/* g/a.c ** ** This file is in the public domain. */ #include "all.h" /* _box_slot(): select the right free list to search for a block. */ c3_w _box_slot(c3_w siz_w) { if ( siz_w < 8 ) { return 0; } else { c3_w i_w = 1; while ( 1 ) { if ( i_w == u3a_fbox_no ) { return (i_w - 1); } if ( siz_w < 16 ) { return i_w; } siz_w = (siz_w + 1) >> 1; i_w += 1; } } } /* _box_make(): construct a box. */ u3a_box* _box_make(void* box_v, c3_w siz_w, c3_w use_w) { u3a_box* box_u = box_v; c3_w* box_w = box_v; c3_assert(siz_w >= u3a_minimum); box_w[0] = siz_w; box_w[siz_w - 1] = siz_w; box_u->use_w = use_w; c3_assert(2 != use_w); # ifdef U3_MEMORY_DEBUG box_u->cod_w = u3_Code; box_u->eus_w = 0; # endif return box_u; } /* _box_attach(): attach a box to the free list. */ void _box_attach(u3a_box* box_u) { c3_assert(box_u->siz_w >= (1 + c3_wiseof(u3a_fbox))); c3_assert(0 != u3of(u3a_fbox, box_u)); #if 0 // For debugging, fill the box with beef. { c3_w* box_w = (void *)box_u; c3_w i_w; for ( i_w = c3_wiseof(u3a_box); (i_w + 1) < box_u->siz_w; i_w++ ) { box_w[i_w] = 0xdeadbeef; } } #endif u3R->all.fre_w += box_u->siz_w; { c3_w sel_w = _box_slot(box_u->siz_w); u3p(u3a_fbox) fre_p = u3of(u3a_fbox, box_u); u3p(u3a_fbox)* pfr_p = &u3R->all.fre_p[sel_w]; u3p(u3a_fbox) nex_p = *pfr_p; u3to(u3a_fbox, fre_p)->pre_p = 0; u3to(u3a_fbox, fre_p)->nex_p = nex_p; if ( u3to(u3a_fbox, fre_p)->nex_p ) { u3to(u3a_fbox, u3to(u3a_fbox, fre_p)->nex_p)->pre_p = fre_p; } (*pfr_p) = fre_p; } } /* _box_detach(): detach a box from the free list. */ void _box_detach(u3a_box* box_u) { u3p(u3a_fbox) fre_p = u3of(u3a_fbox, box_u); u3p(u3a_fbox) pre_p = u3to(u3a_fbox, fre_p)->pre_p; u3p(u3a_fbox) nex_p = u3to(u3a_fbox, fre_p)->nex_p; u3R->all.fre_w -= box_u->siz_w; if ( nex_p ) { c3_assert(u3to(u3a_fbox, nex_p)->pre_p == fre_p); u3to(u3a_fbox, nex_p)->pre_p = pre_p; } if ( pre_p ) { c3_assert(u3to(u3a_fbox, pre_p)->nex_p == fre_p); u3to(u3a_fbox, pre_p)->nex_p = nex_p; } else { c3_w sel_w = _box_slot(box_u->siz_w); c3_assert(fre_p == u3R->all.fre_p[sel_w]); u3R->all.fre_p[sel_w] = nex_p; } } /* _me_align_pad(): pad to first point after pos_p aligned at (ald_w, alp_w). */ static __inline__ c3_w _me_align_pad(u3_post pos_p, c3_w ald_w, c3_w alp_w) { c3_w adj_w = (ald_w - (alp_w + 1)); c3_p off_p = (pos_p + adj_w); c3_p orp_p = off_p &~ (ald_w - 1); c3_p fin_p = orp_p + alp_w; c3_w pad_w = (fin_p - pos_p); return pad_w; } /* _me_align_dap(): pad to last point before pos_p aligned at (ald_w, alp_w). */ static __inline__ c3_w _me_align_dap(u3_post pos_p, c3_w ald_w, c3_w alp_w) { c3_w adj_w = alp_w; c3_p off_p = (pos_p - adj_w); c3_p orp_p = (off_p &~ (ald_w - 1)); c3_p fin_p = orp_p + alp_w; c3_w pad_w = (pos_p - fin_p); return pad_w; } /* _ca_box_make_hat(): in u3R, allocate directly on the hat. */ static u3a_box* _ca_box_make_hat(c3_w len_w, c3_w ald_w, c3_w alp_w, c3_w use_w) { c3_w pad_w; u3_post all_p; if ( c3y == u3a_is_north(u3R) ) { all_p = u3R->hat_p; pad_w = _me_align_pad(all_p, ald_w, alp_w); u3R->hat_p += (len_w + pad_w); if ( u3R->hat_p >= u3R->cap_p ) { u3m_bail(c3__meme); return 0; } } else { all_p = (u3R->hat_p - len_w); pad_w = _me_align_dap(all_p, ald_w, alp_w); all_p -= pad_w; u3R->hat_p = all_p; if ( u3R->hat_p <= u3R->cap_p ) { u3m_bail(c3__meme); return 0; } } return _box_make(u3a_into(all_p), (len_w + pad_w), use_w); } #if 0 /* _me_road_all_hat(): in u3R, allocate directly on the hat. */ static u3a_box* _ca_box_make_hat(c3_w len_w, c3_w alm_w, c3_w use_w) { return _box_make(_me_road_all_hat(len_w), len_w, use_w); } #endif #if 0 // not yet used /* _me_road_all_cap(): in u3R, allocate directly on the cap. */ static