/* Copyright (C) 1996, 1997 John W. Eaton This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include "byte-swap.h" #include "data-conv.h" #include "lo-error.h" oct_data_conv::data_type oct_data_conv::string_to_data_type (const string& str) { data_type retval = dt_unknown; // XXX FIXME XXX -- finish implementing this. // XXX FIXME XXX -- before checking s, need to strip spaces and downcase. int n = str.length (); int k = 0; string s (n, ' '); for (int i = 0; i < n; i++) if (! isspace (str[i])) s[k++] = tolower (str[i]); s.resize (k); if (s == "char" || s == "char*1" || s == "integer*1" || s == "int8") retval = dt_char; else if (s == "schar" || s == "signedchar") retval = dt_schar; else if (s == "uchar" || s == "unsignedchar") retval = dt_uchar; else if (s == "short") retval = dt_short; else if (s == "ushort" || s == "unsignedshort") retval = dt_ushort; else if (s == "int") retval = dt_int; else if (s == "uint" || s == "unsignedint") retval = dt_uint; else if (s == "long") retval = dt_long; else if (s == "ulong" || s == "unsignedlong") retval = dt_ulong; else if (s == "float" || s == "float32" || s == "real*4") retval = dt_float; else if (s == "double" || s == "float64" || s == "real*8") retval = dt_double; else if (s == "int16" || s == "integer*2") { if (sizeof (short) == 2) retval = dt_short; else if (sizeof (int) == 2) retval = dt_int; else (*current_liboctave_error_handler) ("unable to find matching native data type for %s", s.c_str ()); } else if (s == "int32" || s == "integer*4") { if (sizeof (int) == 4) retval = dt_int; else if (sizeof (long) == 4) retval = dt_long; else (*current_liboctave_error_handler) ("unable to find matching native data type for %s", s.c_str ()); } else if (s == "uint16") { if (sizeof (unsigned short) == 2) retval = dt_ushort; else if (sizeof (unsigned int) == 2) retval = dt_uint; else (*current_liboctave_error_handler) ("unable to find matching native data type for %s", s.c_str ()); } else if (s == "uint32") { if (sizeof (unsigned int) == 4) retval = dt_uint; else if (sizeof (unsigned long) == 4) retval = dt_ulong; else (*current_liboctave_error_handler) ("unable to find matching native data type for %s", s.c_str ()); } else (*current_liboctave_error_handler) ("invalid data type specified"); return retval; } #define swap_1_bytes(x, y) #define LS_DO_READ(TYPE,swap,data,size,len,stream) \ do \ { \ volatile TYPE *ptr = X_CAST (volatile TYPE *, data); \ stream.read (X_CAST (TYPE *, ptr), size * len); \ if (swap) \ swap_ ## size ## _bytes (ptr, len); \ TYPE tmp = ptr[0]; \ for (int i = len - 1; i > 0; i--) \ data[i] = ptr[i]; \ data[0] = tmp; \ } \ while (0) // Have to use copy here to avoid writing over data accessed via // Matrix::data(). #define LS_DO_WRITE(TYPE,data,size,len,stream) \ do \ { \ char tmp_type = static_cast (type); \ stream.write (&tmp_type, 1); \ TYPE *ptr = new TYPE [len]; \ for (int i = 0; i < len; i++) \ ptr[i] = X_CAST (TYPE, data[i]); \ stream.write (ptr, size * len); \ delete [] ptr ; \ } \ while (0) // Loading variables from files. static void gripe_unrecognized_float_fmt (void) { (*current_liboctave_error_handler) ("unrecognized floating point format requested"); } static void gripe_data_conversion (const char *from, const char *to) { (*current_liboctave_error_handler) ("unable to convert from %s to %s format", from, to); } // But first, some data conversion routines. // Currently, we only handle conversions for the IEEE types. To fix // that, make more of the following