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ruby--ruby/vm_backtrace.c

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/**********************************************************************
vm_backtrace.c -
$Author: ko1 $
created at: Sun Jun 03 00:14:20 2012
Copyright (C) 1993-2012 Yukihiro Matsumoto
**********************************************************************/
#include "ruby/encoding.h"
#include "ruby/debug.h"
#include "internal.h"
#include "vm_core.h"
#include "eval_intern.h"
#include "iseq.h"
static VALUE rb_cBacktrace;
static VALUE rb_cBacktraceLocation;
static VALUE
id2str(ID id)
{
VALUE str = rb_id2str(id);
if (!str) return Qnil;
return str;
}
#define rb_id2str(id) id2str(id)
inline static int
calc_lineno(const rb_iseq_t *iseq, const VALUE *pc)
{
size_t pos = (size_t)(pc - iseq->body->iseq_encoded);
if (LIKELY(pos)) {
/* use pos-1 because PC points next instruction at the beginning of instruction */
pos--;
}
#if VMDEBUG && defined(HAVE_BUILTIN___BUILTIN_TRAP)
else {
/* SDR() is not possible; that causes infinite loop. */
rb_print_backtrace();
__builtin_trap();
}
#endif
return rb_iseq_line_no(iseq, pos);
}
int
rb_vm_get_sourceline(const rb_control_frame_t *cfp)
{
if (VM_FRAME_RUBYFRAME_P(cfp) && cfp->iseq) {
const rb_iseq_t *iseq = cfp->iseq;
int line = calc_lineno(iseq, cfp->pc);
if (line != 0) {
return line;
}
else {
return FIX2INT(rb_iseq_first_lineno(iseq));
}
}
else {
return 0;
}
}
typedef struct rb_backtrace_location_struct {
enum LOCATION_TYPE {
LOCATION_TYPE_ISEQ = 1,
LOCATION_TYPE_ISEQ_CALCED,
LOCATION_TYPE_CFUNC,
LOCATION_TYPE_IFUNC
} type;
union {
struct {
const rb_iseq_t *iseq;
union {
const VALUE *pc;
int lineno;
} lineno;
} iseq;
struct {
ID mid;
struct rb_backtrace_location_struct *prev_loc;
} cfunc;
} body;
} rb_backtrace_location_t;
struct valued_frame_info {
rb_backtrace_location_t *loc;
VALUE btobj;
};
static void
location_mark(void *ptr)
{
struct valued_frame_info *vfi = (struct valued_frame_info *)ptr;
rb_gc_mark(vfi->btobj);
}
static void
location_mark_entry(rb_backtrace_location_t *fi)
{
switch (fi->type) {
case LOCATION_TYPE_ISEQ:
case LOCATION_TYPE_ISEQ_CALCED:
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rb_gc_mark((VALUE)fi->body.iseq.iseq);
break;
case LOCATION_TYPE_CFUNC:
case LOCATION_TYPE_IFUNC:
default:
break;
}
}
static size_t
location_memsize(const void *ptr)
{
/* rb_backtrace_location_t *fi = (rb_backtrace_location_t *)ptr; */
return sizeof(rb_backtrace_location_t);
}
static const rb_data_type_t location_data_type = {
"frame_info",
{location_mark, RUBY_TYPED_DEFAULT_FREE, location_memsize,},
0, 0, RUBY_TYPED_FREE_IMMEDIATELY
};
static inline rb_backtrace_location_t *
location_ptr(VALUE locobj)
{
struct valued_frame_info *vloc;
GetCoreDataFromValue(locobj, struct valued_frame_info, vloc);
return vloc->loc;
}
static int
location_lineno(rb_backtrace_location_t *loc)
{
switch (loc->type) {
case LOCATION_TYPE_ISEQ:
loc->type = LOCATION_TYPE_ISEQ_CALCED;
return (loc->body.iseq.lineno.lineno = calc_lineno(loc->body.iseq.iseq, loc->body.iseq.lineno.pc));
case LOCATION_TYPE_ISEQ_CALCED:
return loc->body.iseq.lineno.lineno;
case LOCATION_TYPE_CFUNC:
if (loc->body.cfunc.prev_loc) {
return location_lineno(loc->body.cfunc.prev_loc);
}
return 0;
default:
rb_bug("location_lineno: unreachable");
UNREACHABLE;
}
}
/*
* Returns the line number of this frame.
*
* For example, using +caller_locations.rb+ from Thread::Backtrace::Location
*
* loc = c(0..1).first
* loc.lineno #=> 2
*/
static VALUE
location_lineno_m(VALUE self)
{
return INT2FIX(location_lineno(location_ptr(self)));
}
static VALUE
location_label(rb_backtrace_location_t *loc)
{
switch (loc->type) {
case LOCATION_TYPE_ISEQ:
case LOCATION_TYPE_ISEQ_CALCED:
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return loc->body.iseq.iseq->body->location.label;
case LOCATION_TYPE_CFUNC:
return rb_id2str(loc->body.cfunc.mid);
case LOCATION_TYPE_IFUNC:
default:
rb_bug("location_label: unreachable");
UNREACHABLE;
}
}
/*
* Returns the label of this frame.
*
* Usually consists of method, class, module, etc names with decoration.
*
* Consider the following example:
*
* def foo
* puts caller_locations(0).first.label
*
* 1.times do
* puts caller_locations(0).first.label
*
* 1.times do
* puts caller_locations(0).first.label
* end
*
* end
* end
*
* The result of calling +foo+ is this:
*
* label: foo
* label: block in foo
* label: block (2 levels) in foo
*
*/
static VALUE
location_label_m(VALUE self)
{
return location_label(location_ptr(self));
}
static VALUE
location_base_label(rb_backtrace_location_t *loc)
{
switch (loc->type) {
case LOCATION_TYPE_ISEQ:
case LOCATION_TYPE_ISEQ_CALCED:
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return loc->body.iseq.iseq->body->location.base_label;
case LOCATION_TYPE_CFUNC:
return rb_id2str(loc->body.cfunc.mid);
case LOCATION_TYPE_IFUNC:
default:
rb_bug("location_base_label: unreachable");
UNREACHABLE;
}
}
/*
* Returns the base label of this frame.
*
* Usually same as #label, without decoration.
*/
static VALUE
location_base_label_m(VALUE self)
{
return location_base_label(location_ptr(self));
}
static VALUE
location_path(rb_backtrace_location_t *loc)
{
switch (loc->type) {
case LOCATION_TYPE_ISEQ:
case LOCATION_TYPE_ISEQ_CALCED:
return rb_iseq_path(loc->body.iseq.iseq);
case LOCATION_TYPE_CFUNC:
if (loc->body.cfunc.prev_loc) {
return location_path(loc->body.cfunc.prev_loc);
}
return Qnil;
case LOCATION_TYPE_IFUNC:
default:
rb_bug("location_path: unreachable");
UNREACHABLE;
}
}
/*
* Returns the file name of this frame.
*
* For example, using +caller_locations.rb+ from Thread::Backtrace::Location
*
* loc = c(0..1).first
* loc.path #=> caller_locations.rb
*/
static VALUE
location_path_m(VALUE self)
{
return location_path(location_ptr(self));
}
static VALUE
location_realpath(rb_backtrace_location_t *loc)
{
switch (loc->type) {
case LOCATION_TYPE_ISEQ:
case LOCATION_TYPE_ISEQ_CALCED:
return rb_iseq_realpath(loc->body.iseq.iseq);
case LOCATION_TYPE_CFUNC:
if (loc->body.cfunc.prev_loc) {
return location_realpath(loc->body.cfunc.prev_loc);
}
return Qnil;
case LOCATION_TYPE_IFUNC:
default:
rb_bug("location_realpath: unreachable");
UNREACHABLE;
}
}
/*
* Returns the full file path of this frame.
