OpenE2K/gcc
2
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity

escape: Add basic debugging.

Browse Source 
Emit basic debug information when compiling with the flag
    -fgo-debug-escape#.
    
    Reviewed-on: https://go-review.googlesource.com/22376

	2016-08-02  Chris Manghane  <cmang@google.com>

	* lang.opt: Add -fgo-debug-escape option.
	* go-c.h (go_create_gogo): Add debug_escape_level parameter.
	* go-lang.c (go_langhook_init): Pass go_debug_escape_level to
	go_create_gogo.

From-SVN: r239002
This commit is contained in:
Chris Manghane 2016-08-02 21:43:48 +00:00 committed by Ian Lance Taylor
parent 00803109af
commit 7295570dd4
10 changed files with 577 additions and 7 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

7
gcc/go/ChangeLog
View File

@ -1,3 +1,10 @@
2016-08-02 Chris Manghane <cmang@google.com>
* lang.opt: Add -fgo-debug-escape option.
* go-c.h (go_create_gogo): Add debug_escape_level parameter.
* go-lang.c (go_langhook_init): Pass go_debug_escape_level to
go_create_gogo.
2016-05-06 Chris Manghane <cmang@google.com>
* Make-lang.in (GO_OBJS): Add go/escape.o (based on an entirely

3
gcc/go/go-c.h
View File

@ -34,7 +34,8 @@ extern void go_add_search_path (const char*);
extern void go_create_gogo (int int_type_size, int pointer_size,
const char* pkgpath, const char *prefix,
const char *relative_import_path,
bool check_divide_zero, bool check_divide_overflow);
bool check_divide_zero, bool check_divide_overflow,
int debug_escape_level);
extern void go_parse_input_files (const char**, unsigned int,
bool only_check_syntax,

2
gcc/go/go-lang.c
View File

@ -101,7 +101,7 @@ go_langhook_init (void)
go_type_for_size). */
go_create_gogo (INT_TYPE_SIZE, POINTER_SIZE, go_pkgpath, go_prefix,
go_relative_import_path, go_check_divide_zero,
go_check_divide_overflow);
go_check_divide_overflow, go_debug_escape_level);
build_common_builtin_nodes ();

2
gcc/go/gofrontend/MERGE
View File

@ -1,4 +1,4 @@
d4b47fef149fc905ae6b418934f6be8cf6be433e
89a0b3a04f80df388242166b8835f12e82ceb194
The first line of this file holds the git revision number of the last
merge done from the gofrontend repository.

