{8t_0}$"]
+)
+
+#PDG
+const hc = 197.3269804 #MeV fm
+const M_values = [1869.65, 2010.26, 1968.34, 2112.2, 2980.3, 3096.916] #MD, MD*, MDs, MDs*, \eta_c, J/\psi (MeV)
+const M_error = [0.05, 0.05, 0.07, 0.4, 1.2, 0.011]
+#1802.05243 
+const b_values = [3.40, 3.46, 3.55, 3.70, 3.85]
+const b_values2 = [3.40, 3.46, 3.55, 3.70]
+const ZM_data = [1.9684, 1.9935, 2.0253, 2.0630, 2.0814]
+const ZM_error = [35, 27, 33, 38, 45] .* 1e-4
+const ZM_tm_data = [2.6047, 2.6181, 2.6312, 2.6339, 2.6127]
+const ZM_tm_error = [42, 33, 42, 48, 55] .* 1e-4
+#1608.08900
+const t0_data = [2.86, 3.659, 5.164, 8.595]
+const t0_error = [11, 16, 18, 29] .* 1e-3
+const t0_ph_value = [0.413]
+const t0_ph_error = ones(1,1) .* 5e-3
+#Covariance matrices
+const C1 = zeros(5, 5)
+const C2 = zeros(5, 5)
+const C3 = zeros(4, 4)
+const C4 = zeros(6,6)
+for i = 1:6
+    C4[i,i] = M_error[i] ^ 2
+    if i<= 5
+        C1[i, i] = ZM_error[i] ^ 2
+        C2[i, i] = ZM_tm_error[i] ^ 2
+        if i<=4
+            C3[i,i] = t0_error[i] ^ 2
+        end
+    end
+end
+
+const ZM = cobs(ZM_data, C1, "ZM values")
+const ZM_tm = cobs(ZM_tm_data, C2, "ZM_tm values")
+const M = cobs(M_values, C4, "charmed meson masses")
+const t0_ph = cobs(t0_ph_value, t0_ph_error .^ 2, "sqrt(8 t0) (fm)")
+const t0_ = cobs(t0_data, C3, "t0")
+const a_ = t0_ph ./ sqrt.(8 .* t0_)
+
+zm(beta::Float64) = ZM[b_values .== beta][1]
+zm_tm(beta::Float64) = ZM_tm[b_values .== beta][1]
+t0(beta::Float64) = t0_[b_values2 .== beta][1]
+a(beta::Float64) = a_[b_values2 .== beta][1]

src/tools.jl

+@doc raw"""
+    read_data(ens::String, g1::String="G5", g2::String="G5")
+Given the ensemble id and the Dirac structure, this method reads the data in path_data and
+returns a CData object. Replicas are automatically detected and loaded if present.
+"""
+function read_data(ens::String, g1::String="G5", g2::String="G5"; legacy::Bool=false)
+    path = joinpath(path_data, ens)
+    rep = filter(x->occursin("mesons.dat", x), readdir(path, join=true))
+    if length(rep)!=0    
+        length(rep)==1 ? (return read_mesons(rep[1], g1, g2, legacy=legacy)) : (return read_mesons(rep, g1, g2, legacy=legacy))
+    else
+        error("mesons.dat file not found for ensemble ", ens, " in path ", path)
+    end
+end
+function read_rw(ens::String)
+    path = joinpath(path_data, ens)
+    rep = filter(x->occursin("ms1.dat", x), readdir(path, join=true))
+    if length(rep)!=0
+        try
+            length(rep) == 1 ? (return read_ms1(rep[1])) : (return read_ms1.(rep)) 
+        catch
+            length(rep) == 1 && length(rep)!=0 ? (return read_ms1(rep[1], v="1.4")) : (return read_ms1.(rep, v="1.4")) 
+        end
+    else
+        error("ms1.dat file not found for ensemble ", ens, " in path ", path)
+    end
+end
+function read_t0(ens::String)
+    path = joinpath(path_data, ens)
+    rep = filter(x->occursin("ms.dat", x), readdir(path, join=true))
+    if length(rep)!=0
+        length(rep) == 1 ? (return read_ms(rep[1])) : (return read_ms.(rep)) 
+    else
+        error("ms.dat file not found for ensemble ", ens, " in path ", path)
+    end
+end
+function get_corr(ens::EnsInfo, g1::String="G5", g2::String="G5"; rw::Bool=false, legacy::Bool=false)
