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CCAController.cpp
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Fri, Nov 8, 16:21
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Sun, Nov 10, 16:21 (2 d)
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R6622 liboncilla
CCAController.cpp
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#include <sys/prctl.h>
#include <rsc/logging/LoggerFactory.h>
#include <rsb/Factory.h>
#include <rsb/converter/Repository.h>
#include <rsb/converter/ProtocolBufferConverter.h>
#include <cca/Beat.h>
#include <cca/processing/TimedProcessing.h>
#include <cca/processing/RestlessProcessing.h>
#include <rci/dto/JointAngles.h>
#include <rci/dto/converter/JointAnglesConverter.h>
#include <rci/dto/converter/TranslationConverter.h>
#include "libamarsi-quad/libamarsi-quad.h"
#include "WebotsSynchronizer.h"
using
namespace
std
;
using
namespace
boost
;
using
namespace
rsc
;
using
namespace
rsc
::
logging
;
using
namespace
rsb
;
using
namespace
rsb
::
converter
;
using
namespace
rst
::
converter
::
rci
;
using
namespace
cca
;
using
namespace
cca
::
rci
;
using
namespace
cca
::
rci
::
driver
;
/**
* - Interface are the Resource Nodes
* - Resource Nodes set up in main program (if possible
* - Either Synchronizer or ResourceNodes connected to Webots
* -- Resource Nodes is probably faster, but may be more
* duplicate code
* -- Synchronizer seems too much, but is all in one place and
* closer to the real hardware driver.
*/
int
main
(
int
argc
,
char
*
argv
[])
{
prctl
(
PR_SET_DUMPABLE
,
1
,
0
,
0
,
0
);
LoggerFactory
::
getInstance
()
->
reconfigure
(
Logger
::
LEVEL_WARN
);
/**
* Register converters for Joint Angles
*/
boost
::
shared_ptr
<
JointAnglesConverter
>
converter
(
new
JointAnglesConverter
());
stringConverterRepository
()
->
registerConverter
(
converter
);
boost
::
shared_ptr
<
TranslationConverter
>
tconverter
(
new
TranslationConverter
());
stringConverterRepository
()
->
registerConverter
(
tconverter
);
/**
* Setup the main beat
*/
GlobalBeatPtr
heartbeat
;
heartbeat
=
GlobalBeat
::
create
(
10
);
std
::
cout
<<
heartbeat
->
print
();
std
::
cout
<<
"Initializing main beat ..."
<<
std
::
endl
;
sleep
(
1
);
/**
* Set up resource nodes
* Knee, hip, trunk and ankle nodes.
*/
cca
::
CCANodePtr
lfhip
,
rfhip
,
lhhip
,
rhhip
;
cca
::
CCANodePtr
lfknee
,
rfknee
,
lhknee
,
rhknee
;
cca
::
CCANodePtr
lfankle
,
rfankle
,
lhankle
,
rhankle
;
cca
::
CCANodePtr
trunk
;
/* Hip Nodes */
lfhip
=
OncillaHip
::
create
(
"LEFT_FORE_HIP"
);
rfhip
=
OncillaHip
::
create
(
"RIGHT_FORE_HIP"
);
lhhip
=
OncillaHip
::
create
(
"LEFT_HIND_HIP"
);
rhhip
=
OncillaHip
::
create
(
"RIGHT_HIND_HIP"
);
lfhip
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
rfhip
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
lhhip
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
rhhip
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
/* Knee Nodes */
lfknee
=
OncillaKnee
::
create
(
"LEFT_FORE_KNEE"
);
rfknee
=
OncillaKnee
::
create
(
"RIGHT_FORE_KNEE"
);
lhknee
=
OncillaKnee
::
create
(
"LEFT_HIND_KNEE"
);
rhknee
=
OncillaKnee
::
create
(
"RIGHT_HIND_KNEE"
);
lfknee
->
setProcessingStrategy
(
TimedProcessing
::
create
());
rfknee
->
setProcessingStrategy
(
TimedProcessing
::
create
());
lhknee
->
setProcessingStrategy
(
TimedProcessing
::
create
());
rhknee
->
setProcessingStrategy
(
TimedProcessing
::
create
());
/* Ankle Nodes */
lfankle
=
OncillaAnkle
::
create
(
"LEFT_FORE_ANKLE"
);
rfankle
=
OncillaAnkle
::
create
(
"RIGHT_FORE_ANKLE"
);
lhankle
=
OncillaAnkle
::
create
(
"LEFT_HIND_ANKLE"
);
rhankle
=
OncillaAnkle
::
create
(
"RIGHT_HIND_ANKLE"
);
lfankle
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
rfankle
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
lhankle
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
rhankle
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
/* Trunk Node */
trunk
=
OncillaTrunk
::
create
(
"TRUNK"
);
trunk
->
setProcessingStrategy
(
RestlessProcessing
::
create
());
/**
* Set up remote interface to Webots simulator
*/
CCANodePtr
sync
=
WebotsSynchronizer
::
create
(
argc
,
argv
);
sync
->
setProcessingStrategy
(
TimedProcessing
::
create
(
1
));
std
::
cout
<<
"Simulator created ... "
<<
std
::
endl
;
heartbeat
->
registerReceiver
(
sync
);
heartbeat
->
registerReceiver
(
lfknee
);
heartbeat
->
registerReceiver
(
rfknee
);
heartbeat
->
registerReceiver
(
lhknee
);
heartbeat
->
registerReceiver
(
rhknee
);
std
::
cout
<<
"Simulator now connected to the bus ... "
<<
std
::
endl
;
/**
* Connect nodes
* @todo Also via CCA?
