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

 // Copyright (c) 2012, 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/unit_test.h"

 #include <stdio.h>

 #include "bin/builtin.h"
 #include "bin/dartutils.h"

 #include "platform/globals.h"
 #include "vm/assembler.h"
 #include "vm/ast_printer.h"
 #include "vm/compiler.h"
 #include "vm/dart_api_impl.h"
 #include "vm/disassembler.h"
 #include "vm/parser.h"
 #include "vm/symbols.h"
 #include "vm/thread.h"
 #include "vm/virtual_memory.h"

 using dart::bin::Builtin;
 using dart::bin::DartUtils;

 namespace dart {

 DECLARE_FLAG(bool, disassemble);

 TestCaseBase* TestCaseBase::first_ = NULL;
 TestCaseBase* TestCaseBase::tail_ = NULL;


 TestCaseBase::TestCaseBase(const char* name) : next_(NULL), name_(name) {
   if (first_ == NULL) {
     first_ = this;
   } else {
     tail_->next_ = this;
   }
   tail_ = this;
 }


 void TestCaseBase::RunAll() {
   TestCaseBase* test = first_;
   while (test != NULL) {
     test->RunTest();
     test = test->next_;
   }
 }

 static const char* kPackageScheme = "package:";

 static bool IsPackageSchemeURL(const char* url_name) {
   static const intptr_t kPackageSchemeLen = strlen(kPackageScheme);
   return (strncmp(url_name, kPackageScheme, kPackageSchemeLen) == 0);
 }

 static Dart_Handle ResolvePackageUri(Dart_Handle builtin_lib,
                                      const char* uri_chars) {
   const int kNumArgs = 1;
   Dart_Handle dart_args[kNumArgs];
   dart_args[0] = DartUtils::NewString(uri_chars);
   return Dart_Invoke(builtin_lib,
                      DartUtils::NewString("_filePathFromUri"),
                      kNumArgs,
                      dart_args);
 }

 static Dart_Handle LibraryTagHandler(Dart_LibraryTag tag,
                                      Dart_Handle library,
                                      Dart_Handle url) {
   if (!Dart_IsLibrary(library)) {
     return Dart_NewApiError("not a library");
   }
   if (!Dart_IsString(url)) {
     return Dart_NewApiError("url is not a string");
   }
   const char* url_chars = NULL;
   Dart_Handle result = Dart_StringToCString(url, &url_chars);
   if (Dart_IsError(result)) {
     return Dart_NewApiError("accessing url characters failed");
   }
   Dart_Handle library_url = Dart_LibraryUrl(library);
   const char* library_url_string = NULL;
   result = Dart_StringToCString(library_url, &library_url_string);
   if (Dart_IsError(result)) {
     return result;
   }

   Dart_Handle builtin_lib =
       Builtin::LoadAndCheckLibrary(Builtin::kBuiltinLibrary);
   DART_CHECK_VALID(builtin_lib);

   bool is_dart_scheme_url = DartUtils::IsDartSchemeURL(url_chars);
   bool is_io_library = DartUtils::IsDartIOLibURL(library_url_string);
   if (tag == Dart_kCanonicalizeUrl) {
     // If this is a Dart Scheme URL then it is not modified as it will be
     // handled by the VM internally.
     if (is_dart_scheme_url || is_io_library) {
       return url;
     }

