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make_plasmas.py
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make_plasmas.py
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"""
This python script demonstrates the creation of plasmas
"""
import math
import numpy as np
import paramak
import plotly.graph_objects as go
def plot_plasma(plasma, name=""):
"""Extract points that make up the plasma and creates a plotly trace"""
traces=[]
traces.append(go.Scatter(
x=[plasma.major_radius],
y=[0],
mode="markers",
name="major_radius",
marker={"color": plasma.color},
))
traces.append(go.Scatter(
x=[row[0] for row in plasma.points],
y=[row[1] for row in plasma.points],
mode="markers",
name="points",
marker={"color": plasma.color},
))
traces.append(go.Scatter(
x=[plasma.low_point[0]],
y=[plasma.low_point[1]],
mode="markers",
name="low_point",
marker={"color": plasma.color},
))
traces.append(go.Scatter(
x=[plasma.high_point[0]],
y=[plasma.high_point[1]],
mode="markers",
name="high_point",
marker={"color": plasma.color},
))
traces.append(go.Scatter(
x=[plasma.inner_equatorial_point[0]],
y=[plasma.inner_equatorial_point[1]],
mode="markers",
name="inner_equatorial_point",
marker={"color": plasma.color},
))
traces.append(go.Scatter(
x=[plasma.outer_equatorial_point[0]],
y=[plasma.outer_equatorial_point[1]],
mode="markers",
name="outer_equatorial_point",
marker={"color": plasma.color},
))
return traces
def make_plasma(major_radius, minor_radius, triangularity, elongation, name, color):
"""Creates a plasma object from argument inputs"""
plasma = paramak.Plasma(major_radius = major_radius,
minor_radius = minor_radius,
triangularity = triangularity,
elongation = elongation)
plasma.name = "plasma"
plasma.stp_filename = name + ".stp"
plasma.single_null = True
plasma.color = color
plasma.rotation_angle = 180
plasma.find_points()
plasma.export_2d_image(name + ".png")
plasma.export_html(name + ".html")
plasma.export_stp(name + ".stp")
plasma.create_solid()
return plasma
def make_plasma_plasmaboundaries(A, major_radius, minor_radius, triangularity,
elongation, name, color,
config='single-null'):
"""Creates a plasma object from argument inputs"""
plasma = paramak.PlasmaBoundaries(
A=A,
major_radius=major_radius,
minor_radius=minor_radius,
triangularity=triangularity,
elongation=elongation,
configuration=config)
plasma.name = "plasma"
plasma.export_2d_image(name + ".png")
plasma.export_html(name + ".html")
plasma.export_stp(name + ".stp")
plasma.create_solid()
return plasma
def main():
ITER_plasma = make_plasma(
name="ITER_plasma",
major_radius=620,
minor_radius=210,
triangularity=0.33,
elongation=1.85,
color="blue",
)
ITER_plasma_plasmaboundaries = make_plasma_plasmaboundaries(
name="ITER_plasma_plasmaboundaries",
A=-0.155,
major_radius=620,
minor_radius=210,
triangularity=0.33,
elongation=1.85,
color="orange",
)
EU_DEMO_plasma = make_plasma(
name="EU_DEMO_plasma",
major_radius=910,
minor_radius=290,
triangularity=0.33,
elongation=1.59,
color="red",
)
ST_plasma = make_plasma(
name="ST_plasma",
major_radius=170,
minor_radius=129,
triangularity=0.55,
elongation=2.3,
color="green",
)
AST_plasma = make_plasma(
name="AST_plasma",
major_radius=170,
minor_radius=129,
triangularity=-0.55,
elongation=2.3,
color="black",
)
fig = go.Figure()
fig.add_traces(plot_plasma(plasma=ITER_plasma))
fig.add_traces(plot_plasma(plasma=ITER_plasma_plasmaboundaries))
fig.add_traces(plot_plasma(plasma=EU_DEMO_plasma))
fig.add_traces(plot_plasma(plasma=ST_plasma))
fig.add_traces(plot_plasma(plasma=AST_plasma))
fig.show()
fig.write_html("all_plasma_and_points.html")
if __name__ == "__main__":
main()