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基于matlab编程金融方面GUI界面设计系统源码程序        [↓跳到下载地址]
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更新时间:2016-04-05 22:36:24

源码简介

function varargout = ExchangeGUI(varargin)
% EXCHANGEGUI M-file for ExchangeGUI.fig
%      EXCHANGEGUI, by itself, creates a new EXCHANGEGUI or raises the existing
%      singleton*.
%
%      H = EXCHANGEGUI returns the handle to a new EXCHANGEGUI or the handle to
%      the existing singleton*.
%
%      EXCHANGEGUI('CALLBACK',hObject,eventData,handles,...) calls the local
%      function named CALLBACK in EXCHANGEGUI.M with the given input arguments.
%
%      EXCHANGEGUI('Property','Value',...) creates a new EXCHANGEGUI or raises the
%      existing singleton*.  Starting from the left, property value pairs are
%      applied to the GUI before ExchangeGUI_OpeningFcn gets called.  An
%      unrecognized property name or invalid value makes property application
%      stop.  All inputs are passed to ExchangeGUI_OpeningFcn via varargin.
%
%      *See GUI Options on GUIDE's Tools menu.  Choose "GUI allows only one
%      instance to run (singleton)".
%
% See also: GUIDE, GUIDATA, GUIHANDLES

% Edit the above text to modify the response to help ExchangeGUI

% Last Modified by GUIDE v2.5 16-Feb-2010 10:50:51

% Begin initialization code - DO NOT EDIT
gui_Singleton = 1;
gui_State = struct('gui_Name',       mfilename, ...
                   'gui_Singleton',  gui_Singleton, ...
                   'gui_OpeningFcn', @ExchangeGUI_OpeningFcn, ...
                   'gui_OutputFcn',  @ExchangeGUI_OutputFcn, ...
                   'gui_LayoutFcn',  [] , ...
                   'gui_Callback',   []);
if nargin && ischar(varargin{1})
    gui_State.gui_Callback = str2func(varargin{1});
end

if nargout
    [varargout{1:nargout}] = gui_mainfcn(gui_State, varargin{:});
else
    gui_mainfcn(gui_State, varargin{:});
end
% End initialization code - DO NOT EDIT


% --- Executes just before ExchangeGUI is made visible.
function ExchangeGUI_OpeningFcn(hObject, eventdata, handles, varargin)
% This function has no output args, see OutputFcn.
% hObject    handle to figure
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    structure with handles and user data (see GUIDATA)
% varargin   command line arguments to ExchangeGUI (see VARARGIN)

% Choose default command line output for ExchangeGUI
handles.output = hObject;
global year_str year_val;
year_str = get(handles.year,'string');
year_val = get(handles.year,'value');

num2007BNM = xlsread('2007ExBNM.xls');

dolar2007BNM = 1e-4*num2007BNM(:,1);

plot(dolar2007BNM,'LineWidth',1.5)
title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2007BNM)),...
                   ' \sigma^2 = ',num2str(var(dolar2007BNM))],...
      'LineWidth',1.6)

% Update handles structure
guidata(hObject, handles);

% UIWAIT makes ExchangeGUI wait for user response (see UIRESUME)
% uiwait(handles.figure1);


% --- Outputs from this function are returned to the command line.
function varargout = ExchangeGUI_OutputFcn(hObject, eventdata, handles)
% varargout  cell array for returning output args (see VARARGOUT);
% hObject    handle to figure
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    structure with handles and user data (see GUIDATA)

% Get default command line output from handles structure
varargout{1} = handles.output;


% --- Executes on selection change in year.
function year_Callback(hObject, eventdata, handles)
% hObject    handle to year (see GCBO)
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    structure with handles and user data (see GUIDATA)

% Hints: contents = cellstr(get(hObject,'String')) returns year contents as cell array
%        contents{get(hObject,'Value')} returns selected item from year

displayy(handles)

% --- Executes during object creation, after setting all properties.
function year_CreateFcn(hObject, eventdata, handles)
% hObject    handle to year (see GCBO)
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    empty - handles not created until after all CreateFcns called

% Hint: popupmenu controls usually have a white background on Windows.
%       See ISPC and COMPUTER.
if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
    set(hObject,'BackgroundColor','white');
end


% --- Executes on selection change in data.
function data_Callback(hObject, eventdata, handles)
% hObject    handle to data (see GCBO)
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    structure with handles and user data (see GUIDATA)

% Hints: contents = cellstr(get(hObject,'String')) returns data contents as cell array
%        contents{get(hObject,'Value')} returns selected item from data
displayy(handles)

% --- Executes during object creation, after setting all properties.
function data_CreateFcn(hObject, eventdata, handles)
% hObject    handle to data (see GCBO)
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    empty - handles not created until after all CreateFcns called

% Hint: popupmenu controls usually have a white background on Windows.
%       See ISPC and COMPUTER.
if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
    set(hObject,'BackgroundColor','white');
end


% --- Executes on selection change in banc.
function banc_Callback(hObject, eventdata, handles)
% hObject    handle to banc (see GCBO)
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    structure with handles and user data (see GUIDATA)

% Hints: contents = cellstr(get(hObject,'String')) returns banc contents as cell array
%        contents{get(hObject,'Value')} returns selected item from banc
displayy(handles)

