Mercurial > octave
view liboctave/util/data-conv.cc @ 21301:40de9f8f23a6
Use '#include "config.h"' rather than <config.h>.
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dim-vector.cc, fCColVector.cc, fCDiagMatrix.cc, fCMatrix.cc, fCNDArray.cc,
fCRowVector.cc, fColVector.cc, fDiagMatrix.cc, fMatrix.cc, fNDArray.cc,
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lu.cc, oct-convn.cc, oct-fftw.cc, oct-norm.cc, oct-rand.cc, oct-spparms.cc,
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octave-config.in.cc:
Use '#include "config.h"' rather than <config.h>.
author | Rik <rik@octave.org> |
---|---|
date | Thu, 18 Feb 2016 13:34:50 -0800 |
parents | f7121e111991 |
children | 06d15e4e611a |
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/* Copyright (C) 1996-2015 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 3 of the License, 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, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include <cctype> #include <cstdlib> #include <iostream> #include <limits> #include <vector> #include "byte-swap.h" #include "data-conv.h" #include "lo-error.h" #include "lo-ieee.h" #include "oct-locbuf.h" #if defined HAVE_LONG_LONG_INT # define FIND_SIZED_INT_TYPE(VAL, BITS, TQ, Q) \ do \ { \ int sz = BITS / std::numeric_limits<unsigned char>::digits; \ if (sizeof (TQ char) == sz) \ VAL = oct_data_conv::dt_ ## Q ## char; \ else if (sizeof (TQ short) == sz) \ VAL = oct_data_conv::dt_ ## Q ## short; \ else if (sizeof (TQ int) == sz) \ VAL = oct_data_conv::dt_ ## Q ## int; \ else if (sizeof (TQ long) == sz) \ VAL = oct_data_conv::dt_ ## Q ## long; \ else if (sizeof (TQ long long) == sz) \ VAL = oct_data_conv::dt_ ## Q ## longlong; \ else \ VAL = oct_data_conv::dt_unknown; \ } \ while (0) #else # define FIND_SIZED_INT_TYPE(VAL, BITS, TQ, Q) \ do \ { \ int sz = BITS / std::numeric_limits<unsigned char>::digits; \ if (sizeof (TQ char) == sz) \ VAL = oct_data_conv::dt_ ## Q ## char; \ else if (sizeof (TQ short) == sz) \ VAL = oct_data_conv::dt_ ## Q ## short; \ else if (sizeof (TQ int) == sz) \ VAL = oct_data_conv::dt_ ## Q ## int; \ else if (sizeof (TQ long) == sz) \ VAL = oct_data_conv::dt_ ## Q ## long; \ else \ VAL = oct_data_conv::dt_unknown; \ } \ while (0) #endif #define FIND_SIZED_FLOAT_TYPE(VAL, BITS) \ do \ { \ int sz = BITS / std::numeric_limits<unsigned char>::digits; \ if (sizeof (float) == sz) \ VAL = oct_data_conv::dt_float; \ else if (sizeof (double) == sz) \ VAL = oct_data_conv::dt_double; \ else \ VAL = oct_data_conv::dt_unknown; \ } \ while (0) // I'm not sure it is worth the trouble, but let's use a lookup table // for the types that are supposed to be a specific number of bits // wide. Given the macros above, this should work as long as // std::numeric_limits<unsigned char>::digits is a multiple of 8 and // there are types with the right sizes. // // The sized data type lookup table has the following format: // // bits // +----+----+----+----+ // | 8 | 16 | 32 | 64 | // +----+----+----+----+ // signed integer | | | | | // +----+----+----+----+ // unsigned integer | | | | | // +----+----+----+----+ // floating point | | | | | // +----+----+----+----+ // // So, the 0,3 element is supposed to contain the oct_data_conv enum // value corresponding to the correct native data type for a signed // 32-bit integer. static void init_sized_type_lookup_table (oct_data_conv::data_type table[3][4]) { int bits = 8; for (int i = 0; i < 4; i++) { FIND_SIZED_INT_TYPE (table[0][i], bits, , ); FIND_SIZED_INT_TYPE (table[1][i], bits, unsigned, u); FIND_SIZED_FLOAT_TYPE (table[2][i], bits); bits *= 2; } } static std::string strip_spaces (const std::string& str) { size_t n = str.length (); size_t k = 