517
gcc/go/gofrontend/escape.cc
View File

@ -6,12 +6,14 @@
#include <limits>
#include <stack>
#include <sstream>
#include "gogo.h"
#include "types.h"
#include "expressions.h"
#include "statements.h"
#include "escape.h"
#include "ast-dump.h"
// class Node.
@ -47,6 +49,305 @@ Node::location() const
return Linemap::unknown_location();
}
// To match the cmd/gc debug output, strip away the packed prefixes on functions
// and variable/expressions.
std::string
strip_packed_prefix(Gogo* gogo, const std::string& s)
{
std::string packed_prefix = "." + gogo->pkgpath() + ".";
std::string fmt = s;
for (size_t pos = fmt.find(packed_prefix);
pos != std::string::npos;
pos = fmt.find(packed_prefix))
fmt.erase(pos, packed_prefix.length());
return fmt;
}
// A helper for debugging; return this node's AST formatted string.
// This is an implementation of gc's Nconv with obj.FmtShort.
std::string
Node::ast_format(Gogo* gogo) const
{
std::ostringstream ss;
if (this->is_sink())
ss << ".sink";
else if (this->object() != NULL)
{
Named_object* no = this->object();
if (no->is_function() && no->func_value()->enclosing() != NULL)
return "func literal";
ss << no->name();
}
else if (this->expr() != NULL)
{
Expression* e = this->expr();
bool is_call = e->call_expression() != NULL;
if (is_call)
e->call_expression()->fn();
Func_expression* fe = e->func_expression();;
bool is_closure = fe != NULL && fe->closure() != NULL;
if (is_closure)
{
if (is_call)
return "(func literal)()";
return "func literal";
}
Ast_dump_context::dump_to_stream(this->expr(), &ss);
}
else
{
Statement* s = this->statement();
Goto_unnamed_statement* unnamed = s->goto_unnamed_statement();
if (unnamed != NULL)
{
Statement* derived = unnamed->unnamed_label()->derived_from();
if (derived != NULL)
{
switch (derived->classification())
{
case Statement::STATEMENT_FOR:
case Statement::STATEMENT_FOR_RANGE:
return "for loop";
break;
case Statement::STATEMENT_SWITCH:
return "switch";
break;
case Statement::STATEMENT_TYPE_SWITCH:
return "type switch";
break;
default:
break;
}
}
}
Ast_dump_context::dump_to_stream(s, &ss);
}
return strip_packed_prefix(gogo, ss.str());
}
// A helper for debugging; return this node's detailed format string.
// This is an implementation of gc's Jconv with obj.FmtShort.
std::string
Node::details() const
{
std::stringstream details;
if (!this->is_sink())
details << " l(" << LOCATION_LINE(this->location().gcc_location()) << ")";
bool is_varargs = false;
bool is_address_taken = false;
bool is_in_heap = false;
bool is_assigned = false;
std::string class_name;
Expression* e = this->expr();
Named_object* node_object = NULL;
if (this->object() != NULL)
node_object = this->object();
else if (e != NULL && e->var_expression() != NULL)
node_object = e->var_expression()->named_object();
if (node_object)
{
// TODO(cmang): For named variables and functions, we want to output
// the function depth.
if (node_object->is_variable())
{
Variable* var = node_object->var_value();
is_varargs = var->is_varargs_parameter();
is_address_taken = (var->is_address_taken()
|| var->is_non_escaping_address_taken());
is_in_heap = var->is_in_heap();
is_assigned = var->init() != NULL;
if (var->is_global())
class_name = "PEXTERN";
else if (var->is_parameter())
class_name = "PPARAM";
else if (var->is_closure())
class_name = "PPARAMREF";
else
class_name = "PAUTO";
}
else if (node_object->is_result_variable())
class_name = "PPARAMOUT";
else if (node_object->is_function()
|| node_object->is_function_declaration())
class_name = "PFUNC";
}
else if (e != NULL && e->enclosed_var_expression() != NULL)
{
Named_object* enclosed = e->enclosed_var_expression()->variable();
if (enclosed->is_variable())
{
Variable* var = enclosed->var_value();
is_address_taken = (var->is_address_taken()
