Add Function Block
openDAQ™ provides processing features through Function Blocks. They can process Signals either on a Device or on a host PC where the SDK is running.
The SDK is bundled with a few Function Blocks:
These Function Blocks serve as an example of what is possible to achieve with openDAQ™ SDK. They are not meant to be used in production code. The following examples use the Statistics Function Block to show how to add a Function Block. The same methods can be used to add other function blocks. |
Get a list of available function blocks
The SDK provides a method to get a list of all available types of Function Blocks. This step is optional if the application uses a fixed configuration of modules and the available Function Blocks are predefined.
The result is a dictionary with Function Block id as a key and Function Block type information as a value of the dictionary.
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Cpp
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Python
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C#
// Get available Function Block types
DictPtr<IString, IFunctionBlockType> functionBlockTypes = instance.getAvailableFunctionBlockTypes();
for (const auto& functionBlockType : functionBlockTypes.getKeys())
std::cout << functionBlockType << std::endl;
# Get available Function Block types
function_block_types = instance.available_function_block_types
for function_block_type in function_block_types.keys():
print(function_block_type)
// Get available Function Block types
IDictObject<StringObject, FunctionBlockType> functionBlockTypes = instance.AvailableFunctionBlockTypes;
foreach (string functionBlockTypeName in functionBlockTypes.Keys)
Console.WriteLine(functionBlockTypeName);
Add a Function Block
To create and add a Function Block, specify its id in the add Function Block method. If there is no such Function Block available, the method will fail. The result is the Function Block object.
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Cpp
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Python
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C#
// Add Function Block on the host computer
FunctionBlockPtr functionBlock = instance.addFunctionBlock("RefFBModuleStatistics");
# Add Function Block on the host computer
function_block = instance.add_function_block("RefFBModuleStatistics")
// Add Function Block on the host computer
FunctionBlock functionBlock = instance.AddFunctionBlock("RefFBModuleStatistics");
Get function block type information
It is possible to get additional detailed information about the type of the Function Block:
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through Function Block instance,
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through dictionary returned by get available function blocks method.
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Cpp
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Python
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C#
// Print Function Block type info
FunctionBlockTypePtr functionBlockType = functionBlock.getFunctionBlockType();
std::cout << functionBlockType.getId() << std::endl;
std::cout << functionBlockType.getName() << std::endl;
std::cout << functionBlockType.getDescription() << std::endl;
# Print Function Block type info
function_block_type = function_block.function_block_type
print(function_block_type.id)
print(function_block_type.name)
print(function_block_type.description)
// Print Function Block type info
FunctionBlockType functionBlockType = functionBlock.FunctionBlockType;
Console.WriteLine(functionBlockType.Id);
Console.WriteLine(functionBlockType.Name);
Console.WriteLine(functionBlockType.Description);
Full listing
The following is a fully working example of listing available and adding Function Blocks.
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Cpp
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Python
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C#
#include <opendaq/opendaq.h>
#include <iostream>
using namespace daq;
int main()
{
// Create an openDAQ(TM) Instance, loading modules from the current directory
InstancePtr instance = Instance();
// Add simulated device
DevicePtr device = instance.addDevice("daqref://device0");
// Get available Function Block types
DictPtr<IString, IFunctionBlockType> functionBlockTypes = instance.getAvailableFunctionBlockTypes();
for (const auto& functionBlockType : functionBlockTypes.getKeys())
std::cout << functionBlockType << std::endl;
// If there is no Statistics Function Block available, exit with an error
if (!functionBlockTypes.hasKey("RefFBModuleStatistics"))
return 1;
// Add Function Block on the host computer
FunctionBlockPtr functionBlock = instance.addFunctionBlock("RefFBModuleStatistics");
// Print Function Block type info
FunctionBlockTypePtr functionBlockType = functionBlock.getFunctionBlockType();
std::cout << functionBlockType.getId() << std::endl;
std::cout << functionBlockType.getName() << std::endl;
std::cout << functionBlockType.getDescription() << std::endl;
return 0;
}
import opendaq
# Create an openDAQ(TM) Instance, loading modules from the current directory
instance = opendaq.Instance()
# Add simulated device
device = instance.add_device('daqref://device0')
# Get available Function Block types
function_block_types = instance.available_function_block_types
for function_block_type in function_block_types.keys():
print(function_block_type)
# If there is no Statistics Function Block available, exit with an error
if not "RefFBModuleStatistics" in function_block_types.keys():
print('Function block not found')
exit(1)
# Add Function Block on the host computer
function_block = instance.add_function_block("RefFBModuleStatistics")
# Print Function Block type info
function_block_type = function_block.function_block_type
print(function_block_type.id)
print(function_block_type.name)
print(function_block_type.description)
using Daq.Core.Types;
using Daq.Core.Objects;
using Daq.Core.OpenDAQ;
// Create an openDAQ(TM) Instance, loading modules from the current directory
Instance instance = OpenDAQFactory.Instance(MODULE_PATH);
// Add simulated device
Device device = instance.AddDevice("daqref://device0");
// Get available Function Block types
IDictObject<StringObject, FunctionBlockType> functionBlockTypes = instance.AvailableFunctionBlockTypes;
foreach (string functionBlockTypeName in functionBlockTypes.Keys)
Console.WriteLine(functionBlockTypeName);
// If there is no Statistics Function Block available, exit with an error
if (!functionBlockTypes.ContainsKey("RefFBModuleStatistics"))
return 1;
// Add Function Block on the host computer
FunctionBlock functionBlock = instance.AddFunctionBlock("RefFBModuleStatistics");
// Print Function Block type info
FunctionBlockType functionBlockType = functionBlock.FunctionBlockType;
Console.WriteLine(functionBlockType.Id);
Console.WriteLine(functionBlockType.Name);
Console.WriteLine(functionBlockType.Description);
return 0;