*
* Same as #path, but includes the absolute path.
*/
static VALUE
location_absolute_path_m(VALUE self)
{
return location_realpath(location_ptr(self));
}
static VALUE
location_format(VALUE file, int lineno, VALUE name)
{
VALUE s = rb_enc_sprintf(rb_enc_compatible(file, name), "%s", RSTRING_PTR(file));
if (lineno != 0) {
rb_str_catf(s, ":%d", lineno);
}
rb_str_cat_cstr(s, ":in ");
if (NIL_P(name)) {
rb_str_cat_cstr(s, "unknown method");
}
else {
rb_str_catf(s, "`%s'", RSTRING_PTR(name));
}
return s;
}
static VALUE
location_to_str(rb_backtrace_location_t *loc)
{
VALUE file, name;
int lineno;
switch (loc->type) {
case LOCATION_TYPE_ISEQ:
file = rb_iseq_path(loc->body.iseq.iseq);
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name = loc->body.iseq.iseq->body->location.label;
lineno = loc->body.iseq.lineno.lineno = calc_lineno(loc->body.iseq.iseq, loc->body.iseq.lineno.pc);
loc->type = LOCATION_TYPE_ISEQ_CALCED;
break;
case LOCATION_TYPE_ISEQ_CALCED:
file = rb_iseq_path(loc->body.iseq.iseq);
lineno = loc->body.iseq.lineno.lineno;
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name = loc->body.iseq.iseq->body->location.label;
break;
case LOCATION_TYPE_CFUNC:
if (loc->body.cfunc.prev_loc) {
file = rb_iseq_path(loc->body.cfunc.prev_loc->body.iseq.iseq);
lineno = location_lineno(loc->body.cfunc.prev_loc);
}
else {
file = GET_VM()->progname;
lineno = INT2FIX(0);
}
name = rb_id2str(loc->body.cfunc.mid);
break;
case LOCATION_TYPE_IFUNC:
default:
rb_bug("location_to_str: unreachable");
}
return location_format(file, lineno, name);
}
/*
* Returns a Kernel#caller style string representing this frame.
*/
static VALUE
location_to_str_m(VALUE self)
{
return location_to_str(location_ptr(self));
}
/*
* Returns the same as calling +inspect+ on the string representation of
* #to_str
*/
static VALUE
location_inspect_m(VALUE self)
{
return rb_str_inspect(location_to_str(location_ptr(self)));
}
typedef struct rb_backtrace_struct {
rb_backtrace_location_t *backtrace;
rb_backtrace_location_t *backtrace_base;
int backtrace_size;
VALUE strary;
VALUE locary;
} rb_backtrace_t;
static void
backtrace_mark(void *ptr)
{
rb_backtrace_t *bt = (rb_backtrace_t *)ptr;
size_t i, s = bt->backtrace_size;
for (i=0; i<s; i++) {
location_mark_entry(&bt->backtrace[i]);
}
rb_gc_mark(bt->strary);
rb_gc_mark(bt->locary);
}
static void
backtrace_free(void *ptr)
{
rb_backtrace_t *bt = (rb_backtrace_t *)ptr;
if (bt->backtrace) ruby_xfree(bt->backtrace_base);
ruby_xfree(bt);
}
static size_t
backtrace_memsize(const void *ptr)
{
rb_backtrace_t *bt = (rb_backtrace_t *)ptr;
return sizeof(rb_backtrace_t) + sizeof(rb_backtrace_location_t) * bt->backtrace_size;
}
static const rb_data_type_t backtrace_data_type = {
"backtrace",
{backtrace_mark, backtrace_free, backtrace_memsize,},
0, 0, RUBY_TYPED_FREE_IMMEDIATELY
};
int
rb_backtrace_p(VALUE obj)
{
return rb_typeddata_is_kind_of(obj, &backtrace_data_type);
}
static VALUE
backtrace_alloc(VALUE klass)
{
rb_backtrace_t *bt;
VALUE obj = TypedData_Make_Struct(klass, rb_backtrace_t, &backtrace_data_type, bt);
return obj;
}
static void
backtrace_each(const rb_execution_context_t *ec,
void (*init)(void *arg, size_t size),
void (*iter_iseq)(void *arg, const rb_control_frame_t *cfp),
void (*iter_cfunc)(void *arg, const rb_control_frame_t *cfp, ID mid),
void *arg)
{
const rb_control_frame_t *last_cfp = ec->cfp;
const rb_control_frame_t *start_cfp = RUBY_VM_END_CONTROL_FRAME(ec);
const rb_control_frame_t *cfp;
ptrdiff_t size, i;
/* <- start_cfp (end control frame)
* top frame (dummy)
* top frame (dummy)
* top frame <- start_cfp
* top frame
* ...
* 2nd frame <- lev:0
* current frame <- ec->cfp
*/
start_cfp =
RUBY_VM_NEXT_CONTROL_FRAME(
* vm_core.h: remove VM_FRAME_MAGIC_FINISH (finish frame type). Before this commit: `finish frame' was place holder which indicates that VM loop needs to return function. If a C method calls a Ruby methods (a method written by Ruby), then VM loop will be (re-)invoked. When the Ruby method returns, then also VM loop should be escaped. `finish frame' has only one instruction `finish', which returns VM loop function. VM loop function executes `finish' instruction, then VM loop function returns itself. With such mechanism, `leave' instruction (which returns one frame from current scope) doesn't need to check that this `leave' should also return from VM loop function. Strictly, one branch can be removed from `leave' instructon. Consideration: However, pushing the `finish frame' needs costs because it needs several memory accesses. The number of pushing `finish frame' is greater than I had assumed. Of course, pushing `finish frame' consumes additional control frame. Moreover, recent processors has good branch prediction, with which we can ignore such trivial checking. After this commit: Finally, I decide to remove `finish frame' and `finish' instruction. Some parts of VM depend on `finish frame', so the new frame flag VM_FRAME_FLAG_FINISH is introduced. If this frame should escape from VM function loop, then the result of VM_FRAME_TYPE_FINISH_P(cfp) is true. `leave' instruction checks this flag every time. I measured performance on it. However on my environments, it improves some benchmarks and slows some benchmarks down. Maybe it is because of C compiler optimization parameters. I'll re-visit here if this cause problems. * insns.def (leave, finish): remove finish instruction. * vm.c, vm_eval.c, vm_exec.c, vm_backtrace.c, vm_dump.c: apply above changes. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@36099 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2012-06-15 06:22:34 -04:00
RUBY_VM_NEXT_CONTROL_FRAME(start_cfp)); /* skip top frames */
if (start_cfp < last_cfp) {
size = 0;
}
else {
size = start_cfp - last_cfp + 1;
}
init(arg, size);
/* SDR(); */
for (i=0, cfp = start_cfp; i<size; i++, cfp = RUBY_VM_NEXT_CONTROL_FRAME(cfp)) {
/* fprintf(stderr, "cfp: %d\n", (rb_control_frame_t *)(ec->vm_stack + ec->vm_stack_size) - cfp); */
if (cfp->iseq) {
if (cfp->pc) {
iter_iseq(arg, cfp);
}
}
else if (RUBYVM_CFUNC_FRAME_P(cfp)) {
