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riscv-gcc-1
Commit fa546f0f by Ian Lance Taylor
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compiler: improve escape analysis diagnostics 

    
    This CL brings escape analysis diagnostics closer to the gc
    compiler's. This makes porting and debugging escape analysis
    code easier. A few changes:
    
    - In the gc compiler, the variable expression is represented
      with the variable node itself (ONAME), the location of which
      is the location of definition. We add a definition_location
      method to Node, and make use of it when the gc compiler emits
      diagnostics at the definition locations.
    
    - In the gc compiler, methods are named T.M or (*T).M. Add the
      type to the method name when possible.
    
    - Print "moved to heap" messages only for variables.
    
    - Reduce some duplicated diagnostics.
    
    - Print "does not escape" messages in more situations which the
      gc compiler does.
    
    - Remove the special handling for closure numbers. In gofrontend,
      closures are named "$nested#" where # is a global counter
      starting from 0, whereas in the gc compiler they are named
      "outer.func#" where # is a per-function counter starting from
      1. We tried to adjust the closure name to better matching the
      ones in the gc compiler, however, it cannot match exactly
      because of the difference of the counter. Instead, just print
      "outer.$nested#".
    
    Reviewed-on: https://go-review.googlesource.com/83875

From-SVN: r255967
parent 18408e96
Showing with 95 additions and 45 deletions
gcc/go/gofrontend/MERGE
97eb3f61cf1c2cc01b9db6ed20e39bc04573c207
66de779004bdaafefc27e4132324a47d86a0f122
The first line of this file holds the git revision number of the last
merge done from the gofrontend repository.
gcc/go/gofrontend/escape.cc
......@@ -53,6 +53,38 @@ Node::location() const
return Linemap::unknown_location();
}
// A helper for reporting; return the location where the underlying
// object is defined.
Location
Node::definition_location() const
{
if (this->object() != NULL && !this->object()->is_sink())
{
Named_object* no = this->object();
if (no->is_variable() || no->is_result_variable())
return no->location();
}
else if (this->expr() != NULL)
{
Var_expression* ve = this->expr()->var_expression();
if (ve != NULL)
{
Named_object* no = ve->named_object();
if (no->is_variable() || no->is_result_variable())
return no->location();
}
Enclosed_var_expression* eve = this->expr()->enclosed_var_expression();
if (eve != NULL)
{
Named_object* no = eve->variable();
if (no->is_variable() || no->is_result_variable())
return no->location();
}
}
return this->location();
}
// To match the cmd/gc debug output, strip away the packed prefixes on functions
// and variable/expressions.
......@@ -133,7 +165,10 @@ Node::ast_format(Gogo* gogo) const
Ast_dump_context::dump_to_stream(s, &ss);
}
return strip_packed_prefix(gogo, ss.str());
std::string s = strip_packed_prefix(gogo, ss.str());
// trim trailing space
return s.substr(0, s.find_last_not_of(' ') + 1);
}
// A helper for debugging; return this node's detailed format string.
......@@ -563,25 +598,44 @@ debug_function_name(Named_object* fn)
if (fn == NULL)
return "<S>";
if (!fn->is_function()
|| fn->func_value()->enclosing() == NULL)
if (!fn->is_function())
return Gogo::unpack_hidden_name(fn->name());
if (fn->func_value()->enclosing() == NULL)
{
std::string fnname = Gogo::unpack_hidden_name(fn->name());
if (fn->func_value()->is_method())
{
// Methods in gc compiler are named "T.m" or "(*T).m" where
// T is the receiver type. Add the receiver here.
Type* rt = fn->func_value()->type()->receiver()->type();
switch (rt->classification())
{
case Type::TYPE_NAMED:
fnname = rt->named_type()->name() + "." + fnname;
break;
// Closures are named ".$nested#" where # starts from 0 to distinguish
// between closures. The cmd/gc closures are named in the format
// "enclosing.func#" where # starts from 1. If this is a closure, format
// its name to match cmd/gc.
Named_object* enclosing = fn->func_value()->enclosing();
case Type::TYPE_POINTER:
{
Named_type* nt = rt->points_to()->named_type();
if (nt != NULL)
fnname = "(*" + nt->name() + ")." + fnname;
break;
}
// Extract #.
std::string name = Gogo::unpack_hidden_name(fn->name());
int closure_num = Gogo::nested_function_num(fn->name());
closure_num++;
default:
break;
}
}
return fnname;
}
name = Gogo::unpack_hidden_name(enclosing->name());
char buf[200];
snprintf(buf, sizeof buf, "%s.func%d", name.c_str(), closure_num);
return buf;
// Closures are named ".$nested#" where # is a global counter. Add outer
// function name for better distinguishing. This is also closer to what
// gc compiler prints, "outer.func#".
Named_object* enclosing = fn->func_value()->enclosing();
std::string name = Gogo::unpack_hidden_name(fn->name());
