uCBQN/src/rtwrap.c
2022-06-26 23:48:30 +03:00

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#include "core.h"
#include "vm.h"
#if RT_PERF
#include "builtins.h"
#endif
#include "utils/time.h"
#if defined(RT_WRAP) || defined(WRAP_NNBI)
typedef struct WFun WFun;
typedef struct WMd1 WMd1;
typedef struct WMd2 WMd2;
struct WFun {
struct Fun;
B v;
WFun* prev;
#if RT_PERF
u64 c1t, c2t;
u32 c1a, c2a;
#elif RT_VERIFY
B r1;
#endif
};
struct WMd1 {
struct Md1;
u64 c1t, c2t;
u32 c1a, c2a;
B v;
WMd1* prev;
};
struct WMd2 {
struct Md2;
u64 c1t, c2t;
u32 c1a, c2a;
B v;
WMd2* prev;
};
WFun* lastWF;
WMd1* lastWM1;
WMd2* lastWM2;
void wfn_visit(Value* x) { mm_visit(((WFun*)x)->v); }
void wm1_visit(Value* x) { mm_visit(((WMd1*)x)->v); }
void wm2_visit(Value* x) { mm_visit(((WMd2*)x)->v); }
B wfn_identity(B x) {
B f = c(WFun,x)->v;
return inc(TI(f,identity)(f));
}
// rtverify
#ifndef RT_VERIFY_ARGS
#define RT_VERIFY_ARGS 1
#endif
#if RT_VERIFY
B info_c1(B t, B x);
#define CHK(EXP,GOT,W,X) { if (!eequal(EXP,GOT)) { \
print(f); printf(": failed RT_VERIFY\n"); fflush(stdout); \
if (RT_VERIFY_ARGS) { \
if(!q_N(W)){printf("𝕨:"); print(W); printf(" / "); printRaw(info_c1(bi_N, inc(W))); putchar('\n'); fflush(stdout); } \
{ printf("𝕩:"); print(X); printf(" / "); printRaw(info_c1(bi_N, inc(X))); putchar('\n'); fflush(stdout); } \
{ printf("got:"); print(GOT); printf(" / "); printRaw(info_c1(bi_N, inc(GOT))); putchar('\n'); fflush(stdout); } \
{ printf("exp:"); print(EXP); printf(" / "); printRaw(info_c1(bi_N, inc(EXP))); putchar('\n'); fflush(stdout); } \
} \
vm_pstLive(); exit(1); \
}}
#endif
// rtperf
u64 fwTotal;
B wfn_c1(B t, B x) {
WFun* c = c(WFun,t);
B f = c->v;
BB2B fi = c(Fun,f)->c1;
#if RT_PERF
u64 s = nsTime();
B r = fi(f, x);
u64 e = nsTime();
c->c1a++;
c->c1t+= e-s;
fwTotal+= e-s+20;
#elif RT_VERIFY
B exp = c1(c->r1, inc(x));
#if RT_VERIFY_ARGS
B r = fi(f, inc(x));
CHK(exp, r, bi_N, x);
dec(x);
#else
B r = fi(f, x);
CHK(exp, r, bi_N, x);
#endif
dec(exp);
#else
B r = fi(f, inc(x));
#endif
return r;
}
B wfn_c2(B t, B w, B x) {
WFun* c = c(WFun,t);
B f = c->v;
BBB2B fi = c(Fun,f)->c2;
#if RT_PERF
u64 s = nsTime();
B r = fi(f, w, x);
u64 e = nsTime();
c->c2a++;
c->c2t+= e-s;
fwTotal+= e-s+20;
#elif RT_VERIFY
B exp = c2(c->r1, inc(w), inc(x));
