/* ** Copyright (C) 1999-2011 Erik de Castro Lopo ** ** This program is free software; you can redistribute it and/or modify ** it under the terms of the GNU Lesser General Public License as published by ** the Free Software Foundation; either version 2.1 of the License, or ** (at your option) any later version. ** ** This program 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 Lesser General Public License for more details. ** ** You should have received a copy of the GNU Lesser General Public License ** along with this program; if not, write to the Free Software ** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "sfconfig.h" #include #include #include #include #include #include "sndfile.h" #include "sfendian.h" #include "common.h" #if CPU_IS_LITTLE_ENDIAN #define FLOAT32_READ float32_le_read #define FLOAT32_WRITE float32_le_write #elif CPU_IS_BIG_ENDIAN #define FLOAT32_READ float32_be_read #define FLOAT32_WRITE float32_be_write #endif /*-------------------------------------------------------------------------------------------- ** Processor floating point capabilities. float32_get_capability () returns one of the ** latter four values. */ enum { FLOAT_UNKNOWN = 0x00, FLOAT_CAN_RW_LE = 0x12, FLOAT_CAN_RW_BE = 0x23, FLOAT_BROKEN_LE = 0x34, FLOAT_BROKEN_BE = 0x45 } ; /*-------------------------------------------------------------------------------------------- ** Prototypes for private functions. */ static sf_count_t host_read_f2s (SF_PRIVATE *psf, short *ptr, sf_count_t len) ; static sf_count_t host_read_f2i (SF_PRIVATE *psf, int *ptr, sf_count_t len) ; static sf_count_t host_read_f (SF_PRIVATE *psf, float *ptr, sf_count_t len) ; static sf_count_t host_read_f2d (SF_PRIVATE *psf, double *ptr, sf_count_t len) ; static sf_count_t host_write_s2f (SF_PRIVATE *psf, const short *ptr, sf_count_t len) ; static sf_count_t host_write_i2f (SF_PRIVATE *psf, const int *ptr, sf_count_t len) ; static sf_count_t host_write_f (SF_PRIVATE *psf, const float *ptr, sf_count_t len) ; static sf_count_t host_write_d2f (SF_PRIVATE *psf, const double *ptr, sf_count_t len) ; static void float32_peak_update (SF_PRIVATE *psf, const float *buffer, int count, sf_count_t indx) ; static sf_count_t replace_read_f2s (SF_PRIVATE *psf, short *ptr, sf_count_t len) ; static sf_count_t replace_read_f2i (SF_PRIVATE *psf, int *ptr, sf_count_t len) ; static sf_count_t replace_read_f (SF_PRIVATE *psf, float *ptr, sf_count_t len) ; static sf_count_t replace_read_f2d (SF_PRIVATE *psf, double *ptr, sf_count_t len) ; static sf_count_t replace_write_s2f (SF_PRIVATE *psf, const short *ptr, sf_count_t len) ; static sf_count_t replace_write_i2f (SF_PRIVATE *psf, const int *ptr, sf_count_t len) ; static sf_count_t replace_write_f (SF_PRIVATE *psf, const float *ptr, sf_count_t len) ; static sf_count_t replace_write_d2f (SF_PRIVATE *psf, const double *ptr, sf_count_t len) ; static void bf2f_array (float *buffer, int count) ; static void f2bf_array (float *buffer, int count) ; static int float32_get_capability (SF_PRIVATE *psf) ; /*-------------------------------------------------------------------------------------------- ** Exported functions. */ int float32_init (SF_PRIVATE *psf) { static int float_caps ; float_caps = float32_get_capability (psf) ; psf->blockwidth = sizeof (float) * psf->sf.channels ; if (psf->file.mode == SFM_READ || psf->file.mode == SFM_RDWR) { switch (psf->endian + float_caps) { case (SF_ENDIAN_BIG + FLOAT_CAN_RW_BE) : psf->data_endswap = SF_FALSE ; psf->read_short = host_read_f2s ; psf->read_int = host_read_f2i ; psf->read_float = host_read_f ; psf->read_double = host_read_f2d ; break ; case (SF_ENDIAN_LITTLE + FLOAT_CAN_RW_LE) : psf->data_endswap = SF_FALSE ; psf->read_short = host_read_f2s ; psf->read_int = host_read_f2i ; psf->read_float = host_read_f ; psf->read_double = host_read_f2d ; break ; case (SF_ENDIAN_BIG + FLOAT_CAN_RW_LE) : psf->data_endswap = SF_TRUE ; psf->read_short = host_read_f2s ; psf->read_int = host_read_f2i ; psf->read_float = host_read_f ; psf->read_double = host_read_f2d ; break ; case (SF_ENDIAN_LITTLE + FLOAT_CAN_RW_BE) : psf->data_endswap = SF_TRUE ; psf->read_short = host_read_f2s ; psf->read_int = host_read_f2i ; psf->read_float = host_read_f ; psf->read_double = host_read_f2d ; break ; /* When the CPU is not IEEE compatible. */ case (SF_ENDIAN_BIG + FLOAT_BROKEN_LE) : psf->data_endswap = SF_TRUE ; psf->read_short = replace_read_f2s ; psf->read_int = replace_read_f2i ; psf->read_float = replace_read_f ; psf->read_double = replace_read_f2d ; break ; case (SF_ENDIAN_LITTLE + FLOAT_BROKEN_LE) : psf->data_endswap = SF_FALSE ; psf->read_short = replace_read_f2s ; psf->read_int = replace_read_f2i ; psf->read_float = replace_read_f ; psf->read_double = replace_read_f2d ; break ; case (SF_ENDIAN_BIG + FLOAT_BROKEN_BE) : psf->data_endswap = SF_FALSE ; psf->read_short = replace_read_f2s ; psf->read_int = replace_read_f2i ; psf->read_float = replace_read_f ; psf->read_double = replace_read_f2d ; break ; case (SF_ENDIAN_LITTLE + FLOAT_BROKEN_BE) : psf->data_endswap = SF_TRUE ; psf->read_short = replace_read_f2s ; psf->read_int = replace_read_f2i ; psf->read_float = replace_read_f ; psf->read_double = replace_read_f2d ; break ; default : break ; } ; } ; if (psf->file.mode == SFM_WRITE || psf->file.mode == SFM_RDWR) { switch (psf->endian + float_caps) { case (SF_ENDIAN_LITTLE + FLOAT_CAN_RW_LE) : psf->data_endswap = SF_FALSE ; psf->write_short = host_write_s2f ; psf->write_int = host_write_i2f ; psf->write_float = host_write_f ; psf->write_double = host_write_d2f ; break ; case (SF_ENDIAN_BIG + FLOAT_CAN_RW_BE) : psf->data_endswap = SF_FALSE ; psf->write_short = host_write_s2f ; psf->write_int = host_write_i2f ; psf->write_float = host_write_f ; psf->write_double = host_write_d2f ; break ; case (SF_ENDIAN_BIG + FLOAT_CAN_RW_LE) : psf->data_endswap = SF_TRUE ; psf->write_short = host_write_s2f ; psf->write_int = host_write_i2f ; psf->write_float = host_write_f ; psf->write_double = host_write_d2f ; break ; case (SF_ENDIAN_LITTLE + FLOAT_CAN_RW_BE) : psf->data_endswap = SF_TRUE ; psf->write_short = host_write_s2f ; psf->write_int = host_write_i2f ; psf->write_float = host_write_f ; psf->write_double = host_write_d2f ; break ; /* When the CPU is not IEEE compatible. */ case (SF_ENDIAN_BIG + FLOAT_BROKEN_LE) : psf->data_endswap = SF_TRUE ; psf->write_short = replace_write_s2f ; psf->write_int = replace_write_i2f ; psf->write_float = replace_write_f ; psf->write_double = replace_write_d2f ; break ; case (SF_ENDIAN_LITTLE + FLOAT_BROKEN_LE) : psf->data_endswap = SF_FALSE ; psf->write_short = replace_write_s2f ; psf->write_int = replace_write_i2f ; psf->write_float = replace_write_f ; psf->write_double = replace_write_d2f ; break ; case (SF_ENDIAN_BIG + FLOAT_BROKEN_BE) : psf->data_endswap = SF_FALSE ; psf->write_short = replace_write_s2f ; psf->write_int = replace_write_i2f ; psf->write_float = replace_write_f ; psf->write_double = replace_write_d2f ; break ; case (SF_ENDIAN_LITTLE + FLOAT_BROKEN_BE) : psf->data_endswap = SF_TRUE ; psf->write_short = replace_write_s2f ; psf->write_int = replace_write_i2f ; psf->write_float = replace_write_f ; psf->write_double = replace_write_d2f ; break ; default : break ; } ; } ; if (psf->filelength > psf->dataoffset) { psf->datalength = (psf->dataend > 0) ? psf->dataend - psf->dataoffset : psf->filelength - psf->dataoffset ; } else psf->datalength = 0 ; psf->sf.frames = psf->blockwidth > 0 ? psf->datalength / psf->blockwidth : 0 ; return 0 ; } /* float32_init */ float float32_be_read (unsigned char *cptr) { int exponent, mantissa, negative ; float fvalue ; negative = cptr [0] & 0x80 ; exponent = ((cptr [0] & 0x7F) << 1) | ((cptr [1] & 0x80) ? 1 : 0) ; mantissa = ((cptr [1] & 0x7F) << 16) | (cptr [2] << 8) | (cptr [3]) ; if (! (exponent || mantissa)) return 0.0 ; mantissa |= 0x800000 ; exponent = exponent ? exponent - 127 : 0 ; fvalue = mantissa ? ((float) mantissa) / ((float) 0x800000) : 0.0 ; if (negative) fvalue *= -1 ; if (exponent > 0) fvalue *= pow (2.0, exponent) ; else if (exponent < 0) fvalue /= pow (2.0, abs (exponent)) ; return fvalue ; } /* float32_be_read */ float float32_le_read (unsigned char *cptr) { int exponent, mantissa, negative ; float fvalue ; negative = cptr [3] & 0x80 ; exponent = ((cptr [3] & 0x7F) << 1) | ((cptr [2] & 0x80) ? 1 : 0) ; mantissa = ((cptr [2] & 0x7F) << 16) | (cptr [1] << 8) | (cptr [0]) ; if (! (exponent || mantissa)) return 0.0 ; mantissa |= 0x800000 ; exponent = exponent ? exponent - 127 : 0 ; fvalue = mantissa ? ((float) mantissa) / ((float) 0x800000) : 0.0 ; if (negative) fvalue *= -1 ; if (exponent > 0) fvalue *= pow (2.0, exponent) ; else if (exponent < 0) fvalue /= pow (2.0, abs (exponent)) ; return fvalue ; } /* float32_le_read */ void float32_le_write (float in, unsigned char *out) { int exponent, mantissa, negative = 0 ; memset (out, 0, sizeof (int)) ; if (fabs (in) < 1e-30) return ; if (in < 0.0) { in *= -1.0 ; negative = 1 ; } ; in = frexp (in, &exponent) ; exponent += 126 ; in *= (float) 0x1000000 ; mantissa = (((int) in) & 0x7FFFFF) ; if (negative) out [3] |= 0x80 ; if (exponent & 0x01) out [2] |= 0x80 ; out [0] = mantissa & 0xFF ; out [1] = (mantissa >> 8) & 0xFF ; out [2] |= (mantissa >> 16) & 0x7F ; out [3] |= (exponent >> 1) & 0x7F ; return ; } /* float32_le_write */ void float32_be_write (float in, unsigned char *out) { int exponent, mantissa, negative = 0 ; memset (out, 0, sizeof (int)) ; if (fabs (in) < 1e-30) return ; if (in < 0.0) { in *= -1.0 ; negative = 1 ; } ; in = frexp (in, &exponent) ; exponent += 126 ; in *= (float) 0x1000000 ; mantissa = (((int) in) & 0x7FFFFF) ; if (negative) out [0] |= 0x80 ; if (exponent & 0x01) out [1] |= 0x80 ; out [3] = mantissa & 0xFF ; out [2] = (mantissa >> 8) & 0xFF ; out [1] |= (mantissa >> 16) & 0x7F ; out [0] |= (exponent >> 1) & 0x7F ; return ; } /* float32_be_write */ /*============================================================================================== ** Private functions. */ static void float32_peak_update (SF_PRIVATE *psf, const float *buffer, int count, sf_count_t indx) { int chan ; int k, position ; float fmaxval ; for (chan = 0 ; chan < psf->sf.channels ; chan++) { fmaxval = fabs (buffer [chan]) ; position = 0 ; for (k = chan ; k < count ; k += psf->sf.channels) if (fmaxval < fabs (buffer [k])) { fmaxval = fabs (buffer [k]) ; position = k ; } ; if (fmaxval > psf->peak_info->peaks [chan].value) { psf->peak_info->peaks [chan].value = fmaxval ; psf->peak_info->peaks [chan].position = psf->write_current + indx + (position / psf->sf.channels) ; } ; } ; return ; } /* float32_peak_update */ static int float32_get_capability (SF_PRIVATE *psf) { union { float f ; int i ; unsigned char c [4] ; } data ; data.f = (float) 1.23456789 ; /* Some abitrary value. */ if (! psf->ieee_replace) { /* If this test is true ints and floats are compatible and little endian. */ if (data.c [0] == 0x52 && data.c [1] == 0x06 && data.c [2] == 0x9e && data.c [3] == 0x3f) return FLOAT_CAN_RW_LE ; /* If this test is true ints and floats are compatible and big endian. */ if (data.c [3] == 0x52 && data.c [2] == 0x06 && data.c [1] == 0x9e && data.c [0] == 0x3f) return FLOAT_CAN_RW_BE ; } ; /* Floats are broken. Don't expect reading or writing to be fast. */ psf_log_printf (psf, "Using IEEE replacement code for float.\n") ; return (CPU_IS_LITTLE_ENDIAN) ? FLOAT_BROKEN_LE : FLOAT_BROKEN_BE ; } /* float32_get_capability */ /*======================================================================================= */ static void f2s_array (const float *src, int count, short *dest, float scale) { while (--count >= 0) { dest [count] = lrintf (scale * src [count]) ; } ; } /* f2s_array */ static void f2s_clip_array (const float *src, int count, short *dest, float scale) { while (--count >= 0) { float tmp = scale * src [count] ; if (CPU_CLIPS_POSITIVE == 0 && tmp > 32767.0) dest [count] = SHRT_MAX ; else if (CPU_CLIPS_NEGATIVE == 0 && tmp < -32768.0) dest [count] = SHRT_MIN ; else dest [count] = lrintf (tmp) ; } ; } /* f2s_clip_array */ static inline void f2i_array (const float *src, int count, int *dest, float scale) { while (--count >= 0) { dest [count] = lrintf (scale * src [count]) ; } ; } /* f2i_array */ static inline void f2i_clip_array (const float *src, int count, int *dest, float scale) { while (--count >= 0) { float tmp = scale * src [count] ; if (CPU_CLIPS_POSITIVE == 0 && tmp > (1.0 * INT_MAX)) dest [count] = INT_MAX ; else if (CPU_CLIPS_NEGATIVE == 0 && tmp < (-1.0 * INT_MAX)) dest [count] = INT_MIN ; else dest [count] = lrintf (tmp) ; } ; } /* f2i_clip_array */ static inline void f2d_array (const float *src, int count, double *dest) { while (--count >= 0) { dest [count] = src [count] ; } ; } /* f2d_array */ static inline void s2f_array (const short *src, float *dest, int count, float scale) { while (--count >= 0) { dest [count] = scale * src [count] ; } ; } /* s2f_array */ static inline void i2f_array (const int *src, float *dest, int count, float scale) { while (--count >= 0) { dest [count] = scale * src [count] ; } ; } /* i2f_array */ static inline void d2f_array (const double *src, float *dest, int count) { while (--count >= 0) { dest [count] = src [count] ; } ; } /* d2f_array */ /*---------------------------------------------------------------------------------------------- */ static sf_count_t host_read_f2s (SF_PRIVATE *psf, short *ptr, sf_count_t len) { void (*convert) (const float *, int, short *, float) ; int bufferlen, readcount ; sf_count_t total = 0 ; float scale ; convert = (psf->add_clipping) ? f2s_clip_array : f2s_array ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; scale = (psf->float_int_mult == 0) ? 