% --- Executes during object creation, after setting all properties.
function banc_CreateFcn(hObject, eventdata, handles)
% hObject    handle to banc (see GCBO)
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    empty - handles not created until after all CreateFcns called

% Hint: popupmenu controls usually have a white background on Windows.
%       See ISPC and COMPUTER.
if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
    set(hObject,'BackgroundColor','white');
end


% --- Executes on selection change in operation.
function operation_Callback(hObject, eventdata, handles)
% hObject    handle to operation (see GCBO)
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    structure with handles and user data (see GUIDATA)

% Hints: contents = cellstr(get(hObject,'String')) returns operation contents as cell array
%        contents{get(hObject,'Value')} returns selected item from operation
displayy(handles)

% --- Executes during object creation, after setting all properties.
function operation_CreateFcn(hObject, eventdata, handles)
% hObject    handle to operation (see GCBO)
% eventdata  reserved - to be defined in a future version of MATLAB
% handles    empty - handles not created until after all CreateFcns called

% Hint: popupmenu controls usually have a white background on Windows.
%       See ISPC and COMPUTER.
if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
    set(hObject,'BackgroundColor','white');
end

function displayy(handles)

global year_str year_val data_str data_val;
global banc_str banc_val op_str op_val;
year_str = get(handles.year,'string');
year_val = get(handles.year,'value');
data_str = get(handles.data,'string');
data_val = get(handles.data,'value');
banc_str = get(handles.banc,'string');
banc_val = get(handles.banc,'value');
op_str = get(handles.operation,'string');
op_val = get(handles.operation,'value');
switch year_str{year_val}
    case '2007'
        switch data_str{data_val}
            case 'US_Dolar'
                switch banc_str{banc_val}
                    case 'Banca Nationala'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007BNM = xlsread('2007ExBNM.xls');
                                dolar2007BNM = 1e-4*num2007BNM(:,1);
                                plot(dolar2007BNM,'LineWidth',1.5);
                                title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2007BNM)),...
                                    ' \sigma^2 = ',num2str(var(dolar2007BNM))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007BNM = xlsread('2007ExBNM.xls');
                                dolar2007BNM = 1e-4*num2007BNM(:,1);
                                [pdfDolar2007BNM,XiDolar2007BNM]= ksdensity(dolar2007BNM);
                                plot(XiDolar2007BNM,pdfDolar2007BNM,'LineWidth',1.5)
                                title(['DOLAR Probability Density ',year_str{year_val}, ' BNM'])
                        end
                    case 'Banca de Economii'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007BE = xlsread('2007ExBE.xls');
                                dolar2007BE = 1e-4*num2007BE(:,1:2);
                                plot(dolar2007BE,'LineWidth',1.5);
                                legend('Cumparare','Vinzare')
                                title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2007BE)),...
                                    ' \sigma^2 = ',num2str(var(dolar2007BE))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007BE = xlsread('2007ExBE.xls');
                                dolar2007BE = 1e-4*num2007BE(:,1:2);
                                [pdfDolar2007BE_C,XiDolar2007BE_C]= ksdensity(dolar2007BE(:,1));
                                [pdfDolar2007BE_V,XiDolar2007BE_V]= ksdensity(dolar2007BE(:,2));
                                plot(XiDolar2007BE_C,pdfDolar2007BE_C,'b','LineWidth',1.5)
                                hold on
                                plot(XiDolar2007BE_V,pdfDolar2007BE_V,'g','LineWidth',1.5)
                                legend('Cumparare','Vinzare')
                                hold off
                                title(['DOLAR Probability Density ',year_str{year_val}, ' BE'])
                        end
                    case 'MoldIncomBanc'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007MI = xlsread('2007ExMoldInck.xls');
                                dolar2007MI = 1e-4*num2007MI(:,1:2);
                                plot(dolar2007MI,'LineWidth',1.5);
                                legend('Cumparare','Vinzare')
                                title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2007MI)),...
                                    ' \sigma^2 = ',num2str(var(dolar2007MI))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007MI = xlsread('2007ExMoldInck.xls');
                                dolar2007MI = 1e-4*num2007MI(:,1:2);
                                [pdfDolar2007MI_C,XiDolar2007MI_C]= ksdensity(dolar2007MI(:,1));
                                [pdfDolar2007MI_V,XiDolar2007MI_V]= ksdensity(dolar2007MI(:,2));
                                plot(XiDolar2007MI_C,pdfDolar2007MI_C,'b','LineWidth',1.5)
                                hold on
                                plot(XiDolar2007MI_V,pdfDolar2007MI_V,'g','LineWidth',1.5)
                                legend('Cumparare','Vinzare')
                                hold off
                                title(['DOLAR Probability Density ',year_str{year_val}, ' BE'])
                        end
                end
               