* method.h: introduce rb_callable_method_entry_t to remove rb_control_frame_t::klass. [Bug #11278], [Bug #11279] rb_method_entry_t data belong to modules/classes. rb_method_entry_t::owner points defined module or class. module M def foo; end end In this case, owner is M. rb_callable_method_entry_t data belong to only classes. For modules, MRI creates corresponding T_ICLASS internally. rb_callable_method_entry_t can also belong to T_ICLASS. rb_callable_method_entry_t::defined_class points T_CLASS or T_ICLASS. rb_method_entry_t data for classes (not for modules) are also rb_callable_method_entry_t data because it is completely same data. In this case, rb_method_entry_t::owner == rb_method_entry_t::defined_class. For example, there are classes C and D, and incldues M, class C; include M; end class D; include M; end then, two T_ICLASS objects for C's super class and D's super class will be created. When C.new.foo is called, then M#foo is searcheed and rb_callable_method_t data is used by VM to invoke M#foo. rb_method_entry_t data is only one for M#foo. However, rb_callable_method_entry_t data are two (and can be more). It is proportional to the number of including (and prepending) classes (the number of T_ICLASS which point to the module). Now, created rb_callable_method_entry_t are collected when the original module M was modified. We can think it is a cache. We need to select what kind of method entry data is needed. To operate definition, then you need to use rb_method_entry_t. You can access them by the following functions. * rb_method_entry(VALUE klass, ID id); * rb_method_entry_with_refinements(VALUE klass, ID id); * rb_method_entry_without_refinements(VALUE klass, ID id); * rb_resolve_refined_method(VALUE refinements, const rb_method_entry_t *me); To invoke methods, then you need to use rb_callable_method_entry_t which you can get by the following APIs corresponding to the above listed functions. * rb_callable_method_entry(VALUE klass, ID id); * rb_callable_method_entry_with_refinements(VALUE klass, ID id); * rb_callable_method_entry_without_refinements(VALUE klass, ID id); * rb_resolve_refined_method_callable(VALUE refinements, const rb_callable_method_entry_t *me); VM pushes rb_callable_method_entry_t, so that rb_vm_frame_method_entry() returns rb_callable_method_entry_t. You can check a super class of current method by rb_callable_method_entry_t::defined_class. * method.h: renamed from rb_method_entry_t::klass to rb_method_entry_t::owner. * internal.h: add rb_classext_struct::callable_m_tbl to cache rb_callable_method_entry_t data. We need to consider abotu this field again because it is only active for T_ICLASS. * class.c (method_entry_i): ditto. * class.c (rb_define_attr): rb_method_entry() does not takes defiend_class_ptr. * gc.c (mark_method_entry): mark RCLASS_CALLABLE_M_TBL() for T_ICLASS. * cont.c (fiber_init): rb_control_frame_t::klass is removed. * proc.c: fix `struct METHOD' data structure because rb_callable_method_t has all information. * vm_core.h: remove several fields. * rb_control_frame_t::klass. * rb_block_t::klass. And catch up changes. * eval.c: catch up changes. * gc.c: ditto. * insns.def: ditto. * vm.c: ditto. * vm_args.c: ditto. * vm_backtrace.c: ditto. * vm_dump.c: ditto. * vm_eval.c: ditto. * vm_insnhelper.c: ditto. * vm_method.c: ditto. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@51126 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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const rb_callable_method_entry_t *me = rb_vm_frame_method_entry(cfp);
ID mid = me->def->original_id;
iter_cfunc(arg, cfp, mid);
}
}
}
struct bt_iter_arg {
rb_backtrace_t *bt;
VALUE btobj;
rb_backtrace_location_t *prev_loc;
};
static void
bt_init(void *ptr, size_t size)
{
struct bt_iter_arg *arg = (struct bt_iter_arg *)ptr;
arg->btobj = backtrace_alloc(rb_cBacktrace);
GetCoreDataFromValue(arg->btobj, rb_backtrace_t, arg->bt);
arg->bt->backtrace_base = arg->bt->backtrace = ruby_xmalloc(sizeof(rb_backtrace_location_t) * size);
arg->bt->backtrace_size = 0;
}
static void
bt_iter_iseq(void *ptr, const rb_control_frame_t *cfp)
{
const rb_iseq_t *iseq = cfp->iseq;
const VALUE *pc = cfp->pc;
struct bt_iter_arg *arg = (struct bt_iter_arg *)ptr;
rb_backtrace_location_t *loc = &arg->bt->backtrace[arg->bt->backtrace_size++];
loc->type = LOCATION_TYPE_ISEQ;
loc->body.iseq.iseq = iseq;
loc->body.iseq.lineno.pc = pc;
arg->prev_loc = loc;
}
static void
bt_iter_cfunc(void *ptr, const rb_control_frame_t *cfp, ID mid)
{
struct bt_iter_arg *arg = (struct bt_iter_arg *)ptr;
rb_backtrace_location_t *loc = &arg->bt->backtrace[arg->bt->backtrace_size++];
loc->type = LOCATION_TYPE_CFUNC;
loc->body.cfunc.mid = mid;
loc->body.cfunc.prev_loc = arg->prev_loc;
}
mjit_compile.c: merge initial JIT compiler which has been developed by Takashi Kokubun <takashikkbn@gmail> as YARV-MJIT. Many of its bugs are fixed by wanabe <s.wanabe@gmail.com>. This JIT compiler is designed to be a safe migration path to introduce JIT compiler to MRI. So this commit does not include any bytecode changes or dynamic instruction modifications, which are done in original MJIT. This commit even strips off some aggressive optimizations from YARV-MJIT, and thus it's slower than YARV-MJIT too. But it's still fairly faster than Ruby 2.5 in some benchmarks (attached below). Note that this JIT compiler passes `make test`, `make test-all`, `make test-spec` without JIT, and even with JIT. Not only it's perfectly safe with JIT disabled because it does not replace VM instructions unlike MJIT, but also with JIT enabled it stably runs Ruby applications including Rails applications. I'm expecting this version as just "initial" JIT compiler. I have many optimization ideas which are skipped for initial merging, and you may easily replace this JIT compiler with a faster one by just replacing mjit_compile.c. `mjit_compile` interface is designed for the purpose. common.mk: update dependencies for mjit_compile.c. internal.h: declare `rb_vm_insn_addr2insn` for MJIT. vm.c: exclude some definitions if `-DMJIT_HEADER` is provided to compiler. This avoids to include some functions which take a long time to compile, e.g. vm_exec_core. Some of the purpose is achieved in transform_mjit_header.rb (see `IGNORED_FUNCTIONS`) but others are manually resolved for now. Load mjit_helper.h for MJIT header. mjit_helper.h: New. This is a file used only by JIT-ed code. I'll refactor `mjit_call_cfunc` later. vm_eval.c: add some #ifdef switches to skip compiling some functions like Init_vm_eval. win32/mkexports.rb: export thread/ec functions, which are used by MJIT. include/ruby/defines.h: add MJIT_FUNC_EXPORTED macro alis to clarify that a function is exported only for MJIT. array.c: export a function used by MJIT. bignum.c: ditto. class.c: ditto. compile.c: ditto. error.c: ditto. gc.c: ditto. hash.c: ditto. iseq.c: ditto. numeric.c: ditto. object.c: ditto. proc.c: ditto. re.c: ditto. st.c: ditto. string.c: ditto. thread.c: ditto. variable.c: ditto. vm_backtrace.c: ditto. vm_insnhelper.c: ditto. vm_method.c: ditto. I would like to improve maintainability of function exports, but I believe this way is acceptable as initial merging if we clarify the new exports are for MJIT (so that we can use them as TODO list to fix) and add unit tests to detect unresolved symbols. I'll add unit tests of JIT compilations in succeeding commits. Author: Takashi Kokubun <takashikkbn@gmail.com> Contributor: wanabe <s.wanabe@gmail.com> Part of [Feature #14235] --- * Known issues * Code generated by gcc is faster than clang. The benchmark may be worse in macOS. Following benchmark result is provided by gcc w/ Linux. * Performance is decreased when Google Chrome is running * JIT can work on MinGW, but it doesn't improve performance at least in short running benchmark. * Currently it doesn't perform well with Rails. We'll try to fix this before release. --- * Benchmark reslts Benchmarked with: Intel 4.0GHz i7-4790K with 16GB memory under x86-64 Ubuntu 8 Cores - 2.0.0-p0: Ruby 2.0.0-p0 - r62186: Ruby trunk (early 2.6.0), before MJIT changes - JIT off: On this commit, but without `--jit` option - JIT on: On this commit, and with `--jit` option ** Optcarrot fps Benchmark: https://github.com/mame/optcarrot | |2.0.0-p0 |r62186 |JIT off |JIT on | |:--------|:--------|:--------|:--------|:--------| |fps |37.32 |51.46 |51.31 |58.88 | |vs 2.0.0 |1.00x |1.38x |1.37x |1.58x | ** MJIT benchmarks Benchmark: https://github.com/benchmark-driver/mjit-benchmarks (Original: https://github.com/vnmakarov/ruby/tree/rtl_mjit_branch/MJIT-benchmarks) | |2.0.0-p0 |r62186 |JIT off |JIT on | |:----------|:--------|:--------|:--------|:--------| |aread |1.00 |1.09 |1.07 |2.19 | |aref |1.00 |1.13 |1.11 |2.22 | |aset |1.00 |1.50 |1.45 |2.64 | |awrite |1.00 |1.17 |1.13 |2.20 | |call |1.00 |1.29 |1.26 |2.02 | |const2 |1.00 |1.10 |1.10 |2.19 | |const |1.00 |1.11 |1.10 |2.19 | |fannk |1.00 |1.04 |1.02 |1.00 | |fib |1.00 |1.32 |1.31 |1.84 | |ivread |1.00 |1.13 |1.12 |2.43 | |ivwrite |1.00 |1.23 |1.21 |2.40 | |mandelbrot |1.00 |1.13 |1.16 |1.28 | |meteor |1.00 |2.97 |2.92 |3.17 | |nbody |1.00 |1.17 |1.15 |1.49 | |nest-ntimes|1.00 |1.22 |1.20 |1.39 | |nest-while |1.00 |1.10 |1.10 |1.37 | |norm |1.00 |1.18 |1.16 |1.24 | |nsvb |1.00 |1.16 |1.16 |1.17 | |red-black |1.00 |1.02 |0.99 |1.12 | |sieve |1.00 |1.30 |1.28 |1.62 | |trees |1.00 |1.14 |1.13 |1.19 | |while |1.00 |1.12 |1.11 |2.41 | ** Discourse's script/bench.rb Benchmark: https://github.com/discourse/discourse/blob/v1.8.7/script/bench.rb NOTE: Rails performance was somehow a little degraded with JIT for now. We should fix this. (At least I know opt_aref is performing badly in JIT and I have an idea to fix it. Please wait for the fix.) *** JIT off Your Results: (note for timings- percentile is first, duration is second in millisecs) categories_admin: 50: 17 75: 18 90: 22 99: 29 home_admin: 50: 21 75: 21 90: 27 99: 40 topic_admin: 50: 17 75: 18 90: 22 99: 32 categories: 50: 35 75: 41 90: 43 99: 77 home: 50: 39 75: 46 90: 49 99: 95 topic: 50: 46 75: 52 90: 56 99: 101 *** JIT on Your Results: (note for timings- percentile is first, duration is second in millisecs) categories_admin: 50: 19 75: 21 90: 25 99: 33 home_admin: 50: 24 75: 26 90: 30 99: 35 topic_admin: 50: 19 75: 20 90: 25 99: 30 categories: 50: 40 75: 44 90: 48 99: 76 home: 50: 42 75: 48 90: 51 99: 89 topic: 50: 49 75: 55 90: 58 99: 99 git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62197 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2018-02-04 06:22:28 -05:00
MJIT_FUNC_EXPORTED VALUE
rb_ec_backtrace_object(const rb_execution_context_t *ec)
{
struct bt_iter_arg arg;
arg.prev_loc = 0;
backtrace_each(ec,
bt_init,
bt_iter_iseq,
bt_iter_cfunc,
&arg);
return arg.btobj;
}
static VALUE
backtrace_collect(rb_backtrace_t *bt, long lev, long n, VALUE (*func)(rb_backtrace_location_t *, void *arg), void *arg)
{
VALUE btary;
int i;
if (UNLIKELY(lev < 0 || n < 0)) {
rb_bug("backtrace_collect: unreachable");
}
btary = rb_ary_new();
for (i=0; i+lev<bt->backtrace_size && i<n; i++) {
rb_backtrace_location_t *loc = &bt->backtrace[bt->backtrace_size - 1 - (lev+i)];
rb_ary_push(btary, func(loc, arg));
}
return btary;
}
static VALUE
location_to_str_dmyarg(rb_backtrace_location_t *loc, void *dmy)
{
return location_to_str(loc);
}
static VALUE
backtrace_to_str_ary(VALUE self, long lev, long n)
{
rb_backtrace_t *bt;
int size;
VALUE r;
GetCoreDataFromValue(self, rb_backtrace_t, bt);
size = bt->backtrace_size;
if (n == 0) {
n = size;
}
if (lev > size) {
return Qnil;
}
r = backtrace_collect(bt, lev, n, location_to_str_dmyarg, 0);
RB_GC_GUARD(self);
return r;
}
VALUE
rb_backtrace_to_str_ary(VALUE self)
{
rb_backtrace_t *bt;
GetCoreDataFromValue(self, rb_backtrace_t, bt);
if (!bt->strary) {
bt->strary = backtrace_to_str_ary(self, 0, bt->backtrace_size);
}
return bt->strary;
}