1.0 : 0x7FFF / psf->float_max ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; readcount = psf_fread (psf->u.fbuf, sizeof (float), bufferlen, psf) ; /* Fix me : Need lef2s_array */ if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; convert (psf->u.fbuf, readcount, ptr + total, scale) ; total += readcount ; if (readcount < bufferlen) break ; len -= readcount ; } ; return total ; } /* host_read_f2s */ static sf_count_t host_read_f2i (SF_PRIVATE *psf, int *ptr, sf_count_t len) { void (*convert) (const float *, int, int *, float) ; int bufferlen, readcount ; sf_count_t total = 0 ; float scale ; convert = (psf->add_clipping) ? f2i_clip_array : f2i_array ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; scale = (psf->float_int_mult == 0) ? 1.0 : 0x7FFFFFFF / psf->float_max ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; readcount = psf_fread (psf->u.fbuf, sizeof (float), bufferlen, psf) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; convert (psf->u.fbuf, readcount, ptr + total, scale) ; total += readcount ; if (readcount < bufferlen) break ; len -= readcount ; } ; return total ; } /* host_read_f2i */ static sf_count_t host_read_f (SF_PRIVATE *psf, float *ptr, sf_count_t len) { int bufferlen, readcount ; sf_count_t total = 0 ; if (psf->data_endswap != SF_TRUE) return psf_fread (ptr, sizeof (float), len, psf) ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; readcount = psf_fread (psf->u.fbuf, sizeof (float), bufferlen, psf) ; endswap_int_copy ((int*) (ptr + total), psf->u.ibuf, readcount) ; total += readcount ; if (readcount < bufferlen) break ; len -= readcount ; } ; return total ; } /* host_read_f */ static sf_count_t host_read_f2d (SF_PRIVATE *psf, double *ptr, sf_count_t len) { int bufferlen, readcount ; sf_count_t total = 0 ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; readcount = psf_fread (psf->u.fbuf, sizeof (float), bufferlen, psf) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; /* Fix me : Need lef2d_array */ f2d_array (psf->u.fbuf, readcount, ptr + total) ; total += readcount ; if (readcount < bufferlen) break ; len -= readcount ; } ; return total ; } /* host_read_f2d */ static sf_count_t host_write_s2f (SF_PRIVATE *psf, const short *ptr, sf_count_t len) { int bufferlen, writecount ; sf_count_t total = 0 ; float scale ; /* Erik */ scale = (psf->scale_int_float == 0) ? 1.0 : 1.0 / 0x8000 ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; s2f_array (ptr + total, psf->u.fbuf, bufferlen, scale) ; if (psf->peak_info) float32_peak_update (psf, psf->u.fbuf, bufferlen, total / psf->sf.channels) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; writecount = psf_fwrite (psf->u.fbuf, sizeof (float), bufferlen, psf) ; total += writecount ; if (writecount < bufferlen) break ; len -= writecount ; } ; return total ; } /* host_write_s2f */ static sf_count_t host_write_i2f (SF_PRIVATE *psf, const int *ptr, sf_count_t len) { int bufferlen, writecount ; sf_count_t total = 0 ; float scale ; scale = (psf->scale_int_float == 0) ? 