std::pair<Value*, BB*> BBTransform::forInline(BB* inlinee, BB* splice) {
Value* found = nullptr;
Return* ret;
Visitor::run(inlinee, [&](BB* bb) {
if (bb->next0 != nullptr)
return;
assert(bb->next1 == nullptr);
if (Deopt::Cast(bb->last()))
return;
ret = Return::Cast(bb->last());
assert(ret);
// This transformation assumes that we have just one reachable return.
// Assert that we do not find a second one.
assert(!found);
found = ret->arg<0>().val();
bb->next0 = splice;
bb->remove(bb->end() - 1);
});
assert(found);
return {found, ret->bb()};
}
void CloseIisuServer::setup()
{
// We need to specify where is located the iisu dll and it's configuration file.
// in this sample we'll use the SDK's environment variable.
string dllLocation = getenv("IISU_SDK_DIR") ;
dllLocation+="/bin" ;
// get the working context
Context& context = Context::Instance();
// create an iisu configuration
IisuHandle::Configuration iisuConfiguration(dllLocation.c_str(),"iisu_config.xml");
// you can customize the configuration here
// create the handle according to the configuration structure
Return<IisuHandle*> retHandle = context.createHandle(iisuConfiguration);
if(retHandle.failed())
{
cerr << "Failed to get iisu handle!" << endl
<< "Error " << retHandle.getErrorCode() << ": " << retHandle.getDescription().ptr() << endl;
getchar();
exit(0);
}
// get the iisu handle
m_iisuHandle = retHandle.get();
// create device configuration
Device::Configuration deviceConfiguration ;
// you can customize the configuration here
// create the device according to the configuration structure
Return<Device*> retDevice = m_iisuHandle->initializeDevice(deviceConfiguration);
if(retDevice.failed())
{
cerr << "Failed to create device!" << endl
<< "Error " << retDevice.getErrorCode() << ": " << retDevice.getDescription().ptr() << endl;
getchar();
exit(0);
}
// get the device
m_device = retDevice.get();
registerEvents() ;
initIisu() ;
SK::Result devStart = m_device->start();
if(devStart.failed())
{
cerr << "Failed to start device!" << endl
<< "Error " << devStart.getErrorCode() << ": " << devStart.getDescription().ptr() << endl;
getchar();
exit(0);
}
}
// supported operations negative test 2
TEST_F(NeuralnetworksHidlTest, SupportedOperationsNegativeTest2) {
Model model = createInvalidTestModel2_1_0();
Return<void> ret = device->getSupportedOperations(
model, [&](ErrorStatus status, const hidl_vec<bool>& supported) {
EXPECT_EQ(ErrorStatus::INVALID_ARGUMENT, status);
(void)supported;
});
EXPECT_TRUE(ret.isOk());
}
// supported operations positive test
TEST_F(NeuralnetworksHidlTest, SupportedOperationsPositiveTest) {
Model model = createValidTestModel_1_0();
Return<void> ret = device->getSupportedOperations(
model, [&](ErrorStatus status, const hidl_vec<bool>& supported) {
EXPECT_EQ(ErrorStatus::NONE, status);
EXPECT_EQ(model.operations.size(), supported.size());
});
EXPECT_TRUE(ret.isOk());
}
// initialization
TEST_F(NeuralnetworksHidlTest, GetCapabilitiesTest) {
Return<void> ret =
device->getCapabilities([](ErrorStatus status, const Capabilities& capabilities) {
EXPECT_EQ(ErrorStatus::NONE, status);
EXPECT_LT(0.0f, capabilities.float32Performance.execTime);
EXPECT_LT(0.0f, capabilities.float32Performance.powerUsage);
EXPECT_LT(0.0f, capabilities.quantized8Performance.execTime);
EXPECT_LT(0.0f, capabilities.quantized8Performance.powerUsage);
});
EXPECT_TRUE(ret.isOk());
}
status_t StreamInHalHidl::prepareForReading(size_t bufferSize) {
std::unique_ptr<CommandMQ> tempCommandMQ;
std::unique_ptr<DataMQ> tempDataMQ;
std::unique_ptr<StatusMQ> tempStatusMQ;
Result retval;
pid_t halThreadPid, halThreadTid;
Return<void> ret = mStream->prepareForReading(
1, bufferSize,
[&](Result r,
const CommandMQ::Descriptor& commandMQ,
const DataMQ::Descriptor& dataMQ,
const StatusMQ::Descriptor& statusMQ,
const ThreadInfo& halThreadInfo) {
retval = r;
if (retval == Result::OK) {
tempCommandMQ.reset(new CommandMQ(commandMQ));
tempDataMQ.reset(new DataMQ(dataMQ));
tempStatusMQ.reset(new StatusMQ(statusMQ));
if (tempDataMQ->isValid() && tempDataMQ->getEventFlagWord()) {
EventFlag::createEventFlag(tempDataMQ->getEventFlagWord(), &mEfGroup);
}
halThreadPid = halThreadInfo.pid;
halThreadTid = halThreadInfo.tid;
}
});
if (!ret.isOk() || retval != Result::OK) {
return processReturn("prepareForReading", ret, retval);
}
if (!tempCommandMQ || !tempCommandMQ->isValid() ||
!tempDataMQ || !tempDataMQ->isValid() ||
!tempStatusMQ || !tempStatusMQ->isValid() ||
!mEfGroup) {
ALOGE_IF(!tempCommandMQ, "Failed to obtain command message queue for writing");
ALOGE_IF(tempCommandMQ && !tempCommandMQ->isValid(),
"Command message queue for writing is invalid");
ALOGE_IF(!tempDataMQ, "Failed to obtain data message queue for reading");
ALOGE_IF(tempDataMQ && !tempDataMQ->isValid(), "Data message queue for reading is invalid");
ALOGE_IF(!tempStatusMQ, "Failed to obtain status message queue for reading");
ALOGE_IF(tempStatusMQ && !tempStatusMQ->isValid(),
"Status message queue for reading is invalid");
ALOGE_IF(!mEfGroup, "Event flag creation for reading failed");
return NO_INIT;
}
requestHalThreadPriority(halThreadPid, halThreadTid);
mCommandMQ = std::move(tempCommandMQ);
mDataMQ = std::move(tempDataMQ);
mStatusMQ = std::move(tempStatusMQ);
mReaderClient = gettid();
return OK;
}
// prepare simple model negative test 2
TEST_F(NeuralnetworksHidlTest, SimplePrepareModelNegativeTest2) {
Model model = createInvalidTestModel2_1_0();
sp<PreparedModelCallback> preparedModelCallback = new PreparedModelCallback();
ASSERT_NE(nullptr, preparedModelCallback.get());
Return<ErrorStatus> prepareLaunchStatus = device->prepareModel(model, preparedModelCallback);
ASSERT_TRUE(prepareLaunchStatus.isOk());
EXPECT_EQ(ErrorStatus::INVALID_ARGUMENT, static_cast<ErrorStatus>(prepareLaunchStatus));
preparedModelCallback->wait();
ErrorStatus prepareReturnStatus = preparedModelCallback->getStatus();
EXPECT_EQ(ErrorStatus::INVALID_ARGUMENT, prepareReturnStatus);
sp<IPreparedModel> preparedModel = preparedModelCallback->getPreparedModel();
EXPECT_EQ(nullptr, preparedModel.get());
}
virtual void Visit(Return& instruction)
{
Prefix(instruction);
mOut << "return ";
instruction.Operand()->GenerateCode(mOut);
mOut << ';' << std::endl;
}
bool Compiler::visit(Return const& _return)
{
CompilerContext::LocationSetter locationSetter(m_context, _return);
//@todo modifications are needed to make this work with functions returning multiple values
if (Expression const* expression = _return.getExpression())
{
solAssert(_return.getFunctionReturnParameters(), "Invalid return parameters pointer.");
VariableDeclaration const& firstVariable = *_return.getFunctionReturnParameters()->getParameters().front();
compileExpression(*expression, firstVariable.getType());
CompilerUtils(m_context).moveToStackVariable(firstVariable);
}
for (unsigned i = 0; i < m_stackCleanupForReturn; ++i)
m_context << eth::Instruction::POP;
m_context.appendJumpTo(m_returnTag);
m_context.adjustStackOffset(m_stackCleanupForReturn);
return false;
}
static void doPrepareModelShortcut(const sp<IDevice>& device, sp<IPreparedModel>* preparedModel) {
ASSERT_NE(nullptr, preparedModel);
Model model = createValidTestModel_1_0();
// see if service can handle model
bool fullySupportsModel = false;
Return<void> supportedOpsLaunchStatus = device->getSupportedOperations(
model, [&fullySupportsModel](ErrorStatus status, const hidl_vec<bool>& supported) {
ASSERT_EQ(ErrorStatus::NONE, status);
ASSERT_NE(0ul, supported.size());
fullySupportsModel =
std::all_of(supported.begin(), supported.end(), [](bool valid) { return valid; });
});
ASSERT_TRUE(supportedOpsLaunchStatus.isOk());
// launch prepare model
sp<PreparedModelCallback> preparedModelCallback = new PreparedModelCallback();
ASSERT_NE(nullptr, preparedModelCallback.get());
Return<ErrorStatus> prepareLaunchStatus = device->prepareModel(model, preparedModelCallback);
ASSERT_TRUE(prepareLaunchStatus.isOk());
ASSERT_EQ(ErrorStatus::NONE, static_cast<ErrorStatus>(prepareLaunchStatus));
// retrieve prepared model
preparedModelCallback->wait();
ErrorStatus prepareReturnStatus = preparedModelCallback->getStatus();
*preparedModel = preparedModelCallback->getPreparedModel();
// The getSupportedOperations call returns a list of operations that are
// guaranteed not to fail if prepareModel is called, and
// 'fullySupportsModel' is true i.f.f. the entire model is guaranteed.
