shrub/include/noun/allocate.h
Elliot Glaysher 8b9680072a Add support for trace_event files.
This adds a -j parameter which writes traces of your Urbit's function call
stack to a json file, readable by Chrome's about://tracing or the standalone
trace-viewer webapp.
2018-12-01 15:54:55 -08:00

463 lines
14 KiB
C

/* i/n/a.h
**
** This file is in the public domain.
*/
/** Constants.
**/
/* u3a_bits: number of bits in word-addressed pointer. 29 == 2GB.
*/
# define u3a_bits U3_OS_LoomBits
/* u3a_page: number of bits in word-addressed page. 12 == 16Kbyte page.
*/
# define u3a_page 12
/* u3a_pages: number of pages in memory.
*/
# define u3a_pages (1 << (u3a_bits - u3a_page))
/* u3a_words: number of words in memory.
*/
# define u3a_words (1 << u3a_bits)
/* u3a_bytes: number of bytes in memory.
*/
# define u3a_bytes (c3_w)((1 << (2 + u3a_bits)))
/* u3a_minimum: minimum number of words in a box.
*/
#ifdef U3_MEMORY_DEBUG
# define u3a_minimum 8
#else
# define u3a_minimum 6
#endif
/* u3a_fbox_no: number of free lists per size.
*/
# define u3a_fbox_no 27
/** Structures.
**/
/* u3a_atom, u3a_cell: logical atom and cell structures.
*/
typedef struct {
c3_w mug_w;
} u3a_noun;
typedef struct {
c3_w mug_w;
c3_w len_w;
c3_w buf_w[0];
} u3a_atom;
typedef struct {
c3_w mug_w;
u3_noun hed;
u3_noun tel;
} u3a_cell;
/* u3a_box: classic allocation box.
**
** The box size is also stored at the end of the box in classic
** bad ass malloc style. Hence a box is:
**
** ---
** siz_w
** use_w
** user data
** siz_w
** ---
**
** Do not attempt to adjust this structure!
*/
typedef struct _u3a_box {
c3_w siz_w; // size of this box
c3_w use_w; // reference count; free if 0
# ifdef U3_MEMORY_DEBUG
c3_w eus_w; // recomputed refcount
c3_w cod_w; // tracing code
# endif
} u3a_box;
/* u3a_fbox: free node in heap. Sets minimum node size.
*/
typedef struct _u3a_fbox {
u3a_box box_u;
u3p(struct _u3a_fbox) pre_p;
u3p(struct _u3a_fbox) nex_p;
} u3a_fbox;
/* u3a_road: contiguous allocation and execution context.
*/
typedef struct _u3a_road {
u3p(struct _u3a_road) par_p; // parent road
u3p(struct _u3a_road) kid_p; // child road list
u3p(struct _u3a_road) nex_p; // sibling road
u3p(c3_w) cap_p; // top of transient region
u3p(c3_w) hat_p; // top of durable region
u3p(c3_w) mat_p; // bottom of transient region
u3p(c3_w) rut_p; // bottom of durable region
u3p(c3_w) ear_p; // original cap if kid is live
c3_w fut_w[32]; // futureproof buffer
struct { // escape buffer
union {
jmp_buf buf;
c3_w buf_w[256]; // futureproofing
};
} esc;
struct { // miscellaneous config
c3_w fag_w; // flag bits
} how; //
struct { // allocation pools
u3p(u3a_fbox) fre_p[u3a_fbox_no]; // heap by node size log
u3p(u3a_fbox) cel_p; // custom cell allocator
c3_w fre_w; // number of free words
c3_w max_w; // maximum allocated
} all;
struct { // jet dashboard
u3p(u3h_root) hot_p; // hot state (home road only)
u3p(u3h_root) war_p; // warm state
u3p(u3h_root) cod_p; // cold state
u3p(u3h_root) han_p; // hank cache
u3p(u3h_root) bas_p; // battery hashes
} jed;
struct { // bytecode state
u3p(u3h_root) har_p; // formula->post of bytecode
} byc;
struct { // namespace
u3_noun gul; // (list $+(* (unit (unit)))) now
} ski;
struct { // trace stack
u3_noun tax; // (list ,*)
u3_noun mer; // emergency buffer to release
} bug;
struct { // profile stack
c3_d nox_d; // nock steps
c3_d cel_d; // cell allocations
u3_noun don; // (list batt)
u3_noun trace; // (list trace)
u3_noun day; // doss, only in u3H (moveme)
} pro;
struct { // memoization
u3p(u3h_root) har_p; // (map (pair term noun) noun)
} cax;
} u3a_road;
typedef u3a_road u3_road;
/* u3a_flag: flags for how.fag_w. All arena related.
