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Guilhem Saurel
hpp-rbprm-corba
Commits
9e3c34d8
Commit
9e3c34d8
authored
Apr 25, 2019
by
Pierre Fernbach
Browse files
[script] add talos_circle scripts
parent
0313f992
Changes
3
Hide whitespace changes
Inline
Side-by-side
script/scenarios/memmo/__init__.py
0 → 100644
View file @
9e3c34d8
script/scenarios/memmo/talos_circle.py
0 → 100644
View file @
9e3c34d8
from
hpp.corbaserver.rbprm.talos
import
Robot
from
hpp.gepetto
import
Viewer
from
tools.display_tools
import
*
import
time
print
"Plan guide trajectory ..."
import
talos_circle_path
as
tp
print
"Done."
import
time
statusFilename
=
tp
.
statusFilename
pId
=
0
f
=
open
(
statusFilename
,
"a"
)
if
tp
.
ps
.
numberPaths
()
>
0
:
print
"Path planning OK."
f
.
write
(
"Planning_success: True"
+
"
\n
"
)
f
.
close
()
else
:
print
"Error during path planning"
f
.
write
(
"Planning_success: False"
+
"
\n
"
)
f
.
close
()
import
sys
sys
.
exit
(
1
)
fullBody
=
Robot
()
# Set the bounds for the root
fullBody
.
setJointBounds
(
"root_joint"
,
[
-
2
,
2
,
-
2
,
2
,
0.9
,
1.05
])
## reduce bounds on joints along x, to put conservative condition on the contact generation for sideway steps
joint6L_bounds_prev
=
fullBody
.
getJointBounds
(
'leg_left_6_joint'
)
joint2L_bounds_prev
=
fullBody
.
getJointBounds
(
'leg_left_2_joint'
)
joint6R_bounds_prev
=
fullBody
.
getJointBounds
(
'leg_right_6_joint'
)
joint2R_bounds_prev
=
fullBody
.
getJointBounds
(
'leg_right_2_joint'
)
fullBody
.
setJointBounds
(
'leg_left_6_joint'
,[
-
0.3
,
0.3
])
fullBody
.
setJointBounds
(
'leg_left_2_joint'
,[
-
0.3
,
0.3
])
fullBody
.
setJointBounds
(
'leg_right_6_joint'
,[
-
0.3
,
0.3
])
fullBody
.
setJointBounds
(
'leg_right_2_joint'
,[
-
0.3
,
0.3
])
# add the 6 extraDof for velocity and acceleration (see *_path.py script)
fullBody
.
client
.
robot
.
setDimensionExtraConfigSpace
(
tp
.
extraDof
)
fullBody
.
client
.
robot
.
setExtraConfigSpaceBounds
([
-
tp
.
vMax
,
tp
.
vMax
,
-
tp
.
vMax
,
tp
.
vMax
,
0
,
0
,
-
tp
.
aMax
,
tp
.
aMax
,
-
tp
.
aMax
,
tp
.
aMax
,
0
,
0
])
ps
=
tp
.
ProblemSolver
(
fullBody
)
ps
.
setParameter
(
"Kinodynamic/velocityBound"
,
tp
.
vMax
)
ps
.
setParameter
(
"Kinodynamic/accelerationBound"
,
tp
.
aMax
)
#load the viewer
try
:
v
=
tp
.
Viewer
(
ps
,
viewerClient
=
tp
.
v
.
client
,
displayCoM
=
True
)
except
Exception
:
print
"No viewer started !"
class
FakeViewer
():
def
__init__
(
self
):
return
def
__call__
(
self
,
q
):
return
def
addLandmark
(
self
,
a
,
b
):
return
v
=
FakeViewer
()
# load a reference configuration
q_ref
=
fullBody
.
referenceConfig
[::]
+
[
0
]
*
6
#q_ref = fullBody.referenceConfig_legsApart[::]+[0]*6
q_init
=
q_ref
[::]
fullBody
.
setReferenceConfig
(
q_ref
)
if
abs
(
tp
.
q_goal
[
1
])
<=
abs
(
tp
.
q_goal
[
0
])
:
fullBody
.
setPostureWeights
(
fullBody
.
postureWeights
[::]
+
[
0
]
*
6
)
heuristicR
=
"fixedStep08"
heuristicL
=
"fixedStep08"
print
"Use weight for straight walk"
else
:
fullBody
.
setPostureWeights
(
fullBody
.
postureWeights_straff
[::]
+
[
0
]
*
6
)
print
"Use weight for straff walk"
if
tp
.
