| /dports/math/octave/octave-6.4.0/scripts/ode/ |
| H A D | odeset.m | 80 ## Jacobian matrix, specified as a constant matrix or a function of
84 ## Specify whether the Jacobian is a constant matrix or depends on the
88 ## If the Jacobian matrix is sparse and non-constant but maintains a
89 ## constant sparsity pattern, specify the sparsity pattern.
92 ## Mass matrix, specified as a constant matrix or a function of
108 ## If the mass matrix is sparse and non-constant but maintains a
109 ## constant sparsity pattern, specify the sparsity pattern.
128 ## @item @code{Refine}: positive scalar
135 ## @item @code{RelTol}: positive scalar
214 disp (' AbsTol: scalar or vector, >0, [1e-6]');
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| /dports/math/reduce/Reduce-svn5758-src/packages/solve/ |
| H A D | modsr.red | 93 else general!-multiply!-by!-constant!-mod!-p(a,
99 else if domainp b then general!-multiply!-by!-constant!-mod!-p(a,
152 scalar q,w;
157 general!-multiply!-by!-constant!-mod!-p(red b,q))
166 symbolic procedure general!-multiply!-by!-constant!-mod!-p(a,n);
172 general!-multiply!-by!-constant!-mod!-p(lc a,n),
173 general!-multiply!-by!-constant!-mod!-p(red a,n));
190 begin scalar steps;
200 scalar w;
212 scalar q,w;
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| /dports/math/reduce/Reduce-svn5758-src/packages/factor/ |
| H A D | modpoly.red | 199 else multiply!-by!-constant!-mod!-p(a,
218 else return multiply!-by!-constant!-mod!-p(a, r)
237 else if (domainp a) or (not(mvar a=v)) or
275 scalar q,w;
280 multiply!-by!-constant!-mod!-p(red b,q))
295 % multiply!-by!-constant!-mod!-p(red a,n));
297 symbolic procedure multiply!-by!-constant!-mod!-p(a,n);
304 x := multiply!-by!-constant!-mod!-p(lc a, n);
360 multiply!-by!-constant!-mod!-p(red b,q))
376 multiply!-by!-constant!-mod!-p(lc a,
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| /dports/math/reduce/Reduce-svn5758-src/packages/alg/ |
| H A D | gcdchk.red | 44 else multiply!-by!-constant!-mod!-p(a,modular!-reciprocal lc a);
66 else begin scalar w;
75 % else if domainp a then multiply!-by!-constant!-mod!-p(b,a)
76 % else if domainp b then multiply!-by!-constant!-mod!-p(a,b)
89 else begin scalar w;
107 scalar q,w;
112 multiply!-by!-constant!-mod!-p(red b,q))
122 symbolic procedure multiply!-by!-constant!-mod!-p(a,n);
131 multiply!-by!-constant!-mod!-p(red a,n);
163 scalar oldp,p,modular!-values,umodp,vmodp;
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| /dports/devel/llvm-cheri/llvm-project-37c49ff00e3eadce5d8703fdc4497f28458c64a8/mlir/include/mlir/Dialect/SPIRV/ |
| H A D | SPIRVNonUniformOps.td | 41 let printer = [{ printGroupNonUniformArithmeticOp(getOperation(), p); }];
166 Result Type must be a scalar or vector of floating-point type.
217 Result Type must be a scalar or vector of floating-point type.
271 Result Type must be a scalar or vector of floating-point type.
325 Result Type must be a scalar or vector of floating-point type.
376 Result Type must be a scalar or vector of integer type.
425 Result Type must be a scalar or vector of integer type.
474 Result Type must be a scalar or vector of integer type.
523 Result Type must be a scalar or vector of integer type.
572 Result Type must be a scalar or vector of integer type, whose
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|
| /dports/devel/llvm12/llvm-project-12.0.1.src/mlir/include/mlir/Dialect/SPIRV/IR/ |
| H A D | SPIRVNonUniformOps.td | 32 let printer = [{ printGroupNonUniformArithmeticOp(getOperation(), p); }];