*/
enum u3a_flag {
u3a_flag_sand = 0x1, // bump allocation (XX not impl)
};
/** Macros. Should be better commented.
**/
/* In and out of the box.
*/
# define u3a_boxed(len_w) (len_w + c3_wiseof(u3a_box) + 1)
# define u3a_boxto(box_v) ( (void *) \
( ((c3_w *)(void*)(box_v)) + \
c3_wiseof(u3a_box) ) )
# define u3a_botox(tox_v) ( (struct _u3a_box *) \
(void *) \
( ((c3_w *)(void*)(tox_v)) - \
c3_wiseof(u3a_box) ) )
/* Inside a noun.
*/
# define u3a_is_cat(som) (((som) >> 31) ? c3n : c3y)
# define u3a_is_dog(som) (((som) >> 31) ? c3y : c3n)
# define u3a_is_pug(som) ((2 == ((som) >> 30)) ? c3y : c3n)
# define u3a_is_pom(som) ((3 == ((som) >> 30)) ? c3y : c3n)
# define u3a_to_off(som) ((som) & 0x3fffffff)
# define u3a_to_ptr(som) (u3a_into(u3a_to_off(som)))
# define u3a_to_wtr(som) ((c3_w *)u3a_to_ptr(som))
# define u3a_to_pug(off) (off | 0x80000000)
# define u3a_to_pom(off) (off | 0xc0000000)
# define u3a_is_atom(som) c3o(u3a_is_cat(som), \
u3a_is_pug(som))
# define u3a_is_cell(som) u3a_is_pom(som)
# define u3a_de_twin(dog, dog_w) ((dog & 0xc0000000) | u3a_outa(dog_w))
# define u3a_h(som) \
( _(u3a_is_cell(som)) \
? ( ((u3a_cell *)u3a_to_ptr(som))->hed )\
: u3m_bail(c3__exit) )
# define u3a_t(som) \
( _(u3a_is_cell(som)) \
? ( ((u3a_cell *)u3a_to_ptr(som))->tel )\
: u3m_bail(c3__exit) )
# define u3a_into(x) ((void *)(u3_Loom + (x)))
# define u3a_outa(p) (((c3_w*)(void*)(p)) - u3_Loom)
# define u3a_is_north(r) __(r->cap_p > r->hat_p)
# define u3a_is_south(r) !u3a_is_north(r)
# define u3a_open(r) ( (c3y == u3a_is_north(r)) \
? (c3_w)(r->cap_p - r->hat_p) \
: (c3_w)(r->hat_p - r->cap_p) )
# define u3a_north_is_senior(r, dog) \
__((u3a_to_off(dog) < r->rut_p) || \
(u3a_to_off(dog) >= r->mat_p))
# define u3a_north_is_junior(r, dog) \
__((u3a_to_off(dog) >= r->cap_p) && \
(u3a_to_off(dog) < r->mat_p))
# define u3a_north_is_normal(r, dog) \
c3a(!(u3a_north_is_senior(r, dog)), \
!(u3a_north_is_junior(r, dog)))
# define u3a_south_is_senior(r, dog) \
__((u3a_to_off(dog) < r->mat_p) || \
(u3a_to_off(dog) >= r->rut_p))
# define u3a_south_is_junior(r, dog) \
__((u3a_to_off(dog) < r->cap_p) && \
(u3a_to_off(dog) >= r->mat_p))
# define u3a_south_is_normal(r, dog) \
c3a(!(u3a_south_is_senior(r, dog)), \
!(u3a_south_is_junior(r, dog)))
# define u3a_is_junior(r, som) \
( _(u3a_is_cat(som)) \
? c3n \
: _(u3a_is_north(r)) \
? u3a_north_is_junior(r, som) \
: u3a_south_is_junior(r, som) )
# define u3a_is_senior(r, som) \
( _(u3a_is_cat(som)) \
? c3y \
: _(u3a_is_north(r)) \
? u3a_north_is_senior(r, som) \
: u3a_south_is_senior(r, som) )
# define u3a_is_mutable(r, som) \
( _(u3a_is_atom(som)) \
? c3n \
: _(u3a_is_senior(r, som)) \
? c3n \
: _(u3a_is_junior(r, som)) \
? c3n \
: (u3a_botox(u3a_to_ptr(som))->use_w == 1) \
? c3y : c3n )
/** Globals.
**/
/* u3_Road / u3R: current road (thread-local).