mjit_compile.c: merge initial JIT compiler which has been developed by Takashi Kokubun <takashikkbn@gmail> as YARV-MJIT. Many of its bugs are fixed by wanabe <s.wanabe@gmail.com>. This JIT compiler is designed to be a safe migration path to introduce JIT compiler to MRI. So this commit does not include any bytecode changes or dynamic instruction modifications, which are done in original MJIT. This commit even strips off some aggressive optimizations from YARV-MJIT, and thus it's slower than YARV-MJIT too. But it's still fairly faster than Ruby 2.5 in some benchmarks (attached below). Note that this JIT compiler passes `make test`, `make test-all`, `make test-spec` without JIT, and even with JIT. Not only it's perfectly safe with JIT disabled because it does not replace VM instructions unlike MJIT, but also with JIT enabled it stably runs Ruby applications including Rails applications. I'm expecting this version as just "initial" JIT compiler. I have many optimization ideas which are skipped for initial merging, and you may easily replace this JIT compiler with a faster one by just replacing mjit_compile.c. `mjit_compile` interface is designed for the purpose. common.mk: update dependencies for mjit_compile.c. internal.h: declare `rb_vm_insn_addr2insn` for MJIT. vm.c: exclude some definitions if `-DMJIT_HEADER` is provided to compiler. This avoids to include some functions which take a long time to compile, e.g. vm_exec_core. Some of the purpose is achieved in transform_mjit_header.rb (see `IGNORED_FUNCTIONS`) but others are manually resolved for now. Load mjit_helper.h for MJIT header. mjit_helper.h: New. This is a file used only by JIT-ed code. I'll refactor `mjit_call_cfunc` later. vm_eval.c: add some #ifdef switches to skip compiling some functions like Init_vm_eval. win32/mkexports.rb: export thread/ec functions, which are used by MJIT. include/ruby/defines.h: add MJIT_FUNC_EXPORTED macro alis to clarify that a function is exported only for MJIT. array.c: export a function used by MJIT. bignum.c: ditto. class.c: ditto. compile.c: ditto. error.c: ditto. gc.c: ditto. hash.c: ditto. iseq.c: ditto. numeric.c: ditto. object.c: ditto. proc.c: ditto. re.c: ditto. st.c: ditto. string.c: ditto. thread.c: ditto. variable.c: ditto. vm_backtrace.c: ditto. vm_insnhelper.c: ditto. vm_method.c: ditto. I would like to improve maintainability of function exports, but I believe this way is acceptable as initial merging if we clarify the new exports are for MJIT (so that we can use them as TODO list to fix) and add unit tests to detect unresolved symbols. I'll add unit tests of JIT compilations in succeeding commits. Author: Takashi Kokubun <takashikkbn@gmail.com> Contributor: wanabe <s.wanabe@gmail.com> Part of [Feature #14235] --- * Known issues * Code generated by gcc is faster than clang. The benchmark may be worse in macOS. Following benchmark result is provided by gcc w/ Linux. * Performance is decreased when Google Chrome is running * JIT can work on MinGW, but it doesn't improve performance at least in short running benchmark. * Currently it doesn't perform well with Rails. We'll try to fix this before release. --- * Benchmark reslts Benchmarked with: Intel 4.0GHz i7-4790K with 16GB memory under x86-64 Ubuntu 8 Cores - 2.0.0-p0: Ruby 2.0.0-p0 - r62186: Ruby trunk (early 2.6.0), before MJIT changes - JIT off: On this commit, but without `--jit` option - JIT on: On this commit, and with `--jit` option ** Optcarrot fps Benchmark: https://github.com/mame/optcarrot | |2.0.0-p0 |r62186 |JIT off |JIT on | |:--------|:--------|:--------|:--------|:--------| |fps |37.32 |51.46 |51.31 |58.88 | |vs 2.0.0 |1.00x |1.38x |1.37x |1.58x | ** MJIT benchmarks Benchmark: https://github.com/benchmark-driver/mjit-benchmarks (Original: https://github.com/vnmakarov/ruby/tree/rtl_mjit_branch/MJIT-benchmarks) | |2.0.0-p0 |r62186 |JIT off |JIT on | |:----------|:--------|:--------|:--------|:--------| |aread |1.00 |1.09 |1.07 |2.19 | |aref |1.00 |1.13 |1.11 |2.22 | |aset |1.00 |1.50 |1.45 |2.64 | |awrite |1.00 |1.17 |1.13 |2.20 | |call |1.00 |1.29 |1.26 |2.02 | |const2 |1.00 |1.10 |1.10 |2.19 | |const |1.00 |1.11 |1.10 |2.19 | |fannk |1.00 |1.04 |1.02 |1.00 | |fib |1.00 |1.32 |1.31 |1.84 | |ivread |1.00 |1.13 |1.12 |2.43 | |ivwrite |1.00 |1.23 |1.21 |2.40 | |mandelbrot |1.00 |1.13 |1.16 |1.28 | |meteor |1.00 |2.97 |2.92 |3.17 | |nbody |1.00 |1.17 |1.15 |1.49 | |nest-ntimes|1.00 |1.22 |1.20 |1.39 | |nest-while |1.00 |1.10 |1.10 |1.37 | |norm |1.00 |1.18 |1.16 |1.24 | |nsvb |1.00 |1.16 |1.16 |1.17 | |red-black |1.00 |1.02 |0.99 |1.12 | |sieve |1.00 |1.30 |1.28 |1.62 | |trees |1.00 |1.14 |1.13 |1.19 | |while |1.00 |1.12 |1.11 |2.41 | ** Discourse's script/bench.rb Benchmark: https://github.com/discourse/discourse/blob/v1.8.7/script/bench.rb NOTE: Rails performance was somehow a little degraded with JIT for now. We should fix this. (At least I know opt_aref is performing badly in JIT and I have an idea to fix it. Please wait for the fix.) *** JIT off Your Results: (note for timings- percentile is first, duration is second in millisecs) categories_admin: 50: 17 75: 18 90: 22 99: 29 home_admin: 50: 21 75: 21 90: 27 99: 40 topic_admin: 50: 17 75: 18 90: 22 99: 32 categories: 50: 35 75: 41 90: 43 99: 77 home: 50: 39 75: 46 90: 49 99: 95 topic: 50: 46 75: 52 90: 56 99: 101 *** JIT on Your Results: (note for timings- percentile is first, duration is second in millisecs) categories_admin: 50: 19 75: 21 90: 25 99: 33 home_admin: 50: 24 75: 26 90: 30 99: 35 topic_admin: 50: 19 75: 20 90: 25 99: 30 categories: 50: 40 75: 44 90: 48 99: 76 home: 50: 42 75: 48 90: 51 99: 89 topic: 50: 49 75: 55 90: 58 99: 99 git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62197 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2018-02-04 06:22:28 -05:00
MJIT_FUNC_EXPORTED void
rb_backtrace_use_iseq_first_lineno_for_last_location(VALUE self)
{
const rb_backtrace_t *bt;
const rb_iseq_t *iseq;
rb_backtrace_location_t *loc;
GetCoreDataFromValue(self, rb_backtrace_t, bt);
VM_ASSERT(bt->backtrace_size > 0);
loc = &bt->backtrace[bt->backtrace_size - 1];
iseq = loc->body.iseq.iseq;
VM_ASSERT(loc->type == LOCATION_TYPE_ISEQ);
loc->body.iseq.lineno.lineno = FIX2INT(iseq->body->location.first_lineno);
loc->type = LOCATION_TYPE_ISEQ_CALCED;
}
static VALUE
location_create(rb_backtrace_location_t *srcloc, void *btobj)
{
VALUE obj;
struct valued_frame_info *vloc;
obj = TypedData_Make_Struct(rb_cBacktraceLocation, struct valued_frame_info, &location_data_type, vloc);
vloc->loc = srcloc;
vloc->btobj = (VALUE)btobj;
return obj;
}
static VALUE
backtrace_to_location_ary(VALUE self, long lev, long n)
{
rb_backtrace_t *bt;
int size;
VALUE r;
GetCoreDataFromValue(self, rb_backtrace_t, bt);
size = bt->backtrace_size;
if (n == 0) {
n = size;
}
if (lev > size) {
return Qnil;
}
r = backtrace_collect(bt, lev, n, location_create, (void *)self);
RB_GC_GUARD(self);
return r;
}
VALUE
rb_backtrace_to_location_ary(VALUE self)
{
rb_backtrace_t *bt;
GetCoreDataFromValue(self, rb_backtrace_t, bt);
if (!bt->locary) {
bt->locary = backtrace_to_location_ary(self, 0, 0);
}
return bt->locary;
}
static VALUE
backtrace_dump_data(VALUE self)
{
VALUE str = rb_backtrace_to_str_ary(self);
return str;
}
static VALUE
backtrace_load_data(VALUE self, VALUE str)
{
rb_backtrace_t *bt;
GetCoreDataFromValue(self, rb_backtrace_t, bt);
bt->strary = str;
return self;
}
VALUE
rb_ec_backtrace_str_ary(const rb_execution_context_t *ec, long lev, long n)
{
return backtrace_to_str_ary(rb_ec_backtrace_object(ec), lev, n);
}
static VALUE
ec_backtrace_location_ary(const rb_execution_context_t *ec, long lev, long n)
{
return backtrace_to_location_ary(rb_ec_backtrace_object(ec), lev, n);
}
/* make old style backtrace directly */
struct oldbt_arg {
VALUE filename;
int lineno;
void (*func)(void *data, VALUE file, int lineno, VALUE name);
void *data; /* result */
};
static void
oldbt_init(void *ptr, size_t dmy)
{
struct oldbt_arg *arg = (struct oldbt_arg *)ptr;
arg->filename = GET_VM()->progname;
arg->lineno = 0;
}
static void
oldbt_iter_iseq(void *ptr, const rb_control_frame_t *cfp)
{
const rb_iseq_t *iseq = cfp->iseq;
const VALUE *pc = cfp->pc;
struct oldbt_arg *arg = (struct oldbt_arg *)ptr;
VALUE file = arg->filename = rb_iseq_path(iseq);
2015-07-21 18:52:59 -04:00
VALUE name = iseq->body->location.label;
int lineno = arg->lineno = calc_lineno(iseq, pc);
(arg->func)(arg->data, file, lineno, name);
}
static void
oldbt_iter_cfunc(void *ptr, const rb_control_frame_t *cfp, ID mid)
{
struct oldbt_arg *arg = (struct oldbt_arg *)ptr;
VALUE file = arg->filename;
VALUE name = rb_id2str(mid);
int lineno = arg->lineno;
(arg->func)(arg->data, file, lineno, name);
}
static void
oldbt_print(void *data, VALUE file, int lineno, VALUE name)
{
FILE *fp = (FILE *)data;
if (NIL_P(name)) {
fprintf(fp, "\tfrom %s:%d:in unknown method\n",
RSTRING_PTR(file), lineno);
}
else {
fprintf(fp, "\tfrom %s:%d:in `%s'\n",
RSTRING_PTR(file), lineno, RSTRING_PTR(name));
}
}
static void
vm_backtrace_print(FILE *fp)
{
struct oldbt_arg arg;
arg.func = oldbt_print;
arg.data = (void *)fp;
backtrace_each(GET_EC(),
oldbt_init,
oldbt_iter_iseq,
oldbt_iter_cfunc,
&arg);
}
static void
oldbt_bugreport(void *arg, VALUE file, int line, VALUE method)
{
const char *filename = NIL_P(file) ? "ruby" : RSTRING_PTR(file);
if (!*(int *)arg) {
fprintf(stderr, "-- Ruby level backtrace information "
"----------------------------------------\n");
*(int *)arg = 1;
}
if (NIL_P(method)) {
fprintf(stderr, "%s:%d:in unknown method\n", filename, line);
}
else {
fprintf(stderr, "%s:%d:in `%s'\n", filename, line, RSTRING_PTR(method));
}
}
void
rb_backtrace_print_as_bugreport(void)
{
struct oldbt_arg arg;
int i = 0;
arg.func = oldbt_bugreport;
arg.data = (int *)&i;
backtrace_each(GET_EC(),
oldbt_init,
oldbt_iter_iseq,
oldbt_iter_cfunc,
&arg);
}
void
rb_backtrace(void)
{
vm_backtrace_print(stderr);
}
struct print_to_arg {
VALUE (*iter)(VALUE recv, VALUE str);
VALUE output;
};
static void
oldbt_print_to(void *data, VALUE file, int lineno, VALUE name)
{
const struct print_to_arg *arg = data;
VALUE str = rb_sprintf("\tfrom %"PRIsVALUE":%d:in ", file, lineno);
if (NIL_P(name)) {
rb_str_cat2(str, "unknown method\n");
}
else {
rb_str_catf(str, " `%"PRIsVALUE"'\n", name);
}
(*arg->iter)(arg->output, str);
}
void
rb_backtrace_each(VALUE (*iter)(VALUE recv, VALUE str), VALUE output)
{
struct oldbt_arg arg;
struct print_to_arg parg;
parg.iter = iter;
parg.output = output;
arg.func = oldbt_print_to;
arg.data = &parg;
backtrace_each(GET_EC(),
oldbt_init,
oldbt_iter_iseq,
oldbt_iter_cfunc,
&arg);
}
VALUE
rb_make_backtrace(void)
{
return rb_ec_backtrace_str_ary(GET_EC(), 0, 0);
}
static VALUE
ec_backtrace_to_ary(const rb_execution_context_t *ec, int argc, const VALUE *argv, int lev_default, int lev_plus, int to_str)
{
VALUE level, vn;
long lev, n;
VALUE btval = rb_ec_backtrace_object(ec);
VALUE r;
rb_backtrace_t *bt;
GetCoreDataFromValue(btval, rb_backtrace_t, bt);
rb_scan_args(argc, argv, "02", &level, &vn);
if (argc == 2 && NIL_P(vn)) argc--;
switch (argc) {
case 0:
lev = lev_default + lev_plus;
n = bt->backtrace_size - lev;
break;
case 1:
{
long beg, len;
switch (rb_range_beg_len(level, &beg, &len, bt->backtrace_size - lev_plus, 0)) {
case Qfalse:
lev = NUM2LONG(level);
if (lev < 0) {
rb_raise(rb_eArgError, "negative level (%ld)", lev);
}
lev += lev_plus;
n = bt->backtrace_size - lev;
break;
case Qnil:
return Qnil;
default:
lev = beg + lev_plus;
n = len;
break;
}
break;
}
case 2:
lev = NUM2LONG(level);
n = NUM2LONG(vn);
if (lev < 0) {
rb_raise(rb_eArgError, "negative level (%ld)", lev);
}
if (n < 0) {
rb_raise(rb_eArgError, "negative size (%ld)", n);
}
lev += lev_plus;
break;
default:
lev = n = 0; /* to avoid warning */
break;
}
if (n == 0) {
return rb_ary_new();
}
if (to_str) {
r = backtrace_to_str_ary(btval, lev, n);
}
else {
r = backtrace_to_location_ary(btval, lev, n);
}
RB_GC_GUARD(btval);
return r;
}
static VALUE
thread_backtrace_to_ary(int argc, const VALUE *argv, VALUE thval, int to_str)
{
rb_thread_t *target_th = rb_thread_ptr(thval);
if (target_th->to_kill || target_th->status == THREAD_KILLED)
return Qnil;
return ec_backtrace_to_ary(target_th->ec, argc, argv, 0, 0, to_str);
}
VALUE
rb_vm_thread_backtrace(int argc, const VALUE *argv, VALUE thval)
{
return thread_backtrace_to_ary(argc, argv, thval, 1);
}
VALUE
rb_vm_thread_backtrace_locations(int argc, const VALUE *argv, VALUE thval)
{
return thread_backtrace_to_ary(argc, argv, thval, 0);
}
/*
* call-seq:
* caller(start=1, length=nil) -> array or nil
* caller(range) -> array or nil
*
* Returns the current execution stack---an array containing strings in
* the form <code>file:line</code> or <code>file:line: in
* `method'</code>.
*
* The optional _start_ parameter determines the number of initial stack
* entries to omit from the top of the stack.
*
* A second optional +length+ parameter can be used to limit how many entries
* are returned from the stack.
*
* Returns +nil+ if _start_ is greater than the size of
* current execution stack.
*
* Optionally you can pass a range, which will return an array containing the
* entries within the specified range.