c3_w* _me_road_all_cap(c3_w len_w) { if ( len_w > u3a_open(u3R) ) { u3m_bail(c3__meme); return 0; } if ( c3y == u3a_is_north(u3R) ) { u3R->cap_p -= len_w; return u3a_into(u3R->cap_p); } else { u3_post all_p; all_p = u3R->cap_p; u3R->cap_p += len_w; return u3a_into(all_p); } } #endif #if 0 /* u3a_sane(): check allocator sanity. */ void u3a_sane(void) { c3_w i_w; for ( i_w = 0; i_w < u3a_fbox_no; i_w++ ) { u3a_fbox* fre_u = u3R->all.fre_u[i_w]; while ( fre_u ) { if ( fre_u == u3R->all.fre_u[i_w] ) { c3_assert(fre_u->pre_u == 0); } else { c3_assert(fre_u->pre_u != 0); c3_assert(fre_u->pre_u->nex_u == fre_u); if ( fre_u->nex_u != 0 ) { c3_assert(fre_u->nex_u->pre_u == fre_u); } } fre_u = fre_u->nex_u; } } } #endif /* _ca_willoc(): u3a_walloc() internals. */ static void* _ca_willoc(c3_w len_w, c3_w ald_w, c3_w alp_w) { c3_w siz_w = c3_max(u3a_minimum, u3a_boxed(len_w)); c3_w sel_w = _box_slot(siz_w); alp_w = (alp_w + c3_wiseof(u3a_box)) % ald_w; // XX: this logic is totally bizarre, but preserve it. // if ( (sel_w != 0) && (sel_w != u3a_fbox_no - 1) ) { sel_w += 1; } // fprintf(stderr, "walloc %d: *pfr_p %x\n", len_w, u3R->all.fre_p[sel_w]); while ( 1 ) { u3p(u3a_fbox) *pfr_p = &u3R->all.fre_p[sel_w]; while ( 1 ) { if ( 0 == *pfr_p ) { if ( sel_w < (u3a_fbox_no - 1) ) { sel_w += 1; break; } else { /* Nothing in top free list. Chip away at the hat. */ return u3a_boxto(_ca_box_make_hat(siz_w, ald_w, alp_w, 1)); } } else { c3_w pad_w = _me_align_pad(*pfr_p, ald_w, alp_w); if ( 1 == ald_w ) c3_assert(0 == pad_w); if ( (siz_w + pad_w) > u3to(u3a_fbox, *pfr_p)->box_u.siz_w ) { /* This free block is too small. Continue searching. */ pfr_p = &(u3to(u3a_fbox, *pfr_p)->nex_p); continue; } else { u3a_box* box_u = &(u3to(u3a_fbox, *pfr_p)->box_u); /* We have found a free block of adequate size. Remove it ** from the free list. */ siz_w += pad_w; { { c3_assert((0 == u3to(u3a_fbox, *pfr_p)->pre_p) || (u3to(u3a_fbox, u3to(u3a_fbox, *pfr_p)->pre_p)->nex_p == (*pfr_p))); c3_assert((0 == u3to(u3a_fbox, *pfr_p)->nex_p) || (u3to(u3a_fbox, u3to(u3a_fbox, *pfr_p)->nex_p)->pre_p == (*pfr_p))); } if ( 0 != u3to(u3a_fbox, *pfr_p)->nex_p ) { u3to(u3a_fbox, u3to(u3a_fbox, *pfr_p)->nex_p)->pre_p = u3to(u3a_fbox, *pfr_p)->pre_p; } *pfr_p = u3to(u3a_fbox, *pfr_p)->nex_p; } /* If we can chop off another block, do it. */ if ( (siz_w + u3a_minimum) <= box_u->siz_w ) { /* Split the block. */ c3_w* box_w = ((c3_w *)(void *)box_u); c3_w* end_w = box_w + siz_w; c3_w lef_w = (box_u->siz_w - siz_w); _box_attach(_box_make(end_w, lef_w, 0)); return u3a_boxto(_box_make(box_w, siz_w, 1)); } else { c3_assert(0 == box_u->use_w); box_u->use_w = 1; #ifdef U3_MEMORY_DEBUG box_u->cod_w = u3_Code; #endif return u3a_boxto(box_u); } } } } } } /* _ca_walloc(): u3a_walloc() internals. */ static void* _ca_walloc(c3_w len_w, c3_w ald_w, c3_w alp_w) { void* ptr_v = _ca_willoc(len_w, ald_w, alp_w); #if 0 if ( u3a_botox(ptr_v) == (u3a_box*)(void *)0x27f50a02c ) { static int xuc_i; printf("xuc_i %d\r\n", xuc_i); // if ( 2 == xuc_i ) { abort(); } xuc_i++; } #endif return ptr_v; } int FOO; /* u3a_walloc(): allocate storage words on hat. */ void* u3a_walloc(c3_w len_w) { void* ptr_v = _ca_walloc(len_w, 1, 0); #if 0 if ( (703 == u3_Code) && u3a_botox(ptr_v) == (u3a_box*)(void *)0x200dfe3e4 ) { static int xuc_i; printf("xuc_i %d\r\n", xuc_i); if ( 1 == xuc_i ) { u3a_box* box_u = u3a_botox(ptr_v); box_u->cod_w = 999; FOO = 1; } // if ( 9 == xuc_i ) { FOO = 1; } xuc_i++; } #endif return ptr_v; } /* u3a_wealloc(): realloc in words. */ void* u3a_wealloc(void* lag_v, c3_w len_w) { if ( !lag_v ) { return u3a_malloc(len_w); } else { u3a_box* box_u = u3a_botox(lag_v); c3_w* old_w = lag_v; c3_w tiz_w = c3_min(box_u->siz_w, len_w); { c3_w* new_w = u3a_walloc(len_w); c3_w i_w; for ( i_w = 0; i_w < tiz_w; i_w++ ) { new_w[i_w] = old_w[i_w]; } u3a_wfree(lag_v); return new_w; } } } /* u3a_wfree(): free storage. */ void u3a_wfree(void* tox_v) { u3a_box* box_u = u3a_botox(tox_v); c3_w* box_w = (c3_w *)(void *)box_u; c3_assert(box_u->use_w != 0); box_u->use_w -= 1; if ( 0 != box_u->use_w ) return; #if 0 /* Clear the contents of the block, for debugging. */ { c3_w i_w; for ( i_w = c3_wiseof(u3a_box); (i_w + 1) < box_u->siz_w; i_w++ ) { box_w[i_w] = 0xdeadbeef; } } #endif if ( c3y == u3a_is_north(u3R) ) { /* Try to coalesce with the block below. */ if ( box_w != u3a_into(u3R->rut_p) ) { c3_w laz_w = *(box_w - 1); u3a_box* pox_u = (u3a_box*)(void *)(box_w - laz_w); if ( 0 == pox_u->use_w ) { _box_detach(pox_u); _box_make(pox_u, (laz_w + box_u->siz_w), 0); box_u = pox_u; box_w = (c3_w*)(void *)pox_u; } } /* Try to coalesce with the block above, or the wilderness. */ if ( (box_w + box_u->siz_w) == u3a_into(u3R->hat_p) ) { u3R->hat_p = u3a_outa(box_w); } else { u3a_box* nox_u = (u3a_box*)(void *)(box_w + box_u->siz_w); if ( 0 == nox_u->use_w ) { _box_detach(nox_u); _box_make(box_u, (box_u->siz_w + nox_u->siz_w), 0); } _box_attach(box_u); } } else { /* Try to coalesce with the block above. */ if ( (box_w + box_u->siz_w) != u3a_into(u3R->rut_p) ) { u3a_box* nox_u = (u3a_box*)(void *)(box_w + box_u->siz_w); if ( 0 == nox_u->use_w ) { _box_detach(nox_u); _box_make(box_u, (box_u->siz_w + nox_u->siz_w), 0); } } /* Try to coalesce with the block below, or with the wilderness. */ if ( box_w == u3a_into(u3R->hat_p) ) { u3R->hat_p = u3a_outa(box_w + box_u->siz_w); } else { c3_w laz_w = *(box_w - 1); u3a_box* pox_u = (u3a_box*)(void *)(box_w - laz_w); if ( 0 == pox_u->use_w ) { _box_detach(pox_u); _box_make(pox_u, (laz_w + box_u->siz_w), 0); box_u = pox_u; } _box_attach(box_u); } } } #if 0 /* u3a_malloc(): allocate storage measured in bytes. */ void* u3a_malloc(size_t len_i) { c3_w len_w = (c3_w)len_i; return u3a_walloc((len_w + 3) >> 2); } /* u3a_realloc(): realloc in bytes. */ void* u3a_realloc(void* lag_v, size_t len_i) { c3_w len_w = (c3_w)len_i; return u3a_wealloc(lag_v, (len_w + 3) >> 2); } #else /* u3a_malloc(): aligned storage measured in bytes. */ void* u3a_malloc(size_t len_i) { c3_w len_w = (c3_w)((len_i + 3) >> 2); c3_w* ptr_w = _ca_walloc(len_w + 1, 4, 3); u3_post ptr_p = u3a_outa(ptr_w); c3_w pad_w = _me_align_pad(ptr_p, 4, 3); c3_w* out_w = u3a_into(ptr_p + pad_w + 1); #if 0 if ( u3a_botox(out_w) == (u3a_box*)(void *)0x202320b88) { static int xuc_i; printf("xuc_i %d\r\n", xuc_i); // if ( 1 == xuc_i ) { abort(); } xuc_i++; } #endif out_w[-1] = pad_w; return out_w; } /* u3a_realloc(): aligned realloc in bytes. */ void* u3a_realloc(void* lag_v, size_t len_i) { if ( !lag_v ) { return u3a_malloc(len_i); } else { c3_w len_w = (c3_w)((len_i + 3) >> 2); c3_w* lag_w = lag_v; c3_w pad_w = lag_w[-1]; c3_w* org_w = lag_w - (pad_w + 1); u3a_box* box_u = u3a_botox((void *)org_w); c3_w* old_w = lag_v; c3_w tiz_w = c3_min(box_u->siz_w, len_w); { c3_w* new_w = u3a_malloc(len_i); c3_w i_w; for ( i_w = 0; i_w < tiz_w; i_w++ ) { new_w[i_w] = old_w[i_w]; } u3a_wfree(org_w); return new_w; } } c3_w len_w = (c3_w)len_i; return u3a_wealloc(lag_v, (len_w + 3) >> 2); } /* u3a_realloc2(): gmp-shaped realloc. */ void* u3a_realloc2(void* lag_v, size_t old_i, size_t new_i) { return u3a_realloc(lag_v, new_i); } /* u3a_free(): free for aligned malloc. */ void u3a_free(void* tox_v) { c3_w* tox_w = tox_v; c3_w pad_w = tox_w[-1]; c3_w* org_w = tox_w - (pad_w + 1); // printf("free %p %p\r\n", org_w, tox_w); u3a_wfree(org_w); } /* u3a_free2(): gmp-shaped free. */ void u3a_free2(void* tox_v, size_t siz_i) { return u3a_free(tox_v); } #endif #if 1 /* _me_wash_north(): clean up mug slots after copy. */ static void _me_wash_north(u3_noun dog); static void _me_wash_north_in(u3_noun som) { if ( _(u3a_is_cat(som)) ) return; if ( !_(u3a_north_is_junior(u3R, som)) ) return; _me_wash_north(som); } static void _me_wash_north(u3_noun dog) { c3_assert(c3y == u3a_is_dog(dog)); // c3_assert(c3y == u3a_north_is_junior(u3R, dog)); { u3a_noun* dog_u = u3a_to_ptr(dog); if ( dog_u->mug_w == 0 ) return; dog_u->mug_w = 0; // power wash // if ( dog_u->mug_w >> 31 ) { dog_u->mug_w = 0; } if ( _(u3a_is_pom(dog)) ) { u3a_cell* god_u = (u3a_cell *)(void *)dog_u; _me_wash_north_in(god_u->hed); _me_wash_north_in(god_u->tel); } } } /* _me_wash_south(): clean up mug slots after copy. */ static void _me_wash_south(u3_noun dog); static void _me_wash_south_in(u3_noun som) { if ( _(u3a_is_cat(som)) ) return; if ( !_(u3a_south_is_junior(u3R, som)) ) return; _me_wash_south(som); } static void _me_wash_south(u3_noun dog) { c3_assert(c3y == u3a_is_dog(dog)); // c3_assert(c3y == u3a_south_is_junior(u3R, dog)); { u3a_noun* dog_u = u3a_to_ptr(dog); if ( dog_u->mug_w == 0 ) return; dog_u->mug_w = 0; // power wash // if ( dog_u->mug_w >> 31 ) { dog_u->mug_w = 0; } if ( _(u3a_is_pom(dog)) ) { u3a_cell* god_u = (u3a_cell *)(void *)dog_u; _me_wash_south_in(god_u->hed); _me_wash_south_in(god_u->tel); } } } /* u3a_wash(): wash all lazy mugs. RETAIN. */ void u3a_wash(u3_noun som) { if ( _(u3a_is_cat(som)) ) { return; } if ( _(u3a_is_north(u3R)) ) { if ( _(u3a_north_is_junior(u3R, som)) ) { _me_wash_north(som); } } else { if ( _(u3a_south_is_junior(u3R, som)) ) { _me_wash_south(som); } } } #endif extern u3_noun BDA, BDB; /* _me_gain_use(): increment use count. */ static void _me_gain_use(u3_noun dog) { c3_w* dog_w = u3a_to_ptr(dog); u3a_box* box_u = u3a_botox(dog_w); if ( 0x7fffffff == box_u->use_w ) { u3m_bail(c3__fail); } else { if ( box_u->use_w == 0 ) { u3m_bail(c3__foul); } box_u->use_w += 1; #ifdef U3_MEMORY_DEBUG // if ( u3_Code && !box_u->cod_w ) { box_u->cod_w = u3_Code; } #if 0 if ( u3r_mug(dog) == 0x15d47649 ) { static c3_w bug_w = 0; printf("bad %x %d %d\r\n", dog, bug_w, box_u->use_w); if ( bug_w == 0 ) { abort(); } bug_w++; } #endif #if 0 { static c3_w bug_w = 0; if ( BDA == dog ) { printf("BDA %d %d\r\n", bug_w, box_u->use_w); // if ( bug_w == 0 ) { abort(); } bug_w++; } } #endif #if 0 { static c3_w bug_w = 0; if ( FOO && u3a_botox(u3a_to_ptr(dog)) == (void *)0x200dfe3e4 ) { u3a_box* box_u = u3a_botox(u3a_to_ptr(dog)); printf("GAIN %d %d\r\n", bug_w, box_u->use_w); if ( bug_w == 8 ) { abort(); } bug_w++; } } #endif #endif } } /* _me_copy_north_in(): copy subjuniors on a north road. */ static u3_noun _me_copy_north(u3_noun); static u3_noun _me_copy_north_in(u3_noun som) { c3_assert(u3_none != som); if ( _(u3a_is_cat(som)) ) { return som; } else { u3_noun dog = som; if ( _(u3a_north_is_senior(u3R, dog)) ) { return dog; } else if ( _(u3a_north_is_junior(u3R, dog)) ) { return _me_copy_north(dog); } else { _me_gain_use(dog); return dog; } } } /* _me_copy_north(): copy juniors on a north road. */ static u3_noun _me_copy_north(u3_noun dog) { c3_assert(c3y == u3a_north_is_junior(u3R, dog)); if ( !_(u3a_north_is_junior(u3R, dog)) ) { if ( !