7 dépôts
Outputs plots as virtual DOM trees or alternative formats for display or further processing.
Distinct from Notebook Plot Rendering: Distinct from Notebook Plot Rendering: focuses on rendering to multiple output formats (e.g., virtual DOM), not just inline notebook images.
Explore 7 awesome GitHub repositories matching development tools & productivity · Multi-Format Plot Renderers. Refine with filters or upvote what's useful.
This repository is a comprehensive collection of instructional guides and practical examples for Python development, focusing on machine learning, data science, and web scraping. It provides implementations for neural networks, reinforcement learning algorithms, and deep learning architectures using PyTorch, alongside detailed manuals for scientific computing and data visualization. The project distinguishes itself by offering specialized tutorials on concurrent programming to optimize CPU performance and guides for setting up Linux development environments. It covers the implementation of ad
Arranges multiple plots in grid layouts to enable side-by-side comparison of datasets.
Folium is a Python library that builds interactive Leaflet.js maps directly from Python data structures, enabling geographic data visualization in Jupyter notebooks or as standalone HTML pages. It creates maps centered on given coordinates with configurable zoom, tiles, and dimensions, and supports embedding those maps inside web routes for serving in browsers. The library provides a comprehensive set of tools for data-driven map creation, including choropleth maps that bind tabular data to geographic geometries, colormap application to markers and polygons, and GeoJSON data overlay and visua
Arranges multiple independent maps in a grid for comparative geographic viewing.
Provides a plot rendering engine that outputs to virtual DOM and other formats.
Cette bibliothèque de visualisation de données C++ est un framework de traçage scientifique utilisé pour créer des graphiques 2D et 3D, des graphes de réseau et des cartes géographiques. Elle fonctionne comme une bibliothèque graphique multi-backend, découplant la logique de traçage de haut niveau des moteurs de rendu de bas niveau pour prendre en charge divers backends de sortie. Le projet se distingue par une API à double interface, fournissant à la fois une interface fonctionnelle globale pour le prototypage rapide et une interface orientée objet pour un contrôle précis. Il dispose d'un moteur de mise en page basé sur des composants pour gérer les grilles tuilées et les sous-graphiques, ainsi qu'un état de tracé en couches qui permet de superposer plusieurs séries de données sans effacer les axes. La bibliothèque couvre un large éventail de capacités de visualisation, incluant le traçage de fonctions mathématiques, les champs vectoriels et l'analyse de données multidimensionnelles via des cartes thermiques et des coordonnées parallèles. Elle inclut des outils spécialisés pour la visualisation de données géographiques, tels que les graphiques geobubble et geodensity, ainsi que des outils pour le rendu de réseaux de graphes dirigés et non dirigés. Les capacités générales incluent la gestion des axes, le stylisme esthétique avec des colormaps et l'exportation de graphiques de haute qualité. Le projet utilise CMake pour l'automatisation de la construction et la récupération des dépendances afin de faciliter l'installation sur différents systèmes d'exploitation.
Generates a grid of axes combining histograms and scatter plots to visualize data correlations.
ggpy is a Python library for statistical data visualization based on the grammar of graphics. It functions as a declarative framework for building complex charts by mapping data variables to visual properties through a structured coordinate system. The library enables the construction of composite visualizations by layering geometric shapes and statistical summaries. It utilizes a system of continuous and discrete scales to translate raw data into visual attributes and supports facet-based plotting to segment a single visualization into a grid of subplots based on variable categories. Visual
Arranges multiple plots in grid layouts for subgroup comparison based on data categories.
Makie.jl is a high-performance Julia data visualization library and hardware-accelerated plotting engine used to create interactive 2D and 3D visualizations. It functions as a reactive visualization framework where plots update automatically via observables and compute graphs, and as a vector graphics generator for high-resolution academic output. The system is distinguished by its backend-agnostic rendering pipeline, which supports OpenGL, WebGL, and ray-traced scenes. It employs a grammar-of-graphics approach to map variables to aesthetic attributes and utilizes a hierarchical scene graph t
Organizes multiple visual elements into rows and columns with automatically calculated dimensions.
Patchwork is a layout manager for combining multiple ggplot2 graphics into a single complex arrangement. It functions as a multi-plot composition tool and data visualization orchestrator, allowing independent graphics to be arranged into grids and nested layouts using additive and functional syntax. The system differentiates itself through a broadcast-based style application that propagates themes and scales across all subplots to maintain visual consistency. It also features guide-merging reconciliation to identify and collapse redundant legends into a single shared global guide. The framew
Provides additive and functional syntax to arrange multiple plots side-by-side or stacked vertically in grids.