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sdrangel/plugins/channelrx/demoddatv/leansdr/softword.h

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#ifndef LEANSDR_SOFTWORD_H
#define LEANSDR_SOFTWORD_H
namespace leansdr
{
// This file implements options for SOFTBYTE in s2_frame_receiver
// (representation of bytes after deinterleaving).
// Also used as SOFTWORD in ldpc_engine
// (representation of packed SOFTBITs).
// Interface for ldpc_engine:
// SOFTBIT softword_get(const SOFTWORD &p, int b)
// SOFTBIT softwords_xor(const SOFTWORD p1[], const SOFTWORD p2[], int b)
// void softword_zero(SOFTWORD *p, int b)
// void softwords_set(SOFTWORD p[], int b)
// void softwords_flip(SOFTWORD p[], int b)
// HARD SOFTWORD / SOFTBYTE
typedef uint8_t hard_sb; // Bit 7 is transmitted first.
inline bool softword_get(const hard_sb &p, int b)
{
return p & (1 << (7 - b));
}
inline void softword_set(hard_sb *p, int b, bool v)
{
hard_sb mask = 1 << (7 - b);
*p = ((*p) & ~mask) | (v << (7 - b));
}
inline void softword_clear(hard_sb *p) { *p = 0; }
inline bool softword_weight(const bool &l)
{
return true;
}
inline void softbit_set(bool *p, bool v) { *p = v; }
inline bool softbit_harden(bool b) { return b; }
inline uint8_t softbyte_harden(const hard_sb &b) { return b; }
inline bool softbit_xor(bool x, bool y) { return x ^ y; }
inline void softbit_clear(bool *p) { *p = false; }
inline bool softwords_xor(const hard_sb p1[], const hard_sb p2[], int b)
{
return (p1[b / 8] ^ p2[b / 8]) & (1 << (7 - (b & 7)));
}
inline void softword_zero(hard_sb *p)
{
*p = 0;
}
inline void softwords_set(hard_sb p[], int b)
{
p[b / 8] |= 1 << (7 - (b & 7));
}
inline void softword_write(hard_sb &p, int b, bool v)
{
hard_sb mask = 1 << (7 - b);
p = (p & ~mask) | (hard_sb)v << (7 - b);
}
inline void softwords_write(hard_sb p[], int b, bool v)
{
softword_write(p[b / 8], b & 7, v);
}
inline void softwords_flip(hard_sb p[], int b)
{
p[b / 8] ^= 1 << (7 - (b & 7));
}
uint8_t *softbytes_harden(hard_sb p[], int nbytes, uint8_t storage[])
{
return p;
}
// LLR SOFTWORD
struct llr_sb
{
llr_t bits[8]; // bits[0] is transmitted first.
};
float prob(llr_t l)
{
return (127.0 + l) / 254;
}
llr_t llr(float p)
{
int r = -127 + 254 * p;
if (r < -127)
r = -127;
if (r > 127)
r = 127;
return r;
}
inline llr_t llr_xor(llr_t lx, llr_t ly)
{
float px = prob(lx), py = prob(ly);
return llr(px * (1 - py) + (1 - px) * py);
}
inline llr_t softword_get(const llr_sb &p, int b)
{
return p.bits[b];
}
// Special case to avoid computing b/8*8+b%7. Assumes llr_sb[] packed.
inline llr_t softwords_get(const llr_sb p[], int b)
{
return p[0].bits[b]; // Beyond bounds on purpose
}
inline void softword_set(llr_sb *p, int b, llr_t v)
{
p->bits[b] = v;
}
inline void softword_clear(llr_sb *p)
{
memset(p->bits, 0, sizeof(p->bits));
}
// inline llr_t softwords_get(const llr_sb p[], int b) {
// return softword_get(p[b/8], b&7);
// }
inline llr_t softword_weight(llr_t l) { return abs(l); }
inline void softbit_set(llr_t *p, bool v) { *p = v ? -127 : 127; }
inline bool softbit_harden(llr_t l) { return (l < 0); }
inline uint8_t softbyte_harden(const llr_sb &b)
{
// Without conditional jumps
uint8_t r = (((b.bits[0] & 128) >> 0) |
((b.bits[1] & 128) >> 1) |
((b.bits[2] & 128) >> 2) |
((b.bits[3] & 128) >> 3) |
((b.bits[4] & 128) >> 4) |
((b.bits[5] & 128) >> 5) |
((b.bits[6] & 128) >> 6) |
((b.bits[7] & 128) >> 7));
return r;
}
inline llr_t softbit_xor(llr_t x, llr_t y) { return llr_xor(x, y); }
inline void softbit_clear(llr_t *p) { *p = -127; }
inline llr_t softwords_xor(const llr_sb p1[], const llr_sb p2[], int b)
{
return llr_xor(p1[b / 8].bits[b & 7], p2[b / 8].bits[b & 7]);
}
inline void softword_zero(llr_sb *p)
{
memset(p, -127, sizeof(*p));
}
inline void softwords_set(llr_sb p[], int b)
{
p[b / 8].bits[b & 7] = 127;
}
inline void softword_write(llr_sb &p, int b, llr_t v)
{
p.bits[b] = v;
}
inline void softwords_write(llr_sb p[], int b, llr_t v)
{
softword_write(p[b / 8], b & 7, v);
}
inline void softwords_flip(llr_sb p[], int b)
{
llr_t *l = &p[b / 8].bits[b & 7];
*l = -*l;
}
uint8_t *softbytes_harden(llr_sb p[], int nbytes, uint8_t storage[])
{
for (uint8_t *q = storage; nbytes--; ++p, ++q)
*q = softbyte_harden(*p);
return storage;
}
// Generic wrappers
template <typename SOFTBIT, typename SOFTBYTE>
inline SOFTBIT softwords_get(const SOFTBYTE p[], int b)
{
return softword_get(p[b / 8], b & 7);
}
template <typename SOFTBIT, typename SOFTBYTE>
inline void softwords_set(SOFTBYTE p[], int b, SOFTBIT v)
{
softword_set(&p[b / 8], b & 7, v);
}
template <typename SOFTBIT, typename SOFTBYTE>
inline SOFTBIT softwords_weight(const SOFTBYTE p[], int b)
{
return softword_weight(softwords_get<SOFTBIT, SOFTBYTE>(p, b));
}
} // namespace leansdr
#endif // LEANSDR_SOFTWORD_H