in lib/cmsis/CMSIS/DSP_Lib/Source/TransformFunctions/arm_cfft_radix4_f32.c [44:559]
extern void arm_bitreversal_f32(
float32_t * pSrc,
uint16_t fftSize,
uint16_t bitRevFactor,
uint16_t * pBitRevTab);
/**
* @ingroup groupTransforms
*/
/* ----------------------------------------------------------------------
** Internal helper function used by the FFTs
** ------------------------------------------------------------------- */
/*
* @brief Core function for the floating-point CFFT butterfly process.
* @param[in, out] *pSrc points to the in-place buffer of floating-point data type.
* @param[in] fftLen length of the FFT.
* @param[in] *pCoef points to the twiddle coefficient buffer.
* @param[in] twidCoefModifier twiddle coefficient modifier that supports different size FFTs with the same twiddle factor table.
* @return none.
*/
void arm_radix4_butterfly_f32(
float32_t * pSrc,
uint16_t fftLen,
float32_t * pCoef,
uint16_t twidCoefModifier)
{
float32_t co1, co2, co3, si1, si2, si3;
uint32_t ia1, ia2, ia3;
uint32_t i0, i1, i2, i3;
uint32_t n1, n2, j, k;
#ifndef ARM_MATH_CM0_FAMILY_FAMILY
/* Run the below code for Cortex-M4 and Cortex-M3 */
float32_t xaIn, yaIn, xbIn, ybIn, xcIn, ycIn, xdIn, ydIn;
float32_t Xaplusc, Xbplusd, Yaplusc, Ybplusd, Xaminusc, Xbminusd, Yaminusc,
Ybminusd;
float32_t Xb12C_out, Yb12C_out, Xc12C_out, Yc12C_out, Xd12C_out, Yd12C_out;
float32_t Xb12_out, Yb12_out, Xc12_out, Yc12_out, Xd12_out, Yd12_out;
float32_t *ptr1;
float32_t p0,p1,p2,p3,p4,p5;
float32_t a0,a1,a2,a3,a4,a5,a6,a7;
/* Initializations for the first stage */
n2 = fftLen;
n1 = n2;
/* n2 = fftLen/4 */
n2 >>= 2u;
i0 = 0u;
ia1 = 0u;
j = n2;
/* Calculation of first stage */
do
{
/* index calculation for the input as, */
/* pSrc[i0 + 0], pSrc[i0 + fftLen/4], pSrc[i0 + fftLen/2], pSrc[i0 + 3fftLen/4] */
i1 = i0 + n2;
i2 = i1 + n2;
i3 = i2 + n2;
xaIn = pSrc[(2u * i0)];
yaIn = pSrc[(2u * i0) + 1u];
xbIn = pSrc[(2u * i1)];
ybIn = pSrc[(2u * i1) + 1u];
xcIn = pSrc[(2u * i2)];
ycIn = pSrc[(2u * i2) + 1u];
xdIn = pSrc[(2u * i3)];
ydIn = pSrc[(2u * i3) + 1u];
/* xa + xc */
Xaplusc = xaIn + xcIn;
/* xb + xd */
Xbplusd = xbIn + xdIn;
/* ya + yc */
Yaplusc = yaIn + ycIn;
/* yb + yd */
Ybplusd = ybIn + ydIn;
/* index calculation for the coefficients */