q_goal
[
1
]
<
0
:
print
"start with right leg"
heuristicL
=
"static"
heuristicR
=
"fixedStep06"
else
:
print
"start with left leg"
heuristicR
=
"static"
heuristicL
=
"fixedStep06"
fullBody
.
setCurrentConfig
(
q_init
)
print
"Generate limb DB ..."
tStart
=
time
.
time
()
# generate databases :
nbSamples
=
100000
fullBody
.
addLimb
(
fullBody
.
rLegId
,
fullBody
.
rleg
,
fullBody
.
rfoot
,
fullBody
.
rLegOffset
,
fullBody
.
rLegNormal
,
fullBody
.
rLegx
,
fullBody
.
rLegy
,
nbSamples
,
heuristicR
,
0.01
,
kinematicConstraintsPath
=
fullBody
.
rLegKinematicConstraints
,
kinematicConstraintsMin
=
0.85
)
fullBody
.
runLimbSampleAnalysis
(
fullBody
.
rLegId
,
"ReferenceConfiguration"
,
True
)
fullBody
.
addLimb
(
fullBody
.
lLegId
,
fullBody
.
lleg
,
fullBody
.
lfoot
,
fullBody
.
lLegOffset
,
fullBody
.
rLegNormal
,
fullBody
.
lLegx
,
fullBody
.
lLegy
,
nbSamples
,
heuristicL
,
0.01
,
kinematicConstraintsPath
=
fullBody
.
lLegKinematicConstraints
,
kinematicConstraintsMin
=
0.85
)
fullBody
.
runLimbSampleAnalysis
(
fullBody
.
lLegId
,
"ReferenceConfiguration"
,
True
)
tGenerate
=
time
.
time
()
-
tStart
print
"Done."
print
"Databases generated in : "
+
str
(
tGenerate
)
+
" s"
#define initial and final configurations :
configSize
=
fullBody
.
getConfigSize
()
-
fullBody
.
client
.
robot
.
getDimensionExtraConfigSpace
()
q_init
[
0
:
7
]
=
tp
.
ps
.
configAtParam
(
pId
,
0
)[
0
:
7
]
# use this to get the correct orientation
q_goal
=
q_init
[::];
q_goal
[
0
:
7
]
=
tp
.
ps
.
configAtParam
(
pId
,
tp
.
ps
.
pathLength
(
pId
))[
0
:
7
]
vel_init
=
tp
.
ps
.
configAtParam
(
pId
,
0
)[
tp
.
indexECS
:
tp
.
indexECS
+
3
]
acc_init
=
tp
.
ps
.
configAtParam
(
pId
,
0
)[
tp
.
indexECS
+
3
:
tp
.
indexECS
+
6
]
vel_goal
=
tp
.
ps
.
configAtParam
(
pId
,
tp
.
ps
.
pathLength
(
pId
))[
tp
.
indexECS
:
tp
.
indexECS
+
3
]
acc_goal
=
[
0
,
0
,
0
]
robTreshold
=
3
# copy extraconfig for start and init configurations
q_init
[
configSize
:
configSize
+
3
]
=
vel_init
[::]
q_init
[
configSize
+
3
:
configSize
+
6
]
=
acc_init
[::]
q_goal
[
configSize
:
configSize
+
3
]
=
vel_goal
[::]
q_goal
[
configSize
+
3
:
configSize
+
6
]
=
[
0
,
0
,
0
]
q_init
[
2
]
=
q_ref
[
2
]
q_goal
[
2
]
=
q_ref
[
2
]
fullBody
.
setStaticStability
(
True
)
fullBody
.
setCurrentConfig
(
q_init
)
v
(
q_init
)
fullBody
.
setCurrentConfig
(
q_goal
)
v
(
q_goal
)
v
.
addLandmark
(
'talos/base_link'
,
0.3
)
v
(
q_init
)
#fullBody.setReferenceConfig(fullBody.referenceConfig_legsApart[::]+[0]*6)
# specify the full body configurations as start and goal state of the problem
if
q_goal
[
1
]
<
0
:
# goal on the right side of the circle, start motion with right leg first
fullBody
.
setStartState
(
q_init
,[
fullBody
.
rLegId
,
fullBody
.
lLegId
])
fullBody
.
setEndState
(
q_goal
,[
fullBody
.
rLegId
,
fullBody
.
lLegId
])
else
:
fullBody
.
setStartState
(
q_init
,[
fullBody
.