// If a driver has any doubt that it can prepare an operation, it must
// return false. So here, if a driver isn't sure if it can support an
// operation, but reports that it successfully prepared the model, the test
// can continue.
if (!fullySupportsModel && prepareReturnStatus != ErrorStatus::NONE) {
ASSERT_EQ(nullptr, preparedModel->get());
LOG(INFO) << "NN VTS: Early termination of test because vendor service cannot "
"prepare model that it does not support.";
std::cout << "[ ] Early termination of test because vendor service cannot "
"prepare model that it does not support."
<< std::endl;
return;
}
ASSERT_EQ(ErrorStatus::NONE, prepareReturnStatus);
ASSERT_NE(nullptr, preparedModel->get());
}
// execute simple graph negative test 2
TEST_F(NeuralnetworksHidlTest, SimpleExecuteGraphNegativeTest2) {
sp<IPreparedModel> preparedModel;
ASSERT_NO_FATAL_FAILURE(doPrepareModelShortcut(device, &preparedModel));
if (preparedModel == nullptr) {
return;
}
Request request = createInvalidTestRequest2();
sp<ExecutionCallback> executionCallback = new ExecutionCallback();
ASSERT_NE(nullptr, executionCallback.get());
Return<ErrorStatus> executeLaunchStatus = preparedModel->execute(request, executionCallback);
ASSERT_TRUE(executeLaunchStatus.isOk());
EXPECT_EQ(ErrorStatus::INVALID_ARGUMENT, static_cast<ErrorStatus>(executeLaunchStatus));
executionCallback->wait();
ErrorStatus executionReturnStatus = executionCallback->getStatus();
EXPECT_EQ(ErrorStatus::INVALID_ARGUMENT, executionReturnStatus);
}
bool Why3Translator::visit(Return const& _node)
{
addSourceFromDocStrings(_node.annotation());
if (_node.expression())
{
solAssert(!!_node.annotation().functionReturnParameters, "");
auto const& params = _node.annotation().functionReturnParameters->parameters();
if (params.size() != 1)
{
error(_node, "Directly returning tuples not supported. Rather assign to return variable.");
return false;
}
add("begin _" + params.front()->name() + " := ");
_node.expression()->accept(*this);
add("; raise Return end");
}
else
add("raise Return");
return false;
}
// execute simple graph positive test
TEST_F(NeuralnetworksHidlTest, SimpleExecuteGraphPositiveTest) {
std::vector<float> outputData = {-1.0f, -1.0f, -1.0f, -1.0f};
std::vector<float> expectedData = {6.0f, 8.0f, 10.0f, 12.0f};
const uint32_t OUTPUT = 1;
sp<IPreparedModel> preparedModel;
ASSERT_NO_FATAL_FAILURE(doPrepareModelShortcut(device, &preparedModel));
if (preparedModel == nullptr) {
return;
}
Request request = createValidTestRequest();
auto postWork = [&] {
sp<IMemory> outputMemory = mapMemory(request.pools[OUTPUT]);
if (outputMemory == nullptr) {
return false;
}
float* outputPtr = reinterpret_cast<float*>(static_cast<void*>(outputMemory->getPointer()));
if (outputPtr == nullptr) {
return false;
}
outputMemory->read();
std::copy(outputPtr, outputPtr + outputData.size(), outputData.begin());
outputMemory->commit();
return true;
};
sp<ExecutionCallback> executionCallback = new ExecutionCallback();
ASSERT_NE(nullptr, executionCallback.get());
executionCallback->on_finish(postWork);
Return<ErrorStatus> executeLaunchStatus = preparedModel->execute(request, executionCallback);
ASSERT_TRUE(executeLaunchStatus.isOk());
EXPECT_EQ(ErrorStatus::NONE, static_cast<ErrorStatus>(executeLaunchStatus));
executionCallback->wait();
ErrorStatus executionReturnStatus = executionCallback->getStatus();
EXPECT_EQ(ErrorStatus::NONE, executionReturnStatus);
EXPECT_EQ(expectedData, outputData);
}
bool ReferencesResolver::visit(Return const& _return)
{
_return.annotation().functionReturnParameters = m_returnParameters;
return true;
}
inline void debug_ast(AST_Node* node, string ind = "", Env* env = 0)
{
if (node == 0) return;
if (ind == "") cerr << "####################################################################\n";
if (dynamic_cast<Bubble*>(node)) {
Bubble* bubble = dynamic_cast<Bubble*>(node);
cerr << ind << "Bubble " << bubble << " " << bubble->tabs() << endl;
} else if (dynamic_cast<At_Root_Block*>(node)) {
At_Root_Block* root_block = dynamic_cast<At_Root_Block*>(node);
cerr << ind << "At_Root_Block " << root_block << " " << root_block->tabs() << endl;
if (root_block->block()) for(auto i : root_block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Selector_List*>(node)) {
Selector_List* selector = dynamic_cast<Selector_List*>(node);
cerr << ind << "Selector_List " << selector
<< " [block:" << selector->last_block() << "]"
<< (selector->last_block() && selector->last_block()->is_root() ? " [root]" : "")
<< " [@media:" << selector->media_block() << "]"
<< (selector->is_optional() ? " [is_optional]": " -")
<< (selector->has_line_break() ? " [line-break]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -")
<< endl;
for(auto i : selector->elements()) { debug_ast(i, ind + " ", env); }
// } else if (dynamic_cast<Expression*>(node)) {
// Expression* expression = dynamic_cast<Expression*>(node);
// cerr << ind << "Expression " << expression << " " << expression->concrete_type() << endl;
} else if (dynamic_cast<Parent_Selector*>(node)) {
Parent_Selector* selector = dynamic_cast<Parent_Selector*>(node);
cerr << ind << "Parent_Selector " << selector;
cerr << " <" << prettyprint(selector->pstate().token.ws_before()) << ">" << endl;
debug_ast(selector->selector(), ind + "->", env);
} else if (dynamic_cast<Complex_Selector*>(node)) {
Complex_Selector* selector = dynamic_cast<Complex_Selector*>(node);
cerr << ind << "Complex_Selector " << selector
<< " [block:" << selector->last_block() << "]"
<< " [weight:" << longToHex(selector->specificity()) << "]"
<< (selector->last_block() && selector->last_block()->is_root() ? " [root]" : "")
<< " [@media:" << selector->media_block() << "]"
<< (selector->is_optional() ? " [is_optional]": " -")
<< (selector->has_line_break() ? " [line-break]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -") << " -> ";
switch (selector->combinator()) {
case Complex_Selector::PARENT_OF: cerr << "{>}"; break;
case Complex_Selector::PRECEDES: cerr << "{~}"; break;
case Complex_Selector::ADJACENT_TO: cerr << "{+}"; break;
case Complex_Selector::ANCESTOR_OF: cerr << "{ }"; break;
}
cerr << " <" << prettyprint(selector->pstate().token.ws_before()) << ">" << endl;
debug_ast(selector->head(), ind + " ", env);
debug_ast(selector->tail(), ind + "-", env);
} else if (dynamic_cast<Compound_Selector*>(node)) {
Compound_Selector* selector = dynamic_cast<Compound_Selector*>(node);
cerr << ind << "Compound_Selector " << selector;
cerr << " [block:" << selector->last_block() << "]";
cerr << " [weight:" << longToHex(selector->specificity()) << "]";
// cerr << (selector->last_block() && selector->last_block()->is_root() ? " [root]" : "");
cerr << " [@media:" << selector->media_block() << "]";
cerr << (selector->is_optional() ? " [is_optional]": " -");
cerr << (selector->has_line_break() ? " [line-break]": " -");
cerr << (selector->has_line_feed() ? " [line-feed]": " -");
cerr << " <" << prettyprint(selector->pstate().token.ws_before()) << ">" << endl;
for(auto i : selector->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Propset*>(node)) {
Propset* selector = dynamic_cast<Propset*>(node);
cerr << ind << "Propset " << selector << " " << selector->tabs() << endl;
if (selector->block()) for(auto i : selector->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Wrapped_Selector*>(node)) {
Wrapped_Selector* selector = dynamic_cast<Wrapped_Selector*>(node);
cerr << ind << "Wrapped_Selector " << selector << " <<" << selector->name() << ">>" << (selector->has_line_break() ? " [line-break]": " -") << (selector->has_line_feed() ? " [line-feed]": " -") << endl;
debug_ast(selector->selector(), ind + " () ", env);
} else if (dynamic_cast<Pseudo_Selector*>(node)) {
Pseudo_Selector* selector = dynamic_cast<Pseudo_Selector*>(node);
cerr << ind << "Pseudo_Selector " << selector << " <<" << selector->name() << ">>" << (selector->has_line_break() ? " [line-break]": " -") << (selector->has_line_feed() ? " [line-feed]": " -") << endl;
