SL2TVEC Test Driver Issues
There are some Test Driver Generation issues related to determining object mapping information and parameter ordering, and this can limit fully automated test driver generation for RTW auto-generated code.
Function Parameter Ordering
In the release Simulink/Stateflow 2007a there is additional information now provided to support additional automated test driver generation for both Simulink and Stateflow. Support for these capabilities will be incorporated into upcoming releases.
LDRA Integration for Model References
The Simulink/Stateflow code generation process for model references is different from that of non-model reference code. The follow briefly describes how to use capabilities in T-VEC Tester for Simulink and Stateflow 4.1.0.
The typical processes include:
- RTW Build
- Translate - update LDRA Schema Reference first
- Load T-VEC VGS
- Build T-VEC Project to generate test vectors
- Update Model Reference Names and Types
- Build Test Drivers
- Copy Generated LDRA .tcf file to code directory
- Execute LDRA
- Load Code File
- Invoke TBrun and Load New Test Sequence
- Add necessary Pre/Post includes
LDRA Schema Reference
However, there is a special schema for LDRA:
Place this in the Advance Translation Options, as shown in the following image.
Update Model Reference Names and Types
The typical location where code is generated for a model reference is reflected by the following figure.
The names extracted from the exported model information does not necessarily correspond with the different the code generation works. There is tool provided with the release called
get_rtw_types.bat --- Download it here get_rtw_types.bat
An easy way to use the program is to put it in the c:\t-vec\bin directory. This is usually defined as one of your path variables. Then use the VGS Toolbox under Tools | Toolbox and set up as shown below:
Simply select the subsytem from the VGS Project window and then execute the get_rtw_types from the Tools menu. It will update the object mappings. Do this for each subsystem that needs to have the object mappings updated.
What the get_rtw_types program does
This is a perl program that takes two parameters:
- Project Directory
- Subsystem Name
It then updates the object mapping associated with that subsystem by looking through the .h file associated with the subsystem. The object mapping provides the name of the code in the user-defined variable called: <simulinkSubsystemName>. It updates two key user defined variable:
<rtDWStruct> - defines the localDW variable relating to state data <rtZCEStruct> - defines the localZCE variable relating to triggers
Build Test Drivers
The referenced schema produces a .tcf file in the test_drivers directory. If the particular subsystem is related to a state chart, then those dependent subsystems are include in the parent's .tcf file. This allows one file to be executed for verification of test coverage. The reference to a dependent subsystem is defined by the user-defined variable dependencies as shown in the following example.
<dependencies> = '__triggerRisingB,signal_light__sf__a';
The LDRA tool provides a significant number of features. This description provides the following minimal steps to execute the generated LDRA script .tcf file against the generated code.
Load Code File
The code is generated the auto generated code file that is the target of the test.
====Start TBrun and Load New Test Sequence This is where the generated .tcf file is loaded into TBrun. If you copied the .tcf file to the code directory. Load that .tcf file as the test sequence. Otherwise load it from the test drivers directory where it was produced by VGS.
Execute the Run Drivers command or execute the commands separately:
- Generate Driver
- Build Driver
- Execute Driver
- Process Driver Output
Note: during the Generate Driver process, you might see the following LDRA Question - Answer None: