ref: 7db5c89b79e75bebc3b9bc9fdb2e9cdf691bedb7
dir: /vec.c/
#include <u.h> #include <libc.h> #include "asif.h" enum{ Shardsz = 2048, }; static void shardlink(Vector *v, VShard *s) { s->next = &v->vl; s->prev = v->vl.prev; s->prev->next = s; v->vl.prev = s; // fprint(2, "%#p len %d link: ", v, v->len); // for(s=v->vl.next; s!=&v->vl; s=s->next) // fprint(2, "%#p[%d,%zd] → ", s, s->len, (s->head - s->p) / v->elsz); // fprint(2, "%#p\n", &v->vl); } static void shardunlink(Vector *v, VShard *s) { memset(s->p, 0, Shardsz * v->elsz); s->head = s->p; s->prev->next = s->next; s->next->prev = s->prev; // fprint(2, "%#p len %d link: ", v, v->len); // for(s=v->vl.next; s!=&v->vl; s=s->next) // fprint(2, "%#p[%d,%zd] → ", s, s->len, (s->head - s->p) / v->elsz); // fprint(2, "%#p\n", &v->vl); } static VShard * shard(Vector *v) { VShard *s; s = emalloc(sizeof *s); s->p = emalloc(Shardsz * v->elsz); s->head = s->p; // fprint(2, "%#p len %d shard %#p\n", v, v->len, s); shardlink(v, s); return s; } void vecfree(Vector *v) { VShard *s, *t; // fprint(2, "%#p len %d free\n", v, v->len); free(v->tmp); for(s=v->vl.next; s!=&v->vl; s=t){ t = s->next; free(s->p); free(s); } free(v); } static void * shardpop(Vector *v, VShard *s, int i) { uchar *p; VShard *t; // fprint(2, "%#p len %d pop %#p[%d,%zd] i %d\n", v, v->len, s, s->len, (s->head - s->p) / v->elsz, i); assert(s != &v->vl); assert(i >= 0 && i < s->len); p = s->head + i * v->elsz; assert(p < s->p + Shardsz * v->elsz); memcpy(v->tmp, p, v->elsz); s->len--; v->len--; if(i == 0) s->head += v->elsz; for(t=v->vl.next; t->len == 0 && t!=&v->vl; t=t->next){ shardunlink(v, t); shardlink(v, t); } assert(s->head >= s->p && s->head < s->p + Shardsz * v->elsz); return v->tmp; } void * vechpop(Vector *v) { VShard *s; if(v->len <= 0) return nil; s = v->vl.next; // fprint(2, "vechpop %#p len %d s %#p len %d Δhead %zd prev %#p next %#p\n", // v, v->len, s, s->len, s->head - s->p, s->prev, s->next); /* FIXME: crash here with first el.len == 0; second .len == 64 * moving source */ assert(s != &v->vl && s->len > 0 && s->head - s->p < Shardsz * v->elsz); return shardpop(v, s, 0); } void * vectpop(Vector *v) { VShard *s; if(v->len <= 0) return nil; for(s=v->vl.prev; s != &v->vl && s->len == 0; s=s->prev) ; // fprint(2, "vectpop %#p len %d s %#p len %d Δhead %zd prev %#p next %#p\n", // v, v->len, s, s->len, s->head - s->p, s->prev, s->next); assert(s != &v->vl); return shardpop(v, s, s->len - 1); } void vecpush(Vector *v, void *e) { uchar *p; VShard *s; for(s=v->vl.next; s != &v->vl; s=s->next) if(s->len + (s->head - s->p) / v->elsz < Shardsz) break; // fprint(2, "%#p len %d push s %#p[%d,%zd]\n", v, v->len, s, s->len, (s->head - s->p) / v->elsz); if(s == &v->vl) s = shard(v); p = s->head + s->len * v->elsz; assert(p >= s->p && p < s->p + Shardsz * v->elsz); memcpy(p, e, v->elsz); s->len++; v->len++; } void * vecget(Vector *v, int i) { VShard *s; assert(i >= 0 && i < v->len); for(s=v->vl.next; s != &v->vl && i > s->len; s=s->next) i -= s->len; assert(s != &v->vl); assert(s->len > 0); assert(i >= 0 && i < s->len); return s->head + i * v->elsz; } Vector * vec(int elsz) { Vector *v; assert(elsz > 0); v = emalloc(sizeof *v); v->elsz = elsz; v->vl.next = v->vl.prev = &v->vl; v->tmp = emalloc(elsz); shard(v); return v; }