swh:1:snp:a72e953ecd624a7df6e6196bbdd05851996c5e40
Tip revision: ae683afcc4cc824dcf68251569a6cf8760e4fb6f authored by Tony Kelman on 15 March 2016, 15:43:06 UTC
Tag v0.4.4
Tag v0.4.4
Tip revision: ae683af
dump.c
// This file is a part of Julia. License is MIT: http://julialang.org/license
/*
saving and restoring system images
*/
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "julia.h"
#include "julia_internal.h"
#include "builtin_proto.h"
#ifndef _OS_WINDOWS_
#include <dlfcn.h>
#endif
#ifndef _COMPILER_MICROSOFT_
#include "valgrind.h"
#else
#define RUNNING_ON_VALGRIND 0
#endif
#ifdef __cplusplus
extern "C" {
#endif
// TODO: put WeakRefs on the weak_refs list during deserialization
// TODO: handle finalizers
// hash of definitions for predefined tagged object
static htable_t ser_tag;
// array of definitions for the predefined tagged object types
// (reverse of ser_tag)
static jl_value_t *deser_tag[256];
// hash of some common symbols, encoded as CommonSym_tag plus 1 byte
static htable_t common_symbol_tag;
static jl_value_t *deser_symbols[256];
// table of all objects that have been deserialized, indexed by pos
// (the order in the serializer stream) in MODE_MODULE, the low
// bit is reserved for flagging certain entries and pos is
// left shift by 1
static htable_t backref_table;
int backref_table_numel;
static arraylist_t backref_list;
// list of (jl_value_t **loc, size_t pos) entries
// for anything that was flagged by the deserializer for later
// type-rewriting of some sort
static arraylist_t flagref_list;
// list of (size_t pos, (void *f)(jl_value_t*)) entries
// for the serializer to mark values in need of rework by function f
// during deserialization later
static arraylist_t reinit_list;
// list of any methtable objects that were deserialized in MODE_MODULE
// and need to be rehashed after assigning the uid fields to types
// (only used in MODE_MODULE and MODE_MODULE_POSTWORK)
static arraylist_t methtable_list;
// list of stuff that is being serialized
// (only used by the incremental serializer in MODE_MODULE)
static jl_array_t *serializer_worklist;
// hash of definitions for predefined function pointers
static htable_t fptr_to_id;
// array of definitions for the predefined function pointers
// (reverse of fptr_to_id)
static jl_fptr_t id_to_fptrs[] = {
NULL, NULL,
jl_f_throw, jl_f_is, jl_f_no_function, jl_f_typeof,
jl_f_subtype, jl_f_isa, jl_f_typeassert, jl_f_apply,
jl_f_top_eval, jl_f_isdefined, jl_f_tuple, jl_f_svec,
jl_f_get_field, jl_f_set_field, jl_f_field_type, jl_f_nfields,
jl_f_arraylen, jl_f_arrayref, jl_f_arrayset, jl_f_arraysize,
jl_f_instantiate_type, jl_f_kwcall, jl_trampoline,
jl_f_methodexists, jl_f_applicable, jl_f_invoke,
jl_apply_generic, jl_unprotect_stack, jl_f_sizeof, jl_f_new_expr,
NULL };
// pointers to non-AST-ish objects in a compressed tree
static jl_array_t *tree_literal_values=NULL; // (only used in MODE_AST)
static jl_module_t *tree_enclosing_module=NULL; // (only used in MODE_AST)
static const ptrint_t LongSymbol_tag = 23;
static const ptrint_t LongSvec_tag = 24;
static const ptrint_t LongExpr_tag = 25;
static const ptrint_t LiteralVal_tag = 26;
static const ptrint_t SmallInt64_tag = 27;
static const ptrint_t SmallDataType_tag= 28;
static const ptrint_t Int32_tag = 29;
static const ptrint_t Array1d_tag = 30;
static const ptrint_t Singleton_tag = 31;
static const ptrint_t CommonSym_tag = 32;
static const ptrint_t NearbyGlobal_tag = 33; // a GlobalRef pointing to tree_enclosing_module
static const ptrint_t Null_tag = 253;
static const ptrint_t ShortBackRef_tag = 254;
static const ptrint_t BackRef_tag = 255;
static ptrint_t VALUE_TAGS;
typedef enum _DUMP_MODES {
// not in the serializer at all, or
// something is seriously wrong
MODE_INVALID = 0,
// jl_uncompress_ast
// compressing / decompressing an AST Expr in a LambdaStaticData
MODE_AST,
// jl_restore_system_image
// restoring an entire system image from disk
MODE_SYSTEM_IMAGE,
// jl_restore_new_module
// restoring a single module from disk for integration
// into the currently running system image / environment
MODE_MODULE, // first-stage (pre type-uid assignment)
MODE_MODULE_POSTWORK, // second-stage (post type-uid assignment)
} DUMP_MODES;
static DUMP_MODES mode = (DUMP_MODES) 0;
static jl_value_t *jl_idtable_type=NULL;
// queue of types to cache
static jl_array_t *datatype_list=NULL; // (only used in MODE_SYSTEM_IMAGE)
#define write_uint8(s, n) ios_putc((n), (s))
#define read_uint8(s) ((uint8_t)ios_getc(s))
#define write_int8(s, n) write_uint8(s, n)
#define read_int8(s) read_uint8(s)
/* read and write in network (bigendian) order: */
static void write_int32(ios_t *s, int32_t i)
{
write_uint8(s, (i>>24) & 0xff);
write_uint8(s, (i>>16) & 0xff);
write_uint8(s, (i>> 8) & 0xff);
write_uint8(s, i & 0xff);
}
static int32_t read_int32(ios_t *s)
{
int b3 = read_uint8(s);
int b2 = read_uint8(s);
int b1 = read_uint8(s);
int b0 = read_uint8(s);
return b0 | (b1<<8) | (b2<<16) | (b3<<24);
}
static void write_uint64(ios_t *s, uint64_t i)
{
write_int32(s, (i>>32) & 0xffffffff);
write_int32(s, i & 0xffffffff);
}
static uint64_t read_uint64(ios_t *s)
{
uint64_t b1 = (uint32_t)read_int32(s);
uint64_t b0 = (uint32_t)read_int32(s);
return b0 | (b1<<32);
}
static void write_uint16(ios_t *s, uint16_t i)
{
write_uint8(s, (i>> 8) & 0xff);
write_uint8(s, i & 0xff);
}
static uint16_t read_uint16(ios_t *s)
{
int b1 = read_uint8(s);
int b0 = read_uint8(s);
return b0 | (b1<<8);
}
static void writetag(ios_t *s, void *v)
{
write_uint8(s, (uint8_t)(ptrint_t)ptrhash_get(&ser_tag, v));
}
static void write_as_tag(ios_t *s, uint8_t tag)
{
if (tag < VALUE_TAGS) {
write_uint8(s, 0);
}
write_uint8(s, tag);
}
static void write_float64(ios_t *s, double x)
{
write_uint64(s, *((uint64_t*)&x));
}
// --- Static Compile ---
#define jl_serialize_value(s, v) jl_serialize_value_(s,(jl_value_t*)(v))
static void jl_serialize_value_(ios_t *s, jl_value_t *v);
static jl_value_t *jl_deserialize_value(ios_t *s, jl_value_t **loc);
jl_value_t ***sysimg_gvars = NULL;
#ifdef HAVE_CPUID
extern void jl_cpuid(int32_t CPUInfo[4], int32_t InfoType);
#endif
extern int globalUnique;
uv_lib_t *jl_sysimg_handle = NULL;
uint64_t jl_sysimage_base = 0;
#ifdef _OS_WINDOWS_
#include <dbghelp.h>
#endif
DLLEXPORT int jl_running_on_valgrind()
{
return RUNNING_ON_VALGRIND;
}
static int jl_load_sysimg_so()
{
#ifndef _OS_WINDOWS_
Dl_info dlinfo;
#endif
// attempt to load the pre-compiled sysimage from jl_sysimg_handle
if (jl_sysimg_handle == 0)
return -1;
int imaging_mode = jl_generating_output() && !jl_options.incremental;
// in --build mode only use sysimg data, not precompiled native code
if (!imaging_mode && jl_options.use_precompiled==JL_OPTIONS_USE_PRECOMPILED_YES) {
sysimg_gvars = (jl_value_t***)jl_dlsym(jl_sysimg_handle, "jl_sysimg_gvars");
globalUnique = *(size_t*)jl_dlsym(jl_sysimg_handle, "jl_globalUnique");
const char *cpu_target = (const char*)jl_dlsym(jl_sysimg_handle, "jl_sysimg_cpu_target");
if (strcmp(cpu_target,jl_options.cpu_target) != 0)
jl_error("Julia and the system image were compiled for different architectures.\n"
"Please delete or regenerate sys.{so,dll,dylib}.");
#ifdef HAVE_CPUID
uint32_t info[4];
jl_cpuid((int32_t*)info, 1);
if (strcmp(cpu_target, "native") == 0) {
if (!RUNNING_ON_VALGRIND) {
uint64_t saved_cpuid = *(uint64_t*)jl_dlsym(jl_sysimg_handle, "jl_sysimg_cpu_cpuid");
if (saved_cpuid != (((uint64_t)info[2])|(((uint64_t)info[3])<<32)))
jl_error("Target architecture mismatch. Please delete or regenerate sys.{so,dll,dylib}.");
}
}
else if (strcmp(cpu_target,"core2") == 0) {
int HasSSSE3 = (info[2] & 1<<9);
if (!HasSSSE3)
jl_error("The current host does not support SSSE3, but the system image was compiled for Core2.\n"
"Please delete or regenerate sys.{so,dll,dylib}.");
}
#endif
#ifdef _OS_WINDOWS_
jl_sysimage_base = (intptr_t)jl_sysimg_handle->handle;
#else
if (dladdr((void*)sysimg_gvars, &dlinfo) != 0) {
jl_sysimage_base = (intptr_t)dlinfo.dli_fbase;
}
else {
jl_sysimage_base = 0;
}
#endif
}
const char *sysimg_data = (const char*)jl_dlsym_e(jl_sysimg_handle, "jl_system_image_data");
if (sysimg_data) {
size_t len = *(size_t*)jl_dlsym(jl_sysimg_handle, "jl_system_image_size");
jl_restore_system_image_data(sysimg_data, len);
return 0;
}
return -1;
}
static jl_value_t *jl_deserialize_gv(ios_t *s, jl_value_t *v)
{
// Restore the GlobalVariable reference to this jl_value_t via the sysimg_gvars table
int32_t gvname_index = read_int32(s)-1;
if (sysimg_gvars != NULL && gvname_index >= 0 && mode == MODE_SYSTEM_IMAGE) {
*sysimg_gvars[gvname_index] = v;
}
return v;
}
static void jl_serialize_gv(ios_t *s, jl_value_t *v)
{
// write the index of the literal_pointer_val into the system image
write_int32(s, jl_get_llvm_gv(v));
}
static void jl_serialize_globalvals(ios_t *s)
{
size_t i, len = backref_table.size;
void **p = backref_table.table;
