A Generative Art Generator
Project description
Overview
Samila is a generative art generator written in Python, Samila lets you create images based on many thousand points. The position of every single point is calculated by a formula, which has random parameters. Because of the random numbers, every image looks different.
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Installation
PyPI
- Check Python Packaging User Guide
- Run
pip install samila==1.4
Source code
- Download Version 1.4 or Latest Source
- Run
pip install .
Conda
- Check Conda Managing Package
conda install -c sepandhaghighi samila
Usage
Magic
>>> import matplotlib.pyplot as plt
>>> from samila import GenerativeImage
>>> g = GenerativeImage()
>>> g.generate()
>>> g.plot()
>>> plt.show()
ℹ️ You can change function generation seed by func_seed
parameter in GenerativeImage
Basic
>>> import random
>>> import math
>>> def f1(x, y):
result = random.uniform(-1,1) * x**2 - math.sin(y**2) + abs(y-x)
return result
>>> def f2(x, y):
result = random.uniform(-1,1) * y**3 - math.cos(x**2) + 2*x
return result
>>> g = GenerativeImage(f1, f2)
>>> g.generate()
>>> g.plot()
>>> g.seed
188781
>>> plt.show()
Generation mode
>>> from samila import GenerateMode
>>> g = GenerativeImage(f1, f2)
>>> g.generate(mode=GenerateMode.F1_VS_INDEX)
>>> g.plot()
>>> g.seed
883114
>>> plt.show()
ℹ️ Supported modes : F1_VS_F2
, F2_VS_F1
, F1_VS_INDEX
, F2_VS_INDEX
, INDEX_VS_F1
, INDEX_VS_F2
, F1_VS_X1
, F1_VS_X2
, F2_VS_X1
, F2_VS_X2
, X1_VS_F1
, X1_VS_F2
, X2_VS_F1
and X2_VS_F2
ℹ️ Default mode is F1_VS_F2
Projection
>>> from samila import Projection
>>> g = GenerativeImage(f1, f2)
>>> g.generate()
>>> g.plot(projection=Projection.POLAR)
>>> g.seed
829730
>>> plt.show()
ℹ️ Supported projections : RECTILINEAR
, POLAR
, AITOFF
, HAMMER
, LAMBERT
, MOLLWEIDE
and RANDOM
ℹ️ Default projection is RECTILINEAR
Marker
>>> from samila import Marker
>>> g = GenerativeImage(f1, f2)
>>> g.generate()
>>> g.plot(marker=Marker.CIRCLE, spot_size=10)
>>> g.seed
448742
>>> plt.show()
ℹ️ Supported markers : POINT
, PIXEL
, CIRCLE
, TRIANGLE_DOWN
, TRIANGLE_UP
, TRIANGLE_LEFT
, TRIANGLE_RIGHT
, TRI_DOWN
, TRI_UP
, TRI_LEFT
, TRI_RIGHT
, OCTAGON
, SQUARE
, PENTAGON
, PLUS
, PLUS_FILLED
, STAR
, HEXAGON_VERTICAL
, HEXAGON_HORIZONTAL
, X
, X_FILLED
, DIAMOND
, DIAMON_THIN
, VLINE
, HLINE
and RANDOM
ℹ️ Default marker is POINT
Rotation
You can even rotate your art by using rotation
parameter. Enter your desired rotation for the image in degrees and you will have it.
>>> g = GenerativeImage(f1, f2)
>>> g.generate()
>>> g.plot(rotation=45)
ℹ️ Default rotation is 0
Range
>>> g = GenerativeImage(f1, f2)
>>> g.generate(start=-2*math.pi, step=0.01, stop=0)
>>> g.plot()
>>> g.seed
234752
>>> plt.show()
ℹ️ Default range is $(-\pi, \pi)$
Color
>>> g = GenerativeImage(f1, f2)
>>> g.generate()
>>> g.plot(color="yellow", bgcolor="black", projection=Projection.POLAR)
>>> g.seed
1018273
>>> plt.show()
ℹ️ Default color is black
ℹ️ Default background-color is white
ℹ️ Supported colors are available in VALID_COLORS
list
ℹ️ color
and bgcolor
parameters supported formats:
- Color name (example:
color="yellow"
) - RGB/RGBA (example:
color=(0.1,0.1,0.1)
,color=(0.1,0.1,0.1,0.1)
) - Hex (example:
color="#eeefff"
) - Random (example:
color="random"
) - Complement (example:
color="complement", bgcolor="blue"
) - Transparent (example:
bgcolor="transparent"
) - List (example:
color=["black", "#fffeef",...]
