Metadata-Version: 2.1
Name: gdstk
Version: 0.4.0
Summary: Python module for creation and manipulation of GDSII files.
Home-page: https://github.com/heitzmann/gdstk
Author: Lucas H. Gabrielli
Author-email: heitzmann@gmail.com
License: Boost Software License v1.0
Keywords: GDSII CAD layout
Platform: OS Independent
Classifier: Development Status :: 3 - Alpha
Classifier: Environment :: Console
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: Manufacturing
Classifier: Intended Audience :: Science/Research
Classifier: License :: OSI Approved :: Boost Software License 1.0 (BSL-1.0)
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: C++
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: Implementation :: CPython
Classifier: Topic :: Scientific/Engineering :: Electronic Design Automation (EDA)
Provides: gdstk
Requires-Dist: numpy

# GDSTK README

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Gdstk (GDSII Tool Kit) is a C++ library for creation and manipulation of GDSII and OASIS files.
It is also available as a Python module meant to be a successor to [Gdspy](https://github.com/heitzmann/gdspy).

Key features for the creation of complex CAD layouts are included:

* Boolean operations on polygons (AND, OR, NOT, XOR) based on clipping algorithm
* Polygon offset (inward and outward rescaling of polygons)
* Efficient point-in-polygon solutions for large array sets

Typical applications of Gdstk are in the fields of electronic chip design, planar lightwave circuit design, and mechanical engineering.


## Documentation

The complete documentation is available [here](http://heitzmann.github.io/gdstk).

The source files can be found in the _docs_ directory.


## Installation

### C++ library only

The C++ library is meant to be used by including it in your own source code.

If you prefer to install a static library, the included _CMakeLists.txt_ should be a good starting option (use `-DCMAKE_INSTALL_PREFIX=path` to control the installation path):

```sh
cmake -S . -B build
cmake --build build --target install
```

The library depends on LAPACK and [zlib](https://zlib.net/).

### Python wrapper

The Python module can be installed via Conda (recommended) or compiled directly from source.
It depends on:

* LAPACK
* [zlib](https://zlib.net/)
* [CMake](https://cmake.org/)
* [Python](https://www.python.org/)
* [Numpy](https://numpy.org/)
* [Sphinx](https://www.sphinx-doc.org/) and [rtd theme](https://sphinx-rtd-theme.readthedocs.io/) (to build the [documentation](http://heitzmann.github.io/gdstk))

#### Conda

Windows users are suggested to install via [Conda](https://www.anaconda.com/) using the available [conda-forge recipe](https://github.com/conda-forge/gdstk-feedstock).
The recipe works on MacOS and Linux as well.

#### From source

The module must be linked aginst LAPACK and zlib.
The included CMakeLists.txt file can be used as a guide.

Installation from source should follow the usual method (there is no need to compile the static library beforehand):

```sh
python setup.py install
```

## Support

Help support Gdstk development by [donating via PayPal](https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=JD2EUE2WPPBQQ)


## Benchmarks

The _benchmarks_ directory contains a few tests to compare the performance gain of the Python interface versus Gdspy.
They are only for reference; the real improvement is heavily dependent on the type of layout and features used.
If maximal performance is important, the library should be used directly from C++, without the Python interface.

Timing results were obtained with Python 3.9 on an Intel Core i7-3930K with 6 cores and 16 GB of RAM at 3.2 GHz.
They represent the best average time to run each function out of 16 sets of 8 runs each.

| Benchmark        |   Gdspy 1.6.3    |   Gdstk 0.4.0    |   Gain   |
| :--------------- | :--------------: | :--------------: | :------: |
| 10k_rectangles   |      273 ms      |     7.92 ms      |   34.5   |
| 1k_circles       |      695 ms      |      432 ms      |   1.61   |
| boolean-offset   |      454 Î¼s      |     78.7 Î¼s      |   5.77   |
| bounding_box     |      102 ms      |      248 Î¼s      |   411    |
| curves           |     3.63 ms      |     64.6 Î¼s      |   56.2   |
| flatten          |     1.22 ms      |     16.6 Î¼s      |   73.6   |
| flexpath         |     6.78 ms      |     32.6 Î¼s      |   208    |
| flexpath-param   |     7.81 ms      |     1.42 ms      |   5.51   |
| fracture         |     1.82 ms      |     1.06 ms      |   1.72   |
| inside           |     42.7 Î¼s      |     13.8 Î¼s      |   3.1    |
| read_gds         |     7.84 ms      |      143 Î¼s      |   54.9   |
| read_rawcells    |      731 Î¼s      |     70.4 Î¼s      |   10.4   |
| robustpath       |      471 Î¼s      |     19.4 Î¼s      |   24.3   |

Memory usage per object for 100.000 objects using Python 3.9:

| Object               |   Gdspy 1.6.3    |   Gdstk 0.4.0    | Reduction |
| :------------------- | :--------------: | :--------------: | :-------: |
| Rectangle            |      611 B       |      232 B       |    62%    |
| Circle (r = 10)      |     1.69 kB      |     1.28 kB      |    24%    |
| FlexPath segment     |      1.5 kB      |      439 B       |    71%    |
| FlexPath arc         |     2.28 kB      |     1.49 kB      |    35%    |
| RobustPath segment   |     2.86 kB      |      922 B       |    69%    |
| RobustPath arc       |     2.62 kB      |      922 B       |    66%    |
| Label                |      412 B       |      216 B       |    48%    |
| Reference            |      157 B       |      183 B       |    -16%   |
| Reference (array)    |      191 B       |      179 B       |     6%    |
| Cell                 |      437 B       |      228 B       |    48%    |