|| var->is_non_escaping_address_taken());
}
else
{
Result_variable* var = enclosed->result_var_value();
is_address_taken = (var->is_address_taken()
|| var->is_non_escaping_address_taken());
}
class_name = "PPARAMREF";
}
if (!class_name.empty())
{
details << " class(" << class_name;
if (is_in_heap)
details << ",heap";
details << ")";
}
switch ((this->encoding() & ESCAPE_MASK))
{
case Node::ESCAPE_UNKNOWN:
break;
case Node::ESCAPE_HEAP:
details << " esc(h)";
break;
case Node::ESCAPE_SCOPE:
details << " esc(s)";
break;
case Node::ESCAPE_NONE:
details << " esc(no)";
break;
case Node::ESCAPE_NEVER:
details << " esc(N)";
break;
default:
details << " esc(" << this->encoding() << ")";
break;
}
if (this->state_ != NULL && this->state_->loop_depth != 0)
details << " ld(" << this->state_->loop_depth << ")";
if (is_varargs)
details << " isddd(1)";
if (is_address_taken)
details << " addrtaken";
if (is_assigned)
details << " assigned";
return details.str();
}
std::string
Node::op_format() const
{
std::stringstream op;
Ast_dump_context adc(&op, false);
if (this->expr() != NULL)
{
Expression* e = this->expr();
switch (e->classification())
{
case Expression::EXPRESSION_UNARY:
adc.dump_operator(e->unary_expression()->op());
break;
case Expression::EXPRESSION_BINARY:
adc.dump_operator(e->binary_expression()->op());
break;
case Expression::EXPRESSION_CALL:
op << "function call";
break;
case Expression::EXPRESSION_FUNC_REFERENCE:
if (e->func_expression()->is_runtime_function())
{
switch (e->func_expression()->runtime_code())
{
case Runtime::PANIC:
op << "panic";
case Runtime::APPEND:
op << "append";
break;
case Runtime::COPY:
op << "copy";
break;
case Runtime::MAKECHAN:
case Runtime::MAKECHANBIG:
case Runtime::MAKEMAP:
case Runtime::MAKEMAPBIG:
case Runtime::MAKESLICE1:
case Runtime::MAKESLICE2:
case Runtime::MAKESLICE1BIG:
case Runtime::MAKESLICE2BIG:
op << "make";
break;
case Runtime::DEFER:
op << "defer";
break;
case Runtime::RECOVER:
op << "recover";
break;
case Runtime::CLOSE:
op << "close";
break;
default:
break;
}
}
break;
case Expression::EXPRESSION_ALLOCATION:
op << "new";
break;
case Expression::EXPRESSION_RECEIVE:
op << "<-";
break;
default:
break;
}
}
if (this->statement() != NULL)
{
switch (this->statement()->classification())
{
case Statement::STATEMENT_DEFER:
op << "defer";
break;
case Statement::STATEMENT_RETURN:
op << "return";
break;
default:
break;
}
}
return op.str();
}
// Return this node's state, creating it if has not been initialized.
Node::Escape_state*
@ -255,6 +556,41 @@ Escape_context::Escape_context(Gogo* gogo, bool recursive)
state->loop_depth = -1;
}
std::string
debug_function_name(Named_object* fn)
{
if (fn == NULL)
return "<S>";
if (!fn->is_function()
|| fn->func_value()->enclosing() == NULL)
return Gogo::unpack_hidden_name(fn->name());
// Closures are named ".$nested#" where # starts from 0 to distinguish
// between closures. The cmd/gc closures are named in the format
// "enclosing.func#" where # starts from 1. If this is a closure, format
// its name to match cmd/gc.
Named_object* enclosing = fn->func_value()->enclosing();
// Extract #.
std::string name = Gogo::unpack_hidden_name(fn->name());
int closure_num = (int)strtol(name.substr(6).c_str(), NULL, 0);
closure_num++;
name = Gogo::unpack_hidden_name(enclosing->name());
char buf[200];
snprintf(buf, sizeof buf, "%s.func%d", name.c_str(), closure_num);
return buf;
}
// Return the name of the current function.
std::string
Escape_context::current_function_name() const
{
return debug_function_name(this->current_function_);
}
// Initialize the dummy return values for this Node N using the results
// in FNTYPE.
@ -381,6 +717,21 @@ Gogo::analyze_escape()
++fn)
this->tag_function(context, *fn);
if (this->debug_escape_level() != 0)
{
std::vector<Node*> noesc = context->non_escaping_nodes();
