Beispiel #1
0
from abapy.postproc import FieldOutput, TensorFieldOutput, VectorFieldOutput
data11 = [1., 1., 1.]
data22 = [2., 4., -1]
data12 = [1., 2., 0.]
labels = range(1, len(data11) + 1)
fo11 = FieldOutput(labels=labels, data=data11, position='node')
fo22 = FieldOutput(labels=labels, data=data22, position='node')
fo12 = FieldOutput(labels=labels, data=data12, position='node')
tensor = TensorFieldOutput(data11=fo11, data22=fo22, data12=fo12)
tensor2 = TensorFieldOutput(data11=fo22)
tensor
print(tensor)
print(tensor[1, 2])
print(tensor * 2. + 1.)
print(tensor**2)  # Piecewise power
vector = VectorFieldOutput(data1=fo11)
print(tensor * vector)  # Matrix product
print(tensor * tensor2)  # Contracted tensor product
Beispiel #2
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from abapy.postproc import FieldOutput, VectorFieldOutput
data1 = [1, 2, 3, 5, 6, 0]
data2 = [1. for i in data1]
labels = range(1, len(data1) + 1)
fo1, fo2 = FieldOutput(labels=labels, data=data1,
                       position='node'), FieldOutput(labels=labels,
                                                     data=data2,
                                                     position='node')
vector = VectorFieldOutput(data1=fo1, data2=fo2)
vector2 = VectorFieldOutput(data2=fo2)
vector  # short description
print(vector)  # long description
print(vector[6])  # Returns a VectorFieldOutput instance
print(vector[1, 4, 6])  # Picking label by label
print(vector[1:6:2])  # Slicing
print(vector.get_data(6))  # Returns 3 floats
print(vector.norm())  # Returns norm
print(vector.sum())  # returns the sum of coords
print(vector * vector2)  # Itemwise product (like numpy, unlike matlab)
print(vector.dot(vector2))  # Dot/Scalar product
print(vector.cross(vector2))  # Cross/Vector product
print(vector + 2)  # Itemwise addition
print(vector * 2)  # Itemwise multiplication
print(vector)  # Itemwise division
# print(vector / vector2)  # Itemwise division between vectors (numpy way)
# print(abs(vector))  # Absolute value
# print(vector ** 2)  # Power
# print(vector ** vector)  # Itemwize power
from abapy.postproc import FieldOutput, VectorFieldOutput
data1 = [1,2,3,5,6,0]
data2 = [1. for i in data1]
labels = range(1,len(data1)+1)
fo1, fo2 = FieldOutput(labels = labels, data=data1, position='node' ), FieldOutput(labels = labels, data=data2,position='node')
vector = VectorFieldOutput(data1 = fo1, data2 = fo2 )
vector2 = VectorFieldOutput(data2 = fo2 )
vector # short description
print vector # long description
print vector[6] # Returns a VectorFieldOutput instance
print vector[1,4,6] # Picking label by label
print vector[1:6:2] # Slicing
vector.get_data(6) # Returns 3 floats
vector.norm() # Returns norm
vector.sum() # returns the sum of coords
vector * vector2 # Itemwise product (like numpy, unlike matlab)
vector.dot(vector2) # Dot/Scalar product
vector.cross(vector2) # Cross/Vector product
vector + 2 # Itemwise addition
vector * 2 # Itemwise multiplication
vector / 2 # Itemwise division
vector / vector2 # Itemwise division between vectors (numpy way)
abs(vector) # Absolute value
vector ** 2 # Power
vector ** vector # Itemwize power
 


from abapy.postproc import FieldOutput, VectorFieldOutput
from abapy.mesh import RegularQuadMesh
mesh = RegularQuadMesh()
data1 = [2, 2, 5, 10]
data2 = [1. for i in data1]
labels = range(1, len(data1) + 1)
fo1, fo2 = FieldOutput(labels=labels, data=data1, position='node'), FieldOutput(
    labels=labels, data=data2, position='node')
vector = VectorFieldOutput(data1=fo1, data2=fo2)
out = mesh.dump2vtk() + vector.dump2vtk()
f = open('vector.vtk', 'w')
f.write("out")
f.close()
from abapy.postproc import FieldOutput, VectorFieldOutput
data1 = [1,2,3,5,6,0]
data2 = [1. for i in data1]
labels = range(1,len(data1)+1)
fo1, fo2 = FieldOutput(data=data1, labels = labels), FieldOutput(data=data2, labels = labels)
vector = VectorFieldOutput(data1 = fo1, data2 = fo2 )
print vector.get_data(6)
x, y, z = vector.get_data(5)
print x, y, z
print vector.get_data(10)
norm = vector.get_norm()

from abapy.postproc import FieldOutput, VectorFieldOutput
from abapy.mesh import RegularQuadMesh

mesh = RegularQuadMesh()
data1 = [2, 2, 5, 10]
data2 = [1.0 for i in data1]
labels = range(1, len(data1) + 1)
fo1, fo2 = (
    FieldOutput(labels=labels, data=data1, position="node"),
    FieldOutput(labels=labels, data=data2, position="node"),
)
vector = VectorFieldOutput(data1=fo1, data2=fo2)
out = mesh.dump2vtk() + vector.dump2vtk()
f = open("vector.vtk", "w")
f.write("out")
f.close()
Beispiel #7
0
from abapy.postproc import FieldOutput, VectorFieldOutput
data1 = [1, 2, 3, 5, 6, 0]
data2 = [1. for i in data1]
labels = range(1, len(data1) + 1)
fo1, fo2 = FieldOutput(data=data1, labels=labels), FieldOutput(
    data=data2, labels=labels)
vector = VectorFieldOutput(data1=fo1, data2=fo2)
print(vector.get_data(6))
x, y, z = vector.get_data(5)
print(x, y, z)
print(vector.get_data(10))
#norm = vector.get_norm()