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00003 //
00004 //                    Teuchos: Common Tools Package
00005 //                 Copyright (2004) Sandia Corporation
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00041 
00042 #include <Teuchos_ArrayView.hpp>
00043 
00044 namespace Teuchos {
00045 
00046 template<>
00047 TEUCHOSCORE_LIB_DLL_EXPORT std::string
00048 ArrayView<float>::toString() const
00049 {
00050   using Teuchos::as;
00051   std::ostringstream ss;
00052 
00053   debug_assert_valid_ptr();
00054 
00055   ss.setf (std::ios::scientific);
00056   // 8 = round(23 * log10(2)) + 1.  That's one decimal digit more
00057   // than the binary precision justifies, which should be plenty.
00058   // Guy Steele et al. have a better algorithm for floating-point
00059   // I/O, but using a lot of digits is the lazy approach.
00060   ss.precision (8);
00061   ss << "{";
00062   for (size_type i = 0; i < size (); ++i) {
00063     ss << operator[] (i);
00064     if (i + 1 < size ()) {
00065       ss << ", ";
00066     }
00067   }
00068   ss << "}";
00069   return ss.str ();
00070 }
00071 
00072 template<>
00073 TEUCHOSCORE_LIB_DLL_EXPORT std::string
00074 ArrayView<const float>::toString() const
00075 {
00076   using Teuchos::as;
00077   std::ostringstream ss;
00078 
00079   debug_assert_valid_ptr();
00080 
00081   ss.setf (std::ios::scientific);
00082   // 8 = round(23 * log10(2)) + 1.  That's one decimal digit more
00083   // than the binary precision justifies, which should be plenty.
00084   // Guy Steele et al. have a better algorithm for floating-point
00085   // I/O, but using a lot of digits is the lazy approach.
00086   ss.precision (8);
00087   ss << "{";
00088   for (size_type i = 0; i < size (); ++i) {
00089     ss << operator[] (i);
00090     if (i + 1 < size ()) {
00091       ss << ", ";
00092     }
00093   }
00094   ss << "}";
00095   return ss.str ();
00096 }
00097 
00098 template<>
00099 TEUCHOSCORE_LIB_DLL_EXPORT std::string
00100 ArrayView<double>::toString() const
00101 {
00102   using Teuchos::as;
00103   std::ostringstream ss;
00104 
00105   debug_assert_valid_ptr();
00106 
00107   ss.setf (std::ios::scientific);
00108   // 17 = round(52 * log10(2)) + 1.  That's one decimal digit more
00109   // than the binary precision justifies, which should be plenty.  Guy
00110   // Steele et al. have a better algorithm for floating-point I/O, but
00111   // using a lot of digits is the lazy approach.
00112   ss.precision (17);
00113   ss << "{";
00114   for (size_type i = 0; i < size (); ++i) {
00115     ss << operator[] (i);
00116     if (i + 1 < size ()) {
00117       ss << ", ";
00118     }
00119   }
00120   ss << "}";
00121   return ss.str ();
00122 }
00123 
00124 template<>
00125 TEUCHOSCORE_LIB_DLL_EXPORT std::string
00126 ArrayView<const double>::toString() const
00127 {
00128   using Teuchos::as;
00129   std::ostringstream ss;
00130 
00131   debug_assert_valid_ptr();
00132 
00133   ss.setf (std::ios::scientific);
00134   // 17 = round(52 * log10(2)) + 1.  That's one decimal digit more
00135   // than the binary precision justifies, which should be plenty.  Guy
00136   // Steele et al. have a better algorithm for floating-point I/O, but
00137   // using a lot of digits is the lazy approach.
00138   ss.precision (17);
00139   ss << "{";
00140   for (size_type i = 0; i < size (); ++i) {
00141     ss << operator[] (i);
00142     if (i + 1 < size ()) {
00143       ss << ", ";
00144     }
00145   }
00146   ss << "}";
00147   return ss.str ();
00148 }
00149 
00150 } // namespace Teuchos