_(u3a_north_is_senior(u3R, dog)) ) { _me_gain_use(dog); } return dog; } else { u3a_noun* dog_u = u3a_to_ptr(dog); /* Borrow mug slot to record new destination. */ if ( dog_u->mug_w >> 31 ) { u3_noun nov = (u3_noun) dog_u->mug_w; c3_assert(_(u3a_north_is_normal(u3R, nov))); _me_gain_use(nov); return nov; } else { if ( c3y == u3a_is_pom(dog) ) { u3a_cell* old_u = u3a_to_ptr(dog); c3_w* new_w = u3a_walloc(c3_wiseof(u3a_cell)); u3_noun new = u3a_de_twin(dog, new_w); u3a_cell* new_u = (u3a_cell*)(void *)new_w; new_u->mug_w = old_u->mug_w; new_u->hed = _me_copy_north_in(old_u->hed); new_u->tel = _me_copy_north_in(old_u->tel); /* Borrow mug slot to record new destination. */ old_u->mug_w = new; return new; } else { u3a_atom* old_u = u3a_to_ptr(dog); c3_w* new_w = u3a_walloc(old_u->len_w + c3_wiseof(u3a_atom)); u3_noun new = u3a_de_twin(dog, new_w); u3a_atom* new_u = (u3a_atom*)(void *)new_w; new_u->mug_w = old_u->mug_w; new_u->len_w = old_u->len_w; { c3_w i_w; for ( i_w=0; i_w < old_u->len_w; i_w++ ) { new_u->buf_w[i_w] = old_u->buf_w[i_w]; } } /* Borrow mug slot to record new destination. */ old_u->mug_w = new; return new; } } } } /* _me_copy_south_in(): copy subjuniors on a south road. */ static u3_noun _me_copy_south(u3_noun); static u3_noun _me_copy_south_in(u3_noun som) { c3_assert(u3_none != som); if ( _(u3a_is_cat(som)) ) { return som; } else { u3_noun dog = som; if ( _(u3a_south_is_senior(u3R, dog)) ) { return dog; } else if ( _(u3a_south_is_junior(u3R, dog)) ) { return _me_copy_south(dog); } else { _me_gain_use(dog); return dog; } } } /* _me_copy_south(): copy juniors on a south road. */ static u3_noun _me_copy_south(u3_noun dog) { c3_assert(c3y == u3a_south_is_junior(u3R, dog)); if ( !_(u3a_south_is_junior(u3R, dog)) ) { if ( !_(u3a_south_is_senior(u3R, dog)) ) { _me_gain_use(dog); } return dog; } else { u3a_noun* dog_u = u3a_to_ptr(dog); /* Borrow mug slot to record new destination. */ if ( dog_u->mug_w >> 31 ) { u3_noun nov = (u3_noun) dog_u->mug_w; // printf("south: %p is already %p\r\n", dog_u, u3a_to_ptr(nov)); c3_assert(_(u3a_south_is_normal(u3R, nov))); _me_gain_use(nov); return nov; } else { if ( c3y == u3a_is_pom(dog) ) { u3a_cell* old_u = u3a_to_ptr(dog); c3_w* new_w = u3a_walloc(c3_wiseof(u3a_cell)); u3_noun new = u3a_de_twin(dog, new_w); u3a_cell* new_u = (u3a_cell*)(void *)new_w; // printf("south: cell %p to %p\r\n", old_u, new_u); if ( old_u->mug_w == 0x730e66cc ) { fprintf(stderr, "BAD: take %p\r\n", new_u); } new_u->mug_w = old_u->mug_w; // new_u->mug_w = 0; new_u->hed = _me_copy_south_in(old_u->hed); new_u->tel = _me_copy_south_in(old_u->tel); /* Borrow mug slot to record new destination. */ old_u->mug_w = new; return new; } else { u3a_atom* old_u = u3a_to_ptr(dog); c3_w* new_w = u3a_walloc(old_u->len_w + c3_wiseof(u3a_atom)); u3_noun new = u3a_de_twin(dog, new_w); u3a_atom* new_u = (u3a_atom*)(void *)new_w; // printf("south: atom %p to %p\r\n", old_u, new_u); new_u->mug_w = old_u->mug_w; // new_u->mug_w = 0; new_u->len_w = old_u->len_w; { c3_w i_w; for ( i_w=0; i_w < old_u->len_w; i_w++ ) { new_u->buf_w[i_w] = old_u->buf_w[i_w]; } } /* Borrow mug slot to record new destination. */ old_u->mug_w = new; return new; } } } } /* _me_take_north(): take on a north road. */ static u3_noun _me_take_north(u3_noun dog) { if ( c3y == u3a_north_is_senior(u3R, dog) ) { /* senior pointers are not refcounted */ return dog; } else if ( c3y == u3a_north_is_junior(u3R, dog) ) { /* junior pointers are copied */ u3_noun mos = _me_copy_north(dog); // printf("north: %p to %p\r\n", u3a_to_ptr(dog), u3a_to_ptr(mos)); return mos; } else { /* normal pointers are refcounted */ _me_gain_use(dog); return dog; } } /* _me_take_south(): take on a south road. */ static u3_noun _me_take_south(u3_noun dog) { if ( c3y == u3a_south_is_senior(u3R, dog) ) { /* senior pointers are not refcounted */ return dog; } else if ( c3y == u3a_south_is_junior(u3R, dog) ) { /* junior pointers are copied */ u3_noun mos = _me_copy_south(dog); // printf("south: %p to %p\r\n", u3a_to_ptr(dog), u3a_to_ptr(mos)); return mos; } else { /* normal pointers are refcounted */ _me_gain_use(dog); return dog; } } /* u3a_take(): gain, copying juniors. */ u3_noun u3a_take(u3_noun som) { c3_assert(u3_none != som); if ( _(u3a_is_cat(som)) ) { return som; } else { return _(u3a_is_north(u3R)) ? _me_take_north(som) : _me_take_south(som); } } /* u3a_left(): true of junior if preserved. */ c3_o u3a_left(u3_noun som) { if ( _(u3a_is_cat(som)) || !_(u3a_is_junior(u3R, som)) ) { return c3y; } else { u3a_noun* dog_u = u3a_to_ptr(som); return __(0 != (dog_u->mug_w >> 31)); } } /* _me_gain_north(): gain on a north road. */ static u3_noun _me_gain_north(u3_noun dog) { if ( c3y == u3a_north_is_senior(u3R, dog) ) { /* senior pointers are not refcounted */ return dog; } else { /* junior nouns are disallowed */ c3_assert(!_(u3a_north_is_junior(u3R, dog))); /* normal pointers are refcounted */ _me_gain_use(dog); return dog; } } /* _me_gain_south(): gain on a south road. */ static u3_noun _me_gain_south(u3_noun dog) { if ( c3y == u3a_south_is_senior(u3R, dog) ) { /* senior pointers are not refcounted */ return dog; } else { /* junior nouns are disallowed */ c3_assert(!_(u3a_south_is_junior(u3R, dog))); /* normal nouns are refcounted */ _me_gain_use(dog); return dog; } } /* _me_lose_north(): lose on a north road. */ static void _me_lose_north(u3_noun dog) { top: if ( c3y == u3a_north_is_normal(u3R, dog) ) { c3_w* dog_w = u3a_to_ptr(dog); u3a_box* box_u = u3a_botox(dog_w); if ( box_u->use_w > 1 ) { box_u->use_w -= 1; } else { if ( 0 == box_u->use_w ) { u3m_bail(c3__foul); } else { if ( _(u3a_is_pom(dog)) ) { u3a_cell* dog_u = (void *)dog_w; u3_noun h_dog = dog_u->hed; u3_noun t_dog = dog_u->tel; if ( !_(u3a_is_cat(h_dog)) ) { _me_lose_north(h_dog); } u3a_wfree(dog_w); if ( !_(u3a_is_cat(t_dog)) ) { dog = t_dog; goto top; } } else { u3a_wfree(dog_w); } } } } } /* _me_lose_south(): lose on a south road. */ static void _me_lose_south(u3_noun dog) { top: if ( c3y == u3a_south_is_normal(u3R, dog) ) { c3_w* dog_w = u3a_to_ptr(dog); u3a_box* box_u = u3a_botox(dog_w); if ( box_u->use_w > 1 ) { box_u->use_w -= 1; } else { if ( 0 == box_u->use_w ) { u3m_bail(c3__foul); } else { if ( _(u3a_is_pom(dog)) ) { u3a_cell* dog_u = (void *)dog_w; u3_noun h_dog = dog_u->hed; u3_noun t_dog = dog_u->tel; if ( !_(u3a_is_cat(h_dog)) ) { _me_lose_south(h_dog); } u3a_wfree(dog_w); if ( !_(u3a_is_cat(t_dog)) ) { dog = t_dog; goto top; } } else { u3a_wfree(dog_w); } } } } } /* u3a_gain(): gain a reference count in normal space. */ u3_noun u3a_gain(u3_noun som) { c3_assert(u3_none != som); if ( _(u3a_is_cat(som)) ) { return som; } else { return _(u3a_is_north(u3R)) ? _me_gain_north(som) : _me_gain_south(som); } } /* u3a_lose(): lose a reference count. */ void u3a_lose(u3_noun som) { if ( !_(u3a_is_cat(som)) ) { if ( _(u3a_is_north(u3R)) ) { _me_lose_north(som); } else { _me_lose_south(som); } } } /* u3a_use(): reference count. */ c3_w u3a_use(u3_noun som) { if ( _(u3a_is_cat(som)) ) { return 1; } else { c3_w* dog_w = u3a_to_ptr(som); u3a_box* box_u = u3a_botox(dog_w); return box_u->use_w; } } /* u3a_mark_ptr(): mark a pointer for gc. Produce size if first mark. */ c3_w u3a_mark_ptr(void* ptr_v) { if ( _(u3a_is_north(u3R)) ) { if ( !((ptr_v >= u3a_into(u3R->rut_p)) && (ptr_v < u3a_into(u3R->hat_p))) ) { return 0; } } else { if ( !