ia2 = ia1 + ia1;
co2 = pCoef[ia2 * 2u];
si2 = pCoef[(ia2 * 2u) + 1u];
/* xa - xc */
Xaminusc = xaIn - xcIn;
/* xb - xd */
Xbminusd = xbIn - xdIn;
/* ya - yc */
Yaminusc = yaIn - ycIn;
/* yb - yd */
Ybminusd = ybIn - ydIn;
/* xa' = xa + xb + xc + xd */
pSrc[(2u * i0)] = Xaplusc + Xbplusd;
/* ya' = ya + yb + yc + yd */
pSrc[(2u * i0) + 1u] = Yaplusc + Ybplusd;
/* (xa - xc) + (yb - yd) */
Xb12C_out = (Xaminusc + Ybminusd);
/* (ya - yc) + (xb - xd) */
Yb12C_out = (Yaminusc - Xbminusd);
/* (xa + xc) - (xb + xd) */
Xc12C_out = (Xaplusc - Xbplusd);
/* (ya + yc) - (yb + yd) */
Yc12C_out = (Yaplusc - Ybplusd);
/* (xa - xc) - (yb - yd) */
Xd12C_out = (Xaminusc - Ybminusd);
/* (ya - yc) + (xb - xd) */
Yd12C_out = (Xbminusd + Yaminusc);
co1 = pCoef[ia1 * 2u];
si1 = pCoef[(ia1 * 2u) + 1u];
/* index calculation for the coefficients */
ia3 = ia2 + ia1;
co3 = pCoef[ia3 * 2u];
si3 = pCoef[(ia3 * 2u) + 1u];
Xb12_out = Xb12C_out * co1;
Yb12_out = Yb12C_out * co1;
Xc12_out = Xc12C_out * co2;
Yc12_out = Yc12C_out * co2;
Xd12_out = Xd12C_out * co3;
Yd12_out = Yd12C_out * co3;
/* xb' = (xa+yb-xc-yd)co1 - (ya-xb-yc+xd)(si1) */
//Xb12_out -= Yb12C_out * si1;
p0 = Yb12C_out * si1;
/* yb' = (ya-xb-yc+xd)co1 + (xa+yb-xc-yd)(si1) */
//Yb12_out += Xb12C_out * si1;
p1 = Xb12C_out * si1;
/* xc' = (xa-xb+xc-xd)co2 - (ya-yb+yc-yd)(si2) */
//Xc12_out -= Yc12C_out * si2;
p2 = Yc12C_out * si2;
/* yc' = (ya-yb+yc-yd)co2 + (xa-xb+xc-xd)(si2) */
//Yc12_out += Xc12C_out * si2;
p3 = Xc12C_out * si2;
/* xd' = (xa-yb-xc+yd)co3 - (ya+xb-yc-xd)(si3) */
//Xd12_out -= Yd12C_out * si3;
p4 = Yd12C_out * si3;
/* yd' = (ya+xb-yc-xd)co3 + (xa-yb-xc+yd)(si3) */
//Yd12_out += Xd12C_out * si3;
p5 = Xd12C_out * si3;
Xb12_out += p0;
Yb12_out -= p1;
Xc12_out += p2;
Yc12_out -= p3;
Xd12_out += p4;
Yd12_out -= p5;
/* xc' = (xa-xb+xc-xd)co2 + (ya-yb+yc-yd)(si2) */
pSrc[2u * i1] = Xc12_out;
/* yc' = (ya-yb+yc-yd)co2 - (xa-xb+xc-xd)(si2) */
pSrc[(2u * i1) + 1u] = Yc12_out;
/* xb' = (xa+yb-xc-yd)co1 + (ya-xb-yc+xd)(si1) */
pSrc[2u * i2] = Xb12_out;
/* yb' = (ya-xb-yc+xd)co1 - (xa+yb-xc-yd)(si1) */
pSrc[(2u * i2) + 1u] = Yb12_out;
/* xd' = (xa-yb-xc+yd)co3 + (ya+xb-yc-xd)(si3) */
pSrc[2u * i3] = Xd12_out;
/* yd' = (ya+xb-yc-xd)co3 - (xa-yb-xc+yd)(si3) */