for (std::vector<Node*>::const_iterator n = noesc.begin();
n != noesc.end();
++n)
{
Node::Escape_state* state = (*n)->state(context, NULL);
if (((*n)->encoding() & ESCAPE_MASK) == int(Node::ESCAPE_NONE))
inform((*n)->location(), "%s %s does not escape",
strip_packed_prefix(this, debug_function_name(state->fn)).c_str(),
(*n)->ast_format(this).c_str());
}
// TODO(cmang): Which objects in context->noesc actually don't escape.
}
delete context;
}
}
@ -668,6 +1019,20 @@ Escape_analysis_assign::statement(Block*, size_t*, Statement* s)
if (is_for_statement)
this->context_->decrease_loop_depth();
Gogo* gogo = this->context_->gogo();
int debug_level = gogo->debug_escape_level();
if (debug_level > 1
&& s->unnamed_label_statement() == NULL
&& s->expression_statement() == NULL
&& !s->is_block_statement())
{
Node* n = Node::make_node(s);
std::string fn_name = this->context_->current_function_name();
inform(s->location(), "[%d] %s esc: %s",
this->context_->loop_depth(), fn_name.c_str(),
n->ast_format(gogo).c_str());
}
switch (s->classification())
{
case Statement::STATEMENT_VARIABLE_DECLARATION:
@ -689,8 +1054,19 @@ Escape_analysis_assign::statement(Block*, size_t*, Statement* s)
case Statement::STATEMENT_LABEL:
{
if (s->label_statement()->label()->looping())
Label_statement* label_stmt = s->label_statement();
if (label_stmt->label()->looping())
this->context_->increase_loop_depth();
if (debug_level > 1)
{
std::string label_type = (label_stmt->label()->looping()
? "looping"
: "nonlooping");
inform(s->location(), "%s %s label",
label_stmt->label()->name().c_str(),
label_type.c_str());
}
}
break;
@ -767,11 +1143,16 @@ Escape_analysis_assign::statement(Block*, size_t*, Statement* s)
int
Escape_analysis_assign::expression(Expression** pexpr)
{
Gogo* gogo = this->context_->gogo();
int debug_level = gogo->debug_escape_level();
// Big stuff escapes unconditionally.
Node* n = Node::make_node(*pexpr);
if ((n->encoding() & ESCAPE_MASK) != int(Node::ESCAPE_HEAP)
&& n->is_big(this->context_))
{
if (debug_level > 1)
inform((*pexpr)->location(), "too large for stack");
n->set_encoding(Node::ESCAPE_HEAP);
(*pexpr)->address_taken(true);
this->assign(this->context_->sink(), n);
@ -780,6 +1161,15 @@ Escape_analysis_assign::expression(Expression** pexpr)
if ((*pexpr)->func_expression() == NULL)
(*pexpr)->traverse_subexpressions(this);
if (debug_level > 1)
{
Node* n = Node::make_node(*pexpr);
std::string fn_name = this->context_->current_function_name();
inform((*pexpr)->location(), "[%d] %s esc: %s",
this->context_->loop_depth(), fn_name.c_str(),
n->ast_format(gogo).c_str());
}
switch ((*pexpr)->classification())
{
case Expression::EXPRESSION_CALL:
@ -808,6 +1198,10 @@ Escape_analysis_assign::expression(Expression** pexpr)
Node* appended = Node::make_node(call->args()->back());
this->assign_deref(this->context_->sink(), appended);
if (debug_level > 2)
error_at((*pexpr)->location(),
"special treatment of append(slice1, slice2...)");
// The content of the original slice leaks as well.
Node* appendee = Node::make_node(call->args()->back());
this->assign_deref(this->context_->sink(), appendee);
@ -1060,6 +1454,9 @@ Escape_analysis_assign::expression(Expression** pexpr)
void
Escape_analysis_assign::call(Call_expression* call)
{
Gogo* gogo = this->context_->gogo();
int debug_level = gogo->debug_escape_level();
Func_expression* fn = call->fn()->func_expression();
Function_type* fntype = call->get_function_type();
bool indirect = false;
@ -1099,6 +1496,10 @@ Escape_analysis_assign::call(Call_expression* call)
p != arg_nodes.end();
++p)
{
if (debug_level > 2)
inform(call->location(),
"esccall:: indirect call <- %s, untracked",
(*p)->ast_format(gogo).c_str());
this->assign(this->context_->sink(), *p);
}