)
⚠️ Transparent mode is only available for background
⚠️ List mode is only available for color
⚠️ In List mode, the length of this list must be equal to the lengths of data1 and data2
Point color
You can make your custom color map and use it in Samila.
>>> colorarray = [
... [0.7, 0.2, 0.2, 1],
... [0.6, 0.3, 0.2, 1],
... "black",
... [0.4, 0.4, 0.3, 1],
... [0.3, 0.4, 0.4, 1],
... "#ff2561"]
>>> g.generate()
>>> g.seed
454893
>>> g.plot(cmap=colorarray, color=g.data2, projection=Projection.POLAR)
>>> plt.show()
Regeneration
>>> g = GenerativeImage(f1, f2)
>>> g.generate(seed=1018273)
>>> g.plot(projection=Projection.POLAR)
>>> plt.show()
NFT.storage
Upload generated image directly to NFT.storage
>>> g.nft_storage(api_key="YOUR_API_KEY", timeout=5000)
{'status': True, 'message': 'FILE_LINK'}
You can also upload your config/data to nft storage as follows:
>>> g.nft_storage(api_key="API_KEY", upload_config=True)
{'status': {'image': True, 'config':True}, 'message': {'image':'IMAGE_FILE_LINK', 'config':'CONFIG_FILE_LINK'}
or
>>> g.nft_storage(api_key="API_KEY", upload_data=True)
{'status': {'image': True, 'data':True}, 'message': {'image':'IMAGE_FILE_LINK', 'data':'DATA_FILE_LINK'}
You have the option to choose a specific IPFS gateway:
>>> from samila import Gateway
>>> g.nft_storage(api_key="API_KEY", upload_data=True, gateway=Gateway.DWEB)
{'status': {'image': True, 'data':True}, 'message': {'image':'IMAGE_FILE_LINK', 'data':'DATA_FILE_LINK'}
⚠️ This method is deprecated and may be removed in future releases
ℹ️ Default timeout is 3000
seconds
ℹ️ Default gateway is IPFS_IO
Save image
Save generated image.
>>> g.save_image(file_adr="test.png")
{'status': True, 'message': 'FILE_PATH'}
Save generated image in higher resolutions.
>>> g.save_image(file_adr="test.png", depth=5)
{'status': True, 'message': 'FILE_PATH'}
Save data
Save generated image data.
>>> g.save_data(file_adr="data.json")
{'status': True, 'message': 'FILE_PATH'}
So you can load it into a GenerativeImage
instance later by
>>> g = GenerativeImage(data=open('data.json', 'r'))
Data structure:
{
"plot": {
"projection": "polar",
"bgcolor": "black",
"color": "snow",
"spot_size": 0.01
},
"matplotlib_version": "3.0.3",
"data1": [
0.3886741692042526,
22.57390286376703,
-0.1646310981668766,
66.23632344600155
],
"data2": [
-0.14588750183600108,
20.197945942677833,
0.5485453260942901,
-589.3284610518896
]
}
Save config
Save generated image config. It contains string formats of functions which is also human readable.
>>> g.save_config(file_adr="config.json")
{'status': True, 'message': 'FILE_PATH'}
So you can load it into a GenerativeImage
instance later by
>>> g = GenerativeImage(config=open('config.json', 'r'))
Config structure:
{
"matplotlib_version": "3.0.3",
"generate": {
"seed": 379184,
"stop": 3.141592653589793,
"step": 0.01,
"start": -3.141592653589793
},
"f2": "random.uniform(-1,1)*math.cos(x*(y**3))+random.uniform(-1,1)*math.ceil(y-x)",
"f1": "random.uniform(-1,1)*math.ceil(y)-random.uniform(-1,1)*y**2+random.uniform(-1,1)*abs(y-x)",
"plot": {
"color": "snow",
"bgcolor": "black",
"projection": "polar",
"spot_size": 0.01
}
}
Command Line Interface (CLI)
You can easily create art directly from the command line with Samila CLI. Here's an example command to get started:
samila --color=red --bgcolor=black --rotation=30 --projection=polar --mode f2_vs_f1 --save-image test.png
In this example:
--color=red
: Sets the primary color of the art.--bgcolor=black
: Sets the background color.--rotation=30
: Rotates the artwork by 30 degrees.--projection=polar
: Use polar projection for plotting.--mode=f2_vs_f1
: Sets the generation mode--save-image=test.png
: Saves the generated image as test.png.