*/
c3_global u3_road* u3a_Road;
# define u3R u3a_Road
/* u3_Code: memory code.
*/
#ifdef U3_MEMORY_DEBUG
c3_global c3_w u3_Code;
#endif
# define u3_Loom ((c3_w *)(void *)U3_OS_LoomBase)
/** Functions.
**/
/** Allocation.
**/
/* Word-aligned allocation.
*/
/* u3a_walloc(): allocate storage measured in words.
*/
void*
u3a_walloc(c3_w len_w);
/* u3a_celloc(): allocate a cell. Faster, sometimes.
*/
c3_w*
u3a_celloc(void);
/* u3a_wfree(): free storage.
*/
void
u3a_wfree(void* lag_v);
/* u3a_wealloc(): word realloc.
*/
void*
u3a_wealloc(void* lag_v, c3_w len_w);
/* u3a_push(): allocate space on the road stack
*/
void*
u3a_push(c3_w len_w);
/* u3a_pop(): deallocate space on the road stack
*/
void
u3a_pop(c3_w len_w);
/* u3a_peek(): examine the top of the road stack
*/
void*
u3a_peek(c3_w len_w);
/* C-style aligned allocation - *not* compatible with above.
*/
/* u3a_malloc(): aligned storage measured in bytes.
*/
void*
u3a_malloc(size_t len_i);
/* u3a_calloc(): aligned storage measured in bytes.
*/
void*
u3a_calloc(size_t num_i, size_t len_i);
/* u3a_realloc(): aligned realloc in bytes.
*/
void*
u3a_realloc(void* lag_v, size_t len_i);
/* u3a_realloc2(): gmp-shaped realloc.
*/
void*
u3a_realloc2(void* lag_v, size_t old_i, size_t new_i);
/* u3a_free(): free for aligned malloc.
*/
void
u3a_free(void* tox_v);
/* u3a_free2(): gmp-shaped free.
*/
void
u3a_free2(void* tox_v, size_t siz_i);
/* Reference and arena control.
*/
/* u3a_gain(): gain a reference count in normal space.
*/
u3_weak
u3a_gain(u3_weak som);
/* u3a_take(): gain, copying juniors.
*/
u3_noun
u3a_take(u3_noun som);
/* u3a_left(): true of junior if preserved.
*/
c3_o
u3a_left(u3_noun som);
/* u3a_lose(): lose a reference.
*/
void
u3a_lose(u3_weak som);
/* u3a_wash(): wash all lazy mugs in subtree. RETAIN.
*/
void
u3a_wash(u3_noun som);
/* u3a_use(): reference count.
*/
c3_w
u3a_use(u3_noun som);
/* u3a_luse(): check refcount sanity.
*/
void
u3a_luse(u3_noun som);
/* u3a_mark_ptr(): mark a pointer for gc. Produce size.
*/
c3_w
u3a_mark_ptr(void* ptr_v);
/* u3a_mark_mptr(): mark a u3_malloc-allocated ptr for gc.
*/
c3_w
u3a_mark_mptr(void* ptr_v);
/* u3a_mark_noun(): mark a noun for gc. Produce size.
*/
c3_w
u3a_mark_noun(u3_noun som);
/* u3a_sweep(): sweep a fully marked road.
*/
c3_w
u3a_sweep(void);
/* u3a_sane(): check allocator sanity.
*/
void
u3a_sane(void);
/* u3a_lush(): leak push.
*/
c3_w
u3a_lush(c3_w lab_w);
/* u3a_lop(): leak pop.
*/
void
u3a_lop(c3_w lab_w);
/* u3a_print_memory: print memory amount.
*/
void
u3a_print_memory(c3_c* cap_c, c3_w wor_w);
/* u3a_deadbeef(): write 0xdeadbeef from hat to cap.
*/
void
u3a_deadbeef(void);
/* Atoms from proto-atoms.
*/
/* u3a_slab(): create a length-bounded proto-atom.
*/
c3_w*
u3a_slab(c3_w len_w);
/* u3a_slaq(): u3a_slab() with a defined blocksize.
*/
c3_w*
u3a_slaq(c3_g met_g, c3_w len_w);
/* u3a_malt(): measure and finish a proto-atom.
*/
u3_noun
u3a_malt(c3_w* sal_w);
/* u3a_moot(): finish a pre-measured proto-atom; dangerous.
*/
u3_noun
u3a_moot(c3_w* sal_w);
/* u3a_mint(): finish a measured proto-atom.
*/
u3_noun
u3a_mint(c3_w* sal_w, c3_w len_w);