225 Result Type must be a scalar or vector of floating-point type.
282 Result Type must be a scalar or vector of floating-point type.
342 Result Type must be a scalar or vector of floating-point type.
402 Result Type must be a scalar or vector of floating-point type.
459 Result Type must be a scalar or vector of integer type.
514 Result Type must be a scalar or vector of integer type.
571 Result Type must be a scalar or vector of integer type.
628 Result Type must be a scalar or vector of integer type.
685 Result Type must be a scalar or vector of integer type, whose
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|
| /dports/devel/wasi-compiler-rt12/llvm-project-12.0.1.src/mlir/include/mlir/Dialect/SPIRV/IR/ |
| H A D | SPIRVNonUniformOps.td | 32 let printer = [{ printGroupNonUniformArithmeticOp(getOperation(), p); }];
225 Result Type must be a scalar or vector of floating-point type.
282 Result Type must be a scalar or vector of floating-point type.
342 Result Type must be a scalar or vector of floating-point type.
402 Result Type must be a scalar or vector of floating-point type.
459 Result Type must be a scalar or vector of integer type.
514 Result Type must be a scalar or vector of integer type.
571 Result Type must be a scalar or vector of integer type.
628 Result Type must be a scalar or vector of integer type.
685 Result Type must be a scalar or vector of integer type, whose
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|
| /dports/www/chromium-legacy/chromium-88.0.4324.182/third_party/llvm/mlir/include/mlir/Dialect/SPIRV/ |
| H A D | SPIRVNonUniformOps.td | 41 let printer = [{ printGroupNonUniformArithmeticOp(getOperation(), p); }];
235 Result Type must be a scalar or vector of floating-point type.
286 Result Type must be a scalar or vector of floating-point type.
340 Result Type must be a scalar or vector of floating-point type.
394 Result Type must be a scalar or vector of floating-point type.
445 Result Type must be a scalar or vector of integer type.
494 Result Type must be a scalar or vector of integer type.
543 Result Type must be a scalar or vector of integer type.
592 Result Type must be a scalar or vector of integer type.
641 Result Type must be a scalar or vector of integer type, whose
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| /dports/math/R-cran-igraph/igraph/man/ |
| H A D | sample_smallworld.Rd | 9 sample_smallworld(dim, size, nei, p, loops = FALSE, multiple = FALSE)
14 \item{dim}{Integer constant, the dimension of the starting lattice.}
16 \item{size}{Integer constant, the size of the lattice along each dimension.}
18 \item{nei}{Integer constant, the neighborhood within which the vertices of
21 \item{p}{Real constant between zero and one, the rewiring probability.}
23 \item{loops}{Logical scalar, whether loops edges are allowed in the
26 \item{multiple}{Logical scalar, whether multiple edges are allowed int the
40 randomly with probability \code{p}.
42 Note that this function might create graphs with loops and/or multiple
|
| /dports/math/vtk8/VTK-8.2.0/ThirdParty/vtkm/vtk-m/vtkm/ |
| H A D | Math.h.in | 557 /// Returns \p x or \p y, whichever is larger.
569 /// Returns \p x or \p y, whichever is smaller.
624 /// Returns \p x or \p y, whichever is larger.
632 /// Returns \p x or \p y, whichever is smaller.
693 return nan.scalar;
700 return inf.scalar;
756 return nan.scalar;
763 return inf.scalar;
947 /// Returns true if \p x is positive or negative infinity.
958 /// Returns true if \p x is a normal number (not NaN or infinite).
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| /dports/math/octave-forge-financial/financial-0.5.3/inst/ |
| H A D | npv.m | 3 ## This program is free software; you can redistribute it and/or modify it under
5 ## Foundation; either version 3 of the License, or (at your option) any later
9 ## ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
23 ## can either be a scalar (constant rates) or a vector of the same
24 ## length as @var{p}.
43 n = length (p);
44 p = reshape (p, 1, n); variable
55 error ("npv: r must be a scalar or a vector of the same length as p");
60 error ("npv: I_0 must be a scalar");
66 p = [i, p]; variable
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| /dports/math/octave-forge-secs2d/secs2d-0.0.8/inst/Utilities/ |
| H A D | Ufvsgcurrent3.m | 24 ## @item @var{alpha} is an element-wise constant scalar function
26 ## conforming scalar functions
27 ## @item @var{beta} is an element-wise constant vector function
30 ## J(@var{u}) is an element-wise constant vector function
33 ## one can pass a piecewise linear conforming scalar function
49 %% SECS2D is free software; you can redistribute it and/or modify
51 %% the Free Software Foundation; either version 2 of the License, or
56 %% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
63 Nnodes = columns(mesh.p);
70 x = reshape(mesh.p(1,mesh.t(1:3,:)),3,[]);
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| /dports/math/octave-forge-bim/bim/inst/ |
| H A D | bim2c_global_flux.m | 6 ## BIM is free software; you can redistribute it and/or modify
8 ## the Free Software Foundation; either version 2 of the License, or
13 ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
27 ## of the scalar field @var{u}.