For more options and detailed usage, run the following command to access help:
samila --help
This will provide additional information on all available parameters and how to customize your artwork further.
Mathematical details
Samila is simply a transformation between a square-shaped space from the Cartesian coordinate system to any arbitrary coordination like Polar coordinate system.
Example
We have set of points in the first space (left square) which can be defined as follow:
And below functions are used for transformation:
>>> def f1(x, y):
result = random.uniform(-1,1) * x**2 - math.sin(y**2) + abs(y-x)
return result
>>> def f2(x, y):
result = random.uniform(-1,1) * y**3 - math.cos(x**2) + 2*x
return result
here we use Projection.POLAR
so later space will be the polar space and we have:
>>> g = GenerativeImage(f1, f2)
>>> g.generate(seed=10)
>>> g.plot(projection=Projection.POLAR)
Try Samila in your browser!
Samila can be used online in interactive Jupyter Notebooks via the Binder or Colab services!
Try it out now!
ℹ️ Check examples
folder
Issues & bug reports
Just fill an issue and describe it. We'll check it ASAP! or send an email to info@samila.site.
- Please complete the issue template
You can also join our discord server
Social media
References
1- Schönlieb, Carola-Bibiane, and Franz Schubert. "Random simulations for generative art construction–some examples." Journal of Mathematics and the Arts 7.1 (2013): 29-39.
2- Create Generative Art with R
3- NFT.storage : Free decentralized storage and bandwidth for NFTs
Acknowledgments
This project was funded through the Next Step Microgrant, a program established by Protocol Labs.
Show your support
Star this repo
Give a ⭐️ if this project helped you!
Donate to our project
If you do like our project and we hope that you do, can you please support us? Our project is not and is never going to be working for profit. We need the money just so we can continue doing what we do ;-) .
Changelog
All notable changes to this project will be documented in this file.
The format is based on Keep a Changelog and this project adheres to Semantic Versioning.
Unreleased
1.4 - 2024-11-20
Added
- Command Line Interface (CLI)
Changed
- GitHub actions are limited to the
dev
andmaster
branches - Test system modified
Python 3.13
added totest.yml
1.3 - 2024-09-09
Added
deprecated
function- 14 new generation modes
F1_VS_F2
F2_VS_F1
F1_VS_INDEX
F2_VS_INDEX
INDEX_VS_F1
INDEX_VS_F2
F1_VS_X1
F2_VS_X1
F1_VS_X2
F2_VS_X2
X1_VS_F1
X1_VS_F2
X2_VS_F1
X2_VS_F2
bulk.ipynb
notebook
Changed
mode
parameter added togenerate
methodREADME.md
updateddemo.ipynb
updated
1.2 - 2024-06-25
Added
feature_request.yml
templateconfig.yml
for issue templateget_cmap
functionGateway
enumSECURITY.md
Changed
- Bug report template modified
func_seed
parameter added to GenerativeImage__init__
- Minor edits in
functions.py
DEFAULT_CMAP
renamed toDEFAULT_CMAP_NAME
pillow
added to conda dependenciescodecov
removed fromdev-requirements.txt
gateway
parameter added tonft_storage
method- Test system modified
- Random mode modified
README.md
updatedPython 3.5
support droppedPython 3.12
added totest.yml
1.1 - 2023-04-05
Added
__version__
attributepython_version
attributeget_python_version
functionRANDOM_EQUATION_MIN_COMPLEXITY
parameterRANDOM_EQUATION_FOF_MAX_DEPTH
parameterRANDOM_EQUATION_FOF_MIN_DEPTH
parameterrotate
function
Changed
rotation
parameter added toplot
methodtimeout
parameter added tonft_storage
methodload_config
function modifiednft_storage_upload
function modified- Random mode modified
RANDOM_EQUATION_GEN_COMPLEXITY
parameter renamed toRANDOM_EQUATION_MAX_COMPLEXITY
README.md
updated
