#include "../core.h" #include "../utils/each.h" #include "../utils/file.h" #include "../utils/builtins.h" static B homFil1(B f, B r, B xf) { assert(EACH_FILLS); if (isPureFn(f)) { if (f.u==bi_eq.u || f.u==bi_ne.u || f.u==bi_feq.u) { dec(xf); return taga(toI32Arr(r)); } // ≠ may return ≥2⋆31, but whatever, this thing is stupid anyway if (f.u==bi_fne.u) { dec(xf); return withFill(r, m_harrUv(0).b); } if (!noFill(xf)) { if (CATCH) { dec(catchMessage); return r; } B rf = asFill(c1(f, xf)); popCatch(); return withFill(r, rf); } } dec(xf); return r; } static B homFil2(B f, B r, B wf, B xf) { assert(EACH_FILLS); if (isPureFn(f)) { if (f.u==bi_feq.u || f.u==bi_fne.u) { dec(wf); dec(xf); return taga(toI32Arr(r)); } if (!noFill(wf) && !noFill(xf)) { if (CATCH) { dec(catchMessage); return r; } B rf = asFill(c2(f, wf, xf)); popCatch(); return withFill(r, rf); } } dec(wf); dec(xf); return r; } B tbl_c1(Md1D* d, B x) { B f = d->f; if (!EACH_FILLS) return eachm(f, x); B xf = getFillQ(x); return homFil1(f, eachm(f, x), xf); } B tbl_c2(Md1D* d, B w, B x) { B f = d->f; B wf, xf; if (EACH_FILLS) wf = getFillQ(w); if (EACH_FILLS) xf = getFillQ(x); if (isAtm(w)) w = m_atomUnit(w); if (isAtm(x)) x = m_atomUnit(x); ur wr = rnk(w); usz wia = a(w)->ia; ur xr = rnk(x); usz xia = a(x)->ia; ur rr = wr+xr; usz ria = uszMulT(wia, xia); if (rrsh, wr*sizeof(usz)); memcpy(rsh+wr, a(x)->sh, xr*sizeof(usz)); } dec(w); dec(x); if (EACH_FILLS) return homFil2(f, r.b, wf, xf); return r.b; } B each_c1(Md1D* d, B x) { B f = d->f; if (!EACH_FILLS) return eachm(f, x); B xf = getFillQ(x); return homFil1(f, eachm(f, x), xf); } B each_c2(Md1D* d, B w, B x) { B f = d->f; if (!EACH_FILLS) return eachd(f, w, x); B wf = getFillQ(w); B xf = getFillQ(x); return homFil2(f, eachd(f, w, x), wf, xf); } B scan_c1(Md1D* d, B x) { B f = d->f; if (isAtm(x) || rnk(x)==0) thrM("`: Argument cannot have rank 0"); ur xr = rnk(x); usz ia = a(x)->ia; if (ia==0) return x; B xf = getFillQ(x); u8 xe = TI(x,elType); if (xr==1 && xe<=el_f64 && isFun(f) && v(f)->flags) { u8 rtid = v(f)->flags-1; if (rtid==0) { // + if (xe==el_i8 ) { i8* xp=i8any_ptr (x); i32* rp; B r=m_i32arrv(&rp, ia); i32 c=0; for (usz i=0; ic)c=xp[i]; rp[i]=c; } dec(x); return r; } if (xe==el_i16) { i16* xp=i16any_ptr(x); i16* rp; B r=m_i16arrv(&rp, ia); i16 c=I16_MIN; for (usz i=0; ic)c=xp[i]; rp[i]=c; } dec(x); return r; } if (xe==el_i32) { i32* xp=i32any_ptr(x); i32* rp; B r=m_i32arrv(&rp, ia); i32 c=I32_MIN; for (usz i=0; ic)c=xp[i]; rp[i]=c; } dec(x); return r; } } if (rtid==14) { // ≠ f64 x0 = IGetU(x,0).f; if (x0 != (i8)x0) goto base; if (xe==el_i8 ) { i8* xp=i8any_ptr (x); i8* rp; B r=m_i8arrv(&rp, ia); i8 c=(i8)x0; rp[0]=c; for (usz i=1; itype==t_harr && reusable(x); usz i = 0; HArr_p r = reuse? harr_parts(x) : m_harrs(a(x)->ia, &i); AS2B xget = reuse? TI(x,getU) : TI(x,get); Arr* xa = a(x); BBB2B fc2 = c2fn(f); if (xr==1) { r.a[i] = xget(xa,0); i++; for (i = 1; i < ia; i++) r.a[i] = fc2(f, inc(r.a[i-1]), xget(xa,i)); } else { usz csz = arr_csz(x); for (; i < csz; i++) r.a[i] = xget(xa,i); for (; i < ia; i++) r.a[i] = fc2(f, inc(r.a[i-csz]), xget(xa,i)); } return withFill(reuse? x : harr_fcd(r, x), xf); } B scan_c2(Md1D* d, B w, B x) { B f = d->f; if (isAtm(x) || rnk(x)==0) thrM("`: 𝕩 cannot have rank 0"); ur xr = rnk(x); usz* xsh = a(x)->sh; usz ia = a(x)->ia; B wf = getFillQ(w); u8 xe = TI(x,elType); if (xr==1 && q_i32(w) && xeflags) { u8 rtid = v(f)->flags-1; i32 wv = o2iu(w); if (rtid==0) { // + if (xe==el_i8 ) { i8* xp=i8any_ptr (x); i32* rp; B r=m_i32arrv(&rp, ia); i32 c=wv; for (usz i=0; ic)c=xp[i]; rp[i]=c; } dec(x); return r; } if (xe==el_i16 && wv==(i16)wv) { i16* xp=i16any_ptr(x); i16* rp; B r=m_i16arrv(&rp, ia); i16 c=wv; for (usz i=0; ic)c=xp[i]; rp[i]=c; } dec(x); return r; } if (xe==el_i32 && wv==(i32)wv) { i32* xp=i32any_ptr(x); i32* rp; B r=m_i32arrv(&rp, ia); i32 c=wv; for (usz i=0; ic)c=xp[i]; rp[i]=c; } dec(x); return r; } } if (rtid==14) { // ≠ if (wv != (i8)wv) goto base; if (xe==el_i8 ) { i8* xp=i8any_ptr (x); i8* rp; B r=m_i8arrv(&rp, ia); i8 c=wv; for (usz i=0; itype==t_harr && reusable(x)) | !ia; usz i = 0; HArr_p r = reuse? harr_parts(x) : m_harrs(a(x)->ia, &i); AS2B xget = reuse? TI(x,getU) : TI(x,get); Arr* xa = a(x); BBB2B fc2 = c2fn(f); if (isArr(w)) { ur wr = rnk(w); usz* wsh = a(w)->sh; SGet(w) if (wr+1!=xr || !eqShPrefix(wsh, xsh+1, wr)) thrF("`: Shape of 𝕨 must match the cell of 𝕩 (%H ≡ ≢𝕨, %H ≡ ≢𝕩)", w, x); if (ia==0) return x; usz csz = arr_csz(x); for (; i < csz; i++) r.a[i] = fc2(f, Get(w,i), xget(xa,i)); for (; i < ia; i++) r.a[i] = fc2(f, inc(r.a[i-csz]), xget(xa,i)); dec(w); } else { if (xr!=1) thrF("`: Shape of 𝕨 must match the cell of 𝕩 (%H ≡ ≢𝕨, %H ≡ ≢𝕩)", w, x); if (ia==0) return x; B pr = r.a[0] = fc2(f, w, xget(xa,0)); i++; for (; i < ia; i++) r.a[i] = pr = fc2(f, inc(pr), xget(xa,i)); } return withFill(reuse? x : harr_fcd(r, x), wf); } B fold_c1(Md1D* d, B x) { B f = d->f; if (isAtm(x) || rnk(x)!=1) thrF("´: Argument must be a list (%H ≡ ≢𝕩)", x); usz ia = a(x)->ia; if (ia==0) { dec(x); if (isFun(f)) { B r = TI(f,identity)(f); if (!q_N(r)) return inc(r); } thrM("´: No identity found"); } u8 xe = TI(x,elType); if (isFun(f) && v(f)->flags && xe<=el_f64) { u8 rtid = v(f)->flags-1; if (rtid==0) { // + if (xe==el_i8 ) { i8* xp = i8any_ptr (x); i64 c=0; for (usz i=0; ic) c=xp[i]; dec(x); return m_i32(c); } if (xe==el_i16) { i16* xp = i16any_ptr(x); i16 