33 ## where @var{alpha} is an element-wise constant scalar function,
35 ## functions, while @var{beta} is element-wise constant vector function.
37 ## J(@var{u}) is an element-wise constant vector function.
58 nnodes = columns(mesh.p);
75 nnodes = columns(mesh.p);
82 x = reshape(mesh.p(1,mesh.t(1:3,:)),3,[]);
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|
| H A D | bim2c_norm.m | 6 ## BIM is free software; you can redistribute it and/or modify
13 ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
30 ## The input function @var{u} can be either a piecewise linear conforming scalar
31 ## function or an elementwise constant scalar or vector function.
35 ## Should the input function be piecewise constant, the H1 norm will not be
50 elseif (! (isstruct (m) && isfield (m,"p")
56 nnodes = columns (m.p);
91 "of an elementwise constant function."]);
105 nnodes = columns (mesh.p);
133 %! u = V * ones (columns(m.p),1);
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| /dports/math/reduce/Reduce-svn5758-src/packages/redlog/dvfsf/ |
| H A D | dvfsfsiat.red | 40 begin scalar op;
214 begin scalar qr,p;
229 begin scalar w;
264 % valuation relation, p, and a constant. [op] is one of [div],
268 % formula is simplified, if it relates $z p^n$ to a constant;
273 begin scalar w,op;
287 % valuation relation, p, and a constant subroutine. [op] is one of
291 % formula is simplified, if it relates $z p^n$ to a constant;
293 begin scalar n;
337 begin scalar w;
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|
| /dports/devel/llvm-devel/llvm-project-f05c95f10fc1d8171071735af8ad3a9e87633120/mlir/include/mlir/Dialect/SPIRV/IR/ |
| H A D | SPIRVNonUniformOps.td | 32 let printer = [{ printGroupNonUniformArithmeticOp(getOperation(), p); }];
225 Result Type must be a scalar or vector of floating-point type.
282 Result Type must be a scalar or vector of floating-point type.
342 Result Type must be a scalar or vector of floating-point type.
402 Result Type must be a scalar or vector of floating-point type.
459 Result Type must be a scalar or vector of integer type.
514 Result Type must be a scalar or vector of integer type.
571 Result Type must be a scalar or vector of integer type.
628 Result Type must be a scalar or vector of integer type.
685 Result Type must be a scalar or vector of integer type, whose
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|
| /dports/devel/wasi-compiler-rt13/llvm-project-13.0.1.src/mlir/include/mlir/Dialect/SPIRV/IR/ |
| H A D | SPIRVNonUniformOps.td | 32 let printer = [{ printGroupNonUniformArithmeticOp(getOperation(), p); }];
225 Result Type must be a scalar or vector of floating-point type.
282 Result Type must be a scalar or vector of floating-point type.
342 Result Type must be a scalar or vector of floating-point type.
402 Result Type must be a scalar or vector of floating-point type.
459 Result Type must be a scalar or vector of integer type.
514 Result Type must be a scalar or vector of integer type.
571 Result Type must be a scalar or vector of integer type.
628 Result Type must be a scalar or vector of integer type.
685 Result Type must be a scalar or vector of integer type, whose
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|
| /dports/devel/wasi-libcxx/llvm-project-13.0.1.src/mlir/include/mlir/Dialect/SPIRV/IR/ |
| H A D | SPIRVNonUniformOps.td | 32 let printer = [{ printGroupNonUniformArithmeticOp(getOperation(), p); }];
225 Result Type must be a scalar or vector of floating-point type.
282 Result Type must be a scalar or vector of floating-point type.
342 Result Type must be a scalar or vector of floating-point type.
402 Result Type must be a scalar or vector of floating-point type.
459 Result Type must be a scalar or vector of integer type.
514 Result Type must be a scalar or vector of integer type.
571 Result Type must be a scalar or vector of integer type.
628 Result Type must be a scalar or vector of integer type.
685 Result Type must be a scalar or vector of integer type, whose
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|
| /dports/devel/llvm13/llvm-project-13.0.1.src/mlir/include/mlir/Dialect/SPIRV/IR/ |
| H A D | SPIRVNonUniformOps.td | 32 let printer = [{ printGroupNonUniformArithmeticOp(getOperation(), p); }];