lLegId
,
fullBody
.
rLegId
])
fullBody
.
setEndState
(
q_goal
,[
fullBody
.
lLegId
,
fullBody
.
rLegId
])
print
"Generate contact plan ..."
tStart
=
time
.
time
()
configs
=
fullBody
.
interpolate
(
0.01
,
pathId
=
pId
,
robustnessTreshold
=
1
,
filterStates
=
True
,
quasiStatic
=
True
)
tInterpolateConfigs
=
time
.
time
()
-
tStart
print
"Done."
print
"Contact plan generated in : "
+
str
(
tInterpolateConfigs
)
+
" s"
print
"number of configs :"
,
len
(
configs
)
#raw_input("Press Enter to display the contact sequence ...")
#displayContactSequence(v,configs)
if
len
(
configs
)
<
2
:
cg_success
=
False
print
"Error during contact generation."
else
:
cg_success
=
True
print
"Contact generation Done."
if
abs
(
configs
[
-
1
][
0
]
-
tp
.
q_goal
[
0
])
<
0.01
and
abs
(
configs
[
-
1
][
1
]
-
tp
.
q_goal
[
1
])
<
0.01
and
(
len
(
fullBody
.
getContactsVariations
(
len
(
configs
)
-
2
,
len
(
configs
)
-
1
))
==
1
):
print
"Contact generation successful."
cg_reach_goal
=
True
else
:
print
"Contact generation failed to reach the goal."
cg_reach_goal
=
False
if
len
(
configs
)
>
5
:
cg_too_many_states
=
True
cg_success
=
False
print
"Discarded contact sequence because it was too long."
else
:
cg_too_many_states
=
False
f
=
open
(
statusFilename
,
"a"
)
f
.
write
(
"cg_success: "
+
str
(
cg_success
)
+
"
\n
"
)
f
.
write
(
"cg_reach_goal: "
+
str
(
cg_reach_goal
)
+
"
\n
"
)
f
.
write
(
"cg_too_many_states: "
+
str
(
cg_too_many_states
)
+
"
\n
"
)
f
.
close
()
if
(
not
cg_success
)
or
cg_too_many_states
or
(
not
cg_reach_goal
):
import
sys
sys
.
exit
(
1
)
# put back original bounds for wholebody methods
fullBody
.
setJointBounds
(
'leg_left_6_joint'
,
joint6L_bounds_prev
)
fullBody
.
setJointBounds
(
'leg_left_2_joint'
,
joint2L_bounds_prev
)
fullBody
.
setJointBounds
(
'leg_right_6_joint'
,
joint6R_bounds_prev
)
fullBody
.
setJointBounds
(
'leg_right_2_joint'
,
joint2R_bounds_prev
)
script/scenarios/memmo/talos_circle_path.py
0 → 100644
View file @
9e3c34d8
from
hpp.corbaserver.rbprm.talos_abstract
import
Robot
from
hpp.gepetto
import
Viewer
from
hpp.corbaserver
import
ProblemSolver
import
numpy
as
np
import
time
statusFilename
=
"infos.log"
vMax
=
0.5
# linear velocity bound for the root
aMax
=
0.5
# linear acceleration bound for the root
extraDof
=
6
mu
=
0.5
# coefficient of friction
# Creating an instance of the helper class, and loading the robot
# Creating an instance of the helper class, and loading the robot
rbprmBuilder
=
Robot
()
# Define bounds for the root : bounding box of the scenario
rbprmBuilder
.
setJointBounds
(
"root_joint"
,
[
-
2
,
2
,
-
2
,
2
,
0.95
,
1.05
])
# The following lines set constraint on the valid configurations:
# a configuration is valid only if all limbs can create a contact with the corresponding afforcances type
rbprmBuilder
.
setFilter
([
'talos_lleg_rom'
,
'talos_rleg_rom'
])
rbprmBuilder
.
setAffordanceFilter
(
'talos_lleg_rom'
,
[
'Support'
,])
rbprmBuilder
.
setAffordanceFilter
(
'talos_rleg_rom'
,
[
'Support'
])
# We also bound the rotations of the torso. (z, y, x)
rbprmBuilder
.
boundSO3
([
-
1.7
,
1.7
,
-
0.1
,
0.1
,
-
0.1
,
0.1
])
# Add 6 extraDOF to the problem, used to store the linear velocity and acceleration of the root
rbprmBuilder
.
client
.
robot
.
setDimensionExtraConfigSpace
(
extraDof
)
# We set the bounds of this extraDof with velocity and acceleration bounds (expect on z axis)
rbprmBuilder
.