0; std::string s (n, ' '); for (size_t i = 0; i < n; i++) if (! isspace (str[i])) s[k++] = tolower (str[i]); s.resize (k); return s; } #define GET_SIZED_INT_TYPE(T, U) \ do \ { \ switch (sizeof (T)) \ { \ case 1: \ retval = dt_ ## U ## int8; \ break; \ \ case 2: \ retval = dt_ ## U ## int16; \ break; \ \ case 4: \ retval = dt_ ## U ## int32; \ break; \ \ case 8: \ retval = dt_ ## U ## int64; \ break; \ \ default: \ retval = dt_unknown; \ break; \ } \ } \ while (0) size_t oct_data_conv::data_type_size (data_type dt) { size_t retval = -1; switch (dt) { case oct_data_conv::dt_int8: retval = sizeof (int8_t); break; case oct_data_conv::dt_uint8: retval = sizeof (uint8_t); break; case oct_data_conv::dt_int16: retval = sizeof (int16_t); break; case oct_data_conv::dt_uint16: retval = sizeof (uint16_t); break; case oct_data_conv::dt_int32: retval = sizeof (int32_t); break; case oct_data_conv::dt_uint32: retval = sizeof (uint32_t); break; case oct_data_conv::dt_int64: retval = sizeof (int64_t); break; case oct_data_conv::dt_uint64: retval = sizeof (uint64_t); break; case oct_data_conv::dt_float: case oct_data_conv::dt_single: retval = sizeof (float); break; case oct_data_conv::dt_double: retval = sizeof (double); break; case oct_data_conv::dt_char: retval = sizeof (char); break; case oct_data_conv::dt_schar: retval = sizeof (signed char); break; case oct_data_conv::dt_uchar: retval = sizeof (unsigned char); break; case oct_data_conv::dt_short: retval = sizeof (short); break; case oct_data_conv::dt_ushort: retval = sizeof (unsigned short); break; case oct_data_conv::dt_int: retval = sizeof (int); break; case oct_data_conv::dt_uint: retval = sizeof (unsigned int); break; case oct_data_conv::dt_long: retval = sizeof (long); break; case oct_data_conv::dt_ulong: retval = sizeof (unsigned long); break; case oct_data_conv::dt_longlong: retval = sizeof (long long); break; case oct_data_conv::dt_ulonglong: retval = sizeof (unsigned long long); break; case oct_data_conv::dt_logical: retval = sizeof (bool); break; case oct_data_conv::dt_unknown: default: abort (); break; } return retval; } oct_data_conv::data_type oct_data_conv::string_to_data_type (const std::string& str) { data_type retval = dt_unknown; static bool initialized = false; static data_type sized_type_table[3][4]; if (! initialized) { init_sized_type_lookup_table (sized_type_table); initialized = true; } std::string s = strip_spaces (str); if (s == "int8" || s == "integer*1") retval = dt_int8; else if (s == "uint8") retval = dt_uint8; else if (s == "int16" || s == "integer*2") retval = dt_int16; else if (s == "uint16") retval = dt_uint16; else if (s == "int32" || s == "integer*4") retval = dt_int32; else if (s == "uint32") retval = dt_uint32; else if (s == "int64" || s == "integer*8") retval = dt_int64; else if (s == "uint64") retval = dt_uint64; else if (s == "single" || s == "float32" || s == "real*4") retval = dt_single; else if (s == "double" || s == "float64" || s == "real*8") retval = dt_double; else if (s == "char" || s == "char*1") 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") GET_SIZED_INT_TYPE (short, ); else if (s == "ushort" || s == "unsignedshort") GET_SIZED_INT_TYPE (unsigned short, u); else if (s == "int") GET_SIZED_INT_TYPE (int, ); else if (s == "uint" || s == "unsignedint") GET_SIZED_INT_TYPE (unsigned int, u); else if (s == "long") GET_SIZED_INT_TYPE (long, ); else if (s == "ulong" || s == "unsignedlong") GET_SIZED_INT_TYPE (unsigned long, u); else if (s == "longlong") GET_SIZED_INT_TYPE (long long, ); else if (s == "ulonglong" || s == "unsignedlonglong") GET_SIZED_INT_TYPE (unsigned long long, u); else if (s == "float") { if (sizeof (float) == sizeof (double)) retval = dt_double; else retval = dt_single; } else if (s == "logical") retval = dt_logical; else (*current_liboctave_error_handler) ("invalid data type specified"); if (retval == dt_unknown) (*current_liboctave_error_handler) ("unable to find matching native data type for %s", s.c_str ()); return retval; } void oct_data_conv::string_to_data_type (const std::string& str, int& block_size, oct_data_conv::data_type& input_type, oct_data_conv::data_type& output_type) { block_size = 1; input_type = dt_uchar; output_type = dt_double; bool input_is_output = false; std::string s = strip_spaces (str); size_t pos = 0; if (s[0] == '*') input_is_output = true; else { size_t len = s.length (); while (pos < len && isdigit (s[pos])) pos++; if (pos > 0) { if (s[pos] == '*') { block_size = atoi (s.c_str ()); s = s.substr (pos+1); } else (*current_liboctave_error_handler) ("invalid repeat count in '%s'", str.c_str ()); } } pos = s.find ('='); if (pos != std::string::npos) { if (s[pos+1] == '>') { std::string s1; if (input_is_output) { s1 = s.substr (1, pos-1); (*current_liboctave_warning_with_id_handler) ("Octave:fread-precision-syntax", "warning: ignoring leading * in fread precision"); } else s1 = s.substr (0, pos); input_type = string_to_data_type (s1); output_type = string_to_data_type (s.substr (pos+2)); } else (*current_liboctave_error_handler) ("fread: invalid precision specified"); } else { if (input_is_output) s = s.substr (1); input_type = string_to_data_type (s); if (input_is_output) output_type = input_type; } } void oct_data_conv::string_to_data_type (const std::string& str, int& block_size, oct_data_conv::data_type& output_type) { block_size = 1; output_type = dt_double; std::string s = strip_spaces (str); size_t pos = 0; size_t len = s.length (); while (pos < len && isdigit (s[pos])) pos++; if (pos > 0) { if (s[pos] == '*') { block_size = atoi (s.c_str ()); s = s.substr (pos+1); } else (*current_liboctave_error_handler) ("invalid repeat count in '%s'", str.c_str ()); } output_type = string_to_data_type (s); } std::string oct_data_conv::data_type_as_string (oct_data_conv::data_type dt) { std::string retval; switch (dt) { case oct_data_conv::dt_int8: retval = "int8"; break; case oct_data_conv::dt_uint8: retval = "uint8"; break; case oct_data_conv::dt_int16: retval = "int16"; break; case oct_data_conv::dt_uint16: retval = "uint16"; break; case oct_data_conv::dt_int32: retval = "int32"; break; case oct_data_conv::dt_uint32: retval = "uint32"; break; case oct_data_conv::dt_int64: retval = "int64"; break; case oct_data_conv::dt_uint64: retval = "uint64"; break; case oct_data_conv::dt_single: retval = "single"; break; case oct_data_conv::dt_double: retval = "double"; break; case oct_data_conv::dt_char: retval = "char"; break; case oct_data_conv::dt_schar: retval = "signed char"; break; case oct_data_conv::dt_uchar: retval = "unsigned char"; break; case oct_data_conv::dt_short: retval = "short"; break; case oct_data_conv::dt_ushort: retval = "unsigned short"; break; case oct_data_conv::dt_int: retval = "int"; break; case oct_data_conv::dt_uint: retval = "unsigned int"; break; case oct_data_conv::dt_long: retval = "long"; break; case oct_data_conv::dt_ulong: retval = "unsigned long"; break; case oct_data_conv::dt_longlong: retval = "long long"; break; case oct_data_conv::dt_ulonglong: retval = "unsigned long long"; break; case oct_data_conv::dt_float: retval = "float"; break; case oct_data_conv::dt_logical: retval = "logical"; break; case oct_data_conv::dt_unknown: default: retval = "unknown"; break; } return retval; } #define LS_DO_READ(TYPE, swap, data, size, len, stream) \ do \ { \ if (len > 0) \ { \ OCTAVE_LOCAL_BUFFER (TYPE, ptr, len); \ std::streamsize