for(i=0; i < len; i+=2) {
char *offs = (char*)p[i+1];
if (offs != HT_NOTFOUND) {
uintptr_t pos = offs - (char*)HT_NOTFOUND - 1;
int32_t gv = jl_get_llvm_gv((jl_value_t*)p[i]);
if (gv != 0) {
write_int32(s, pos + 1);
write_int32(s, gv);
}
}
}
write_int32(s, 0);
}
static void jl_deserialize_globalvals(ios_t *s)
{
while (1) {
intptr_t key = read_int32(s);
if (key == 0) break;
jl_deserialize_gv(s, (jl_value_t*)backref_list.items[key - 1]);
}
}
static void jl_serialize_gv_syms(ios_t *s, jl_sym_t *v)
{
// since symbols are static, they might not have had a
// reference anywhere in the code image other than here
void *bp = ptrhash_get(&backref_table, v);
if (bp == HT_NOTFOUND) {
int32_t gv = jl_get_llvm_gv((jl_value_t*)v);
if (gv != 0) {
jl_serialize_value(s, v);
write_int32(s, gv);
}
}
if (v->left) jl_serialize_gv_syms(s, v->left);
if (v->right) jl_serialize_gv_syms(s, v->right);
}
static void jl_serialize_gv_others(ios_t *s)
{
// ensures all objects referenced in the code have
// references in the system image to their global variable
// since codegen knows that some integer boxes are static,
// they might not have had a reference anywhere in the code
// image other than here
int32_t i;
for (i = -512; i < 512; i++) {
jl_value_t *v32 = jl_box_int32(i);
void *bp32 = ptrhash_get(&backref_table, v32);
if (bp32 == HT_NOTFOUND) {
int32_t gv32 = jl_get_llvm_gv(v32);
if (gv32 != 0) {
jl_serialize_value(s, v32);
write_int32(s, gv32);
}
}
}
for (i = -512; i < 512; i++) {
jl_value_t *v64 = jl_box_int64(i);
void *bp64 = ptrhash_get(&backref_table, v64);
if (bp64 == HT_NOTFOUND) {
int32_t gv64 = jl_get_llvm_gv(v64);
if (gv64 != 0) {
jl_serialize_value(s, v64);
write_int32(s, gv64);
}
}
}
jl_serialize_gv_syms(s, jl_get_root_symbol());
jl_serialize_value(s, NULL); // signal the end of this list
}
static void jl_deserialize_gv_others(ios_t *s)
{
while (1) {
jl_value_t *v = jl_deserialize_value(s, NULL);
if (!v) break;
jl_deserialize_gv(s, v);
}
}
struct delayed_fptrs_t {
jl_lambda_info_t *li;
int32_t func;
int32_t cfunc;
} *delayed_fptrs = NULL;
static size_t delayed_fptrs_n = 0;
static size_t delayed_fptrs_max = 0;
static void jl_delayed_fptrs(jl_lambda_info_t *li, int32_t func, int32_t cfunc)
{
// can't restore the fptrs until after the system image is fully restored,
// since it will try to decompress the function AST to determine the argument types
if (cfunc || func) {
if (delayed_fptrs_max < delayed_fptrs_n + 1) {
if (delayed_fptrs_max == 0)
// current measurements put the number of functions at 1130
delayed_fptrs_max = 2048;
else
delayed_fptrs_max *= 2;
delayed_fptrs = (struct delayed_fptrs_t*)realloc(delayed_fptrs, delayed_fptrs_max*sizeof(delayed_fptrs[0])); //assumes sizeof==alignof
}
delayed_fptrs[delayed_fptrs_n].li = li;
delayed_fptrs[delayed_fptrs_n].func = func;
delayed_fptrs[delayed_fptrs_n].cfunc = cfunc;
delayed_fptrs_n++;
}
}
static void jl_update_all_fptrs()
{
//jl_printf(JL_STDOUT, "delayed_fptrs_n: %d\n", delayed_fptrs_n);
jl_value_t ***gvars = sysimg_gvars;
if (gvars == 0) return;
// jl_fptr_to_llvm needs to decompress some ASTs, therefore this needs to be NULL
// to skip trying to restore GlobalVariable pointers in jl_deserialize_gv
sysimg_gvars = NULL;
size_t i;
for (i = 0; i < delayed_fptrs_n; i++) {
jl_lambda_info_t *li = delayed_fptrs[i].li;
int32_t func = delayed_fptrs[i].func-1;
if (func >= 0) {
jl_fptr_to_llvm((void*)gvars[func], li, 0);
}
int32_t cfunc = delayed_fptrs[i].cfunc-1;
if (cfunc >= 0) {
jl_fptr_to_llvm((void*)gvars[cfunc], li, 1);
}
}
delayed_fptrs_n = 0;
delayed_fptrs_max = 0;
free(delayed_fptrs);
delayed_fptrs = NULL;
}
// --- serialize ---
static void jl_serialize_fptr(ios_t *s, void *fptr)
{
void **pbp = ptrhash_bp(&fptr_to_id, fptr);
if (*pbp == HT_NOTFOUND)
jl_error("unknown function pointer");
write_uint16(s, *(ptrint_t*)pbp);
}
static int module_in_worklist(jl_module_t *mod) {
int i, l = jl_array_len(serializer_worklist);
for (i = 0; i < l; i++) {
jl_module_t *workmod = (jl_module_t*)jl_cellref(serializer_worklist, i);
if (jl_is_module(workmod) && jl_is_submodule(mod, workmod))
return 1;
}
return 0;
}
static void jl_serialize_datatype(ios_t *s, jl_datatype_t *dt)
{
int tag = 0;
if (mode == MODE_MODULE_POSTWORK) {
if (dt->uid != 0) {
if (dt->name->primary == (jl_value_t*)dt)
tag = 6; // primary type
else
tag = 7; // must use apply_type
}
}
else if (mode == MODE_MODULE) {
int internal = module_in_worklist(dt->name->module);
int i, l = jl_array_len(serializer_worklist);
for (i = 0; i < l; i++) {
jl_module_t *mod = (jl_module_t*)jl_cellref(serializer_worklist, i);
if (jl_is_module(mod) && jl_is_submodule(dt->name->module, mod)) {
internal = 1;
break;
}
}
if (!internal && dt->name->primary == (jl_value_t*)dt) {
tag = 6; // external primary type
}
else if (dt->uid == 0) {
tag = 0; // normal struct
}
else if (!internal && jl_svec_len(dt->parameters) == 0) {
tag = 7; // external type that can be immediately recreated (with apply_type)
}
else {
tag = 5; // anything else (needs uid assigned later)
if (!internal) {
// also flag this in the backref table as special
uptrint_t *bp = (uptrint_t*)ptrhash_bp(&backref_table, dt);
assert(*bp != (uptrint_t)HT_NOTFOUND);
*bp |= 1; assert(((uptrint_t)HT_NOTFOUND)|1);
}
}
}
else if (dt == jl_int32_type)
tag = 2;
else if (dt == jl_bool_type)
tag = 3;
else if (dt == jl_int64_type)
tag = 4;
writetag(s, (jl_value_t*)SmallDataType_tag);
write_uint8(s, 0); // virtual size
jl_serialize_value(s, (jl_value_t*)jl_datatype_type);
write_uint8(s, tag);
if (tag == 6) {
jl_serialize_value(s, dt->name);
return;
}
if (tag == 7) {
jl_serialize_value(s, dt->name);
jl_serialize_value(s, dt->parameters);
return;
}
size_t nf = jl_datatype_nfields(dt);
write_uint16(s, nf);
write_int32(s, dt->size);
int has_instance = !!(dt->instance != NULL);
write_uint8(s, dt->abstract | (dt->mutabl<<1) | (dt->pointerfree<<2) | (has_instance<<3));
write_int8(s, dt->fielddesc_type);
if (!dt->abstract) {
write_uint16(s, dt->ninitialized);
if (mode != MODE_MODULE && mode != MODE_MODULE_POSTWORK) {
write_int32(s, dt->uid);
}
}
if (has_instance)
jl_serialize_value(s, dt->instance);
if (nf > 0) {
write_int32(s, dt->alignment);
write_int8(s, dt->haspadding);
size_t fieldsize = jl_fielddesc_size(dt->fielddesc_type);
ios_write(s, (char*)dt->fields, nf * fieldsize);
jl_serialize_value(s, dt->types);
}
jl_serialize_value(s, dt->parameters);
jl_serialize_value(s, dt->name);
jl_serialize_value(s, dt->super);
}
static void jl_serialize_module(ios_t *s, jl_module_t *m)
{
writetag(s, jl_module_type);
jl_serialize_value(s, m->name);
int ref_only = 0;
if (mode == MODE_MODULE_POSTWORK) {
assert(!module_in_worklist(m));
ref_only = 1;
}
if (mode == MODE_MODULE) {
if (!module_in_worklist(m))
ref_only = 1;
write_int8(s, ref_only);
}
jl_serialize_value(s, m->parent);
if (ref_only) {
assert(m->parent != m);
return;
}
size_t i;
void **table = m->bindings.table;
for(i=1; i < m->bindings.size; i+=2) {
if (table[i] != HT_NOTFOUND) {
jl_binding_t *b = (jl_binding_t*)table[i];
if (b->owner == m || m != jl_main_module) {
jl_serialize_value(s, b->name);
jl_serialize_value(s, b->value);
jl_serialize_value(s, b->globalref);
jl_serialize_value(s, b->owner);
write_int8(s, (b->deprecated<<3) | (b->constp<<2) | (b->exportp<<1) | (b->imported));
jl_serialize_gv(s, (jl_value_t*)b);
}
}
}
jl_serialize_value(s, NULL);
if (m == jl_main_module) {
write_int32(s, 1);
jl_serialize_value(s, (jl_value_t*)jl_core_module);
}
else {
write_int32(s, m->usings.len);
for(i=0; i < m->usings.len; i++) {
jl_serialize_value(s, (jl_value_t*)m->usings.items[i]);
}
}
jl_serialize_value(s, m->constant_table);
write_uint8(s, m->istopmod);
write_uint8(s, m->std_imports);
write_uint64(s, m->uuid);
}
static int is_ast_node(jl_value_t *v)
{
if (jl_is_lambda_info(v)) {
jl_lambda_info_t *li = (jl_lambda_info_t*)v;
if (jl_is_expr(li->ast)) {
li->ast = jl_compress_ast(li, li->ast);
jl_gc_wb(li, li->ast);
}
return 0;
}
return jl_is_symbol(v) || jl_is_symbolnode(v) || jl_is_gensym(v) ||
jl_is_expr(v) || jl_is_newvarnode(v) || jl_is_svec(v) ||
jl_typeis(v, jl_array_any_type) || jl_is_tuple(v) ||
jl_is_uniontype(v) || jl_is_int32(v) || jl_is_int64(v) ||
jl_is_bool(v) || jl_is_typevar(v) ||
jl_is_topnode(v) || jl_is_quotenode(v) || jl_is_gotonode(v) ||
jl_is_labelnode(v) || jl_is_linenode(v) || jl_is_globalref(v);
}
static int literal_val_id(jl_value_t *v)
{
for(int i=0; i < jl_array_len(tree_literal_values); i++) {
if (jl_egal(jl_cellref(tree_literal_values,i), v))
return i;
}
jl_cell_1d_push(tree_literal_values, v);
return jl_array_len(tree_literal_values)-1;
}
static void jl_serialize_value_(ios_t *s, jl_value_t *v)
{
if (v == NULL) {
write_uint8(s, Null_tag);
return;
}
void **bp = ptrhash_bp(&ser_tag, v);
if (*bp != HT_NOTFOUND) {
write_as_tag(s, (uint8_t)(ptrint_t)*bp);
return;
}
if (jl_is_symbol(v)) {
void *idx = ptrhash_get(&common_symbol_tag, v);