@ -1111,6 +1512,10 @@ Escape_analysis_assign::call(Call_expression* call)
&& fn->named_object()->is_function()
&& !fntype->is_tagged())
{
if (debug_level > 2)
inform(call->location(), "esccall:: %s in recursive group",
call_node->ast_format(gogo).c_str());
Function* f = fn->named_object()->func_value();
const Bindings* callee_bindings = f->block()->bindings();
@ -1176,6 +1581,9 @@ Escape_analysis_assign::call(Call_expression* call)
for (; p != arg_nodes.end(); ++p)
{
if (debug_level > 2)
inform(call->location(), "esccall:: ... <- %s, untracked",
(*p)->ast_format(gogo).c_str());
this->assign(this->context_->sink(), *p);
}
}
@ -1183,7 +1591,13 @@ Escape_analysis_assign::call(Call_expression* call)
return;
}
if (debug_level > 2)
inform(call->location(), "esccall:: %s not recursive",
call_node->ast_format(gogo).c_str());
Node::Escape_state* call_state = call_node->state(this->context_, NULL);
if (!call_state->retvals.empty())
error("esc already decorated call %s", call_node->ast_format(gogo).c_str());
this->context_->init_retvals(call_node, fntype);
// Receiver.
@ -1251,6 +1665,9 @@ Escape_analysis_assign::call(Call_expression* call)
for (; p != arg_nodes.end(); ++p)
{
if (debug_level > 2)
inform(call->location(), "esccall:: ... <- %s, untracked",
(*p)->ast_format(gogo).c_str());
this->assign(this->context_->sink(), *p);
}
}
@ -1265,6 +1682,17 @@ Escape_analysis_assign::call(Call_expression* call)
void
Escape_analysis_assign::assign(Node* dst, Node* src)
{
Gogo* gogo = this->context_->gogo();
int debug_level = gogo->debug_escape_level();
if (debug_level > 1)
inform(dst->location(), "[%d] %s escassign: %s(%s)[%s] = %s(%s)[%s]",
this->context_->loop_depth(),
strip_packed_prefix(gogo, this->context_->current_function_name()).c_str(),
dst->ast_format(gogo).c_str(), dst->details().c_str(),
dst->op_format().c_str(),
src->ast_format(gogo).c_str(), src->details().c_str(),
src->op_format().c_str());
if (dst->expr() != NULL)
{
// Analyze the lhs of the assignment.
@ -1684,6 +2112,10 @@ Escape_analysis_assign::assign_from_note(std::string* note,
}
}
if (this->context_->gogo()->debug_escape_level() > 2)
inform(src->location(), "assignfromtag:: src= em=%s",
Escape_note::make_tag(enc).c_str());
if (enc == Node::ESCAPE_UNKNOWN)
{
// Lost track of the value.
@ -1750,6 +2182,11 @@ Escape_analysis_assign::flows(Node* dst, Node* src)
|| src_state->flows.find(dst) != src_state->flows.end())
return;
Gogo* gogo = this->context_->gogo();
if (gogo->debug_escape_level() > 2)
inform(Linemap::unknown_location(), "flows:: %s <- %s",
dst->ast_format(gogo).c_str(), src->ast_format(gogo).c_str());
if (dst_state->flows.empty())
this->context_->add_dst(dst);
@ -1905,6 +2342,22 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
src_state->level = level;
int mod_loop_depth = std::max(extra_loop_depth, src_state->loop_depth);
Gogo* gogo = this->context_->gogo();
int debug_level = gogo->debug_escape_level();
if (debug_level > 1)
inform(Linemap::unknown_location(),
"escwalk: level:{%d %d} depth:%d "
"op=%s %s(%s) "
"scope:%s[%d] "
"extraloopdepth=%d",
level.value(), level.suffix_value(), this->context_->pdepth(),
src->op_format().c_str(),
src->ast_format(gogo).c_str(),
src->details().c_str(),
debug_function_name(src_state->fn).c_str(),
src_state->loop_depth,
extra_loop_depth);
this->context_->increase_pdepth();
// Input parameter flowing into output parameter?
@ -1934,6 +2387,20 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
// 2. return &in
// 3. tmp := in; return &tmp
// 4. return *in
if (debug_level != 0)
{
if (debug_level == 1)
inform(src->location(),
"leaking param: %s to result %s level=%d",
src->ast_format(gogo).c_str(), dst->ast_format(gogo).c_str(),
level.value());
else
inform(src->location(),
"leaking param: %s to result %s level={%d %d}",
