feedc0de/qt-creator
1
0
Fork 0
forked from qt-creator/qt-creator
Code Pull Requests Activity
Files
9ee693ee229d28bd618e8dd44bc6b12750d43a29
qt-creator/tests/auto/cplusplus/semantic/tst_semantic.cpp
Volodymyr Zibarov 9ee693ee22 C++: fix built-in code model to work with shared_ptr on MSVC 2017 
These changes target Find Usages feature to work with shared_ptr.
Improve libs/3rdparty/cplusplus and plugins/cplusplus:
parse __declspec() attribute,
call to variadic function template without specified template arguments,
if constexpr,
c++11 attributes [[value]],
function templates with default parameters,
resolve order for function vs template with default parameter,
template operator->() with default arguments,
template specialization with numeric values,
find best partial specialization,
fix partial specialization for non-first specialized argument

Fixes: QTCREATORBUG-7866
Fixes: QTCREATORBUG-20781
Fixes: QTCREATORBUG-22857
Fixes: QTCREATORBUG-17825
Change-Id: I31a080f7729edfb2ee9650f1aff48daeba5a673b
Reviewed-by: Christian Kandeler <christian.kandeler@qt.io>
Reviewed-by: Nikolai Kosjar <pinaceae.pinus@gmail.com>
2020-05-29 12:39:28 +00:00

1046 lines
34 KiB
C++
Raw Blame History

/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of Qt Creator.
**
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3 as published by the Free Software
** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-3.0.html.
**
****************************************************************************/
#include <QtTest>
#include <QDebug>
#include <QTextDocument>
#include <QTextCursor>
#include <cplusplus/AST.h>
#include <cplusplus/ASTVisitor.h>
#include <cplusplus/Bind.h>
#include <cplusplus/Control.h>
#include <cplusplus/CoreTypes.h>
#include <cplusplus/DeprecatedGenTemplateInstance.h>
#include <cplusplus/DiagnosticClient.h>
#include <cplusplus/ExpressionUnderCursor.h>
#include <cplusplus/Literals.h>
#include <cplusplus/Names.h>
#include <cplusplus/Names.h>
#include <cplusplus/Overview.h>
#include <cplusplus/Parser.h>
#include <cplusplus/Scope.h>
#include <cplusplus/Symbols.h>
//TESTED_COMPONENT=src/libs/cplusplus
#define NO_PARSER_OR_SEMANTIC_ERROR_MESSAGES
using namespace CPlusPlus;
// to use in tests directly w/o convertion to int
Q_DECLARE_METATYPE(Function::RefQualifier)
class tst_Semantic: public QObject
{
Q_OBJECT
QSharedPointer<Control> control;
public:
tst_Semantic()
: control(new Control)
{ control->setDiagnosticClient(&diag); }
TranslationUnit *parse(const QByteArray &source,
TranslationUnit::ParseMode mode,
LanguageFeatures features)
{
const StringLiteral *fileId = control->stringLiteral("<stdin>");
TranslationUnit *unit = new TranslationUnit(control.data(), fileId);
unit->setSource(source.constData(), source.length());
unit->setLanguageFeatures(features);
unit->parse(mode);
return unit;
}
class Document {
Q_DISABLE_COPY(Document)
public:
Document(TranslationUnit *unit)
: unit(unit)
, globals(unit->control()->newNamespace(0, 0))
, errorCount(0)
{ }
~Document()
{ }
void check()
{
QVERIFY(unit);
QVERIFY(unit->ast());
Bind bind(unit);
TranslationUnitAST *ast = unit->ast()->asTranslationUnit();
QVERIFY(ast);
bind(ast, globals);
}
TranslationUnit *unit;
Namespace *globals;
unsigned errorCount;
};
class Diagnostic: public DiagnosticClient {
public:
int errorCount;
Diagnostic()
: errorCount(0)
{ }
virtual void report(int /*level*/,
const StringLiteral *fileName,
int line, int column,
const char *format, va_list ap)
{
++errorCount;
#ifndef NO_PARSER_OR_SEMANTIC_ERROR_MESSAGES
qDebug() << fileName->chars()<<':'<<line<<':'<<column<<' ' << QString::vasprintf(format, ap);
#else
Q_UNUSED(fileName)
Q_UNUSED(line)
Q_UNUSED(column)
Q_UNUSED(format)
Q_UNUSED(ap)
#endif
}
};
Diagnostic diag;
QSharedPointer<Document> document(const QByteArray &source, bool enableObjc = false, bool qtMocRun = false, bool enableCxx11 = false)
{
LanguageFeatures features;
features.objCEnabled = enableObjc;
features.qtEnabled = qtMocRun;
features.qtMocRunEnabled = qtMocRun;
features.qtKeywordsEnabled = qtMocRun;
features.cxx11Enabled = enableCxx11;
features.cxxEnabled = true;
diag.errorCount = 0; // reset the error count.
TranslationUnit *unit = parse(source, TranslationUnit::ParseTranlationUnit, features);
QSharedPointer<Document> doc(new Document(unit));
doc->check();
doc->errorCount = diag.errorCount;
return doc;
}
private slots:
void function_declaration_1();
void function_declaration_2();
void function_declaration_ref_qualifier_data();
void function_declaration_ref_qualifier();
void function_definition_1();
void nested_class_1();
void alias_declaration_1();
void typedef_1();
void typedef_2();
void typedef_3();
void const_1();
void const_2();
void pointer_to_function_1();
void template_instance_1();
void expression_under_cursor_1();
void bracketed_expression_under_cursor_1();
void bracketed_expression_under_cursor_2();
void bracketed_expression_under_cursor_3();
void bracketed_expression_under_cursor_4();
void objcClass_1();
void objcSelector_1();
void objcSelector_2();
void q_enum_1();
void lambda_1();
void lambda_2();
void diagnostic_error();
void enum_constantValue1();
void enum_constantValue2();
void enum_constantValue3();
void enum_constantValue4();
void enum_constantValue5();
void enum_constantValueNegative();
};
void tst_Semantic::function_declaration_1()
{
QSharedPointer<Document> doc = document("void foo();");
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Declaration *decl = doc->globals->memberAt(0)->asDeclaration();
QVERIFY(decl);
FullySpecifiedType declTy = decl->type();
Function *funTy = declTy->asFunctionType();
QVERIFY(funTy);
QVERIFY(funTy->returnType()->isVoidType());
QCOMPARE(funTy->argumentCount(), 0);
QCOMPARE(funTy->refQualifier(), Function::NoRefQualifier);
QVERIFY(decl->name()->isNameId());
const Identifier *funId = decl->name()->asNameId()->identifier();
QVERIFY(funId);
const QByteArray foo(funId->chars(), funId->size());
QCOMPARE(foo, QByteArray("foo"));
}
void tst_Semantic::function_declaration_2()
{
QSharedPointer<Document> doc = document("void foo(const QString &s);");
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Declaration *decl = doc->globals->memberAt(0)->asDeclaration();
QVERIFY(decl);
FullySpecifiedType declTy = decl->type();
Function *funTy = declTy->asFunctionType();
QVERIFY(funTy);
QVERIFY(funTy->returnType()->isVoidType());
QCOMPARE(funTy->argumentCount(), 1);
QCOMPARE(funTy->refQualifier(), Function::NoRefQualifier);
// check the formal argument.
Argument *arg = funTy->argumentAt(0)->asArgument();
QVERIFY(arg);
QVERIFY(arg->name());
QVERIFY(! arg->hasInitializer());
// check the argument's name.