1.0 : 1.0 / (8.0 * 0x10000000) ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; i2f_array (ptr + total, psf->u.fbuf, bufferlen, scale) ; if (psf->peak_info) float32_peak_update (psf, psf->u.fbuf, bufferlen, total / psf->sf.channels) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; writecount = psf_fwrite (psf->u.fbuf, sizeof (float) , bufferlen, psf) ; total += writecount ; if (writecount < bufferlen) break ; len -= writecount ; } ; return total ; } /* host_write_i2f */ static sf_count_t host_write_f (SF_PRIVATE *psf, const float *ptr, sf_count_t len) { int bufferlen, writecount ; sf_count_t total = 0 ; if (psf->peak_info) float32_peak_update (psf, ptr, len, 0) ; if (psf->data_endswap != SF_TRUE) return psf_fwrite (ptr, sizeof (float), len, psf) ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; endswap_int_copy (psf->u.ibuf, (const int*) (ptr + total), bufferlen) ; writecount = psf_fwrite (psf->u.fbuf, sizeof (float), bufferlen, psf) ; total += writecount ; if (writecount < bufferlen) break ; len -= writecount ; } ; return total ; } /* host_write_f */ static sf_count_t host_write_d2f (SF_PRIVATE *psf, const double *ptr, sf_count_t len) { int bufferlen, writecount ; sf_count_t total = 0 ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; d2f_array (ptr + total, psf->u.fbuf, bufferlen) ; if (psf->peak_info) float32_peak_update (psf, psf->u.fbuf, bufferlen, total / psf->sf.channels) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; writecount = psf_fwrite (psf->u.fbuf, sizeof (float), bufferlen, psf) ; total += writecount ; if (writecount < bufferlen) break ; len -= writecount ; } ; return total ; } /* host_write_d2f */ /*======================================================================================= */ static sf_count_t replace_read_f2s (SF_PRIVATE *psf, short *ptr, sf_count_t len) { int bufferlen, readcount ; sf_count_t total = 0 ; float scale ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; scale = (psf->float_int_mult == 0) ? 1.0 : 0x7FFF / psf->float_max ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; readcount = psf_fread (psf->u.fbuf, sizeof (float), bufferlen, psf) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; bf2f_array (psf->u.fbuf, bufferlen) ; f2s_array (psf->u.fbuf, readcount, ptr + total, scale) ; total += readcount ; if (readcount < bufferlen) break ; len -= readcount ; } ; return total ; } /* replace_read_f2s */ static sf_count_t replace_read_f2i (SF_PRIVATE *psf, int *ptr, sf_count_t len) { int bufferlen, readcount ; sf_count_t total = 0 ; float scale ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; scale = (psf->float_int_mult == 0) ? 1.0 : 0x7FFF / psf->float_max ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; readcount = psf_fread (psf->u.fbuf, sizeof (float), bufferlen, psf) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; bf2f_array (psf->u.fbuf, bufferlen) ; f2i_array (psf->u.fbuf, readcount, ptr + total, scale) ; total += readcount ; if (readcount < bufferlen) break ; len -= readcount ; } ; return total ; } /* replace_read_f2i */ static sf_count_t replace_read_f (SF_PRIVATE *psf, float *ptr, sf_count_t len) { int bufferlen, readcount ; sf_count_t total = 0 ; /* FIX THIS */ bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; readcount = psf_fread (psf->u.fbuf, sizeof (float), bufferlen, psf) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; bf2f_array (psf->u.fbuf, bufferlen) ; memcpy (ptr + total, psf->u.fbuf, bufferlen * sizeof (float)) ; total += readcount ; if (readcount < bufferlen) break ; len -= readcount ; } ; return total ; } /* replace_read_f */ static sf_count_t replace_read_f2d (SF_PRIVATE *psf, double *ptr, sf_count_t len) { int bufferlen, readcount ; sf_count_t total = 0 ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; readcount = psf_fread (psf->u.fbuf, sizeof (float), bufferlen, psf) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; bf2f_array (psf->u.fbuf, bufferlen) ; f2d_array (psf->u.fbuf, readcount, ptr + total) ; total += readcount ; if (readcount < bufferlen) break ; len -= readcount ; } ; return total ; } /* replace_read_f2d */ static sf_count_t replace_write_s2f (SF_PRIVATE *psf, const short *ptr, sf_count_t len) { int bufferlen, writecount ; sf_count_t total = 0 ; float scale ; scale = (psf->scale_int_float == 0) ? 