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ad68f71d9a
This fixes thread-safety issues and various other minor issues. Our previous version was about 13 years old. Fixes https://gitlab.freedesktop.org/gstreamer/gst-plugins-base/issues/715
173 lines
5.1 KiB
C
173 lines
5.1 KiB
C
/*
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* Copyright (c) 2003-2010, Mark Borgerding. All rights reserved.
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* This file is part of KISS FFT - https://github.com/mborgerding/kissfft
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*
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* SPDX-License-Identifier: BSD-3-Clause
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* See COPYING file for more information.
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*/
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/* kiss_fft_f64.h
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defines kiss_fft_f64_scalar as either short or a float type
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and defines
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typedef struct { kiss_fft_f64_scalar r; kiss_fft_f64_scalar i; }kiss_fft_f64_cpx; */
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#include "kiss_fft_f64.h"
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#include <limits.h>
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/* The 2*sizeof(size_t) alignment here is borrowed from
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* GNU libc, so it should be good most everywhere.
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* It is more conservative than is needed on some 64-bit
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* platforms, but ia64 does require a 16-byte alignment.
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* The SIMD extensions for x86 and ppc32 would want a
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* larger alignment than this, but we don't need to
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* do better than malloc.
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*
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* Borrowed from GLib's gobject/gtype.c
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*/
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#define STRUCT_ALIGNMENT (2 * sizeof (size_t))
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#define ALIGN_STRUCT(offset) \
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((offset + (STRUCT_ALIGNMENT - 1)) & -STRUCT_ALIGNMENT)
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#define MAXFACTORS 32
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/* e.g. an fft of length 128 has 4 factors
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as far as kissfft is concerned
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4*4*4*2
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*/
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struct kiss_fft_f64_state{
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int nfft;
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int inverse;
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int factors[2*MAXFACTORS];
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kiss_fft_f64_cpx twiddles[1];
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};
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/*
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Explanation of macros dealing with complex math:
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C_MUL(m,a,b) : m = a*b
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C_FIXDIV( c , div ) : if a fixed point impl., c /= div. noop otherwise
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C_SUB( res, a,b) : res = a - b
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C_SUBFROM( res , a) : res -= a
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C_ADDTO( res , a) : res += a
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* */
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#ifdef FIXED_POINT
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#include <stdint.h>
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#if (FIXED_POINT==32)
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# define FRACBITS 31
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# define SAMPPROD int64_t
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#define SAMP_MAX INT32_MAX
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#define SAMP_MIN INT32_MIN
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#else
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# define FRACBITS 15
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# define SAMPPROD int32_t
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#define SAMP_MAX INT16_MAX
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#define SAMP_MIN INT16_MIN
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#endif
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#if defined(CHECK_OVERFLOW)
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# define CHECK_OVERFLOW_OP(a,op,b) \
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if ( (SAMPPROD)(a) op (SAMPPROD)(b) > SAMP_MAX || (SAMPPROD)(a) op (SAMPPROD)(b) < SAMP_MIN ) { \
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g_critical("overflow @ " __FILE__ "(%d): (%d " #op" %d) = %ld",__LINE__,(a),(b),(SAMPPROD)(a) op (SAMPPROD)(b) ); }
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#endif
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# define smul(a,b) ( (SAMPPROD)(a)*(b) )
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# define sround( x ) (kiss_fft_f64_scalar)( ( (x) + (1<<(FRACBITS-1)) ) >> FRACBITS )
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# define S_MUL(a,b) sround( smul(a,b) )
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# define C_MUL(m,a,b) \
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do{ (m).r = sround( smul((a).r,(b).r) - smul((a).i,(b).i) ); \
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(m).i = sround( smul((a).r,(b).i) + smul((a).i,(b).r) ); }while(0)
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# define DIVSCALAR(x,k) \
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(x) = sround( smul( x, SAMP_MAX/k ) )
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# define C_FIXDIV(c,div) \
