| VCF_equm1 | VCD_equm1 | VCE_equm1 |
| VPF_equm1 | VPD_equm1 | VPE_equm1 |
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| Function | Initialize a vector with −1.0. |
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| Syntax C/C++ | #include <VFstd.h>
void VF_equm1( fVector X, ui size ); |
| C++ VecObj | #include <OptiVec.h>
void vector<T>::equm1(); |
| Pascal/Delphi | uses VFstd;
procedure VF_equm1( X:fVector; size:UIntSize ); |
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| CUDA function C/C++ | #include <cudaVFstd.h>
int cudaVF_equm1( fVector d_X, ui size );
void VFcu_equm1( fVector h_X, ui size );
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| CUDA function Pascal/Delphi | uses VFstd;
function cudaVF_equm1( d_X:fVector; size:UIntSize ): IntBool;
procedure VFcu_equm1( h_X:fVector; size:UIntSize );
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| Description | Xi = −1.0
In the cartesian complex versions, the imaginary parts are set to zero. In the polar complex versions, all elements are set to { 1.0 @ p }. |
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