src->ast_format(gogo).c_str(), dst->ast_format(gogo).c_str(),
level.value(), level.suffix_value());
}
if ((src->encoding() & ESCAPE_MASK) != Node::ESCAPE_RETURN)
{
int enc =
@ -1968,6 +2435,9 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
Node::max_encoding((src->encoding() | ESCAPE_CONTENT_ESCAPES),
Node::ESCAPE_NONE);
src->set_encoding(enc);
if (debug_level != 0)
inform(src->location(), "mark escaped content: %s",
src->ast_format(gogo).c_str());
}
// A src object leaks if its value or address is assigned to a dst object
@ -1987,9 +2457,14 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
Node::max_encoding((src->encoding() | ESCAPE_CONTENT_ESCAPES),
Node::ESCAPE_NONE);
src->set_encoding(enc);
if (debug_level != 0)
inform(src->location(), "leaking param content: %s",
src->ast_format(gogo).c_str());
}
else
{
if (debug_level != 0)
inform(src->location(), "leaking param");
src->set_encoding(Node::ESCAPE_SCOPE);
}
}
@ -1998,6 +2473,10 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
Expression* e = src->expr();
if (e->enclosed_var_expression() != NULL)
{
if (src_leaks && debug_level != 0)
inform(src->location(), "leaking closure reference %s",
src->ast_format(gogo).c_str());
Node* enclosed_node =
Node::make_node(e->enclosed_var_expression()->variable());
this->flood(level, dst, enclosed_node, -1);
@ -2020,6 +2499,23 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
if (src_leaks)
{
src->set_encoding(Node::ESCAPE_HEAP);
if (debug_level != 0)
{
inform(underlying->location(), "moved to heap: %s",
underlying_node->ast_format(gogo).c_str());
if (debug_level > 1)
inform(src->location(),
"%s escapes to heap, level={%d %d}, "
"dst.eld=%d, src.eld=%d",
src->ast_format(gogo).c_str(), level.value(),
level.suffix_value(), dst_state->loop_depth,
mod_loop_depth);
else
inform(src->location(), "%s escapes to heap",
src->ast_format(gogo).c_str());
}
this->flood(level.decrease(), dst,
underlying_node, mod_loop_depth);
extra_loop_depth = mod_loop_depth;
@ -2046,6 +2542,9 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
if (src_leaks)
{
src->set_encoding(Node::ESCAPE_HEAP);
if (debug_level != 0)
inform(src->location(), "%s escapes to heap",
src->ast_format(gogo).c_str());
extra_loop_depth = mod_loop_depth;
}
}
@ -2089,6 +2588,9 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
if (src_leaks)
{
src->set_encoding(Node::ESCAPE_HEAP);
if (debug_level != 0)
inform(src->location(), "%s escapes to heap",
src->ast_format(gogo).c_str());
extra_loop_depth = mod_loop_depth;
}
break;
@ -2104,6 +2606,9 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
// A closure or bound method; we lost track of actual function
// so if this leaks, this call must be done on the heap.
src->set_encoding(Node::ESCAPE_HEAP);
if (debug_level != 0)
inform(src->location(), "%s escapes to heap",
src->ast_format(gogo).c_str());
}
}
}
@ -2111,6 +2616,9 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
{
// Calls to Runtime::NEW get lowered into an allocation expression.
src->set_encoding(Node::ESCAPE_HEAP);
if (debug_level != 0)
inform(src->location(), "%s escapes to heap",
src->ast_format(gogo).c_str());
}
else if ((e->field_reference_expression() != NULL
&& e->field_reference_expression()->expr()->unary_expression() == NULL)
@ -2184,6 +2692,13 @@ void
Gogo::propagate_escape(Escape_context* context, Node* dst)
{
Node::Escape_state* state = dst->state(context, NULL);
Gogo* gogo = context->gogo();
if (gogo->debug_escape_level() > 1)
inform(Linemap::unknown_location(), "escflood:%d: dst %s scope:%s[%d]",
context->flood_id(), dst->ast_format(gogo).c_str(),
debug_function_name(state->fn).c_str(),
state->loop_depth);
Escape_analysis_flood eaf(context);
for (std::set<Node*>::const_iterator p = state->flows.begin();
p != state->flows.end();

