Copyright © 2009–2018 Spyder Project Contributors
Some source files and icons may be under other authorship/licenses; see NOTICE.txt.
Thanks to your continuing support, we are on track for a Spyder 4 release in early 2019 with all of your most-requested features (a new debugger and completion architecture, better Projects, new Editor functionality, full Variable Explorer object support, a built-in dark theme and much more)!
Spyder development is made possible by contributions from our global user community, along with organizations like NumFOCUS and Quansight. There are numerous ways you can help, many of which don't require any programming. If you'd like to make a donation to help fund further improvements, we're on OpenCollective.
Thanks for all you do to make the Spyder project thrive! More details
Spyder is a powerful scientific environment written in Python, for Python, and designed by and for scientists, engineers and data analysts. It offers a unique combination of the advanced editing, analysis, debugging, and profiling functionality of a comprehensive development tool with the data exploration, interactive execution, deep inspection, and beautiful visualization capabilities of a scientific package.
Beyond its many built-in features, its abilities can be extended even further via its plugin system and API. Furthermore, Spyder can also be used as a PyQt5 extension library, allowing you to build upon its functionality and embed its components, such as the interactive console, in your own software.
For more general information about Spyder and to stay up to date on the latest Spyder news and information, please check out our new website.
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Editor
Work efficiently in a multi-language editor with a function/class browser, real-time code analysis tools (
pyflakes
,pylint
, andpycodestyle
), automatic code completion (jedi
andrope
), horizontal/vertical splitting, and go-to-definition. -
Interactive console
Harness the power of as many IPython consoles as you like with full workspace and debugging support, all within the flexibility of a full GUI interface. Instantly run your code by line, cell, or file, and render plots right inline with the output or in interactive windows.
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Documentation viewer
Render documentation in real-time with Sphinx for any class or function, whether external or user-created, from either the Editor or a Console.
-
Variable explorer
Inspect any variables, functions or objects created during your session. Editing and interaction is supported with many common types, including numeric/strings/bools, Python lists/tuples/dictionaries, dates/timedeltas, Numpy arrays, Pandas index/series/dataframes, PIL/Pillow images, and more.
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Development tools
Examine your code with the static analyzer, trace its execution with the interactive debugger, and unleash its performance with the profiler. Keep things organized with project support and a builtin file explorer, and use find in files to search across entire projects with full regex support.
You can read the Spyder documentation online on the Spyder Docs website.
For a detailed guide to installing Spyder, please refer to our installation instructions.
The easiest way to install Spyder on any of our supported platforms
is to download it as part of the Anaconda
distribution, and use the conda
package and environment manager to keep it
and your other packages installed and up to date.
If in doubt, you should always install Spyder via this method to avoid unexpected issues we are unable to help you with; it generally has the least likelihood of potential pitfalls for non-experts, and we may be able to provide limited assistance if you do run into trouble.
Other install options exist, including:
- The WinPython distribution for Windows
- The MacPorts project for macOS
- Your distribution's package manager (i.e.
apt-get
,yum
, etc) on Linux - The
pip
package manager, included with most Python installations
However, we lack the resources to provide individual support for users who install via these methods, and they may be out of date or contain bugs outside our control, so we recommend the Anaconda version instead if you run into issues.
Before posting a report, please carefully read our Troubleshooting Guide and search the issue tracker for your error message and problem description, as the great majority of bugs are either duplicates, or can be fixed on the user side with a few easy steps. Thanks!
Spyder was originally created by Pierre Raybaut, and is currently maintained by Carlos Córdoba and an international community of volunteers.
You can join us—everyone is welcome to help with Spyder! Please read our contributing instructions to get started!
Certain source files are distributed under other compatible permissive licenses and/or originally by other authors. The icons for the Spyder 3 theme are derived from Font Awesome 4.7 (© 2016 David Gandy; SIL OFL 1.1). Most Spyder 2 theme icons are sourced from the Crystal Project icon set (© 2006-2007 Everaldo Coelho; LGPL 2.1+). Other Spyder 2 icons are from Yusuke Kamiyamane (© 2013 Yusuke Kamiyamane; CC-BY 3.0), the FamFamFam Silk icon set (© 2006 Mark James; CC-BY 2.5), and the KDE Oxygen icons (© 2007 KDE Artists; LGPL 3.0+).
See NOTICE.txt for full legal information.
Spyder can be run directly from the source code, hosted on the Spyder github repo. You may want to do this for fixing bugs in Spyder, adding new features, learning how Spyder works or to try out development versions before they are officially released.
If using conda
(strongly recommended), this can be done by running the
following from the command line (the Anaconda Prompt, if on Windows):
conda install spyder
conda remove spyder
git clone https://github.com/spyder-ide/spyder.git
cd spyder
python bootstrap.py
You also need to make sure the correct spyder-kernels
version is installed
for the version of Spyder you are testing. The above procedure will give you
spyder-kernels
0.x for the 3.x
branch (Spyder 3),
so to run the master
branch (Spyder 4) you need to additionally execute:
conda install -c spyder-ide spyder-kernels=1.*
Alternatively, you can use pip
to install PyQt5 and the other
runtime dependencies listed below. However, beware:
this method is recommended for experts only, and you'll need to solve any
problems on your own.
See the installation instructions for more details on all of this.
Important Note: Most or all of the dependencies listed below come with Anaconda and other scientific Python distributions, so you don't need to install them separately in those cases.
When installing Spyder from its source package, the only requirement is to have a Python version greater than 2.7 or 3.4 (Python <=3.3 is no longer supported).
- Python 2.7 or 3.4+: The core language Spyder is written in and for.
- PyQt5 5.5+: Python bindings for Qt, used for Spyder's GUI.
- qtconsole 4.2.0+: Enhanced Python interpreter.
- Python-language-server: Editor code completion, calltips go-to-definition and real-time code analysis
- Sphinx: Rich text mode for the Help pane.
- Pygments 2.0+: Syntax highlighting for all file types it supports.
- Pylint: Static code analysis.
- Psutil: CPU and memory usage on the status bar.
- Nbconvert: Manipulation of notebooks in the Editor.
- Qtawesome 0.4.1+: To have an icon theme based on FontAwesome.
- Pickleshare: Show import completions on the Python consoles.
- PyZMQ: Client for the language server protocol (LSP).
- QtPy 1.5.0+: Abstraction layer for Python Qt bindings so that Spyder can run on multiple Qt bindings and versions.
- Chardet: Character encoding auto-detection in Python.
- Numpydoc: Used by Jedi to get function return types from Numpydocstrings.
- Cloudpickle: Serialize variables in the IPython kernel to send to Spyder.
- spyder-kernels 1.0+: Jupyter kernels for the Spyder console.
- keyring: Save Github credentials to report errors securely.
- QDarkStyle: A dark stylesheet for Qt applications, used for Spyder's dark theme.
- pexpect/paramiko: Connect to remote kernels through SSH.
- Matplotlib: 2D/3D plotting in the IPython console.
- Pandas: View and edit DataFrames and Series in the Variable Explorer.
- Numpy: View and edit 2- or 3-dimensional arrays in the Variable Explorer.
- SymPy: Symbolic mathematics in the IPython console.
- SciPy: Import Matlab workspace files in the Variable Explorer.
- Cython: Run Cython files in the IPython console.
Support us with a monthly donation and help us continue our activities.
Become a sponsor to get your logo on our README on Github.