1.0 : 1.0 / 0x8000 ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; s2f_array (ptr + total, psf->u.fbuf, bufferlen, scale) ; if (psf->peak_info) float32_peak_update (psf, psf->u.fbuf, bufferlen, total / psf->sf.channels) ; f2bf_array (psf->u.fbuf, bufferlen) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; writecount = psf_fwrite (psf->u.fbuf, sizeof (float), bufferlen, psf) ; total += writecount ; if (writecount < bufferlen) break ; len -= writecount ; } ; return total ; } /* replace_write_s2f */ static sf_count_t replace_write_i2f (SF_PRIVATE *psf, const int *ptr, sf_count_t len) { int bufferlen, writecount ; sf_count_t total = 0 ; float scale ; scale = (psf->scale_int_float == 0) ? 1.0 : 1.0 / (8.0 * 0x10000000) ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; i2f_array (ptr + total, psf->u.fbuf, bufferlen, scale) ; if (psf->peak_info) float32_peak_update (psf, psf->u.fbuf, bufferlen, total / psf->sf.channels) ; f2bf_array (psf->u.fbuf, bufferlen) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; writecount = psf_fwrite (psf->u.fbuf, sizeof (float), bufferlen, psf) ; total += writecount ; if (writecount < bufferlen) break ; len -= writecount ; } ; return total ; } /* replace_write_i2f */ static sf_count_t replace_write_f (SF_PRIVATE *psf, const float *ptr, sf_count_t len) { int bufferlen, writecount ; sf_count_t total = 0 ; /* FIX THIS */ if (psf->peak_info) float32_peak_update (psf, ptr, len, 0) ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; memcpy (psf->u.fbuf, ptr + total, bufferlen * sizeof (float)) ; f2bf_array (psf->u.fbuf, bufferlen) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; writecount = psf_fwrite (psf->u.fbuf, sizeof (float) , bufferlen, psf) ; total += writecount ; if (writecount < bufferlen) break ; len -= writecount ; } ; return total ; } /* replace_write_f */ static sf_count_t replace_write_d2f (SF_PRIVATE *psf, const double *ptr, sf_count_t len) { int bufferlen, writecount ; sf_count_t total = 0 ; bufferlen = ARRAY_LEN (psf->u.fbuf) ; while (len > 0) { if (len < bufferlen) bufferlen = (int) len ; d2f_array (ptr + total, psf->u.fbuf, bufferlen) ; if (psf->peak_info) float32_peak_update (psf, psf->u.fbuf, bufferlen, total / psf->sf.channels) ; f2bf_array (psf->u.fbuf, bufferlen) ; if (psf->data_endswap == SF_TRUE) endswap_int_array (psf->u.ibuf, bufferlen) ; writecount = psf_fwrite (psf->u.fbuf, sizeof (float), bufferlen, psf) ; total += writecount ; if (writecount < bufferlen) break ; len -= writecount ; } ; return total ; } /* replace_write_d2f */ /*---------------------------------------------------------------------------------------------- */ static void bf2f_array (float *buffer, int count) { while (--count >= 0) { buffer [count] = FLOAT32_READ ((unsigned char *) (buffer + count)) ; } ; } /* bf2f_array */ static void f2bf_array (float *buffer, int count) { while (--count >= 0) { FLOAT32_WRITE (buffer [count], (unsigned char*) (buffer + count)) ; } ; } /* f2bf_array */