if (idx != HT_NOTFOUND) {
writetag(s, (jl_value_t*)CommonSym_tag);
write_uint8(s, (uint8_t)(size_t)idx);
return;
}
}
if (mode == MODE_AST) {
// compressing tree
if (!is_ast_node(v)) {
writetag(s, (jl_value_t*)LiteralVal_tag);
write_uint16(s, literal_val_id(v));
return;
}
}
else {
bp = ptrhash_bp(&backref_table, v);
if (*bp != HT_NOTFOUND) {
uintptr_t pos = (char*)*bp - (char*)HT_NOTFOUND - 1;
if (pos < 65536) {
write_uint8(s, ShortBackRef_tag);
write_uint16(s, pos);
}
else {
write_uint8(s, BackRef_tag);
write_int32(s, pos);
}
return;
}
ptrint_t pos = backref_table_numel++;
if (jl_typeof(v) == jl_idtable_type) {
// will need to rehash this, later (after types are fully constructed)
arraylist_push(&reinit_list, (void*)pos);
arraylist_push(&reinit_list, (void*)1);
}
if (mode == MODE_MODULE && jl_is_module(v)) {
jl_module_t *m = (jl_module_t*)v;
if (module_in_worklist(m) && !module_in_worklist(m->parent)) {
// will need to reinsert this into parent bindings, later (in case of any errors during reinsert)
arraylist_push(&reinit_list, (void*)pos);
arraylist_push(&reinit_list, (void*)2);
}
}
if (mode == MODE_MODULE || mode == MODE_MODULE_POSTWORK)
pos <<= 1;
ptrhash_put(&backref_table, v, (char*)HT_NOTFOUND + pos + 1);
}
size_t i;
if (jl_is_svec(v)) {
size_t l = jl_svec_len(v);
if (l <= 255) {
writetag(s, jl_simplevector_type);
write_uint8(s, (uint8_t)l);
}
else {
writetag(s, (jl_value_t*)LongSvec_tag);
write_int32(s, l);
}
for(i=0; i < l; i++) {
jl_serialize_value(s, jl_svecref(v, i));
}
}
else if (jl_is_symbol(v)) {
size_t l = strlen(((jl_sym_t*)v)->name);
if (l <= 255) {
writetag(s, jl_symbol_type);
write_uint8(s, (uint8_t)l);
}
else {
writetag(s, (jl_value_t*)LongSymbol_tag);
write_int32(s, l);
}
ios_write(s, ((jl_sym_t*)v)->name, l);
}
else if (jl_is_globalref(v)) {
if (mode == MODE_AST && jl_globalref_mod(v) == tree_enclosing_module) {
writetag(s, (jl_value_t*)NearbyGlobal_tag);
jl_serialize_value(s, jl_globalref_name(v));
}
else {
writetag(s, (jl_value_t*)jl_globalref_type);
jl_serialize_value(s, jl_globalref_mod(v));
jl_serialize_value(s, jl_globalref_name(v));
}
}
else if (jl_is_array(v)) {
jl_array_t *ar = (jl_array_t*)v;
if (ar->ndims == 1 && ar->elsize < 128) {
writetag(s, (jl_value_t*)Array1d_tag);
write_uint8(s, (ar->ptrarray<<7) | (ar->elsize & 0x7f));
}
else {
writetag(s, (jl_value_t*)jl_array_type);
write_uint16(s, ar->ndims);
write_uint16(s, (ar->ptrarray<<15) | (ar->elsize & 0x7fff));
}
for (i=0; i < ar->ndims; i++)
jl_serialize_value(s, jl_box_long(jl_array_dim(ar,i)));
jl_serialize_value(s, jl_typeof(ar));
if (!ar->ptrarray) {
size_t tot = jl_array_len(ar) * ar->elsize;
ios_write(s, (char*)jl_array_data(ar), tot);
}
else {
for(i=0; i < jl_array_len(ar); i++) {
jl_serialize_value(s, jl_cellref(v, i));
}
}
}
else if (jl_is_expr(v)) {
jl_expr_t *e = (jl_expr_t*)v;
size_t l = jl_array_len(e->args);
if (l <= 255) {
writetag(s, jl_expr_type);
write_uint8(s, (uint8_t)l);
}
else {
writetag(s, (jl_value_t*)LongExpr_tag);
write_int32(s, l);
}
jl_serialize_value(s, e->head);
jl_serialize_value(s, e->etype);
for(i=0; i < l; i++) {
jl_serialize_value(s, jl_exprarg(e, i));
}
}
else if (jl_is_datatype(v)) {
jl_serialize_datatype(s, (jl_datatype_t*)v);
}
else if (jl_is_typevar(v)) {
writetag(s, jl_tvar_type);
jl_serialize_value(s, ((jl_tvar_t*)v)->name);
jl_serialize_value(s, ((jl_tvar_t*)v)->lb);
jl_serialize_value(s, ((jl_tvar_t*)v)->ub);
write_int8(s, ((jl_tvar_t*)v)->bound);
}
else if (jl_is_function(v)) {
writetag(s, jl_function_type);
if (mode == MODE_MODULE || mode == MODE_MODULE_POSTWORK) {
if (jl_is_gf(v)) {
jl_methtable_t *mt = jl_gf_mtable(v);
if (mt->module && !module_in_worklist(mt->module)) {
write_int8(s, 1);
jl_serialize_value(s, (jl_value_t*)mt->module);
jl_serialize_value(s, (jl_value_t*)mt->name);
return;
}
}
write_int8(s, 0);
}
jl_function_t *f = (jl_function_t*)v;
jl_serialize_value(s, (jl_value_t*)f->linfo);
jl_serialize_value(s, f->env);
if (f->linfo && f->linfo->ast && f->fptr != &jl_trampoline) {
jl_serialize_fptr(s, (void*)&jl_trampoline);
}
else {
jl_serialize_fptr(s, (void*)f->fptr);
}
}
else if (jl_is_lambda_info(v)) {
writetag(s, jl_lambda_info_type);
jl_lambda_info_t *li = (jl_lambda_info_t*)v;
jl_serialize_value(s, li->ast);
jl_serialize_value(s, (jl_value_t*)li->sparams);
// don't save cached type info for code in the Core module, because
// it might reference types in the old Base module.
if (li->module == jl_core_module) {
jl_serialize_value(s, jl_nothing);
}
else {
jl_array_t *tf = (jl_array_t*)li->tfunc;
// go through the t-func cache, replacing ASTs with just return
// types for abstract argument types. these ASTs are generally
// not needed (e.g. they don't get inlined).
if (tf && jl_typeis(tf, jl_array_any_type)) {
size_t i, l = jl_array_len(tf);
for(i=0; i < l; i += 3) {
if (!jl_is_leaf_type(jl_cellref(tf,i))) {
jl_value_t *ast = jl_cellref(tf,i+1);
if (ast && jl_is_array(ast) && jl_array_len(ast) > 500)
jl_cellset(tf, i+1, jl_ast_rettype(li, (jl_value_t*)ast));
}
}
}
jl_serialize_value(s, (jl_value_t*)li->tfunc);
}
jl_serialize_value(s, (jl_value_t*)li->name);
jl_serialize_value(s, (jl_value_t*)li->specTypes);
jl_serialize_value(s, (jl_value_t*)li->specializations);
write_int8(s, li->inferred);
jl_serialize_value(s, (jl_value_t*)li->file);
write_int32(s, li->line);
jl_serialize_value(s, (jl_value_t*)li->module);
jl_serialize_value(s, (jl_value_t*)li->roots);
jl_serialize_value(s, (jl_value_t*)li->def);
jl_serialize_value(s, (jl_value_t*)li->capt);
jl_serialize_value(s, (jl_value_t*)li->unspecialized);
// save functionObject pointers
write_int32(s, li->functionID);
write_int32(s, li->specFunctionID);
}
else if (jl_typeis(v, jl_module_type)) {
jl_serialize_module(s, (jl_module_t*)v);
}
else if (jl_typeis(v, jl_task_type)) {
jl_error("Task cannot be serialized");
}
else {
jl_datatype_t *t = (jl_datatype_t*)jl_typeof(v);
void *data = jl_data_ptr(v);
if (t == jl_int64_type &&
*(int64_t*)data >= S32_MIN && *(int64_t*)data <= S32_MAX) {
writetag(s, (jl_value_t*)SmallInt64_tag);
write_int32(s, (int32_t)*(int64_t*)data);
}
else if (t == jl_int32_type) {
writetag(s, (jl_value_t*)Int32_tag);
write_int32(s, (int32_t)*(int32_t*)data);
}
else {
if (v == t->instance) {
if (mode == MODE_MODULE) {
// also flag this in the backref table as special
uptrint_t *bp = (uptrint_t*)ptrhash_bp(&backref_table, v);
assert(*bp != (uptrint_t)HT_NOTFOUND);
*bp |= 1; assert(((uptrint_t)HT_NOTFOUND)|1);
}
writetag(s, (jl_value_t*)Singleton_tag);
jl_serialize_value(s, t);
return;
}
if (t->size <= 255) {
writetag(s, (jl_value_t*)SmallDataType_tag);
write_uint8(s, t->size);
}
else {
writetag(s, (jl_value_t*)jl_datatype_type);
write_int32(s, t->size);
}
jl_serialize_value(s, t);
if ((mode == MODE_MODULE || mode == MODE_MODULE_POSTWORK) && t == jl_typename_type) {
if (module_in_worklist(((jl_typename_t*)v)->module)) {
write_uint8(s, 0);
}
else {
write_uint8(s, 1);
jl_typename_t *tn = (jl_typename_t*)v;
jl_serialize_value(s, tn->module);
jl_serialize_value(s, tn->name);
return;
}
}
size_t nf = jl_datatype_nfields(t);
if (nf == 0 && jl_datatype_size(t)>0) {
if (t->name == jl_pointer_type->name) {
write_int32(s, 0);
#ifdef _P64
write_int32(s, 0);
#endif
}
else {
ios_write(s, (char*)data, jl_datatype_size(t));
}
}
else {
for(size_t i=0; i < nf; i++) {
if (jl_field_size(t, i) > 0) {
jl_serialize_value(s, jl_get_nth_field(v, i));
}
}
}
}
}
}
static void jl_serialize_methtable_from_mod(ios_t *s, jl_methtable_t *mt, int8_t iskw)
{
if (iskw) {
if (!mt->kwsorter)
return;
assert(jl_is_gf(mt->kwsorter));
assert(mt->module == jl_gf_mtable(mt->kwsorter)->module);
mt = jl_gf_mtable(mt->kwsorter);
assert(!mt->kwsorter);
}
assert(mt->module);
jl_methlist_t *ml = mt->defs;
while (ml != (void*)jl_nothing) {
if (module_in_worklist(ml->func->linfo->module)) {
jl_serialize_value(s, mt->module);
jl_serialize_value(s, mt->name);
write_int8(s, iskw);
jl_serialize_value(s, ml->sig);
jl_serialize_value(s, ml->func);
if (jl_is_svec(ml->tvars))
jl_serialize_value(s, ml->tvars);
else
jl_serialize_value(s, jl_svec1(ml->tvars));
write_int8(s, ml->isstaged);
}
ml = ml->next;
}
}
static void jl_serialize_lambdas_from_mod(ios_t *s, jl_module_t *m)
{
if (module_in_worklist(m)) return;
size_t i;
void **table = m->bindings.table;
for(i=1; i < m->bindings.size; i+=2) {
if (table[i] != HT_NOTFOUND) {
jl_binding_t *b = (jl_binding_t*)table[i];
if (b->owner == m && b->value && b->constp) {
if (jl_is_function(b->value) && jl_is_gf(b->value)) {
jl_function_t *gf = (jl_function_t*)b->value;
jl_methtable_t *mt = jl_gf_mtable(gf);
if (mt->name == b->name && mt->module == m) {
jl_serialize_methtable_from_mod(s, mt, 0);
jl_serialize_methtable_from_mod(s, mt, 1);
}
}
else if (jl_is_module(b->value)) {
jl_module_t *child = (jl_module_t*)b->value;
if (child != m && child->parent == m && child->name == b->name) {