+    aux = read_data(ens.id, g1, g2, legacy=legacy)
+    !rw ? obs = corr_obs.(aux, L=ens.L) : obs = corr_obs.(aux, L=ens.L, rw=read_rw(ens.id))
+    return obs
+end
+function get_t0(ens::EnsInfo; rw::Bool=false, pl::Bool=false)
+    data = read_t0(ens.id)
+    plat = [40,160] 
+    !rw ? t0 = comp_t0(data, plat, L=ens.L, pl=pl) : t0 = comp_t0(data, plat, L=ens.L, pl=pl, rw=read_rw(ens.id))
+    return t0
+end
+function get_mu(mu_list::Vector{Vector{Float64}}, deg::Bool)
+    mu_sorted = unique(sort(minimum.(mu_list)))
+
+    mul = mu_sorted[1]
+    deg ? mus = 0.0 : mus = mu_sorted[2]
+    muh = unique(maximum.(mu_list))
+    muh = filter(x-> x > mul && x > mus, muh)
+
+    return mul, mus, muh
+end
+function get_ll(mu_list, obs::Vector{uwreal}, deg::Bool)
+    mul, mus, muh = get_mu(mu_list, deg)
+    for k = 1:length(mu_list)
+        mu = mu_list[k]
+        if mul in mu && mu[1] == mu[2] #l-l
+            return obs[k]
+        end
+    end
+end
+function get_ls(mu_list, obs::Vector{uwreal}, deg::Bool)
+    mul, mus, muh = get_mu(mu_list, deg)
+    for k = 1:length(mu_list)
+        mu = mu_list[k]
+        if mul in mu && mus in mu  #l-l
+            return obs[k]
+        end
+    end
+end
+function get_lh(mu_list, obs::Vector{uwreal}, deg::Bool)
+    mul, mus, muh = get_mu(mu_list, deg)
+    obs_lh = Vector{uwreal}(undef, 0)
+    for k = 1:length(mu_list)
+        mu = mu_list[k]
+        if mul in mu && mu[1] != mu[2] && !(mus in mu) #l-h
+            push!(obs_lh, obs[k])
+        end
+    end
+    return obs_lh
+end
+function get_ss(mu_list, obs::Vector{uwreal}, deg::Bool)
+    mul, mus, muh = get_mu(mu_list, deg)
+    for k = 1:length(mu_list)
+        mu = mu_list[k]
+        if mus in mu && mu[1] == mu[2] #s-s
+            return obs[k]
+        end
+    end
+end
+function get_sh(mu_list, obs::Vector{uwreal}, deg::Bool)
+    mul, mus, muh = get_mu(mu_list, deg)
+    obs_sh = Vector{uwreal}(undef, 0)
+    for k = 1:length(mu_list)
+        mu = mu_list[k]
+        if mus in mu && mu[1] != mu[2] && !(mul in mu)#s-h
+            push!(obs_sh, obs[k])
+        end
+    end
+    return obs_sh
+end
+function get_hh(mu_list, obs::Vector{uwreal}, deg::Bool)
+    mul, mus, muh = get_mu(mu_list, deg)
+    obs_hh = Vector{uwreal}(undef,0)
+    for k = 1:length(mu_list)
+        mu = mu_list[k]
+        for i =1:length(muh)
+            if muh[i] in mu && mu[1] == mu[2]#h-h
+                push!(obs_hh, obs[k])
+            end
+        end
+    end
+    return obs_hh
+end
+function get_meff(obs::Vector{juobs.Corr}, ens::EnsInfo; pl::Bool=false)
+    mu_list  = getfield.(obs, :mu)
+    plat = select_plateau(ens, mu_list)
+    return meff.(obs, plat, pl=pl)
+end
+function get_f(obs::Vector{juobs.Corr}, m::Vector{uwreal}, ens::EnsInfo; pl::Bool=false)
+    mu_list = getfield.(obs, :mu)
+    plat = select_plateau(ens, mu_list)
+    return dec_const_pcvc.(obs, plat, m, pl=pl)
+end
+function select_plateau(ensinf::EnsInfo, mu_list)
+    ens =ensinf.id
+    deg = ensinf.deg
+    mul, mus, muh = get_mu(mu_list, deg)
+    f = readdlm(path_plat)
+    head = String.(f[:, 1])
+
+    delim = findall(x-> occursin("#", x ), head)