c=I16_MIN; for (usz i=0; ic) c=xp[i]; dec(x); return m_i32(c); } if (xe==el_i32) { i32* xp = i32any_ptr(x); i32 c=I32_MIN; for (usz i=0; ic) c=xp[i]; dec(x); return m_i32(c); } } if (rtid==11) { // ∨ if (xe==el_i8 ) { i8* xp = i8any_ptr (x); bool q=0; for (usz i=0; i0; i--) c = fc2(f, m_i32(xp[i-1]), c); } else { c = Get(x, ia-1); for (usz i = ia-1; i>0; i--) c = fc2(f, Get(x, i-1), c); } dec(x); return c; } B fold_c2(Md1D* d, B w, B x) { B f = d->f; if (isAtm(x) || rnk(x)!=1) thrF("´: 𝕩 must be a list (%H ≡ ≢𝕩)", x); usz ia = a(x)->ia; u8 xe = TI(x,elType); if (q_i32(w) && isFun(f) && v(f)->flags && xeflags-1; if (rtid==0) { // + if (xe==el_i8 ) { i8* xp = i8any_ptr (x); i64 c=wi; for (usz i=0; ic) c=xp[i]; dec(x); return m_i32(c); } if (xe==el_i16) { i16* xp = i16any_ptr(x); i32 c=wi; for (usz i=0; ic) c=xp[i]; dec(x); return m_i32(c); } if (xe==el_i32) { i32* xp = i32any_ptr(x); i32 c=wi; for (usz i=0; ic) c=xp[i]; dec(x); return m_i32(c); } } if (rtid==11 && (wi&1)==wi) { // ∨ if (xe==el_i8 ) { i8* xp = i8any_ptr (x); bool q=wi; for (usz i=0; i0; i--) c = fc2(f, Get(x, i-1), c); dec(x); return c; } B const_c1(Md1D* d, B x) { dec(x); return inc(d->f); } B const_c2(Md1D* d, B w, B x) { dec(w); dec(x); return inc(d->f); } B swap_c1(Md1D* d, B x) { return c2(d->f, inc(x), x); } B swap_c2(Md1D* d, B w, B x) { return c2(d->f, x , w); } B timed_c2(Md1D* d, B w, B x) { B f = d->f; i64 am = o2i64(w); for (i64 i = 0; i < am; i++) inc(x); dec(x); u64 sns = nsTime(); for (i64 i = 0; i < am; i++) dec(c1(f, x)); u64 ens = nsTime(); return m_f64((ens-sns)/(1e9*am)); } B timed_c1(Md1D* d, B x) { B f = d->f; u64 sns = nsTime(); dec(c1(f, x)); u64 ens = nsTime(); return m_f64((ens-sns)*1e-9); } extern B rt_cell; B cell_c1(Md1D* d, B x) { B f = d->f; if (isAtm(x) || rnk(x)==0) { B r = c1(f, x); return isAtm(r)? m_atomUnit(r) : r; } // if (f.u == bi_lt.u) return toCells(x); // TODO fix fills usz cr = rnk(x)-1; usz cam = a(x)->sh[0]; usz csz = arr_csz(x); ShArr* csh; if (cr>1) { csh = m_shArr(cr); memcpy(csh->a, a(x)->sh+1, sizeof(usz)*cr); } usz i = 0; BSS2A slice = TI(x,slice); HArr_p r = m_harrs(cam, &i); usz p = 0; for (; i < cam; i++) { Arr* s = slice(inc(x), p, csz); arr_shSetI(s, cr, csh); r.a[i] = c1(f, taga(s)); p+= csz; } if (cr>1) ptr_dec(csh); dec(x); return bqn_merge(harr_fv(r)); } B cell_c2(Md1D* d, B w, B x) { B f = d->f; if ((isAtm(x) || rnk(x)==0) && (isAtm(w) || rnk(w)==0)) { B r = c2(f, w, x); return isAtm(r)? m_atomUnit(r) : r; } B fn = m1_d(inc(rt_cell), inc(f)); // TODO B r = c2(fn, w, x); dec(fn); return r; } static void print_md1BI(B x) { printf("%s", format_pm1(c(Md1,x)->extra)); } void md1_init() { TIi(t_md1BI,print) = print_md1BI; }