Note
Go to the end to download the full example code
Add shapes#
Display one shapes layer ontop of one image layer using the add_shapes
and
add_image
APIs. When the window is closed it will print the coordinates of
your shapes.
import numpy as np
from skimage import data
import napari
# add the image
viewer = napari.view_image(data.camera(), name='photographer')
# create a list of polygons
polygons = [
np.array([[11, 13], [111, 113], [22, 246]]),
np.array(
[
[505, 60],
[402, 71],
[383, 42],
[251, 95],
[212, 59],
[131, 137],
[126, 187],
[191, 204],
[171, 248],
[211, 260],
[273, 243],
[264, 225],
[430, 173],
[512, 160],
]
),
np.array(
[
[310, 382],
[229, 381],
[209, 401],
[221, 411],
[258, 411],
[300, 412],
[306, 435],
[268, 434],
[265, 454],
[298, 461],
[307, 461],
[307, 507],
[349, 510],
[352, 369],
[330, 366],
[330, 366],
]
),
]
# add polygons
layer = viewer.add_shapes(
polygons,
shape_type='polygon',
edge_width=1,
edge_color='coral',
face_color='royalblue',
name='shapes',
)
# shapes of each type can also be added via their respective add_<shape_type> method
# e.g. for the polygons above:
# layer = viewer.add_shapes(name='shapes') # create empty layer
# layer.add_polygons(
# polygons,
# edge_width=1,
# edge_color='coral',
# face_color='royalblue',
# )
# change some attributes of the layer
layer.selected_data = set(range(layer.nshapes))
layer.current_edge_width = 5
layer.selected_data = set()
# add an ellipse to the layer
ellipse = np.array([[59, 222], [110, 289], [170, 243], [119, 176]])
layer.add(
ellipse,
shape_type='ellipse',
edge_width=5,
edge_color='coral',
face_color='purple',
)
# To save layers to svg:
# viewer.layers.save('viewer.svg', plugin='svg')
if __name__ == '__main__':
napari.run()