Beispiel #1
0
SettingsOption*
Settings::OptionValue(OptionsSetting* setting) const
{
	BVariant value = Value(setting);
	return value.Type() == B_STRING_TYPE
		? setting->OptionByID(value.ToString())
		: setting->DefaultOption();
}
status_t
TableCellIntegerEditor::GetValueForInput(::Value*& _output) const
{
	BVariant variantValue;
	if (!InitialValue()->ToVariant(variantValue))
		return B_NO_MEMORY;

	return GetValueFormatter()->GetValueFromFormattedInput(Text(),
		variantValue.Type(), _output);
}
bool
TableCellIntegerEditor::ValidateInput() const
{
	BVariant variantValue;
	if (!InitialValue()->ToVariant(variantValue))
		return false;

	return GetValueFormatter()->ValidateFormattedValue(Text(),
		variantValue.Type());
}
Beispiel #4
0
	float GetPreferredWidth(const BVariant& value, BView* targetView) const
	{
		// get the preferred width from the node's designated renderer
		if (value.Type() == VALUE_NODE_TYPE) {
			ModelNode* node = dynamic_cast<ModelNode*>(value.ToReferenceable());
			if (node != NULL && node->GetValue() != NULL
				&& node->TableCellRenderer() != NULL) {
				return node->TableCellRenderer()->PreferredValueWidth(
					node->GetValue(), targetView);
			}
		}

		return fColumn.BTitledColumn::GetPreferredWidth(NULL, targetView);
	}
Beispiel #5
0
	void DrawValue(const BVariant& value, BRect rect, BView* targetView)
	{
		// draw the node's value with the designated renderer
		if (value.Type() == VALUE_NODE_TYPE) {
			ModelNode* node = dynamic_cast<ModelNode*>(value.ToReferenceable());
			if (node != NULL && node->GetValue() != NULL
				&& node->TableCellRenderer() != NULL) {
				node->TableCellRenderer()->RenderValue(node->GetValue(), rect,
					targetView);
				return;
			}
		}

		// fall back to drawing an empty string
		fField.SetString("");
		fField.SetWidth(Width());
		fColumn.DrawField(&fField, rect, targetView);
	}
Beispiel #6
0
void
InspectorWindow::MessageReceived(BMessage* message)
{
	switch (message->what) {
		case MSG_THREAD_STATE_CHANGED:
		{
			::Thread* thread;
			if (message->FindPointer("thread",
					reinterpret_cast<void**>(&thread)) != B_OK) {
				break;
			}

			BReference< ::Thread> threadReference(thread, true);
			if (thread->State() == THREAD_STATE_STOPPED) {
				if (fCurrentBlock != NULL) {
					_SetCurrentBlock(NULL);
					_SetToAddress(fCurrentAddress);
				}
			}
			break;
		}
		case MSG_INSPECT_ADDRESS:
		{
			target_addr_t address = 0;
			if (message->FindUInt64("address", &address) != B_OK) {
				if (fAddressInput->TextView()->TextLength() == 0)
					break;

				fExpressionInfo->SetTo(fAddressInput->Text());

				fListener->ExpressionEvaluationRequested(fLanguage,
					fExpressionInfo);
			} else
				_SetToAddress(address);
			break;
		}
		case MSG_EXPRESSION_EVALUATED:
		{
			BString errorMessage;
			BReference<ExpressionResult> reference;
			ExpressionResult* value = NULL;
			if (message->FindPointer("value",
					reinterpret_cast<void**>(&value)) == B_OK) {
				reference.SetTo(value, true);
				if (value->Kind() == EXPRESSION_RESULT_KIND_PRIMITIVE) {
					Value* primitive = value->PrimitiveValue();
					BVariant variantValue;
					primitive->ToVariant(variantValue);
					if (variantValue.Type() == B_STRING_TYPE) {
						errorMessage.SetTo(variantValue.ToString());
					} else {
						_SetToAddress(variantValue.ToUInt64());
						break;
					}
				}
			} else {
				status_t result = message->FindInt32("result");
				errorMessage.SetToFormat("Failed to evaluate expression: %s",
					strerror(result));
			}

			BAlert* alert = new(std::nothrow) BAlert("Inspect Address",
				errorMessage.String(), "Close");
			if (alert != NULL)
				alert->Go();
			break;
		}

		case MSG_NAVIGATE_PREVIOUS_BLOCK:
		case MSG_NAVIGATE_NEXT_BLOCK:
		{
			if (fCurrentBlock != NULL) {
				target_addr_t address = fCurrentBlock->BaseAddress();
				if (message->what == MSG_NAVIGATE_PREVIOUS_BLOCK)
					address -= fCurrentBlock->Size();
				else
					address += fCurrentBlock->Size();

				BMessage setMessage(MSG_INSPECT_ADDRESS);
				setMessage.AddUInt64("address", address);
				PostMessage(&setMessage);
			}
			break;
		}
		case MSG_MEMORY_BLOCK_RETRIEVED:
		{
			TeamMemoryBlock* block = NULL;
			status_t result;
			if (message->FindPointer("block",
					reinterpret_cast<void **>(&block)) != B_OK
				|| message->FindInt32("result", &result) != B_OK) {
				break;
			}

			if (result == B_OK) {
				_SetCurrentBlock(block);
				fPreviousBlockButton->SetEnabled(true);
				fNextBlockButton->SetEnabled(true);
			} else {
				BString errorMessage;
				errorMessage.SetToFormat("Unable to read address 0x%" B_PRIx64
					": %s", block->BaseAddress(), strerror(result));

				BAlert* alert = new(std::nothrow) BAlert("Inspect address",
					errorMessage.String(), "Close");
				if (alert == NULL)
					break;

				alert->Go(NULL);
				block->ReleaseReference();
			}
			break;
		}
		case MSG_EDIT_CURRENT_BLOCK:
		{
			_SetEditMode(true);
			break;
		}
		case MSG_MEMORY_DATA_CHANGED:
		{
			if (fCurrentBlock == NULL)
				break;

			target_addr_t address;
			if (message->FindUInt64("address", &address) == B_OK
				&& address >= fCurrentBlock->BaseAddress()
				&& address < fCurrentBlock->BaseAddress()
					+ fCurrentBlock->Size()) {
				fCurrentBlock->Invalidate();
				_SetEditMode(false);
				fListener->InspectRequested(address, this);
			}
			break;
		}
		case MSG_COMMIT_MODIFIED_BLOCK:
		{
			// TODO: this could conceivably be extended to detect the
			// individual modified regions and only write those back.
			// That would require potentially submitting multiple separate
			// write requests, and thus require tracking all the writes being
			// waited upon for completion.
			fListener->MemoryWriteRequested(fCurrentBlock->BaseAddress(),
				fMemoryView->GetEditedData(), fCurrentBlock->Size());
			break;
		}
		case MSG_REVERT_MODIFIED_BLOCK:
		{
			_SetEditMode(false);
			break;
		}
		default:
		{
			BWindow::MessageReceived(message);
			break;
		}
	}
}