225 Result Type must be a scalar or vector of floating-point type.
282 Result Type must be a scalar or vector of floating-point type.
342 Result Type must be a scalar or vector of floating-point type.
402 Result Type must be a scalar or vector of floating-point type.
459 Result Type must be a scalar or vector of integer type.
514 Result Type must be a scalar or vector of integer type.
571 Result Type must be a scalar or vector of integer type.
628 Result Type must be a scalar or vector of integer type.
685 Result Type must be a scalar or vector of integer type, whose
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| /dports/net/p5-VM-EC2/VM-EC2-1.28/t/ |
| H A D | 09.autoscaling.t | 12 use constant TEST_COUNT => 18;
18 use constant LC_NAME => 'VM-EC2-Launch-test';
19 use constant ASG_NAME => 'VM-EC2-ASG-test';
20 use constant POLICY_NAME => 'VM-EC2-Policy-test';
30 $ec2 = VM::EC2->new(-region=>'eu-west-1') or BAIL_OUT("Can't load VM::EC2 module");
52 ok(scalar @l, 'describe_launch_configurations');
66 ok(scalar @a, 'describe_autoscaling_group');
78 my $p = $ec2->put_scaling_policy(
85 ok($p, 'Policy created without errors');
96 $p = $ec2->delete_policy(
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| /dports/math/reduce/Reduce-svn5758-src/packages/redlog/ofsf/ |
| H A D | ofsfanuex.red | 585 if aex_fvarl tmp then % [ae] is a non-constant polynomial.
732 if idl then << % [ae] is a non-constant algebraic polynomial.
738 % Now we know that [ae] is a constant algebraic polynomial.
874 % [r] is either a rational nubmer or 'infty or 'minfty. Returns the number of
917 % Sign of a constant Aex.
947 % Evaluate operator. [ae] is a constant Aex; [op] is an ofsf operator.
1104 % % Invert a constant, non-zero polynomial.
1108 % % Now we know that [ae] is a constant algebraic polynomial.
1124 % Invert a constant, non-zero polynomial.
1420 begin scalar c, p, curivl;
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| /dports/math/vtk9/VTK-9.1.0/ThirdParty/vtkm/vtkvtkm/vtk-m/vtkm/ |
| H A D | Math.h.in | 551 /// Returns \p x or \p y, whichever is larger.
563 /// Returns \p x or \p y, whichever is smaller.
618 /// Returns \p x or \p y, whichever is larger.
626 /// Returns \p x or \p y, whichever is smaller.
687 return nan.scalar;
694 return inf.scalar;
750 return nan.scalar;
757 return inf.scalar;
941 /// Returns true if \p x is positive or negative infinity.
952 /// Returns true if \p x is a normal number (not NaN or infinite).
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| /dports/math/reduce/Reduce-svn5758-src/packages/odesolve/ |
| H A D | odelin.red | 134 else or(
164 begin scalar a, p, q;
166 p := first odecoeffs/a;
173 p := (p where tan(~x) => sin(x)/cos(x));
174 intfactor := exp(int(p, x));
198 % again whether it has constant coefficients, is of Euler type or has
218 %% Test for constant coefficients:
230 %% constant coeffs or Euler form, but it could be first order or
313 % Solve a linear, constant-coefficient ODE.
591 for each p in p_list do c := p - df(c,x);
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| /dports/science/dynare/dynare-4.6.4/contrib/ms-sbvar/TZcode/MatlabFiles/ |
| H A D | fn_mtpdf.m | 5 % x: p-by-draws matrix of values evaluated at where p=size(x,1) is # of variables
6 % xm: p-by-draws matrix of the mean of x
7 % C: p-by-p Choleski square root of PDS S, which is the covariance matrix in the normal case
9 % v (>0): A scalar value for the degrees of freedom.
12 % constIx: An index for the constant. 1: constant (normalized); 0: no constant (unnormalized)
17 % p. 382.
23 % This free software: you can redistribute it and/or modify
25 % the Free Software Foundation, either version 3 of the License, or
30 % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
37 [p,nx]=size(x);
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| /dports/lang/perl5.34/perl-5.34.0/t/op/ |
| H A D | sub_lval.t | 129 eval <<'EOE' or $_ = $@;
227 eval <<'EOE' or $_ = $@;
269 eval <<'EOE' or $_ = $@;
544 @p = ();
547 push @p, position;
775 my $scalar = 'half';
790 $scalar = 'four';
890 'assignment to numeric constant explicitly returned from lv sub';
893 'assignment to num constant explicitly returned (list cx)';
896 'assignment to numeric constant implicitly returned from lv sub';
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|