Difference between revisions of "Architecture Tutorial: Retrieve laser scans"
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The interface of this module is described in [[Architecture:Specification_of_BABEL_Interfaces#Common_Sensory_Interface| this section]] and this tutorial explains how to write a client module to query the latest laser scans from ''BS_RangeSensors''. | The interface of this module is described in [[Architecture:Specification_of_BABEL_Interfaces#Common_Sensory_Interface| this section]] and this tutorial explains how to write a client module to query the latest laser scans from ''BS_RangeSensors''. | ||
+ | |||
+ | |||
+ | '''Notice that this tutorial only covers the specific case of writing the codification of the client module in the C/C++ language.''' | ||
+ | |||
+ | |||
+ | <br> | ||
== Steps == | == Steps == | ||
+ | |||
+ | === Calling ''getObservations'' === | ||
+ | |||
+ | At the point in your module where you need to request the laser scans, the service "getObservations" from "BS_RangeSensors" must be invoked. This is the definition of that service, just to know how it looks like: | ||
+ | |||
+ | <center> | ||
+ | [[Image:tut-scans_service.jpg]] | ||
+ | </center> | ||
+ | |||
+ | |||
+ | To call that service, '''you must use the aracne-atom "request-synchronous&blocking"'''. It can be inserted in your code from the BABEL_MD menu. | ||
+ | A dialog will appear asking you which module and service you want to call. Write this information by hand or by using the button "From ICE..." as in the image: | ||
+ | |||
+ | <center> | ||
+ | [[Image:tut-scans_wizard1.jpg]] | ||
+ | </center> | ||
+ | |||
+ | Accept and a wizard will appear asking you for the arguments of the service. Fill it out as in the figure: | ||
+ | |||
+ | <center> | ||
+ | [[Image:tut-scans_wizard2.jpg]] | ||
+ | </center> | ||
+ | |||
+ | |||
+ | Now, this aracne atom must have some preparatory C++ code '''before''' it, and some C++ code '''after''' it to process the results. | ||
+ | |||
+ | You can use the following fragments of code, self-explained in its comments. | ||
+ | '''Pay attention to''': | ||
+ | * The label "YOUR CODE HERE" for the place where to process the laser scan. | ||
+ | * The point "ARACNE_ATOM_HERE" at which the aracne atom "request-synchronous&blocking" must be inserted. | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | |||
+ | <cpp> | ||
+ | using namespace mrpt; | ||
+ | using namespace mrpt::utils; | ||
+ | using namespace mrpt::slam; | ||
+ | |||
+ | // Retrieve the latest laser scan | ||
+ | // ----------------------------------------------------- | ||
+ | BABEL::BS_RangeSensors::SeqOfBytes *SF; // The sequence of bytes sent by the server module | ||
+ | BABEL::Boolean sensorError; // Sensor error? | ||
+ | bool err_var; // BABEL communication error? | ||
+ | |||
+ | /**** ARACNE_ATOM_HERE ****/ | ||
+ | |||
+ | // Communications error? Propagate it: | ||
+ | if (err_var) | ||
+ | { | ||
+ | // communication error | ||
+ | } | ||
+ | else | ||
+ | { | ||
+ | // service requested ok | ||
+ | |||
+ | CObservation2DRangeScanPtr laserScan; // A smart-pointer to the laser scan (read below) | ||
+ | |||
+ | if (!sensorError) | ||
+ | { | ||
+ | try | ||
+ | { | ||
+ | // De-serialize the object: | ||
+ | mrpt::utils::CSerializablePtr obj = SeqOfBytes2MRPTObject(SF); | ||
+ | |||
+ | // Assure it's a valid observation (if not, the "catch" block will take control): | ||
+ | ASSERT_(obj) | ||
+ | ASSERT_( IS_CLASS(obj,CSensoryFrame) ) | ||
+ | |||
+ | CSensoryFramePtr theSF = CSensoryFramePtr(obj); | ||
+ | |||
+ | laserScan = theSF->getObservationByClass<CObservation2DRangeScan>(); // Get the first scan, if any. | ||
+ | } | ||
+ | catch(std::exception &e) | ||
+ | { | ||
+ | // Process ERROR, message in e.what() | ||
+ | } | ||
+ | } | ||
+ | |||
+ | // Free memory of the Sequence | ||
+ | delete SF; | ||
+ | SF = NULL; | ||
+ | |||
+ | |||
+ | // Now, we have the latest scan laser in the variable "laserScan", which | ||
+ | // is a smart pointer to a mrpt::slam::CObservation2DRangeScan | ||
+ | // ------------------------------------------------------------------------- | ||
+ | if (laserScan) | ||
+ | { | ||
+ | // ******* YOUR CODE HERE ************** | ||
+ | // Access to the object data members to get the scan data. | ||
+ | // Refer to: http://babel.isa.uma.es/mrpt/reference/svn/classmrpt_1_1slam_1_1_c_observation2_d_range_scan.html | ||
+ | // Examples: | ||
+ | // Scan size: laserScan->scan.size() | ||
+ | // Scan point[0]: laserScan->scan[0] | ||
+ | // Scan point[0] is valid: laserScan->validRange[0]!=0 | ||
+ | } | ||
+ | else | ||
+ | { | ||
+ | // For some reason (comms error, hardware error, etc...) there is no laser scan. | ||
+ | } | ||
+ | } | ||
+ | </cpp> | ||
+ | |||
+ | === Auxiliary code === | ||
+ | |||
+ | Add the following auxiliary function to your module "Auxiliary logic" section, since this function is used in the code above: | ||
+ | |||
+ | <cpp> | ||
+ | // SeqOfBytes2MRPTObject: Convert a BABEL sequence of bytes into a MRPT object. | ||
+ | // IMPORTANT: "T of seqofbytes" must be a POINTER to a BABEL sequence, not a reference to it. | ||
+ | template <typename T> | ||
+ | mrpt::utils::CSerializablePtr SeqOfBytes2MRPTObject(const T &seqofbytes) | ||
+ | { | ||
+ | if (seqofbytes->length()==0) | ||
+ | return mrpt::utils::CSerializablePtr(); | ||
+ | mrpt::utils::CMemoryStream memBlock; | ||
+ | memBlock.assignMemoryNotOwn(&(*seqofbytes)[0], seqofbytes->length() ); | ||
+ | return memBlock.ReadObject(); | ||
+ | } | ||
+ | </cpp> | ||
+ | |||
+ | === Non-deportabilities of the module === | ||
+ | |||
+ | |||
+ | If your module didn't use MRPT before adding these code fragments, it must be inserted by: | ||
+ | * Selecting the tab "Non-deportabilities" in BABEL_MD. | ||
+ | * Select "Execution". | ||
+ | * Add "mrpt-core" from the list below. | ||
+ | * Save the module. | ||
+ | |||
+ | You'll need MRPT installed as [[Documentation:Install | explained here]]. |
Latest revision as of 17:58, 23 July 2009
Contents
Overview
Following the Robotic Architecture proposed here, laser scans from either a simulated or a real robot should be accessible from a single module, named BS_RangeSensors.