const Identifier *argNameId = arg->name()->asNameId();
QVERIFY(argNameId);
const Identifier *argId = argNameId->identifier();
QVERIFY(argId);
QCOMPARE(QByteArray(argId->chars(), argId->size()), QByteArray("s"));
// check the type of the formal argument
FullySpecifiedType argTy = arg->type();
QVERIFY(argTy->isReferenceType());
QVERIFY(argTy->asReferenceType()->elementType().isConst());
NamedType *namedTy = argTy->asReferenceType()->elementType()->asNamedType();
QVERIFY(namedTy);
QVERIFY(namedTy->name());
const Identifier *namedTypeId = namedTy->name()->asNameId()->identifier();
QVERIFY(namedTypeId);
QCOMPARE(QByteArray(namedTypeId->chars(), namedTypeId->size()),
QByteArray("QString"));
QVERIFY(decl->name()->isNameId());
const Identifier *funId = decl->name()->asNameId()->identifier();
QVERIFY(funId);
const QByteArray foo(funId->chars(), funId->size());
QCOMPARE(foo, QByteArray("foo"));
}
void tst_Semantic::function_declaration_ref_qualifier_data()
{
QTest::addColumn<QString>("code");
QTest::addColumn<bool>("success");
QTest::addColumn<Function::RefQualifier>("refQualifier");
QTest::newRow("no")
<< "void f();" << true << Function::NoRefQualifier;
QTest::newRow("no_const")
<< "void f() const;" << true << Function::NoRefQualifier;
QTest::newRow("no_const_noexcept")
<< "void f() const noexcept;" << true << Function::NoRefQualifier;
QTest::newRow("lvalue")
<< "void f() &;" << true << Function::LvalueRefQualifier;
QTest::newRow("lvalue_const")
<< "void f() const &;" << true << Function::LvalueRefQualifier;
QTest::newRow("lvalue_const_noexcept")
<< "void f() const & noexcept;" << true << Function::LvalueRefQualifier;
QTest::newRow("rvalue")
<< "void f() &&;" << true << Function::RvalueRefQualifier;
QTest::newRow("rvalue_const")
<< "void f() const &&;" << true << Function::RvalueRefQualifier;
QTest::newRow("rvalue_const_noexcept")
<< "void f() const && noexcept;" << true << Function::RvalueRefQualifier;
QTest::newRow("lvalue_more_spaces")
<< "void f() const &;" << true << Function::LvalueRefQualifier;
QTest::newRow("rvalue_more_spaces")
<< "void f() && noexcept;" << true << Function::RvalueRefQualifier;
QTest::newRow("lvalue_more_newline")
<< "void f() const\n&;" << true << Function::LvalueRefQualifier;
QTest::newRow("rvalue_more_newline")
<< "void f() const\n&&;" << true << Function::RvalueRefQualifier;
QTest::newRow("lvalue_no_space")
<< "void f() const& noexcept;" << true << Function::LvalueRefQualifier;
QTest::newRow("rvalue_no_space")
<< "void f() const&& noexcept;" << true << Function::RvalueRefQualifier;
QTest::newRow("lvalue_before_const")
<< "void f() & const;" << false << Function::NoRefQualifier;
QTest::newRow("rvalue_before_const")
<< "void f() && const;" << false << Function::NoRefQualifier;
QTest::newRow("lvalue_after_noexcept")
<< "void f() const noexcept &;" << false << Function::NoRefQualifier;
QTest::newRow("rvalue_after_noexcept")
<< "void f() const noexcept &&;" << false << Function::NoRefQualifier;
QTest::newRow("lvalue_double")
<< "void f() const & & noexcept;" << false << Function::NoRefQualifier;
QTest::newRow("rvalue_double")
<< "void f() const && && noexcept;" << false << Function::NoRefQualifier;
}
void tst_Semantic::function_declaration_ref_qualifier()
{
QFETCH(QString, code);
QFETCH(bool, success);
QFETCH(Function::RefQualifier, refQualifier);
QSharedPointer<Document> doc = document(code.toUtf8(), false, false, true);
if (!success) {
QVERIFY(doc->errorCount > 0);
return;
}
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Declaration *decl = doc->globals->memberAt(0)->asDeclaration();