// this is the original/primary binding for the submodule
jl_serialize_lambdas_from_mod(s, (jl_module_t*)b->value);
}
}
}
}
}
}
// serialize information about all of the modules accessible directly from Main
void jl_serialize_mod_list(ios_t *s)
{
jl_module_t *m = jl_main_module;
size_t i;
void **table = m->bindings.table;
for(i=1; i < m->bindings.size; i+=2) {
if (table[i] != HT_NOTFOUND) {
jl_binding_t *b = (jl_binding_t*)table[i];
if (b->owner == m &&
b->value && b->constp &&
jl_is_module(b->value) &&
!module_in_worklist((jl_module_t*)b->value)) {
jl_module_t *child = (jl_module_t*)b->value;
if (child->name == b->name) {
// this is the original/primary binding for the submodule
size_t l = strlen(child->name->name);
write_int32(s, l);
ios_write(s, child->name->name, l);
write_uint64(s, child->uuid);
}
}
}
}
write_int32(s, 0);
}
// "magic" string and version header of .ji file
static const int JI_FORMAT_VERSION = 2;
static const char JI_MAGIC[] = "\373jli\r\n\032\n"; // based on PNG signature
static const uint16_t BOM = 0xFEFF; // byte-order marker
static void jl_serialize_header(ios_t *s)
{
ios_write(s, JI_MAGIC, strlen(JI_MAGIC));
write_uint16(s, JI_FORMAT_VERSION);
ios_write(s, (char *) &BOM, 2);
write_uint8(s, sizeof(void*));
const char *OS_NAME = jl_get_OS_NAME()->name, *ARCH = jl_get_ARCH()->name;
ios_write(s, OS_NAME, strlen(OS_NAME)+1);
ios_write(s, ARCH, strlen(ARCH)+1);
ios_write(s, JULIA_VERSION_STRING, strlen(JULIA_VERSION_STRING)+1);
const char *branch = jl_git_branch(), *commit = jl_git_commit();
ios_write(s, branch, strlen(branch)+1);
ios_write(s, commit, strlen(commit)+1);
}
// serialize the global _require_dependencies array of pathnames that
// are include depenencies
void jl_serialize_dependency_list(ios_t *s)
{
size_t total_size = 0;
static jl_array_t *deps = NULL;
if (!deps)
deps = (jl_array_t*)jl_get_global(jl_base_module, jl_symbol("_require_dependencies"));
// unique(deps) to eliminate duplicates while preserving order:
// we preserve order so that the topmost included .jl file comes first
static jl_value_t *unique_func = NULL;
if (!unique_func)
unique_func = jl_get_global(jl_base_module, jl_symbol("unique"));
jl_array_t *udeps = deps && unique_func ? (jl_array_t *) jl_apply((jl_function_t*)unique_func, (jl_value_t**)&deps, 1) : NULL;
JL_GC_PUSH1(&udeps);
if (udeps) {
size_t l = jl_array_len(udeps);
for (size_t i=0; i < l; i++) {
jl_value_t *dep = jl_fieldref(jl_cellref(udeps, i), 0);
size_t slen = jl_string_len(dep);
total_size += 4 + slen + 8;
}
total_size += 4;
}
// write the total size so that we can quickly seek past all of the
// dependencies if we don't need them
write_uint64(s, total_size);
if (udeps) {
size_t l = jl_array_len(udeps);
for (size_t i=0; i < l; i++) {
jl_value_t *deptuple = jl_cellref(udeps, i);
jl_value_t *dep = jl_fieldref(deptuple, 0);
size_t slen = jl_string_len(dep);
write_int32(s, slen);
ios_write(s, jl_string_data(dep), slen);
write_float64(s, jl_unbox_float64(jl_fieldref(deptuple, 1)));
}
write_int32(s, 0); // terminator, for ease of reading
}
JL_GC_POP();
}
// --- deserialize ---
static jl_fptr_t jl_deserialize_fptr(ios_t *s)
{
int fptr = read_uint16(s);
if (fptr < 2)
return NULL;
if (fptr >= sizeof(id_to_fptrs)/sizeof(*id_to_fptrs))
jl_error("unknown function pointer ID");
return id_to_fptrs[fptr];
}
static jl_value_t *jl_deserialize_datatype(ios_t *s, int pos, jl_value_t **loc)
{
int tag = read_uint8(s);
if (tag == 6 || tag == 7) {
jl_typename_t *name = (jl_typename_t*)jl_deserialize_value(s, NULL);
jl_value_t *dtv = name->primary;
if (tag == 7) {
jl_svec_t *parameters = (jl_svec_t*)jl_deserialize_value(s, NULL);
dtv = jl_apply_type(dtv, parameters);
}
backref_list.items[pos] = dtv;
return dtv;
}
uint16_t nf = read_uint16(s);
size_t size = read_int32(s);
uint8_t flags = read_uint8(s);
uint8_t fielddesc_type = read_int8(s);
jl_datatype_t *dt;
if (tag == 2)
dt = jl_int32_type;
else if (tag == 3)
dt = jl_bool_type;
else if (tag == 4)
dt = jl_int64_type;
else
dt = jl_new_uninitialized_datatype(nf, fielddesc_type);
assert(tree_literal_values==NULL && mode != MODE_AST);
backref_list.items[pos] = dt;
dt->size = size;
dt->struct_decl = NULL;
dt->instance = NULL;
dt->ditype = NULL;
dt->abstract = flags&1;
dt->mutabl = (flags>>1)&1;
dt->pointerfree = (flags>>2)&1;
if (!dt->abstract) {
dt->ninitialized = read_uint16(s);
dt->uid = mode != MODE_MODULE && mode != MODE_MODULE_POSTWORK ? read_int32(s) : 0;
}
else {
dt->ninitialized = 0;
dt->uid = 0;
}
int has_instance = (flags>>3)&1;
if (has_instance) {
assert(mode != MODE_MODULE_POSTWORK); // there shouldn't be an instance on a type with uid = 0
dt->instance = jl_deserialize_value(s, &dt->instance);
jl_gc_wb(dt, dt->instance);
}
if (tag == 5) {
assert(pos > 0);
assert(mode != MODE_MODULE_POSTWORK);
arraylist_push(&flagref_list, loc);
arraylist_push(&flagref_list, (void*)(uptrint_t)pos);
dt->uid = -1; // mark that this type needs a new uid
}
if (nf > 0) {
dt->alignment = read_int32(s);
dt->haspadding = read_int8(s);
size_t fieldsize = jl_fielddesc_size(fielddesc_type);
ios_read(s, (char*)dt->fields, nf * fieldsize);
dt->types = (jl_svec_t*)jl_deserialize_value(s, (jl_value_t**)&dt->types);
jl_gc_wb(dt, dt->types);
}
else {
dt->alignment = dt->size;
dt->haspadding = 0;
if (dt->alignment > MAX_ALIGN)
dt->alignment = MAX_ALIGN;
dt->types = jl_emptysvec;
}
dt->parameters = (jl_svec_t*)jl_deserialize_value(s, (jl_value_t**)&dt->parameters);
jl_gc_wb(dt, dt->parameters);
dt->name = (jl_typename_t*)jl_deserialize_value(s, (jl_value_t**)&dt->name);
jl_gc_wb(dt, dt->name);
dt->super = (jl_datatype_t*)jl_deserialize_value(s, (jl_value_t**)&dt->super);
jl_gc_wb(dt, dt->super);
if (datatype_list) {
if (dt->name == jl_array_type->name || dt->name == jl_ref_type->name ||
dt->name == jl_pointer_type->name || dt->name == jl_type_type->name ||
dt->name == jl_simplevector_type->name || dt->name == jl_abstractarray_type->name ||
dt->name == jl_densearray_type->name || dt->name == jl_tuple_typename ||
dt->name == jl_vararg_type->name) {
// builtin types are not serialized, so their caches aren't
// explicitly saved. so we reconstruct the caches of builtin
// parametric types here.
jl_cell_1d_push(datatype_list, (jl_value_t*)dt);
}
}
return (jl_value_t*)dt;
}
jl_array_t *jl_eqtable_put(jl_array_t *h, void *key, void *val);
static jl_value_t *jl_deserialize_value_(ios_t *s, jl_value_t *vtag, jl_value_t **loc);
static jl_value_t *jl_deserialize_value(ios_t *s, jl_value_t **loc)
{
assert(!ios_eof(s));
uint8_t tag = read_uint8(s);
if (tag == Null_tag)
return NULL;
if (tag == 0) {
tag = read_uint8(s);
jl_value_t *v = deser_tag[tag];
assert(v != NULL);
return v;
}
if (tag == BackRef_tag || tag == ShortBackRef_tag) {
assert(tree_literal_values == NULL && mode != MODE_AST);
uptrint_t offs = (tag == BackRef_tag) ? read_int32(s) : read_uint16(s);
int isdatatype = 0;
if (mode == MODE_MODULE) {
isdatatype = !!(offs & 1);
offs >>= 1;
}
else if (mode == MODE_MODULE_POSTWORK) {
offs >>= 1;
}
assert(offs >= 0 && offs < backref_list.len);
jl_value_t *bp = (jl_value_t*)backref_list.items[offs];
assert(bp);
if (isdatatype && loc != NULL) {
arraylist_push(&flagref_list, loc);
arraylist_push(&flagref_list, (void*)(uptrint_t)-1);
}
return (jl_value_t*)bp;
}
jl_value_t *vtag = deser_tag[tag];
if (tag >= VALUE_TAGS) {
return vtag;
}
else if (vtag == (jl_value_t*)LiteralVal_tag) {
return jl_cellref(tree_literal_values, read_uint16(s));
}
jl_value_t *v = jl_deserialize_value_(s, vtag, loc);
return v;
}
static jl_value_t *jl_deserialize_value_(ios_t *s, jl_value_t *vtag, jl_value_t **loc)
{
int usetable = (mode != MODE_AST);
size_t i;
if (vtag == (jl_value_t*)jl_simplevector_type ||
vtag == (jl_value_t*)LongSvec_tag) {
size_t len;
if (vtag == (jl_value_t*)jl_simplevector_type)
len = read_uint8(s);
else
len = read_int32(s);
jl_svec_t *sv = jl_alloc_svec_uninit(len);
if (usetable)
arraylist_push(&backref_list, (jl_value_t*)sv);
jl_value_t **data = sv->data;
for(i=0; i < len; i++) {
data[i] = jl_deserialize_value(s, &data[i]);
}
return (jl_value_t*)sv;
}
else if (vtag == (jl_value_t*)CommonSym_tag) {
int tag = read_uint8(s);
return deser_symbols[tag];
}
else if (vtag == (jl_value_t*)jl_symbol_type ||
vtag == (jl_value_t*)LongSymbol_tag) {
size_t len;
if (vtag == (jl_value_t*)jl_symbol_type)
len = read_uint8(s);
else
len = read_int32(s);
char *name = (char*) (len >= 256 ? malloc(len+1) : alloca(len+1));
ios_read(s, name, len);
name[len] = '\0';
jl_value_t *sym = (jl_value_t*)jl_symbol(name);
if (len >= 256) free(name);
if (usetable)
arraylist_push(&backref_list, sym);
return sym;
}
else if (vtag == (jl_value_t*)jl_array_type ||
vtag == (jl_value_t*)Array1d_tag) {
int16_t ndims;
int isunboxed, elsize;
if (vtag == (jl_value_t*)Array1d_tag) {
ndims = 1;
elsize = read_uint8(s);
isunboxed = !(elsize>>7);
elsize = elsize&0x7f;
}
else {
ndims = read_uint16(s);
elsize = read_uint16(s);