n_bytes = size * static_cast<std::streamsize> (len); \ stream.read (reinterpret_cast<char *> (ptr), n_bytes); \ if (swap) \ swap_bytes< size > (ptr, len); \ for (octave_idx_type i = 0; i < len; i++) \ data[i] = ptr[i]; \ } \ } \ 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 \ { \ if (len > 0) \ { \ char tmp_type = type; \ stream.write (&tmp_type, 1); \ OCTAVE_LOCAL_BUFFER (TYPE, ptr, len); \ for (octave_idx_type i = 0; i < len; i++) \ ptr[i] = static_cast<TYPE> (data[i]); \ std::streamsize n_bytes = size * static_cast<std::streamsize> (len); \ stream.write (reinterpret_cast<char *> (ptr), n_bytes); \ } \ } \ while (0) // Loading variables from files. OCTAVE_NORETURN static void err_unrecognized_float_fmt (void) { (*current_liboctave_error_handler) ("unrecognized floating point format requested"); } // 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. // FIXME: assumes sizeof (Complex) == 8 // FIXME: assumes sizeof (double) == 8 // FIXME: assumes sizeof (float) == 4 static void IEEE_big_double_to_IEEE_little_double (void *d, octave_idx_type len) { swap_bytes<8> (d, len); } static void IEEE_big_float_to_IEEE_little_float (void *d, octave_idx_type len) { swap_bytes<4> (d, len); } static void IEEE_little_double_to_IEEE_big_double (void *d, octave_idx_type len) { swap_bytes<8> (d, len); } static void IEEE_little_float_to_IEEE_big_float (void *d, octave_idx_type len) { swap_bytes<4> (d, len); } void do_double_format_conversion (void *data, octave_idx_type len, oct_mach_info::float_format from_fmt, oct_mach_info::float_format to_fmt) { switch (to_fmt) { case oct_mach_info::flt_fmt_ieee_little_endian: switch (from_fmt) { case oct_mach_info::flt_fmt_ieee_little_endian: break; case oct_mach_info::flt_fmt_ieee_big_endian: IEEE_big_double_to_IEEE_little_double (data, len); break; default: err_unrecognized_float_fmt (); break; } break; case oct_mach_info::flt_fmt_ieee_big_endian: switch (from_fmt) { case oct_mach_info::flt_fmt_ieee_little_endian: IEEE_little_double_to_IEEE_big_double (data, len); break; case oct_mach_info::flt_fmt_ieee_big_endian: break; default: err_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 (void *data, octave_idx_type len, oct_mach_info::float_format from_fmt, oct_mach_info::float_format to_fmt) { switch (to_fmt) { case oct_mach_info::flt_fmt_ieee_little_endian: switch (from_fmt) { case oct_mach_info::flt_fmt_ieee_little_endian: break; case oct_mach_info::flt_fmt_ieee_big_endian: IEEE_big_float_to_IEEE_little_float (data, len); break; default: err_unrecognized_float_fmt (); break; } break; case oct_mach_info::flt_fmt_ieee_big_endian: switch (from_fmt) { case oct_mach_info::flt_fmt_ieee_little_endian: IEEE_little_float_to_IEEE_big_float (data, len); break; case oct_mach_info::flt_fmt_ieee_big_endian: break; default: err_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 (void *data, size_t sz, octave_idx_type len, oct_mach_info::float_format from_fmt, oct_mach_info::float_format to_fmt) { switch (sz) { case sizeof (float): do_float_format_conversion (data, len, from_fmt, to_fmt); break; case sizeof (double): do_double_format_conversion (data, len, from_fmt, to_fmt); break; default: (*current_liboctave_error_handler) ("impossible state reached in file '%s' at line %d", __FILE__, __LINE__); break; } } void read_doubles (std::istream& is, double *data, save_type type, octave_idx_type len, bool swap, oct_mach_info::float_format fmt) { switch (type) { case LS_U_CHAR: LS_DO_READ (uint8_t, swap, data, 1, len, is); break; case LS_U_SHORT: LS_DO_READ (uint16_t, swap, data, 2, len, is); break; case LS_U_INT: LS_DO_READ (uint32_t, swap, data, 4, len, is); break; case LS_CHAR: LS_DO_READ (int8_t, swap, data, 