            case 'EURO'
                switch banc_str{banc_val}
                    case 'Banca Nationala'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007BNM = xlsread('2007ExBNM.xls');
                                euro2007BNM = 1e-4*num2007BNM(:,2);
                                plot(euro2007BNM,'LineWidth',1.5);
                                title(['EURO ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2007BNM)),...
                                    ' \sigma^2 = ',num2str(var(euro2007BNM))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007BNM = xlsread('2007ExBNM.xls');
                                euro2007BNM = 1e-4*num2007BNM(:,2);
                                [pdfEuro2007BNM,XiEuro2007BNM]= ksdensity(euro2007BNM);
                                plot(XiEuro2007BNM,pdfEuro2007BNM,'LineWidth',1.5)
                                title(['EURO Probability Density ',year_str{year_val}, ' BNM'])
                        end
                    case 'Banca de Economii'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007BE = xlsread('2007ExBE.xls');
                                euro2007BE = 1e-4*num2007BE(:,3:4);
                                plot(euro2007BE,'LineWidth',1.5);
                                legend('Cumparare','Vinzare')
                                title(['EURO',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2007BE)),...
                                    ' \sigma^2 = ',num2str(var(euro2007BE))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007BE = xlsread('2007ExBE.xls');
                                euro2007BE = 1e-4*num2007BE(:,3:4);
                                [pdfEuro2007BE_C,XiEuro2007BE_C]= ksdensity(euro2007BE(:,1));
                                [pdfEuro2007BE_V,XiEuro2007BE_V]= ksdensity(euro2007BE(:,2));
                                plot(XiEuro2007BE_C,pdfEuro2007BE_C,'b','LineWidth',1.5)
                                hold on
                                plot(XiEuro2007BE_V,pdfEuro2007BE_V,'g','LineWidth',1.5)
                                legend('Cumparare','Vinzare')
                                hold off
                                title(['EURO Probability Density ',year_str{year_val}, ' BE'])
                        end
                    case 'MoldIncomBanc'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007MI = xlsread('2007ExMoldInck.xls');
                                euro2007MI = 1e-4*num2007MI(:,3:4);
                                plot(euro2007MI,'LineWidth',1.5);
                                legend('Cumparare','Vinzare')
                                title(['euro ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2007MI)),...
                                    ' \sigma^2 = ',num2str(var(euro2007MI))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007MI = xlsread('2007ExMoldInck.xls');
                                euro2007MI = 1e-4*num2007MI(:,3:4);
                                [pdfeuro2007MI_C,Xieuro2007MI_C]= ksdensity(euro2007MI(:,1));
                                [pdfeuro2007MI_V,Xieuro2007MI_V]= ksdensity(euro2007MI(:,2));
                                plot(Xieuro2007MI_C,pdfeuro2007MI_C,'b','LineWidth',1.5)
                                hold on
                                plot(Xieuro2007MI_V,pdfeuro2007MI_V,'g','LineWidth',1.5)
                                legend('Cumparare','Vinzare')
                                hold off
                                title(['EURO Probability Density ',year_str{year_val}, ' MI'])
                        end
                end
            case 'RON'
                switch banc_str{banc_val}
                    case 'Banca Nationala'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007BNM = xlsread('2007ExBNM.xls');
                                ron2007BNM = 1e-4*num2007BNM(:,3);
                                plot(ron2007BNM,'LineWidth',1.5);
                                title(['RON ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(ron2007BNM)),...
                                    ' \sigma^2 = ',num2str(var(ron2007BNM))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007BNM = xlsread('2007ExBNM.xls');
                                ron2007BNM = 1e-4*num2007BNM(:,3);
                                [pdfRon2007BNM,XiRon2007BNM]= ksdensity(ron2007BNM);
                                plot(XiRon2007BNM,pdfRon2007BNM,'LineWidth',1.5)
                                title(['RON Probability Density ',year_str{year_val}, ' BNM'])
                        end
                    case 'Banca de Economii'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007BE = xlsread('2007ExBE.xls');
                                ron2007BE = 1e-4*num2007BE(:,7:8);
                                plot(ron2007BE,'LineWIdth',1.5)
                                title(['RON ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(ron2007BE)),...
                                    ' \sigma^2 = ',num2str(var(ron2007BE))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007BE = xlsread('2007ExBE.xls');
                                ron2007BE = 1e-4*num2007BE(:,7:8);
                                [pdfRon2007BE_C,XiRon2007BE_C]= ksdensity(ron2007BE(:,1));
                                [pdfRon2007BE_V,XiRon2007BE_V]= ksdensity(ron2007BE(:,2));
                                plot(XiRon2007BE_C,pdfRon2007BE_C,'b','LineWidth',1.5)
                                hold on
                                plot(XiRon2007BE_V,pdfRon2007BE_V,'g','LineWidth',1.5)
                                hold off
                                title(['RON Probability Density ',year_str{year_val}, ' BE'])
                        end
                    case 'MoldIncomBanc'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2007MI = xlsread('2007ExMoldInck.xls');
                                ron2007MI = 1e-4*num2007MI(:,7:8);
                                plot(ron2007MI,'LineWIdth',1.5)
                                title(['RON ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(ron2007MI)),...
                                    ' \sigma^2 = ',num2str(var(ron2007MI))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2007MI = xlsread('2007ExMoldInck.xls');
                                ron2007MI = 1e-4*num2007MI(:,7:8);
                                [pdfRon2007MI_C,XiRon2007MI_C]= ksdensity(ron2007MI(:,1));
                                [pdfRon2007MI_V,XiRon2007MI_V]= ksdensity(ron2007MI(:,2));
                                plot(XiRon2007MI_C,pdfRon2007MI_C,'b','LineWidth',1.5)
                                hold on
                                plot(XiRon2007MI_V,pdfRon2007MI_V,'g','LineWidth',1.5)
                                hold off
                                title(['RON Probability Density ',year_str{year_val}, ' MI'])
                        end                   
                end
                    case 'RU'
                        switch banc_str{banc_val}
                            case 'Banca Nationala'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        [num2007BNM,txt2007BNM] = xlsread('2007ExBNM.xls');
                                        rubla2007BNM = zeros(max(size(txt2007BNM)),1);
                                        for i=2:max(size(txt2007BNM))
                                            rubla2007BNM(i-1) = 1e-4*str2double(txt2007BNM{i,2});
                                        end
                                        plot(rubla2007BNM(1:end-1),'LineWidth',1.5);
                                        title(['RUBLA ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(rubla2007BNM)),...
                                            ' \sigma^2 = ',num2str(var(rubla2007BNM))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        [num2007BNM,txt2007BNM] = xlsread('2007ExBNM.xls');
                                        rubla2007BNM = zeros(max(size(txt2007BNM)),1);
                                        for i=1:max(size(txt2007BNM))
                                            rubla2007BNM(i) = 1e-4*str2double(txt2007BNM{i,2});
                                        end
                                        [pdfRus2007BNM,XiRus2007BNM]= ksdensity(rubla2007BNM);
                                        plot(XiRus2007BNM,pdfRus2007BNM,'LineWidth',1.5)
                                        title(['RUBLA Probability Density ',year_str{year_val}, ' BNM'])
                                end
                            case 'Banca de Economii'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        [num2007BE,txt2007BE] = xlsread('2007ExBE.xls');
                                        rubla2007BE_C = zeros(max(size(txt2007BE)),1);
                                        rubla2007BE_V = zeros(max(size(txt2007BE)),1);
                                        for i=2:max(size(txt2007BE))
                                            rubla2007BE_C(i-1) = 1e-4*str2double(txt2007BE{i,6});
                                            rubla2007BE_V(i-1) = 1e-4*str2double(txt2007BE{i,7});
                                        end
                                        plot(rubla2007BE_C(1:end-1),'b','LineWidth',1.5);
                                        hold on
                                        plot(rubla2007BE_V(1:end-1),'g','LineWidth',1.5);
                                        hold off
                                        legend('Cumparare','Vinzare');
                                        title(['RUBLA ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(rubla2007BE_C)),...
                                            ' \sigma^2 = ',num2str(var(rubla2007BE_C))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        [num2007BE,txt2007BE] = xlsread('2007ExBE.xls');
                                        rubla2007BE_C = zeros(max(size(txt2007BE)),1);
                                        rubla2007BE_V = zeros(max(size(txt2007BE)),1);
                                        for i=2:max(size(txt2007BE))
                                            rubla2007BE_C(i-1) = 1e-4*str2double(txt2007BE{i,6});
                                            rubla2007BE_V(i-1) = 1e-4*str2double(txt2007BE{i,7});
                                        end
                                        [pdfRus2007BE_C,XiRus2007BE_C]= ksdensity(rubla2007BE_C);
                                        [pdfRus2007BE_V,XiRus2007BE_V]= ksdensity(rubla2007BE_V);
                                        plot(XiRus2007BE_C,pdfRus2007BE_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiRus2007BE_V,pdfRus2007BE_V,'g','LineWidth',1.5)
                                        hold off
                                        title(['RUBLA Probability Density ',year_str{year_val}, ' BE'])
                                        legend(['Cumparare','Vinzare']);
                                end
                            case 'MoldIncomBanc'
                                     switch op_str{op_val}
                                    case 'View Time Evolution'
                                        [num2007MI,txt2007MI] = xlsread('2007ExMoldInck.xls');
                                        rubla2007MI_C = zeros(max(size(txt2007MI)),1);
                                        rubla2007MI_V = zeros(max(size(txt2007MI)),1);
                                        for i=2:max(size(txt2007MI))
                                            rubla2007MI_C(i-1) = 1e-4*str2double(txt2007MI{i,6});
                                            rubla2007MI_V(i-1) = 1e-4*str2double(txt2007MI{i,7});
                                        end
                                        plot(rubla2007MI_C(1:end-1),'b','LineWidth',1.5);
                                        hold on
                                        plot(rubla2007MI_V(1:end-1),'g','LineWidth',1.5);
                                        hold off
                                        legend('Cumparare','Vinzare');
                                        title(['RUBLA ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(rubla2007MI_C)),...
                                            ' \sigma^2 = ',num2str(var(rubla2007MI_C))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        [num2007MI,txt2007MI] = xlsread('2007ExMoldInck.xls');
                                        rubla2007MI_C = zeros(max(size(txt2007MI)),1);
                                        rubla2007MI_V = zeros(max(size(txt2007MI)),1);
                                        for i=2:max(size(txt2007MI))
                                            rubla2007MI_C(i-1) = 1e-4*str2double(txt2007MI{i,6});
                                            rubla2007MI_V(i-1) = 1e-4*str2double(txt2007MI{i,7});
                                        end
                                        [pdfRus2007MI_C,XiRus2007MI_C]= ksdensity(rubla2007MI_C);
                                        [pdfRus2007MI_V,XiRus2007MI_V]= ksdensity(rubla2007MI_V);
                                        plot(XiRus2007MI_C,pdfRus2007MI_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiRus2007MI_V,pdfRus2007MI_V,'g','LineWidth',1.5)
                                        hold off
                                        title(['RUBLA Probability Density ',year_str{year_val}, ' MI'])
                                        legend('Cumparare','Vinzare');
                                end
                        end
        end
                       
