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Languguage OS 2
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Languguage OS II Version 10-94 (Knowledge Media)(1994).ISO
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gnu
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nihcl-30.lha
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nihcl-3.0
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vectest
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floatvec.c
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1990-05-16
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/* Test Vector FloatVec class
THIS SOFTWARE FITS THE DESCRIPTION IN THE U.S. COPYRIGHT ACT OF A
"UNITED STATES GOVERNMENT WORK". IT WAS WRITTEN AS A PART OF THE
AUTHOR'S OFFICIAL DUTIES AS A GOVERNMENT EMPLOYEE. THIS MEANS IT
CANNOT BE COPYRIGHTED. THIS SOFTWARE IS FREELY AVAILABLE TO THE
PUBLIC FOR USE WITHOUT A COPYRIGHT NOTICE, AND THERE ARE NO
RESTRICTIONS ON ITS USE, NOW OR SUBSEQUENTLY.
Author:
Ted Persky
Bg. 12A, Rm. 2031
Computer Systems Laboratory
Division of Computer Research and Technology
National Institutes of Health
Bethesda, Maryland 20892
Phone: (301) 496-2963
uucp: uunet!nih-csl!tpersky
Internet:tpersky@alw.nih.gov
Function:
Modification History:
$Log: floatvec.c,v $
* Revision 3.0 90/05/16 23:06:37 kgorlen
* Release for 1st edition.
*
*/
#include "IntVec.h"
#include "FloatVec.h"
static char rcsid[] = "$Header: /afs/alw.nih.gov/unix/sun4_40c/usr/local/src/nihcl-3.0/share/vectest/RCS/floatvec.c,v 3.0 90/05/16 23:06:37 kgorlen Rel $";
static int initI[] = { 1,3,5 };
static const IntVec I(initI,3); // I = { 1 3 5 }
#ifndef BUG_OPTYPECONST
static FloatVec A(10,1.0); // A = { 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. }
static FloatVec B(10,10.0,-1.0); // B = { 10. 9. 8. 7. 6. 5. 4. 3. 2. 1. }
#else
static const FloatVec A(10,1.0); // A = { 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. }
static const FloatVec B(10,10.0,-1.0); // B = { 10. 9. 8. 7. 6. 5. 4. 3. 2. 1. }
#endif
void test1()
{
BitVec L;
// TYPEVec_CTOR_I
FloatVec C; // C = {}
// TYPEVec_CTOR_TYPEVec
FloatVec T(A); // T = A
cerr << "FloatVec T(A): " << T << endl;
// TYPEVec_CTOR_TYPESlice
FloatVec U(A(0,5,2)); // U = { 1. 3. 5. 7. 9. }
cerr << "FloatVec U(A(0,5,2)): " << U << endl;
// TYPEVec_ASN_TYPEVec
C = U;
cerr << "C = U: " << C << endl;
// TYPEVec_ASN_TYPEVec
C = C;
cerr << "C = C: " << C << endl;
// TYPEVec_ASN_TYPESlice
C = A(0,5,2); // C = { 1. 3. 5. 7. 9. }
cerr << "C = A(0,5,2): " << C << endl;
// TYPEVec_ASN_TYPESlice
C = A; C = C(0,5,2); // C = { 1. 3. 5. 7. 9. }
cerr << "C = A; C = C(0,5,2): " << C << endl;
// TYPEVec_ASN_TYPESlct
C = A[A>B]; // C = { 6. 7. 8. 9. 10. }