isunboxed = !(elsize>>15);
elsize = elsize&0x7fff;
}
int pos = backref_list.len;
if (usetable)
arraylist_push(&backref_list, NULL);
size_t *dims = (size_t*)alloca(ndims*sizeof(size_t));
for(i=0; i < ndims; i++)
dims[i] = jl_unbox_long(jl_deserialize_value(s, NULL));
jl_array_t *a = jl_new_array_for_deserialization((jl_value_t*)NULL, ndims, dims, isunboxed, elsize);
if (usetable)
backref_list.items[pos] = a;
jl_value_t *aty = jl_deserialize_value(s, &jl_astaggedvalue(a)->type);
jl_set_typeof(a, aty);
if (!a->ptrarray) {
size_t tot = jl_array_len(a) * a->elsize;
ios_read(s, (char*)jl_array_data(a), tot);
}
else {
jl_value_t** data = (jl_value_t**)jl_array_data(a);
for(i=0; i < jl_array_len(a); i++) {
data[i] = jl_deserialize_value(s, &data[i]);
if (data[i]) jl_gc_wb(a, data[i]);
}
}
return (jl_value_t*)a;
}
else if (vtag == (jl_value_t*)jl_expr_type ||
vtag == (jl_value_t*)LongExpr_tag) {
size_t len;
if (vtag == (jl_value_t*)jl_expr_type)
len = read_uint8(s);
else
len = read_int32(s);
int pos = backref_list.len;
if (usetable)
arraylist_push(&backref_list, NULL);
jl_expr_t *e = jl_exprn((jl_sym_t*)jl_deserialize_value(s, NULL), len);
if (usetable)
backref_list.items[pos] = e;
e->etype = jl_deserialize_value(s, &e->etype);
jl_gc_wb(e, e->etype);
jl_value_t **data = (jl_value_t**)(e->args->data);
for(i=0; i < len; i++) {
data[i] = jl_deserialize_value(s, &data[i]);
}
return (jl_value_t*)e;
}
else if (vtag == (jl_value_t*)jl_tvar_type) {
jl_tvar_t *tv = (jl_tvar_t*)newobj((jl_value_t*)jl_tvar_type, NWORDS(sizeof(jl_tvar_t)));
if (usetable)
arraylist_push(&backref_list, tv);
tv->name = (jl_sym_t*)jl_deserialize_value(s, NULL);
jl_gc_wb(tv, tv->name);
tv->lb = jl_deserialize_value(s, &tv->lb);
jl_gc_wb(tv, tv->lb);
tv->ub = jl_deserialize_value(s, &tv->ub);
jl_gc_wb(tv, tv->ub);
tv->bound = read_int8(s);
return (jl_value_t*)tv;
}
else if (vtag == (jl_value_t*)jl_function_type) {
if (mode == MODE_MODULE || mode == MODE_MODULE_POSTWORK) {
int ref_only = read_int8(s);
if (ref_only) {
int pos = backref_list.len;
arraylist_push(&backref_list, NULL);
jl_module_t *module = (jl_module_t*)jl_deserialize_value(s, NULL);
jl_sym_t *name = (jl_sym_t*)jl_deserialize_value(s, NULL);
jl_value_t *f = jl_get_global(module, name);
backref_list.items[pos] = f;
return f;
}
}
jl_function_t *f =
(jl_function_t*)newobj((jl_value_t*)jl_function_type, NWORDS(sizeof(jl_function_t)));
if (usetable)
arraylist_push(&backref_list, f);
f->linfo = (jl_lambda_info_t*)jl_deserialize_value(s, (jl_value_t**)&f->linfo);
if (f->linfo != NULL) jl_gc_wb(f, f->linfo);
f->env = jl_deserialize_value(s, &f->env);
jl_gc_wb(f, f->env);
f->fptr = jl_deserialize_fptr(s);
return (jl_value_t*)f;
}
else if (vtag == (jl_value_t*)jl_lambda_info_type) {
jl_lambda_info_t *li =
(jl_lambda_info_t*)newobj((jl_value_t*)jl_lambda_info_type,
NWORDS(sizeof(jl_lambda_info_t)));
if (usetable)
arraylist_push(&backref_list, li);
li->ast = jl_deserialize_value(s, &li->ast);
jl_gc_wb(li, li->ast);
li->sparams = (jl_svec_t*)jl_deserialize_value(s, (jl_value_t**)&li->sparams);
jl_gc_wb(li, li->sparams);
li->tfunc = jl_deserialize_value(s, (jl_value_t**)&li->tfunc);
jl_gc_wb(li, li->tfunc);
li->name = (jl_sym_t*)jl_deserialize_value(s, NULL);
jl_gc_wb(li, li->name);
li->specTypes = (jl_tupletype_t*)jl_deserialize_value(s, (jl_value_t**)&li->specTypes);
if (li->specTypes) jl_gc_wb(li, li->specTypes);
li->specializations = (jl_array_t*)jl_deserialize_value(s, (jl_value_t**)&li->specializations);
if (li->specializations) jl_gc_wb(li, li->specializations);
li->inferred = read_int8(s);
li->file = (jl_sym_t*)jl_deserialize_value(s, NULL);
jl_gc_wb(li, li->file);
li->line = read_int32(s);
li->module = (jl_module_t*)jl_deserialize_value(s, (jl_value_t**)&li->module);
jl_gc_wb(li, li->module);
li->roots = (jl_array_t*)jl_deserialize_value(s, (jl_value_t**)&li->roots);
if (li->roots) jl_gc_wb(li, li->roots);
li->def = (jl_lambda_info_t*)jl_deserialize_value(s, (jl_value_t**)&li->def);
jl_gc_wb(li, li->def);
li->capt = jl_deserialize_value(s, &li->capt);
if (li->capt) jl_gc_wb(li, li->capt);
li->fptr = &jl_trampoline;
li->functionObject = NULL;
li->cFunctionList = NULL;
li->specFunctionObject = NULL;
li->inInference = 0;
li->inCompile = 0;
li->unspecialized = (jl_function_t*)jl_deserialize_value(s, (jl_value_t**)&li->unspecialized);
if (li->unspecialized) jl_gc_wb(li, li->unspecialized);
li->functionID = 0;
li->specFunctionID = 0;
int32_t cfunc_llvm, func_llvm;
func_llvm = read_int32(s);
cfunc_llvm = read_int32(s);
jl_delayed_fptrs(li, func_llvm, cfunc_llvm);
return (jl_value_t*)li;
}
else if (vtag == (jl_value_t*)jl_module_type) {
int pos = backref_list.len;
if (usetable)
arraylist_push(&backref_list, NULL);
jl_sym_t *mname = (jl_sym_t*)jl_deserialize_value(s, NULL);
int ref_only = 0;
if (mode == MODE_MODULE_POSTWORK) {
ref_only = 1;
}
else if (mode == MODE_MODULE) {
ref_only = read_uint8(s);
}
if (ref_only) {
jl_value_t *m_ref = jl_get_global((jl_module_t*)jl_deserialize_value(s, NULL), mname);
if (usetable)
backref_list.items[pos] = m_ref;
return m_ref;
}
jl_module_t *m = jl_new_module(mname);
if (usetable)
backref_list.items[pos] = m;
m->parent = (jl_module_t*)jl_deserialize_value(s, (jl_value_t**)&m->parent);
jl_gc_wb(m, m->parent);
while (1) {
jl_sym_t *name = (jl_sym_t*)jl_deserialize_value(s, NULL);
if (name == NULL)
break;
jl_binding_t *b = jl_get_binding_wr(m, name);
b->value = jl_deserialize_value(s, &b->value);
jl_gc_wb_buf(m, b);
if (b->value != NULL) jl_gc_wb(m, b->value);
b->globalref = jl_deserialize_value(s, &b->globalref);
if (b->globalref != NULL) jl_gc_wb(m, b->globalref);
b->owner = (jl_module_t*)jl_deserialize_value(s, (jl_value_t**)&b->owner);
if (b->owner != NULL) jl_gc_wb(m, b->owner);
int8_t flags = read_int8(s);
b->deprecated = (flags>>3) & 1;
b->constp = (flags>>2) & 1;
b->exportp = (flags>>1) & 1;
b->imported = (flags) & 1;
jl_deserialize_gv(s, (jl_value_t*)b);
}
size_t i = m->usings.len;
size_t ni = read_int32(s);
arraylist_grow(&m->usings, ni);
ni += i;
while (i < ni) {
m->usings.items[i] = jl_deserialize_value(s, (jl_value_t**)&m->usings.items[i]);
i++;
}
m->constant_table = (jl_array_t*)jl_deserialize_value(s, (jl_value_t**)&m->constant_table);
if (m->constant_table != NULL) jl_gc_wb(m, m->constant_table);
m->istopmod = read_uint8(s);
m->std_imports = read_uint8(s);
m->uuid = read_uint64(s);
return (jl_value_t*)m;
}
else if (vtag == (jl_value_t*)SmallInt64_tag) {
jl_value_t *v = jl_box_int64(read_int32(s));
if (usetable)
arraylist_push(&backref_list, v);
return v;
}
else if (vtag == (jl_value_t*)Int32_tag) {
jl_value_t *v = jl_box_int32(read_int32(s));
if (usetable)
arraylist_push(&backref_list, v);
return v;
}
else if (vtag == (jl_value_t*)NearbyGlobal_tag) {
assert(tree_enclosing_module != NULL);
jl_value_t *sym = jl_deserialize_value(s, NULL);
return jl_module_globalref(tree_enclosing_module, (jl_sym_t*)sym);
}
else if (vtag == (jl_value_t*)jl_globalref_type) {
if (usetable) {
jl_value_t *v = jl_new_struct_uninit(jl_globalref_type);
arraylist_push(&backref_list, v);
jl_value_t* *data = jl_data_ptr(v);
data[0] = jl_deserialize_value(s, &data[0]);
data[1] = jl_deserialize_value(s, &data[1]);
return v;
}
else {
jl_value_t *mod = jl_deserialize_value(s, NULL);
jl_value_t *var = jl_deserialize_value(s, NULL);
return jl_module_globalref((jl_module_t*)mod, (jl_sym_t*)var);
}
}
else if (vtag == (jl_value_t*)jl_datatype_type || vtag == (jl_value_t*)SmallDataType_tag) {
int32_t sz = (vtag == (jl_value_t*)SmallDataType_tag ? read_uint8(s) : read_int32(s));
jl_value_t *v = jl_gc_allocobj(sz);
int pos = backref_list.len;
if (usetable)
arraylist_push(&backref_list, v);
jl_datatype_t *dt = (jl_datatype_t*)jl_deserialize_value(s, &jl_astaggedvalue(v)->type);
jl_set_typeof(v, dt);
if (dt == jl_datatype_type)
return jl_deserialize_datatype(s, pos, loc);
assert(mode==MODE_AST || sz!=0 || loc);
if ((mode == MODE_MODULE || mode == MODE_MODULE_POSTWORK) && dt == jl_typename_type) {
int ref_only = read_uint8(s);
if (ref_only) {
jl_module_t *m = (jl_module_t*)jl_deserialize_value(s, NULL);
jl_sym_t *sym = (jl_sym_t*)jl_deserialize_value(s, NULL);
jl_datatype_t *dt = (jl_datatype_t*)jl_get_global(m, sym);
assert(jl_is_datatype(dt));
jl_value_t *v = (jl_value_t*)dt->name;
if (usetable)
backref_list.items[pos] = v;
return v;
}
assert(mode != MODE_MODULE_POSTWORK);
}
size_t nf = jl_datatype_nfields(dt);
if (nf == 0 && jl_datatype_size(dt)>0) {
int nby = jl_datatype_size(dt);
ios_read(s, (char*)jl_data_ptr(v), nby);
}
else {
char *data = (char*)jl_data_ptr(v);
for(i=0; i < nf; i++) {
if (jl_field_size(dt,i) > 0) {
if (jl_field_isptr(dt,i)) {
jl_value_t **fld = (jl_value_t**)(data+jl_field_offset(dt, i));
*fld = jl_deserialize_value(s, fld);
}
else {
jl_set_nth_field(v, i, jl_deserialize_value(s, NULL));
}
}
}
if ((mode == MODE_MODULE || mode == MODE_MODULE_POSTWORK)) {
