function A = mpower(B,C) % --*-- Unitary tests --*-- %@info: %! @deftypefn {Function File} {@var{A} =} mpower (@var{B},@var{C}) %! @anchor{@dseries/mpower} %! @sp 1 %! Overloads the mpower method for the Dynare time series class (@ref{dseries}). %! @sp 2 %! @strong{Inputs} %! @sp 1 %! @table @ @var %! @item B %! Dynare time series object instantiated by @ref{dseries}, with T observations and N variables. %! @item C %! Real scalar or a dseries object with T observations and N variables. %! @end table %! @sp 1 %! @strong{Outputs} %! @sp 1 %! @table @ @var %! @item A %! dseries object with T observations and N variables. %! @end deftypefn %@eod: % Copyright (C) 2013 Dynare Team % % This file is part of Dynare. % % Dynare is free software: you can redistribute it and/or modify % it under the terms of the GNU General Public License as published by % the Free Software Foundation, either version 3 of the License, or % (at your option) any later version. % % Dynare is distributed in the hope that it will be useful, % but WITHOUT ANY WARRANTY; without even the implied warranty of % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the % GNU General Public License for more details. % % You should have received a copy of the GNU General Public License % along with Dynare. If not, see . if isdseries(B) && isnumeric(C) && isreal(C) && isscalar(C) A = dseries(); A.freq = B.freq; A.init = B.init; A.dates = B.dates; A.nobs = B.nobs; A.vobs = B.vobs; A.name = cell(A.vobs,1); A.tex = cell(A.vobs,1); for i=1:A.vobs A.name(i) = {['power(' B.name{i} ',' num2str(C) ')']}; A.tex(i) = {[B.tex{i} '^' num2str(C) ]}; end A.data = B.data.^C; return end if isdseries(B) && isdseries(C) if isequal(B.nobs,C.nobs) && isequal(B.vobs,C.vobs) && isequal(B.freq,C.freq) A = dseries(); A.freq = B.freq; A.init = B.init; A.dates = B.dates; A.nobs = B.nobs; A.vobs = B.vobs; A.name = cell(A.vobs,1); A.tex = cell(A.vobs,1); for i=1:A.vobs A.name(i) = {['power(' B.name{i} ',' C.name{i} ')']}; A.tex(i) = {[B.tex{i} '^{' C.tex{i} '}']}; end A.data = B.data.^C.data; else error('dseries::mpower: If both input arguments are dseries objects, they must have the same numbers of variables and observations and common frequency!') end return end error(['dseries::mpower: Wrong calling sequence!']) %@test:1 %$ % Define a datasets. %$ A = rand(10,2); B = randn(10,2); %$ %$ % Define names %$ A_name = {'A1';'A2'}; B_name = {'B1';'B2'}; %$ %$ %$ % Instantiate a time series object. %$ try %$ ts1 = dseries(A,[],A_name,[]); %$ ts2 = dseries(B,[],B_name,[]); %$ ts3 = ts1^ts2; %$ t = 1; %$ catch %$ t = 0; %$ end %$ %$ if t(1) %$ t(2) = dyn_assert(ts3.vobs,2); %$ t(3) = dyn_assert(ts3.nobs,10); %$ t(4) = dyn_assert(ts3.data,A.^B,1e-15); %$ t(5) = dyn_assert(ts3.name,{'power(A1,B1)';'power(A2,B2)'}); %$ t(6) = dyn_assert(ts3.tex,{'A1^{B1}';'A2^{B2}'}); %$ end %$ T = all(t); %@eof:1 %@test:2 %$ % Define a datasets. %$ A = rand(10,2); %$ %$ % Define names %$ A_name = {'A1';'A2'}; %$ %$ %$ % Instantiate a time series object. %$ try %$ ts1 = dseries(A,[],A_name,[]); %$ ts3 = ts1^2; %$ t = 1; %$ catch %$ t = 0; %$ end %$ %$ if t(1) %$ t(2) = dyn_assert(ts3.vobs,2); %$ t(3) = dyn_assert(ts3.nobs,10); %$ t(4) = dyn_assert(ts3.data,A.^2,1e-15); %$ t(5) = dyn_assert(ts3.name,{'power(A1,2)';'power(A2,2)'}); %$ t(6) = dyn_assert(ts3.tex,{'A1^2';'A2^2'}); %$ end %$ T = all(t); %@eof:2