QVERIFY(decl);
FullySpecifiedType declTy = decl->type();
Function *funTy = declTy->asFunctionType();
QVERIFY(funTy);
QVERIFY(funTy->returnType()->isVoidType());
QCOMPARE(funTy->argumentCount(), 0);
// check the ref-qualifier
QCOMPARE(funTy->refQualifier(), refQualifier);
}
void tst_Semantic::function_definition_1()
{
QSharedPointer<Document> doc = document("void foo() {}");
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Function *funTy = doc->globals->memberAt(0)->asFunction();
QVERIFY(funTy);
QVERIFY(funTy->returnType()->isVoidType());
QCOMPARE(funTy->argumentCount(), 0);
QCOMPARE(funTy->refQualifier(), Function::NoRefQualifier);
QVERIFY(funTy->name()->isNameId());
const Identifier *funId = funTy->name()->asNameId()->identifier();
QVERIFY(funId);
const QByteArray foo(funId->chars(), funId->size());
QCOMPARE(foo, QByteArray("foo"));
}
void tst_Semantic::nested_class_1()
{
QSharedPointer<Document> doc = document(
"class Object {\n"
" class Data;\n"
" Data *d;\n"
"};\n"
"class Object::Data {\n"
" Object *q;\n"
"};\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 2);
Class *classObject = doc->globals->memberAt(0)->asClass();
QVERIFY(classObject);
QVERIFY(classObject->name());
const Identifier *classObjectNameId = classObject->name()->asNameId();
QVERIFY(classObjectNameId);
const Identifier *objectId = classObjectNameId->identifier();
QCOMPARE(QByteArray(objectId->chars(), objectId->size()), QByteArray("Object"));
QCOMPARE(classObject->baseClassCount(), 0);
QCOMPARE(classObject->memberCount(), 2);
Class *classObjectData = doc->globals->memberAt(1)->asClass();
QVERIFY(classObjectData);
QVERIFY(classObjectData->name());
const QualifiedNameId *q = classObjectData->name()->asQualifiedNameId();
QVERIFY(q);
QVERIFY(q->base());
QVERIFY(q->base()->asNameId());
QCOMPARE(q->base(), classObject->name());
QVERIFY(q->name());
QVERIFY(q->name()->asNameId());
QCOMPARE(doc->globals->find(q->base()->asNameId()->identifier()), classObject);
Declaration *decl = classObjectData->memberAt(0)->asDeclaration();
QVERIFY(decl);
PointerType *ptrTy = decl->type()->asPointerType();
QVERIFY(ptrTy);
NamedType *namedTy = ptrTy->elementType()->asNamedType();
QVERIFY(namedTy);
QVERIFY(namedTy->name()->asNameId());
QCOMPARE(namedTy->name()->asNameId()->identifier(), objectId);
}
void tst_Semantic::alias_declaration_1()
{
QSharedPointer<Document> doc = document(
"using wobble = int;\n"
, false, false, true);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Declaration *decl = doc->globals->memberAt(0)->asDeclaration();
QVERIFY(decl->name());
QVERIFY(decl->name()->identifier());
QCOMPARE(decl->name()->identifier()->chars(), "wobble");
QVERIFY(decl->isTypedef());
QVERIFY(decl->type().isTypedef());
QVERIFY(decl->type()->isIntegerType());
}
void tst_Semantic::typedef_1()
{
QSharedPointer<Document> doc = document(
"typedef struct {\n"
" int x, y;\n"
"} Point;\n"
"int main() {\n"
" Point pt;\n"
" pt.x = 1;\n"
"}\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 3);
Class *anonStruct = doc->globals->memberAt(0)->asClass();
QVERIFY(anonStruct);
QCOMPARE(anonStruct->memberCount(), 2);
Declaration *typedefPointDecl = doc->globals->memberAt(1)->asDeclaration();
QVERIFY(typedefPointDecl);
QVERIFY(typedefPointDecl->isTypedef());
QCOMPARE(typedefPointDecl->type()->asClassType(), anonStruct);
Function *mainFun = doc->globals->memberAt(2)->asFunction();
QVERIFY(mainFun);
}
void tst_Semantic::typedef_2()
{
QSharedPointer<Document> doc = document(
"struct _Point {\n"
" int x, y;\n"
"};\n"
"typedef _Point Point;\n"