std::string outer_name = Gogo::unpack_hidden_name(enclosing->name());
return outer_name + "." + name;
}
// Return the name of the current function.
......@@ -740,7 +794,7 @@ Gogo::analyze_escape()
++n)
{
Node::Escape_state* state = (*n)->state(context, NULL);
if (((*n)->encoding() & ESCAPE_MASK) == int(Node::ESCAPE_NONE))
if ((*n)->encoding() == Node::ESCAPE_NONE)
go_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());
......@@ -2315,9 +2369,10 @@ Gogo::assign_connectivity(Escape_context* context, Named_object* fn)
if (fn->package() != NULL)
param_node->set_encoding(Node::ESCAPE_HEAP);
else
{
param_node->set_encoding(Node::ESCAPE_NONE);
// TODO(cmang): Track this node in no_escape list.
context->track(param_node);
}
}
Escape_analysis_loop el;
......@@ -2452,13 +2507,13 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
if (debug_level != 0)
{
if (debug_level == 1)
go_inform(src->location(),
go_inform(src->definition_location(),
"leaking param: %s to result %s level=%d",
src->ast_format(gogo).c_str(),
dst->ast_format(gogo).c_str(),
level.value());
else
go_inform(src->location(),
go_inform(src->definition_location(),
"leaking param: %s to result %s level={%d %d}",
src->ast_format(gogo).c_str(),
dst->ast_format(gogo).c_str(),
......@@ -2500,7 +2555,7 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
Node::ESCAPE_NONE);
src->set_encoding(enc);
if (debug_level != 0)
go_inform(src->location(), "mark escaped content: %s",
go_inform(src->definition_location(), "mark escaped content: %s",
src->ast_format(gogo).c_str());
}
......@@ -2510,6 +2565,8 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
bool src_leaks = (level.value() <= 0
&& level.suffix_value() <= 0
&& dst_state->loop_depth < mod_loop_depth);
// old src encoding, used to prevent duplicate error messages
int osrcesc = src->encoding();
if (src_is_param
&& (src_leaks || dst_state->loop_depth < 0)
......@@ -2521,14 +2578,15 @@ 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)
go_inform(src->location(), "leaking param content: %s",
if (debug_level != 0 && osrcesc != src->encoding())
go_inform(src->definition_location(), "leaking param content: %s",
src->ast_format(gogo).c_str());
}
else
{
if (debug_level != 0)
go_inform(src->location(), "leaking param");
go_inform(src->definition_location(), "leaking param: %s",
src->ast_format(gogo).c_str());
src->set_encoding(Node::ESCAPE_SCOPE);
}
}
......@@ -2563,9 +2621,11 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
if (src_leaks)
{
src->set_encoding(Node::ESCAPE_HEAP);
if (debug_level != 0)
if (debug_level != 0 && osrcesc != src->encoding())
{
go_inform(underlying->location(), "moved to heap: %s",
if (underlying->var_expression() != NULL)
go_inform(underlying_node->definition_location(),
"moved to heap: %s",
underlying_node->ast_format(gogo).c_str());
if (debug_level > 1)
......@@ -2606,7 +2666,7 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
if (src_leaks)
{
src->set_encoding(Node::ESCAPE_HEAP);
if (debug_level != 0)
if (debug_level != 0 && osrcesc != src->encoding())
go_inform(src->location(), "%s escapes to heap",
src->ast_format(gogo).c_str());
extra_loop_depth = mod_loop_depth;
......@@ -2652,7 +2712,7 @@ Escape_analysis_flood::flood(Level level, Node* dst, Node* src,
if (src_leaks)
{
src->set_encoding(Node::ESCAPE_HEAP);
if (debug_level != 0)
if (debug_level != 0 && osrcesc != src->encoding())
go_inform(src->location(), "%s escapes to heap",
src->ast_format(gogo).c_str());
extra_loop_depth = mod_loop_depth;
......@@ -2680,7 +2740,7 @@ 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)
if (debug_level != 0 && osrcesc != src->encoding())
go_inform(src->location(), "%s escapes to heap",
src->ast_format(gogo).c_str());
}
......
gcc/go/gofrontend/escape.h
......@@ -193,6 +193,10 @@ class Node
Location
location() const;
// Return the location where the node's underlying object is defined.
Location
definition_location() const;
// Return this node's AST formatted string.
std::string
ast_format(Gogo*) const;
......
gcc/go/gofrontend/gogo.h
......@@ -827,10 +827,6 @@ class Gogo
static std::string
nested_function_name();
// Return the index of a nested function name.
static int
nested_function_num(const std::string&);
// Return the name to use for a sink funciton.
std::string
sink_function_name();
......
gcc/go/gofrontend/names.cc
......@@ -232,16 +232,6 @@ Gogo::nested_function_name()
return buf;
}
// Return the index of a nested function name.
int
Gogo::nested_function_num(const std::string& name)
{
std::string n(Gogo::unpack_hidden_name(name));
go_assert(n.compare(0, 7, "$nested") == 0);
return strtol(n.substr(7).c_str(), NULL, 0);
}
// Return the name to use for a sink function, a function whose name
// is simply underscore. We don't really need these functions but we
// do have to generate them for error checking.
......
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