1, len, is); break; case LS_SHORT: LS_DO_READ (int16_t, swap, data, 2, len, is); break; case LS_INT: LS_DO_READ (int32_t, swap, data, 4, len, is); break; case LS_FLOAT: { OCTAVE_LOCAL_BUFFER (float, ptr, len); std::streamsize n_bytes = 4 * static_cast<std::streamsize> (len); is.read (reinterpret_cast<char *> (ptr), n_bytes); do_float_format_conversion (ptr, len, fmt); for (octave_idx_type i = 0; i < len; i++) data[i] = ptr[i]; } break; case LS_DOUBLE: // No conversion necessary. { std::streamsize n_bytes = 8 * static_cast<std::streamsize> (len); is.read (reinterpret_cast<char *> (data), n_bytes); do_double_format_conversion (data, len, fmt); for (int i = 0; i < len; i++) data[i] = __lo_ieee_replace_old_NA (data[i]); } break; default: is.clear (std::ios::failbit|is.rdstate ()); break; } } void read_floats (std::istream& is, float *data, save_type type, octave_idx_type len, bool swap, oct_mach_info::float_format fmt) { switch (type) { case LS_U_CHAR: LS_DO_READ (uint8_t, swap, data, 1, len, is); break; case LS_U_SHORT: LS_DO_READ (uint16_t, swap, data, 2, len, is); break; case LS_U_INT: LS_DO_READ (uint32_t, swap, data, 4, len, is); break; case LS_CHAR: LS_DO_READ (int8_t, swap, data, 1, len, is); break; case LS_SHORT: LS_DO_READ (int16_t, swap, data, 2, len, is); break; case LS_INT: LS_DO_READ (int32_t, swap, data, 4, len, is); break; case LS_FLOAT: // No conversion necessary. { std::streamsize n_bytes = 4 * static_cast<std::streamsize> (len); is.read (reinterpret_cast<char *> (data), n_bytes); do_float_format_conversion (data, len, fmt); } break; case LS_DOUBLE: { OCTAVE_LOCAL_BUFFER (double, ptr, len); std::streamsize n_bytes = 8 * static_cast<std::streamsize> (len); is.read (reinterpret_cast<char *> (ptr), n_bytes); do_double_format_conversion (ptr, len, fmt); for (octave_idx_type i = 0; i < len; i++) data[i] = ptr[i]; } break; default: is.clear (std::ios::failbit|is.rdstate ()); break; } } void write_doubles (std::ostream& os, const double *data, save_type type, octave_idx_type len) { switch (type) { case LS_U_CHAR: LS_DO_WRITE (uint8_t, data, 1, len, os); break; case LS_U_SHORT: LS_DO_WRITE (uint16_t, data, 2, len, os); break; case LS_U_INT: LS_DO_WRITE (uint32_t, data, 4, len, os); break; case LS_CHAR: LS_DO_WRITE (int8_t, data, 1, len, os); break; case LS_SHORT: LS_DO_WRITE (int16_t, data, 2, len, os); break; case LS_INT: LS_DO_WRITE (int32_t, data, 4, len, os); break; case LS_FLOAT: LS_DO_WRITE (float, data, 4, len, os); break; case LS_DOUBLE: // No conversion necessary. { char tmp_type = static_cast<char> (type); os.write (&tmp_type, 1); std::streamsize n_bytes = 8 * static_cast<std::streamsize> (len); os.write (reinterpret_cast <const char *> (data), n_bytes); } break; default: (*current_liboctave_error_handler) ("unrecognized data format requested"); break; } } void write_floats (std::ostream& os, const float *data, save_type type, octave_idx_type len) { switch (type) { case LS_U_CHAR: LS_DO_WRITE (uint8_t, data, 1, len, os); break; case LS_U_SHORT: LS_DO_WRITE (uint16_t, data, 2, len, os); break; case LS_U_INT: LS_DO_WRITE (uint32_t, data, 4, len, os); break; case LS_CHAR: LS_DO_WRITE (int8_t, data, 1, len, os); break; case LS_SHORT: LS_DO_WRITE (int16_t, data, 2, len, os); break; case LS_INT: LS_DO_WRITE (int32_t, data, 4, len, os); break; case LS_FLOAT: // No conversion necessary. { char tmp_type = static_cast<char> (type); os.write (&tmp_type, 1); std::streamsize n_bytes = 4 * static_cast<std::streamsize> (len); os.write (reinterpret_cast <const char *> (data), n_bytes); } break; case LS_DOUBLE: LS_DO_WRITE (double, data, 8, len, os); break; default: (*current_liboctave_error_handler) ("unrecognized data format requested"); break; } }