debug_ast(selector->expression(), ind + " <= ", env);
} else if (dynamic_cast<Attribute_Selector*>(node)) {
Attribute_Selector* selector = dynamic_cast<Attribute_Selector*>(node);
cerr << ind << "Attribute_Selector " << selector << " <<" << selector->name() << ">>" << (selector->has_line_break() ? " [line-break]": " -") << (selector->has_line_feed() ? " [line-feed]": " -") << endl;
debug_ast(selector->value(), ind + "[" + selector->matcher() + "] ", env);
} else if (dynamic_cast<Selector_Qualifier*>(node)) {
Selector_Qualifier* selector = dynamic_cast<Selector_Qualifier*>(node);
cerr << ind << "Selector_Qualifier " << selector << " <<" << selector->name() << ">>" << (selector->has_line_break() ? " [line-break]": " -") << (selector->has_line_feed() ? " [line-feed]": " -") << endl;
} else if (dynamic_cast<Type_Selector*>(node)) {
Type_Selector* selector = dynamic_cast<Type_Selector*>(node);
cerr << ind << "Type_Selector " << selector << " <<" << selector->name() << ">>" << (selector->has_line_break() ? " [line-break]": " -") <<
" <" << prettyprint(selector->pstate().token.ws_before()) << ">" << endl;
} else if (dynamic_cast<Selector_Placeholder*>(node)) {
Selector_Placeholder* selector = dynamic_cast<Selector_Placeholder*>(node);
cerr << ind << "Selector_Placeholder [" << selector->name() << "] " << selector
<< " [block:" << selector->last_block() << "]"
<< " [@media:" << selector->media_block() << "]"
<< (selector->is_optional() ? " [is_optional]": " -")
<< (selector->has_line_break() ? " [line-break]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -")
<< endl;
} else if (dynamic_cast<Selector_Reference*>(node)) {
Selector_Reference* selector = dynamic_cast<Selector_Reference*>(node);
cerr << ind << "Selector_Reference " << selector << " @ref " << selector->selector() << endl;
} else if (dynamic_cast<Simple_Selector*>(node)) {
Simple_Selector* selector = dynamic_cast<Simple_Selector*>(node);
cerr << ind << "Simple_Selector " << selector << (selector->has_line_break() ? " [line-break]": " -") << (selector->has_line_feed() ? " [line-feed]": " -") << endl;
} else if (dynamic_cast<Selector_Schema*>(node)) {
Selector_Schema* selector = dynamic_cast<Selector_Schema*>(node);
cerr << ind << "Selector_Schema " << selector
<< " [block:" << selector->last_block() << "]"
<< (selector->last_block() && selector->last_block()->is_root() ? " [root]" : "")
<< " [@media:" << selector->media_block() << "]"
<< (selector->has_line_break() ? " [line-break]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -")
<< endl;
debug_ast(selector->contents(), ind + " ");
// for(auto i : selector->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Selector*>(node)) {
Selector* selector = dynamic_cast<Selector*>(node);
cerr << ind << "Selector " << selector
<< (selector->has_line_break() ? " [line-break]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -")
<< endl;
} else if (dynamic_cast<Media_Query_Expression*>(node)) {
Media_Query_Expression* block = dynamic_cast<Media_Query_Expression*>(node);
cerr << ind << "Media_Query_Expression " << block
<< (block->is_interpolated() ? " [is_interpolated]": " -")
<< endl;
debug_ast(block->feature(), ind + " f) ");
debug_ast(block->value(), ind + " v) ");
} else if (dynamic_cast<Media_Query*>(node)) {
Media_Query* block = dynamic_cast<Media_Query*>(node);
cerr << ind << "Media_Query " << block
<< (block->is_negated() ? " [is_negated]": " -")
<< (block->is_restricted() ? " [is_restricted]": " -")
<< endl;
debug_ast(block->media_type(), ind + " ");
for(auto i : block->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Media_Block*>(node)) {
Media_Block* block = dynamic_cast<Media_Block*>(node);
cerr << ind << "Media_Block " << block << " " << block->tabs() << endl;
debug_ast(block->media_queries(), ind + " =@ ");
debug_ast(block->selector(), ind + " -@ ");
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Feature_Block*>(node)) {
Feature_Block* block = dynamic_cast<Feature_Block*>(node);
cerr << ind << "Feature_Block " << block << " " << block->tabs() << endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Block*>(node)) {
Block* root_block = dynamic_cast<Block*>(node);
cerr << ind << "Block " << root_block << " " << root_block->tabs() << endl;
if (root_block->block()) for(auto i : root_block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Warning*>(node)) {
Warning* block = dynamic_cast<Warning*>(node);
cerr << ind << "Warning " << block << " " << block->tabs() << endl;
} else if (dynamic_cast<Error*>(node)) {
Error* block = dynamic_cast<Error*>(node);
cerr << ind << "Error " << block << " " << block->tabs() << endl;
} else if (dynamic_cast<Debug*>(node)) {
Debug* block = dynamic_cast<Debug*>(node);
cerr << ind << "Debug " << block << " " << block->tabs() << endl;
} else if (dynamic_cast<Comment*>(node)) {
Comment* block = dynamic_cast<Comment*>(node);
cerr << ind << "Comment " << block << " " << block->tabs() <<
" <" << prettyprint(block->pstate().token.ws_before()) << ">" << endl;
debug_ast(block->text(), ind + "// ", env);
} else if (dynamic_cast<If*>(node)) {
If* block = dynamic_cast<If*>(node);
cerr << ind << "If " << block << " " << block->tabs() << endl;
} else if (dynamic_cast<Return*>(node)) {
Return* block = dynamic_cast<Return*>(node);
cerr << ind << "Return " << block << " " << block->tabs() << endl;
} else if (dynamic_cast<Extension*>(node)) {
Extension* block = dynamic_cast<Extension*>(node);
cerr << ind << "Extension " << block << " " << block->tabs() << endl;
debug_ast(block->selector(), ind + "-> ", env);
} else if (dynamic_cast<Content*>(node)) {
Content* block = dynamic_cast<Content*>(node);
cerr << ind << "Content " << block << " " << block->tabs() << endl;
} else if (dynamic_cast<Import_Stub*>(node)) {
Import_Stub* block = dynamic_cast<Import_Stub*>(node);
cerr << ind << "Import_Stub " << block << " " << block->tabs() << endl;
} else if (dynamic_cast<Import*>(node)) {
Import* block = dynamic_cast<Import*>(node);
cerr << ind << "Import " << block << " " << block->tabs() << endl;
// vector<string> files_;
for (auto imp : block->urls()) debug_ast(imp, "@ ", env);
} else if (dynamic_cast<Assignment*>(node)) {
Assignment* block = dynamic_cast<Assignment*>(node);
cerr << ind << "Assignment " << block << " <<" << block->variable() << ">> " << block->tabs() << endl;
debug_ast(block->value(), ind + "=", env);
} else if (dynamic_cast<Declaration*>(node)) {
Declaration* block = dynamic_cast<Declaration*>(node);
cerr << ind << "Declaration " << block << " " << block->tabs() << endl;
debug_ast(block->property(), ind + " prop: ", env);
debug_ast(block->value(), ind + " value: ", env);
} else if (dynamic_cast<Keyframe_Rule*>(node)) {
Keyframe_Rule* has_block = dynamic_cast<Keyframe_Rule*>(node);
cerr << ind << "Keyframe_Rule " << has_block << " " << has_block->tabs() << endl;
if (has_block->selector()) debug_ast(has_block->selector(), ind + "@");
if (has_block->block()) for(auto i : has_block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<At_Rule*>(node)) {
At_Rule* block = dynamic_cast<At_Rule*>(node);
cerr << ind << "At_Rule " << block << " [" << block->keyword() << "] " << block->tabs() << endl;
debug_ast(block->value(), ind + "+", env);
debug_ast(block->selector(), ind + "~", env);
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Each*>(node)) {
Each* block = dynamic_cast<Each*>(node);
cerr << ind << "Each " << block << " " << block->tabs() << endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<For*>(node)) {
For* block = dynamic_cast<For*>(node);
cerr << ind << "For " << block << " " << block->tabs() << endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<While*>(node)) {
While* block = dynamic_cast<While*>(node);
cerr << ind << "While " << block << " " << block->tabs() << endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Definition*>(node)) {
Definition* block = dynamic_cast<Definition*>(node);
