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funfig.m
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funfig.m
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classdef funfig
methods (Static)
function figs = overview(figs,par,sol,k,ext)
% create overview figures
% data
par = fun.solprep(par);
a = par.grid_m_nd - sol(2,par.T-k).c - sol(2,par.T-k).d;
d = max(sol(2,par.T-k).d , 0);
m = par.grid_m_nd;
n = par.grid_n_nd;
z = sol(2,par.T-k).z;
I = a < 1e-7;
a(I) = 0;
I = m < par.fig_max_m & n < par.fig_max_n;
Icon = a == 0 & d == 0 & I == 1;
Iucon = a > 0 & d > 0 & I == 1;
Iacon = a == 0 & d > 0 & I == 1;
Idcon = a > 0 & d == 0 & I == 1;
% sections
name = ['T' num2str(k,'%02.0f') '_overview_' ext ];
[figs.overview.(ext), ~] = fun.myfigure(par,name);
ileg = 0;
if sum(fun.vec(Icon)) > 0
ileg = ileg+1;
leg{ileg} = 'con';
scatter(m(Icon),n(Icon),4,par.color{3},'filled');
end
if sum(fun.vec(Iacon)) > 0
ileg = ileg+1;
leg{ileg} = 'acon';
scatter(m(Iacon),n(Iacon),4,par.color{1},'filled');
end
if sum(fun.vec(Idcon)) > 0
ileg = ileg+1;
leg{ileg} = 'dcon';
scatter(m(Idcon),n(Idcon),4,par.color{2},'filled');
end
if sum(fun.vec(Iucon)) > 0
ileg = ileg+1;
leg{ileg} = 'ucon';
scatter(m(Iucon),n(Iucon),4,'black','filled');
end
fun.mylegend(par,leg,'NorthWest');
% discrete choice
if par.sigma == 0
retire = z(:) == 0;
work = z(:) == 1;
name = ['T' num2str(k,'%02.0f') '_discrete_' ext ];
[figs.discrete.(ext), ~] = fun.myfigure(par,name);
scatter(m(retire),n(retire),4,par.color{1},'filled');
scatter(m(work),n(work),5,par.color{2},'filled');
fun.mylegend(par,{'retire','work'},'best');
else
name = ['T' num2str(k,'%02.0f') '_discrete_' ext ];
[figs.discrete.(ext), ~] = fun.myfigure(par,name);
scatter(m(:),n(:),4,z(:),'filled'); % colopmap off due to limits
colormap(jet);
colorbar;
end
end
function figs = compare(figs,par,sol_compare,sol_egm,k,varlist)
% create comparision figures
par = fun.solprep(par);
sol_egm(2,par.T-k).a = par.grid_m_nd - sol_egm(2,par.T-k).c - sol_egm(2,par.T-k).d;
sol_egm(2,par.T-k).b = par.grid_n_nd + sol_egm(2,par.T-k).d + fun.f_pens(sol_egm(2,par.T-k).d,par);
sol_compare(2,par.T-k).a = par.grid_m_nd - sol_compare(2,par.T-k).c - sol_compare(2,par.T-k).d;
sol_compare(2,par.T-k).b = par.grid_n_nd + sol_compare(2,par.T-k).d + fun.f_pens(sol_compare(2,par.T-k).d,par);
% loop over variables
for i = 1:numel(varlist)
var = varlist{i};
% egm - data
m_egm = par.grid_m_nd(:);
n_egm = par.grid_n_nd(:);
I_egm = m_egm < par.fig_max_m & n_egm < par.fig_max_n;
egm = sol_egm(2,par.T-k).(var)(:);
% vfi - data
m_vfi = par.grid_m_nd(:);
n_vfi = par.grid_n_nd(:);
I_vfi = m_vfi < par.fig_max_m & n_vfi < par.fig_max_n;
vfi = sol_compare(2,par.T-k).(var)(:);
% 1. vf - points
% name = ['T' num2str(k,'%02.0f') '_' var '_vfi'];
% [figs.(var).vfi, ~] = fun.myfigure(par,name);
% scatter3(m_vfi(I_vfi),n_vfi(I_vfi),vfi(I_vfi),2,vfi(I_vfi),'filled')
% view([-37.5 30]);
% grid on;
% 2. egm - points
name = ['T' num2str(k,'%02.0f') '_' var '_egm'];
[figs.(var).egm, ~] = fun.myfigure(par,name);
scatter3(m_egm(I_egm),n_egm(I_egm),egm(I_egm),2,egm(I_egm),'filled')
view([-37.5 30]);
grid on;
end
end
function figs = segments(figs,par,sol_compare,sol,k,stage,segs,varlist)
% creates segment figures
par = fun.solprep(par);
% loop over segments
for i = 1:numel(segs)
seg = segs{i};
if strcmp(stage,'clean') == 1
stagename = ['a_' stage];
elseif strcmp(stage,'upper') == 1
stagename = ['b_' stage];
elseif strcmp(stage,'final')
stagename = ['c_' stage];
elseif strcmp(stage,'final_opt')
stagename = ['d_' stage];
else
error('unknown stage')
end
if strcmp(stage,'final') || strcmp(stage,'final_opt')
solnow = sol(2,par.T-k).(seg);
solnow.m = par.grid_m_nd;
solnow.n = par.grid_n_nd;
else
solnow = sol(2,par.T-k).(seg).(stage);
end
solnow.a = solnow.m - solnow.c - solnow.d;
solnow.b = solnow.n + solnow.d + fun.f_pens(solnow.d,par);
% mn based:
I = solnow.m < par.fig_max_m & solnow.n < par.fig_max_n & isnan(solnow.v) == 0 & isinf(-solnow.v) == 0;
% i. (m,n)
if strcmp(stage,'final_opt')
name = ['T' num2str(k,'%02.0f') '_grid_' seg '_' stagename];
figs.grid.(seg).(stage) = fun.myfigure(par,name);
scatter(solnow.m(I),solnow.n(I),5,.7*ones(1,3),'filled');
a = par.grid_m_nd - sol(2,par.T-k).c - sol(2,par.T-k).d;
d = sol(2,par.T-k).d;
m = par.grid_m_nd;
n = par.grid_n_nd;
z = sol(2,par.T-k).z;
if strcmp(seg,'con')
I_seg = a < 1e-8 & d == 0;
elseif strcmp(seg,'ucon')
I_seg = a >= 1e-8 & d > 0;
elseif strcmp(seg,'acon')
I_seg = a < 1e-8 & d > 0;
elseif strcmp(seg,'dcon')
I_seg = a >= 1e-8 & d == 0;
end
scatter(m(I_seg),n(I_seg),5,'black','filled');
grid on;
else
name = ['T' num2str(k,'%02.0f') '_grid_' seg '_' stagename];
figs.grid.(seg).(stage) = fun.myfigure(par,name);
scatter(solnow.m(I),solnow.n(I),5,'black','filled');
grid on;
name = ['T' num2str(k,'%02.0f') '_grid_' seg '_' stagename];
figs.gridab.(seg).(stage) = fun.myfigure(par,name);
scatter(solnow.a(I),solnow.b(I),5,'black','filled');
grid on;
xlabel('a','Interpreter','latex','FontSize', par.fontsize_small);
ylabel('b','Interpreter','latex','FontSize', par.fontsize_small);
end
end
end
%% over and out
end
end