Merged @dynDates/minus and @dynDate/minus. Removed dynDate/minus.
This commit changes the behaviour of @dynDates/minus that was previously returning the relative complement of B in A. I will implement a setdiff function for dynDates objects later...time-shift
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@ -1,110 +0,0 @@
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function c = minus(a,b) % --*-- Unitary tests --*--
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%@info:
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%! @deftypefn {Function File} {@var{c} =} minus (@var{a},@var{b})
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%! @anchor{@dynDate/minus}
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%! @sp 1
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%! Overloads the minus (soustraction) operator for the Dynare dates class (@ref{dynDate}). Depending on the frequency, computes the number
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%! of years, quarters, months, weeks between two dates @var{a} and @var{b} (it is assumed that @var{a}>@var{B}).
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%! @sp 2
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%! @strong{Inputs}
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%! @sp 1
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%! @table @ @var
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%! @item a
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%! Dynare date object instantiated by @ref{dynDate}.
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%! @item b
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%! Dynare date object instantiated by @ref{dynDate}.
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%! @end table
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%! @sp 1
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%! @strong{Outputs}
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%! @sp 1
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%! @table @ @var
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%! @item c
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%! Integer scalar, the number of years, quarters, months or weeks between @var{a} and @var{B}.
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%! @end table
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%! @sp 2
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%! @strong{This function is called by:}
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%! @sp 2
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%! @strong{This function calls:}
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%! @ref{@@dynDate/eq},@ref{@@dynDate/lt}
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%!
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%! @end deftypefn
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%@eod:
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% Copyright (C) 2011-2013 Dynare Team
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%
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% This file is part of Dynare.
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%
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% Dynare is free software: you can redistribute it and/or modify
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% it under the terms of the GNU General Public License as published by
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% the Free Software Foundation, either version 3 of the License, or
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% (at your option) any later version.
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%
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% Dynare is distributed in the hope that it will be useful,
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% but WITHOUT ANY WARRANTY; without even the implied warranty of
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% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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% GNU General Public License for more details.
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%
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% You should have received a copy of the GNU General Public License
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% along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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if ~( isa(a,'dynDate') && isa(b,'dynDate') )
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error(['dynDate::minus: Input arguments ' inputname(1) ' and ' inputname(2) ' must be dynDate objects!'])
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end
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if a.freq~=b.freq
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error(['dynDate::minus: ' inputname(1) ' and ' inputname(2) ' must have common frequency!'])
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end
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if a<b
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error(['dynDate::minus: ' inputname(1) ' must be posterior to ' inputname(2) '!'])
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end
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if a==b
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c = 0;
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return
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end
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switch a.freq
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case 1
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c = a.time(1)-b.time(1);
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case {4,12,52}
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c = a.time(2)-b.time(2) + (a.time(1)-b.time(1))*a.freq;
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otherwise
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error('dynDate::minus: Unknown frequency!')
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end
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%@test:1
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%$ % Define some dates
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%$ date_0_1 = 1950;
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%$ date_0_2 = 1950;
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%$ date_0_3 = 1940;
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%$ date_1_1 = '1950Q4';
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%$ date_1_2 = '1950Q1';
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%$ date_1_3 = '1940Q3';
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%$ date_2_1 = '2000M3';
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%$ date_2_2 = '1998M8';
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%$
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%$ % Call the tested routine.
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%$ d_0_1 = dynDate(date_0_1);
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%$ d_0_2 = dynDate(date_0_2);
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%$ d_0_3 = dynDate(date_0_3);
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%$ d_1_1 = dynDate(date_1_1);
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%$ d_1_2 = dynDate(date_1_2);
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%$ d_1_3 = dynDate(date_1_3);
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%$ d_2_1 = dynDate(date_2_1);
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%$ d_2_2 = dynDate(date_2_2);
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%$ e1 = d_0_1-d_0_2;
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%$ e2 = d_0_1-d_0_3;
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%$ e3 = d_1_1-d_1_2;
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%$ e4 = d_1_1-d_1_3;
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%$ e5 = d_2_1-d_2_2;
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%$
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%$ % Check the results.
