105 lines
3.5 KiB
C
105 lines
3.5 KiB
C
#include "../core.h"
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#include "../utils/mut.h"
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u8 elType2type[] = {
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[el_i8 ] = t_i8arr, [el_c8 ] = t_c8arr,
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[el_i16] = t_i16arr,[el_c16] = t_c16arr,
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[el_i32] = t_i32arr,[el_c32] = t_c32arr,
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[el_bit] = t_bitarr,[el_f64] = t_f64arr
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};
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u8 elTypeWidth[] = {
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[el_i8 ] = 1, [el_c8 ] = 1,
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[el_i16] = 2, [el_c16] = 2,
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[el_i32] = 4, [el_c32] = 4,
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[el_bit] = 0, [el_f64] = 8
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};
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u8 elTypeWidthLogBits[] = {
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[el_i8 ] = 3, [el_c8 ] = 3,
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[el_i16] = 4, [el_c16] = 4,
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[el_i32] = 5, [el_c32] = 5,
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[el_bit] = 0, [el_f64] = 6
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};
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u8 arrTypeWidthLog[] = {
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[t_bitarr]=99,
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[t_i8arr ]=0, [t_i8slice ]=0, [t_c8arr ]=0, [t_c8slice ]=0,
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[t_i16arr]=1, [t_i16slice]=1, [t_c16arr]=1, [t_c16slice]=1,
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[t_i32arr]=2, [t_i32slice]=2, [t_c32arr]=2, [t_c32slice]=2,
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[t_f64arr]=3, [t_f64slice]=3
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};
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u8 arrTypeBitsLog[] = {
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[t_bitarr]=0,
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[t_i8arr ]=3, [t_i8slice ]=3, [t_c8arr ]=3, [t_c8slice ]=3,
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[t_i16arr]=4, [t_i16slice]=4, [t_c16arr]=4, [t_c16slice]=4,
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[t_i32arr]=5, [t_i32slice]=5, [t_c32arr]=5, [t_c32slice]=5,
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[t_f64arr]=6, [t_f64slice]=6,
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[t_harr ]=6, [t_hslice ]=6, [t_fillarr]=6,[t_fillslice]=6
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};
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B m_i8(i8 x) { return m_i32(x); } B m_i16(i16 x) { return m_i32(x); }
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B m_c8(u8 x) { return m_c32(x); } B m_c16(u16 x) { return m_c32(x); }
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#define TU I8
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#define TP(W,X) W##i8##X
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#include "tyarrTemplate.c"
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#define TU I16
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#define TP(W,X) W##i16##X
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#include "tyarrTemplate.c"
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#define TU I32
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#define TP(W,X) W##i32##X
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#include "tyarrTemplate.c"
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#define TU C8
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#define TP(W,X) W##c8##X
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#include "tyarrTemplate.c"
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#define TU C16
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#define TP(W,X) W##c16##X
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#include "tyarrTemplate.c"
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#define TU C32
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#define TP(W,X) W##c32##X
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#include "tyarrTemplate.c"
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#define TU F64
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#define TP(W,X) W##f64##X
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#include "tyarrTemplate.c"
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NOINLINE B m_caf64(usz sz, f64* a) { f64* rp; B r = m_f64arrv(&rp, sz); memcpy(rp, a, sz*sizeof( f64)); return r; }
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NOINLINE B m_cai32(usz sz, i32* a) { i32* rp; B r = m_i32arrv(&rp, sz); memcpy(rp, a, sz*sizeof( i32)); return r; }
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NOINLINE B m_c8vec(char* a, i64 sz) { u8* rp; B r = m_c8arrv (&rp, sz); memcpy(rp, a, sz*sizeof(char)); return r; }
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NOINLINE B m_c32vec(u32* s, i64 sz) { u32* rp; B r = m_c32arrv(&rp, sz); memcpy(rp, s, sz*sizeof( u32)); return r; }
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NOINLINE B m_c8vec_0(char* s) { return m_c8vec(s, strlen(s)); }
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NOINLINE B m_c32vec_0(u32* s) { usz sz=0; while(s[sz]) sz++; return m_c32vec(s, sz); }
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static Arr* bitarr_slice(B x, usz s, usz ia) {
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u64* rp; Arr* r = m_bitarrp(&rp, ia);
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bit_cpy(rp, 0, bitarr_ptr(x), s, ia);
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ptr_dec(v(x));
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return r;
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}
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static B bitarr_get(Arr* x, usz n) { assert(PTY(x)==t_bitarr); return bitp_get((u64*)((BitArr*)x)->a, n)? m_f64(1) : m_f64(0); }
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static bool bitarr_canStore(B x) { return q_bit(x); }
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static void bitarr_init() {
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TIi(t_bitarr,get) = bitarr_get;
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TIi(t_bitarr,getU) = bitarr_get;
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TIi(t_bitarr,slice) = bitarr_slice;
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TIi(t_bitarr,freeO) = tyarr_freeO;
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TIi(t_bitarr,freeF) = tyarr_freeF;
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TIi(t_bitarr,visit) = noop_visit;
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TIi(t_bitarr,print) = farr_print;
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TIi(t_bitarr,isArr) = true;
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TIi(t_bitarr,arrD1) = true;
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TIi(t_bitarr,elType) = el_bit;
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TIi(t_bitarr,canStore) = bitarr_canStore;
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}
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void tyarr_init() {
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i8arr_init(); i16arr_init(); i32arr_init(); bitarr_init();
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c8arr_init(); c16arr_init(); c32arr_init(); f64arr_init();
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{ u64* tmp; bi_emptyIVec = m_bitarrv(&tmp, 0); gc_add(bi_emptyIVec); }
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{ u8* tmp; bi_emptyCVec = m_c8arrv (&tmp, 0); gc_add(bi_emptyCVec); }
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Arr* emptySVec = arr_shVec(m_fillarrp(0));
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fillarr_setFill(emptySVec, emptyCVec());
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bi_emptySVec = taga(emptySVec); gc_add(bi_emptySVec);
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}
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