routines work. // XXX FIXME XXX -- assumes sizeof (Complex) == 8 // XXX FIXME XXX -- assumes sizeof (double) == 8 // XXX FIXME XXX -- assumes sizeof (float) == 4 static void IEEE_big_double_to_IEEE_little_double (double *d, int len) { swap_8_bytes (d, len); } static void VAX_D_double_to_IEEE_little_double (double * /* d */, int /* len */) { gripe_data_conversion ("VAX D float", "IEEE little endian format"); } static void VAX_G_double_to_IEEE_little_double (double * /* d */, int /* len */) { gripe_data_conversion ("VAX G float", "IEEE little endian format"); } static void Cray_to_IEEE_little_double (double * /* d */, int /* len */) { gripe_data_conversion ("Cray", "IEEE little endian format"); } static void IEEE_big_float_to_IEEE_little_float (float *d, int len) { swap_4_bytes (d, len); } static void VAX_D_float_to_IEEE_little_float (float * /* d */, int /* len */) { gripe_data_conversion ("VAX D float", "IEEE little endian format"); } static void VAX_G_float_to_IEEE_little_float (float * /* d */, int /* len */) { gripe_data_conversion ("VAX G float", "IEEE little endian format"); } static void Cray_to_IEEE_little_float (float * /* d */, int /* len */) { gripe_data_conversion ("Cray", "IEEE little endian format"); } static void IEEE_little_double_to_IEEE_big_double (double *d, int len) { swap_8_bytes (d, len); } static void VAX_D_double_to_IEEE_big_double (double * /* d */, int /* len */) { gripe_data_conversion ("VAX D float", "IEEE big endian format"); } static void VAX_G_double_to_IEEE_big_double (double * /* d */, int /* len */) { gripe_data_conversion ("VAX G float", "IEEE big endian format"); } static void Cray_to_IEEE_big_double (double * /* d */, int /* len */) { gripe_data_conversion ("Cray", "IEEE big endian format"); } static void IEEE_little_float_to_IEEE_big_float (float *d, int len) { swap_4_bytes (d, len); } static void VAX_D_float_to_IEEE_big_float (float * /* d */, int /* len */) { gripe_data_conversion ("VAX D float", "IEEE big endian format"); } static void VAX_G_float_to_IEEE_big_float (float * /* d */, int /* len */) { gripe_data_conversion ("VAX G float", "IEEE big endian format"); } static void Cray_to_IEEE_big_float (float * /* d */, int /* len */) { gripe_data_conversion ("Cray", "IEEE big endian format"); } static void IEEE_little_double_to_VAX_D_double (double * /* d */, int /* len */) { gripe_data_conversion ("IEEE little endian", "VAX D"); } static void IEEE_big_double_to_VAX_D_double (double * /* d */, int /* len */) { gripe_data_conversion ("IEEE big endian", "VAX D"); } static void VAX_G_double_to_VAX_D_double (double * /* d */, int /* len */) { gripe_data_conversion ("VAX G float", "VAX D"); } static void Cray_to_VAX_D_double (double * /* d */, int /* len */) { gripe_data_conversion ("Cray", "VAX D"); } static void IEEE_little_float_to_VAX_D_float (float * /* d */, int /* len */) { gripe_data_conversion ("IEEE little endian", "VAX D"); } static void IEEE_big_float_to_VAX_D_float (float * /* d */, int /* len */) { gripe_data_conversion ("IEEE big endian", "VAX D"); } static void VAX_G_float_to_VAX_D_float (float * /* d */, int /* len */) { gripe_data_conversion ("VAX G float", "VAX D"); } static void Cray_to_VAX_D_float (float * /* d */, int /* len */) { gripe_data_conversion ("Cray", "VAX D"); } static void IEEE_little_double_to_VAX_G_double (double * /* d */, int /* len */) { gripe_data_conversion ("IEEE little endian", "VAX G"); } static void IEEE_big_double_to_VAX_G_double (double * /* d */, int /* len */) { gripe_data_conversion ("IEEE big endian", "VAX G"); } static void VAX_D_double_to_VAX_G_double (double * /* d */, int /* len */) { gripe_data_conversion ("VAX D float", "VAX G"); } static void Cray_to_VAX_G_double (double * /* d */, int /* len */) { gripe_data_conversion ("VAX G float", "VAX G"); } static void IEEE_little_float_to_VAX_G_float (float * /* d */, int /* len */) { gripe_data_conversion ("IEEE little endian", "VAX G"); } static void IEEE_big_float_to_VAX_G_float (float * /* d */, int /* len */) { gripe_data_conversion ("IEEE big endian", "VAX G"); } static void VAX_D_float_to_VAX_G_float (float * /* d */, int /* len */) { gripe_data_conversion ("VAX D float", "VAX G"); } static void Cray_to_VAX_G_float (float * /* d */, int /* len */) { gripe_data_conversion ("VAX G float", "VAX G"); } void do_double_format_conversion (double *data, int len, oct_mach_info::float_format fmt) { switch (oct_mach_info::native_float_format ()) { case oct_mach_info::ieee_little_endian: switch (fmt) { case oct_mach_info::ieee_little_endian: break; case oct_mach_info::ieee_big_endian: IEEE_big_double_to_IEEE_little_double (data, len); break; case oct_mach_info::vax_d: VAX_D_double_to_IEEE_little_double (data, len); break; case oct_mach_info::vax_g: VAX_G_double_to_IEEE_little_double (data, len); break; case oct_mach_info::cray: Cray_to_IEEE_little_double (data, len); break; default: gripe_unrecognized_float_fmt (); break; } break; case oct_mach_info::ieee_big_endian: switch (fmt) { case oct_mach_info::ieee_little_endian: IEEE_little_double_to_IEEE_big_double (data, len); break; case oct_mach_info::ieee_big_endian: break; case oct_mach_info::vax_d: VAX_D_double_to_IEEE_big_double (data, len); break; case oct_mach_info::vax_g: VAX_G_double_to_IEEE_big_double (data, len); break; case oct_mach_info::cray: Cray_to_IEEE_big_double (data, len); break; default: gripe_unrecognized_float_fmt (); break; } break; case oct_mach_info::vax_d: switch (fmt) { case oct_mach_info::ieee_little_endian: IEEE_little_double_to_VAX_D_double (data, len); break; case oct_mach_info::ieee_big_endian: IEEE_big_double_to_VAX_D_double (data, len); break; case oct_mach_info::vax_d: break; case oct_mach_info::vax_g: VAX_G_double_to_VAX_D_double (data, len); break; case oct_mach_info::cray: Cray_to_VAX_D_double (data, len); break; default: gripe_unrecognized_float_fmt (); break; } break; case oct_mach_info::vax_g: switch (fmt) { case oct_mach_info::ieee_little_endian: IEEE_little_double_to_VAX_G_double (data, len); break; case oct_mach_info::ieee_big_endian: IEEE_big_double_to_VAX_G_double (data, len); break; case oct_mach_info::vax_d: VAX_D_double_to_VAX_G_double (data, len); break; case oct_mach_info::vax_g: break; case oct_mach_info::cray: Cray_to_VAX_G_double (data, len); break; default: gripe_unrecognized_float_fmt (); break; } break; default: (*current_liboctave_error_handler) ("impossible state reached in file `%s' at line %d", __FILE__, __LINE__); break; } } void do_float_format_conversion (float *data, int len, oct_mach_info::float_format fmt) { switch (oct_mach_info::native_float_format ()) { case oct_mach_info::ieee_little_endian: switch (fmt) { case oct_mach_info::ieee_little_endian: break; case oct_mach_info::ieee_big_endian: IEEE_big_float_to_IEEE_little_float (data, len); break; case oct_mach_info::vax_d: VAX_D_float_to_IEEE_little_float (data, len); break; case oct_mach_info::vax_g: VAX_G_float_to_IEEE_little_float (data, len); break; case