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%$ t(1) = dyn_assert(e1,0);
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%$ t(2) = dyn_assert(e2,10);
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%$ t(3) = dyn_assert(e3,3);
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%$ t(4) = dyn_assert(e4,41);
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%$ t(4) = dyn_assert(e5,19);
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%$ T = all(t);
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%@eof:1
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@ -1,29 +1,7 @@
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function C = minus(A,B) % --*-- Unitary tests --*--
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%@info:
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%! @deftypefn {Function File} {@var{C} =} minus (@var{A},@var{B})
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%! @anchor{@dynDates/minus}
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%! @sp 1
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%! Overloads the minus (soustraction) operator for the @ref{dynDates} class. C is the relative complement of B in A.
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%! if A and B are not disjoints.
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%! @sp 2
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%! @strong{Inputs}
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%! @sp 1
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%! @table @ @var
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%! @item A
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%! @ref{dynDates} object.
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%! @item B
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%! @ref{dynDates} object.
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%! @end table
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%! @sp 2
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%! @strong{Outputs}
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%! @sp 1
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%! @table @ @var
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%! @item C
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%! @ref{dynDates} object.
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%! @end table
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%! @end deftypefn
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%@eod:
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% Overloads the minus operator (-). If A and B are dynDates objects, the method returns the number of periods between A and B (so that A+C=B). If
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% one of the inputs is an integer or a vector of integers, the method shifts the dynDates object by X (the interger input) periods backward.
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% Copyright (C) 2013 Dynare Team
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%
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@ -42,44 +20,141 @@ function C = minus(A,B) % --*-- Unitary tests --*--
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% You should have received a copy of the GNU General Public License
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% along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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if isempty(B)
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C = A;
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return
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end
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if isempty(A)
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C = dynDates();
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return
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end
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if isa(A,'dynDates') && isa(B,'dynDates')
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% Concatenate dynDates objects without removing repetitions if A and B are not disjoint sets of dates.
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if ~isequal(A.freq,B.freq)
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C = A;
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error(['dynDates::minus: Input arguments ''' inputname(1) ''' and ''' inputname(2) ''' must have common frequencies!'])
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end
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if isempty(A) || isempty(B)
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error(['dynDates::minus: Input arguments ''' inputname(1) ''' and ''' inputname(2) ''' must not be empty!'])
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end
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if ~isequal(length(A),length(B))
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if length(A)==1
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A.time = repmat(A.time,B.ndat,1);
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A.ndat = B.ndat;
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elseif length(B)==1
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B.time = repmat(B.time,A.ndat,1);
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B.ndat = A.ndat;
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else
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error(['dynDates::minus: Input arguments ''' inputname(1) ''' and ''' inputname(2) ''' lengths are not consistent!'])
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end
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end
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C = zeros(length(A),1);
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id = find(~(A==B));
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if isempty(id)
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return
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end
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D = intersect(A,B);
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if isempty(D)
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C = A;
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else
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C(id) = A.time(id,2)-B.time(id,2) + (A.time(id,1)-B.time(id,1))*A.freq;
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elseif isa(A,'dynDates') && ( (isvector(B) && isequal(length(B),A.ndat) && all(isint(B))) || isscalar(B) && isint(B) || isequal(length(A),1) && isvector(B) && all(isint(B)))
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C = dynDates();
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C.freq = A.freq;
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C.time = setdiff(A.time,D.time,'rows');
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C.time = add_periods_to_array_of_dates(A.time, A.freq, -B);
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C.ndat = rows(C.time);
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elseif isa(B,'dynDates') && ( (isvector(A) && isequal(length(A),B.ndat) && all(isint(A))) || isscalar(A) && isint(A) )
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C = dynDates();
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C.freq = A.freq;
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C.time = add_periods_to_array_of_dates(B.time, B.freq, -A);
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C.ndat = rows(C.time);
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else
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error('dynDates::plus: I don''t understand what you want to do! Check the manual.')
