| /dports/math/scilab/scilab-6.1.1/scilab/modules/m2sci/tests/unit_tests/mfiles/ |
| H A D | FLIPLR.m | 1 % Test file for function fliplr()
5 res1 = fliplr([]);
11 res4 = fliplr([1]);
13 res5 = fliplr([1,2,3]);
15 res6 = fliplr([1;2;3]);
17 res7 = fliplr([1,2,3;4,5,6]);
35 res16 = fliplr([i]);
37 res17 = fliplr([i,2i,3i]);
39 res18 = fliplr([i;2i;3i]);
59 res28 = fliplr(['s']);
[all …]
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| /dports/math/octave/octave-6.4.0/scripts/general/ |
| H A D | fliplr.m | 27 ## @deftypefn {} {} fliplr (@var{x})
35 ## fliplr ([1, 2; 3, 4])
44 function y = fliplr (x) function
54 %!assert (fliplr ([1, 2; 3, 4]), [2, 1; 4, 3])
55 %!assert (fliplr ([1, 2; 3, 4; 5, 6]), [2, 1; 4, 3; 6, 5])
57 %!assert (fliplr ([1 2 3].'), [1 2 3].')
65 %! assert (fliplr (a), b);
73 %! assert (fliplr (a), b);
79 %! assert (fliplr (a), a);
81 %!error fliplr()
[all …]
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| H A D | del2.m | 196 %! assert (b, fliplr (2*del2 (fliplr (a))));
197 %! assert (b, flipud (fliplr (2*del2 (fliplr (flipud (a))))));
208 %! assert (b, fliplr (2*del2 (fliplr (a))));
209 %! assert (b, flipud (fliplr (2*del2 (fliplr (flipud (a))))));
248 %! assert (b, fliplr (2*del2 (fliplr (a))));
249 %! assert (b, flipud (fliplr (2*del2 (fliplr (flipud (a))))));
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| H A D | interp1.m | 507 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
524 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
546 #%! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
620 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
637 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
659 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
676 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
696 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
713 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
733 %! interp1 (fliplr (xp),fliplr (yp),xi,style),100*eps)
[all …]
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| /dports/math/octave-forge-actuarial/actuarial/inst/ |
| H A D | quotamack.m | 108 S = fliplr(triu(fliplr(S),-u)); #ensure S is triangular
116 Z = fliplr(triu(fliplr(Z),-u)); #clean Z
123 num =fliplr(triu(fliplr(a),-u)); #numerator and clean low triangle
125 den = fliplr(triu(fliplr(den),-u)); #clean low triangle
127 W = fliplr(triu(fliplr(W),-u));
133 b = (diag(fliplr(S),-u) ./ flipud(cumsum(LRI_AD)') ) ./ V;
135 b = ([S(1:u,n); diag(fliplr(S),-u)] ./ [sum(LRI_AD)*ones(1,u);flipud(cumsum(LRI_AD)')] ) ./ V;
140 sb = fliplr(triu(fliplr(sb),-u));
142 sV = fliplr(triu(fliplr(sV),-u));
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| H A D | ultimatemack.m | 103 S = fliplr(triu(fliplr(S),-u)); #ensure S is triangular
111 Z = fliplr(triu(fliplr(Z),-u)); #clean Z
118 num =fliplr(triu(fliplr(a),-u)); #numerator, and clean low triangle
120 den = fliplr(triu(fliplr(den),-u)); #clean low triangle
122 W = fliplr(triu(fliplr(W),-u));
128 b = (diag(fliplr(S),-u) ./ flipud(cumsum(LRI_AD)') ) ./ V;
130 b = ([S(1:u,n); diag(fliplr(S),-u)] ./ [sum(LRI_AD)*ones(1,u);flipud(cumsum(LRI_AD)')] ) ./ V;
135 sb = fliplr(triu(fliplr(sb),-u));
137 sV =fliplr(triu(fliplr(sV),-u));
