<img alt="juCi++" src="share/juci.png" />

## About
In 2015, juCi++ was one of the first IDEs to utilize libclang for improved C/C++ tooling.
The integrated C/C++ support has since then improved steadily, and support for other
languages has been made possible through the language server protocol. The main goals of juCi++ is
effective resource usage, stability, and ease of use. Instead of relying on 3rd party addons,
features expected in an IDE is instead integrated directly into juCi++.

For effective development, juCi++ is primarily written for Unix/Linux systems. However, Windows users
can use juCi++ through POSIX compatibility layers such as MSYS2.

## Features
* Platform independent
* Fast, responsive and stable (written extensively using C++11/14 features)
* Syntax highlighting for more than 100 different file types
* Warnings and errors on the fly
* Fix-its, as well as C/C++ standard header include suggestions
* Integrated Clang-Tidy checks can be enabled in preferences
* Debug integration, both local and remote, through lldb
* Supports the following C/C++ build systems directly (other build systems need manually generated compilation databases):
    * CMake
    * Meson
* Fast autocompletion
* Tooltips showing type information and documentation
* Rename refactoring across files
* Highlighting of similar types
* Automated documentation search for C/C++ identifiers
* Go to declaration, implementation, methods and usages
* OpenCL and CUDA files are supported and parsed as C++
* Non-C/C++ files are supported through the Language Server Protocol, which is enabled if an `[language identifier]-language-server` executable is found. This executable can be a symbolic link to one of your installed language server binaries.
    * For additional instructions, see: [setup of tested language servers](docs/language_servers.md)
* Non-C/C++ projects are also supported, such as Python, JavaScript, and Rust projects
* Git support through libgit2
* Find symbol through Ctags ([Universal Ctags](https://github.com/universal-ctags/ctags) is recommended)
* Spell checking depending on file context
* Run shell commands within juCi++
* ANSI colors are supported. Enable for instance by setting the environment variables `CLICOLOR=1 CLICOLOR_FORCE=1` before starting juCi++. Colored diagnostics from clang is enabled through the flag `-fcolor-diagnostics`, and gcc uses the flag `-fdiagnostics-color`.
* Regex search and replace
* Smart paste, keys and indentation
* Extend/shrink selection
* Multiple cursors
* Snippets can be added in ~/.juci/snippets.json using the [TextMate snippet syntax](https://macromates.com/manual/en/snippets). The language ids used in the regexes can be found here: https://gitlab.gnome.org/GNOME/gtksourceview/tree/master/data/language-specs.
* Auto-indentation through [clang-format](http://clang.llvm.org/docs/ClangFormat.html) or [Prettier](https://github.com/prettier/prettier) if installed
* Source minimap
* Split view
* Zen mode
* Full UTF-8 support
* Wayland supported with GTK+ 3.20 or newer

See [enhancements](https://gitlab.com/cppit/jucipp/issues?scope=all&state=opened&label_name[]=enhancement) for planned features.

## Screenshots
<table border="0">
<tr>
<td><img src="docs/images/screenshot1c.png" width="380"/></td>
<td><img src="docs/images/screenshot2c.png" width="380"/></td>
</tr><tr>
<td><img src="docs/images/screenshot3c.png" width="380"/></td>
<td><img src="docs/images/screenshot4b.png" width="380"/></td>
</tr>
</table>

## Installation
See [installation guide](docs/install.md).

## Custom styling
See [custom styling](docs/custom_styling.md).

## Dependencies
* boost-filesystem
* boost-serialization
* gtkmm-3.0
* gtksourceviewmm-3.0
* aspell
* libclang
* lldb
* libgit2
* [libclangmm](http://gitlab.com/cppit/libclangmm/) (downloaded directly with git --recursive, no need to install)
* [tiny-process-library](http://gitlab.com/eidheim/tiny-process-library/) (downloaded directly with git --recursive, no need to install)

## Documentation
See [how to build the API doc](docs/api.md).