cerr << ind << "Definition " << block << " " << block->tabs() << endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Mixin_Call*>(node)) {
Mixin_Call* block = dynamic_cast<Mixin_Call*>(node);
cerr << ind << "Mixin_Call " << block << " " << block->tabs() << endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Ruleset*>(node)) {
Ruleset* ruleset = dynamic_cast<Ruleset*>(node);
cerr << ind << "Ruleset " << ruleset << " " << ruleset->tabs() << endl;
debug_ast(ruleset->selector(), ind + " ");
if (ruleset->block()) for(auto i : ruleset->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Block*>(node)) {
Block* block = dynamic_cast<Block*>(node);
cerr << ind << "Block " << block << " " << block->tabs() << endl;
for(auto i : block->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Textual*>(node)) {
Textual* expression = dynamic_cast<Textual*>(node);
cerr << ind << "Textual ";
if (expression->type() == Textual::NUMBER) cerr << " [NUMBER]";
else if (expression->type() == Textual::PERCENTAGE) cerr << " [PERCENTAGE]";
else if (expression->type() == Textual::DIMENSION) cerr << " [DIMENSION]";
else if (expression->type() == Textual::HEX) cerr << " [HEX]";
cerr << expression << " [" << expression->value() << "]" << endl;
} else if (dynamic_cast<Variable*>(node)) {
Variable* expression = dynamic_cast<Variable*>(node);
cerr << ind << "Variable " << expression << " [" << expression->name() << "]" << endl;
string name(expression->name());
if (env && env->has(name)) debug_ast(static_cast<Expression*>((*env)[name]), ind + " -> ", env);
} else if (dynamic_cast<Function_Call_Schema*>(node)) {
Function_Call_Schema* expression = dynamic_cast<Function_Call_Schema*>(node);
cerr << ind << "Function_Call_Schema " << expression << "]" << endl;
debug_ast(expression->name(), ind + "name: ", env);
debug_ast(expression->arguments(), ind + " args: ", env);
} else if (dynamic_cast<Function_Call*>(node)) {
Function_Call* expression = dynamic_cast<Function_Call*>(node);
cerr << ind << "Function_Call " << expression << " [" << expression->name() << "]" << endl;
debug_ast(expression->arguments(), ind + " args: ", env);
} else if (dynamic_cast<Arguments*>(node)) {
Arguments* expression = dynamic_cast<Arguments*>(node);
cerr << ind << "Arguments " << expression << "]" << endl;
for(auto i : expression->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Argument*>(node)) {
Argument* expression = dynamic_cast<Argument*>(node);
cerr << ind << "Argument " << expression << " [" << expression->value() << "]" << endl;
debug_ast(expression->value(), ind + " value: ", env);
} else if (dynamic_cast<Unary_Expression*>(node)) {
Unary_Expression* expression = dynamic_cast<Unary_Expression*>(node);
cerr << ind << "Unary_Expression " << expression << " [" << expression->type() << "]" << endl;
debug_ast(expression->operand(), ind + " operand: ", env);
} else if (dynamic_cast<Binary_Expression*>(node)) {
Binary_Expression* expression = dynamic_cast<Binary_Expression*>(node);
cerr << ind << "Binary_Expression " << expression << " [" << expression->type() << "]" << endl;
debug_ast(expression->left(), ind + " left: ", env);
debug_ast(expression->right(), ind + " right: ", env);
} else if (dynamic_cast<Map*>(node)) {
Map* expression = dynamic_cast<Map*>(node);
cerr << ind << "Map " << expression << " [Hashed]" << endl;
} else if (dynamic_cast<List*>(node)) {
List* expression = dynamic_cast<List*>(node);
cerr << ind << "List " << expression << " (" << expression->length() << ") " <<
(expression->separator() == Sass::List::Separator::COMMA ? "Comma " : "Space ") <<
" [delayed: " << expression->is_delayed() << "] " <<
" [interpolant: " << expression->is_interpolant() << "] " <<
endl;
for(auto i : expression->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Content*>(node)) {
Content* expression = dynamic_cast<Content*>(node);
cerr << ind << "Content " << expression << " [Statement]" << endl;
} else if (dynamic_cast<Boolean*>(node)) {
Boolean* expression = dynamic_cast<Boolean*>(node);
cerr << ind << "Boolean " << expression << " [" << expression->value() << "]" << endl;
} else if (dynamic_cast<Color*>(node)) {
Color* expression = dynamic_cast<Color*>(node);
cerr << ind << "Color " << expression << " [" << expression->r() << ":" << expression->g() << ":" << expression->b() << "@" << expression->a() << "]" << endl;
} else if (dynamic_cast<Number*>(node)) {
Number* expression = dynamic_cast<Number*>(node);
cerr << ind << "Number " << expression << " [" << expression->value() << expression->unit() << "]" << endl;
} else if (dynamic_cast<String_Quoted*>(node)) {
String_Quoted* expression = dynamic_cast<String_Quoted*>(node);
cerr << ind << "String_Quoted : " << expression << " [" << prettyprint(expression->value()) << "]" <<
(expression->is_delayed() ? " {delayed}" : "") <<
(expression->sass_fix_1291() ? " {sass_fix_1291}" : "") <<
(expression->quote_mark() != 0 ? " {qm:" + string(1, expression->quote_mark()) + "}" : "") <<
" <" << prettyprint(expression->pstate().token.ws_before()) << ">" << endl;
} else if (dynamic_cast<String_Constant*>(node)) {
String_Constant* expression = dynamic_cast<String_Constant*>(node);
cerr << ind << "String_Constant : " << expression << " [" << prettyprint(expression->value()) << "]" <<
(expression->is_delayed() ? " {delayed}" : "") <<
(expression->sass_fix_1291() ? " {sass_fix_1291}" : "") <<
" <" << prettyprint(expression->pstate().token.ws_before()) << ">" << endl;
} else if (dynamic_cast<String_Schema*>(node)) {
String_Schema* expression = dynamic_cast<String_Schema*>(node);
cerr << ind << "String_Schema " << expression << " " << expression->concrete_type() <<
(expression->has_interpolants() ? " {has_interpolants}" : "") <<
endl;
for(auto i : expression->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<String*>(node)) {
String* expression = dynamic_cast<String*>(node);
cerr << ind << "String " << expression << expression->concrete_type() <<
" " << (expression->sass_fix_1291() ? "{sass_fix_1291}" : "") <<
endl;
} else if (dynamic_cast<Expression*>(node)) {
Expression* expression = dynamic_cast<Expression*>(node);
cerr << ind << "Expression " << expression;
switch (expression->concrete_type()) {
case Expression::Concrete_Type::NONE: cerr << " [NONE]"; break;
case Expression::Concrete_Type::BOOLEAN: cerr << " [BOOLEAN]"; break;
case Expression::Concrete_Type::NUMBER: cerr << " [NUMBER]"; break;
case Expression::Concrete_Type::COLOR: cerr << " [COLOR]"; break;
case Expression::Concrete_Type::STRING: cerr << " [STRING]"; break;
case Expression::Concrete_Type::LIST: cerr << " [LIST]"; break;
case Expression::Concrete_Type::MAP: cerr << " [MAP]"; break;
case Expression::Concrete_Type::SELECTOR: cerr << " [SELECTOR]"; break;
case Expression::Concrete_Type::NULL_VAL: cerr << " [NULL_VAL]"; break;
case Expression::Concrete_Type::NUM_TYPES: cerr << " [NUM_TYPES]"; break;
}
cerr << endl;
} else if (dynamic_cast<Has_Block*>(node)) {
Has_Block* has_block = dynamic_cast<Has_Block*>(node);
cerr << ind << "Has_Block " << has_block << " " << has_block->tabs() << endl;
if (has_block->block()) for(auto i : has_block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Statement*>(node)) {
Statement* statement = dynamic_cast<Statement*>(node);
cerr << ind << "Statement " << statement << " " << statement->tabs() << endl;
}
if (ind == "") cerr << "####################################################################\n";
}
inline void debug_ast(AST_Node* node, std::string ind, Env* env)
{
if (node == 0) return;
if (ind == "") std::cerr << "####################################################################\n";
if (dynamic_cast<Bubble*>(node)) {
Bubble* bubble = dynamic_cast<Bubble*>(node);
std::cerr << ind << "Bubble " << bubble;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << bubble->tabs();
std::cerr << std::endl;
} else if (dynamic_cast<At_Root_Block*>(node)) {
At_Root_Block* root_block = dynamic_cast<At_Root_Block*>(node);
