- Design goals
- Installing
- Getting started
- Examples
- Supported compilers
- License
- Contact
- Thanks
- Used third-party tools
- Projects using
- Building
This is Python bindings for QCustomPlot - Qt C++ library for plotting and data visualization. This binding can be complied for use with PyQ5 or PyQt6. There are myriads of Python charting libraries out there, and each may even have its reason to exist. QCustomPlot has the following goals:
-
Performance. QCustomPlot is written in modern C++ with the excellent Qt library for superior performance over alternative libraries.
-
Flexibility. QCustomPlot is one of the most customisable libraries available, with a wide range of supported graph types and full control over how the graph is rendered.
You can find compiled packages for many Linux distributions at OBS.
Install the package via our favourite package manager:
$ pip install QCustomPlot_PyQt5
or
$ pip install QCustomPlot_PyQt6
Now let's take a look at some code:
import sys
import math
from PyQt5.QtCore import Qt
from PyQt5.QtGui import QPen, QBrush, QColor
from PyQt5.QtWidgets import QApplication, QMainWindow
from QCustomPlot_PyQt5 import *
app = QApplication(sys.argv)
window = QMainWindow()
window.resize(800, 600)
customPlot = QCustomPlot()
window.setCentralWidget(customPlot)
graph0 = customPlot.addGraph()
graph0.setPen(QPen(Qt.blue))
graph0.setBrush(QBrush(QColor(0, 0, 255, 20)))
graph1 = customPlot.addGraph()
graph1.setPen(QPen(Qt.red))
x, y0, y1 = [], [], []
for i in range (251):
x.append(i)
y0.append(math.exp(-i/150.0)*math.cos(i/10.0)) # exponentially decaying cosine
y1.append(math.exp(-i/150.0)) # exponential envelope
graph0.setData(x, y0)
graph1.setData(x, y1)
customPlot.rescaleAxes()
customPlot.setInteraction(QCP.iRangeDrag)
customPlot.setInteraction(QCP.iRangeZoom)
customPlot.setInteraction(QCP.iSelectPlottables)
window.show()
sys.exit(app.exec_())
That's all!
Some important things:
- QCustomPlot is a QWidget type that can be used the same way as any other widget, added to layouts, etc. However, you can nest multiple graphs in a single QCustomPlot using layouts (see the Advanced Axes demo).
Beside the examples below, you may want to check the documentation.
The following compilers are known to work:
- MSVC 140, 141
- GCC 4.8
- Clang 3.4
I would be happy to learn about other compilers/versions.
This code is licensed under the MIT License:
Copyright © 2017-2023 Dmitry Voronin, Christopher Gilbert and Sergey Salnikov
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Part of the code is licensed under the GPL Version 3 License.
This project contains the QCustomPlot library from Emanuel Eichhammer which is licensed under the GPL Version 3 License. Copyright © 2011-2022 Emanuel Eichhammer bjoern@hoehrmann.de
If you have questions regarding the library, I would like to invite you to open an issue at Github. Please describe your request, problem, or question as detailed as possible, and also mention the version of the library you are using as well as the version of your compiler and operating system. Opening an issue at GitHub allows other users and contributors to this library to collaborate.
I deeply appreciate the help of the following people.
- DerManu is the official author and maintainer of the excellent QCustomPlot library.
- dimv36 is the original author of the Python bindings for QCustomPlot 1.0.0, upon which this project is based.
- cowo78 and cjgdev added support for the QCustomPlot 2.0.0 API.
Thanks a lot for helping out! Please let me know if I forgot someone.
This library is built, tested, documented, and whatnot using third-party tools and services. Thanks a lot!
- SIP to generate the Python bindings.
- GPX Viewer --- an application for viewing GPX files as a list of points and tracks.
If you are using QCustomPlot-PyQt5 in a project and would like to share with the community, please let me know, or even better, raise a pull request.
Apt users (Debian, Ubuntu, etc) may follow the instructions below, users of other distributions may adapt the steps below for your own package manager. Qt5 or Qt6 can be used as a dependency.
# Fetch the necessary development tools and libraries
$ apt-get install build-essential python3-pyqt5 pyqt5-dev-tools qttools5-dev-tools
# Clone the repository and submodules
$ git clone --recursive https://github.com/salsergey/QCustomPlot-PyQt.git && cd QCustomPlot-PyQt
# Build
$ sip-build --qmake _path_to_qmake5_or_qmake6_
# Zzz..
# Install
$ sip-install --qmake _path_to_qmake5_or_qmake6_
Windows users should install Qt tools, appropriate version of VC compiler, Python, PyQt5 and SIP. You may need to build SIP from sources to ensure you have all files necessary for building other software. Then follow the instructions below to build the library, otherwise you will need to adapt the steps for your own environment.
- Download QCustomPlot-PyQt sources from Github. You can use git or download an archive.
- Launch Qt console and follow instructions there. It will ensure that you have all necessary tools in your PATH variable. Also be sure that python.exe binary is in your PATH.
- Then follow these instructions:
# Go to QCustomPlot folder
cd <<PATH_TO QCustomPlot-PyQt>>
# Download submodules if you use git
git submodules update --init
# Build
sip-build --qmake _path_to_qmake5_or_qmake6_
# Zzz..
# Install
sip-install --qmake _path_to_qmake5_or_qmake6_
Users of macOS using homebrew may follow the instructions below to fetch the required packages to build the library, or simply adapt to your own environment.
# First ensure Xcode is installed, as homebrew depends on it
$ xcode-select --install
# Fetch the necessary development tools and libraries
$ brew install pyqt@5
# Clone the repository and submodules
$ git clone --recursive https://github.com/salsergey/QCustomPlot-PyQt.git && cd QCustomPlot-PyQt
# Build
$ CFLAGS='-std=c++11 -stdlib=libc++' CXXFLAGS='-std=c++11 -stdlib=libc++' sip-build --qmake _path_to_qmake5_or_qmake6_
# Zzz..
# Install
$ sip-install --qmake _path_to_qmake5_or_qmake6_