1.0 - 2022-12-14
Added
Marker
enumget_data
functionget_config
function
Changed
marker
parameter added toplot
methodupload_data
parameter added tonft_storage
methodupload_config
parameter added tonft_storage
methodgenerate
method optimized- Test system modified
README.md
updatedPython 3.11
added totest.yml
plot
method warning bug fixed- Random mode modified
Removed
fill_data
function
0.9 - 2022-09-28
Added
- Anaconda workflow
Changed
README.md
updatedCODE_OF_CONDUCT.md
updateddemo.ipynb
updatedcmap
parameter added toplot
method- Random mode modified
- Test system modified
generate
method optimizedsamila_help
function updatedload_data
andload_config
functions error handling updated
0.8 - 2022-06-01
Added
INVALID_COLOR_TYPE_ERROR
errorCOLOR_NOT_FOUND_WARNING
warningBOTH_COLOR_COMPLEMENT_WARNING
warningset_background
functionis_valid_color
functioncolor_complement
functionselect_color
function
Changed
- Transparent mode support for
bgcolor
parameter - Random mode modified
- Complementary color support for
color
andbgcolor
parameters filter_color
function modified
0.7 - 2022-05-04
Added
fill_data
functionrandom_hex_color_gen
functioncolor
,bgcolor
andprojection
parameters random mode
Changed
- Calculation warning added to
generate
method - Hex color support for
color
andbgcolor
parameters - Test system modified
- Random mode modified
filter_color
function modifiedfilter_projection
function modifiedis_same_data
function modifiedREADME.md
updated
0.6 - 2022-04-13
Added
save_params_filter
function
Changed
__del__
method updatedmessage
field changed insave_fig_file
functionmessage
field changed insave_config_file
functionmessage
field changed insave_data_file
functionmessage
field changed innft_storage_upload
functiondepth
section added to config/data filelinewidth
parameter added toplot
methodlinewidth
parameter added toplot_params_filter
function- Random mode modified
README.md
updated
0.5 - 2022-03-21
Added
__del__
method- Demo notebook
Changed
depth
parameter added tonft_storage
methoddepth
parameter added tosave_fig_buf
functionalpha
parameter added toplot
methodalpha
parameter added toplot_params_filter
function- Random mode modified
README.md
updated
0.4 - 2022-01-13
Added
PLOT_DATA_ERROR
error message_GI_initializer
functiongenerate_params_filter
functionplot_params_filter
functionfilter_size
functionsave_config
methodload_config
functionsave_config_file
functionsamilaConfigError
classsamilaPlotError
classfilter_float
function- Random equations mode
function1_str
attributefunction2_str
attribute
Changed
README.md
updatedplot
section added to data fileedgecolor
changed toc
inplot
methodconfig
parameter added to GenerativeImage__init__
filter_projection
function edited- Test system updated
Removed
NO_FUNCTION_ERROR
error messageDATA_PARSING_ERROR
error messageJUST_DATA_WARNING
warning message
0.3 - 2021-11-10
Added
- Discord channel
load_data
functionsave_data_file
functionsave_data
method
Changed
data
parameter added to GenerativeImage__init__
methoddepth
parameter added tosave_image
methoddepth
parameter added tosave_fig_file
functionsave_image
andnft_storage
methods background bug fixedREADME.md
updated- Test system updated
Python 3.10
added totest.yml
0.2 - 2021-10-14
Added
dependabot.yml
requirements-splitter.py
samila_help
functiontest.py
function_test.py
overall_test.py
nft_upload_test.py
is_same_data
functionsave_image
method
Changed
dev-requirements.txt
updatedREADME.md
updated__main__.py
updated- Test system updated
nft_storage
method updated
0.1 - 2021-09-30
Added
GenerativeImage
classplot
methodgenerate
methodnft_storage
method
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