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end
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%@test:1
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%$ % Define some dynDates objects
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%$ d1 = dynDate('1950Q1'):dynDate('1959Q4') ;
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%$ d2 = dynDate('1960Q1'):dynDate('1969Q4') ;
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%$ d3 = d1+d2;
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%$
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%$ d1 = dynDates('1950Q1','1950Q2','1960Q1');
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%$ d2 = dynDates('1950Q3','1950Q4','1960Q1');
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%$ d3 = dynDates('2000Q1');
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%$ d4 = dynDates('2002Q2');
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%$ % Call the tested routine.
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%$ e1 = d1-d2;
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%$ e2 = d3-d1;
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%$ try
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%$ e1 = d2-d1;
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%$ e2 = d4-d3;
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%$ t(1) = 1;
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%$ catch
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%$ t(1) = 0;
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%$ end
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%$
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%$ % Check the results.
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%$ t(1) = dyn_assert(e1==d1,1);
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%$ t(2) = dyn_assert(e2==d2,1);
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%$ if t(1)
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%$ t(2) = dyn_assert(e1,[2; 2; 0]);
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%$ t(3) = dyn_assert(e2,9);
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%$ end
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%$ T = all(t);
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%@eof:1
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%@test:2
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%$ % Define some dynDates objects
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%$ d1 = dynDates('1950Y','1951Y','1953Y');
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%$ d2 = dynDates('1951Y','1952Y','1953Y');
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%$ d3 = dynDates('2000Y');
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%$ d4 = dynDates('1999Y');
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%$ % Call the tested routine.
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%$ try
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%$ e1 = d2-d1;
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%$ e2 = d4-d3;
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%$ t(1) = 1;
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%$ catch
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%$ t(1) = 0;
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%$ end
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%$
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%$ if t(1)
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%$ t(2) = dyn_assert(e1,[1; 1; 0]);
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%$ t(3) = dyn_assert(e2,-1);
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%$ end
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%$ T = all(t);
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%@eof:2
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%@test:3
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%$ % Define some dynDates objects
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%$ d1 = dynDates('2000Y');
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%$ d2 = dynDates('1999Y');
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%$ % Call the tested routine.
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%$ try
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%$ e1 = d1-1;
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%$ e2 = d2-(-1);
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%$ t(1) = 1;
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%$ catch
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%$ t(1) = 0;
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%$ end
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%$
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%$ if t(1)
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%$ t(2) = dyn_assert(isequal(e1,d2),1);
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%$ t(3) = dyn_assert(isequal(e2,d1),1);
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%$ end
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%$ T = all(t);
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%@eof:3
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%@test:4
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%$ % Define some dynDates objects
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%$ d1 = dynDates('2000Q1');
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%$ e1 = dynDates('1999Q4','1999Q3','1999Q2','1999Q1','1998Q4');
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%$ % Call the tested routine.
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%$ try
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%$ f1 = d1-transpose(1:5);
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%$ t(1) = 1;
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%$ catch
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%$ t(1) = 0;
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%$ end
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%$
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%$ if t(1)
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%$ t(2) = dyn_assert(isequal(e1,f1),1);
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%$ end
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%$ T = all(t);
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%@eof:4
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%@test:5
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%$ % Define some dynDates objects
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%$ d1 = dynDates('1999Q4','1999Q3','1999Q2','1999Q1','1998Q4');
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%$ e1 = dynDates('2000Q1')*5;
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%$ % Call the tested routine.
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%$ try
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%$ f1 = d1-(-transpose(1:5));
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%$ t(1) = 1;
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%$ catch
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%$ t(1) = 0;
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%$ end
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%$
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%$ if t(1)
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%$ t(2) = dyn_assert(isequal(e1,f1),1);
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%$ end
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%$ T = all(t);
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%@eof:5
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