"int main() {\n"
" Point pt;\n"
" pt.x = 1;\n"
"}\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 3);
Class *_pointStruct= doc->globals->memberAt(0)->asClass();
QVERIFY(_pointStruct);
QCOMPARE(_pointStruct->memberCount(), 2);
Declaration *typedefPointDecl = doc->globals->memberAt(1)->asDeclaration();
QVERIFY(typedefPointDecl);
QVERIFY(typedefPointDecl->isTypedef());
QVERIFY(typedefPointDecl->type()->isNamedType());
QCOMPARE(typedefPointDecl->type()->asNamedType()->name(), _pointStruct->name());
Function *mainFun = doc->globals->memberAt(2)->asFunction();
QVERIFY(mainFun);
}
void tst_Semantic::typedef_3()
{
QSharedPointer<Document> doc = document(
"typedef struct {\n"
" int x, y;\n"
"} *PointPtr;\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 2);
Class *_pointStruct= doc->globals->memberAt(0)->asClass();
QVERIFY(_pointStruct);
QCOMPARE(_pointStruct->memberCount(), 2);
Declaration *typedefPointDecl = doc->globals->memberAt(1)->asDeclaration();
QVERIFY(typedefPointDecl);
QVERIFY(typedefPointDecl->isTypedef());
QVERIFY(typedefPointDecl->type()->isPointerType());
QCOMPARE(typedefPointDecl->type()->asPointerType()->elementType()->asClassType(),
_pointStruct);
}
void tst_Semantic::const_1()
{
QSharedPointer<Document> doc = document("\n"
"int foo(const int *s);\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Declaration *decl = doc->globals->memberAt(0)->asDeclaration();
QVERIFY(decl);
QVERIFY(decl->type()->isFunctionType());
Function *funTy = decl->type()->asFunctionType();
QVERIFY(funTy->returnType()->isIntegerType());
QCOMPARE(funTy->argumentCount(), 1);
Argument *arg = funTy->argumentAt(0)->asArgument();
QVERIFY(arg);
QVERIFY(! arg->type().isConst());
QVERIFY(arg->type()->isPointerType());
QVERIFY(arg->type()->asPointerType()->elementType().isConst());
QVERIFY(arg->type()->asPointerType()->elementType()->isIntegerType());
}
void tst_Semantic::const_2()
{
QSharedPointer<Document> doc = document("\n"
"int foo(char * const s);\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Declaration *decl = doc->globals->memberAt(0)->asDeclaration();
QVERIFY(decl);
QVERIFY(decl->type()->isFunctionType());
Function *funTy = decl->type()->asFunctionType();
QVERIFY(funTy->returnType()->isIntegerType());
QCOMPARE(funTy->argumentCount(), 1);
Argument *arg = funTy->argumentAt(0)->asArgument();
QVERIFY(arg);
QVERIFY(arg->type().isConst());
QVERIFY(arg->type()->isPointerType());
QVERIFY(! arg->type()->asPointerType()->elementType().isConst());
QVERIFY(arg->type()->asPointerType()->elementType()->isIntegerType());
}
void tst_Semantic::pointer_to_function_1()
{
QSharedPointer<Document> doc = document("void (*QtSomething)();");
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Declaration *decl = doc->globals->memberAt(0)->asDeclaration();
QVERIFY(decl);
PointerType *ptrTy = decl->type()->asPointerType();
QVERIFY(ptrTy);
Function *funTy = ptrTy->elementType()->asFunctionType();
QVERIFY(funTy);
QEXPECT_FAIL("", "Requires initialize enclosing scope of pointer-to-function symbols", Continue);
QVERIFY(funTy->enclosingScope());
QEXPECT_FAIL("", "Requires initialize enclosing scope of pointer-to-function symbols", Continue);
QCOMPARE(funTy->enclosingScope(), decl->enclosingScope());
}
void tst_Semantic::template_instance_1()
{
QSharedPointer<Document> doc = document("template <typename _Tp> class QList { void append(const _Tp &value); };");
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Template *templ = doc->globals->memberAt(0)->asTemplate();
QVERIFY(templ);
Declaration *decl = templ->memberAt(1)->asClass()->memberAt(0)->asDeclaration();