The interface of this module is described in this section and this tutorial explains how to write a client module to query the latest laser scans from BS_RangeSensors.
Notice that this tutorial only covers the specific case of writing the codification of the client module in the C/C++ language.
Steps
Calling getObservations
At the point in your module where you need to request the laser scans, the service "getObservations" from "BS_RangeSensors" must be invoked. This is the definition of that service, just to know how it looks like:
To call that service, you must use the aracne-atom "request-synchronous&blocking". It can be inserted in your code from the BABEL_MD menu.
A dialog will appear asking you which module and service you want to call. Write this information by hand or by using the button "From ICE..." as in the image:
Accept and a wizard will appear asking you for the arguments of the service. Fill it out as in the figure:
Now, this aracne atom must have some preparatory C++ code before it, and some C++ code after it to process the results.
You can use the following fragments of code, self-explained in its comments. Pay attention to:
- The label "YOUR CODE HERE" for the place where to process the laser scan.
- The point "ARACNE_ATOM_HERE" at which the aracne atom "request-synchronous&blocking" must be inserted.
<cpp> using namespace mrpt; using namespace mrpt::utils; using namespace mrpt::slam;
// Retrieve the latest laser scan // ----------------------------------------------------- BABEL::BS_RangeSensors::SeqOfBytes *SF; // The sequence of bytes sent by the server module BABEL::Boolean sensorError; // Sensor error? bool err_var; // BABEL communication error?
/**** ARACNE_ATOM_HERE ****/
// Communications error? Propagate it: if (err_var) { // communication error } else { // service requested ok
CObservation2DRangeScanPtr laserScan; // A smart-pointer to the laser scan (read below)
if (!sensorError) { try { // De-serialize the object: mrpt::utils::CSerializablePtr obj = SeqOfBytes2MRPTObject(SF);
// Assure it's a valid observation (if not, the "catch" block will take control): ASSERT_(obj) ASSERT_( IS_CLASS(obj,CSensoryFrame) )
CSensoryFramePtr theSF = CSensoryFramePtr(obj);
laserScan = theSF->getObservationByClass<CObservation2DRangeScan>(); // Get the first scan, if any. } catch(std::exception &e) { // Process ERROR, message in e.what() } }
// Free memory of the Sequence delete SF; SF = NULL;
// Now, we have the latest scan laser in the variable "laserScan", which
// is a smart pointer to a mrpt::slam::CObservation2DRangeScan
// -------------------------------------------------------------------------
if (laserScan)
{
// ******* YOUR CODE HERE **************
// Access to the object data members to get the scan data.
// Refer to: http://babel.isa.uma.es/mrpt/reference/svn/classmrpt_1_1slam_1_1_c_observation2_d_range_scan.html
// Examples:
// Scan size: laserScan->scan.size()
// Scan point[0]: laserScan->scan[0]
// Scan point[0] is valid: laserScan->validRange[0]!=0
}
else
{
// For some reason (comms error, hardware error, etc...) there is no laser scan.
}
}
</cpp>
Auxiliary code
Add the following auxiliary function to your module "Auxiliary logic" section, since this function is used in the code above:
<cpp> // SeqOfBytes2MRPTObject: Convert a BABEL sequence of bytes into a MRPT object. // IMPORTANT: "T of seqofbytes" must be a POINTER to a BABEL sequence, not a reference to it. template <typename T> mrpt::utils::CSerializablePtr SeqOfBytes2MRPTObject(const T &seqofbytes) { if (seqofbytes->length()==0) return mrpt::utils::CSerializablePtr(); mrpt::utils::CMemoryStream memBlock;
memBlock.assignMemoryNotOwn(&(*seqofbytes)[0], seqofbytes->length() );
return memBlock.ReadObject(); } </cpp>
Non-deportabilities of the module
If your module didn't use MRPT before adding these code fragments, it must be inserted by:
- Selecting the tab "Non-deportabilities" in BABEL_MD.
- Select "Execution".
- Add "mrpt-core" from the list below.
- Save the module.
You'll need MRPT installed as explained here.