     Dart_Handle library_url = Dart_LibraryUrl(library);
     if (Dart_IsError(library_url)) {
       return library_url;
     }
     return DartUtils::ResolveUri(library_url, url, builtin_lib);
   }
   if (is_dart_scheme_url) {
     ASSERT(tag == Dart_kImportTag);
     // Handle imports of other built-in libraries present in the SDK.
     if (DartUtils::IsDartIOLibURL(url_chars)) {
       return Builtin::LoadAndCheckLibrary(Builtin::kIOLibrary);
     } else if (DartUtils::IsDartBuiltinLibURL(url_chars)) {
       return builtin_lib;
     } else {
       return DartUtils::NewError("Do not know how to load '%s'", url_chars);
     }
   }
   if (is_io_library) {
     ASSERT(tag == Dart_kSourceTag);
     return Dart_LoadSource(library,
                            url,
                            Builtin::PartSource(Builtin::kIOLibrary,
                                                url_chars),
                            0, 0);
   }
   if (IsPackageSchemeURL(url_chars)) {
     Dart_Handle resolved_uri = ResolvePackageUri(builtin_lib, url_chars);
     DART_CHECK_VALID(resolved_uri);
     url_chars = NULL;
     Dart_Handle result = Dart_StringToCString(resolved_uri, &url_chars);
     if (Dart_IsError(result)) {
       return Dart_NewApiError("accessing url characters failed");
     }
   }
   // Do sync loading since unit_test doesn't support async.
   Dart_Handle source = DartUtils::ReadStringFromFile(url_chars);
   EXPECT_VALID(source);
   if (tag == Dart_kImportTag) {
     return Dart_LoadLibrary(url, source, 0, 0);
   } else {
     ASSERT(tag == Dart_kSourceTag);
     return Dart_LoadSource(library, url, source, 0, 0);
   }
 }


 Dart_Handle TestCase::LoadTestScript(const char* script,
                                      Dart_NativeEntryResolver resolver,
                                      const char* lib_url,
                                      bool finalize_classes) {
   Dart_Handle url = NewString(lib_url);
   Dart_Handle source = NewString(script);
   Dart_Handle result = Dart_SetLibraryTagHandler(LibraryTagHandler);
   EXPECT_VALID(result);
   Dart_Handle lib = Dart_LoadScript(url, source, 0, 0);
   DART_CHECK_VALID(lib);
   result = Dart_SetNativeResolver(lib, resolver, NULL);
   DART_CHECK_VALID(result);
   if (finalize_classes) {
     result = Dart_FinalizeLoading(false);
     DART_CHECK_VALID(result);
   }
   return lib;
 }


 Dart_Handle TestCase::LoadCoreTestScript(const char* script,
                                          Dart_NativeEntryResolver resolver) {
   return LoadTestScript(script, resolver, CORELIB_TEST_URI);
 }


 Dart_Handle TestCase::lib() {
   Dart_Handle url = NewString(TestCase::url());
   Dart_Handle lib = Dart_LookupLibrary(url);
   DART_CHECK_VALID(lib);
   ASSERT(Dart_IsLibrary(lib));
   return lib;
 }


 Dart_Handle TestCase::library_handler(Dart_LibraryTag tag,
                                       Dart_Handle library,
                                       Dart_Handle url) {
   if (tag == Dart_kCanonicalizeUrl) {
     return url;
   }
   return Api::Success();
 }


 char* TestCase::BigintToHexValue(Dart_CObject* bigint) {
   return bin::CObject::BigintToHexValue(bigint);
 }


 void AssemblerTest::Assemble() {
   const String& function_name = String::ZoneHandle(Symbols::New(name_));
   const Class& cls = Class::ZoneHandle(
       Class::New(function_name, Script::Handle(), Scanner::kNoSourcePos));
   const Library& lib = Library::ZoneHandle(Library::New(function_name));
   cls.set_library(lib);
   Function& function = Function::ZoneHandle(
       Function::New(function_name, RawFunction::kRegularFunction,
                     true, false, false, false, false, cls, 0));
   code_ = Code::FinalizeCode(function, assembler_);
   if (FLAG_disassemble) {
     OS::Print("Code for test '%s' {\n", name_);
     const Instructions& instructions =
         Instructions::Handle(code_.instructions());
     uword start = instructions.EntryPoint();
     Disassembler::Disassemble(start, start + assembler_->CodeSize());
     OS::Print("}\n");
   }
   const Instructions& instructions = Instructions::Handle(code_.instructions());
   entry_ = instructions.EntryPoint();
 }