+    edelim = findfirst(x-> occursin(ens, x), head)
+    cdelim = findfirst(x-> x.== edelim, delim)
+
+    del = delim[cdelim]+1 : delim[cdelim+1]-1
+    #del = delim
+    plat = Vector{Vector{Int64}}(undef, 0)
+    #plat = Dict()
+    plat_ = Int64.(f[del, 2:3])
+    head_ = String.(f[del, 1])
+    
+    for k = 1:length(mu_list)
+        mu = mu_list[k]
+        if mul in mu && mu[1] != mu[2] && !(mus in mu)  #heavy-light
+            n = findfirst(x-> occursin("lh", x), head_)
+            push!(plat,  [plat_[n, 1], plat_[n, 2]]  ) 
+        elseif mul in mu && mu[1] == mu[2] #light-light
+            n = findfirst(x-> occursin("ll", x), head_)
+            push!(plat,  [plat_[n, 1], plat_[n, 2]] )               
+        elseif mul in mu && mus in mu#strange-light
+            n = findfirst(x-> occursin("ls", x), head_)
+            push!(plat,  [plat_[n, 1], plat_[n, 2]] )
+        elseif mus in mu && mu[1] != mu[2] && !(mul in mu)#heavy-strange
+            n = findfirst(x-> occursin("sh", x ), head_)
+            push!(plat, [plat_[n, 1], plat_[n, 2]] )
+        elseif mus in mu && mu[1] == mu[2] && !(mul in mu)#strange-strange
+            n = findfirst(x-> occursin("ss", x), head_)
+            push!(plat, [plat_[n, 1], plat_[n, 2]] )
+        elseif !(mul in mu) && !(mus in mu) #heavy-heavy
+            n = findfirst(x-> occursin("hh", x), head_)
+            push!(plat, [plat_[n, 1], plat_[n, 2]] )
+        end
+    end
+    return plat
+end
+
+function match_muc(muh, m_lh, m_sh, target)
+    M = (2/3 .* m_lh .+ 1/3 .* m_sh) 
+    par, chi2exp = lin_fit(muh, M)
+    muh_target = x_lin_fit(par, target)
+    return muh_target
+end
\ No newline at end of file

src/types.jl

+mutable struct EnsInfo
+    id::String
+    L::Int64
+    beta::Float64
+    deg::Bool
+    mpi::Float64
+    function EnsInfo(ens_id::String, info::Vector{Float64})
+        id = ens_id
+        L = info[1]
+        beta = info[2]
+        deg = info[3]
+        mpi = info[4]
+        return new(id, L, beta, deg, mpi)
+    end
+end
+mutable struct EnsObs
+    ensinfo::EnsInfo
+    mu_list:: Vector{Vector{Float64}}
+    is_pseudo::Bool
+
+    m_ll::Union{Nothing,uwreal}
+    m_ls::Union{Nothing,uwreal}
+    m_lh::Union{Nothing,Vector{uwreal}}
+    m_ss::Union{Nothing,uwreal}
+    m_sh::Union{Nothing,Vector{uwreal}}
+    m_hh::Union{Nothing,Vector{uwreal}}
+    f_ll::Union{Nothing,uwreal}
+    f_ls::Union{Nothing,uwreal}
+    f_lh::Union{Nothing,Vector{uwreal}}
+    f_ss::Union{Nothing,uwreal}
+    f_sh::Union{Nothing,Vector{uwreal}}
+    f_hh::Union{Nothing,Vector{uwreal}}
+
+    m_ll_vec::Union{Nothing,uwreal}
+    m_ls_vec::Union{Nothing,uwreal}
+    m_lh_vec::Union{Nothing,Vector{uwreal}}
+    m_ss_vec::Union{Nothing,uwreal}
+    m_sh_vec::Union{Nothing,Vector{uwreal}}
+    m_hh_vec::Union{Nothing,Vector{uwreal}}
+    f_ll_vec::Union{Nothing,uwreal}
+    f_ls_vec::Union{Nothing,uwreal}
+    f_lh_vec::Union{Nothing,Vector{uwreal}}
+    f_ss_vec::Union{Nothing,uwreal}
+    f_sh_vec::Union{Nothing,Vector{uwreal}}
+    f_hh_vec::Union{Nothing,Vector{uwreal}}
+
+    m_lh_match::Union{Nothing,uwreal}
+    m_sh_match::Union{Nothing,uwreal}