#if RT_VERIFY_ARGS
B r = fi(f, inc(w), inc(x));
CHK(exp, r, w, x);
dec(w); dec(x);
#else
B r = fi(f, w, x);
CHK(exp, r, w, x);
#endif
dec(exp);
#else
B r = fi(f, w, x);
#endif
return r;
}
#undef CHK
B wm1_c1(Md1D* d, B x) { B f = d->f; WMd1* t = (WMd1*)d->m1;
#if RT_PERF
u64 pfwt=fwTotal; fwTotal = 0;
u64 s = nsTime();
#endif
B om = t->v;
B fn = m1_d(incG(om), inc(f));
B r = c1(fn, x);
dec(fn);
#if RT_PERF
u64 e = nsTime();
t->c1a++;
t->c1t+= e-s - fwTotal;
fwTotal = pfwt + e-s;
#endif
return r;
}
B wm1_c2(Md1D* d, B w, B x) { B f = d->f; WMd1* t = (WMd1*)d->m1;
#if RT_PERF
u64 pfwt=fwTotal; fwTotal = 0;
u64 s = nsTime();
#endif
B om = t->v;
B fn = m1_d(incG(om), inc(f));
B r = c2(fn, w, x);
dec(fn);
#if RT_PERF
u64 e = nsTime();
t->c2a++;
t->c2t+= e-s - fwTotal;
fwTotal = pfwt + e-s;
#endif
return r;
}
B wm2_c1(Md2D* d, B x) { B f = d->f; B g = d->g; WMd2* t = (WMd2*)d->m2;
#if RT_PERF
u64 pfwt=fwTotal; fwTotal = 0;
u64 s = nsTime();
#endif
B om = t->v;
B fn = m2_d(incG(om), inc(f), inc(g));
B r = c1(fn, x);
dec(fn);
#if RT_PERF
u64 e = nsTime();
t->c1a++;
t->c1t+= e-s - fwTotal;
fwTotal = pfwt + e-s;
#endif
return r;
}
B wm2_c2(Md2D* d, B w, B x) { B f = d->f; B g = d->g; WMd2* t = (WMd2*)d->m2;
#if RT_PERF
u64 pfwt=fwTotal; fwTotal = 0;
u64 s = nsTime();
#endif
B om = t->v;
B fn = m2_d(incG(om), inc(f), inc(g));
B r = c2(fn, w, x);
dec(fn);
#if RT_PERF
u64 e = nsTime();
t->c2a++;
t->c2t+= e-s - fwTotal;
fwTotal = pfwt + e-s;
#endif
return r;
}
B rtWrap_wrap(B t, bool nnbi) {
#if !defined(RT_WRAP)
if (!nnbi) return t;
#endif
if (isFun(t)) {
#if RT_VERIFY
if(v(t)->flags==0) return t;
#endif
WFun* r = mm_alloc(sizeof(WFun), t_funWrap);
r->extra = v(t)->extra;
r->flags = v(t)->flags;
r->c1 = wfn_c1;
r->c2 = wfn_c2;
r->v = t;
r->prev = lastWF;
lastWF = r;
#if RT_VERIFY
r->r1 = r1Objs[v(t)->flags-1];
#elif RT_PERF
r->c1t = 0; r->c1a = 0;
r->c2t = 0; r->c2a = 0;
#endif
return tag(r,FUN_TAG);
}
#if RT_PERF || WRAP_NNBI
if (isMd1(t)) {
WMd1* r = mm_alloc(sizeof(WMd1), t_md1Wrap);
r->extra = v(t)->extra;
r->flags = v(t)->flags;
r->c1 = wm1_c1;
r->c2 = wm1_c2;
r->v = t;
r->prev = lastWM1;
lastWM1 = r;
r->c1a = 0; r->c2a = 0;
r->c1t = 0; r->c2t = 0;
return tag(r,MD1_TAG);
}
if (isMd2(t)) {
Md2* fc = c(Md2,t);
WMd2* r = mm_alloc(sizeof(WMd2), t_md2Wrap);