            case '2008'
                switch data_str{data_val}
                    case 'US_Dolar'
                        switch banc_str{banc_val}
                            case 'Banca Nationala'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008BNM = xlsread('2008ExBNM.xls');
                                        dolar2008BNM = 1e-4*num2008BNM(:,1);
                                        plot(dolar2008BNM,'LineWidth',1.5);
                                        title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2008BNM)),...
                                            ' \sigma^2 = ',num2str(var(dolar2008BNM))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008BNM = xlsread('2008ExBNM.xls');
                                        dolar2008BNM = 1e-4*num2008BNM(:,1);
                                        [pdfDolar2008BNM,XiDolar2008BNM]= ksdensity(dolar2008BNM);
                                        plot(XiDolar2008BNM,pdfDolar2008BNM,'LineWidth',1.5)
                                        title(['DOLAR Probability Density ',year_str{year_val}, ' BNM'])
                                end
                            case 'Banca de Economii'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008BE = xlsread('2008ExBE.xls');
                                        dolar2008BE = 1e-4*num2008BE(:,1:2);
                                        plot(dolar2008BE,'LineWidth',1.5);
                                        legend('Cumparare','Vinzare')
                                        title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2008BE)),...
                                            ' \sigma^2 = ',num2str(var(dolar2008BE))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008BE = xlsread('2008ExBE.xls');
                                        dolar2008BE = 1e-4*num2008BE(:,1:2);
                                        [pdfDolar2008BE_C,XiDolar2008BE_C]= ksdensity(dolar2008BE(:,1));
                                        [pdfDolar2008BE_V,XiDolar2008BE_V]= ksdensity(dolar2008BE(:,2));
                                        plot(XiDolar2008BE_C,pdfDolar2008BE_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiDolar2008BE_V,pdfDolar2008BE_V,'g','LineWidth',1.5)
                                        legend('Cumparare','Vinzare')
                                        hold off
                                        title(['DOLAR Probability Density ',year_str{year_val}, ' BE'])
                                end
                            case 'MoldIncomBanc'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008MI = xlsread('2008ExMoldInck.xls');
                                        dolar2008MI = 1e-4*num2008MI(:,1:2);
                                        plot(dolar2008MI,'LineWidth',1.5);
                                        legend('Cumparare','Vinzare')
                                        title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2008MI)),...
                                            ' \sigma^2 = ',num2str(var(dolar2008MI))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008MI = xlsread('2008ExMoldInck.xls');
                                        dolar2008MI = 1e-4*num2008MI(:,1:2);
                                        [pdfDolar2008MI_C,XiDolar2008MI_C]= ksdensity(dolar2008MI(:,1));
                                        [pdfDolar2008MI_V,XiDolar2008MI_V]= ksdensity(dolar2008MI(:,2));
                                        plot(XiDolar2008MI_C,pdfDolar2008MI_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiDolar2008MI_V,pdfDolar2008MI_V,'g','LineWidth',1.5)
                                        legend('Cumparare','Vinzare')
                                        hold off
                                        title(['DOLAR Probability Density ',year_str{year_val}, ' MI'])
                                end
                        end
                       