((ptr_v >= u3a_into(u3R->hat_p)) && (ptr_v < u3a_into(u3R->rut_p))) ) { return 0; } } { u3a_box* box_u = u3a_botox(ptr_v); c3_w siz_w; #ifdef U3_MEMORY_DEBUG if ( box_u->eus_w == 0 ) { siz_w = box_u->siz_w; } else { siz_w = 0; } box_u->eus_w += 1; #else c3_ws use_ws = (c3_ws)box_u->use_w; if ( use_ws == 0 ) { fprintf(stderr, "%p is bogus\r\n", ptr_v); siz_w = 0; } else { c3_assert(use_ws != 0); if ( use_ws < 0 ) { use_ws -= 1; siz_w = 0; } else { use_ws = -1; siz_w = box_u->siz_w; } box_u->use_w = (c3_w)use_ws; } #endif return siz_w; } } /* u3a_mark_mptr(): mark a malloc-allocated ptr for gc. */ c3_w u3a_mark_mptr(void* ptr_v) { c3_w* ptr_w = ptr_v; c3_w pad_w = ptr_w[-1]; c3_w* org_w = ptr_w - (pad_w + 1); // printf("free %p %p\r\n", org_w, ptr_w); return u3a_mark_ptr(org_w); } /* u3a_mark_noun(): mark a noun for gc. Produce size. */ c3_w u3a_mark_noun(u3_noun som) { c3_w siz_w = 0; while ( 1 ) { if ( _(u3a_is_senior(u3R, som)) ) { return siz_w; } else { c3_w* dog_w = u3a_to_ptr(som); c3_w new_w = u3a_mark_ptr(dog_w); if ( 0 == new_w ) { return siz_w; } else { siz_w += new_w; if ( _(u3du(som)) ) { siz_w += u3a_mark_noun(u3h(som)); som = u3t(som); } else return siz_w; } } } } /* u3a_print_memory: print memory amount. */ void u3a_print_memory(c3_c* cap_c, c3_w wor_w) { c3_w byt_w = (wor_w * 4); c3_w gib_w = (byt_w / 1000000000); c3_w mib_w = (byt_w % 1000000000) / 1000000; c3_w kib_w = (byt_w % 1000000) / 1000; c3_w bib_w = (byt_w % 1000); if ( byt_w ) { if ( gib_w ) { fprintf(stderr, "%s: GB/%d.%03d.%03d.%03d\r\n", cap_c, gib_w, mib_w, kib_w, bib_w); } else if ( mib_w ) { fprintf(stderr, "%s: MB/%d.%03d.%03d\r\n", cap_c, mib_w, kib_w, bib_w); } else if ( kib_w ) { fprintf(stderr, "%s: KB/%d.%03d\r\n", cap_c, kib_w, bib_w); } else if ( bib_w ) { fprintf(stderr, "%s: B/%d\r\n", cap_c, bib_w); } } } /* u3a_sweep(): sweep a fully marked road. */ void u3a_sweep(c3_c* cap_c) { c3_w neg_w, pos_w, leq_w, weq_w, tot_w, caf_w; /* Measure allocated memory by counting the free list. */ { c3_w end_w; c3_w fre_w = 0; c3_w i_w; end_w = _(u3a_is_north(u3R)) ? (u3R->hat_p - u3R->rut_p) : (u3R->rut_p - u3R->hat_p); for ( i_w = 0; i_w < u3a_fbox_no; i_w++ ) { u3p(u3a_fbox) fre_p = u3R->all.fre_p[i_w]; while ( fre_p ) { u3a_fbox* fre_u = u3to(u3a_fbox, fre_p); fre_w += fre_u->box_u.siz_w; fre_p = fre_u->nex_p; } } neg_w = (end_w - fre_w); } /* Sweep through the arena, repairing and counting leaks. */ pos_w = leq_w = weq_w = 0; { u3_post box_p = _(u3a_is_north(u3R)) ? u3R->rut_p : u3R->hat_p; u3_post end_p = _(u3a_is_north(u3R)) ? u3R->hat_p : u3R->rut_p; c3_w* box_w = u3a_into(box_p); c3_w* end_w = u3a_into(end_p); while ( box_w < end_w ) { u3a_box* box_u = (void *)box_w; #ifdef U3_MEMORY_DEBUG if ( box_u->use_w != box_u->eus_w ) { if ( box_u->eus_w != 0 ) { if ( box_u->use_w == 0 ) { printf("dank %p (%d, %d)\r\n", box_u, box_u->use_w, box_u->eus_w); } else { printf("weak %p %x (cell) %x (%d, %d)\r\n", box_u, (u3_noun)u3a_to_pom(u3a_outa(u3a_boxto(box_w))), ((u3a_noun *)(u3a_boxto(box_w)))->mug_w, box_u->use_w, box_u->eus_w); u3m_p("weak", u3a_to_pom(u3a_outa(u3a_boxto(box_w)))); } weq_w += box_u->siz_w; } else { printf("leak %p %x (cell)/%x (%d)\r\n", box_u, (u3_noun)u3a_to_pom(u3a_outa(u3a_boxto(box_w))), ((u3a_noun *)(u3a_boxto(box_w)))->mug_w ? ((u3a_noun *)(u3a_boxto(box_w)))->mug_w : u3r_mug(u3a_to_pom(u3a_outa(u3a_boxto(box_w)))), box_u->use_w); u3m_p("leak", u3a_to_pom(u3a_outa(u3a_boxto(box_w)))); leq_w += box_u->siz_w; } if ( box_u->cod_w ) { u3m_p(" code", box_u->cod_w); } box_u->use_w = box_u->eus_w; } else { if ( box_u->use_w ) { pos_w += box_u->siz_w; } } box_u->eus_w = 0; #else c3_ws use_ws = (c3_ws)box_u->use_w; if ( use_ws > 0 ) { printf("leak %p\r\n", box_u); leq_w += box_u->siz_w; box_u->use_w = 0; _box_attach(box_u); } else if ( use_ws < 0 ) { pos_w += box_u->siz_w; box_u->use_w = (c3_w)(0 - use_ws); } #endif box_w += box_u->siz_w; } } tot_w = _(u3a_is_north(u3R)) ? u3R->mat_p - u3R->rut_p : u3R->rut_p - u3R->mat_p; caf_w = _(u3a_is_north(u3R)) ? u3R->mat_p - u3R->cap_p : u3R->cap_p - u3R->mat_p; // u3a_print_memory("available", (tot_w - pos_w)); // u3a_print_memory("allocated", pos_w); // u3a_print_memory("volatile", caf_w); u3a_print_memory("leaked", leq_w); u3a_print_memory("weaked", weq_w); c3_assert((pos_w + leq_w + weq_w) == neg_w); if ( 0 != leq_w || (0 != weq_w) ) { c3_assert(0); } } /* u3a_slab(): create a length-bounded proto-atom. */ c3_w* u3a_slab(c3_w len_w) { c3_w* nov_w = u3a_walloc(len_w + c3_wiseof(u3a_atom)); u3a_atom* pug_u = (void *)nov_w; pug_u->mug_w = 0; pug_u->len_w = len_w; /* Clear teh slab. */ { c3_w i_w; for ( i_w=0; i_w < len_w; i_w++ ) { pug_u->buf_w[i_w] = 0; } } return pug_u->buf_w; } /* u3a_slaq(): u3a_slaq() with a defined blocksize. */ c3_w* u3a_slaq(c3_g met_g, c3_w len_w) { return u3a_slab(((len_w << met_g) + 31) >> 5); } /* u3a_malt(): measure and finish a proto-atom. */ u3_noun u3a_malt(c3_w* sal_w) { c3_w* nov_w = (sal_w - c3_wiseof(u3a_atom)); u3a_atom* nov_u = (void *)nov_w; c3_w len_w; for ( len_w = nov_u->len_w; len_w; len_w-- ) { if ( 0 != nov_u->buf_w[len_w - 1] ) { break; } } return u3a_mint(sal_w, len_w); } /* u3a_moot(): finish a pre-measured proto-atom; dangerous. */ u3_noun u3a_moot(c3_w* sal_w) { c3_w* nov_w = (sal_w - c3_wiseof(u3a_atom)); u3a_atom* nov_u = (void*)nov_w; c3_w len_w = nov_u->len_w; c3_w las_w = nov_u->buf_w[len_w - 1]; c3_assert(0 != len_w); c3_assert(0 != las_w); if ( 1 == len_w ) { if ( _(u3a_is_cat(las_w)) ) { u3a_wfree(nov_w); return las_w; } } return u3a_to_pug(u3a_outa(nov_w)); } #if 0 /* _ca_detect(): in u3a_detect(). */ static c3_d _ca_detect(u3p(u3h_root) har_p, u3_noun fum, u3_noun som, c3_d axe_d) { while ( 1 ) { if ( som == fum ) { return axe_d; } else if ( !_(u3du(fum)) || (u3_none != u3h_get(har_p, fum)) ) { return 0; } else { c3_d eax_d; u3h_put(har_p, fum, 0); if ( 0 != (eax_d = _ca_detect(har_p, u3h(fum), som, 2ULL * axe_d)) ) { return c3y; } else { fum = u3t(fum); axe_d = (2ULL * axe_d) + 1; } } } } /* u3a_detect(): for debugging, check if (som) is referenced from (fum). ** ** (som) and (fum) are both RETAINED. */ c3_d u3a_detect(u3_noun fum, u3_noun som) { u3p(u3h_root) har_p = u3h_new(); c3_o ret_o; ret_o = _ca_detect(har_p, fum, som, 1); u3h_free(har_p); return ret_o; } #endif /* u3a_mint(): finish a measured proto-atom. */ u3_noun u3a_mint(c3_w* sal_w, c3_w len_w) { c3_w* nov_w = (sal_w - c3_wiseof(u3a_atom)); u3a_atom* nov_u = (void*)nov_w; /* See if we can free the slab entirely. */ if ( len_w == 0 ) { u3a_wfree(nov_w); return 0; } else if ( len_w == 1 ) { c3_w low_w = nov_u->buf_w[0]; if ( _(u3a_is_cat(low_w)) ) { u3a_wfree(nov_w); return low_w; } } /* See if we can strip off a block on the end. */ { c3_w old_w = nov_u->len_w; c3_w dif_w = (old_w - len_w); if ( dif_w >= u3a_minimum ) { c3_w* box_w = (void *)u3a_botox(nov_w); c3_w* end_w = (nov_w + c3_wiseof(u3a_atom) + len_w + 1); c3_w asz_w = (end_w - box_w); c3_w bsz_w = box_w[0] - asz_w; _box_attach(_box_make(end_w, bsz_w, 0)); box_w[0] = asz_w; box_w[asz_w - 1] = asz_w; } nov_u->len_w = len_w; } return u3a_to_pug(u3a_outa(nov_w)); } #ifdef U3_MEMORY_DEBUG /* u3a_lush(): leak push. */ c3_w u3a_lush(c3_w lab_w) { c3_w cod_w = u3_Code; u3_Code = lab_w; return cod_w; } /* u3a_lop(): leak pop. */ void u3a_lop(c3_w lab_w) { u3_Code = lab_w; } #else /* u3a_lush(): leak push. */ c3_w u3a_lush(c3_w lab_w) { return 0; } /* u3a_lop(): leak pop. */ void u3a_lop(c3_w lab_w) { } #endif