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import cv2 | |
import matplotlib | |
import numpy as np | |
import seaborn as sns | |
import matplotlib.pyplot as plt | |
from pathlib import Path | |
import typing | |
from typing import Dict, Any, Optional, Tuple, List, Union | |
def plot_images( | |
imgs: List[np.ndarray], | |
titles: Optional[List[str]] = None, | |
cmaps: Union[str, List[str]] = "gray", | |
dpi: int = 100, | |
size: Optional[int] = 5, | |
pad: float = 0.5, | |
) -> plt.Figure: | |
"""Plot a set of images horizontally. | |
Args: | |
imgs: a list of NumPy or PyTorch images, RGB (H, W, 3) or mono (H, W). | |
titles: a list of strings, as titles for each image. | |
cmaps: colormaps for monochrome images. If a single string is given, | |
it is used for all images. | |
dpi: DPI of the figure. | |
size: figure size in inches (width). If not provided, the figure | |
size is determined automatically. | |
pad: padding between subplots, in inches. | |
Returns: | |
The created figure. | |
""" | |
n = len(imgs) | |
if not isinstance(cmaps, list): | |
cmaps = [cmaps] * n | |
figsize = (size * n, size * 6 / 5) if size is not None else None | |
fig, ax = plt.subplots(1, n, figsize=figsize, dpi=dpi) | |
if n == 1: | |
ax = [ax] | |
for i in range(n): | |
ax[i].imshow(imgs[i], cmap=plt.get_cmap(cmaps[i])) | |
ax[i].get_yaxis().set_ticks([]) | |
ax[i].get_xaxis().set_ticks([]) | |
ax[i].set_axis_off() | |
for spine in ax[i].spines.values(): # remove frame | |
spine.set_visible(False) | |
if titles: | |
ax[i].set_title(titles[i]) | |
fig.tight_layout(pad=pad) | |
return fig | |
def plot_color_line_matches( | |
lines: List[np.ndarray], | |
correct_matches: Optional[np.ndarray] = None, | |
lw: float = 2.0, | |
indices: Tuple[int, int] = (0, 1), | |
) -> matplotlib.figure.Figure: | |
"""Plot line matches for existing images with multiple colors. | |
Args: | |
lines: List of ndarrays of size (N, 2, 2) representing line segments. | |
correct_matches: Optional bool array of size (N,) indicating correct | |
matches. If not None, display wrong matches with a low alpha. | |
lw: Line width as float pixels. | |
indices: Indices of the images to draw the matches on. | |
Returns: | |
The modified matplotlib figure. | |
""" | |
n_lines = lines[0].shape[0] | |
colors = sns.color_palette("husl", n_colors=n_lines) | |
np.random.shuffle(colors) | |
alphas = np.ones(n_lines) | |
if correct_matches is not None: | |
alphas[~np.array(correct_matches)] = 0.2 | |
fig = plt.gcf() | |
ax = typing.cast(List[matplotlib.axes.Axes], fig.axes) | |
assert len(ax) > max(indices) | |
axes = [ax[i] for i in indices] | |
fig.canvas.draw() | |
# Plot the lines | |
for a, l in zip(axes, lines): | |
# Transform the points into the figure coordinate system | |
transFigure = fig.transFigure.inverted() | |
endpoint0 = transFigure.transform(a.transData.transform(l[:, 0])) | |
endpoint1 = transFigure.transform(a.transData.transform(l[:, 1])) | |
fig.lines += [ | |
matplotlib.lines.Line2D( | |
(endpoint0[i, 0], endpoint1[i, 0]), | |
(endpoint0[i, 1], endpoint1[i, 1]), | |
zorder=1, | |
transform=fig.transFigure, | |
c=colors[i], | |
alpha=alphas[i], | |
linewidth=lw, | |
) | |
for i in range(n_lines) | |
] | |
return fig | |
def make_matching_figure( | |
img0: np.ndarray, | |
img1: np.ndarray, | |
mkpts0: np.ndarray, | |
mkpts1: np.ndarray, | |
color: np.ndarray, | |
titles: Optional[List[str]] = None, | |
kpts0: Optional[np.ndarray] = None, | |
kpts1: Optional[np.ndarray] = None, | |
text: List[str] = [], | |
dpi: int = 75, | |
path: Optional[Path] = None, | |
pad: float = 0.0, | |
) -> Optional[plt.Figure]: | |
"""Draw image pair with matches. | |
Args: | |
img0: image0 as HxWx3 numpy array. | |
img1: image1 as HxWx3 numpy array. | |
mkpts0: matched points in image0 as Nx2 numpy array. | |
mkpts1: matched points in image1 as Nx2 numpy array. | |
color: colors for the matches as Nx4 numpy array. | |
titles: titles for the two subplots. | |
kpts0: keypoints in image0 as Kx2 numpy array. | |
kpts1: keypoints in image1 as Kx2 numpy array. | |
text: list of strings to display in the top-left corner of the image. | |
dpi: dots per inch of the saved figure. | |
path: if not None, save the figure to this path. | |
pad: padding around the image as a fraction of the image size. | |
Returns: | |
The matplotlib Figure object if path is None. | |
""" | |
# draw image pair | |
fig, axes = plt.subplots(1, 2, figsize=(10, 6), dpi=dpi) | |
axes[0].imshow(img0) # , cmap='gray') | |
axes[1].imshow(img1) # , cmap='gray') | |
for i in range(2): # clear all frames | |
axes[i].get_yaxis().set_ticks([]) | |
axes[i].get_xaxis().set_ticks([]) | |
for spine in axes[i].spines.values(): | |
spine.set_visible(False) | |
if titles is not None: | |
axes[i].set_title(titles[i]) | |
plt.tight_layout(pad=pad) | |
if kpts0 is not None: | |
assert kpts1 is not None | |
axes[0].scatter(kpts0[:, 0], kpts0[:, 1], c="w", s=5) | |
axes[1].scatter(kpts1[:, 0], kpts1[:, 1], c="w", s=5) | |
# draw matches | |
if ( | |
mkpts0.shape[0] != 0 | |
and mkpts1.shape[0] != 0 | |
and mkpts0.shape == mkpts1.shape | |
): | |
fig.canvas.draw() | |
transFigure = fig.transFigure.inverted() | |
fkpts0 = transFigure.transform(axes[0].transData.transform(mkpts0)) | |
fkpts1 = transFigure.transform(axes[1].transData.transform(mkpts1)) | |
fig.lines = [ | |
matplotlib.lines.Line2D( | |
(fkpts0[i, 0], fkpts1[i, 0]), | |
(fkpts0[i, 1], fkpts1[i, 1]), | |
transform=fig.transFigure, | |
c=color[i], | |
linewidth=2, | |
) | |
for i in range(len(mkpts0)) | |
] | |
# freeze the axes to prevent the transform to change | |
axes[0].autoscale(enable=False) | |
axes[1].autoscale(enable=False) | |
axes[0].scatter(mkpts0[:, 0], mkpts0[:, 1], c=color[..., :3], s=4) | |
axes[1].scatter(mkpts1[:, 0], mkpts1[:, 1], c=color[..., :3], s=4) | |
# put txts | |
txt_color = "k" if img0[:100, :200].mean() > 200 else "w" | |
fig.text( | |
0.01, | |
0.99, | |
"\n".join(text), | |
transform=fig.axes[0].transAxes, | |
fontsize=15, | |
va="top", | |
ha="left", | |
color=txt_color, | |
) | |
# save or return figure | |
if path: | |
plt.savefig(str(path), bbox_inches="tight", pad_inches=0) | |
plt.close() | |
else: | |
return fig | |
def error_colormap( | |
err: np.ndarray, thr: float, alpha: float = 1.0 | |
) -> np.ndarray: | |
""" | |
Create a colormap based on the error values. | |
Args: | |
err: Error values as a numpy array of shape (N,). | |
thr: Threshold value for the error. | |
alpha: Alpha value for the colormap, between 0 and 1. | |
Returns: | |
Colormap as a numpy array of shape (N, 4) with values in [0, 1]. | |
""" | |
assert alpha <= 1.0 and alpha > 0, f"Invaid alpha value: {alpha}" | |
x = 1 - np.clip(err / (thr * 2), 0, 1) | |
return np.clip( | |
np.stack( | |
[2 - x * 2, x * 2, np.zeros_like(x), np.ones_like(x) * alpha], -1 | |
), | |
0, | |
1, | |
) | |
np.random.seed(1995) | |
color_map = np.arange(100) | |
np.random.shuffle(color_map) | |
def fig2im(fig: matplotlib.figure.Figure) -> np.ndarray: | |
""" | |
Convert a matplotlib figure to a numpy array with RGB values. | |
Args: | |
fig: A matplotlib figure. | |
Returns: | |
A numpy array with shape (height, width, 3) and dtype uint8 containing | |
the RGB values of the figure. | |
""" | |
fig.canvas.draw() | |
(width, height) = fig.canvas.get_width_height() | |
buf_ndarray = np.frombuffer(fig.canvas.tostring_rgb(), dtype="u1") | |
return buf_ndarray.reshape(height, width, 3) | |
def draw_matches_core( | |
mkpts0: List[np.ndarray], | |
mkpts1: List[np.ndarray], | |
img0: np.ndarray, | |
img1: np.ndarray, | |
conf: np.ndarray, | |
titles: Optional[List[str]] = None, | |
texts: Optional[List[str]] = None, | |
dpi: int = 150, | |
path: Optional[str] = None, | |
pad: float = 0.5, | |
) -> np.ndarray: | |
""" | |
Draw matches between two images. | |
Args: | |
mkpts0: List of matches from the first image, with shape (N, 2) | |
mkpts1: List of matches from the second image, with shape (N, 2) | |
img0: First image, with shape (H, W, 3) | |
img1: Second image, with shape (H, W, 3) | |
conf: Confidence values for the matches, with shape (N,) | |
titles: Optional list of title strings for the plot | |
dpi: DPI for the saved image | |
path: Optional path to save the image to. If None, the image is not saved. | |
pad: Padding between subplots | |
Returns: | |
The figure as a numpy array with shape (height, width, 3) and dtype uint8 | |
containing the RGB values of the figure. | |
""" | |
thr = 5e-4 | |
thr = 0.5 | |
color = error_colormap(conf, thr, alpha=0.1) | |
text = [ | |
"image name", | |
f"#Matches: {len(mkpts0)}", | |
] | |
if path: | |
fig2im( | |
make_matching_figure( | |
img0, | |
img1, | |
mkpts0, | |
mkpts1, | |
color, | |
titles=titles, | |
text=text, | |
path=path, | |
dpi=dpi, | |
pad=pad, | |
) | |
) | |
else: | |
return fig2im( | |
make_matching_figure( | |
img0, | |
img1, | |
mkpts0, | |
mkpts1, | |
color, | |
titles=titles, | |
text=text, | |
pad=pad, | |
dpi=dpi, | |
) | |
) | |
def draw_image_pairs( | |
img0: np.ndarray, | |
img1: np.ndarray, | |
text: List[str] = [], | |
dpi: int = 75, | |
path: Optional[str] = None, | |
pad: float = 0.5, | |
) -> np.ndarray: | |
"""Draw image pair horizontally. | |
Args: | |
img0: First image, with shape (H, W, 3) | |
img1: Second image, with shape (H, W, 3) | |
text: List of strings to print. Each string is a new line. | |
dpi: DPI of the figure. | |
path: Path to save the image to. If None, the image is not saved and | |
the function returns the figure as a numpy array with shape | |
(height, width, 3) and dtype uint8 containing the RGB values of the | |
figure. | |
pad: Padding between subplots | |
Returns: | |
The figure as a numpy array with shape (height, width, 3) and dtype uint8 | |
containing the RGB values of the figure, or None if path is not None. | |
""" | |
# draw image pair | |
fig, axes = plt.subplots(1, 2, figsize=(10, 6), dpi=dpi) | |
axes[0].imshow(img0) # , cmap='gray') | |
axes[1].imshow(img1) # , cmap='gray') | |
for i in range(2): # clear all frames | |
axes[i].get_yaxis().set_ticks([]) | |
axes[i].get_xaxis().set_ticks([]) | |
for spine in axes[i].spines.values(): | |
