"""Plotting data."""
from pathlib import Path
from typing import Union
import logging
from matplotlib.patches import Rectangle, Patch
import matplotlib.pyplot as plt
from mpl_toolkits.axes_grid1 import make_axes_locatable
import numpy as np
from topostats.logs.logs import LOGGER_NAME
from topostats.theme import Colormap
# pylint: disable=too-many-instance-attributes
# pylint: disable=too-many-locals
# pylint: disable=too-many-arguments
# pylint: disable=dangerous-default-value
LOGGER = logging.getLogger(LOGGER_NAME)
# pylint: disable=too-many-instance-attributes
# pylint: disable=too-many-arguments
# pylint: disable=too-many-locals
# pylint: disable=dangerous-default-value
[docs]
class Images:
"""Plots image arrays"""
def __init__(
self,
data: np.array,
output_dir: Union[str, Path],
filename: str,
pixel_to_nm_scaling: float = 1.0,
masked_array: np.array = None,
title: str = None,
image_type: str = "non-binary",
image_set: str = "core",
core_set: bool = False,
pixel_interpolation: Union[str, None] = None,
cmap: str = "nanoscope",
mask_cmap: str = "jet_r",
region_properties: dict = None,
zrange: list = [None, None],
colorbar: bool = True,
axes: bool = True,
save: bool = True,
save_format: str = "png",
histogram_log_axis: bool = True,
histogram_bins: int = 200,
dpi: Union[str, float] = "figure",
) -> None:
"""
Initialise the class.
Parameters
----------
data : np.array
Numpy array to plot.
output_dir : Union[str, Path]
Output directory to save the file to.
filename : Union[str, Path]
Filename to save image as.
pixel_to_nm_scaling : float
The scaling factor showing the real length of 1 pixel, in nm.
masked_array : np.ndarray
Optional mask array to overlay onto an image.
title : str
Title for plot.
image_type : str
The image data type - binary or non-binary.
image_set : str
The set of images to process - core or all.
core_set : bool
Flag to identify image as part of the core image set or not.
pixel_interpolation: Union[str, None]
Interpolation to use (default: None).
cmap : str
Colour map to use (default 'nanoscope', 'afmhot' also available).
mask_cmap : str
Colour map to use for the secondary (masked) data (default 'jet_r', 'blu' proivides more contrast).
region_properties: dict
Dictionary of region properties, adds bounding boxes if specified.
zrange : list
Lower and upper bound to clip core images to.
colorbar: bool
Optionally add a colorbar to plots, default is False.
axes: bool
Optionally add/remove axes from the image.
save: bool
Whether to save the image.
save_format: str
Format to save the image as.
histogram_log_axis: bool
Optionally use a logarithmic y axis for the histogram plots.
histogram_bin: int
Number of bins for histograms to use.
dpi: Union[str, float]
The resolution of the saved plot (default 'figure').
"""
self.data = data
self.output_dir = Path(output_dir)
self.filename = filename
self.pixel_to_nm_scaling = pixel_to_nm_scaling
self.masked_array = masked_array
self.title = title
self.image_type = image_type
self.image_set = image_set
self.core_set = core_set
self.interpolation = pixel_interpolation
self.cmap = Colormap(cmap).get_cmap()
self.mask_cmap = Colormap(mask_cmap).get_cmap()
self.region_properties = region_properties
self.zrange = zrange
self.colorbar = colorbar
self.axes = axes
self.save = save
self.save_format = save_format
self.histogram_log_axis = histogram_log_axis
self.histogram_bins = histogram_bins
self.dpi = dpi
[docs]
def plot_histogram_and_save(self):
"""
Plot and save a histogram of the height map
Returns
-------
fig: plt.figure.Figure
Matplotlib.pyplot figure object
ax: plt.axes._subplots.AxesSubplot
Matplotlib.pyplot axes object
"""
if self.image_set == "all":
fig, ax = plt.subplots(1, 1, figsize=(8, 8))
ax.hist(self.data.flatten().astype(float), bins=self.histogram_bins, log=self.histogram_log_axis)
ax.set_xlabel("pixel height")
if self.histogram_log_axis:
ax.set_ylabel("frequency in image (log)")
else:
ax.set_ylabel("frequency in image")
plt.title(self.title)
plt.savefig(
(self.output_dir / f"{self.filename}_histogram.{self.save_format}"),
bbox_inches="tight",
pad_inches=0.5,
dpi=self.dpi,
)
plt.close()
return fig, ax
return None
[docs]
def plot_and_save(self):
"""
Plot and save the images with savefig or imsave depending on config file parameters.
Returns
-------
fig: plt.figure.Figure
Matplotlib.pyplot figure object
ax: plt.axes._subplots.AxesSubplot
Matplotlib.pyplot axes object
"""
fig, ax = None, None
if self.save:
if self.image_set == "all" or self.core_set:
if self.axes or self.colorbar:
fig, ax = self.save_figure()
else:
if isinstance(self.masked_array, np.ndarray) or self.region_properties:
fig, ax = self.save_figure()
else:
self.save_array_figure()
LOGGER.info(
f"[{self.filename}] : Image saved to : {str(self.output_dir / self.filename)}" f".{self.save_format}"
)
return fig, ax
[docs]
def add_bounding_boxes_to_plot(fig, ax, shape, region_properties: list, pixel_to_nm_scaling: float) -> None:
"""Add the bounding boxes to a plot.
Parameters
----------
fig: plt.figure.Figure
Matplotlib.pyplot figure object
ax: plt.axes._subplots.AxesSubplot.
Matplotlib.pyplot axes object
shape: tuple
Tuple of the image-to-be-plot's shape.
region_properties:
Region properties to add bounding boxes from.
pixel_to_nm_scaling: float
The scaling factor from px to nm.
Returns
-------
fig: plt.figure.Figure
Matplotlib.pyplot figure object.
ax: plt.axes._subplots.AxesSubplot
Matplotlib.pyplot axes object.
"""
for region in region_properties:
min_y, min_x, max_y, max_x = (x * pixel_to_nm_scaling for x in region.bbox)
# Correct y-axis
min_y = (shape[0] * pixel_to_nm_scaling) - min_y
max_y = (shape[0] * pixel_to_nm_scaling) - max_y
rectangle = Rectangle((min_x, min_y), max_x - min_x, max_y - min_y, fill=False, edgecolor="white", linewidth=2)
ax.add_patch(rectangle)
return fig, ax