#include "../core.h" #include "../utils/each.h" #include "../utils/file.h" #include "../utils/time.h" #include "../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 toI32Any(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) { freeThrown(); 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 toI32Any(r); } if (!noFill(wf) && !noFill(xf)) { if (CATCH) { freeThrown(); 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 slash_c2(B f, B w, B x); B shape_c2(B f, B w, B x); 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 = IA(w); ur xr = RNK(x); usz xia = IA(x); ur rr = wr+xr; usz ria = uszMul(wia, xia); if (rr130 && xia<2560>>arrTypeBitsLog(TY(x))) { Arr* wd = arr_shVec(TI(w,slice)(incG(w), 0, wia)); r = fc2(f, slash_c2(f, m_i32(xia), taga(wd)), shape_c2(f, m_f64(ria), incG(x))); } else if (xia>7) { SGet(w) M_HARR(r, wia) for (usz wi = 0; wi < wia; wi++) HARR_ADD(r, wi, fc2(f, Get(w,wi), incG(x))); r = bqn_merge(HARR_FV(r)); } else goto generic; if (RNK(r)>1) { SRNK(r, 0); // otherwise the following arr_shAlloc failing will result in r->sh dangling ptr_dec(shObj(r)); } rsh = arr_shAlloc(a(r), rr); } else { generic:; SGetU(w) SGet(x) M_HARR(r, ria) for (usz wi = 0; wi < wia; wi++) { B cw = GetU(w,wi); for (usz xi = 0; xi < xia; xi++) HARR_ADDA(r, fc2(f, inc(cw), Get(x,xi))); } rsh = HARR_FA(r, rr); r = HARR_O(r).b; } if (rsh) { shcpy(rsh , SH(w), wr); shcpy(rsh+wr, SH(x), xr); } decG(w); decG(x); if (EACH_FILLS) return homFil2(f, r, wf, xf); return r; } 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 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); incBy(x, am); 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); } static B m1c1(B t, B f, B x) { // consumes x B fn = m1_d(inc(t), inc(f)); B r = c1(fn, x); decG(fn); return r; } static B m1c2(B t, B f, B w, B x) { // consumes w,x B fn = m1_d(inc(t), inc(f)); B r = c2(fn, w, x); decG(fn); return r; } #define S_SLICES(X) \ BSS2A X##_slc = TI(X,slice); \ usz X##_csz = 1; \ usz X##_cr = RNK(X)-1; \ ShArr* X##_csh; \ if (X##_cr>1) { \ X##_csh = m_shArr(X##_cr); \ PLAINLOOP for (usz i = 0; i < X##_cr; i++) { \ usz v = SH(X)[i+1]; \ X##_csz*= v; \ X##_csh->a[i] = v; \ } \ } else if (X##_cr!=0) X##_csz*= SH(X)[1]; #define SLICE(X, S) ({ Arr* r_ = X##_slc(incG(X), S, X##_csz); arr_shSetI(r_, X##_cr, X##_csh); taga(r_); }) #define E_SLICES(X) if (X##_cr>1) ptr_dec(X##_csh); decG(X); #pragma GCC diagnostic push #ifdef __clang__ #pragma GCC diagnostic ignored "-Wsometimes-uninitialized" // no gcc case because gcc is gcc and does gcc things instead of doing what it's asked to do #endif extern B to_fill_cell_k(B x, ur k, char* err); // from md2.c static B to_fill_cell_1(B x) { // consumes x return to_fill_cell_k(x, 1, "˘: Empty argument too large (%H ≡ ≢𝕩)"); } static B merge_fill_result_1(B rc) { u64 rr = isArr(rc)? RNK(rc)+1ULL : 1; if (rr>UR_MAX) thrM("˘: Result rank too large"); B rf = getFillQ(rc); Arr* r = m_fillarrp(0); fillarr_setFill(r, rf); usz* rsh = arr_shAlloc(r, rr); if (rr>1) { rsh[0] = 0; shcpy(rsh+1, SH(rc), rr-1); } dec(rc); return taga(r); } B cell2_empty(B f, B w, B x, ur wr, ur xr) { if (!isPureFn(f) || !CATCH_ERRORS) { dec(w); dec(x); return emptyHVec(); } if (wr) w = to_fill_cell_1(w); if (xr) x = to_fill_cell_1(x); if (CATCH) return emptyHVec(); B rc = c2(f, w, x); popCatch(); return merge_fill_result_1(rc); } 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 (Q_BI(f,lt) && IA(x)!=0 && RNK(x)>1) return toCells(x); usz cam = SH(x)[0]; if (cam==0) { if (!isPureFn(f) || !CATCH_ERRORS) { decG(x); return emptyHVec(); } B cf = to_fill_cell_1(x); if (CATCH) return emptyHVec(); B rc = c1(f, cf); popCatch(); return merge_fill_result_1(rc); } S_SLICES(x) M_HARR(r, cam); for (usz i=0,p=0; if; bool wr = isAtm(w)? 0 : RNK(w); bool xr = isAtm(x)? 0 : RNK(x); B r; if (wr==0 && xr==0) return isAtm(r = c2(f, w, x))? m_atomUnit(r) : r; if (wr==0) { usz cam = SH(x)[0]; if (cam==0) return cell2_empty(f, w, x, wr, xr); S_SLICES(x) M_HARR(r, cam); for (usz i=0,p=0; if; if (isAtm(x) || RNK(x)==0) thrM("˝: 𝕩 must have rank at least 1"); usz xia = IA(x); if (xia==0) return m1c1(rt_insert, f, x); if (RNK(x)==1 && isFun(f) && isPervasiveDy(f)) { return m_atomUnit(fold_c1(d, x)); } S_SLICES(x) usz p = xia-x_csz; B r = SLICE(x, p); while(p!=0) { p-= x_csz; r = c2(f, SLICE(x, p), r); } E_SLICES(x) return r; } B insert_c2(Md1D* d, B w, B x) { B f = d->f; if (isAtm(x) || RNK(x)==0) thrM("˝: 𝕩 must have rank at least 1"); usz xia = IA(x); B r = w; if (xia!=0) { S_SLICES(x) usz p = xia; while(p!=0) { p-= x_csz; r = c2(f, SLICE(x, p), r); } E_SLICES(x) } return r; } #pragma GCC diagnostic pop static void print_md1BI(FILE* f, B x) { fprintf(f, "%s", pm1_repr(c(Md1,x)->extra)); } static B md1BI_im(Md1D* d, B x) { return ((BMd1*)d->m1)->im(d, x); } static B md1BI_iw(Md1D* d, B w, B x) { return ((BMd1*)d->m1)->iw(d, w, x); } static B md1BI_ix(Md1D* d, B w, B x) { return ((BMd1*)d->m1)->ix(d, w, x); } void md1_init() { TIi(t_md1BI,print) = print_md1BI; TIi(t_md1BI,m1_im) = md1BI_im; TIi(t_md1BI,m1_iw) = md1BI_iw; TIi(t_md1BI,m1_ix) = md1BI_ix; }