oct_mach_info::cray: Cray_to_IEEE_little_float (data, len); break; default: gripe_unrecognized_float_fmt (); break; } break; case oct_mach_info::ieee_big_endian: switch (fmt) { case oct_mach_info::ieee_little_endian: IEEE_little_float_to_IEEE_big_float (data, len); break; case oct_mach_info::ieee_big_endian: break; case oct_mach_info::vax_d: VAX_D_float_to_IEEE_big_float (data, len); break; case oct_mach_info::vax_g: VAX_G_float_to_IEEE_big_float (data, len); break; case oct_mach_info::cray: Cray_to_IEEE_big_float (data, len); break; default: gripe_unrecognized_float_fmt (); break; } break; case oct_mach_info::vax_d: switch (fmt) { case oct_mach_info::ieee_little_endian: IEEE_little_float_to_VAX_D_float (data, len); break; case oct_mach_info::ieee_big_endian: IEEE_big_float_to_VAX_D_float (data, len); break; case oct_mach_info::vax_d: break; case oct_mach_info::vax_g: VAX_G_float_to_VAX_D_float (data, len); break; case oct_mach_info::cray: Cray_to_VAX_D_float (data, len); break; default: gripe_unrecognized_float_fmt (); break; } break; case oct_mach_info::vax_g: switch (fmt) { case oct_mach_info::ieee_little_endian: IEEE_little_float_to_VAX_G_float (data, len); break; case oct_mach_info::ieee_big_endian: IEEE_big_float_to_VAX_G_float (data, len); break; case oct_mach_info::vax_d: VAX_D_float_to_VAX_G_float (data, len); break; case oct_mach_info::vax_g: break; case oct_mach_info::cray: Cray_to_VAX_G_float (data, len); break; default: gripe_unrecognized_float_fmt (); break; } break; default: (*current_liboctave_error_handler) ("impossible state reached in file `%s' at line %d", __FILE__, __LINE__); break; } } void read_doubles (istream& is, double *data, save_type type, int len, int swap, oct_mach_info::float_format fmt) { switch (type) { case LS_U_CHAR: LS_DO_READ (unsigned char, swap, data, 1, len, is); break; case LS_U_SHORT: LS_DO_READ (unsigned TWO_BYTE_INT, swap, data, 2, len, is); break; case LS_U_INT: LS_DO_READ (unsigned FOUR_BYTE_INT, swap, data, 4, len, is); break; case LS_CHAR: LS_DO_READ (signed char, swap, data, 1, len, is); break; case LS_SHORT: LS_DO_READ (TWO_BYTE_INT, swap, data, 2, len, is); break; case LS_INT: LS_DO_READ (FOUR_BYTE_INT, swap, data, 4, len, is); break; case LS_FLOAT: { volatile float *ptr = X_CAST (float *, data); is.read (data, 4 * len); do_float_format_conversion (X_CAST (float *, data), len, fmt); float tmp = ptr[0]; for (int i = len - 1; i > 0; i--) data[i] = ptr[i]; data[0] = tmp; } break; case LS_DOUBLE: is.read (data, 8 * len); do_double_format_conversion (data, len, fmt); break; default: is.clear (ios::failbit|is.rdstate ()); break; } } void write_doubles (ostream& os, const double *data, save_type type, int len) { switch (type) { case LS_U_CHAR: LS_DO_WRITE (unsigned char, data, 1, len, os); break; case LS_U_SHORT: LS_DO_WRITE (unsigned TWO_BYTE_INT, data, 2, len, os); break; case LS_U_INT: LS_DO_WRITE (unsigned FOUR_BYTE_INT, data, 4, len, os); break; case LS_CHAR: LS_DO_WRITE (signed char, data, 1, len, os); break; case LS_SHORT: LS_DO_WRITE (TWO_BYTE_INT, data, 2, len, os); break; case LS_INT: LS_DO_WRITE (FOUR_BYTE_INT, data, 4, len, os); break; case LS_FLOAT: LS_DO_WRITE (float, data, 4, len, os); break; case LS_DOUBLE: { char tmp_type = X_CAST (char, type); os.write (&tmp_type, 1); os.write (data, 8 * len); } break; default: (*current_liboctave_error_handler) ("unrecognized data format requested"); break; } } /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */