runtime/vm/resolver.cc - sdk.git - Git at Google

 // Copyright (c) 2011, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/resolver.h"

 #include "vm/dart_entry.h"
 #include "vm/flags.h"
 #include "vm/isolate.h"
 #include "vm/log.h"
 #include "vm/object.h"
 #include "vm/object_store.h"
 #include "vm/symbols.h"

 namespace dart {

 DEFINE_FLAG(bool, trace_resolving, false, "Trace resolving.");

 // The actual names of named arguments are not checked by the dynamic resolver,
 // but by the method entry code. It is important that the dynamic resolver
 // checks that no named arguments are passed to a method that does not accept
 // them, since the entry code of such a method does not check for named
 // arguments. The dynamic resolver actually checks that a valid number of named
 // arguments is passed in.
 RawFunction* Resolver::ResolveDynamic(const Instance& receiver,
                                       const String& function_name,
                                       const ArgumentsDescriptor& args_desc) {
   // Figure out type of receiver first.
   const Class& cls = Class::Handle(receiver.clazz());
   return ResolveDynamicForReceiverClass(cls, function_name, args_desc);
 }

 RawFunction* Resolver::ResolveDynamicForReceiverClass(
     const Class& receiver_class,
     const String& function_name,
     const ArgumentsDescriptor& args_desc,
     bool allow_add) {
   Thread* thread = Thread::Current();
   Zone* zone = thread->zone();

   Function& function = Function::Handle(
       zone,
       ResolveDynamicAnyArgs(zone, receiver_class, function_name, allow_add));

   if (function.IsNull() || !function.AreValidArguments(args_desc, NULL)) {
     // Return a null function to signal to the upper levels to dispatch to
     // "noSuchMethod" function.
     if (FLAG_trace_resolving) {
       String& error_message =
           String::Handle(zone, Symbols::New(thread, "function not found"));
       if (!function.IsNull()) {
         // Obtain more detailed error message.
         function.AreValidArguments(args_desc, &error_message);
       }
       THR_Print("ResolveDynamic error '%s': %s.\n", function_name.ToCString(),
                 error_message.ToCString());
     }
     return Function::null();
   }
   return function.raw();
 }

 RawFunction* Resolver::ResolveDynamicAnyArgs(Zone* zone,
                                              const Class& receiver_class,
                                              const String& function_name,
                                              bool allow_add) {
   Class& cls = Class::Handle(zone, receiver_class.raw());
   if (FLAG_trace_resolving) {
     THR_Print("ResolveDynamic '%s' for class %s\n", function_name.ToCString(),
               String::Handle(zone, cls.Name()).ToCString());
   }
   Function& function = Function::Handle(zone);

   String& demangled = String::Handle(zone);

   const bool is_getter = Field::IsGetterName(function_name);
   if (is_getter) {
     demangled ^= Field::NameFromGetter(function_name);
   }

   if (Function::IsDynamicInvocationForwaderName(function_name)) {
     demangled ^=
         Function::DemangleDynamicInvocationForwarderName(function_name);
 #ifdef DART_PRECOMPILED_RUNTIME
     // In precompiled mode, the non-dynamic version of the function may be
     // tree-shaken away, so can't necessarily resolve the demanged name.
     while (!cls.IsNull()) {
       function = cls.GetInvocationDispatcher(
           function_name, Array::null_array(),
           RawFunction::kDynamicInvocationForwarder, /*create_if_absent=*/false);
       if (!function.IsNull()) break;
       cls = cls.SuperClass();
     }
     // Some functions don't require dynamic invocation forwarders, for example
     // if there are no parameters or all the parameters are marked
     // `generic-covariant` (meaning there's no work for the dynamic invocation
     // forwarder to do, see `kernel::DynamicInvocationForwarder`). For these
     // functions, we won't have built a `dyn:` version, but it's safe to just
     // return the original version directly.
     return !function.IsNull() ? function.raw()
                               : ResolveDynamicAnyArgs(zone, receiver_class,
                                                       demangled, allow_add);
 #else
     function =
         ResolveDynamicAnyArgs(zone, receiver_class, demangled, allow_add);
     return function.IsNull() ? function.raw()
                              : function.GetDynamicInvocationForwarder(
                                    function_name, allow_add);
 #endif
   }

   // Now look for an instance function whose name matches function_name
   // in the class.
   while (!cls.IsNull()) {
     function ^= cls.LookupDynamicFunction(function_name);
     if (!function.IsNull()) {
       return function.raw();
     }
     // Getter invocation might actually be a method extraction.
     if (FLAG_lazy_dispatchers) {
       if (is_getter && function.IsNull()) {
         function ^= cls.LookupDynamicFunction(demangled);
         if (!function.IsNull() && allow_add) {
           // We were looking for the getter but found a method with the same
           // name. Create a method extractor and return it.
           // The extractor does not exist yet, so using GetMethodExtractor is
           // not necessary here.
           function ^= function.CreateMethodExtractor(function_name);
           return function.raw();
         }
       }
     }
     cls = cls.SuperClass();
   }
   return function.raw();
 }

 RawFunction* Resolver::ResolveStatic(const Library& library,
                                      const String& class_name,
                                      const String& function_name,
                                      intptr_t type_args_len,
                                      intptr_t num_arguments,
                                      const Array& argument_names) {
   ASSERT(!library.IsNull());
   Function& function = Function::Handle();
   if (class_name.IsNull() || (class_name.Length() == 0)) {
     // Check if we are referring to a top level function.
     const Object& object = Object::Handle(library.ResolveName(function_name));
     if (!object.IsNull() && object.IsFunction()) {
       function ^= object.raw();
       if (!function.AreValidArguments(type_args_len, num_arguments,
                                       argument_names, NULL)) {
         if (FLAG_trace_resolving) {
           String& error_message = String::Handle();
           // Obtain more detailed error message.
           function.AreValidArguments(type_args_len, num_arguments,
                                      argument_names, &error_message);
           THR_Print("ResolveStatic error '%s': %s.\n",
                     function_name.ToCString(), error_message.ToCString());
         }
         function = Function::null();
       }
     } else {
       if (FLAG_trace_resolving) {
         THR_Print("ResolveStatic error: function '%s' not found.\n",
                   function_name.ToCString());
       }
     }
   } else {
     // Lookup class_name in the library's class dictionary to get at
     // the dart class object. If class_name is not found in the dictionary
     // ResolveStatic will return a NULL function object.
     const Class& cls = Class::Handle(library.LookupClass(class_name));
     if (!cls.IsNull()) {
       function = ResolveStatic(cls, function_name, type_args_len, num_arguments,
                                argument_names);
     }
     if (FLAG_trace_resolving && function.IsNull()) {
       THR_Print("ResolveStatic error: function '%s.%s' not found.\n",
                 class_name.ToCString(), function_name.ToCString());
     }
   }
   return function.raw();
 }

 RawFunction* Resolver::ResolveStatic(const Class& cls,
                                      const String& function_name,
                                      intptr_t type_args_len,
                                      intptr_t num_arguments,
                                      const Array& argument_names) {
   ASSERT(!cls.IsNull());
   if (FLAG_trace_resolving) {
     THR_Print("ResolveStatic '%s'\n", function_name.ToCString());
   }
   const Function& function =
       Function::Handle(cls.LookupStaticFunction(function_name));
   if (function.IsNull() ||
       !function.AreValidArguments(type_args_len, num_arguments, argument_names,
                                   NULL)) {
     // Return a null function to signal to the upper levels to throw a
     // resolution error or maybe throw the error right here.
     if (FLAG_trace_resolving) {
       String& error_message = String::Handle(String::New("function not found"));
       if (!function.IsNull()) {
         // Obtain more detailed error message.
         function.AreValidArguments(type_args_len, num_arguments, argument_names,
                                    &error_message);
       }
       THR_Print("ResolveStatic error '%s': %s.\n", function_name.ToCString(),
                 error_message.ToCString());
     }
     return Function::null();
   }
   return function.raw();
 }

 RawFunction* Resolver::ResolveStaticAllowPrivate(const Class& cls,
                                                  const String& function_name,
                                                  intptr_t type_args_len,
                                                  intptr_t num_arguments,
                                                  const Array& argument_names) {
   ASSERT(!cls.IsNull());
   if (FLAG_trace_resolving) {
     THR_Print("ResolveStaticAllowPrivate '%s'\n", function_name.ToCString());
   }
   const Function& function =
       Function::Handle(cls.LookupStaticFunctionAllowPrivate(function_name));
   if (function.IsNull() ||
       !function.AreValidArguments(type_args_len, num_arguments, argument_names,
                                   NULL)) {
     // Return a null function to signal to the upper levels to throw a
     // resolution error or maybe throw the error right here.
     if (FLAG_trace_resolving) {
       String& error_message = String::Handle(String::New("function not found"));
       if (!function.IsNull()) {
         // Obtain more detailed error message.
         function.AreValidArguments(type_args_len, num_arguments, argument_names,
                                    &error_message);
       }
       THR_Print("ResolveStaticAllowPrivate error '%s': %s.\n",
                 function_name.ToCString(), error_message.ToCString());
     }
     return Function::null();
   }
   return function.raw();
 }

 }  // namespace dart
	// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/resolver.h"

	#include "vm/dart_entry.h"
	#include "vm/flags.h"
	#include "vm/isolate.h"
	#include "vm/log.h"
	#include "vm/object.h"
	#include "vm/object_store.h"
	#include "vm/symbols.h"

	namespace dart {

	DEFINE_FLAG(bool, trace_resolving, false, "Trace resolving.");

	// The actual names of named arguments are not checked by the dynamic resolver,
	// but by the method entry code. It is important that the dynamic resolver
	// checks that no named arguments are passed to a method that does not accept
	// them, since the entry code of such a method does not check for named
	// arguments. The dynamic resolver actually checks that a valid number of named
	// arguments is passed in.
	RawFunction* Resolver::ResolveDynamic(const Instance& receiver,
	const String& function_name,
	const ArgumentsDescriptor& args_desc) {
	// Figure out type of receiver first.
	const Class& cls = Class::Handle(receiver.clazz());
	return ResolveDynamicForReceiverClass(cls, function_name, args_desc);
	}

	RawFunction* Resolver::ResolveDynamicForReceiverClass(
	const Class& receiver_class,
	const String& function_name,
	const ArgumentsDescriptor& args_desc,
	bool allow_add) {
	Thread* thread = Thread::Current();
	Zone* zone = thread->zone();

	Function& function = Function::Handle(
	zone,
	ResolveDynamicAnyArgs(zone, receiver_class, function_name, allow_add));

	if (function.IsNull() \|\| !function.AreValidArguments(args_desc, NULL)) {
	// Return a null function to signal to the upper levels to dispatch to
	// "noSuchMethod" function.
	if (FLAG_trace_resolving) {
	String& error_message =
	String::Handle(zone, Symbols::New(thread, "function not found"));
	if (!function.IsNull()) {
	// Obtain more detailed error message.
	function.AreValidArguments(args_desc, &error_message);
	}
	THR_Print("ResolveDynamic error '%s': %s.\n", function_name.ToCString(),
	error_message.ToCString());
	}
	return Function::null();
	}
	return function.raw();
	}

	RawFunction* Resolver::ResolveDynamicAnyArgs(Zone* zone,
	const Class& receiver_class,
	const String& function_name,
	bool allow_add) {
	Class& cls = Class::Handle(zone, receiver_class.raw());
	if (FLAG_trace_resolving) {
	THR_Print("ResolveDynamic '%s' for class %s\n", function_name.ToCString(),
	String::Handle(zone, cls.Name()).ToCString());
	}
	Function& function = Function::Handle(zone);

	String& demangled = String::Handle(zone);

	const bool is_getter = Field::IsGetterName(function_name);
	if (is_getter) {
	demangled ^= Field::NameFromGetter(function_name);
	}

	if (Function::IsDynamicInvocationForwaderName(function_name)) {
	demangled ^=
	Function::DemangleDynamicInvocationForwarderName(function_name);
	#ifdef DART_PRECOMPILED_RUNTIME
	// In precompiled mode, the non-dynamic version of the function may be
	// tree-shaken away, so can't necessarily resolve the demanged name.
	while (!cls.IsNull()) {
	function = cls.GetInvocationDispatcher(
	function_name, Array::null_array(),
	RawFunction::kDynamicInvocationForwarder, /create_if_absent=/false);
	if (!function.IsNull()) break;
	cls = cls.SuperClass();
	}
	// Some functions don't require dynamic invocation forwarders, for example
	// if there are no parameters or all the parameters are marked
	// `generic-covariant` (meaning there's no work for the dynamic invocation
	// forwarder to do, see `kernel::DynamicInvocationForwarder`). For these
	// functions, we won't have built a `dyn:` version, but it's safe to just
	// return the original version directly.
	return !function.IsNull() ? function.raw()
	: ResolveDynamicAnyArgs(zone, receiver_class,
	demangled, allow_add);
	#else
	function =
	ResolveDynamicAnyArgs(zone, receiver_class, demangled, allow_add);
	return function.IsNull() ? function.raw()
	: function.GetDynamicInvocationForwarder(
	function_name, allow_add);
	#endif
	}

