예제 #1
0
cmat operator-(const double &s, const cmat &m)
{
  it_assert_debug(m.rows() > 0 && m.cols() > 0, "operator-(): Matrix of zero length");

  cmat temp(m.rows(), m.cols());
  for (int i = 0;i < m._datasize();i++) {
    temp._data()[i] = std::complex<double>((double)s - m(i).real(), -m(i).imag());
  }
  return temp;
}
예제 #2
0
// Perform LTE ratematching for convolutionally encoded bits d to fit
// an e vector of length n_e.
cvec lte_conv_ratematch(
		const cmat & d,
		const uint32 & n_e
		) {
	const uint8 n_c=32;
	const uint32 n_r=ceil((double)d.cols()/n_c);
	ASSERT(d.rows()==3);

	// Subblock interleaving
	const static int perm_pattern_c[]={1,17,9,25,5,21,13,29,3,19,11,27,7,23,15,31,0,16,8,24,4,20,12,28,2,18,10,26,6,22,14,30};
	const ivec perm_pattern(perm_pattern_c,32);
	cmat v(3,n_r*n_c);
#ifndef NDEBUG
	v=NAN;
#endif
	for (uint8 t=0;t<3;t++) {
		cvec temp_row=d.get_row(t);
		cvec temp_nan(n_r*n_c-d.cols());
		temp_nan=NAN;
		temp_row=concat(temp_nan,temp_row);
		cmat y=transpose(reshape(temp_row,n_c,n_r));

		// Permute the columns
		cmat y_perm(n_r,n_c);
#ifndef NDEBUG
		y_perm=NAN;
#endif
		for (uint8 k=0;k<32;k++) {
			y_perm.set_col(k,y.get_col(perm_pattern(k)));
		}

		// Assign
		v.set_row(t,cvectorize(y_perm));
	}

	// Bit collection
	cvec w=cvectorize(transpose(v));

	// Selection
	cvec e(n_e);
#ifndef NDEBUG
	e=NAN;
#endif
	uint32 k=0;
	uint32 j=0;
	while (k<n_e) {
		if (isfinite(w(j).real())) {
			e(k)=w(j);
			k++;
		}
		j=mod(j+1,3*n_r*n_c);
	}

	return e;
}
예제 #3
0
cvec TestEseNonGrayFixture::conv(const cmat &a, const cvec &b) {
	// check a.rows()==b.length()
	int len = a.cols()+b.length()-1;
	cvec ret = zeros_c(len);
	for(int i=0; i<a.cols(); i++) {
		cvec tmp = zeros_c(len);
		tmp.set_subvector(i, elem_mult(a.get_col(i), b));
		ret += tmp;
	}
	return ret;
}
예제 #4
0
static
void assert_cmat(const cmat &ref, const cmat &act)
{
  ASSERT_EQ(ref.rows(), act.rows());
  ASSERT_EQ(ref.cols(), act.cols());
  for (int n = 0; n < ref.rows(); ++n) {
    for (int k = 0; k < ref.cols(); ++k) {
      ASSERT_NEAR(ref(n,k).real(), act(n,k).real(), tol);
      ASSERT_NEAR(ref(n,k).imag(), act(n,k).imag(), tol);
    }
  }
}
예제 #5
0
파일: qr.cpp 프로젝트: nvmd/itpp
bool qr(const cmat &A, cmat &R)
{
  int info;
  int m = A.rows();
  int n = A.cols();
  int lwork = n;
  int k = std::min(m, n);
  cvec tau(k);
  cvec work(lwork);

  R = A;

  // perform workspace query for optimum lwork value
  int lwork_tmp = -1;
  zgeqrf_(&m, &n, R._data(), &m, tau._data(), work._data(), &lwork_tmp,
          &info);
  if (info == 0) {
    lwork = static_cast<int>(real(work(0)));
    work.set_size(lwork, false);
  }
  zgeqrf_(&m, &n, R._data(), &m, tau._data(), work._data(), &lwork, &info);

  // construct R
  for (int i = 0; i < m; i++)
    for (int j = 0; j < std::min(i, n); j++)
      R(i, j) = 0;

  return (info == 0);
}
예제 #6
0
bool schur(const cmat &A, cmat &U, cmat &T)
{
  it_assert_debug(A.rows() == A.cols(), "schur(): Matrix is not square");

  char jobvs = 'V';
  char sort = 'N';
  int info;
  int n = A.rows();
  int lda = n;
  int ldvs = n;
  int lwork = 2 * n; // This may be choosen better!
  int sdim = 0;
  vec rwork(n);
  cvec w(n);
  cvec work(lwork);

  T.set_size(lda, n, false);
  U.set_size(ldvs, n, false);

