| import json |
| from tqdm import tqdm |
| import numpy as np |
| import matplotlib.pyplot as plt |
| import xml.etree.ElementTree as ET |
| from xml.dom import minidom |
| import os |
| from PIL import Image |
| import matplotlib.animation as animation |
| import copy |
| from PIL import ImageEnhance |
| import colorsys |
| import matplotlib.colors as mcolors |
| from matplotlib.collections import LineCollection |
| from matplotlib.patheffects import withStroke |
| import random |
| import warnings |
| from matplotlib.figure import Figure |
| from io import BytesIO |
| from matplotlib.animation import FuncAnimation, FFMpegWriter, PillowWriter |
| import requests |
| import zipfile |
| import base64 |
|
|
|
|
| warnings.filterwarnings("ignore") |
|
|
|
|
| def get_svg_content(svg_path): |
| with open(svg_path, "r") as file: |
| return file.read() |
|
|
|
|
| def download_file(url, filename): |
| response = requests.get(url) |
| with open(filename, "wb") as f: |
| f.write(response.content) |
|
|
|
|
| def unzip_file(filename, extract_to="."): |
| with zipfile.ZipFile(filename, "r") as zip_ref: |
| zip_ref.extractall(extract_to) |
|
|
|
|
| def get_base64_encoded_gif(gif_path): |
| with open(gif_path, "rb") as gif_file: |
| return base64.b64encode(gif_file.read()).decode("utf-8") |
|
|
|
|
| def load_and_pad_img_dir(file_dir): |
| image_path = os.path.join(file_dir) |
| image = Image.open(image_path) |
| width, height = image.size |
| ratio = min(224 / width, 224 / height) |
| image = image.resize((int(width * ratio), int(height * ratio))) |
| width, height = image.size |
| if height < 224: |
| |
| top_padding = (224 - height) // 2 |
| bottom_padding = 224 - height - top_padding |
| padded_image = Image.new("RGB", (width, 224), (255, 255, 255)) |
| padded_image.paste(image, (0, top_padding)) |
| else: |
| |
| left_padding = (224 - width) // 2 |
| right_padding = 224 - width - left_padding |
| padded_image = Image.new("RGB", (224, height), (255, 255, 255)) |
| padded_image.paste(image, (left_padding, 0)) |
| return padded_image |
|
|
|
|
| def plot_ink(ink, ax, lw=1.8, input_image=None, with_path=True, path_color="white"): |
| if input_image is not None: |
| img = copy.deepcopy(input_image) |
| enhancer = ImageEnhance.Brightness(img) |
| img = enhancer.enhance(0.45) |
| ax.imshow(img) |
|
|
| base_colors = plt.cm.get_cmap("rainbow", len(ink.strokes)) |
|
|
| for i, stroke in enumerate(ink.strokes): |
| x, y = np.array(stroke.x), np.array(stroke.y) |
|
|
| base_color = base_colors(len(ink.strokes) - 1 - i) |
| hsv_color = colorsys.rgb_to_hsv(*base_color[:3]) |
|
|
| darker_color = colorsys.hsv_to_rgb( |
| hsv_color[0], hsv_color[1], max(0, hsv_color[2] * 0.65) |
| ) |
| colors = [ |
| mcolors.to_rgba(darker_color, alpha=1 - (0.5 * j / len(x))) |
| for j in range(len(x)) |
| ] |
|
|
| points = np.array([x, y]).T.reshape(-1, 1, 2) |
| segments = np.concatenate([points[:-1], points[1:]], axis=1) |
|
|
| lc = LineCollection(segments, colors=colors, linewidth=lw) |
| if with_path: |
| lc.set_path_effects( |
| [withStroke(linewidth=lw * 1.25, foreground=path_color)] |
| ) |
| ax.add_collection(lc) |
|
|
| ax.set_xlim(0, 224) |
| ax.set_ylim(0, 224) |
| ax.invert_yaxis() |
|
|
|
|
| def plot_ink_to_video( |
| ink, output_name, lw=1.8, input_image=None, path_color="white", fps=30 |
| ): |
| fig, ax = plt.subplots(figsize=(4, 4), dpi=150) |
|
|
| if input_image is not None: |