QVERIFY(decl);
TemplateArgument templArgs[] = {FullySpecifiedType(control->integerType(IntegerType::Int))};
const Name *templId = control->templateNameId(control->identifier("QList"), false, templArgs, 1);
FullySpecifiedType genTy = DeprecatedGenTemplateInstance::instantiate(templId, decl, control);
Overview oo;
oo.showReturnTypes = true;
const QString genDecl = oo.prettyType(genTy);
QCOMPARE(genDecl, QString::fromLatin1("void (const int &)"));
}
void tst_Semantic::expression_under_cursor_1()
{
const QString plainText = "void *ptr = foo(10, bar";
QTextDocument textDocument;
textDocument.setPlainText(plainText);
QTextCursor tc(&textDocument);
tc.movePosition(QTextCursor::End);
ExpressionUnderCursor expressionUnderCursor(LanguageFeatures::defaultFeatures());
const QString expression = expressionUnderCursor(tc);
QCOMPARE(expression, QString("bar"));
}
void tst_Semantic::bracketed_expression_under_cursor_1()
{
const QString plainText = "int i = 0, j[1], k = j[i";
QTextDocument textDocument;
textDocument.setPlainText(plainText);
QTextCursor tc(&textDocument);
tc.movePosition(QTextCursor::End);
ExpressionUnderCursor expressionUnderCursor(LanguageFeatures::defaultFeatures());
const QString expression = expressionUnderCursor(tc);
QCOMPARE(expression, QString("i"));
}
void tst_Semantic::bracketed_expression_under_cursor_2()
{
const QString plainText = "[receiver msg";
QTextDocument textDocument;
textDocument.setPlainText(plainText);
QTextCursor tc(&textDocument);
tc.movePosition(QTextCursor::End);
ExpressionUnderCursor expressionUnderCursor(LanguageFeatures::defaultFeatures());
const QString expression = expressionUnderCursor(tc);
QCOMPARE(expression, plainText);
}
void tst_Semantic::bracketed_expression_under_cursor_3()
{
const QString plainText = "if ([receiver message";
QTextDocument textDocument;
textDocument.setPlainText(plainText);
QTextCursor tc(&textDocument);
tc.movePosition(QTextCursor::End);
ExpressionUnderCursor expressionUnderCursor(LanguageFeatures::defaultFeatures());
const QString expression = expressionUnderCursor(tc);
QCOMPARE(expression, QString("[receiver message"));
}
void tst_Semantic::bracketed_expression_under_cursor_4()
{
const QString plainText = "int i = 0, j[1], k = j[(i == 0) ? 0 : i";
QTextDocument textDocument;
textDocument.setPlainText(plainText);
QTextCursor tc(&textDocument);
tc.movePosition(QTextCursor::End);
ExpressionUnderCursor expressionUnderCursor(LanguageFeatures::defaultFeatures());
const QString expression = expressionUnderCursor(tc);
QCOMPARE(expression, QString("i"));
}
void tst_Semantic::objcClass_1()
{
QSharedPointer<Document> doc = document("\n"
"@interface Zoo {} +(id)alloc;-(id)init;@end\n"
"@implementation Zoo\n"
"+(id)alloc{}\n"
"-(id)init{}\n"
"-(void)dealloc{}\n"
"@end\n",
true);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 2);
ObjCClass *iface = doc->globals->memberAt(0)->asObjCClass();
QVERIFY(iface);
QVERIFY(iface->isInterface());
QCOMPARE(iface->memberCount(), 2);
ObjCClass *impl = doc->globals->memberAt(1)->asObjCClass();
QVERIFY(impl);
QVERIFY(!impl->isInterface());
QCOMPARE(impl->memberCount(), 3);
ObjCMethod *allocMethod = impl->memberAt(0)->asObjCMethod();
QVERIFY(allocMethod);
QVERIFY(allocMethod->name() && allocMethod->name()->identifier());
QCOMPARE(QLatin1String(allocMethod->name()->identifier()->chars()), QLatin1String("alloc"));
QVERIFY(allocMethod->isStatic());
ObjCMethod *deallocMethod = impl->memberAt(2)->asObjCMethod();
QVERIFY(deallocMethod);
QVERIFY(deallocMethod->name() && deallocMethod->name()->identifier());