std::cerr << ind << "At_Root_Block " << root_block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << root_block->tabs();
std::cerr << std::endl;
debug_ast(root_block->expression(), ind + ":", env);
debug_ast(root_block->block(), ind + " ", env);
} else if (dynamic_cast<Selector_List*>(node)) {
Selector_List* selector = dynamic_cast<Selector_List*>(node);
std::cerr << ind << "Selector_List " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <" << selector->hash() << ">";
std::cerr << " [@media:" << selector->media_block() << "]";
std::cerr << (selector->is_optional() ? " [is_optional]": " -");
std::cerr << (selector->has_parent_ref() ? " [has-parent]": " -");
std::cerr << (selector->has_line_break() ? " [line-break]": " -");
std::cerr << (selector->has_line_feed() ? " [line-feed]": " -");
std::cerr << std::endl;
for(auto i : selector->elements()) { debug_ast(i, ind + " ", env); }
// } else if (dynamic_cast<Expression*>(node)) {
// Expression* expression = dynamic_cast<Expression*>(node);
// std::cerr << ind << "Expression " << expression << " " << expression->concrete_type() << std::endl;
} else if (dynamic_cast<Parent_Selector*>(node)) {
Parent_Selector* selector = dynamic_cast<Parent_Selector*>(node);
std::cerr << ind << "Parent_Selector " << selector;
// if (selector->not_selector()) cerr << " [in_declaration]";
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <" << selector->hash() << ">";
std::cerr << " <" << prettyprint(selector->pstate().token.ws_before()) << ">" << std::endl;
// debug_ast(selector->selector(), ind + "->", env);
} else if (dynamic_cast<Complex_Selector*>(node)) {
Complex_Selector* selector = dynamic_cast<Complex_Selector*>(node);
std::cerr << ind << "Complex_Selector " << selector
<< " (" << pstate_source_position(node) << ")"
<< " <" << selector->hash() << ">"
<< " [weight:" << longToHex(selector->specificity()) << "]"
<< " [@media:" << selector->media_block() << "]"
<< (selector->is_optional() ? " [is_optional]": " -")
<< (selector->has_parent_ref() ? " [has parent]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -")
<< (selector->has_line_break() ? " [line-break]": " -")
<< " -- ";
std::string del;
switch (selector->combinator()) {
case Complex_Selector::PARENT_OF: del = ">"; break;
case Complex_Selector::PRECEDES: del = "~"; break;
case Complex_Selector::ADJACENT_TO: del = "+"; break;
case Complex_Selector::ANCESTOR_OF: del = " "; break;
case Complex_Selector::REFERENCE: del = "//"; break;
}
// if (del = "/") del += selector->reference()->perform(&to_string) + "/";
std::cerr << " <" << prettyprint(selector->pstate().token.ws_before()) << ">" << std::endl;
debug_ast(selector->head(), ind + " " /* + "[" + del + "]" */, env);
if (selector->tail()) {
debug_ast(selector->tail(), ind + "{" + del + "}", env);
} else if(del != " ") {
std::cerr << ind << " |" << del << "| {trailing op}" << std::endl;
}
SourcesSet set = selector->sources();
// debug_sources_set(set, ind + " @--> ");
} else if (dynamic_cast<Compound_Selector*>(node)) {
Compound_Selector* selector = dynamic_cast<Compound_Selector*>(node);
std::cerr << ind << "Compound_Selector " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <" << selector->hash() << ">";
std::cerr << " [weight:" << longToHex(selector->specificity()) << "]";
std::cerr << " [@media:" << selector->media_block() << "]";
std::cerr << (selector->extended() ? " [extended]": " -");
std::cerr << (selector->is_optional() ? " [is_optional]": " -");
std::cerr << (selector->has_parent_ref() ? " [has-parent]": " -");
std::cerr << (selector->has_line_break() ? " [line-break]": " -");
std::cerr << (selector->has_line_feed() ? " [line-feed]": " -");
std::cerr << " <" << prettyprint(selector->pstate().token.ws_before()) << ">" << std::endl;
for(auto i : selector->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Propset*>(node)) {
Propset* selector = dynamic_cast<Propset*>(node);
std::cerr << ind << "Propset " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << selector->tabs() << std::endl;
if (selector->block()) for(auto i : selector->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Wrapped_Selector*>(node)) {
Wrapped_Selector* selector = dynamic_cast<Wrapped_Selector*>(node);
std::cerr << ind << "Wrapped_Selector " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <" << selector->hash() << ">";
std::cerr << " <<" << selector->ns_name() << ">>";
std::cerr << (selector->is_optional() ? " [is_optional]": " -");
std::cerr << (selector->has_parent_ref() ? " [has-parent]": " -");
std::cerr << (selector->has_line_break() ? " [line-break]": " -");
std::cerr << (selector->has_line_feed() ? " [line-feed]": " -");
std::cerr << std::endl;
debug_ast(selector->selector(), ind + " () ", env);
} else if (dynamic_cast<Pseudo_Selector*>(node)) {
Pseudo_Selector* selector = dynamic_cast<Pseudo_Selector*>(node);
std::cerr << ind << "Pseudo_Selector " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <" << selector->hash() << ">";
std::cerr << " <<" << selector->ns_name() << ">>";
std::cerr << (selector->is_optional() ? " [is_optional]": " -");
std::cerr << (selector->has_parent_ref() ? " [has-parent]": " -");
std::cerr << (selector->has_line_break() ? " [line-break]": " -");
std::cerr << (selector->has_line_feed() ? " [line-feed]": " -");
std::cerr << std::endl;
debug_ast(selector->expression(), ind + " <= ", env);
} else if (dynamic_cast<Attribute_Selector*>(node)) {
Attribute_Selector* selector = dynamic_cast<Attribute_Selector*>(node);
std::cerr << ind << "Attribute_Selector " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <" << selector->hash() << ">";
std::cerr << " <<" << selector->ns_name() << ">>";
std::cerr << (selector->is_optional() ? " [is_optional]": " -");
std::cerr << (selector->has_parent_ref() ? " [has-parent]": " -");
std::cerr << (selector->has_line_break() ? " [line-break]": " -");
std::cerr << (selector->has_line_feed() ? " [line-feed]": " -");
std::cerr << std::endl;
debug_ast(selector->value(), ind + "[" + selector->matcher() + "] ", env);
} else if (dynamic_cast<Selector_Qualifier*>(node)) {
Selector_Qualifier* selector = dynamic_cast<Selector_Qualifier*>(node);
std::cerr << ind << "Selector_Qualifier " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <" << selector->hash() << ">";
std::cerr << " <<" << selector->ns_name() << ">>";
std::cerr << (selector->is_optional() ? " [is_optional]": " -");
std::cerr << (selector->has_parent_ref() ? " [has-parent]": " -");
std::cerr << (selector->has_line_break() ? " [line-break]": " -");
std::cerr << (selector->has_line_feed() ? " [line-feed]": " -");
std::cerr << std::endl;
} else if (dynamic_cast<Type_Selector*>(node)) {
Type_Selector* selector = dynamic_cast<Type_Selector*>(node);
std::cerr << ind << "Type_Selector " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <" << selector->hash() << ">";
std::cerr << " <<" << selector->ns_name() << ">>";
std::cerr << (selector->is_optional() ? " [is_optional]": " -");
std::cerr << (selector->has_parent_ref() ? " [has-parent]": " -");
std::cerr << (selector->has_line_break() ? " [line-break]": " -");
std::cerr << (selector->has_line_feed() ? " [line-feed]": " -");
std::cerr << " <" << prettyprint(selector->pstate().token.ws_before()) << ">";
std::cerr << std::endl;
} else if (dynamic_cast<Selector_Placeholder*>(node)) {
Selector_Placeholder* selector = dynamic_cast<Selector_Placeholder*>(node);
std::cerr << ind << "Selector_Placeholder [" << selector->ns_name() << "] " << selector
<< " <" << selector->hash() << ">"
<< " [@media:" << selector->media_block() << "]"
<< (selector->is_optional() ? " [is_optional]": " -")
<< (selector->has_line_break() ? " [line-break]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -")
<< std::endl;
} else if (dynamic_cast<Simple_Selector*>(node)) {
Simple_Selector* selector = dynamic_cast<Simple_Selector*>(node);
std::cerr << ind << "Simple_Selector " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << (selector->has_line_break() ? " [line-break]": " -") << (selector->has_line_feed() ? " [line-feed]": " -") << std::endl;