r->c1 = wm2_c1;
r->c2 = wm2_c2;
r->extra = fc->extra;
r->flags = fc->flags;
r->v = t;
r->prev = lastWM2;
lastWM2 = r;
r->c1a = 0; r->c2a = 0;
r->c1t = 0; r->c2t = 0;
return tag(r,MD2_TAG);
}
#endif
return t;
}
B rtWrap_unwrap(B x) {
if (!isVal(x)) return x;
if (v(x)->type==t_funWrap) { B r = c(WFun,x)->v; dec(x); return r; }
if (v(x)->type==t_md1Wrap) { B r = c(WMd1,x)->v; dec(x); return r; }
if (v(x)->type==t_md2Wrap) { B r = c(WMd2,x)->v; dec(x); return r; }
return x;
}
B wfn_uc1(B t, B o, B x) { B t2 = c(WFun,t)->v; return TI(t2,fn_uc1)( t2, o, x); }
B wfn_ucw(B t, B o, B w, B x) { B t2 = c(WFun,t)->v; return TI(t2,fn_ucw)( t2, o, w, x); }
B wm1_uc1(Md1* t, B o, B f, B x) { B t2 = ((WMd1*)t)->v; return TI(t2,m1_uc1)(c(Md1,t2), o, f, x); }
B wm1_ucw(Md1* t, B o, B f, B w, B x) { B t2 = ((WMd1*)t)->v; return TI(t2,m1_ucw)(c(Md1,t2), o, f, w, x); }
B wm2_uc1(Md2* t, B o, B f, B g, B x) { B t2 = ((WMd2*)t)->v; return TI(t2,m2_uc1)(c(Md2,t2), o, f, g, x); }
B wm2_ucw(Md2* t, B o, B f, B g, B w, B x) { B t2 = ((WMd2*)t)->v; return TI(t2,m2_ucw)(c(Md2,t2), o, f, g, w, x); }
static B m1BI_d(B t, B f ) { return m_md1D(c(Md1,t), f ); }
static B m2BI_d(B t, B f, B g) { return m_md2D(c(Md2,t), f, g); }
void rtWrap_init() {
TIi(t_funWrap,visit) = wfn_visit; TIi(t_funWrap,identity) = wfn_identity;
TIi(t_md1Wrap,visit) = wm1_visit; TIi(t_md1Wrap,m1_d) = m1BI_d;
TIi(t_md2Wrap,visit) = wm2_visit; TIi(t_md2Wrap,m2_d) = m2BI_d;
TIi(t_funWrap,fn_uc1) = wfn_uc1;
TIi(t_funWrap,fn_ucw) = wfn_ucw;
TIi(t_md1Wrap,m1_uc1) = wm1_uc1;
TIi(t_md1Wrap,m1_ucw) = wm1_ucw;
TIi(t_md2Wrap,m2_uc1) = wm2_uc1;
TIi(t_md2Wrap,m2_ucw) = wm2_ucw;
}
#else
void rtWrap_init() { }
#endif
void rtWrap_print() {
#if RT_PERF
WFun* cf = lastWF;
while (cf) {
printRaw(c1(bi_glyph, tag(cf,FUN_TAG)));
printf(": m=%d %.3fms | d=%d %.3fms\n", cf->c1a, cf->c1t/1e6, cf->c2a, cf->c2t/1e6);
cf = cf->prev;
}
WMd1* cm1 = lastWM1;
while (cm1) {
printRaw(c1(bi_glyph, tag(cm1,MD1_TAG)));
printf(": m=%d %.3fms | d=%d %.3fms\n", cm1->c1a, cm1->c1t/1e6, cm1->c2a, cm1->c2t/1e6);
cm1 = cm1->prev;
}
WMd2* cm2 = lastWM2;
while (cm2) {
printRaw(c1(bi_glyph, tag(cm2,MD2_TAG)));
printf(": m=%d %.3fms | d=%d %.3fms\n", cm2->c1a, cm2->c1t/1e6, cm2->c2a, cm2->c2t/1e6);
cm2 = cm2->prev;
}
#endif
}