QCOMPARE(QLatin1String(deallocMethod->name()->identifier()->chars()), QLatin1String("dealloc"));
QVERIFY(!deallocMethod->isStatic());
}
void tst_Semantic::objcSelector_1()
{
QSharedPointer<Document> doc = document("\n"
"@interface A {}\n"
"-(void) a:(int)a b:(int)b c:(int)c;\n"
"@end\n",
true);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
ObjCClass *iface = doc->globals->memberAt(0)->asObjCClass();
QVERIFY(iface);
QVERIFY(iface->isInterface());
QCOMPARE(iface->memberCount(), 1);
Declaration *decl = iface->memberAt(0)->asDeclaration();
QVERIFY(decl);
QVERIFY(decl->name());
const SelectorNameId *selId = decl->name()->asSelectorNameId();
QVERIFY(selId);
QCOMPARE(selId->nameCount(), 3);
QCOMPARE(selId->nameAt(0)->identifier()->chars(), "a");
QCOMPARE(selId->nameAt(1)->identifier()->chars(), "b");
QCOMPARE(selId->nameAt(2)->identifier()->chars(), "c");
}
class CollectSelectors: public ASTVisitor
{
public:
CollectSelectors(TranslationUnit *xUnit): ASTVisitor(xUnit) {}
QList<ObjCSelectorAST *> operator()() {
selectors.clear();
accept(translationUnit()->ast());
return selectors;
}
virtual bool visit(ObjCSelectorAST *ast) {selectors.append(ast); return false;}
private:
QList<ObjCSelectorAST *> selectors;
};
void tst_Semantic::objcSelector_2()
{
QSharedPointer<Document> doc = document("\n"
"@implementation A {}\n"
"-(SEL)x {\n"
" return @selector(a:b:c:);\n"
"}\n"
"@end\n",
true);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
ObjCClass *iface = doc->globals->memberAt(0)->asObjCClass();
QVERIFY(iface);
QCOMPARE(iface->memberCount(), 1);
QList<ObjCSelectorAST*>selectors = CollectSelectors(doc->unit)();
QCOMPARE(selectors.size(), 2);
ObjCSelectorAST *sel = selectors.at(1)->asObjCSelector();
QVERIFY(sel);
const SelectorNameId *selId = sel->name->asSelectorNameId();
QVERIFY(selId);
QCOMPARE(selId->nameCount(), 3);
QCOMPARE(selId->nameAt(0)->identifier()->chars(), "a");
QCOMPARE(selId->nameAt(1)->identifier()->chars(), "b");
QCOMPARE(selId->nameAt(2)->identifier()->chars(), "c");
}
void tst_Semantic::q_enum_1()
{
QSharedPointer<Document> doc = document("\n"
"class Tst {\n"
"Q_ENUMS(e)\n"
"public:\n"
"enum e { x, y };\n"
"};\n",
false, true);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
QVERIFY(doc->unit);
TranslationUnitAST *xUnit = doc->unit->ast()->asTranslationUnit();
QVERIFY(xUnit);
SimpleDeclarationAST *tstDecl = xUnit->declaration_list->value->asSimpleDeclaration();
QVERIFY(tstDecl);
ClassSpecifierAST *tst = tstDecl->decl_specifier_list->value->asClassSpecifier();
QVERIFY(tst);
QtEnumDeclarationAST *qtEnum = tst->member_specifier_list->value->asQtEnumDeclaration();
QVERIFY(qtEnum);
SimpleNameAST *e = qtEnum->enumerator_list->value->asSimpleName();
QVERIFY(e);
QCOMPARE(doc->unit->spell(e->identifier_token), "e");
QCOMPARE(e->name->identifier()->chars(), "e");
}
void tst_Semantic::lambda_1()
{
QSharedPointer<Document> doc = document("\n"
"void f() {\n"
" auto func = [](int a, int b) {return a + b;};\n"
"}\n", false, false, true);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
}
void tst_Semantic::lambda_2()
{
QSharedPointer<Document> doc = document(
"\n"
"class A {\n"
" void f(int i = [](){});\n"
"};\n"
, false, false, true);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Class *A = doc->globals->memberAt(0)->asClass();
QVERIFY(A);
QCOMPARE(A->memberCount(), 1);
Declaration *d = A->memberAt(0)->asDeclaration();
QCOMPARE(d->name()->identifier()->chars(), "f");
Function *ty = d->type()->asFunctionType();
QVERIFY(ty);
QCOMPARE(ty->argumentCount(), 1);