pSrc[(2u * i3) + 1u] = Yd12_out;
/* Twiddle coefficients index modifier */
ia1 += twidCoefModifier;
/* Updating input index */
i0++;
}
while(--j);
twidCoefModifier <<= 2u;
/* Calculation of second stage to excluding last stage */
for (k = fftLen >> 2u; k > 4u; k >>= 2u)
{
/* Initializations for the first stage */
n1 = n2;
n2 >>= 2u;
ia1 = 0u;
/* Calculation of first stage */
j = 0;
do
{
/* index calculation for the coefficients */
ia2 = ia1 + ia1;
ia3 = ia2 + ia1;
co1 = pCoef[ia1 * 2u];
si1 = pCoef[(ia1 * 2u) + 1u];
co2 = pCoef[ia2 * 2u];
si2 = pCoef[(ia2 * 2u) + 1u];
co3 = pCoef[ia3 * 2u];
si3 = pCoef[(ia3 * 2u) + 1u];
/* Twiddle coefficients index modifier */
ia1 += twidCoefModifier;
i0 = j;
do
{
/* index calculation for the input as, */
/* pSrc[i0 + 0], pSrc[i0 + fftLen/4], pSrc[i0 + fftLen/2], pSrc[i0 + 3fftLen/4] */
i1 = i0 + n2;
i2 = i1 + n2;
i3 = i2 + n2;
xaIn = pSrc[(2u * i0)];
yaIn = pSrc[(2u * i0) + 1u];
xbIn = pSrc[(2u * i1)];
ybIn = pSrc[(2u * i1) + 1u];
xcIn = pSrc[(2u * i2)];
ycIn = pSrc[(2u * i2) + 1u];
xdIn = pSrc[(2u * i3)];
ydIn = pSrc[(2u * i3) + 1u];
/* xa - xc */
Xaminusc = xaIn - xcIn;
/* (xb - xd) */
Xbminusd = xbIn - xdIn;
/* ya - yc */
Yaminusc = yaIn - ycIn;
/* (yb - yd) */
Ybminusd = ybIn - ydIn;
/* xa + xc */
Xaplusc = xaIn + xcIn;
/* xb + xd */
Xbplusd = xbIn + xdIn;
/* ya + yc */
Yaplusc = yaIn + ycIn;
/* yb + yd */
Ybplusd = ybIn + ydIn;
/* (xa - xc) + (yb - yd) */
Xb12C_out = (Xaminusc + Ybminusd);
/* (ya - yc) - (xb - xd) */
Yb12C_out = (Yaminusc - Xbminusd);
/* xa + xc -(xb + xd) */
Xc12C_out = (Xaplusc - Xbplusd);
/* (ya + yc) - (yb + yd) */
Yc12C_out = (Yaplusc - Ybplusd);
/* (xa - xc) - (yb - yd) */
Xd12C_out = (Xaminusc - Ybminusd);
/* (ya - yc) + (xb - xd) */
Yd12C_out = (Xbminusd + Yaminusc);
pSrc[(2u * i0)] = Xaplusc + Xbplusd;
pSrc[(2u * i0) + 1u] = Yaplusc + Ybplusd;
Xb12_out = Xb12C_out * co1;
Yb12_out = Yb12C_out * co1;
Xc12_out = Xc12C_out * co2;
Yc12_out = Yc12C_out * co2;
Xd12_out = Xd12C_out * co3;
Yd12_out = Yd12C_out * co3;
/* xb' = (xa+yb-xc-yd)co1 - (ya-xb-yc+xd)(si1) */
//Xb12_out -= Yb12C_out * si1;
p0 = Yb12C_out * si1;
/* yb' = (ya-xb-yc+xd)co1 + (xa+yb-xc-yd)(si1) */
//Yb12_out += Xb12C_out * si1;
p1 = Xb12C_out * si1;