* LEFT_FORE_HIP, //!< LEFT_FORE_HIP Actuator that drive the left fore hip joint.
* RIGHT_FORE_HIP, //!< RIGHT_FORE_HIP Actuator that drive the right fore hip joint.
* LEFT_HIND_HIP, //!< LEFT_HIND_HIP Actuator that drive the left hind hip joint.
* RIGHT_HIND_HIP, //!< RIGHT_HIND_HIP Actuator that drive the right hind hip joint.
* LEFT_FORE_KNEE, //!< LEFT_FORE_KNEE Actuator that drive the left fore knee joint.
* RIGHT_FORE_KNEE, //!< RIGHT_FORE_KNEE Actuator that drive the right fore knee joint.
* LEFT_HIND_KNEE, //!< LEFT_HIND_KNEE Actuator that drive the left hind knee joint.
* RIGHT_HIND_KNEE, //!< RIGHT_HIND_KNEE Actuator that drive the right hind knee joint.
* LEFT_FORE_TOE, //!< LEFT_FORE_TOE disabled, here for eventual improvement
* RIGHT_FORE_TOE, //!< RIGHT_FORE_TOE disabled, here for eventual improvement
* LEFT_HIND_TOE, //!< LEFT_HIND_TOE disabled, here for eventual improvement
* RIGHT_HIND_TOE, //!< RIGHT_HIND_TOE disabled, here for eventual improvement
*/
WebotsSynchronizerPtr
s
=
static_pointer_cast
<
WebotsSynchronizer
>
(
sync
);
s
->
registerQuadNode
(
lfhip
,
amarsi
::
LEFT_FORE_HIP
);
s
->
registerQuadNode
(
rfhip
,
amarsi
::
RIGHT_FORE_HIP
);
s
->
registerQuadNode
(
lhhip
,
amarsi
::
LEFT_HIND_HIP
);
s
->
registerQuadNode
(
rhhip
,
amarsi
::
RIGHT_HIND_HIP
);
s
->
registerQuadNode
(
lfknee
,
amarsi
::
LEFT_FORE_KNEE
);
s
->
registerQuadNode
(
rfknee
,
amarsi
::
RIGHT_FORE_KNEE
);
s
->
registerQuadNode
(
lhknee
,
amarsi
::
LEFT_HIND_KNEE
);
s
->
registerQuadNode
(
rhknee
,
amarsi
::
RIGHT_HIND_KNEE
);
s
->
registerQuadNode
(
lfankle
,
amarsi
::
LEFT_FORE_TOE
);
s
->
registerQuadNode
(
rfankle
,
amarsi
::
RIGHT_FORE_TOE
);
s
->
registerQuadNode
(
lhankle
,
amarsi
::
LEFT_HIND_TOE
);
s
->
registerQuadNode
(
rhankle
,
amarsi
::
RIGHT_HIND_TOE
);
/**
* Connect resource nodes to the outside world
*/
std
::
cout
<<
"Connecting resource nodes to the bus ... "
<<
std
::
endl
;
try
{
// Knee inputs
lfknee
->
configureInputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/command/nodes/angles/lfknee"
));
rfknee
->
configureInputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/command/nodes/angles/rfknee"
));
lhknee
->
configureInputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/command/nodes/angles/lhknee"
));
rhknee
->
configureInputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/command/nodes/angles/rhknee"
));
// Hip inputs
lfhip
->
configureInputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/command/nodes/angles/lhhip"
));
rfhip
->
configureInputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/command/nodes/angles/rfhip"
));
lhhip
->
configureInputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/command/nodes/angles/lhhip"
));
rhhip
->
configureInputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/command/nodes/angles/rhhip"
));
// Knee outputs
lfknee
->
configureOutputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/status/nodes/angles/lfknee"
));
rfknee
->
configureOutputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/status/nodes/angles/rfknee"
));
lhknee
->
configureOutputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/status/nodes/angles/lhknee"
));
rhknee
->
configureOutputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/status/nodes/angles/rhknee"
));
// Hip outputs
lfhip
->
configureOutputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/status/nodes/angles/lfhip"
));
rfhip
->
configureOutputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/status/nodes/angles/rfhip"
));
lhhip
->
configureOutputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/status/nodes/angles/lhhip"
));
rhhip
->
configureOutputPort
(
0
,
PortConfiguration
::
REMOTE
(
"/oncilla/status/nodes/angles/rhhip"
));
}
catch
(
std
::
runtime_error
e
)
{
std
::
cout
<<
"[RemoteWebots] Caught RSB exception!"
<<
std
::
endl
;
std
::
cout
<<
e
.
what
()
<<
std
::
endl
;
sleep
(
10
);
}
catch
(
std
::
exception
e
)
{
std
::
cout
<<
"[RemoteWebots] Caught exception!"
<<
std
::
endl
;
std
::
cout
<<
e
.
what
()
<<
std
::
endl
;
sleep
(
10
);
}
/**
* Run the whole thing
*/
boost
::
thread
beating
(
bind
(
&
GlobalBeat
::
run
,
heartbeat
));
dynamic_pointer_cast
<
WebotsSynchronizer
>
(
sync
)
->
run
();
beating
.
join
();
return
EXIT_SUCCESS
;
}
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