ref: af78782438bd3dfff481a105e3f86988105b992a
dir: /tangled/fmpair.c/
#include <math.h> #define SK_FMPAIR_PRIV #include "fmpair.h" #define SK_FMPAIR_MAXLEN 0x1000000L #define SK_FMPAIR_PHASEMASK 0x0FFFFFFL void sk_fmpair_init(sk_fmpair *fmp, int sr, SKFLT *ctab, int csz, SKFLT ciphs, SKFLT *mtab, int msz, SKFLT miphs) { fmp->ctab = ctab; fmp->csz = msz; fmp->mtab = mtab; fmp->msz = msz; fmp->clphs = floor(ciphs * SK_FMPAIR_MAXLEN); fmp->mlphs = floor(miphs * SK_FMPAIR_MAXLEN); { int tmp; /* carrier */ tmp = SK_FMPAIR_MAXLEN / csz; fmp->cnlb = 0; while (tmp >>= 1) fmp->cnlb++; /* modulator */ tmp = SK_FMPAIR_MAXLEN / msz; fmp->mnlb = 0; while (tmp >>= 1) fmp->mnlb++; } /* phase mask for dividing lower/upper bits */ fmp->cmask = (1<<fmp->cnlb) - 1; fmp->mmask = (1<<fmp->mnlb) - 1; /* constant used to convert to floating point */ fmp->cinlb = 1.0 / (1<<fmp->cnlb); fmp->minlb = 1.0 / (1<<fmp->mnlb); /* max table length in seconds */ /* used to convert cycles-per-second units to cycles */ fmp->maxlens = 1.0 * SK_FMPAIR_MAXLEN / sr; sk_fmpair_freq(fmp, 440); sk_fmpair_carrier(fmp, 1); sk_fmpair_modulator(fmp, 1); sk_fmpair_modindex(fmp, 1); } void sk_fmpair_freq(sk_fmpair *fmp, SKFLT freq) { fmp->freq = freq; } void sk_fmpair_modulator(sk_fmpair *fmp, SKFLT mod) { fmp->mod = mod; } void sk_fmpair_carrier(sk_fmpair *fmp, SKFLT car) { fmp->car = car; } void sk_fmpair_modindex(sk_fmpair *fmp, SKFLT index) { fmp->index = index; } SKFLT sk_fmpair_tick(sk_fmpair *fmp) { SKFLT out; SKFLT cfreq, mfreq; SKFLT modout; int ipos; SKFLT frac; SKFLT x[2]; cfreq = fmp->freq * fmp->car; mfreq = fmp->freq * fmp->mod; fmp->mlphs &= SK_FMPAIR_PHASEMASK; ipos = fmp->mlphs >> fmp->mnlb; x[0] = fmp->mtab[ipos]; if (ipos == fmp->msz - 1) { x[1] = fmp->mtab[0]; } else { x[1] = fmp->mtab[ipos + 1]; } frac = (fmp->mlphs & fmp->mmask) * fmp->minlb; modout = (x[0] + (x[1] - x[0]) * frac); modout *= mfreq * fmp->index; cfreq += modout; fmp->clphs &= SK_FMPAIR_PHASEMASK; ipos = (fmp->clphs) >> fmp->cnlb; x[0] = fmp->ctab[ipos]; if (ipos == fmp->csz - 1) { x[1] = fmp->ctab[0]; } else { x[1] = fmp->ctab[ipos + 1]; } frac = (fmp->clphs & fmp->cmask) * fmp->cinlb; out = (x[0] + (x[1] - x[0]) * frac); fmp->clphs += floor(cfreq * fmp->maxlens); fmp->mlphs += floor(mfreq * fmp->maxlens); return out; } void sk_fmpair_fdbk_init(sk_fmpair_fdbk *fmp, int sr, SKFLT *ctab, int csz, SKFLT ciphs, SKFLT *mtab, int msz, SKFLT miphs) { sk_fmpair_init(&fmp->fmpair, sr, ctab, csz, ciphs, mtab, msz, miphs); fmp->prev = 0; fmp->feedback = 0; } void sk_fmpair_fdbk_amt(sk_fmpair_fdbk *f, SKFLT amt) { f->feedback = amt; } SKFLT sk_fmpair_fdbk_tick(sk_fmpair_fdbk *f) { SKFLT out; SKFLT cfreq, mfreq; SKFLT modout; int ipos; SKFLT frac; SKFLT x[2]; sk_fmpair *fmp; fmp = &f->fmpair; cfreq = fmp->freq * fmp->car; mfreq = fmp->freq * fmp->mod; fmp->mlphs &= SK_FMPAIR_PHASEMASK; ipos = fmp->mlphs >> fmp->mnlb; x[0] = fmp->mtab[ipos]; if (ipos == fmp->msz - 1) { x[1] = fmp->mtab[0]; } else { x[1] = fmp->mtab[ipos + 1]; } frac = (fmp->mlphs & fmp->mmask) * fmp->minlb; modout = (x[0] + (x[1] - x[0]) * frac); /* feedback-oscillator specific */ modout += f->prev * f->feedback; f->prev = modout; modout *= mfreq * fmp->index; cfreq += modout; fmp->clphs &= SK_FMPAIR_PHASEMASK; ipos = (fmp->clphs) >> fmp->cnlb; x[0] = fmp->ctab[ipos]; if (ipos == fmp->csz - 1) { x[1] = fmp->ctab[0]; } else { x[1] = fmp->ctab[ipos + 1]; } frac = (fmp->clphs & fmp->cmask) * fmp->cinlb; out = (x[0] + (x[1] - x[0]) * frac); fmp->clphs += floor(cfreq * fmp->maxlens); fmp->mlphs += floor(mfreq * fmp->maxlens); return out; }