                    case 'EURO'
                        switch banc_str{banc_val}
                            case 'Banca Nationala'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008BNM = xlsread('2008ExBNM.xls');
                                        euro2008BNM = 1e-4*num2008BNM(:,3);
                                        plot(euro2008BNM,'LineWidth',1.5);
                                        title(['EURO ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2008BNM)),...
                                            ' \sigma^2 = ',num2str(var(euro2008BNM))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008BNM = xlsread('2008ExBNM.xls');
                                        euro2008BNM = 1e-4*num2008BNM(:,3);
                                        [pdfEuro2008BNM,XiEuro2008BNM]= ksdensity(euro2008BNM);
                                        plot(XiEuro2008BNM,pdfEuro2008BNM,'LineWidth',1.5)
                                        title(['EURO Probability Density ',year_str{year_val}, ' BNM'])
                                end
                            case 'Banca de Economii'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008BE = xlsread('2008ExBE.xls');
                                        euro2008BE = 1e-4*num2008BE(:,3:4);
                                        plot(euro2008BE,'LineWidth',1.5);
                                        legend('Cumparare','Vinzare')
                                        title(['EURO',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2008BE)),...
                                            ' \sigma^2 = ',num2str(var(euro2008BE))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008BE = xlsread('2008ExBE.xls');
                                        euro2008BE = 1e-4*num2008BE(:,3:4);
                                        [pdfEuro2008BE_C,XiEuro2008BE_C]= ksdensity(euro2008BE(:,1));
                                        [pdfEuro2008BE_V,XiEuro2008BE_V]= ksdensity(euro2008BE(:,2));
                                        plot(XiEuro2008BE_C,pdfEuro2008BE_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiEuro2008BE_V,pdfEuro2008BE_V,'g','LineWidth',1.5)
                                        legend('Cumparare','Vinzare')
                                        hold off
                                        title(['EURO Probability Density ',year_str{year_val}, ' BE'])
                                end
                            case 'MoldIncomBanc'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008MI = xlsread('2008ExMoldInck.xls');
                                        euro2008MI = 1e-4*num2008MI(:,3:4);
                                        plot(euro2008MI,'LineWidth',1.5);
                                        legend('Cumparare','Vinzare')
                                        title(['euro ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2008MI)),...
                                            ' \sigma^2 = ',num2str(var(euro2008MI))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008MI = xlsread('2008ExMoldInck.xls');
                                        euro2008MI = 1e-4*num2008MI(:,3:4);
                                        [pdfeuro2008MI_C,Xieuro2008MI_C]= ksdensity(euro2008MI(:,1));
                                        [pdfeuro2008MI_V,Xieuro2008MI_V]= ksdensity(euro2008MI(:,2));
                                        plot(Xieuro2008MI_C,pdfeuro2008MI_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(Xieuro2008MI_V,pdfeuro2008MI_V,'g','LineWidth',1.5)
                                        legend('Cumparare','Vinzare')
                                        hold off
                                        title(['EURO Probability Density ',year_str{year_val}, ' MI'])
                                end
                        end
                    case 'RON'
                        switch banc_str{banc_val}
                            case 'Banca Nationala'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008BNM = xlsread('2008ExBNM.xls');
                                        ron2008BNM = 1e-4*num2008BNM(:,2);
                                        plot(ron2008BNM,'LineWidth',1.5);
                                        title(['RON ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(ron2008BNM)),...
                                            ' \sigma^2 = ',num2str(var(ron2008BNM))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008BNM = xlsread('2008ExBNM.xls');
                                        ron2008BNM = 1e-4*num2008BNM(:,2);
                                        [pdfRon2008BNM,XiRon2008BNM]= ksdensity(ron2008BNM);
                                        plot(XiRon2008BNM,pdfRon2008BNM,'LineWidth',1.5)
                                        title(['RON Probability Density ',year_str{year_val}, ' BNM'])
                                end
                            case 'Banca de Economii'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008BE = xlsread('2008ExBE.xls');
                                        ron2008BE = 1e-4*num2008BE(:,7:8);
                                        plot(ron2008BE,'LineWIdth',1.5)
                                        title(['RON ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(ron2008BE)),...
                                            ' \sigma^2 = ',num2str(var(ron2008BE))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008BE = xlsread('2008ExBE.xls');
                                        ron2008BE = 1e-4*num2008BE(:,7:8);
                                        [pdfRon2008BE_C,XiRon2008BE_C]= ksdensity(ron2008BE(:,1));
                                        [pdfRon2008BE_V,XiRon2008BE_V]= ksdensity(ron2008BE(:,2));
                                        plot(XiRon2008BE_C,pdfRon2008BE_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiRon2008BE_V,pdfRon2008BE_V,'g','LineWidth',1.5)
                                        hold off
                                        title(['RON Probability Density ',year_str{year_val}, ' BE'])
                                end
                            case 'MoldIncomBanc'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        num2008MI = xlsread('2008ExMoldInck.xls');
                                        ron2008MI = 1e-4*num2008MI(:,7:8);
                                        plot(ron2008MI,'LineWIdth',1.5)
                                        title(['RON ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(ron2008MI)),...
                                            ' \sigma^2 = ',num2str(var(ron2008MI))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        num2008MI = xlsread('2008ExMoldInck.xls');
                                        ron2008MI = 1e-4*num2008MI(:,7:8);
                                        [pdfRon2008MI_C,XiRon2008MI_C]= ksdensity(ron2008MI(:,1));
                                        [pdfRon2008MI_V,XiRon2008MI_V]= ksdensity(ron2008MI(:,2));
                                        plot(XiRon2008MI_C,pdfRon2008MI_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiRon2008MI_V,pdfRon2008MI_V,'g','LineWidth',1.5)
