# # SPDX-FileCopyrightText: Copyright (c) 1993-2025 NVIDIA CORPORATION & AFFILIATES. All rights reserved. # SPDX-License-Identifier: Apache-2.0 # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # import numpy as np import PIL.Image as Image import PIL.ImageDraw as ImageDraw import PIL.ImageFont as ImageFont COLORS = [ "GoldenRod", "MediumTurquoise", "GreenYellow", "SteelBlue", "DarkSeaGreen", "SeaShell", "LightGrey", "IndianRed", "DarkKhaki", "LawnGreen", "WhiteSmoke", "Peru", "LightCoral", "FireBrick", "OldLace", "LightBlue", "SlateGray", "OliveDrab", "NavajoWhite", "PaleVioletRed", "SpringGreen", "AliceBlue", "Violet", "DeepSkyBlue", "Red", "MediumVioletRed", "PaleTurquoise", "Tomato", "Azure", "Yellow", "Cornsilk", "Aquamarine", "CadetBlue", "CornflowerBlue", "DodgerBlue", "Olive", "Orchid", "LemonChiffon", "Sienna", "OrangeRed", "Orange", "DarkSalmon", "Magenta", "Wheat", "Lime", "GhostWhite", "SlateBlue", "Aqua", "MediumAquaMarine", "LightSlateGrey", "MediumSeaGreen", "SandyBrown", "YellowGreen", "Plum", "FloralWhite", "LightPink", "Thistle", "DarkViolet", "Pink", "Crimson", "Chocolate", "DarkGrey", "Ivory", "PaleGreen", "DarkGoldenRod", "LavenderBlush", "SlateGrey", "DeepPink", "Gold", "Cyan", "LightSteelBlue", "MediumPurple", "ForestGreen", "DarkOrange", "Tan", "Salmon", "PaleGoldenRod", "LightGreen", "LightSlateGray", "HoneyDew", "Fuchsia", "LightSeaGreen", "DarkOrchid", "Green", "Chartreuse", "LimeGreen", "AntiqueWhite", "Beige", "Gainsboro", "Bisque", "SaddleBrown", "Silver", "Lavender", "Teal", "LightCyan", "PapayaWhip", "Purple", "Coral", "BurlyWood", "LightGray", "Snow", "MistyRose", "PowderBlue", "DarkCyan", "White", "Turquoise", "MediumSlateBlue", "PeachPuff", "Moccasin", "LightSalmon", "SkyBlue", "Khaki", "MediumSpringGreen", "BlueViolet", "MintCream", "Linen", "SeaGreen", "HotPink", "LightYellow", "BlanchedAlmond", "RoyalBlue", "RosyBrown", "MediumOrchid", "DarkTurquoise", "LightGoldenRodYellow", "LightSkyBlue", ] def visualize_detections(image_path, output_path, detections, labels=[]): image = Image.open(image_path).convert(mode="RGB") draw = ImageDraw.Draw(image) line_width = 2 font = ImageFont.load_default() for d in detections: color = COLORS[d["class"] % len(COLORS)] draw.line( [ (d["xmin"], d["ymin"]), (d["xmin"], d["ymax"]), (d["xmax"], d["ymax"]), (d["xmax"], d["ymin"]), (d["xmin"], d["ymin"]), ], width=line_width, fill=color, ) label = f"Class {d['class']}" if d["class"] < len(labels): label = f"{labels[d['class']]}" score = d["score"] text = f"{label}: {int(100*score)}%" if score < 0: text = label left, top, right, bottom = font.getbbox(text) text_width, text_height = right - left, bottom - top text_bottom = max(text_height, d["ymin"]) text_left = d["xmin"] margin = np.ceil(0.05 * text_height) draw.rectangle( [ (text_left, text_bottom - text_height - 2 * margin), (text_left + text_width, text_bottom), ], fill=color, ) draw.text( (text_left + margin, text_bottom - text_height - margin), text, fill="black", font=font, ) if output_path is None: return image image.save(output_path)