| img = copy.deepcopy(input_image) |
| enhancer = ImageEnhance.Brightness(img) |
| img = enhancer.enhance(0.45) |
| ax.imshow(img) |
|
|
| ax.set_xlim(0, 224) |
| ax.set_ylim(0, 224) |
| ax.invert_yaxis() |
| ax.axis("off") |
|
|
| base_colors = plt.cm.get_cmap("rainbow", len(ink.strokes)) |
| all_points = sum([len(stroke.x) for stroke in ink.strokes], 0) |
|
|
| def update(frame): |
| ax.clear() |
| if input_image is not None: |
| ax.imshow(img) |
| ax.set_xlim(0, 224) |
| ax.set_ylim(0, 224) |
| ax.invert_yaxis() |
| ax.axis("off") |
|
|
| points_drawn = 0 |
| for stroke_index, stroke in enumerate(ink.strokes): |
| x, y = np.array(stroke.x), np.array(stroke.y) |
| points = np.array([x, y]).T.reshape(-1, 1, 2) |
| segments = np.concatenate([points[:-1], points[1:]], axis=1) |
|
|
| base_color = base_colors(len(ink.strokes) - 1 - stroke_index) |
| hsv_color = colorsys.rgb_to_hsv(*base_color[:3]) |
| darker_color = colorsys.hsv_to_rgb( |
| hsv_color[0], hsv_color[1], max(0, hsv_color[2] * 0.65) |
| ) |
| visible_segments = ( |
| segments[: frame - points_drawn] |
| if frame - points_drawn < len(segments) |
| else segments |
| ) |
| colors = [ |
| mcolors.to_rgba( |
| darker_color, alpha=1 - (0.5 * j / len(visible_segments)) |
| ) |
| for j in range(len(visible_segments)) |
| ] |
|
|
| if len(visible_segments) > 0: |
| lc = LineCollection(visible_segments, colors=colors, linewidth=lw) |
| lc.set_path_effects( |
| [withStroke(linewidth=lw * 1.25, foreground=path_color)] |
| ) |
| ax.add_collection(lc) |
|
|
| points_drawn += len(segments) |
| if points_drawn >= frame: |
| break |
|
|
| ani = FuncAnimation(fig, update, frames=all_points + 1, blit=False) |
| Writer = FFMpegWriter(fps=fps) |
| plt.tight_layout() |
| ani.save(output_name, writer=Writer) |
| plt.close(fig) |
|
|
|
|
| class Stroke: |
| def __init__(self, list_of_coordinates=None) -> None: |
| self.x = [] |
| self.y = [] |
| if list_of_coordinates: |
| for point in list_of_coordinates: |
| self.x.append(point[0]) |
| self.y.append(point[1]) |
|
|
| def __len__(self): |
| return len(self.x) |
|
|
| def __getitem__(self, index): |
| return (self.x[index], self.y[index]) |
|
|
|
|
| class Ink: |
| def __init__(self, list_of_strokes=None) -> None: |
| self.strokes = [] |
| if list_of_strokes: |
| self.strokes = list_of_strokes |
|
|
| def __len__(self): |
| return len(self.strokes) |
|
|
| def __getitem__(self, index): |
| return self.strokes[index] |
|
|
|
|
| def inkml_to_ink(inkml_file): |
| """Convert inkml file to Ink""" |
| tree = ET.parse(inkml_file) |
| root = tree.getroot() |
|
|
| inkml_namespace = {"inkml": "http://www.w3.org/2003/InkML"} |
|
|
| strokes = [] |
|
|
| for trace in root.findall("inkml:trace", inkml_namespace): |
| points = trace.text.strip().split() |
| stroke_points = [] |
|
|
| for point in points: |
| x, y = point.split(",") |
| stroke_points.append((float(x), float(y))) |
| strokes.append(Stroke(stroke_points)) |
| return Ink(strokes) |
|
|
|
|
| def parse_inkml_annotations(inkml_file): |
| tree = ET.parse(inkml_file) |
| root = tree.getroot() |
|
|
| annotations = root.findall(".//{http://www.w3.org/2003/InkML}annotation") |
|
|
| annotation_dict = {} |
|
|
| for annotation in annotations: |
| annotation_type = annotation.get("type") |
| annotation_text = annotation.text |
|
|
| annotation_dict[annotation_type] = annotation_text |
|
|
| return annotation_dict |
|
|
