Documentation at https://melpa.org/#/projectile-speedbar

Documentation at https://melpa.org/#/flycheck-projectile

Documentation at https://melpa.org/#/projectile-variable

Documentation at https://melpa.org/#/treemacs-projectile

Documentation at https://melpa.org/#/org-projectile-helm

Documentation at https://melpa.org/#/bookmark-in-project

Documentation at https://melpa.org/#/org-project-capture

Documentation at https://melpa.org/#/nameframe-projectile

Documentation at https://melpa.org/#/denote-project-notes

Documentation at https://melpa.org/#/helm-project-persist

Documentation at https://melpa.org/#/find-file-in-project

This package is meant for people creating Elm tooling, like editor plugins. If you just want to make stuff in Elm, there is nothing here for you.

find-file-in-project finds files or directories quickly in the current project. The project root is detected automatically when Git, Subversion or Mercurial are used. It also provides functions to assist in reviewing changes on files.

Documentation at https://melpa.org/#/projectile-codesearch

Documentation at https://melpa.org/#/geben-helm-projectile

Documentation at https://melpa.org/#/consult-project-extra

Documentation at https://melpa.org/#/project-mode-line-tag

Display information about a buffer's project (a "project tag") in its mode line.

This package provides a clustering approach applicable to every projection method is proposed here. The two-dimensional scatter plot of any projection method can construct a topographic map which displays unapparent data structures by using distance and density information of the data. The generalized U*-matrix renders this visualization in the form of a topographic map, which can be used to automatically define the clusters of high-dimensional data. The whole system is based on Thrun and Ultsch, "Using Projection based Clustering to Find Distance and Density based Clusters in High-Dimensional Data" <DOI:10.1007/s00357-020-09373-2>. Selecting the correct projection method will result in a visualization in which mountains surround each cluster. The number of clusters can be determined by counting valleys on the topographic map. Most projection methods are wrappers for already available methods in R. By contrast, the neighbor retrieval visualizer (NeRV) is based on C++ source code of the dredviz software package, and the Curvilinear Component Analysis (CCA) is translated from MATLAB ('SOM Toolbox 2.0) to R.

Documentation at https://melpa.org/#/projectile-trailblazer

Documentation at https://melpa.org/#/project-persist-drawer

Documentation at https://melpa.org/#/projection-multi-embark

Proj is a selective and on-going port of the venerable PROJ.4 project to the Go language.

This package provides the following subpackages:

• proj (top-level): the Conversion API

• proj/cmd/proj: the simple proj command-line tool

• proj/core: the Core API, representing coordinate systems and conversion operations

• proj/gie: a naive implementation of the PROJ.4 gie tool, plus the full set of PROJ.4 test case files

• proj/merror: a little error package

• proj/mlog: a little logging package

• proj/operations: the actual coordinate operations; these routines tend to be closest to the original C code

• proj/support: misc structs and functions in support of the core package

Documentation at https://melpa.org/#/projectile-git-autofetch