if (jl_is_mtable(v))
arraylist_push(&methtable_list, v); // will resort this table, later
if (dt == jl_typename_type) {
jl_typename_t* tn = (jl_typename_t*)v;
tn->uid = jl_assign_type_uid(); // make sure this has a new uid
tn->cache = jl_emptysvec; // the cache is refilled later (tag 5)
tn->linearcache = jl_emptysvec; // the cache is refilled later (tag 5)
}
}
}
return v;
}
else if (vtag == (jl_value_t*)Singleton_tag) {
if (mode == MODE_MODULE_POSTWORK) {
uptrint_t pos = backref_list.len;
arraylist_push(&backref_list, NULL);
jl_datatype_t *dt = (jl_datatype_t*)jl_deserialize_value(s, NULL);
backref_list.items[pos] = dt->instance;
return dt->instance;
}
jl_value_t *v = (jl_value_t*)jl_gc_alloc_0w();
if (usetable) {
uptrint_t pos = backref_list.len;
arraylist_push(&backref_list, (void*)v);
if (mode == MODE_MODULE) {
// TODO: optimize the case where the value can easily be obtained
// from an external module (tag == 6) as dt->instance
assert(loc != NULL);
arraylist_push(&flagref_list, loc);
arraylist_push(&flagref_list, (void*)pos);
}
}
jl_datatype_t *dt = (jl_datatype_t*)jl_deserialize_value(s, NULL); // no loc, since if dt is replaced, then dt->instance would be also
jl_set_typeof(v, dt);
return v;
}
assert(0);
return NULL;
}
void jl_deserialize_lambdas_from_mod(ios_t *s)
{
while (1) {
jl_module_t *mod = (jl_module_t*)jl_deserialize_value(s, NULL);
if (mod == NULL)
return;
jl_sym_t *name = (jl_sym_t*)jl_deserialize_value(s, NULL);
jl_function_t *gf = (jl_function_t*)jl_get_global(mod, name);
int8_t iskw = read_int8(s);
assert(jl_is_gf(gf));
if (iskw) {
jl_methtable_t* mt = jl_gf_mtable(gf);
if (!mt->kwsorter) {
mt->kwsorter = jl_new_generic_function(jl_gf_name(gf), mt->module);
jl_gc_wb(mt, mt->kwsorter);
}
gf = mt->kwsorter;
assert(jl_is_gf(gf));
}
jl_tupletype_t *types = (jl_tupletype_t*)jl_deserialize_value(s, NULL);
jl_function_t *meth = (jl_function_t*)jl_deserialize_value(s, NULL);
jl_svec_t *tvars = (jl_svec_t*)jl_deserialize_value(s, NULL);
int8_t isstaged = read_int8(s);
jl_add_method(gf, types, meth, tvars, isstaged);
}
}
int jl_deserialize_verify_mod_list(ios_t *s)
{
if (!jl_main_module->uuid) {
jl_printf(JL_STDERR, "ERROR: Main module uuid state is invalid for module deserialization.\n");
return 0;
}
while (1) {
size_t len = read_int32(s);
if (len == 0)
return 1;
char *name = (char*)alloca(len+1);
ios_read(s, name, len);
name[len] = '\0';
uint64_t uuid = read_uint64(s);
jl_sym_t *sym = jl_symbol(name);
jl_module_t *m = (jl_module_t*)jl_get_global(jl_main_module, sym);
if (!m) {
static jl_value_t *require_func = NULL;
if (!require_func)
require_func = jl_get_global(jl_base_module, jl_symbol("require"));
JL_TRY {
jl_apply((jl_function_t*)require_func, (jl_value_t**)&sym, 1);
}
JL_CATCH {
ios_close(s);
jl_rethrow();
}
m = (jl_module_t*)jl_get_global(jl_main_module, sym);
}
if (!m) {
jl_printf(JL_STDERR, "ERROR: requiring \"%s\" did not define a corresponding module\n", name);
return 0;
}
if (!jl_is_module(m)) {
ios_close(s);
jl_errorf("invalid module path (%s does not name a module)", name);
}
if (m->uuid != uuid) {
jl_printf(JL_STDERR,
"WARNING: Module %s uuid did not match cache file\n"
" This is likely because module %s does not support"
" precompilation but is imported by a module that does.\n",
name, name);
return 0;
}
}
}
static int readstr_verify(ios_t *s, const char *str)
{
size_t len = strlen(str);
for (size_t i=0; i < len; ++i)
if ((char) read_uint8(s) != str[i])
return 0;
return 1;
}
DLLEXPORT int jl_deserialize_verify_header(ios_t *s)
{
uint16_t bom;
return (readstr_verify(s, JI_MAGIC) &&
read_uint16(s) == JI_FORMAT_VERSION &&
ios_read(s, (char *) &bom, 2) == 2 && bom == BOM &&
read_uint8(s) == sizeof(void*) &&
readstr_verify(s, jl_get_OS_NAME()->name) && !read_uint8(s) &&
readstr_verify(s, jl_get_ARCH()->name) && !read_uint8(s) &&
readstr_verify(s, JULIA_VERSION_STRING) && !read_uint8(s) &&
readstr_verify(s, jl_git_branch()) && !read_uint8(s) &&
readstr_verify(s, jl_git_commit()) && !read_uint8(s));
}
jl_array_t *jl_module_init_order;
static void jl_finalize_serializer(ios_t *f) {
size_t i, l;
// save module initialization order
if (jl_module_init_order != NULL) {
l = jl_array_len(jl_module_init_order);
for(i=0; i < l; i++) {
// verify that all these modules were saved
assert(ptrhash_get(&backref_table, jl_cellref(jl_module_init_order, i)) != HT_NOTFOUND);
}
}
if (mode != MODE_MODULE)
jl_serialize_value(f, jl_module_init_order);
// record list of reinitialization functions
l = reinit_list.len;
for (i = 0; i < l; i += 2) {
write_int32(f, (int)((uintptr_t) reinit_list.items[i]));
write_int32(f, (int)((uintptr_t) reinit_list.items[i+1]));
}
write_int32(f, -1);
}
static void jl_reinit_item(ios_t *f, jl_value_t *v, int how) {
JL_TRY {
switch (how) {
case 1: { // rehash ObjectIdDict
jl_array_t **a = (jl_array_t**)jl_data_ptr(v);
// Assume *a don't need a write barrier
jl_idtable_rehash(a, jl_array_len(*a));
jl_gc_wb(v, *a);
break;
}
case 2: { // reinsert module v into parent (const)
jl_module_t *mod = (jl_module_t*)v;
jl_binding_t *b = jl_get_binding_wr(mod->parent, mod->name);
jl_declare_constant(b); // this can throw
if (b->value != NULL) {
if (!jl_is_module(b->value)) {
jl_errorf("invalid redefinition of constant %s", mod->name->name); // this also throws
}
if (jl_generating_output() && jl_options.incremental) {
jl_errorf("cannot replace module %s during incremental precompile", mod->name->name);
}
jl_printf(JL_STDERR, "WARNING: replacing module %s\n", mod->name->name);
}
b->value = v;
jl_gc_wb_binding(b, v);
break;
}
default:
assert(0);
}
}
JL_CATCH {
jl_printf(JL_STDERR, "WARNING: error while reinitializing value ");
jl_static_show(JL_STDERR, v);
jl_printf(JL_STDERR, ":\n");
jl_static_show(JL_STDERR, jl_exception_in_transit);
jl_printf(JL_STDERR, "\n");
}
}
static jl_array_t *jl_finalize_deserializer(ios_t *f) {
jl_array_t *init_order = NULL;
if (mode != MODE_MODULE)
init_order = (jl_array_t*)jl_deserialize_value(f, NULL);
// run reinitialization functions
int pos = read_int32(f);
while (pos != -1) {
jl_reinit_item(f, (jl_value_t*)backref_list.items[pos], read_int32(f));
pos = read_int32(f);
}
return init_order;
}
void jl_init_restored_modules(jl_array_t *init_order)
{
if (!init_order)
return;
int i;
for(i=0; i < jl_array_len(init_order); i++) {
jl_value_t *mod = jl_cellref(init_order, i);
jl_module_run_initializer((jl_module_t*)mod);
}
}
// --- entry points ---
void jl_save_system_image_to_stream(ios_t *f)
{
jl_gc_collect(1); // full
jl_gc_collect(0); // incremental (sweep finalizers)
JL_SIGATOMIC_BEGIN();
int en = jl_gc_enable(0);
htable_reset(&backref_table, 250000);
arraylist_new(&reinit_list, 0);
backref_table_numel = 0;
// orphan old Base module if present
jl_base_module = (jl_module_t*)jl_get_global(jl_main_module, jl_symbol("Base"));
jl_idtable_type = jl_base_module ? jl_get_global(jl_base_module, jl_symbol("ObjectIdDict")) : NULL;
jl_serialize_value(f, jl_main_module);
jl_serialize_value(f, jl_top_module);
jl_serialize_value(f, jl_typeinf_func);
// ensure everything in deser_tag is reassociated with its GlobalValue
ptrint_t i=2;
for (i=2; i < 255; i++) {
jl_serialize_gv(f, deser_tag[i]);
}
jl_serialize_globalvals(f);
jl_serialize_gv_others(f); // serialize things that might not have visible gc roots roots with GlobalValue references
write_int32(f, jl_get_t_uid_ctr());
write_int32(f, jl_get_gs_ctr());
jl_finalize_serializer(f); // done with f
htable_reset(&backref_table, 0);
arraylist_free(&reinit_list);
jl_gc_enable(en);
JL_SIGATOMIC_END();
}
DLLEXPORT void jl_save_system_image(const char *fname)
{
ios_t f;
if (ios_file(&f, fname, 1, 1, 1, 1) == NULL) {
jl_errorf("cannot open system image file \"%s\" for writing", fname);
}
JL_SIGATOMIC_BEGIN();
jl_save_system_image_to_stream(&f);
ios_close(&f);
JL_SIGATOMIC_END();
}
DLLEXPORT ios_t *jl_create_system_image()
{
ios_t *f; f = (ios_t*)malloc(sizeof(ios_t));
ios_mem(f, 1000000);
jl_save_system_image_to_stream(f);
return f;
}
extern jl_function_t *jl_typeinf_func;
extern int jl_boot_file_loaded;
extern void jl_get_builtin_hooks(void);
extern void jl_get_system_hooks(void);
// Takes in a path of the form "usr/lib/julia/sys.{ji,so}", as passed to jl_restore_system_image()
DLLEXPORT void jl_preload_sysimg_so(const char *fname)
{
// If passed NULL, don't even bother
if (!fname)
return;
// First, get "sys" from "sys.ji"
char *fname_shlib = (char*)alloca(strlen(fname)+1);
strcpy(fname_shlib, fname);
char *fname_shlib_dot = strrchr(fname_shlib, '.');
if (fname_shlib_dot != NULL) {
if (!strcmp(fname_shlib_dot, ".ji"))
return; // .ji extension => load .ji file only
*fname_shlib_dot = 0;
}
// Get handle to sys.so
jl_sysimg_handle = (uv_lib_t*)jl_load_dynamic_library_e(fname_shlib, JL_RTLD_DEFAULT | JL_RTLD_GLOBAL);
// set cpu target if unspecified by user and available from sysimg
// otherwise default to native.