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| H A D | quotapanning.m | 71 S = fliplr(triu(fliplr(S),-u)); #ensure S is triangular
75 Z = fliplr(triu(fliplr(Z),-u)); #clean Z
82 W =fliplr(triu(fliplr(W),-u)); #clean low triangle
84 a = fliplr(triu(fliplr(a),-u)); #clean low triangle
86 W = fliplr(triu(fliplr(W),-u)); #clean low triangle
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| H A D | quotaad.m | 72 S = fliplr(triu(fliplr(S),-u)); #ensure S is triangular
79 Z = fliplr(triu(fliplr(Z),-u)); #clean Z
86 W =fliplr(triu(fliplr(W),-u)); #clean low triangle
88 a = fliplr(triu(fliplr(a),-u)); #clean low triangle
90 W = fliplr(triu(fliplr(W),-u));
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| H A D | quotald.m | 65 S = fliplr(triu(fliplr(S),-u)); #ensure S is triangular
69 LDI = fliplr(triu(fliplr(LDI),-u));
73 W = fliplr(triu(fliplr(S),1-u)); #get T values to use
79 quotas = 1./cumprod(fliplr(LDI_CL)); #calcs cumulated quota
81 quotas = fliplr(shift(quotas,1));
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| H A D | ultimatecc.m | 86 S = fliplr(triu(fliplr(S),-u)); #ensure S is triangular
98 K = sum(diag(fliplr(S))')/ (fliplr(quotas)*V);
100 K = sum([diag(fliplr(S),-u)' S(1:u,n)])/ (fliplr([quotas ones(u)])*V);
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| /dports/math/armadillo/armadillo-10.7.1/tests2/ |
| H A D | fn_flip.cpp | 73 REQUIRE( accu(abs( fliplr(A) - A_fliplr )) == Approx(0.0).margin(0.001) );
76 REQUIRE( accu(abs( (-fliplr(A)) + A_fliplr )) == Approx(0.0).margin(0.001) );
79 REQUIRE( accu(abs( fliplr(-A) + A_fliplr )) == Approx(0.0).margin(0.001) );
82 REQUIRE( accu(abs( 2*fliplr(A) - two_times_A_fliplr )) == Approx(0.0).margin(0.001) );
85 REQUIRE( accu(abs( fliplr(2*A) - two_times_A_fliplr )) == Approx(0.0).margin(0.001) );
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| /dports/math/octave-forge-symbolic/symbolic-2.9.0/inst/@sym/ |
| H A D | fliplr.m | 21 %% @defmethod @@sym fliplr (@var{A})
28 %% fliplr (A)
40 function B = fliplr (A) function
57 %! assert (isequal (fliplr(A), B))
64 %! assert (isequal (fliplr(A), B))
69 %! assert (isequal (fliplr(x), x))
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| /dports/math/octave-forge-symbolic/symbolic-2.9.0/inst/ |
| H A D | test_bugs.tst | 63 %! % Issue #103: rot90, fliplr, flipud, flip on scalars
69 %! assert (isequal (fliplr(x), x))
73 %! % Issue #103: rot90, fliplr, flipud, flip on vectors
79 %! assert (isequal (rot90(h, 2), fliplr(h)))
85 %! assert (isequal (fliplr(v), v))
86 %! assert (isequal (fliplr(h), [x 2 1]))
90 %! % Issue #103: rot90, fliplr, flipud, flip on matrices
98 %! assert (isequal (fliplr(A), [3 x 1; 6 5 x]))
109 %! assert (isequal (flip(h, 2), fliplr(h)))
111 %! assert (isequal (flip(A, 2), fliplr(A)))
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| /dports/math/glm/glm-0.9.9.8/glm/gtx/ |
| H A D | matrix_factorisation.inl | 9 tin = fliplr(tin);
16 GLM_FUNC_QUALIFIER mat<C, R, T, Q> fliplr(mat<C, R, T, Q> const& in) function
71 tin = fliplr(tin);
77 tr = fliplr(tr);
79 r = fliplr(r);
81 tq = fliplr(tq);
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| /dports/graphics/libprojectm/projectm-3.1.12/vendor/glm/gtx/ |