cerr << "C = A[A>B]: " << C << endl;
// TYPEVec_ASN_TYPESlct
C = A; C = C[C>B]; // C = { 6. 7. 8. 9. 10. }
cerr << "C = A; C = C[C>B]: " << C << endl;
// TYPEVec_ASN_TYPEPick
C = A[I]; // C = { 2. 4. 6. }
cerr << "C = A[I]: " << C << endl;
// TYPEVec_ASN_TYPEPick
C = A; C = C[I]; // C = { 2. 4. 6. }
cerr << "C = A; C = C[I]: " << C << endl;
// TYPEVec_ASN_TYPE
C = 0.;
cerr << "C = 0.: " << C << endl;
// TYPESlice_ASN_TYPEVec
C = A; C(0,5,2) = FloatVec(5,-1.,0.); // C = { -1. 2. -1. 4. -1. 6. -1. 8. -1. 10. }
cerr << "C = A; C(0,5,2) = FloatVec(5,-1.,0.): " << C << endl;
// TYPESlice_ASN_TYPESlice
C(1,5,2) = C(0,5,2); // C = { -1. -1. -1. -1. -1. -1. -1. -1. -1. -1. }
cerr << "C(1,5,2) = C(0,5,2): " << C << endl;
// TYPESlice_ASN_TYPEPick
C(0,3,1) = A[I]; // C = { 2. 4. 6. -1. -1. -1. -1. -1. -1. -1. }
cerr << "C(0,3,1) = A[I]: " << C << endl;
// TYPESlice_ASN_TYPESlct
C(3,3,1) = A[A<=3.]; // C = { 2. 4. 6. 1. 2. 3. -1. -1. -1. -1. }
cerr << "C(3,3,1) = A[A<=3.]: " << C << endl;
// TYPESlice_ASN_TYPE
C(0,6,1) = 0.; // C = { 0. 0. 0. 0. 0. 0. -1. -1. -1. -1. }
cerr << "C(0,6,1) = 0.:" << C << endl;
// FRIEND_OP_TYPESlice__TYPEVec
C = -A; // C = { -1. -2. -3. -4. -5. -6. -7. -8. -9. -10 }
cerr << "C = -A: " << C << endl;
// FRIEND_INCDECOP_TYPESlice__TYPEVec
// C++; // C = { 0. -1. -2. -3. -4. -5. -6. -7. -8. -9. }
cerr << "C++: "; (C++).printOn(cerr); cerr << endl;
// FRIEND_TYPESlice_OP_TYPESlice__TYPEvec
C = A-B; // C = { -9. -7. -5. -3. -1. 1. 3. 5. 7. 9. }
cerr << "C = A-B: " << C << endl;
// FRIEND_TYPESlice_OP_TYPE__TYPEVec
C = A-1.; // C = { 0. 1. 2. 3. 4. 5. 6. 7. 8. 9. }
cerr << "C = A-1: " << C << endl;
// FRIEND_TYPE_OP_TYPESlice__TYPEVec
C = 1. + A; // C = { 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. }
cerr << "C = 1.+A: " << C << endl;
// FRIEND_TYPESlice_OP_TYPESlice__BitVec
L = A>B;
cerr << "A>B: " << L << endl; // { 0 0 0 0 0 1 1 1 1 1 }
// FRIEND_TYPESlice_OP_TYPE__BitVec
L = A<=5.; // { 1 1 1 1 1 0 0 0 0 0 }
cerr << "A<=5.: " << L << endl;
// FRIEND_TYPE_OP_TYPESlice__BitVec
L = 5.<A; // { 0 0 0 0 0 1 1 1 1 1 }
cerr << "5.<A: " << L << endl;
// FRIEND_TYPESlice_ASNOP_TYPESlice
C = A; C += A; // { 2. 4. 6. 8. 10. 12. 14. 16. 18. 20. }
cerr << "C = A; C += A: " << C << endl;
// FRIEND_TYPESlice_ASNOP_TYPE
C -= 1.; // { 1. 3. 5. 7. 9. 11. 13. 15. 17. 19. }
cerr << "C -= 1.: " << C << endl;
// TYPEPick_ASN_TYPEVec
C = A; C[I] = FloatVec(3,-1.,0.); // { 1. -1. 3. -1. 5. -1. 7. 8. 9. 10. }
cerr << "C = A; C[I] = FloatVec(3,-1.,0.): " << C << endl;
// TYPEPick_ASN_TYPEPick
C[I] = A[I]; // { 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. }
cerr << "C[I] = A[I]: " << C << endl;
// TYPEPick_ASN_TYPESlct
C[I] = A[A<=3.]; // C = { 1. 1. 3. 2. 5. 3. 7. 8. 9. 10. }