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do { DIVSCALAR( (c).r , div); \
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DIVSCALAR( (c).i , div); }while (0)
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# define C_MULBYSCALAR( c, s ) \
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do{ (c).r = sround( smul( (c).r , s ) ) ;\
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(c).i = sround( smul( (c).i , s ) ) ; }while(0)
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#else /* not FIXED_POINT*/
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# define S_MUL(a,b) ( (a)*(b) )
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#define C_MUL(m,a,b) \
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do{ (m).r = (a).r*(b).r - (a).i*(b).i;\
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(m).i = (a).r*(b).i + (a).i*(b).r; }while(0)
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# define C_FIXDIV(c,div) /* NOOP */
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# define C_MULBYSCALAR( c, s ) \
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do{ (c).r *= (s);\
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(c).i *= (s); }while(0)
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#endif
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#ifndef CHECK_OVERFLOW_OP
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# define CHECK_OVERFLOW_OP(a,op,b) /* noop */
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#endif
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#define C_ADD( res, a,b)\
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do { \
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CHECK_OVERFLOW_OP((a).r,+,(b).r)\
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CHECK_OVERFLOW_OP((a).i,+,(b).i)\
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(res).r=(a).r+(b).r; (res).i=(a).i+(b).i; \
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}while(0)
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#define C_SUB( res, a,b)\
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do { \
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CHECK_OVERFLOW_OP((a).r,-,(b).r)\
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CHECK_OVERFLOW_OP((a).i,-,(b).i)\
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(res).r=(a).r-(b).r; (res).i=(a).i-(b).i; \
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}while(0)
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#define C_ADDTO( res , a)\
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do { \
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CHECK_OVERFLOW_OP((res).r,+,(a).r)\
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CHECK_OVERFLOW_OP((res).i,+,(a).i)\
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(res).r += (a).r; (res).i += (a).i;\
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}while(0)
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#define C_SUBFROM( res , a)\
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do {\
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CHECK_OVERFLOW_OP((res).r,-,(a).r)\
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CHECK_OVERFLOW_OP((res).i,-,(a).i)\
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(res).r -= (a).r; (res).i -= (a).i; \
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}while(0)
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#ifdef FIXED_POINT
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# define KISS_FFT_F64_COS(phase) floor(.5+SAMP_MAX * cos (phase))
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# define KISS_FFT_F64_SIN(phase) floor(.5+SAMP_MAX * sin (phase))
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# define HALF_OF(x) ((x)>>1)
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#elif defined(USE_SIMD)
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# define KISS_FFT_F64_COS(phase) _mm_set1_ps( cos(phase) )
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# define KISS_FFT_F64_SIN(phase) _mm_set1_ps( sin(phase) )
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# define HALF_OF(x) ((x)*_mm_set1_ps(.5))
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#else
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# define KISS_FFT_F64_COS(phase) (kiss_fft_f64_scalar) cos(phase)
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# define KISS_FFT_F64_SIN(phase) (kiss_fft_f64_scalar) sin(phase)
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# define HALF_OF(x) ((x)*.5)
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#endif
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#define kf_cexp(x,phase) \
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do{ \
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(x)->r = KISS_FFT_F64_COS(phase);\
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(x)->i = KISS_FFT_F64_SIN(phase);\
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}while(0)
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/* a debugging function */
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#define pcpx(c)\
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fprintf(stderr,"%g + %gi\n",(double)((c)->r),(double)((c)->i) )
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#ifdef KISS_FFT_F64_USE_ALLOCA
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// define this to allow use of alloca instead of malloc for temporary buffers
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// Temporary buffers are used in two case:
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// 1. FFT sizes that have "bad" factors. i.e. not 2,3 and 5
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// 2. "in-place" FFTs. Notice the quotes, since kissfft does not really do an in-place transform.
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#include <alloca.h>
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#define KISS_FFT_F64_TMP_ALLOC(nbytes) alloca(nbytes)
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#define KISS_FFT_F64_TMP_FREE(ptr)
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#else
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#define KISS_FFT_F64_TMP_ALLOC(nbytes) KISS_FFT_F64_MALLOC(nbytes)
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#define KISS_FFT_F64_TMP_FREE(ptr) KISS_FFT_F64_FREE(ptr)
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#endif
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