if (jl_sysimg_handle && jl_options.cpu_target == NULL)
jl_options.cpu_target = (const char *)jl_dlsym(jl_sysimg_handle, "jl_sysimg_cpu_target");
}
void jl_restore_system_image_from_stream(ios_t *f)
{
JL_SIGATOMIC_BEGIN();
int en = jl_gc_enable(0);
DUMP_MODES last_mode = mode;
mode = MODE_SYSTEM_IMAGE;
arraylist_new(&backref_list, 250000);
datatype_list = jl_alloc_cell_1d(0);
jl_main_module = (jl_module_t*)jl_deserialize_value(f, NULL);
jl_top_module = (jl_module_t*)jl_deserialize_value(f, NULL);
jl_internal_main_module = jl_main_module;
jl_typeinf_func = (jl_function_t*)jl_deserialize_value(f, NULL);
jl_core_module = (jl_module_t*)jl_get_global(jl_main_module,
jl_symbol("Core"));
jl_base_module = (jl_module_t*)jl_get_global(jl_main_module,
jl_symbol("Base"));
jl_current_module = jl_base_module; // run start_image in Base
// ensure everything in deser_tag is reassociated with its GlobalValue
ptrint_t i;
for (i=2; i < 255; i++) {
jl_deserialize_gv(f, deser_tag[i]);
}
jl_deserialize_globalvals(f);
jl_deserialize_gv_others(f);
int uid_ctr = read_int32(f);
int gs_ctr = read_int32(f);
jl_module_init_order = jl_finalize_deserializer(f); // done with f
// cache builtin parametric types
for(int i=0; i < jl_array_len(datatype_list); i++) {
jl_value_t *v = jl_cellref(datatype_list, i);
jl_cache_type_((jl_datatype_t*)v);
}
datatype_list = NULL;
jl_get_builtin_hooks();
if (jl_base_module) {
jl_get_system_hooks();
}
jl_boot_file_loaded = 1;
jl_init_box_caches();
jl_set_t_uid_ctr(uid_ctr);
jl_set_gs_ctr(gs_ctr);
//jl_printf(JL_STDERR, "backref_list.len = %d\n", backref_list.len);
arraylist_free(&backref_list);
jl_gc_enable(en);
mode = last_mode;
jl_update_all_fptrs();
JL_SIGATOMIC_END();
}
DLLEXPORT void jl_restore_system_image(const char *fname)
{
char *dot = (char*) strrchr(fname, '.');
int is_ji = (dot && !strcmp(dot, ".ji"));
if (!is_ji) {
int err = jl_load_sysimg_so();
if (err != 0) {
if (jl_sysimg_handle == 0)
jl_errorf("system image file \"%s\" not found", fname);
jl_errorf("library \"%s\" does not contain a valid system image", fname);
}
}
else {
ios_t f;
if (ios_file(&f, fname, 1, 0, 0, 0) == NULL)
jl_errorf("system image file \"%s\" not found", fname);
JL_SIGATOMIC_BEGIN();
jl_restore_system_image_from_stream(&f);
ios_close(&f);
JL_SIGATOMIC_END();
}
}
DLLEXPORT void jl_restore_system_image_data(const char *buf, size_t len)
{
ios_t f;
JL_SIGATOMIC_BEGIN();
ios_static_buffer(&f, (char*)buf, len);
jl_restore_system_image_from_stream(&f);
ios_close(&f);
JL_SIGATOMIC_END();
}
DLLEXPORT jl_value_t *jl_ast_rettype(jl_lambda_info_t *li, jl_value_t *ast)
{
if (jl_is_expr(ast))
return jl_lam_body((jl_expr_t*)ast)->etype;
JL_SIGATOMIC_BEGIN();
DUMP_MODES last_mode = mode;
mode = MODE_AST;
if (li->module->constant_table == NULL) {
li->module->constant_table = jl_alloc_cell_1d(0);
jl_gc_wb(li->module, li->module->constant_table);
}
tree_literal_values = li->module->constant_table;
ios_t src;
jl_array_t *bytes = (jl_array_t*)ast;
ios_mem(&src, 0);
ios_setbuf(&src, (char*)bytes->data, jl_array_len(bytes), 0);
src.size = jl_array_len(bytes);
int en = jl_gc_enable(0);
jl_value_t *rt = jl_deserialize_value(&src, NULL);
jl_gc_enable(en);
tree_literal_values = NULL;
mode = last_mode;
JL_SIGATOMIC_END();
return rt;
}
DLLEXPORT jl_value_t *jl_compress_ast(jl_lambda_info_t *li, jl_value_t *ast)
{
JL_SIGATOMIC_BEGIN();
DUMP_MODES last_mode = mode;
mode = MODE_AST;
ios_t dest;
ios_mem(&dest, 0);
jl_array_t *last_tlv = tree_literal_values;
jl_module_t *last_tem = tree_enclosing_module;
int en = jl_gc_enable(0);
if (li->module->constant_table == NULL) {
li->module->constant_table = jl_alloc_cell_1d(0);
jl_gc_wb(li->module, li->module->constant_table);
}
tree_literal_values = li->module->constant_table;
tree_enclosing_module = li->module;
li->capt = (jl_value_t*)jl_lam_capt((jl_expr_t*)ast);
jl_gc_wb(li, li->capt);
if (jl_array_len(li->capt) == 0)
li->capt = NULL;
jl_serialize_value(&dest, jl_lam_body((jl_expr_t*)ast)->etype);
jl_serialize_value(&dest, ast);
//jl_printf(JL_STDERR, "%d bytes, %d values\n", dest.size, vals->length);
jl_value_t *v = (jl_value_t*)jl_takebuf_array(&dest);
if (jl_array_len(tree_literal_values) == 0 && last_tlv == NULL) {
li->module->constant_table = NULL;
}
tree_literal_values = last_tlv;
tree_enclosing_module = last_tem;
jl_gc_enable(en);
mode = last_mode;
JL_SIGATOMIC_END();
return v;
}
DLLEXPORT jl_value_t *jl_uncompress_ast(jl_lambda_info_t *li, jl_value_t *data)
{
JL_SIGATOMIC_BEGIN();
assert(jl_is_array(data));
DUMP_MODES last_mode = mode;
mode = MODE_AST;
jl_array_t *bytes = (jl_array_t*)data;
tree_literal_values = li->module->constant_table;
tree_enclosing_module = li->module;
ios_t src;
ios_mem(&src, 0);
ios_setbuf(&src, (char*)bytes->data, jl_array_len(bytes), 0);
src.size = jl_array_len(bytes);
int en = jl_gc_enable(0);
(void)jl_deserialize_value(&src, NULL); // skip ret type
jl_value_t *v = jl_deserialize_value(&src, NULL);
jl_gc_enable(en);
tree_literal_values = NULL;
tree_enclosing_module = NULL;
mode = last_mode;
JL_SIGATOMIC_END();
return v;
}
DLLEXPORT int jl_save_incremental(const char *fname, jl_array_t *worklist)
{
char *tmpfname = strcat(strcpy((char *) alloca(strlen(fname)+8), fname), ".XXXXXX");
ios_t f;
if (ios_mkstemp(&f, tmpfname) == NULL) {
jl_printf(JL_STDERR, "Cannot open cache file \"%s\" for writing.\n", tmpfname);
return 1;
}
serializer_worklist = worklist;
jl_serialize_header(&f);
jl_serialize_mod_list(&f); // this can throw, keep it early (before any actual initialization)
jl_serialize_dependency_list(&f);
JL_SIGATOMIC_BEGIN();
arraylist_new(&reinit_list, 0);
htable_new(&backref_table, 5000);
ptrhash_put(&backref_table, jl_main_module, (char*)HT_NOTFOUND + 1);
backref_table_numel = 1;
jl_idtable_type = jl_base_module ? jl_get_global(jl_base_module, jl_symbol("ObjectIdDict")) : NULL;
int en = jl_gc_enable(0);
DUMP_MODES last_mode = mode;
mode = MODE_MODULE;
jl_serialize_value(&f, worklist);
jl_finalize_serializer(&f); // done with MODE_MODULE
reinit_list.len = 0;
mode = MODE_MODULE_POSTWORK;
jl_serialize_lambdas_from_mod(&f, jl_main_module);
jl_serialize_value(&f, NULL); // signal end of lambdas
jl_finalize_serializer(&f); // done with f
mode = last_mode;
jl_gc_enable(en);
htable_reset(&backref_table, 0);
arraylist_free(&reinit_list);
ios_close(&f);
JL_SIGATOMIC_END();
if (jl_fs_rename(tmpfname, fname) < 0) {
jl_printf(JL_STDERR, "Cannot write cache file \"%s\".\n", fname);
return 1;
}
return 0;
}
jl_function_t *jl_method_cache_insert(jl_methtable_t *mt, jl_tupletype_t *type,
jl_function_t *method);
static jl_datatype_t *jl_recache_type(jl_datatype_t *dt, size_t start, jl_value_t *v)
{
if (v == NULL)
v = dt->instance; // the instance before unique'ing
jl_datatype_t *t; // the type after unique'ing
if (dt->uid == -1) {
jl_svec_t *tt = dt->parameters;
size_t l = jl_svec_len(tt);
if (l == 0) { // jl_cache_type doesn't work if length(parameters) == 0
dt->uid = jl_assign_type_uid();
t = dt;
}
else {
// recache all type parameters, then type type itself
size_t i;
for (i = 0; i < l; i++) {
jl_datatype_t *p = (jl_datatype_t*)jl_svecref(tt, i);
if (jl_is_datatype(p) && p->uid == -1) {
jl_datatype_t *cachep = jl_recache_type(p, start, NULL);
if (p != cachep)
jl_svecset(tt, i, cachep);
}
jl_datatype_t *tp = (jl_datatype_t*)jl_typeof(p);
if (jl_is_datatype_singleton(tp)) {
if (tp->uid == -1) {
tp = jl_recache_type(tp, start, NULL);
}
if ((jl_value_t*)p != tp->instance)
jl_svecset(tt, i, tp->instance);
}
}
dt->uid = 0;
t = (jl_datatype_t*)jl_cache_type_(dt);
}
}
else {
t = dt;
}
assert(t->uid != 0);
// delete / replace any other usages of this type in the backref list
// with the newly constructed object
size_t j = start;
while (j < flagref_list.len) {
jl_value_t **loc = (jl_value_t**)flagref_list.items[j];
int offs = (int)(intptr_t)flagref_list.items[j+1];
jl_value_t *o = loc ? *loc : (jl_value_t*)backref_list.items[offs];
if ((jl_value_t*)dt == o) {
if (t != dt) {
if (loc) *loc = (jl_value_t*)t;
if (offs > 0) backref_list.items[offs] = t;
}
}
else if (v == o) {
if (t->instance != v) {
*loc = t->instance;
if (offs > 0) backref_list.items[offs] = t->instance;
}
}
else {
j += 2;
continue;
}
// delete this item from the flagref list, so it won't be re-encountered later
flagref_list.len -= 2;
if (j >= flagref_list.len)
break;
flagref_list.items[j+0] = flagref_list.items[flagref_list.len+0];
flagref_list.items[j+1] = flagref_list.items[flagref_list.len+1];
}
return t;
}
static void jl_recache_types()
{
size_t i = 0;
while (i < flagref_list.len) {
jl_value_t **loc = (jl_value_t**)flagref_list.items[i++];