spine.set_visible(False) | |
plt.tight_layout(pad=pad) | |
# put txts | |
txt_color = "k" if img0[:100, :200].mean() > 200 else "w" | |
fig.text( | |
0.01, | |
0.99, | |
"\n".join(text), | |
transform=fig.axes[0].transAxes, | |
fontsize=15, | |
va="top", | |
ha="left", | |
color=txt_color, | |
) | |
# save or return figure | |
if path: | |
plt.savefig(str(path), bbox_inches="tight", pad_inches=0) | |
plt.close() | |
else: | |
return fig2im(fig) | |
def display_matches( | |
pred: Dict[str, np.ndarray], | |
titles: List[str] = [], | |
texts: List[str] = [], | |
dpi: int = 300, | |
tag: str = "KPTS_RAW", # KPTS_RAW, KPTS_RANSAC, LINES_RAW, LINES_RANSAC, | |
) -> Tuple[np.ndarray, int]: | |
""" | |
Displays the matches between two images. | |
Args: | |
pred: Dictionary containing the original images and the matches. | |
titles: Optional titles for the plot. | |
dpi: Resolution of the plot. | |
Returns: | |
The resulting concatenated plot and the number of inliers. | |
""" | |
img0 = pred["image0_orig"] | |
img1 = pred["image1_orig"] | |
num_inliers = 0 | |
# draw raw matches | |
if ( | |
"keypoints0_orig" in pred | |
and "keypoints1_orig" in pred | |
and pred["keypoints0_orig"] is not None | |
and pred["keypoints1_orig"] is not None | |
and tag == "KPTS_RAW" | |
): | |
mkpts0 = pred["keypoints0_orig"] | |
mkpts1 = pred["keypoints1_orig"] | |
num_inliers = len(mkpts0) | |
if "mconf" in pred: | |
mconf = pred["mconf"] | |
else: | |
mconf = np.ones(len(mkpts0)) | |
fig_mkpts = draw_matches_core( | |
mkpts0, | |
mkpts1, | |
img0, | |
img1, | |
mconf, | |
dpi=dpi, | |
titles=titles, | |
texts=texts, | |
) | |
fig = fig_mkpts | |
elif ( | |
"mkeypoints0_orig" in pred | |
and "mkeypoints1_orig" in pred | |
and pred["mkeypoints0_orig"] is not None | |
and pred["mkeypoints1_orig"] is not None | |
and tag == "KPTS_RANSAC" | |
): # draw ransac matches | |
mkpts0 = pred["mkeypoints0_orig"] | |
mkpts1 = pred["mkeypoints1_orig"] | |
num_inliers = len(mkpts0) | |
if "mmconf" in pred: | |
mmconf = pred["mmconf"] | |
else: | |
mmconf = np.ones(len(mkpts0)) | |
fig_mkpts = draw_matches_core( | |
mkpts0, | |
mkpts1, | |
img0, | |
img1, | |
mmconf, | |
dpi=dpi, | |
titles=titles, | |
texts=texts, | |
) | |
fig = fig_mkpts | |
# TODO: draw lines | |
if ( | |
"line0_orig" in pred | |
and "line1_orig" in pred | |
and pred["line0_orig"] is not None | |
and pred["line1_orig"] is not None | |
# and (tag == "LINES_RAW" or tag == "LINES_RANSAC") | |
): | |
# lines | |
mtlines0 = pred["line0_orig"] | |
mtlines1 = pred["line1_orig"] | |
num_inliers = len(mtlines0) | |
fig_lines = plot_images( | |
[img0.squeeze(), img1.squeeze()], | |
["Image 0 - matched lines", "Image 1 - matched lines"], | |
dpi=300, | |
) | |
fig_lines = plot_color_line_matches([mtlines0, mtlines1], lw=2) | |
fig_lines = fig2im(fig_lines) | |
# keypoints | |
mkpts0 = pred.get("line_keypoints0_orig") | |
mkpts1 = pred.get("line_keypoints1_orig") | |
if mkpts0 is not None and mkpts1 is not None: | |
num_inliers = len(mkpts0) | |
if "mconf" in pred: | |
mconf = pred["mconf"] | |
else: | |
mconf = np.ones(len(mkpts0)) | |
fig_mkpts = draw_matches_core( | |
mkpts0, mkpts1, img0, img1, mconf, dpi=300 | |
) | |
fig_lines = cv2.resize( | |
fig_lines, (fig_mkpts.shape[1], fig_mkpts.shape[0]) | |
) | |
fig = np.concatenate([fig_mkpts, fig_lines], axis=0) | |
else: | |
fig = fig_lines | |
return fig, num_inliers | |