} else if (dynamic_cast<Selector_Schema*>(node)) {
Selector_Schema* selector = dynamic_cast<Selector_Schema*>(node);
std::cerr << ind << "Selector_Schema " << selector;
std::cerr << " (" << pstate_source_position(node) << ")"
<< (selector->at_root() && selector->at_root() ? " [@ROOT]" : "")
<< " [@media:" << selector->media_block() << "]"
<< (selector->has_line_break() ? " [line-break]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -")
<< std::endl;
debug_ast(selector->contents(), ind + " ");
// for(auto i : selector->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Selector*>(node)) {
Selector* selector = dynamic_cast<Selector*>(node);
std::cerr << ind << "Selector " << selector;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << (selector->has_line_break() ? " [line-break]": " -")
<< (selector->has_line_feed() ? " [line-feed]": " -")
<< std::endl;
} else if (dynamic_cast<Media_Query_Expression*>(node)) {
Media_Query_Expression* block = dynamic_cast<Media_Query_Expression*>(node);
std::cerr << ind << "Media_Query_Expression " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << (block->is_interpolated() ? " [is_interpolated]": " -")
<< std::endl;
debug_ast(block->feature(), ind + " feature) ");
debug_ast(block->value(), ind + " value) ");
} else if (dynamic_cast<Media_Query*>(node)) {
Media_Query* block = dynamic_cast<Media_Query*>(node);
std::cerr << ind << "Media_Query " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << (block->is_negated() ? " [is_negated]": " -")
<< (block->is_restricted() ? " [is_restricted]": " -")
<< std::endl;
debug_ast(block->media_type(), ind + " ");
for(auto i : block->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Media_Block*>(node)) {
Media_Block* block = dynamic_cast<Media_Block*>(node);
std::cerr << ind << "Media_Block " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
debug_ast(block->media_queries(), ind + " =@ ");
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Supports_Block*>(node)) {
Supports_Block* block = dynamic_cast<Supports_Block*>(node);
std::cerr << ind << "Supports_Block " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
debug_ast(block->condition(), ind + " =@ ");
} else if (dynamic_cast<Supports_Operator*>(node)) {
Supports_Operator* block = dynamic_cast<Supports_Operator*>(node);
std::cerr << ind << "Supports_Operator " << block;
std::cerr << " (" << pstate_source_position(node) << ")"
<< std::endl;
debug_ast(block->left(), ind + " left) ");
debug_ast(block->right(), ind + " right) ");
} else if (dynamic_cast<Supports_Negation*>(node)) {
Supports_Negation* block = dynamic_cast<Supports_Negation*>(node);
std::cerr << ind << "Supports_Negation " << block;
std::cerr << " (" << pstate_source_position(node) << ")"
<< std::endl;
debug_ast(block->condition(), ind + " condition) ");
} else if (dynamic_cast<Supports_Declaration*>(node)) {
Supports_Declaration* block = dynamic_cast<Supports_Declaration*>(node);
std::cerr << ind << "Supports_Declaration " << block;
std::cerr << " (" << pstate_source_position(node) << ")"
<< std::endl;
debug_ast(block->feature(), ind + " feature) ");
debug_ast(block->value(), ind + " value) ");
} else if (dynamic_cast<Block*>(node)) {
Block* root_block = dynamic_cast<Block*>(node);
std::cerr << ind << "Block " << root_block;
std::cerr << " (" << pstate_source_position(node) << ")";
if (root_block->is_root()) std::cerr << " [root]";
std::cerr << " " << root_block->tabs() << std::endl;
if (root_block->block()) for(auto i : root_block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Warning*>(node)) {
Warning* block = dynamic_cast<Warning*>(node);
std::cerr << ind << "Warning " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
} else if (dynamic_cast<Error*>(node)) {
Error* block = dynamic_cast<Error*>(node);
std::cerr << ind << "Error " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
} else if (dynamic_cast<Debug*>(node)) {
Debug* block = dynamic_cast<Debug*>(node);
std::cerr << ind << "Debug " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
} else if (dynamic_cast<Comment*>(node)) {
Comment* block = dynamic_cast<Comment*>(node);
std::cerr << ind << "Comment " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() <<
" <" << prettyprint(block->pstate().token.ws_before()) << ">" << std::endl;
debug_ast(block->text(), ind + "// ", env);
} else if (dynamic_cast<If*>(node)) {
If* block = dynamic_cast<If*>(node);
std::cerr << ind << "If " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
debug_ast(block->predicate(), ind + " = ");
debug_ast(block->block(), ind + " <>");
debug_ast(block->alternative(), ind + " ><");
} else if (dynamic_cast<Return*>(node)) {
Return* block = dynamic_cast<Return*>(node);
std::cerr << ind << "Return " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
} else if (dynamic_cast<Extension*>(node)) {
Extension* block = dynamic_cast<Extension*>(node);
std::cerr << ind << "Extension " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
debug_ast(block->selector(), ind + "-> ", env);
} else if (dynamic_cast<Content*>(node)) {
Content* block = dynamic_cast<Content*>(node);
std::cerr << ind << "Content " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
} else if (dynamic_cast<Import_Stub*>(node)) {
Import_Stub* block = dynamic_cast<Import_Stub*>(node);
std::cerr << ind << "Import_Stub " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
} else if (dynamic_cast<Import*>(node)) {
Import* block = dynamic_cast<Import*>(node);
std::cerr << ind << "Import " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
debug_ast(block->media_queries(), ind + " @ ");
// std::vector<std::string> files_;
for (auto imp : block->urls()) debug_ast(imp, "@ ", env);
} else if (dynamic_cast<Assignment*>(node)) {
Assignment* block = dynamic_cast<Assignment*>(node);
std::cerr << ind << "Assignment " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " <<" << block->variable() << ">> " << block->tabs() << std::endl;
debug_ast(block->value(), ind + "=", env);
} else if (dynamic_cast<Declaration*>(node)) {
Declaration* block = dynamic_cast<Declaration*>(node);
std::cerr << ind << "Declaration " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
debug_ast(block->property(), ind + " prop: ", env);
debug_ast(block->value(), ind + " value: ", env);
} else if (dynamic_cast<Keyframe_Rule*>(node)) {
Keyframe_Rule* has_block = dynamic_cast<Keyframe_Rule*>(node);
std::cerr << ind << "Keyframe_Rule " << has_block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << has_block->tabs() << std::endl;
if (has_block->selector()) debug_ast(has_block->selector(), ind + "@");
if (has_block->block()) for(auto i : has_block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<At_Rule*>(node)) {
At_Rule* block = dynamic_cast<At_Rule*>(node);
std::cerr << ind << "At_Rule " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [" << block->keyword() << "] " << block->tabs() << std::endl;
debug_ast(block->selector(), ind + "~", env);
debug_ast(block->value(), ind + "+", env);
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Each*>(node)) {
Each* block = dynamic_cast<Each*>(node);
std::cerr << ind << "Each " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<For*>(node)) {
For* block = dynamic_cast<For*>(node);
std::cerr << ind << "For " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<While*>(node)) {
While* block = dynamic_cast<While*>(node);
std::cerr << ind << "While " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << block->tabs() << std::endl;
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Definition*>(node)) {
Definition* block = dynamic_cast<Definition*>(node);
std::cerr << ind << "Definition " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [name: " << block->name() << "] ";
std::cerr << " [type: " << (block->type() == Sass::Definition::Type::MIXIN ? "Mixin " : "Function ") << "] ";
// this seems to lead to segfaults some times?