client
.
robot
.
setExtraConfigSpaceBounds
([
-
vMax
,
vMax
,
-
vMax
,
vMax
,
0
,
0
,
-
aMax
,
aMax
,
-
aMax
,
aMax
,
0
,
0
])
indexECS
=
rbprmBuilder
.
getConfigSize
()
-
rbprmBuilder
.
client
.
robot
.
getDimensionExtraConfigSpace
()
# Creating an instance of HPP problem solver
ps
=
ProblemSolver
(
rbprmBuilder
)
# define parameters used by various methods :
ps
.
setParameter
(
"Kinodynamic/velocityBound"
,
vMax
)
ps
.
setParameter
(
"Kinodynamic/accelerationBound"
,
aMax
)
ps
.
setParameter
(
"DynamicPlanner/sizeFootX"
,
0.2
)
ps
.
setParameter
(
"DynamicPlanner/sizeFootY"
,
0.12
)
ps
.
setParameter
(
"DynamicPlanner/friction"
,
0.5
)
# sample only configuration with null velocity and acceleration :
ps
.
setParameter
(
"ConfigurationShooter/sampleExtraDOF"
,
False
)
# initialize the viewer :
from
hpp.gepetto
import
ViewerFactory
vf
=
ViewerFactory
(
ps
)
# load the module to analyse the environnement and compute the possible contact surfaces
from
hpp.corbaserver.affordance.affordance
import
AffordanceTool
afftool
=
AffordanceTool
()
afftool
.
setAffordanceConfig
(
'Support'
,
[
0.5
,
0.03
,
0.00005
])
afftool
.
loadObstacleModel
(
"hpp_environments"
,
"multicontact/ground"
,
"planning"
,
vf
)
try
:
v
=
vf
.
createViewer
(
displayArrows
=
True
)
except
Exception
:
print
"No viewer started !"
class
FakeViewer
():
def
__init__
(
self
):
return
def
__call__
(
self
,
q
):
return
v
=
FakeViewer
()
#afftool.visualiseAffordances('Support', v, v.color.lightBrown)
q_init
=
rbprmBuilder
.
getCurrentConfig
();
q_init
[
0
:
3
]
=
[
0
,
0
,
1.
]
q_init
[
3
:
7
]
=
[
0
,
0
,
0
,
1
]
# sample random position on a circle of radius 2m
radius
=
0.3
import
random
random
.
seed
()
alpha
=
random
.
uniform
(
0.
,
2.
*
np
.
pi
)
print
"Test on a circle, alpha = "
,
alpha
q_goal
=
q_init
[::]
q_goal
[
0
:
3
]
=
[
radius
*
np
.
sin
(
alpha
),
-
radius
*
np
.
cos
(
alpha
),
1.
]
print
"initial root position : "
,
q_init
[
0
:
3
]
print
"final root position : "
,
q_goal
[
0
:
3
]
ps
.
setInitialConfig
(
q_init
)
ps
.
addGoalConfig
(
q_goal
)
# write problem in files :
f
=
open
(
statusFilename
,
"w"
)
f
.
write
(
"q_init= "
+
str
(
q_init
[
0
:
3
])
+
"
\n
"
)
f
.
write
(
"q_goal= "
+
str
(
q_goal
[
0
:
3
])
+
"
\n
"
)
f
.
close
()
# Choosing RBPRM shooter and path validation methods.
ps
.
selectConfigurationShooter
(
"RbprmShooter"
)
ps
.
selectPathValidation
(
"RbprmPathValidation"
,
0.05
)
# Choosing kinodynamic methods :
ps
.
selectSteeringMethod
(
"RBPRMKinodynamic"
)
ps
.
selectDistance
(
"Kinodynamic"
)
ps
.
selectPathPlanner
(
"DynamicPlanner"
)
# Solve the planning problem :
t
=
ps
.
solve
()
print
"Guide planning time : "
,
t
try
:
# display solution :
from
hpp.gepetto
import
PathPlayer
pp
=
PathPlayer
(
v
)
pp
.
dt
=
0.1
pp
.
displayVelocityPath
(
0
)
#v.client.gui.setVisibility("path_0_root","ALWAYS_ON_TOP")
pp
.
dt
=
0.01
#pp(0)
except
Exception
:
pass
# move the robot out of the view before computing the contacts
q_far
=
q_init
[::]
q_far
[
2
]
=
-
2
v
(
q_far
)
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