[Paper] | [Project Page] | [中文Readme] | [中文论文介绍]
This code is used for line drawing vectorization, rough sketch simplification and photograph to vector line drawing.
- Tensorflow (1.12.0 <= version <=1.15.0)
- opencv == 3.4.2
- pillow == 6.2.0
- scipy == 1.5.2
- gizeh == 0.1.11
Download the models here:
pretrain_clean_line_drawings
(105 MB): for vectorizationpretrain_rough_sketches
(105 MB): for rough sketch simplificationpretrain_faces
(105 MB): for photograph to line drawing
Then, place them in this file structure:
outputs/
snapshot/
pretrain_clean_line_drawings/
pretrain_rough_sketches/
pretrain_faces/
Choose the image in the sample_inputs/
directory, and run one of the following commands for each task. The results will be under outputs/sampling/
.
python3 test_vectorization.py --input muten.png
python3 test_rough_sketch_simplification.py --input rocket.png
python3 test_photograph_to_line.py --input 1390.png
Note!!! Our approach starts drawing from a randomly selected initial position, so it outputs different results in every testing trial (some might be fine and some might not be good enough). It is recommended to do several trials to select the visually best result. The number of outputs can be defined by the --sample
argument:
python3 test_vectorization.py --input muten.png --sample 10
python3 test_rough_sketch_simplification.py --input rocket.png --sample 10
python3 test_photograph_to_line.py --input 1390.png --sample 10
Reproducing Paper Figures: our results (download from here) are selected by doing a certain number of trials. Apparently, it is required to use the same initial drawing positions to reproduce our results.
Our vector output is stored in a npz
package. Run the following command to obtain the rendered output and the drawing order. Results will be under the same directory of the npz
file.
python3 tools/visualize_drawing.py --file path/to/the/result.npz
To see the dynamic drawing procedure, run the following command to obtain the gif
. Result will be under the same directory of the npz
file.
python3 tools/gif_making.py --file path/to/the/result.npz
Our vector output in a npz
package is stored as Eq.(1) in the main paper. Run the following command to convert it to the svg
format. Result will be under the same directory of the npz
file.
python3 tools/svg_conversion.py --file path/to/the/result.npz
- The conversion is implemented in two modes (by setting the
--svg_type
argument):single
(default): each stroke (a single segment) forms a path in the SVG filecluster
: each continuous curve (with multiple strokes) forms a path in the SVG file
Important Notes
In SVG format, all the segments on a path share the same stroke-width. While in our stroke design, strokes on a common curve have different widths. Inside a stroke (a single segment), the thickness also changes linearly from an endpoint to another. Therefore, neither of the two conversion methods above generate visually the same results as the ones in our paper. (Please mention this issue in your paper if you do qualitative comparisons with our results in SVG format.)
Download the models here:
pretrain_neural_renderer
(40 MB): the pre-trained neural rendererpretrain_perceptual_model
(691 MB): the pre-trained perceptual model for raster loss
Download the datasets here:
QuickDraw-clean
(14 MB): for clean line drawing vectorization. Taken from QuickDraw dataset.QuickDraw-rough
(361 MB): for rough sketch simplification. Synthesized by the pencil drawing generation method from Sketch Simplification.CelebAMask-faces
(370 MB): for photograph to line drawing. Processed from the CelebAMask-HQ dataset.
Then, place them in this file structure:
datasets/
QuickDraw-clean/
QuickDraw-rough/
CelebAMask-faces/
outputs/
snapshot/
pretrain_neural_renderer/
pretrain_perceptual_model/
It is recommended to train with multi-GPU. We train each task with 2 GPUs (each with 11 GB).
python3 train_vectorization.py
python3 train_rough_photograph.py --data rough
python3 train_rough_photograph.py --data face
If you use the code and models please cite:
@article{mo2021virtualsketching,
title = {General Virtual Sketching Framework for Vector Line Art},
author = {Mo, Haoran and Simo-Serra, Edgar and Gao, Chengying and Zou, Changqing and Wang, Ruomei},
journal = {ACM Transactions on Graphics (Proceedings of ACM SIGGRAPH 2021)},
year = {2021},
volume = {40},
number = {4},
pages = {51:1--51:14}
}
Painterly style transfer (TVCG 2023) | Robot calligraphy (ICRA 2024) |
---|---|
Geometrized cartoon line inbetweening (ICCV 2023) | Stroke correspondence and inbetweening (TOG 2024) |
Modelling complex vector drawings (ICLR 2024) | Sketch-to-Image Generation (UIST 2024) |