// std::cerr << " [signature: " << block->signature() << "] ";
std::cerr << " [native: " << block->native_function() << "] ";
std::cerr << " " << block->tabs() << std::endl;
debug_ast(block->parameters(), ind + " params: ", env);
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Mixin_Call*>(node)) {
Mixin_Call* block = dynamic_cast<Mixin_Call*>(node);
std::cerr << ind << "Mixin_Call " << block << " " << block->tabs();
std::cerr << " [" << block->name() << "]";
std::cerr << " [has_content: " << block->has_content() << "] " << std::endl;
debug_ast(block->arguments(), ind + " args: ");
if (block->block()) for(auto i : block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (Ruleset* ruleset = dynamic_cast<Ruleset*>(node)) {
std::cerr << ind << "Ruleset " << ruleset;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [indent: " << ruleset->tabs() << "]";
std::cerr << (ruleset->at_root() ? " [@ROOT]" : "");
std::cerr << (ruleset->is_root() ? " [root]" : "");
std::cerr << std::endl;
debug_ast(ruleset->selector(), ind + ">");
debug_ast(ruleset->block(), ind + " ");
} else if (dynamic_cast<Block*>(node)) {
Block* block = dynamic_cast<Block*>(node);
std::cerr << ind << "Block " << block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [indent: " << block->tabs() << "]" << std::endl;
for(auto i : block->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Textual*>(node)) {
Textual* expression = dynamic_cast<Textual*>(node);
std::cerr << ind << "Textual ";
if (expression->type() == Textual::NUMBER) std::cerr << " [NUMBER]";
else if (expression->type() == Textual::PERCENTAGE) std::cerr << " [PERCENTAGE]";
else if (expression->type() == Textual::DIMENSION) std::cerr << " [DIMENSION]";
else if (expression->type() == Textual::HEX) std::cerr << " [HEX]";
std::cerr << expression << " [" << expression->value() << "]";
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
if (expression->is_delayed()) std::cerr << " [delayed]";
std::cerr << std::endl;
} else if (dynamic_cast<Variable*>(node)) {
Variable* expression = dynamic_cast<Variable*>(node);
std::cerr << ind << "Variable " << expression;
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [" << expression->name() << "]" << std::endl;
std::string name(expression->name());
if (env && env->has(name)) debug_ast(static_cast<Expression*>((*env)[name]), ind + " -> ", env);
} else if (dynamic_cast<Function_Call_Schema*>(node)) {
Function_Call_Schema* expression = dynamic_cast<Function_Call_Schema*>(node);
std::cerr << ind << "Function_Call_Schema " << expression;
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << "" << std::endl;
debug_ast(expression->name(), ind + "name: ", env);
debug_ast(expression->arguments(), ind + " args: ", env);
} else if (dynamic_cast<Function_Call*>(node)) {
Function_Call* expression = dynamic_cast<Function_Call*>(node);
std::cerr << ind << "Function_Call " << expression;
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [" << expression->name() << "]";
if (expression->is_delayed()) std::cerr << " [delayed]";
if (expression->is_interpolant()) std::cerr << " [interpolant]";
std::cerr << std::endl;
debug_ast(expression->arguments(), ind + " args: ", env);
} else if (dynamic_cast<Arguments*>(node)) {
Arguments* expression = dynamic_cast<Arguments*>(node);
std::cerr << ind << "Arguments " << expression;
if (expression->is_delayed()) std::cerr << " [delayed]";
std::cerr << " (" << pstate_source_position(node) << ")";
if (expression->has_named_arguments()) std::cerr << " [has_named_arguments]";
if (expression->has_rest_argument()) std::cerr << " [has_rest_argument]";
if (expression->has_keyword_argument()) std::cerr << " [has_keyword_argument]";
std::cerr << std::endl;
for(auto i : expression->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Argument*>(node)) {
Argument* expression = dynamic_cast<Argument*>(node);
std::cerr << ind << "Argument " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [" << expression->value() << "]";
std::cerr << " [name: " << expression->name() << "] ";
std::cerr << " [rest: " << expression->is_rest_argument() << "] ";
std::cerr << " [keyword: " << expression->is_keyword_argument() << "] " << std::endl;
debug_ast(expression->value(), ind + " value: ", env);
} else if (dynamic_cast<Parameters*>(node)) {
Parameters* expression = dynamic_cast<Parameters*>(node);
std::cerr << ind << "Parameters " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [has_optional: " << expression->has_optional_parameters() << "] ";
std::cerr << " [has_rest: " << expression->has_rest_parameter() << "] ";
std::cerr << std::endl;
for(auto i : expression->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Parameter*>(node)) {
Parameter* expression = dynamic_cast<Parameter*>(node);
std::cerr << ind << "Parameter " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [name: " << expression->name() << "] ";
std::cerr << " [default: " << expression->default_value() << "] ";
std::cerr << " [rest: " << expression->is_rest_parameter() << "] " << std::endl;
} else if (dynamic_cast<Unary_Expression*>(node)) {
Unary_Expression* expression = dynamic_cast<Unary_Expression*>(node);
std::cerr << ind << "Unary_Expression " << expression;
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [" << expression->type() << "]" << std::endl;
debug_ast(expression->operand(), ind + " operand: ", env);
} else if (dynamic_cast<Binary_Expression*>(node)) {
Binary_Expression* expression = dynamic_cast<Binary_Expression*>(node);
std::cerr << ind << "Binary_Expression " << expression;
if (expression->is_interpolant()) std::cerr << " [is interpolant] ";
if (expression->is_left_interpolant()) std::cerr << " [left interpolant] ";
if (expression->is_right_interpolant()) std::cerr << " [right interpolant] ";
std::cerr << " [delayed: " << expression->is_delayed() << "] ";
std::cerr << " [ws_before: " << expression->op().ws_before << "] ";
std::cerr << " [ws_after: " << expression->op().ws_after << "] ";
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [" << expression->type_name() << "]" << std::endl;
debug_ast(expression->left(), ind + " left: ", env);
debug_ast(expression->right(), ind + " right: ", env);
} else if (dynamic_cast<Map*>(node)) {
Map* expression = dynamic_cast<Map*>(node);
std::cerr << ind << "Map " << expression;
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [Hashed]" << std::endl;
for (auto i : expression->elements()) {
debug_ast(i.first, ind + " key: ");
debug_ast(i.second, ind + " val: ");
}
} else if (dynamic_cast<List*>(node)) {
List* expression = dynamic_cast<List*>(node);
std::cerr << ind << "List " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " (" << expression->length() << ") " <<
(expression->separator() == SASS_COMMA ? "Comma " : expression->separator() == SASS_HASH ? "Map" : "Space ") <<
" [delayed: " << expression->is_delayed() << "] " <<
" [interpolant: " << expression->is_interpolant() << "] " <<
" [arglist: " << expression->is_arglist() << "] " <<
" [hash: " << expression->hash() << "] " <<
std::endl;
for(auto i : expression->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Content*>(node)) {
Content* expression = dynamic_cast<Content*>(node);
std::cerr << ind << "Content " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [Statement]" << std::endl;
} else if (dynamic_cast<Boolean*>(node)) {
Boolean* expression = dynamic_cast<Boolean*>(node);
std::cerr << ind << "Boolean " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
std::cerr << " [" << expression->value() << "]" << std::endl;