 CodeGenTest::CodeGenTest(const char* name)
   : function_(Function::ZoneHandle()),
     node_sequence_(new SequenceNode(Scanner::kNoSourcePos,
                                     new LocalScope(NULL, 0, 0))),
     default_parameter_values_(Array::ZoneHandle()) {
   ASSERT(name != NULL);
   const String& function_name = String::ZoneHandle(Symbols::New(name));
   // Add function to a class and that class to the class dictionary so that
   // frame walking can be used.
   const Class& cls = Class::ZoneHandle(
        Class::New(function_name, Script::Handle(), Scanner::kNoSourcePos));
   function_ = Function::New(
       function_name, RawFunction::kRegularFunction,
       true, false, false, false, false, cls, 0);
   function_.set_result_type(Type::Handle(Type::DynamicType()));
   const Array& functions = Array::Handle(Array::New(1));
   functions.SetAt(0, function_);
   cls.SetFunctions(functions);
   Library& lib = Library::Handle(Library::CoreLibrary());
   lib.AddClass(cls);
 }


 void CodeGenTest::Compile() {
   if (function_.HasCode()) return;
   ParsedFunction* parsed_function =
       new ParsedFunction(Thread::Current(), function_);
   parsed_function->SetNodeSequence(node_sequence_);
   parsed_function->set_instantiator(NULL);
   parsed_function->set_default_parameter_values(default_parameter_values_);
   node_sequence_->scope()->AddVariable(
       parsed_function->current_context_var());
   parsed_function->EnsureExpressionTemp();
   node_sequence_->scope()->AddVariable(parsed_function->expression_temp_var());
   parsed_function->AllocateVariables();
   const Error& error =
       Error::Handle(Compiler::CompileParsedFunction(parsed_function));
   EXPECT(error.IsNull());
 }


 bool CompilerTest::TestCompileScript(const Library& library,
                                      const Script& script) {
   Isolate* isolate = Isolate::Current();
   ASSERT(isolate != NULL);
   const Error& error = Error::Handle(Compiler::Compile(library, script));
   if (!error.IsNull()) {
     OS::Print("Error compiling test script:\n%s\n",
     error.ToErrorCString());
   }
   return error.IsNull();
 }


 bool CompilerTest::TestCompileFunction(const Function& function) {
   Isolate* isolate = Isolate::Current();
   ASSERT(isolate != NULL);
   ASSERT(ClassFinalizer::AllClassesFinalized());
   const Error& error = Error::Handle(Compiler::CompileFunction(isolate,
                                                                function));
   return error.IsNull();
 }


 }  // namespace dart
	// Copyright (c) 2012, 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/unit_test.h"

	#include <stdio.h>

	#include "bin/builtin.h"
	#include "bin/dartutils.h"

	#include "platform/globals.h"
	#include "vm/assembler.h"
	#include "vm/ast_printer.h"
	#include "vm/compiler.h"
	#include "vm/dart_api_impl.h"
	#include "vm/disassembler.h"
	#include "vm/parser.h"
	#include "vm/symbols.h"
	#include "vm/thread.h"
	#include "vm/virtual_memory.h"

	using dart::bin::Builtin;
	using dart::bin::DartUtils;

	namespace dart {

	DECLARE_FLAG(bool, disassemble);

	TestCaseBase* TestCaseBase::first_ = NULL;
	TestCaseBase* TestCaseBase::tail_ = NULL;


	TestCaseBase::TestCaseBase(const char* name) : next_(NULL), name_(name) {
	if (first_ == NULL) {
	first_ = this;
	} else {
	tail_->next_ = this;
	}
	tail_ = this;
	}


	void TestCaseBase::RunAll() {
	TestCaseBase* test = first_;
	while (test != NULL) {
	test->RunTest();
	test = test->next_;
	}
	}

	static const char* kPackageScheme = "package:";

	static bool IsPackageSchemeURL(const char* url_name) {
	static const intptr_t kPackageSchemeLen = strlen(kPackageScheme);
	return (strncmp(url_name, kPackageScheme, kPackageSchemeLen) == 0);
	}

	static Dart_Handle ResolvePackageUri(Dart_Handle builtin_lib,
	const char* uri_chars) {
	const int kNumArgs = 1;
	Dart_Handle dart_args[kNumArgs];
	dart_args[0] = DartUtils::NewString(uri_chars);
	return Dart_Invoke(builtin_lib,
	DartUtils::NewString("_filePathFromUri"),
	kNumArgs,
	dart_args);
	}

	static Dart_Handle LibraryTagHandler(Dart_LibraryTag tag,
	Dart_Handle library,
	Dart_Handle url) {
	if (!Dart_IsLibrary(library)) {
	return Dart_NewApiError("not a library");
	}
	if (!Dart_IsString(url)) {
	return Dart_NewApiError("url is not a string");
	}
	const char* url_chars = NULL;
	Dart_Handle result = Dart_StringToCString(url, &url_chars);
	if (Dart_IsError(result)) {
	return Dart_NewApiError("accessing url characters failed");
	}
	Dart_Handle library_url = Dart_LibraryUrl(library);
	const char* library_url_string = NULL;
	result = Dart_StringToCString(library_url, &library_url_string);
	if (Dart_IsError(result)) {
	return result;
	}

	Dart_Handle builtin_lib =
	Builtin::LoadAndCheckLibrary(Builtin::kBuiltinLibrary);
	DART_CHECK_VALID(builtin_lib);

	bool is_dart_scheme_url = DartUtils::IsDartSchemeURL(url_chars);
	bool is_io_library = DartUtils::IsDartIOLibURL(library_url_string);
	if (tag == Dart_kCanonicalizeUrl) {
	// If this is a Dart Scheme URL then it is not modified as it will be
	// handled by the VM internally.
	if (is_dart_scheme_url \|\| is_io_library) {
	return url;
	}

	Dart_Handle library_url = Dart_LibraryUrl(library);
	if (Dart_IsError(library_url)) {
	return library_url;
	}
	return DartUtils::ResolveUri(library_url, url, builtin_lib);
	}
	if (is_dart_scheme_url) {
	ASSERT(tag == Dart_kImportTag);
	// Handle imports of other built-in libraries present in the SDK.
	if (DartUtils::IsDartIOLibURL(url_chars)) {
	return Builtin::LoadAndCheckLibrary(Builtin::kIOLibrary);
	} else if (DartUtils::IsDartBuiltinLibURL(url_chars)) {
	return builtin_lib;
	} else {
	return DartUtils::NewError("Do not know how to load '%s'", url_chars);
	}
	}
	if (is_io_library) {
	ASSERT(tag == Dart_kSourceTag);
	return Dart_LoadSource(library,
	url,
	Builtin::PartSource(Builtin::kIOLibrary,
	url_chars),
	0, 0);
	}
	if (IsPackageSchemeURL(url_chars)) {
	Dart_Handle resolved_uri = ResolvePackageUri(builtin_lib, url_chars);
	DART_CHECK_VALID(resolved_uri);
	url_chars = NULL;
	Dart_Handle result = Dart_StringToCString(resolved_uri, &url_chars);
	if (Dart_IsError(result)) {
	return Dart_NewApiError("accessing url characters failed");
	}
	}
	// Do sync loading since unit_test doesn't support async.
	Dart_Handle source = DartUtils::ReadStringFromFile(url_chars);
	EXPECT_VALID(source);
	if (tag == Dart_kImportTag) {
	return Dart_LoadLibrary(url, source, 0, 0);
	} else {
	ASSERT(tag == Dart_kSourceTag);
	return Dart_LoadSource(library, url, source, 0, 0);
	}
	}


	Dart_Handle TestCase::LoadTestScript(const char* script,
	Dart_NativeEntryResolver resolver,
	const char* lib_url,
	bool finalize_classes) {
	Dart_Handle url = NewString(lib_url);
	Dart_Handle source = NewString(script);
	Dart_Handle result = Dart_SetLibraryTagHandler(LibraryTagHandler);
	EXPECT_VALID(result);
	Dart_Handle lib = Dart_LoadScript(url, source, 0, 0);
	DART_CHECK_VALID(lib);
	result = Dart_SetNativeResolver(lib, resolver, NULL);
	DART_CHECK_VALID(result);
	if (finalize_classes) {
	result = Dart_FinalizeLoading(false);
	DART_CHECK_VALID(result);
	}
	return lib;
	}


	Dart_Handle TestCase::LoadCoreTestScript(const char* script,
	Dart_NativeEntryResolver resolver) {
	return LoadTestScript(script, resolver, CORELIB_TEST_URI);
	}