                                        hold off
                                        title(['RON Probability Density ',year_str{year_val}, ' MI'])
                                end
                        end
                    case 'RU'
                        switch banc_str{banc_val}
                            case 'Banca Nationala'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        [num2008BNM,txt2008BNM] = xlsread('2008ExBNM.xls');
                                        rubla2008BNM = zeros(max(size(txt2008BNM)),1);
                                        for i=2:max(size(txt2008BNM))
                                            rubla2008BNM(i-1) = 1e-4*str2double(txt2008BNM{i,5});
                                        end
                                        plot(rubla2008BNM(1:end-1),'LineWidth',1.5);
                                        title(['RUBLA ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(rubla2008BNM)),...
                                            ' \sigma^2 = ',num2str(var(rubla2008BNM))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        [num2008BNM,txt2008BNM] = xlsread('2008ExBNM.xls');
                                        rubla2008BNM = zeros(max(size(txt2008BNM)),1);
                                        for i=1:max(size(txt2008BNM))
                                            rubla2008BNM(i) = 1e-4*str2double(txt2008BNM{i,5});
                                        end
                                        [pdfRus2008BNM,XiRus2008BNM]= ksdensity(rubla2008BNM);
                                        plot(XiRus2008BNM,pdfRus2008BNM,'LineWidth',1.5)
                                        title(['RUBLA Probability Density ',year_str{year_val}, ' BNM'])
                                end
                            case 'Banca de Economii'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        [num2008BE,txt2008BE] = xlsread('2008ExBE.xls');
                                        rubla2008BE_C = zeros(max(size(txt2008BE)),1);
                                        rubla2008BE_V = zeros(max(size(txt2008BE)),1);
                                        for i=2:max(size(txt2008BE))
                                            rubla2008BE_C(i-1) = 1e-4*str2double(txt2008BE{i,6});
                                            rubla2008BE_V(i-1) = 1e-4*str2double(txt2008BE{i,7});
                                        end
                                        plot(rubla2008BE_C(1:end-1),'b','LineWidth',1.5);
                                        hold on
                                        plot(rubla2008BE_V(1:end-1),'g','LineWidth',1.5);
                                        hold off
                                        legend('Cumparare','Vinzare');
                                        title(['RUBLA ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(rubla2008BE_C)),...
                                            ' \sigma^2 = ',num2str(var(rubla2008BE_C))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        [num2008BE,txt2008BE] = xlsread('2008ExBE.xls');
                                        rubla2008BE_C = zeros(max(size(txt2008BE)),1);
                                        rubla2008BE_V = zeros(max(size(txt2008BE)),1);
                                        for i=2:max(size(txt2008BE))
                                            rubla2008BE_C(i-1) = 1e-4*str2double(txt2008BE{i,6});
                                            rubla2008BE_V(i-1) = 1e-4*str2double(txt2008BE{i,7});
                                        end
                                        [pdfRus2008BE_C,XiRus2008BE_C]= ksdensity(rubla2008BE_C);
                                        [pdfRus2008BE_V,XiRus2008BE_V]= ksdensity(rubla2008BE_V);
                                        plot(XiRus2008BE_C,pdfRus2008BE_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiRus2008BE_V,pdfRus2008BE_V,'g','LineWidth',1.5)
                                        hold off
                                        title(['RUBLA Probability Density ',year_str{year_val}, ' BE'])
                                        legend(['Cumparare','Vinzare']);
                                end
                            case 'MoldIncomBanc'
                                switch op_str{op_val}
                                    case 'View Time Evolution'
                                        [num2008MI,txt2008MI] = xlsread('2008ExMoldInck.xls');
                                        rubla2008MI_C = zeros(max(size(txt2008MI)),1);
                                        rubla2008MI_V = zeros(max(size(txt2008MI)),1);
                                        for i=2:max(size(txt2008MI))
                                            rubla2008MI_C(i-1) = 1e-4*str2double(txt2008MI{i,6});
                                            rubla2008MI_V(i-1) = 1e-4*str2double(txt2008MI{i,7});
                                        end
                                        plot(rubla2008MI_C(1:end-1),'b','LineWidth',1.5);
                                        hold on
                                        plot(rubla2008MI_V(1:end-1),'g','LineWidth',1.5);
                                        hold off
                                        legend('Cumparare','Vinzare');
                                        title(['RUBLA ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(rubla2008MI_C)),...
                                            ' \sigma^2 = ',num2str(var(rubla2008MI_C))],...
                                            'LineWidth',1.6)
                                    case 'View Probability Density'
                                        [num2008MI,txt2008MI] = xlsread('2008ExMoldInck.xls');
                                        rubla2008MI_C = zeros(max(size(txt2008MI)),1);
                                        rubla2008MI_V = zeros(max(size(txt2008MI)),1);
                                        for i=2:max(size(txt2008MI))
                                            rubla2008MI_C(i-1) = 1e-4*str2double(txt2008MI{i,6});
                                            rubla2008MI_V(i-1) = 1e-4*str2double(txt2008MI{i,7});
                                        end
                                        [pdfRus2008MI_C,XiRus2008MI_C]= ksdensity(rubla2008MI_C);
                                        [pdfRus2008MI_V,XiRus2008MI_V]= ksdensity(rubla2008MI_V);
                                        plot(XiRus2008MI_C,pdfRus2008MI_C,'b','LineWidth',1.5)
                                        hold on
                                        plot(XiRus2008MI_V,pdfRus2008MI_V,'g','LineWidth',1.5)
                                        hold off
                                        title(['RUBLA Probability Density ',year_str{year_val}, ' MI'])
                                        legend('Cumparare','Vinzare');
                                end
                        end
                end
                       