*
* def a(skip)
* caller(skip)
* end
* def b(skip)
* a(skip)
* end
* def c(skip)
* b(skip)
* end
* c(0) #=> ["prog:2:in `a'", "prog:5:in `b'", "prog:8:in `c'", "prog:10:in `<main>'"]
* c(1) #=> ["prog:5:in `b'", "prog:8:in `c'", "prog:11:in `<main>'"]
* c(2) #=> ["prog:8:in `c'", "prog:12:in `<main>'"]
* c(3) #=> ["prog:13:in `<main>'"]
* c(4) #=> []
* c(5) #=> nil
*/
static VALUE
rb_f_caller(int argc, VALUE *argv)
{
return ec_backtrace_to_ary(GET_EC(), argc, argv, 1, 1, 1);
}
/*
* call-seq:
* caller_locations(start=1, length=nil) -> array or nil
* caller_locations(range) -> array or nil
*
* Returns the current execution stack---an array containing
* backtrace location objects.
*
* See Thread::Backtrace::Location for more information.
*
* The optional _start_ parameter determines the number of initial stack
* entries to omit from the top of the stack.
*
* A second optional +length+ parameter can be used to limit how many entries
* are returned from the stack.
*
* Returns +nil+ if _start_ is greater than the size of
* current execution stack.
*
* Optionally you can pass a range, which will return an array containing the
* entries within the specified range.
*/
static VALUE
rb_f_caller_locations(int argc, VALUE *argv)
{
return ec_backtrace_to_ary(GET_EC(), argc, argv, 1, 1, 0);
}
/* called from Init_vm() in vm.c */
void
Init_vm_backtrace(void)
{
/* :nodoc: */
rb_cBacktrace = rb_define_class_under(rb_cThread, "Backtrace", rb_cObject);
rb_define_alloc_func(rb_cBacktrace, backtrace_alloc);
rb_undef_method(CLASS_OF(rb_cBacktrace), "new");
rb_marshal_define_compat(rb_cBacktrace, rb_cArray, backtrace_dump_data, backtrace_load_data);
/*
* An object representation of a stack frame, initialized by
* Kernel#caller_locations.
*
* For example:
*
* # caller_locations.rb
* def a(skip)
* caller_locations(skip)
* end
* def b(skip)
* a(skip)
* end
* def c(skip)
* b(skip)
* end
*
* c(0..2).map do |call|
* puts call.to_s
* end
*
* Running <code>ruby caller_locations.rb</code> will produce:
*
* caller_locations.rb:2:in `a'
* caller_locations.rb:5:in `b'
* caller_locations.rb:8:in `c'
*
* Here's another example with a slightly different result:
*
* # foo.rb
* class Foo
* attr_accessor :locations
* def initialize(skip)
* @locations = caller_locations(skip)
* end
* end
*
* Foo.new(0..2).locations.map do |call|
* puts call.to_s
* end
*
* Now run <code>ruby foo.rb</code> and you should see:
*
* init.rb:4:in `initialize'
* init.rb:8:in `new'
* init.rb:8:in `<main>'
*/
rb_cBacktraceLocation = rb_define_class_under(rb_cBacktrace, "Location", rb_cObject);
rb_undef_alloc_func(rb_cBacktraceLocation);
rb_undef_method(CLASS_OF(rb_cBacktraceLocation), "new");
rb_define_method(rb_cBacktraceLocation, "lineno", location_lineno_m, 0);
rb_define_method(rb_cBacktraceLocation, "label", location_label_m, 0);
rb_define_method(rb_cBacktraceLocation, "base_label", location_base_label_m, 0);
rb_define_method(rb_cBacktraceLocation, "path", location_path_m, 0);
rb_define_method(rb_cBacktraceLocation, "absolute_path", location_absolute_path_m, 0);
rb_define_method(rb_cBacktraceLocation, "to_s", location_to_str_m, 0);
rb_define_method(rb_cBacktraceLocation, "inspect", location_inspect_m, 0);
rb_define_global_function("caller", rb_f_caller, -1);
rb_define_global_function("caller_locations", rb_f_caller_locations, -1);
}
/* debugger API */
RUBY_SYMBOL_EXPORT_BEGIN
RUBY_SYMBOL_EXPORT_END
struct rb_debug_inspector_struct {
rb_execution_context_t *ec;
rb_control_frame_t *cfp;
VALUE backtrace;
VALUE contexts; /* [[klass, binding, iseq, cfp], ...] */
long backtrace_size;
};
enum {
CALLER_BINDING_SELF,
CALLER_BINDING_CLASS,
CALLER_BINDING_BINDING,
CALLER_BINDING_ISEQ,
CALLER_BINDING_CFP
};
struct collect_caller_bindings_data {
VALUE ary;
};
static void
collect_caller_bindings_init(void *arg, size_t size)
{
/* */
}
static VALUE
get_klass(const rb_control_frame_t *cfp)
{
VALUE klass;
if (rb_vm_control_frame_id_and_class(cfp, 0, 0, &klass)) {
if (RB_TYPE_P(klass, T_ICLASS)) {
return RBASIC(klass)->klass;
}
else {
return klass;
}
}
else {
return Qnil;
}
}
static void
collect_caller_bindings_iseq(void *arg, const rb_control_frame_t *cfp)
{
struct collect_caller_bindings_data *data = (struct collect_caller_bindings_data *)arg;
VALUE frame = rb_ary_new2(5);
rb_ary_store(frame, CALLER_BINDING_SELF, cfp->self);
rb_ary_store(frame, CALLER_BINDING_CLASS, get_klass(cfp));
rb_ary_store(frame, CALLER_BINDING_BINDING, GC_GUARDED_PTR(cfp)); /* create later */
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rb_ary_store(frame, CALLER_BINDING_ISEQ, cfp->iseq ? (VALUE)cfp->iseq : Qnil);
rb_ary_store(frame, CALLER_BINDING_CFP, GC_GUARDED_PTR(cfp));
rb_ary_push(data->ary, frame);
}
static void
collect_caller_bindings_cfunc(void *arg, const rb_control_frame_t *cfp, ID mid)
{
struct collect_caller_bindings_data *data = (struct collect_caller_bindings_data *)arg;
VALUE frame = rb_ary_new2(5);
rb_ary_store(frame, CALLER_BINDING_SELF, cfp->self);
rb_ary_store(frame, CALLER_BINDING_CLASS, get_klass(cfp));
rb_ary_store(frame, CALLER_BINDING_BINDING, Qnil); /* not available */
rb_ary_store(frame, CALLER_BINDING_ISEQ, Qnil); /* not available */
rb_ary_store(frame, CALLER_BINDING_CFP, GC_GUARDED_PTR(cfp));
rb_ary_push(data->ary, frame);
}
static VALUE
collect_caller_bindings(const rb_execution_context_t *ec)
{
struct collect_caller_bindings_data data;
VALUE result;
int i;
data.ary = rb_ary_new();
backtrace_each(ec,
collect_caller_bindings_init,
collect_caller_bindings_iseq,
collect_caller_bindings_cfunc,
&data);
result = rb_ary_reverse(data.ary);
/* bindings should be created from top of frame */
for (i=0; i<RARRAY_LEN(result); i++) {
VALUE entry = rb_ary_entry(result, i);
VALUE cfp_val = rb_ary_entry(entry, CALLER_BINDING_BINDING);
if (!NIL_P(cfp_val)) {
rb_control_frame_t *cfp = GC_GUARDED_PTR_REF(cfp_val);
rb_ary_store(entry, CALLER_BINDING_BINDING, rb_vm_make_binding(ec, cfp));
}
}
return result;
}
/*
* Note that the passed `rb_debug_inspector_t' will be disabled
* after `rb_debug_inspector_open'.