	Dart_Handle TestCase::lib() {
	Dart_Handle url = NewString(TestCase::url());
	Dart_Handle lib = Dart_LookupLibrary(url);
	DART_CHECK_VALID(lib);
	ASSERT(Dart_IsLibrary(lib));
	return lib;
	}


	Dart_Handle TestCase::library_handler(Dart_LibraryTag tag,
	Dart_Handle library,
	Dart_Handle url) {
	if (tag == Dart_kCanonicalizeUrl) {
	return url;
	}
	return Api::Success();
	}


	char* TestCase::BigintToHexValue(Dart_CObject* bigint) {
	return bin::CObject::BigintToHexValue(bigint);
	}


	void AssemblerTest::Assemble() {
	const String& function_name = String::ZoneHandle(Symbols::New(name_));
	const Class& cls = Class::ZoneHandle(
	Class::New(function_name, Script::Handle(), Scanner::kNoSourcePos));
	const Library& lib = Library::ZoneHandle(Library::New(function_name));
	cls.set_library(lib);
	Function& function = Function::ZoneHandle(
	Function::New(function_name, RawFunction::kRegularFunction,
	true, false, false, false, false, cls, 0));
	code_ = Code::FinalizeCode(function, assembler_);
	if (FLAG_disassemble) {
	OS::Print("Code for test '%s' {\n", name_);
	const Instructions& instructions =
	Instructions::Handle(code_.instructions());
	uword start = instructions.EntryPoint();
	Disassembler::Disassemble(start, start + assembler_->CodeSize());
	OS::Print("}\n");
	}
	const Instructions& instructions = Instructions::Handle(code_.instructions());
	entry_ = instructions.EntryPoint();
	}


	CodeGenTest::CodeGenTest(const char* name)
	: function_(Function::ZoneHandle()),
	node_sequence_(new SequenceNode(Scanner::kNoSourcePos,
	new LocalScope(NULL, 0, 0))),
	default_parameter_values_(Array::ZoneHandle()) {
	ASSERT(name != NULL);
	const String& function_name = String::ZoneHandle(Symbols::New(name));
	// Add function to a class and that class to the class dictionary so that
	// frame walking can be used.
	const Class& cls = Class::ZoneHandle(
	Class::New(function_name, Script::Handle(), Scanner::kNoSourcePos));
	function_ = Function::New(
	function_name, RawFunction::kRegularFunction,
	true, false, false, false, false, cls, 0);
	function_.set_result_type(Type::Handle(Type::DynamicType()));
	const Array& functions = Array::Handle(Array::New(1));
	functions.SetAt(0, function_);
	cls.SetFunctions(functions);
	Library& lib = Library::Handle(Library::CoreLibrary());
	lib.AddClass(cls);
	}


	void CodeGenTest::Compile() {
	if (function_.HasCode()) return;
	ParsedFunction* parsed_function =
	new ParsedFunction(Thread::Current(), function_);
	parsed_function->SetNodeSequence(node_sequence_);
	parsed_function->set_instantiator(NULL);
	parsed_function->set_default_parameter_values(default_parameter_values_);
	node_sequence_->scope()->AddVariable(
	parsed_function->current_context_var());
	parsed_function->EnsureExpressionTemp();
	node_sequence_->scope()->AddVariable(parsed_function->expression_temp_var());
	parsed_function->AllocateVariables();
	const Error& error =
	Error::Handle(Compiler::CompileParsedFunction(parsed_function));
	EXPECT(error.IsNull());
	}


	bool CompilerTest::TestCompileScript(const Library& library,
	const Script& script) {
	Isolate* isolate = Isolate::Current();
	ASSERT(isolate != NULL);
	const Error& error = Error::Handle(Compiler::Compile(library, script));
	if (!error.IsNull()) {
	OS::Print("Error compiling test script:\n%s\n",
	error.ToErrorCString());
	}
	return error.IsNull();
	}


	bool CompilerTest::TestCompileFunction(const Function& function) {
	Isolate* isolate = Isolate::Current();
	ASSERT(isolate != NULL);
	ASSERT(ClassFinalizer::AllClassesFinalized());
	const Error& error = Error::Handle(Compiler::CompileFunction(isolate,
	function));
	return error.IsNull();
	}


	} // namespace dart