15
gcc/go/gofrontend/escape.h
View File

@ -193,6 +193,17 @@ class Node
Location
location() const;
// Return this node's AST formatted string.
std::string
ast_format(Gogo*) const;
// Return this node's detailed format string.
std::string
details() const;
std::string
op_format() const;
// Return this node's escape state.
Escape_state*
state(Escape_context* context, Named_object* fn);
@ -343,6 +354,10 @@ class Escape_context
set_current_function(Named_object* fn)
{ this->current_function_ = fn; }
// Return the name of the current function.
std::string
current_function_name() const;
// Return true if this is the context for a mutually recursive set of functions.
bool
recursive() const

4
gcc/go/gofrontend/go.cc
View File

@ -22,7 +22,8 @@ GO_EXTERN_C
void
go_create_gogo(int int_type_size, int pointer_size, const char *pkgpath,
const char *prefix, const char *relative_import_path,
bool check_divide_by_zero, bool check_divide_overflow)
bool check_divide_by_zero, bool check_divide_overflow,
int debug_escape_level)
{
go_assert(::gogo == NULL);
Linemap* linemap = go_get_linemap();
@ -39,6 +40,7 @@ go_create_gogo(int int_type_size, int pointer_size, const char *pkgpath,
::gogo->set_check_divide_by_zero(check_divide_by_zero);
if (check_divide_overflow)
::gogo->set_check_divide_overflow(check_divide_overflow);
::gogo->set_debug_escape_level(debug_escape_level);
}
// Parse the input files.

28
gcc/go/gofrontend/gogo.h
View File

@ -239,6 +239,16 @@ class Gogo
set_check_divide_overflow(bool b)
{ this->check_divide_overflow_ = b; }
// Return the level of escape analysis debug information to emit.
int
debug_escape_level() const
{ return this->debug_escape_level_; }
// Set the level of escape analysis debugging from a command line option.
void
set_debug_escape_level(int level)
{ this->debug_escape_level_ = level; }
// Return the priority to use for the package we are compiling.
// This is two more than the largest priority of any package we
// import.
@ -786,6 +796,9 @@ class Gogo
// Whether or not to check for division overflow, from the
// -fgo-check-divide-overflow option.
bool check_divide_overflow_;
// The level of escape analysis debug information to emit, from the
// -fgo-debug-escape option.
int debug_escape_level_;
// A list of types to verify.
std::vector<Type*> verify_types_;
// A list of interface types defined while parsing.
@ -2715,7 +2728,7 @@ class Unnamed_label
{
public:
Unnamed_label(Location location)
: location_(location), blabel_(NULL)
: location_(location), derived_from_(NULL), blabel_(NULL)
{ }
// Get the location where the label is defined.
@ -2728,6 +2741,16 @@ class Unnamed_label
set_location(Location location)
{ this->location_ = location; }
// Get the top level statement this unnamed label is derived from.
Statement*
derived_from() const
{ return this->derived_from_; }
// Set the top level statement this unnamed label is derived from.
void
set_derived_from(Statement* s)
{ this->derived_from_ = s; }
// Return a statement which defines this label.
Bstatement*
get_definition(Translate_context*);
@ -2743,6 +2766,9 @@ class Unnamed_label
// The location where the label is defined.
Location location_;
// The top-level statement this unnamed label was derived/lowered from.
// This is NULL is this label is not the top-level of a lowered statement.
Statement* derived_from_;
// The backend representation of this label.
Blabel* blabel_;
};

2
gcc/go/gofrontend/statements.cc
View File

@ -3058,7 +3058,6 @@ Unnamed_label_statement::do_get_backend(Translate_context* context)
return this->label_->get_definition(context);
}
// Dump the AST representation for an unnamed label definition statement.
void
@ -5091,6 +5090,7 @@ For_statement::do_lower(Gogo*, Named_object*, Block* enclosing,
}
Unnamed_label* top = new Unnamed_label(this->location());
top->set_derived_from(this);
b->add_statement(Statement::make_unnamed_label_statement(top));
s = Statement::make_block_statement(this->statements_,

4
gcc/go/lang.opt
View File

@ -69,6 +69,10 @@ frequire-return-statement
Go Var(go_require_return_statement) Init(1) Warning
Functions which return values must end with return statements.
fgo-debug-escape
Go Joined UInteger Var(go_debug_escape_level) Init(0)
Emit debugging information related to the escape analysis pass when run with -fgo-optimize-allocs.
o
Go Joined Separate
; Documented in common.opt