Argument *arg = ty->argumentAt(0)->asArgument();
QVERIFY(arg);
const StringLiteral *init = arg->initializer();
QVERIFY(init);
QCOMPARE(init->chars(), "[](){}");
}
void tst_Semantic::diagnostic_error()
{
QSharedPointer<Document> doc = document("\n"
"class Foo {}\n",
false, false);
QCOMPARE(doc->errorCount, 1U);
QCOMPARE(doc->globals->memberCount(), 1);
}
namespace {
void testEnumaratorDeclarator(Enum *e, int enumDeclIndex, const char *expectedConstantValue)
{
Declaration *enumMemberDeclaration = e->memberAt(enumDeclIndex)->asDeclaration();
QVERIFY(enumMemberDeclaration);
EnumeratorDeclaration *enumeratorDeclaration = enumMemberDeclaration->asEnumeratorDeclarator();
QVERIFY(enumeratorDeclaration);
if (const StringLiteral *constantValue = enumeratorDeclaration->constantValue())
QCOMPARE(constantValue->chars(), expectedConstantValue);
else
QVERIFY(!expectedConstantValue);
}
} // anonymous
void tst_Semantic::enum_constantValue1()
{
QSharedPointer<Document> doc = document("\n"
"enum {\n"
"E1,\n"
"E2,\n"
"E3\n"
"};\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Enum *e = doc->globals->memberAt(0)->asEnum();
QVERIFY(e);
QCOMPARE(e->memberCount(), 3);
testEnumaratorDeclarator(e, 0, "0");
testEnumaratorDeclarator(e, 1, "1");
testEnumaratorDeclarator(e, 2, "2");
}
void tst_Semantic::enum_constantValue2()
{
QSharedPointer<Document> doc = document("\n"
"enum {\n"
"E1=10,\n"
"E2,\n"
"E3\n"
"};\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Enum *e = doc->globals->memberAt(0)->asEnum();
QVERIFY(e);
QCOMPARE(e->memberCount(), 3);
testEnumaratorDeclarator(e, 0, "10");
testEnumaratorDeclarator(e, 1, "11");
testEnumaratorDeclarator(e, 2, "12");
}
void tst_Semantic::enum_constantValue3()
{
QSharedPointer<Document> doc = document("\n"
"enum {\n"
"E1,\n"
"E2=10,\n"
"E3\n"
"};\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Enum *e = doc->globals->memberAt(0)->asEnum();
QVERIFY(e);
QCOMPARE(e->memberCount(), 3);
testEnumaratorDeclarator(e, 0, "0");
testEnumaratorDeclarator(e, 1, "10");
testEnumaratorDeclarator(e, 2, "11");
}
void tst_Semantic::enum_constantValue4()
{
QSharedPointer<Document> doc = document("\n"
"enum {\n"
"E1,\n"
"E2=E1+10,\n"
"E3,\n"
"E4=10,\n"
"E5\n"
"};\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Enum *e = doc->globals->memberAt(0)->asEnum();
QVERIFY(e);
QCOMPARE(e->memberCount(), 5);
testEnumaratorDeclarator(e, 0, "0");
testEnumaratorDeclarator(e, 1, "E1+10");
testEnumaratorDeclarator(e, 2, NULL);
testEnumaratorDeclarator(e, 3, "10");
testEnumaratorDeclarator(e, 4, "11");
}
void tst_Semantic::enum_constantValue5()
{
QSharedPointer<Document> doc = document("\n"
"enum {\n"
"E1,\n"
"E2=E1,\n"
"E3,\n"
"E4=E3,\n"
"E5\n"
"};\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Enum *e = doc->globals->memberAt(0)->asEnum();
QVERIFY(e);
QCOMPARE(e->memberCount(), 5);
testEnumaratorDeclarator(e, 0, "0");
testEnumaratorDeclarator(e, 1, "0");
testEnumaratorDeclarator(e, 2, "1");
testEnumaratorDeclarator(e, 3, "1");
testEnumaratorDeclarator(e, 4, "2");
}
void tst_Semantic::enum_constantValueNegative()
{
QSharedPointer<Document> doc = document(
"enum {\n"
" E1=-2,\n"
" E2,\n"
" E3,\n"
" E4\n"
"};\n"
);
QCOMPARE(doc->errorCount, 0U);
QCOMPARE(doc->globals->memberCount(), 1);
Enum *e = doc->globals->memberAt(0)->asEnum();
QVERIFY(e);
QCOMPARE(e->memberCount(), 4);
testEnumaratorDeclarator(e, 0, "-2");
testEnumaratorDeclarator(e, 1, "-1");
testEnumaratorDeclarator(e, 2, "0");
testEnumaratorDeclarator(e, 3, "1");
}
QTEST_MAIN(tst_Semantic)
#include "tst_semantic.moc"
View Git Blame Copy Permalink