cerr << "C[I] = A[A<=3.]: " << C << endl;
// TYPEPick_ASN_TYPESlice
C[I] = A(0,3,2); // C = { 1. 1. 3. 3. 5. 5. 7. 8. 9. 10. }
cerr << "C[I] = A(0,3,2): " << C << endl;
// TYPEPick_ASN_TYPE
C[I] = -1.; // C = { 1. -1. 3. -1. 5. -1. 7. 8. 9. 10. }
cerr << "C[I] = -1.: " << C << endl;
// TYPESlice_CTOR_TYPEPick
C = A[I]+B[I]; // C = { 11. 11. 11. }
cerr << "C = A[I]+B[I]: " << C << endl;
}
void test2()
{
BitVec L;
// TYPEVec_CTOR_I
FloatVec C; // C = {}
// TYPESlct_ASN_TYPEVec
C = A; C[A<=5.] = FloatVec(5,-1.,0.); // C = { -1. -1. -1. -1. -1. 6. 7. 8. 9. 10. }
cerr << "C = A; C[A<=5.] = FloatVec(5,-1.,0.): " << C << endl;
// TYPESlct_ASN_TYPEPick
C = A; C[A<=3.] = A[I]; // C = { 2. 4. 6. 4. 5. 6. 7. 8. 9. 10. }
cerr << "C = A; C[A<=3.] = A[I]: " << C << endl;
// TYPESlct_ASN_TYPESlct
C = A; C[A<=5.] = B[A<=5.]; // C = { 10. 9. 8. 7. 6. 6. 7. 8. 9. 10. }
cerr << "C = A; C[A<=5.] = B[A<=5.]: " << C << endl;
// TYPESlct_ASN_TYPESlice
C[A<=5.] = A(0,5,1); // C = { 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. }
cerr << "C = A; C[A<=5.] = A(0,5,1): " << C << endl;
// TYPESlct_ASN_TYPE
C[A<=5.] = 0.; // C = { 0. 0. 0. 0. 0. 6. 7. 8. 9. 10. }
cerr << "C = A; C[A<=5.] = 0.: " << C << endl;
// TYPESlice_CTOR_TYPESlct
C = A[A<=5.] + B[B<=5.]; // C = { 6. 6. 6. 6. 6. }
cerr << "C = A[A<=5.] + B[B<=5.]: " << C << endl;
// FRIEND_abs_TYPESlice
C = abs(FloatVec(10,-5)); // C = { 5. 4. 3. 2. 1. 0. 1. 2. 3. 4 }
cerr << "abs(FloatVec(10,-5)): " << C << endl;
// FRIEND_atan2_TYPESlice_TYPESlice
C = atan2(FloatVec(10,1),FloatVec(10,10,-1));
cerr << "atan2(FloatVec(10,1),FloatVec(10,10,-1)): " << C << endl;
// FRIEND_pow_TYPESlice_TYPESlice
C = pow(FloatVec(10,1),FloatVec(10,2,0));
cerr << "pow(FloatVec(10,1),FloatVec(10,2,0)): " << C << endl;
// FRIEND_cumsum_TYPESlice
C = cumsum(FloatVec(10,1));
cerr << "cumsum(FloatVec(10,1)): " << C << endl;
// FRIEND_delta_TYPESlice
C = delta(C);
cerr << "delta(cumsum(FloatVec(10,1))): " << C << endl;
// FRIEND_dot_TYPESlice_TYPESlice
cerr << "dot(A,B): " << dot(A,B) << endl;
// FRIEND_max_TYPESlice
cerr << "max(A): " << max(A) << endl;
// FRIEND_min_TYPESlice
cerr << "min(A): " << min(A) << endl;
// FRIEND_prod_TYPESlice
cerr << "prod(A): " << prod(A) << endl;
// FRIEND_reverse_TYPESlice
C = reverse(A);
cerr << "reverse(A): " << C << endl;
// FRIEND_sqrt_TYPESlice
C = sqrt(A);
cerr << "sqrt(A): " << C << endl;
// FRIEND_sum_TYPESlice
cerr << "sum(A): " << sum(A) << endl;
}
main()
{
cerr << "Test Vector FloatVec class\n";
// TYPEVec_CTOR_TYPEPTR_I
cerr << "IntVec I(3,1,2): " << I << endl;
// TYPEVec_CTOR_I_TYPE_TYPE
cerr << "FloatVec A(10,1.0): " << A << endl;
// TYPEVec_CTOR_I_TYPE_TYPE
cerr << "FloatVec B(10,10.0,-1.0): " << B << endl;
test1();
test2();
}
