#include "../core.h" B m_str8(usz sz, char* s) { u32* rp; B r = m_c32arrv(&rp, sz); for (u64 i = 0; i < sz; i++) rp[i] = (u32)s[i]; return r; } B m_str8l(char* s) { usz sz = strlen(s); u32* rp; B r = m_c32arrv(&rp, sz); for (u64 i = 0; i < sz; i++) rp[i] = (u32)s[i]; return r; } B m_str32(u32* s) { usz sz = 0; while(s[sz]) sz++; u32* rp; B r = m_c32arrv(&rp, sz); for (usz i = 0; i < sz; i++) rp[i] = s[i]; return r; } static Arr* m_c32slice(Arr* p, u32* ptr, usz ia) { C32Slice* r = m_arr(sizeof(C32Slice), t_c32slice, ia); r->p = p; r->a = ptr; return (Arr*)r; } static Arr* c32arr_slice (B x, usz s, usz ia) { return m_c32slice(a(x), c(C32Arr,x)->a+s, ia); } static Arr* c32slice_slice(B x, usz s, usz ia) { Arr* p=c(Slice,x)->p; ptr_inc(p); Arr* r = m_c32slice(p, c(C32Slice,x)->a+s, ia); dec(x); return r; } static B c32arr_get (B x, usz n) { VTY(x,t_c32arr ); return m_c32(c(C32Arr ,x)->a[n]); } static B c32slice_get(B x, usz n) { VTY(x,t_c32slice); return m_c32(c(C32Slice,x)->a[n]); } static bool c32arr_canStore(B x) { return isC32(x); } void c32arr_init() { TIi(t_c32arr,get) = c32arr_get; TIi(t_c32slice,get) = c32slice_get; TIi(t_c32arr,getU) = c32arr_get; TIi(t_c32slice,getU) = c32slice_get; TIi(t_c32arr,slice) = c32arr_slice; TIi(t_c32slice,slice) = c32slice_slice; TIi(t_c32arr,freeO) = tyarr_freeO; TIi(t_c32slice,freeO) = slice_freeO; TIi(t_c32arr,freeF) = tyarr_freeF; TIi(t_c32slice,freeF) = slice_freeF; TIi(t_c32arr,visit) = noop_visit; TIi(t_c32slice,visit) = slice_visit; TIi(t_c32arr,print) = arr_print; TIi(t_c32slice,print) = arr_print; TIi(t_c32arr,isArr) = true; TIi(t_c32slice,isArr) = true; TIi(t_c32arr,arrD1) = true; TIi(t_c32slice,arrD1) = true; TIi(t_c32arr,elType) = el_c32; TIi(t_c32slice,elType) = el_c32; TIi(t_c32arr,canStore) = c32arr_canStore; u32* tmp; bi_emptyCVec = m_c32arrv(&tmp, 0); gc_add(bi_emptyCVec); Arr* emptySVec = m_fillarrp(0); arr_shVec(emptySVec); fillarr_setFill(emptySVec, emptyCVec()); bi_emptySVec = taga(emptySVec); gc_add(bi_emptySVec); }