  T = A; // The routine overwrites input matrix with eigenvectors

  zgees_(&jobvs, &sort, 0, &n, T._data(), &lda, &sdim, w._data(), U._data(),
         &ldvs, work._data(), &lwork, rwork._data(), 0, &info);

  return (info == 0);
}
예제 #7
0
cmat operator/(const cmat &m, const double &s)
{
  it_assert_debug(m.rows() > 0 && m.cols() > 0, "operator/(): Matrix of zero length");

  cmat temp = m;
  for (int i = 0;i < m._datasize();i++) {
    temp._data()[i] /= (double)s;
  }
  return temp;
}
예제 #8
0
cmat operator+(const mat &a, const cmat &b)
{
  it_assert_debug(a.cols() == b.cols() && a.rows() == b.rows(), "operator+(): sizes does not match");
  cmat temp(b);

  for (int i = 0;i < a.rows();i++) {
    for (int j = 0;j < a.cols();j++) {
      temp(i, j) += std::complex<double>(static_cast<double>(a(i, j)), 0.0);
    }
  }
  return temp;
}
예제 #9
0
cmat operator+(const smat &a, const cmat &b)
{
  it_assert_debug(a.cols() == b.cols() && a.rows() == b.rows(), "operator+(): sizes does not match");
  cmat temp(b);

  for (int i = 0;i < a.rows();i++) {
    for (int j = 0;j < a.cols();j++) {
      temp(i, j) += (double)a(i, j);
    }
  }
  return temp;
}
예제 #10
0
파일: qr.cpp 프로젝트: nvmd/itpp
bool qr(const cmat &A, cmat &Q, cmat &R, bmat &P)
{
  int info;
  int m = A.rows();
  int n = A.cols();
  int lwork = n;
  int k = std::min(m, n);
  cvec tau(k);
  cvec work(lwork);
  vec rwork(std::max(1, 2*n));
  ivec jpvt(n);
  jpvt.zeros();

  R = A;

  // perform workspace query for optimum lwork value
  int lwork_tmp = -1;
  zgeqp3_(&m, &n, R._data(), &m, jpvt._data(), tau._data(), work._data(),
          &lwork_tmp, rwork._data(), &info);
  if (info == 0) {
    lwork = static_cast<int>(real(work(0)));
    work.set_size(lwork, false);
  }
  zgeqp3_(&m, &n, R._data(), &m, jpvt._data(), tau._data(), work._data(),
          &lwork, rwork._data(), &info);

  Q = R;
  Q.set_size(m, m, true);

  // construct permutation matrix
  P = zeros_b(n, n);
  for (int j = 0; j < n; j++)
    P(jpvt(j) - 1, j) = 1;

  // construct R
  for (int i = 0; i < m; i++)
    for (int j = 0; j < std::min(i, n); j++)
      R(i, j) = 0;

  // perform workspace query for optimum lwork value
  lwork_tmp = -1;
  zungqr_(&m, &m, &k, Q._data(), &m, tau._data(), work._data(), &lwork_tmp,
          &info);
  if (info == 0) {
    lwork = static_cast<int>(real(work(0)));
    work.set_size(lwork, false);
  }
  zungqr_(&m, &m, &k, Q._data(), &m, tau._data(), work._data(), &lwork,
          &info);

  return (info == 0);
}
예제 #11
0
void Matlab_Engine::put(const cmat &m, const char *name){
  const int rows = m.rows();
  const int cols = m.cols();
  mxArray *T;
  if((T = mxCreateDoubleMatrix(rows, cols, mxCOMPLEX)) == NULL)
    cout << "Unable to allocate Matlab matrix. Out of memory?\n";
  mxSetName(T, name);
  double *pt_r = (double*) mxGetPr(T);
  double *pt_i = (double*) mxGetPi(T);
  for(int row=0; row<rows; row++){ 
    for(int col=0; col<cols; col++){
      *pt_r++ = real(m(row, col));
      *pt_i++ = imag(m(row, col));
    }
  }
  if(engPutArray(e, T))
    cout << "Unable to put it++ matrix to Matlab workspace!\n";
}
예제 #12
0
bool svd(const cmat &A, vec &S)
{
  char jobu='N', jobvt='N';
  int m, n, lda, ldu, ldvt, lwork, info;
  m = lda = ldu = A.rows();
  n = ldvt = A.cols();
  lwork = 2*min(m,n)+max(m,n);
  
  cvec U, V;
  //U.set_size(m,m, false);
  //V.set_size(n,n, false);
  S.set_size(min(m,n), false);
  cvec work(lwork);
  vec rwork(max(1, 5*min(m, n)));
  
  cmat B(A);

  zgesvd_(&jobu, &jobvt, &m, &n, B._data(), &lda, S._data(), U._data(), &ldu, V._data(), &ldvt, work._data(), &lwork, rwork._data(), &info);

  return (info==0);
}
예제 #13
0
bool svd(const cmat &A, cmat &U, vec &S, cmat &V)
{
  char jobu='A', jobvt='A';
  int m, n, lda, ldu, ldvt, lwork, info;
  m = lda = ldu = A.rows();
  n = ldvt = A.cols();
  lwork = 2*min(m,n)+max(m,n);
  
  U.set_size(m,m, false);
  V.set_size(n,n, false);
  S.set_size(min(m,n), false);
  cvec work(lwork);
  vec rwork(max(1, 5*min(m, n)));
  
  cmat B(A);

  zgesvd_(&jobu, &jobvt, &m, &n, B._data(), &lda, S._data(), U._data(), &ldu, V._data(), &ldvt, work._data(), &lwork, rwork._data(), &info);

  V = transpose(conj(V)); // This is slow!!!

  return (info==0);
}