#include "gc.h" u64 gc_depth = 1; vfn gc_roots[16]; u32 gc_rootSz; void gc_addFn(vfn f) { if (gc_rootSz>=16) err("Too many GC roots"); gc_roots[gc_rootSz++] = f; } B gc_rootObjs[256]; u32 gc_rootObjSz; void gc_add(B x) { if (gc_rootObjSz>=256) err("Too many GC root objects"); gc_rootObjs[gc_rootObjSz++] = x; } #ifdef LOG_GC u64 gc_visitBytes, gc_visitCount, gc_freedBytes, gc_freedCount; #endif u8 gc_tagCurr = 0x80; // if no gc is running, this is what all objects will have u8 gc_tagNew = 0x00; void gc_tryFree(Value* v) { u8 t = v->type; #if defined(DEBUG) && !defined(CATCH_ERRORS) if (t==t_freed) err("GC found t_freed\n"); #endif if (t!=t_empty & (v->mmInfo&0x80)==gc_tagCurr) { if (t==t_shape) return; #ifdef DONT_FREE v->flags = t; #else #if CATCH_ERRORS if (t==t_freed) { mm_free(v); return; } #endif #endif #ifdef LOG_GC gc_freedBytes+= mm_size(v); gc_freedCount++; #endif v->type = t_freed; ptr_inc(v); // required as otherwise the object may free itself while not done reading its own fields TIi(t,freeO)(v); ptr_dec(v); // Object may not be immediately freed if it's not a part of a cycle, but instead a descendant of one. // It will be freed when the cycle is freed, and the t_freed type ensures it doesn't double-free itself } } void gc_visitRoots() { for (u32 i = 0; i < gc_rootSz; i++) gc_roots[i](); for (u32 i = 0; i < gc_rootObjSz; i++) mm_visit(gc_rootObjs[i]); } u64 gc_lastAlloc; void gc_forceGC() { #if ENABLE_GC #ifdef LOG_GC u64 start = nsTime(); gc_visitBytes = 0; gc_freedBytes = 0; gc_visitCount = 0; gc_freedCount = 0; u64 startSize = mm_heapUsed(); #endif gc_visitRoots(); mm_forHeap(gc_tryFree); gc_tagNew = gc_tagCurr; gc_tagCurr^= 0x80; u64 endSize = mm_heapUsed(); #ifdef LOG_GC fprintf(stderr, "GC kept "N64d"B from "N64d" objects, freed "N64d"B, including directly "N64d"B from "N64d" objects; took %.3fms\n", gc_visitBytes, gc_visitCount, startSize-endSize, gc_freedBytes, gc_freedCount, (nsTime()-start)/1e6); #endif gc_lastAlloc = endSize; #endif } void gc_maybeGC() { if (!gc_depth && mm_heapUsed() > gc_lastAlloc*2) gc_forceGC(); }