    case '2009'
        switch data_str{data_val}
            case 'US_Dolar'
                switch banc_str{banc_val}
                    case 'Banca Nationala'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2009BNM = xlsread('2009ExBNM.xls');
                                dolar2009BNM = 1e-4*num2009BNM(:,1);
                                plot(dolar2009BNM,'LineWidth',1.5);
                                title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2009BNM)),...
                                    ' \sigma^2 = ',num2str(var(dolar2009BNM))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2009BNM = xlsread('2009ExBNM.xls');
                                dolar2009BNM = 1e-4*num2009BNM(:,1);
                                [pdfDolar2009BNM,XiDolar2009BNM]= ksdensity(dolar2009BNM);
                                plot(XiDolar2009BNM,pdfDolar2009BNM,'LineWidth',1.5)
                                title(['DOLAR Probability Density ',year_str{year_val}, ' BNM'])
                        end
                    case 'Banca de Economii'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2009BE = xlsread('2009ExBE.xls');
                                dolar2009BE = 1e-4*num2009BE(:,1:2);
                                plot(dolar2009BE,'LineWidth',1.5);
                                legend('Cumparare','Vinzare')
                                title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2009BE)),...
                                    ' \sigma^2 = ',num2str(var(dolar2009BE))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2009BE = xlsread('2009ExBE.xls');
                                dolar2009BE = 1e-4*num2009BE(:,1:2);
                                [pdfDolar2009BE_C,XiDolar2009BE_C]= ksdensity(dolar2009BE(:,1));
                                [pdfDolar2009BE_V,XiDolar2009BE_V]= ksdensity(dolar2009BE(:,2));
                                plot(XiDolar2009BE_C,pdfDolar2009BE_C,'b','LineWidth',1.5)
                                hold on
                                plot(XiDolar2009BE_V,pdfDolar2009BE_V,'g','LineWidth',1.5)
                                legend('Cumparare','Vinzare')
                                hold off
                                title(['DOLAR Probability Density ',year_str{year_val}, ' BE'])
                        end
                    case 'MoldIncomBanc'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2009MI = xlsread('2009ExMoldInck.xls');
                                dolar2009MI = 1e-4*num2009MI(:,1:2);
                                plot(dolar2009MI,'LineWidth',1.5);
                                legend('Cumparare','Vinzare')
                                title(['DOLAR ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(dolar2009MI)),...
                                    ' \sigma^2 = ',num2str(var(dolar2009MI))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2009MI = xlsread('2009ExMoldInck.xls');
                                dolar2009MI = 1e-4*num2009MI(:,1:2);
                                [pdfDolar2009MI_C,XiDolar2009MI_C]= ksdensity(dolar2009MI(:,1));
                                [pdfDolar2009MI_V,XiDolar2009MI_V]= ksdensity(dolar2009MI(:,2));
                                plot(XiDolar2009MI_C,pdfDolar2009MI_C,'b','LineWidth',1.5)
                                hold on
                                plot(XiDolar2009MI_V,pdfDolar2009MI_V,'g','LineWidth',1.5)
                                legend('Cumparare','Vinzare')
                                hold off
                                title(['DOLAR Probability Density ',year_str{year_val}, ' BE'])
                        end
                end
               