int offs = (int)(intptr_t)flagref_list.items[i++];
jl_value_t *v, *o = loc ? *loc : (jl_value_t*)backref_list.items[offs];
jl_datatype_t *dt, *t;
if (jl_is_datatype(o)) {
dt = (jl_datatype_t*)o;
v = dt->instance;
assert(dt->uid == -1);
t = jl_recache_type(dt, i, NULL);
}
else {
dt = (jl_datatype_t*)jl_typeof(o);
v = o;
t = jl_recache_type(dt, i, v);
}
assert(dt);
if (t != dt) {
jl_set_typeof(dt, (jl_value_t*)(ptrint_t)0x10); // invalidate the old value to help catch errors
if ((jl_value_t*)dt == o) {
if (loc) *loc = (jl_value_t*)t;
if (offs > 0) backref_list.items[offs] = t;
}
}
if (t->instance != v) {
jl_set_typeof(v, (jl_value_t*)(ptrint_t)0x20); // invalidate the old value to help catch errors
if (v == o) {
*loc = t->instance;
if (offs > 0) backref_list.items[offs] = t->instance;
}
}
}
}
static jl_array_t *_jl_restore_incremental(ios_t *f)
{
if (ios_eof(f)) {
ios_close(f);
return NULL;
}
if (!jl_deserialize_verify_header(f) ||
!jl_deserialize_verify_mod_list(f)) {
ios_close(f);
return NULL;
}
size_t deplen = read_uint64(f);
ios_skip(f, deplen); // skip past the dependency list
JL_SIGATOMIC_BEGIN();
arraylist_new(&backref_list, 4000);
arraylist_push(&backref_list, jl_main_module);
arraylist_new(&flagref_list, 0);
arraylist_new(&methtable_list, 0);
int en = jl_gc_enable(0);
DUMP_MODES last_mode = mode;
mode = MODE_MODULE;
jl_array_t *restored = NULL;
jl_array_t *init_order = NULL;
restored = (jl_array_t*)jl_deserialize_value(f, (jl_value_t**)&restored);
jl_recache_types();
jl_finalize_deserializer(f); // done with MODE_MODULE
// at this point, the AST is fully reconstructed, but still completely disconnected
// in postwork mode, all of the interconnects will be created
mode = MODE_MODULE_POSTWORK;
jl_deserialize_lambdas_from_mod(f); // hook up methods of external generic functions
init_order = jl_finalize_deserializer(f); // done with f
// Resort the internal method tables
size_t i;
for (i = 0; i < methtable_list.len; i++) {
jl_methtable_t *mt = (jl_methtable_t*)methtable_list.items[i];
jl_array_t *cache_targ = mt->cache_targ;
jl_array_t *cache_arg1 = mt->cache_arg1;
mt->cache_targ = (jl_array_t*)jl_nothing;
mt->cache_arg1 = (jl_array_t*)jl_nothing;
if (cache_targ != (void*)jl_nothing) {
size_t j, l = jl_array_len(cache_targ);
for (j = 0; j < l; j++) {
jl_methlist_t *ml = (jl_methlist_t*)jl_cellref(cache_targ, j);
while (ml != NULL && ml != (void*)jl_nothing) {
assert(!ml->isstaged);
jl_method_cache_insert(mt, ml->sig, ml->func);
ml = ml->next;
}
}
}
if (cache_arg1 != (void*)jl_nothing) {
size_t j, l = jl_array_len(cache_arg1);
for (j = 0; j < l; j++) {
jl_methlist_t *ml = (jl_methlist_t*)jl_cellref(cache_arg1, j);
while (ml != NULL && ml != (void*)jl_nothing) {
assert(!ml->isstaged);
jl_method_cache_insert(mt, ml->sig, ml->func);
ml = ml->next;
}
}
}
}
mode = last_mode;
jl_gc_enable(en);
arraylist_free(&flagref_list);
arraylist_free(&methtable_list);
arraylist_free(&backref_list);
ios_close(f);
JL_SIGATOMIC_END();
JL_GC_PUSH2(&init_order,&restored);
jl_init_restored_modules(init_order);
JL_GC_POP();
return restored;
}
DLLEXPORT jl_value_t *jl_restore_incremental_from_buf(const char *buf, size_t sz)
{
ios_t f;
jl_array_t *modules;
ios_static_buffer(&f, (char*)buf, sz);
modules = _jl_restore_incremental(&f);
return modules ? (jl_value_t*) modules : jl_nothing;
}
DLLEXPORT jl_value_t *jl_restore_incremental(const char *fname)
{
ios_t f;
jl_array_t *modules;
if (ios_file(&f, fname, 1, 0, 0, 0) == NULL) {
jl_printf(JL_STDERR, "Cache file \"%s\" not found\n", fname);
return jl_nothing;
}
modules = _jl_restore_incremental(&f);
return modules ? (jl_value_t*) modules : jl_nothing;
}
// --- init ---
void jl_init_serializer(void)
{
htable_new(&ser_tag, 0);
htable_new(&common_symbol_tag, 0);
htable_new(&fptr_to_id, sizeof(id_to_fptrs)/sizeof(*id_to_fptrs));
htable_new(&backref_table, 0);
void *tags[] = { jl_symbol_type, jl_gensym_type, jl_datatype_type,
jl_function_type, jl_simplevector_type, jl_array_type,
jl_expr_type, (void*)LongSymbol_tag, (void*)LongSvec_tag,
(void*)LongExpr_tag, (void*)LiteralVal_tag,
(void*)SmallInt64_tag, (void*)SmallDataType_tag,
(void*)Int32_tag, (void*)Array1d_tag, (void*)Singleton_tag,
jl_module_type, jl_tvar_type, jl_lambda_info_type,
(void*)CommonSym_tag, (void*)NearbyGlobal_tag, jl_globalref_type,
// everything above here represents a class of object rather only than a literal
jl_emptysvec, jl_emptytuple, jl_false, jl_true, jl_nothing, jl_any_type,
call_sym, goto_ifnot_sym, return_sym, body_sym, line_sym,
lambda_sym, tuple_sym, assign_sym,
// empirical list of very common symbols
#include "common_symbols1.inc"
jl_box_int32(0), jl_box_int32(1), jl_box_int32(2),
jl_box_int32(3), jl_box_int32(4), jl_box_int32(5),
jl_box_int32(6), jl_box_int32(7), jl_box_int32(8),
jl_box_int32(9), jl_box_int32(10), jl_box_int32(11),
jl_box_int32(12), jl_box_int32(13), jl_box_int32(14),
jl_box_int32(15), jl_box_int32(16), jl_box_int32(17),
jl_box_int32(18), jl_box_int32(19), jl_box_int32(20),
jl_box_int32(21), jl_box_int32(22), jl_box_int32(23),
jl_box_int32(24), jl_box_int32(25), jl_box_int32(26),
jl_box_int32(27), jl_box_int32(28), jl_box_int32(29),
jl_box_int32(30), jl_box_int32(31), jl_box_int32(32),
#ifndef _P64
jl_box_int32(33), jl_box_int32(34), jl_box_int32(35),
jl_box_int32(36), jl_box_int32(37), jl_box_int32(38),
jl_box_int32(39), jl_box_int32(40), jl_box_int32(41),
jl_box_int32(42), jl_box_int32(43), jl_box_int32(44),
jl_box_int32(45), jl_box_int32(46), jl_box_int32(47),
jl_box_int32(48), jl_box_int32(49), jl_box_int32(50),
#endif
jl_box_int64(0), jl_box_int64(1), jl_box_int64(2),
jl_box_int64(3), jl_box_int64(4), jl_box_int64(5),
jl_box_int64(6), jl_box_int64(7), jl_box_int64(8),
jl_box_int64(9), jl_box_int64(10), jl_box_int64(11),
jl_box_int64(12), jl_box_int64(13), jl_box_int64(14),
jl_box_int64(15), jl_box_int64(16), jl_box_int64(17),
jl_box_int64(18), jl_box_int64(19), jl_box_int64(20),
jl_box_int64(21), jl_box_int64(22), jl_box_int64(23),
jl_box_int64(24), jl_box_int64(25), jl_box_int64(26),
jl_box_int64(27), jl_box_int64(28), jl_box_int64(29),
jl_box_int64(30), jl_box_int64(31), jl_box_int64(32),
#ifdef _P64
jl_box_int64(33), jl_box_int64(34), jl_box_int64(35),
jl_box_int64(36), jl_box_int64(37), jl_box_int64(38),
jl_box_int64(39), jl_box_int64(40), jl_box_int64(41),
jl_box_int64(42), jl_box_int64(43), jl_box_int64(44),
jl_box_int64(45), jl_box_int64(46), jl_box_int64(47),
jl_box_int64(48), jl_box_int64(49), jl_box_int64(50),
#endif
jl_labelnode_type, jl_linenumbernode_type,
jl_gotonode_type, jl_quotenode_type, jl_topnode_type,
jl_type_type, jl_bottom_type, jl_ref_type, jl_pointer_type,
jl_vararg_type, jl_ntuple_type, jl_abstractarray_type,
jl_densearray_type, jl_box_type, jl_void_type,
jl_typector_type, jl_typename_type,
jl_task_type, jl_uniontype_type, jl_typetype_type, jl_typetype_tvar,
jl_ANY_flag, jl_array_any_type, jl_intrinsic_type, jl_method_type,
jl_methtable_type, jl_voidpointer_type, jl_newvarnode_type,
jl_array_symbol_type, jl_anytuple_type, jl_tparam0(jl_anytuple_type),
jl_typeof(jl_emptytuple),
jl_symbol_type->name, jl_gensym_type->name, jl_tuple_typename,
jl_ref_type->name, jl_pointer_type->name, jl_simplevector_type->name,
jl_datatype_type->name, jl_uniontype_type->name, jl_array_type->name,
jl_expr_type->name, jl_typename_type->name, jl_type_type->name,
jl_methtable_type->name, jl_method_type->name, jl_tvar_type->name,
jl_ntuple_type->name, jl_abstractarray_type->name, jl_vararg_type->name,
jl_densearray_type->name, jl_void_type->name, jl_lambda_info_type->name,
jl_module_type->name, jl_box_type->name, jl_function_type->name,
jl_typector_type->name, jl_intrinsic_type->name, jl_task_type->name,
jl_labelnode_type->name, jl_linenumbernode_type->name,
jl_gotonode_type->name, jl_quotenode_type->name, jl_topnode_type->name,
jl_globalref_type->name,
jl_root_task, jl_bottom_func,
NULL };
// more common symbols, less common than those above. will get 2-byte encodings.
void *common_symbols[] = {
#include "common_symbols2.inc"
NULL
};
ptrint_t i=2;
while (tags[i-2] != NULL) {
ptrhash_put(&ser_tag, tags[i-2], (void*)i);
deser_tag[i] = (jl_value_t*)tags[i-2];
i += 1;
}
assert(i <= Null_tag);
VALUE_TAGS = (ptrint_t)ptrhash_get(&ser_tag, jl_emptysvec);
i=2;
while (id_to_fptrs[i] != NULL) {
ptrhash_put(&fptr_to_id, (void*)id_to_fptrs[i], (void*)i);
i += 1;
}
i=2;
while (common_symbols[i-2] != NULL) {
ptrhash_put(&common_symbol_tag, common_symbols[i-2], (void*)i);
deser_symbols[i] = (jl_value_t*)common_symbols[i-2];
i += 1;
}
assert(i <= 256);
}
#ifdef __cplusplus
}
#endif