} else if (dynamic_cast<Color*>(node)) {
Color* expression = dynamic_cast<Color*>(node);
std::cerr << ind << "Color " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
std::cerr << " [" << expression->r() << ":" << expression->g() << ":" << expression->b() << "@" << expression->a() << "]" << std::endl;
} else if (dynamic_cast<Number*>(node)) {
Number* expression = dynamic_cast<Number*>(node);
std::cerr << ind << "Number " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [interpolant: " << expression->is_interpolant() << "] ";
std::cerr << " [" << expression->value() << expression->unit() << "]" <<
" [hash: " << expression->hash() << "] " <<
std::endl;
} else if (dynamic_cast<String_Quoted*>(node)) {
String_Quoted* expression = dynamic_cast<String_Quoted*>(node);
std::cerr << ind << "String_Quoted " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [" << prettyprint(expression->value()) << "]";
if (expression->is_delayed()) std::cerr << " [delayed]";
if (expression->sass_fix_1291()) std::cerr << " [sass_fix_1291]";
if (expression->is_interpolant()) std::cerr << " [interpolant]";
if (expression->quote_mark()) std::cerr << " [quote_mark: " << expression->quote_mark() << "]";
std::cerr << " <" << prettyprint(expression->pstate().token.ws_before()) << ">" << std::endl;
} else if (dynamic_cast<String_Constant*>(node)) {
String_Constant* expression = dynamic_cast<String_Constant*>(node);
std::cerr << ind << "String_Constant " << expression;
if (expression->concrete_type()) {
std::cerr << " " << expression->concrete_type();
}
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " [" << prettyprint(expression->value()) << "]";
if (expression->is_delayed()) std::cerr << " [delayed]";
if (expression->sass_fix_1291()) std::cerr << " [sass_fix_1291]";
if (expression->is_interpolant()) std::cerr << " [interpolant]";
std::cerr << " <" << prettyprint(expression->pstate().token.ws_before()) << ">" << std::endl;
} else if (dynamic_cast<String_Schema*>(node)) {
String_Schema* expression = dynamic_cast<String_Schema*>(node);
std::cerr << ind << "String_Schema " << expression;
std::cerr << " " << expression->concrete_type();
if (expression->is_delayed()) std::cerr << " [delayed]";
if (expression->is_interpolant()) std::cerr << " [is interpolant]";
if (expression->has_interpolant()) std::cerr << " [has interpolant]";
if (expression->is_left_interpolant()) std::cerr << " [left interpolant] ";
if (expression->is_right_interpolant()) std::cerr << " [right interpolant] ";
std::cerr << " <" << prettyprint(expression->pstate().token.ws_before()) << ">" << std::endl;
for(auto i : expression->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<String*>(node)) {
String* expression = dynamic_cast<String*>(node);
std::cerr << ind << "String " << expression;
std::cerr << " " << expression->concrete_type();
std::cerr << " (" << pstate_source_position(node) << ")";
if (expression->sass_fix_1291()) std::cerr << " [sass_fix_1291]";
if (expression->is_interpolant()) std::cerr << " [interpolant]";
std::cerr << " <" << prettyprint(expression->pstate().token.ws_before()) << ">" << std::endl;
} else if (dynamic_cast<Expression*>(node)) {
Expression* expression = dynamic_cast<Expression*>(node);
std::cerr << ind << "Expression " << expression;
std::cerr << " (" << pstate_source_position(node) << ")";
switch (expression->concrete_type()) {
case Expression::Concrete_Type::NONE: std::cerr << " [NONE]"; break;
case Expression::Concrete_Type::BOOLEAN: std::cerr << " [BOOLEAN]"; break;
case Expression::Concrete_Type::NUMBER: std::cerr << " [NUMBER]"; break;
case Expression::Concrete_Type::COLOR: std::cerr << " [COLOR]"; break;
case Expression::Concrete_Type::STRING: std::cerr << " [STRING]"; break;
case Expression::Concrete_Type::LIST: std::cerr << " [LIST]"; break;
case Expression::Concrete_Type::MAP: std::cerr << " [MAP]"; break;
case Expression::Concrete_Type::SELECTOR: std::cerr << " [SELECTOR]"; break;
case Expression::Concrete_Type::NULL_VAL: std::cerr << " [NULL_VAL]"; break;
case Expression::Concrete_Type::C_WARNING: std::cerr << " [C_WARNING]"; break;
case Expression::Concrete_Type::C_ERROR: std::cerr << " [C_ERROR]"; break;
case Expression::Concrete_Type::NUM_TYPES: std::cerr << " [NUM_TYPES]"; break;
}
std::cerr << std::endl;
} else if (dynamic_cast<Has_Block*>(node)) {
Has_Block* has_block = dynamic_cast<Has_Block*>(node);
std::cerr << ind << "Has_Block " << has_block;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << has_block->tabs() << std::endl;
if (has_block->block()) for(auto i : has_block->block()->elements()) { debug_ast(i, ind + " ", env); }
} else if (dynamic_cast<Statement*>(node)) {
Statement* statement = dynamic_cast<Statement*>(node);
std::cerr << ind << "Statement " << statement;
std::cerr << " (" << pstate_source_position(node) << ")";
std::cerr << " " << statement->tabs() << std::endl;
}
if (ind == "") std::cerr << "####################################################################\n";
}
void searchClassEntry(){
int id;
string classname;
cout<<"******************************************************"<<endl;
outputInfo();
cout<<"请输入你要跑的示例类名"<<endl;
cout<<"******************************************************"<<endl;
cin>>id;
switch (id) {
case 0:
{
cout<<"谢谢使用再会!";
exit(0);
}
case 1:
{
NumConv *numConv = new NumConv();
numConv->cinPrint();
}
break;
case 2:
{
HelloStrings *hello = new HelloStrings();
hello->helloStringOutput();
}
break;
case 3:
{
FillString *fill = new FillString();
fill->fillOperation();
}
break;
case 4:
{
getWords *getW = new getWords();
getW->readCpp();
}
case 5:
{
Return *ret = new Return();
ret->operatorCfunc();
}
break;
case 6:
{
Charlist *char1 = new Charlist();
char1->outPut();
}
break;
case 7:
{
Specify *specify = new Specify();
specify->weiOutput();
}
break;
case 8:
{
PassByValue *pass = new PassByValue();
pass->show();
}
break;
case 9:
{
PassAddress *pass = new PassAddress();
pass->showPointer();
}
break;
case 10:
{
voidPointer *voidP = new voidPointer();
voidP->opeatorPointer();
}
break;
case 11:
{
Mathops *mathops = new Mathops();
mathops->show();
}
break;
case 12:
{
printBinary *p = new printBinary();
p->printB(11);
}
break;
case 13:
{
CommaOperator *com = new CommaOperator();
com->show();
}
break;
case 14:
{
staticCast *sc = new staticCast();
sc->show();
}
break;
case 15:
{
ConstCast *con = new ConstCast();
// con->show();
con->show2();
}
break;
case 16:
{
Enum *enum1 = new Enum();
enum1->show();
enum1->show2();
enum1->showArray11();
}
break;
case 17:
{
FloatingAsBinary *fa = new FloatingAsBinary();
fa->show();
}
break;
case 18:
{
StringOperation *so = new StringOperation();
so->operatorString("heeel");
}
break;
case 19:
{
PointerLeader *pL = new PointerLeader();
pL->show();
}
break;
case 20:
{
FuncPointer *fP = new FuncPointer();
fP->func();
}
break;
case 21:
{
FunctionTable *fT = new FunctionTable();
fT->show();
}
break;
case 22:
{
StructCpp sc;
cout<<"sc.d =="<<sc.d<<endl;
}
break;
case 23:
{
TemplateTest<int,int> *temp = new TemplateTest<int,int>();
int arr1[] = {1,2,3,4,5,5,6,7,8,9,10};
//
int target = 8;
//
std::cout<<(temp->binSearch(arr1, 0, 11, target))<<endl;
//
temp->selectionSort(arr1, target);
}
break;
case 24:
{
// bingTest *bt = new bingTest();
// bind(bingTest::operator11,bt,"hello",12)();
}
break;
default:
{
cout<<"输入错误请重新输入!";
searchClassEntry();
}
break;
}
}
// status test
TEST_F(NeuralnetworksHidlTest, StatusTest) {
Return<DeviceStatus> status = device->getStatus();
ASSERT_TRUE(status.isOk());
EXPECT_EQ(DeviceStatus::AVAILABLE, static_cast<DeviceStatus>(status));
}