/* xc' = (xa-xb+xc-xd)co2 - (ya-yb+yc-yd)(si2) */
//Xc12_out -= Yc12C_out * si2;
p2 = Yc12C_out * si2;
/* yc' = (ya-yb+yc-yd)co2 + (xa-xb+xc-xd)(si2) */
//Yc12_out += Xc12C_out * si2;
p3 = Xc12C_out * si2;
/* xd' = (xa-yb-xc+yd)co3 - (ya+xb-yc-xd)(si3) */
//Xd12_out -= Yd12C_out * si3;
p4 = Yd12C_out * si3;
/* yd' = (ya+xb-yc-xd)co3 + (xa-yb-xc+yd)(si3) */
//Yd12_out += Xd12C_out * si3;
p5 = Xd12C_out * si3;
Xb12_out += p0;
Yb12_out -= p1;
Xc12_out += p2;
Yc12_out -= p3;
Xd12_out += p4;
Yd12_out -= p5;
/* xc' = (xa-xb+xc-xd)co2 + (ya-yb+yc-yd)(si2) */
pSrc[2u * i1] = Xc12_out;
/* yc' = (ya-yb+yc-yd)co2 - (xa-xb+xc-xd)(si2) */
pSrc[(2u * i1) + 1u] = Yc12_out;
/* xb' = (xa+yb-xc-yd)co1 + (ya-xb-yc+xd)(si1) */
pSrc[2u * i2] = Xb12_out;
/* yb' = (ya-xb-yc+xd)co1 - (xa+yb-xc-yd)(si1) */
pSrc[(2u * i2) + 1u] = Yb12_out;
/* xd' = (xa-yb-xc+yd)co3 + (ya+xb-yc-xd)(si3) */
pSrc[2u * i3] = Xd12_out;
/* yd' = (ya+xb-yc-xd)co3 - (xa-yb-xc+yd)(si3) */
pSrc[(2u * i3) + 1u] = Yd12_out;
i0 += n1;
} while(i0 < fftLen);
j++;
} while(j <= (n2 - 1u));
twidCoefModifier <<= 2u;
}
j = fftLen >> 2;
ptr1 = &pSrc[0];
/* Calculations of last stage */
do
{
xaIn = ptr1[0];
yaIn = ptr1[1];
xbIn = ptr1[2];
ybIn = ptr1[3];
xcIn = ptr1[4];
ycIn = ptr1[5];
xdIn = ptr1[6];
ydIn = ptr1[7];
/* xa + xc */
Xaplusc = xaIn + xcIn;
/* xa - xc */
Xaminusc = xaIn - xcIn;
/* ya + yc */
Yaplusc = yaIn + ycIn;
/* ya - yc */
Yaminusc = yaIn - ycIn;
/* xb + xd */
Xbplusd = xbIn + xdIn;
/* yb + yd */
Ybplusd = ybIn + ydIn;
/* (xb-xd) */
Xbminusd = xbIn - xdIn;
/* (yb-yd) */
Ybminusd = ybIn - ydIn;
/* xa' = xa + xb + xc + xd */
a0 = (Xaplusc + Xbplusd);
/* ya' = ya + yb + yc + yd */
a1 = (Yaplusc + Ybplusd);
/* xc' = (xa-xb+xc-xd) */
a2 = (Xaplusc - Xbplusd);
/* yc' = (ya-yb+yc-yd) */
a3 = (Yaplusc - Ybplusd);
/* xb' = (xa+yb-xc-yd) */
a4 = (Xaminusc + Ybminusd);
/* yb' = (ya-xb-yc+xd) */
a5 = (Yaminusc - Xbminusd);
/* xd' = (xa-yb-xc+yd)) */
a6 = (Xaminusc - Ybminusd);
/* yd' = (ya+xb-yc-xd) */
a7 = (Xbminusd + Yaminusc);
ptr1[0] = a0;
ptr1[1] = a1;
ptr1[2] = a2;
ptr1[3] = a3;
ptr1[4] = a4;
ptr1[5] = a5;
ptr1[6] = a6;
ptr1[7] = a7;
/* increment pointer by 8 */
ptr1 += 8u;
} while(--j);
#else
float32_t t1, t2, r1, r2, s1, s2;
/* Run the below code for Cortex-M0 */