            case 'EURO'
                switch banc_str{banc_val}
                    case 'Banca Nationala'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2009BNM = xlsread('2009ExBNM.xls');
                                euro2009BNM = 1e-4*num2009BNM(:,2);
                                plot(euro2009BNM,'LineWidth',1.5);
                                title(['EURO ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2009BNM)),...
                                    ' \sigma^2 = ',num2str(var(euro2009BNM))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2009BNM = xlsread('2009ExBNM.xls');
                                euro2009BNM = 1e-4*num2009BNM(:,2);
                                [pdfEuro2009BNM,XiEuro2009BNM]= ksdensity(euro2009BNM);
                                plot(XiEuro2009BNM,pdfEuro2009BNM,'LineWidth',1.5)
                                title(['EURO Probability Density ',year_str{year_val}, ' BNM'])
                        end
                    case 'Banca de Economii'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2009BE = xlsread('2009ExBE.xls');
                                euro2009BE = 1e-4*num2009BE(:,3:4);
                                plot(euro2009BE,'LineWidth',1.5);
                                legend('Cumparare','Vinzare')
                                title(['EURO',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2009BE)),...
                                    ' \sigma^2 = ',num2str(var(euro2009BE))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2009BE = xlsread('2009ExBE.xls');
                                euro2009BE = 1e-4*num2009BE(:,3:4);
                                [pdfEuro2009BE_C,XiEuro2009BE_C]= ksdensity(euro2009BE(:,1));
                                [pdfEuro2009BE_V,XiEuro2009BE_V]= ksdensity(euro2009BE(:,2));
                                plot(XiEuro2009BE_C,pdfEuro2009BE_C,'b','LineWidth',1.5)
                                hold on
                                plot(XiEuro2009BE_V,pdfEuro2009BE_V,'g','LineWidth',1.5)
                                legend('Cumparare','Vinzare')
                                hold off
                                title(['EURO Probability Density ',year_str{year_val}, ' BE'])
                        end
                    case 'MoldIncomBanc'
                        switch op_str{op_val}
                            case 'View Time Evolution'
                                num2009MI = xlsread('2009ExMoldInck.xls');
                                euro2009MI = 1e-4*num2009MI(:,3:4);
                                plot(euro2009MI,'LineWidth',1.5);
                                legend('Cumparare','Vinzare')
                                title(['euro ',num2str(year_str{year_val}),' : \mu = ',num2str(mean(euro2009MI)),...
                                    ' \sigma^2 = ',num2str(var(euro2009MI))],...
                                    'LineWidth',1.6)
                            case 'View Probability Density'
                                num2009MI = xlsread('2009ExMoldInck.xls');
                                euro2009MI = 1e-4*num2009MI(:,3:4);
                                [pdfeuro2009MI_C,Xieuro2009MI_C]= ksdensity(euro2009MI(:,1));
                                [pdfeuro2009MI_V,Xieuro2009MI_V]= ksdensity(euro2009MI(:,2));
                                plot(Xieuro2009MI_C,pdfeuro2009MI_C,'b','LineWidth',1.5)
                                hold on
                                plot(Xieuro2009MI_V,pdfeuro2009MI_V,'g','LineWidth',1.5)
                                legend('Cumparare','Vinzare')
                                hold off
。。。。。。。。。。。。。。。。。。。。


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