*/
VALUE
rb_debug_inspector_open(rb_debug_inspector_func_t func, void *data)
{
rb_debug_inspector_t dbg_context;
rb_execution_context_t *ec = GET_EC();
enum ruby_tag_type state;
volatile VALUE MAYBE_UNUSED(result);
/* escape all env to heap */
rb_vm_stack_to_heap(ec);
dbg_context.ec = ec;
dbg_context.cfp = dbg_context.ec->cfp;
dbg_context.backtrace = ec_backtrace_location_ary(ec, 0, 0);
dbg_context.backtrace_size = RARRAY_LEN(dbg_context.backtrace);
dbg_context.contexts = collect_caller_bindings(ec);
EC_PUSH_TAG(ec);
if ((state = EC_EXEC_TAG()) == TAG_NONE) {
result = (*func)(&dbg_context, data);
}
EC_POP_TAG();
/* invalidate bindings? */
if (state) {
EC_JUMP_TAG(ec, state);
}
return result;
}
static VALUE
frame_get(const rb_debug_inspector_t *dc, long index)
{
if (index < 0 || index >= dc->backtrace_size) {
rb_raise(rb_eArgError, "no such frame");
}
return rb_ary_entry(dc->contexts, index);
}
VALUE
rb_debug_inspector_frame_self_get(const rb_debug_inspector_t *dc, long index)
{
VALUE frame = frame_get(dc, index);
return rb_ary_entry(frame, CALLER_BINDING_SELF);
}
VALUE
rb_debug_inspector_frame_class_get(const rb_debug_inspector_t *dc, long index)
{
VALUE frame = frame_get(dc, index);
return rb_ary_entry(frame, CALLER_BINDING_CLASS);
}
VALUE
rb_debug_inspector_frame_binding_get(const rb_debug_inspector_t *dc, long index)
{
VALUE frame = frame_get(dc, index);
return rb_ary_entry(frame, CALLER_BINDING_BINDING);
}
VALUE
rb_debug_inspector_frame_iseq_get(const rb_debug_inspector_t *dc, long index)
{
VALUE frame = frame_get(dc, index);
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VALUE iseq = rb_ary_entry(frame, CALLER_BINDING_ISEQ);
return RTEST(iseq) ? rb_iseqw_new((rb_iseq_t *)iseq) : Qnil;
}
VALUE
rb_debug_inspector_backtrace_locations(const rb_debug_inspector_t *dc)
{
return dc->backtrace;
}
int
rb_profile_frames(int start, int limit, VALUE *buff, int *lines)
{
int i;
const rb_execution_context_t *ec = GET_EC();
const rb_control_frame_t *cfp = ec->cfp, *end_cfp = RUBY_VM_END_CONTROL_FRAME(ec);
const rb_callable_method_entry_t *cme;
for (i=0; i<limit && cfp != end_cfp;) {
if (cfp->iseq && cfp->pc) {
if (start > 0) {
start--;
continue;
}
/* record frame info */
cme = rb_vm_frame_method_entry(cfp);
if (cme && cme->def->type == VM_METHOD_TYPE_ISEQ) {
buff[i] = (VALUE)cme;
}
else {
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buff[i] = (VALUE)cfp->iseq;
}
if (lines) lines[i] = calc_lineno(cfp->iseq, cfp->pc);
i++;
}
cfp = RUBY_VM_PREVIOUS_CONTROL_FRAME(cfp);
}
return i;
}
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static const rb_iseq_t *
frame2iseq(VALUE frame)
{
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if (frame == Qnil) return NULL;
if (RB_TYPE_P(frame, T_IMEMO)) {
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switch (imemo_type(frame)) {
case imemo_iseq:
return (const rb_iseq_t *)frame;
case imemo_ment:
{
const rb_callable_method_entry_t *cme = (rb_callable_method_entry_t *)frame;
switch (cme->def->type) {
case VM_METHOD_TYPE_ISEQ:
return cme->def->body.iseq.iseqptr;
default:
return NULL;
}
}
default:
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break;
}
}
rb_bug("frame2iseq: unreachable");
}
VALUE
rb_profile_frame_path(VALUE frame)
{
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const rb_iseq_t *iseq = frame2iseq(frame);
return iseq ? rb_iseq_path(iseq) : Qnil;
}
VALUE
rb_profile_frame_absolute_path(VALUE frame)
{
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const rb_iseq_t *iseq = frame2iseq(frame);
return iseq ? rb_iseq_realpath(iseq) : Qnil;
}
VALUE
rb_profile_frame_label(VALUE frame)
{
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const rb_iseq_t *iseq = frame2iseq(frame);
return iseq ? rb_iseq_label(iseq) : Qnil;
}
VALUE
rb_profile_frame_base_label(VALUE frame)
{
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const rb_iseq_t *iseq = frame2iseq(frame);
return iseq ? rb_iseq_base_label(iseq) : Qnil;
}
VALUE
rb_profile_frame_first_lineno(VALUE frame)
{
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const rb_iseq_t *iseq = frame2iseq(frame);
return iseq ? rb_iseq_first_lineno(iseq) : Qnil;
}
static VALUE
frame2klass(VALUE frame)
{
if (frame == Qnil) return Qnil;
if (RB_TYPE_P(frame, T_IMEMO)) {
const rb_callable_method_entry_t *cme = (rb_callable_method_entry_t *)frame;
if (imemo_type(frame) == imemo_ment) {
return cme->defined_class;
}
}
return Qnil;
}
VALUE
rb_profile_frame_classpath(VALUE frame)
{
VALUE klass = frame2klass(frame);
if (klass && !NIL_P(klass)) {
if (RB_TYPE_P(klass, T_ICLASS)) {
klass = RBASIC(klass)->klass;
}
else if (FL_TEST(klass, FL_SINGLETON)) {
klass = rb_ivar_get(klass, id__attached__);
if (!RB_TYPE_P(klass, T_CLASS))
return rb_sprintf("#<%s:%p>", rb_class2name(rb_obj_class(klass)), (void*)klass);
}
return rb_class_path(klass);
}
else {
return Qnil;
}
}
VALUE
rb_profile_frame_singleton_method_p(VALUE frame)
{
VALUE klass = frame2klass(frame);
if (klass && !NIL_P(klass) && FL_TEST(klass, FL_SINGLETON)) {
return Qtrue;
}
else {
return Qfalse;
}
}
VALUE
rb_profile_frame_method_name(VALUE frame)
{
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const rb_iseq_t *iseq = frame2iseq(frame);
return iseq ? rb_iseq_method_name(iseq) : Qnil;
}
VALUE
rb_profile_frame_qualified_method_name(VALUE frame)
{
VALUE method_name = rb_profile_frame_method_name(frame);
if (method_name != Qnil) {
VALUE classpath = rb_profile_frame_classpath(frame);
VALUE singleton_p = rb_profile_frame_singleton_method_p(frame);
if (classpath != Qnil) {
return rb_sprintf("%"PRIsVALUE"%s%"PRIsVALUE,
classpath, singleton_p == Qtrue ? "." : "#", method_name);
}
else {
return method_name;
}
}
else {
return Qnil;
}
}
VALUE
rb_profile_frame_full_label(VALUE frame)
{
VALUE label = rb_profile_frame_label(frame);
VALUE base_label = rb_profile_frame_base_label(frame);
VALUE qualified_method_name = rb_profile_frame_qualified_method_name(frame);
if (NIL_P(qualified_method_name) || base_label == qualified_method_name) {
return label;
}
else {
long label_length = RSTRING_LEN(label);
long base_label_length = RSTRING_LEN(base_label);
int prefix_len = rb_long2int(label_length - base_label_length);
return rb_sprintf("%.*s%"PRIsVALUE, prefix_len, RSTRING_PTR(label), qualified_method_name);
}
}