	// Now look for an instance function whose name matches function_name
	// in the class.
	while (!cls.IsNull()) {
	function ^= cls.LookupDynamicFunction(function_name);
	if (!function.IsNull()) {
	return function.raw();
	}
	// Getter invocation might actually be a method extraction.
	if (FLAG_lazy_dispatchers) {
	if (is_getter && function.IsNull()) {
	function ^= cls.LookupDynamicFunction(demangled);
	if (!function.IsNull() && allow_add) {
	// We were looking for the getter but found a method with the same
	// name. Create a method extractor and return it.
	// The extractor does not exist yet, so using GetMethodExtractor is
	// not necessary here.
	function ^= function.CreateMethodExtractor(function_name);
	return function.raw();
	}
	}
	}
	cls = cls.SuperClass();
	}
	return function.raw();
	}

	RawFunction* Resolver::ResolveStatic(const Library& library,
	const String& class_name,
	const String& function_name,
	intptr_t type_args_len,
	intptr_t num_arguments,
	const Array& argument_names) {
	ASSERT(!library.IsNull());
	Function& function = Function::Handle();
	if (class_name.IsNull() \|\| (class_name.Length() == 0)) {
	// Check if we are referring to a top level function.
	const Object& object = Object::Handle(library.ResolveName(function_name));
	if (!object.IsNull() && object.IsFunction()) {
	function ^= object.raw();
	if (!function.AreValidArguments(type_args_len, num_arguments,
	argument_names, NULL)) {
	if (FLAG_trace_resolving) {
	String& error_message = String::Handle();
	// Obtain more detailed error message.
	function.AreValidArguments(type_args_len, num_arguments,
	argument_names, &error_message);
	THR_Print("ResolveStatic error '%s': %s.\n",
	function_name.ToCString(), error_message.ToCString());
	}
	function = Function::null();
	}
	} else {
	if (FLAG_trace_resolving) {
	THR_Print("ResolveStatic error: function '%s' not found.\n",
	function_name.ToCString());
	}
	}
	} else {
	// Lookup class_name in the library's class dictionary to get at
	// the dart class object. If class_name is not found in the dictionary
	// ResolveStatic will return a NULL function object.
	const Class& cls = Class::Handle(library.LookupClass(class_name));
	if (!cls.IsNull()) {
	function = ResolveStatic(cls, function_name, type_args_len, num_arguments,
	argument_names);
	}
	if (FLAG_trace_resolving && function.IsNull()) {
	THR_Print("ResolveStatic error: function '%s.%s' not found.\n",
	class_name.ToCString(), function_name.ToCString());
	}
	}
	return function.raw();
	}

	RawFunction* Resolver::ResolveStatic(const Class& cls,
	const String& function_name,
	intptr_t type_args_len,
	intptr_t num_arguments,
	const Array& argument_names) {
	ASSERT(!cls.IsNull());
	if (FLAG_trace_resolving) {
	THR_Print("ResolveStatic '%s'\n", function_name.ToCString());
	}
	const Function& function =
	Function::Handle(cls.LookupStaticFunction(function_name));
	if (function.IsNull() \|\|
	!function.AreValidArguments(type_args_len, num_arguments, argument_names,
	NULL)) {
	// Return a null function to signal to the upper levels to throw a
	// resolution error or maybe throw the error right here.
	if (FLAG_trace_resolving) {
	String& error_message = String::Handle(String::New("function not found"));
	if (!function.IsNull()) {
	// Obtain more detailed error message.
	function.AreValidArguments(type_args_len, num_arguments, argument_names,
	&error_message);
	}
	THR_Print("ResolveStatic error '%s': %s.\n", function_name.ToCString(),
	error_message.ToCString());
	}
	return Function::null();
	}
	return function.raw();
	}

	RawFunction* Resolver::ResolveStaticAllowPrivate(const Class& cls,
	const String& function_name,
	intptr_t type_args_len,
	intptr_t num_arguments,
	const Array& argument_names) {
	ASSERT(!cls.IsNull());
	if (FLAG_trace_resolving) {
	THR_Print("ResolveStaticAllowPrivate '%s'\n", function_name.ToCString());
	}
	const Function& function =
	Function::Handle(cls.LookupStaticFunctionAllowPrivate(function_name));
	if (function.IsNull() \|\|
	!function.AreValidArguments(type_args_len, num_arguments, argument_names,
	NULL)) {
	// Return a null function to signal to the upper levels to throw a
	// resolution error or maybe throw the error right here.
	if (FLAG_trace_resolving) {
	String& error_message = String::Handle(String::New("function not found"));
	if (!function.IsNull()) {
	// Obtain more detailed error message.
	function.AreValidArguments(type_args_len, num_arguments, argument_names,
	&error_message);
	}
	THR_Print("ResolveStaticAllowPrivate error '%s': %s.\n",
	function_name.ToCString(), error_message.ToCString());
	}
	return Function::null();
	}
	return function.raw();
	}

	} // namespace dart