| H A D | matrix_factorisation.inl | 10 tin = fliplr(tin);
17 GLM_FUNC_QUALIFIER mat<C, R, T, Q> fliplr(mat<C, R, T, Q> const& in) function
72 tin = fliplr(tin);
78 tr = fliplr(tr);
80 r = fliplr(r);
82 tq = fliplr(tq);
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| /dports/games/warzone2100/warzone2100/3rdparty/glm/glm/gtx/ |
| H A D | matrix_factorisation.inl | 9 tin = fliplr(tin);
16 GLM_FUNC_QUALIFIER mat<C, R, T, Q> fliplr(mat<C, R, T, Q> const& in) function
71 tin = fliplr(tin);
77 tr = fliplr(tr);
79 r = fliplr(r);
81 tq = fliplr(tq);
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| /dports/devel/upp/upp/uppsrc/plugin/glm/gtx/ |
| H A D | matrix_factorisation.inl | 9 tin = fliplr(tin);
16 GLM_FUNC_QUALIFIER mat<C, R, T, Q> fliplr(mat<C, R, T, Q> const& in) function
71 tin = fliplr(tin);
77 tr = fliplr(tr);
79 r = fliplr(r);
81 tq = fliplr(tq);
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| /dports/graphics/nanort/nanort-b1feea8/examples/common/glm/glm/gtx/ |
| H A D | matrix_factorisation.inl | 10 tin = fliplr(tin);
17 GLM_FUNC_QUALIFIER matType<C, R, T, P> fliplr(matType<C, R, T, P> const& in) function
72 tin = fliplr(tin);
78 tr = fliplr(tr);
80 r = fliplr(r);
82 tq = fliplr(tq);
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| /dports/math/octave-forge-nurbs/nurbs-1.4.3/inst/ |
| H A D | nrbtransp.m | 43 tsrf = nrbmak(permute(srf.coefs,[1 3 2]), fliplr(srf.knots));
60 %! assert (srf.number, fliplr(srft.number));
61 %! assert (srf.order, fliplr(srft.order));
62 %! assert (srf.knots, fliplr(srft.knots));
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| /dports/science/openems/openEMS-0.0.35-71-g4c24b6e/matlab/ |
| H A D | ReadHDF5Mesh.m | 40 hdf_mesh.names(1:2) = fliplr(hdf_mesh.names(1:2));
41 hdf_mesh.lines(1:2) = fliplr(hdf_mesh.lines(1:2));
73 hdf_mesh.names(1:2) = fliplr(hdf_mesh.names(1:2));
74 hdf_mesh.lines(1:2) = fliplr(hdf_mesh.lines(1:2));
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| /dports/math/octave/octave-6.4.0/test/ |
| H A D | complex.tst | 29 %! assert (sort (x, "descend"), fliplr (x));
30 %! assert (sort (single (x), "descend"), fliplr (single (x)));
36 %! assert (sort (x, "descend"), fliplr (xs));
38 %! assert (sort (single (x), "descend"), fliplr (single (xs)));
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| /dports/science/dynare/dynare-4.6.4/contrib/ms-sbvar/TZcode/MatlabFiles/ |
| H A D | chol2.m | 27 %%[R,p] = chol(fliplr(flipud(A)));
29 R = chol(fliplr(flipud(A)));
30 R = fliplr(flipud(R))';
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| /dports/math/octave/octave-6.4.0/examples/code/@polynomial/ |
| H A D | polyval.m | 4 [y, dy] = polyval (fliplr (p.poly), varargin{:});
6 y = polyval (fliplr (p.poly), varargin{:});
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| /dports/devel/py-pythran/pythran-0.11.0/pythran/pythonic/include/numpy/ |
| H A D | fliplr.hpp | 12 auto fliplr(E &&expr) -> decltype(std::forward<E>(expr)(
16 DEFINE_FUNCTOR(pythonic::numpy, fliplr);
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| /dports/math/p5-Math-Matrix/Math-Matrix-0.94/t/ |
| H A D | fliplr.t | 12 my $y = $x -> fliplr();
34 my $y = $x -> fliplr();
|