#include "CCordicRotate.hpp" #define uint2int(sz, in) ((in & (1U << sz)) == (1U << sz) \ ? static_cast(~in + 1) \ : static_cast(in)) template <> void CCordicRotate<8, 14, 4, 17, 5, 19, 7, 12>::process( const ap_fixed<14, 4> & fx_angle, const ap_fixed<17, 5> & fx_re_in, const ap_fixed<17, 5> & fx_im_in, ap_fixed<19, 7> & fx_re_out, ap_fixed<19, 7> & fx_im_out) { // constexpr uint64_t sign_mask_14 = 0x2000; // 0bxxx xx10 0000 0000 0000 // constexpr uint64_t sign_mask_17 = 0x10000; // 0bxx1 0000 0000 0000 0000 // constexpr uint64_t sign_mask_19 = 0x10000; // 0b100 0000 0000 0000 0000 const uint16_t angle_bits = fx_angle.bits_to_uint64(); const short angle = uint2int(14, angle_bits); const uint32_t re_in_bits = fx_re_in.bits_to_uint64(); const uint32_t im_in_bits = fx_im_in.bits_to_uint64(); const std::complex value(uint2int(17, re_in_bits), uint2int(17, im_in_bits)); int b_yn; int xn; int xtmp; int ytmp; short z; bool negate; if (angle > 1608) { if (((angle - 3217) & 8192) != 0) { z = static_cast((angle - 3217) | -8192); } else { z = static_cast((angle - 3217) & 8191); } if (z <= 1608) { negate = true; } else { if (((angle - 6434) & 8192) != 0) { z = static_cast((angle - 6434) | -8192); } else { z = static_cast((angle - 6434) & 8191); } negate = false; } } else if (angle < -1608) { if (((angle + 3217) & 8192) != 0) { z = static_cast((angle + 3217) | -8192); } else { z = static_cast((angle + 3217) & 8191); } if (z >= -1608) { negate = true; } else { if (((angle + 6434) & 8192) != 0) { z = static_cast((angle + 6434) | -8192); } else { z = static_cast((angle + 6434) & 8191); } negate = false; } } else { z = angle; negate = false; } z = static_cast(z << 2); if ((z & 8192) != 0) { z = static_cast(z | -8192); } else { z = static_cast(z & 8191); } xn = value.real(); b_yn = value.imag(); xtmp = value.real(); ytmp = value.imag(); for (int idx = 0; idx < 8; idx++) { if (z < 0) { z = static_cast(z + atanLUT.table[idx]); if ((z & 8192) != 0) { z = static_cast(z | -8192); } else { z = static_cast(z & 8191); } ytmp += xn; if ((ytmp & 262144) != 0) { xn = ytmp | -262144; } else { xn = ytmp & 262143; } ytmp = b_yn - xtmp; if ((ytmp & 262144) != 0) { b_yn = ytmp | -262144; } else { b_yn = ytmp & 262143; } } else { z = static_cast(z - atanLUT.table[idx]); if ((z & 8192) != 0) { z = static_cast(z | -8192); } else { z = static_cast(z & 8191); } ytmp = xn - ytmp; if ((ytmp & 262144) != 0) { xn = ytmp | -262144; } else { xn = ytmp & 262143; } ytmp = b_yn + xtmp; if ((ytmp & 262144) != 0) { b_yn = ytmp | -262144; } else { b_yn = ytmp & 262143; } } ytmp = xn >> (idx + 1); if ((ytmp & 262144) != 0) { xtmp = ytmp | -262144; } else { xtmp = ytmp & 262143; } ytmp = b_yn >> (idx + 1); if ((ytmp & 262144) != 0) { ytmp |= -262144; } else { ytmp &= 262143; } } if (negate) { if ((-xn & 262144) != 0) { xn = -xn | -262144; } else { xn = -xn & 262143; } if ((-b_yn & 262144) != 0) { b_yn = -b_yn | -262144; } else { b_yn = -b_yn & 262143; } } const int64_t i_xn = (xn * 39797L) >> 16; const int64_t i_b_yn = (b_yn * 39797L) >> 16; ap_fixed<19, 7> re, im; fx_re_out.V = *reinterpret_cast(&i_xn); fx_im_out.V = *reinterpret_cast(&i_b_yn); }