+    m_hh_match::Union{Nothing,uwreal}
+    f_lh_match::Union{Nothing,uwreal}
+    f_sh_match::Union{Nothing,uwreal}
+    f_hh_match::Union{Nothing,uwreal}
+
+    m_lh_vec_match::Union{Nothing,uwreal}
+    m_sh_vec_match::Union{Nothing,uwreal}
+    m_hh_vec_match::Union{Nothing,uwreal}
+    f_lh_vec_match::Union{Nothing,uwreal}
+    f_sh_vec_match::Union{Nothing,uwreal}
+    f_hh_vec_match::Union{Nothing,uwreal}
+
+    muh_target::Union{Nothing,uwreal}
+    a::Union{Nothing,uwreal}
+    t0::Union{Nothing,uwreal}
+
+    
+    function EnsObs(ens::EnsInfo, mu::Vector{Vector{Float64}}, m_ps::Vector{uwreal}, f_ps::Vector{uwreal}, m_vec::Vector{uwreal}, f_vec::Vector{uwreal})
+        a = new()
+        a.ensinfo = ens
+        a.mu_list  = mu
+        a.is_pseudo = true
+
+        a.m_ll = get_ll(a.mu_list, m_ps,a.ensinfo.deg)
+        a.ensinfo.deg ? a.m_ls = a.m_ll : a.m_ls = get_ls(a.mu_list, m_ps, a.ensinfo.deg)
+        a.ensinfo.deg ? a.m_ss = a.m_ll : a.m_ss = get_ss(a.mu_list, m_ps, a.ensinfo.deg)
+        a.m_lh = get_lh(a.mu_list, m_ps,a.ensinfo.deg)
+        a.ensinfo.deg ? a.m_sh = a.m_lh : a.m_sh = get_sh(a.mu_list, m_ps, a.ensinfo.deg)
+        a.m_hh = get_hh(a.mu_list, m_ps,a.ensinfo.deg)
+        a.f_ll = get_ll(a.mu_list, f_ps, a.ensinfo.deg)
+        a.ensinfo.deg ? a.f_ls = a.f_ll : a.f_ls = get_ls(a.mu_list, f_ps, a.ensinfo.deg)
+        a.ensinfo.deg ? a.f_ss = a.f_ll : a.f_ss = get_ss(a.mu_list, f_ps, a.ensinfo.deg)
+        a.f_lh = get_lh(a.mu_list, f_ps,a.ensinfo.deg)
+        a.ensinfo.deg ? a.f_sh = a.f_lh : a.f_sh = get_sh(a.mu_list, f_ps, a.ensinfo.deg)
+        a.f_hh = get_hh(a.mu_list, f_ps,a.ensinfo.deg)
+
+        a.m_ll_vec = get_ll(a.mu_list, m_vec,a.ensinfo.deg)
+        a.ensinfo.deg ? a.m_ls_vec = a.m_ll_vec : a.m_ls_vec = get_ls(a.mu_list, m_vec, a.ensinfo.deg)
+        a.ensinfo.deg ? a.m_ss_vec = a.m_ll_vec : a.m_ss_vec = get_ss(a.mu_list, m_vec, a.ensinfo.deg)
+        a.m_lh_vec = get_lh(a.mu_list, m_vec, a.ensinfo.deg)
+        a.ensinfo.deg ? a.m_sh_vec = a.m_lh_vec : a.m_sh_vec = get_sh(a.mu_list, m_vec, a.ensinfo.deg)
+        a.m_hh_vec = get_hh(a.mu_list, m_vec, a.ensinfo.deg)
+        a.f_ll_vec = get_ll(a.mu_list, f_vec, a.ensinfo.deg)
+        a.ensinfo.deg ? a.f_ls_vec = a.f_ll_vec : a.f_ls_vec = get_ls(a.mu_list, f_vec, a.ensinfo.deg)
+        a.ensinfo.deg ? a.f_ss_vec = a.f_ll_vec : a.f_ss_vec = get_ss(a.mu_list, f_vec, a.ensinfo.deg)
+        a.f_lh_vec = get_lh(a.mu_list, f_vec,a.ensinfo.deg)
+        a.ensinfo.deg ? a.f_sh_vec = a.f_lh_vec : a.f_sh_vec = get_sh(a.mu_list, f_vec, a.ensinfo.deg)
+        a.f_hh_vec = get_hh(a.mu_list, f_vec, a.ensinfo.deg)
+        
+        a.m_lh_match = nothing
+        a.m_sh_match = nothing
+        a.m_hh_match = nothing
+        a.f_lh_match = nothing
+        a.f_sh_match = nothing
+        a.f_hh_match = nothing
+        
+        a.m_lh_vec_match = nothing
+        a.m_sh_vec_match = nothing
+        a.m_hh_vec_match = nothing
+        a.f_lh_vec_match = nothing
+        a.f_sh_vec_match = nothing
+        a.f_hh_vec_match = nothing
+        
+        a.muh_target = nothing
+        a.a = nothing
+        a.t0 = nothing
+        return a 
+    end
+end
+
+