Simon Danisch / Aug 06 2019

Walking Robot

Manifest.toml
Project.toml
isdir("robot") || mkdir("robot")
cp(
Project.toml
, "robot/Manifest.toml", force = true)
cp(
Project.toml
, "robot/Project.toml", force = true)
1.0s
Install (Julia)
Minimal Julia 1.1
"robot/Project.toml"
apt-get update
apt-get install libxml2 build-essential
14.6s
Install (Bash in Julia)
Minimal Julia 1.1
]activate robot; instantiate; build
233.4s
Install (Julia)
Minimal Julia 1.1
using LinearAlgebra, QPControl, RigidBodyDynamics, StaticArrays, AtlasRobot
using OSQP, DataStructures, QPWalkingControl, PlanarConvexHulls, Rotations
using RigidBodySim, MathOptInterface, MechanismGeometries
using GeometryTypes, AbstractPlotting, WGLMakie, FileIO, CoordinateTransformations
using RigidBodySim.Visualization: DiscreteCallback, u_modified!
using RigidBodyDynamics: PDControl, Contact
using OSQP.MathOptInterfaceOSQP: OSQPSettings
const MOI = MathOptInterface
0.3s
Install (Julia)
Minimal Julia 1.1
MathOptInterface
isdir("robot") || mkdir("robot")
cp(
Project.toml
, "robot/Manifest.toml", force = true)
cp(
Project.toml
, "robot/Project.toml", force = true)
0.6s
AOT Compile (Julia)
Install
"robot/Project.toml"
]activate robot
0.3s
AOT Compile (Julia)
Install
using LinearAlgebra, QPControl, RigidBodyDynamics, StaticArrays, AtlasRobot
using OSQP, DataStructures, QPWalkingControl, PlanarConvexHulls, Rotations
using RigidBodySim, MathOptInterface, MechanismGeometries
using GeometryTypes, AbstractPlotting, WGLMakie, FileIO, CoordinateTransformations
using RigidBodySim.Visualization: DiscreteCallback, u_modified!
using RigidBodyDynamics: PDControl, Contact
using OSQP.MathOptInterfaceOSQP: OSQPSettings
const MOI = MathOptInterface
meshload(x::MechanismGeometries.MeshFile) = load(x.filename, GLNormalUVMesh)
meshload(x::AbstractGeometry) = x
function to_transform(state, elem)
    trans = transform_to_root(state, elem.frame)
    affine = CoordinateTransformations.AffineMap(MechanismGeometries.rotation(trans), MechanismGeometries.translation(trans))
    t =  affine  elem.transform
    H = [
        transform_deriv(t, Vec(0., 0, 0)) t(Vec(0., 0, 0));
        Vec(0, 0, 0, 1)'
    ]
    return Mat4f0(H)
end
0.3s
AOT Compile (Julia)
Install
to_transform (generic function with 1 method)
mechanism = AtlasRobot.mechanism(add_flat_ground=true)
state = MechanismState(mechanism)
robot = visual_elements(
  mechanism,
  URDFVisuals(AtlasRobot.urdfpath(),
    package_path=[AtlasRobot.packagepath()])
)
scene = Scene(show_axis = false)
parts = map(robot) do elem
  m = meshload(elem.geometry)
  mesh!(scene, m, color = elem.color, model = to_transform(state, elem))[end]
end
scene
92.6s
AOT Compile (Julia)
Install
snoop.jl
]activate robot
0.3s
AOT Compile (Julia)
Install
using PackageCompiler
PackageCompiler.snoop(
snoop.jl
, "/results/precompiles.jl", verbose = true)
239.8s
AOT Compile (Julia)
Install
precompiles.jl
syso, sysold = PackageCompiler.compile_incremental(
precompiles.jl
)
515.4s
AOT Compile (Julia)
Install
("/root/.julia/packages/PackageCompiler/sTrwT/sysimg/sys.so", "/usr/local/julia/lib/julia/sys.so")
cp(syso, sysold, force = true)
0.6s
AOT Compile (Julia)
Install
"/usr/local/julia/lib/julia/sys.so"