/* Initializations for the fft calculation */
n2 = fftLen;
n1 = n2;
for (k = fftLen; k > 1u; k >>= 2u)
{
/* Initializations for the fft calculation */
n1 = n2;
n2 >>= 2u;
ia1 = 0u;
/* FFT Calculation */
j = 0;
do
{
/* index calculation for the coefficients */
ia2 = ia1 + ia1;
ia3 = ia2 + ia1;
co1 = pCoef[ia1 * 2u];
si1 = pCoef[(ia1 * 2u) + 1u];
co2 = pCoef[ia2 * 2u];
si2 = pCoef[(ia2 * 2u) + 1u];
co3 = pCoef[ia3 * 2u];
si3 = pCoef[(ia3 * 2u) + 1u];
/* Twiddle coefficients index modifier */
ia1 = ia1 + twidCoefModifier;
i0 = j;
do
{
/* index calculation for the input as, */
/* pSrc[i0 + 0], pSrc[i0 + fftLen/4], pSrc[i0 + fftLen/2], pSrc[i0 + 3fftLen/4] */
i1 = i0 + n2;
i2 = i1 + n2;
i3 = i2 + n2;
/* xa + xc */
r1 = pSrc[(2u * i0)] + pSrc[(2u * i2)];
/* xa - xc */
r2 = pSrc[(2u * i0)] - pSrc[(2u * i2)];
/* ya + yc */
s1 = pSrc[(2u * i0) + 1u] + pSrc[(2u * i2) + 1u];
/* ya - yc */
s2 = pSrc[(2u * i0) + 1u] - pSrc[(2u * i2) + 1u];
/* xb + xd */
t1 = pSrc[2u * i1] + pSrc[2u * i3];
/* xa' = xa + xb + xc + xd */
pSrc[2u * i0] = r1 + t1;
/* xa + xc -(xb + xd) */
r1 = r1 - t1;
/* yb + yd */
t2 = pSrc[(2u * i1) + 1u] + pSrc[(2u * i3) + 1u];
/* ya' = ya + yb + yc + yd */
pSrc[(2u * i0) + 1u] = s1 + t2;
/* (ya + yc) - (yb + yd) */
s1 = s1 - t2;
/* (yb - yd) */
t1 = pSrc[(2u * i1) + 1u] - pSrc[(2u * i3) + 1u];
/* (xb - xd) */
t2 = pSrc[2u * i1] - pSrc[2u * i3];
/* xc' = (xa-xb+xc-xd)co2 + (ya-yb+yc-yd)(si2) */
pSrc[2u * i1] = (r1 * co2) + (s1 * si2);
/* yc' = (ya-yb+yc-yd)co2 - (xa-xb+xc-xd)(si2) */
pSrc[(2u * i1) + 1u] = (s1 * co2) - (r1 * si2);
/* (xa - xc) + (yb - yd) */
r1 = r2 + t1;
/* (xa - xc) - (yb - yd) */
r2 = r2 - t1;
/* (ya - yc) - (xb - xd) */
s1 = s2 - t2;
/* (ya - yc) + (xb - xd) */
s2 = s2 + t2;
/* xb' = (xa+yb-xc-yd)co1 + (ya-xb-yc+xd)(si1) */
pSrc[2u * i2] = (r1 * co1) + (s1 * si1);
/* yb' = (ya-xb-yc+xd)co1 - (xa+yb-xc-yd)(si1) */
pSrc[(2u * i2) + 1u] = (s1 * co1) - (r1 * si1);
/* xd' = (xa-yb-xc+yd)co3 + (ya+xb-yc-xd)(si3) */
pSrc[2u * i3] = (r2 * co3) + (s2 * si3);
/* yd' = (ya+xb-yc-xd)co3 - (xa-yb-xc+yd)(si3) */
pSrc[(2u * i3) + 1u] = (s2 * co3) - (r2 * si3);
i0 += n1;
} while( i0 < fftLen);
j++;
} while(j <= (n2 - 1u));
twidCoefModifier <<= 2u;
}
#endif /* #ifndef ARM_MATH_CM0_FAMILY_FAMILY */
}