CMake:Eclipse UNIX Tutorial: Difference between revisions

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Both solutions have '''pros''' and '''cons''' the first solution is presented here below
Both solutions have '''pros''' and '''cons''' the first solution is presented here below
the second is presented in another wiki page there: [[Eclipse_CDT4_Generator_Development]].
the second is presented in another wiki page there: [[Eclipse_CDT4_Generator]].


== Target Audience ==
== Target Audience ==

Revision as of 21:13, 29 October 2007

CMake with Eclipse

There is currently 2 options for the users wanting to use CMake and Eclipse for CMake enabled projects:

  1. Use the "Unix Makefile Generator" for your project and then create the corresponding Eclipse project by hand. This solution works well for any CMake 2.4.x version and you may find detailed and accurate instructions below in this page.
  2. Use the currently in development CMake Eclipse CDT4 generator which generates an Eclipse CDT4 project you may easily import in Eclipse. This solution works well but is only available through the CVS version of CMake or when CMake 2.6 is out.

Both solutions have pros and cons the first solution is presented here below the second is presented in another wiki page there: Eclipse_CDT4_Generator.

Target Audience

CMake users with a basic understanding of what CMake can and can NOT do for your project. Users should have a basic idea of what Eclipse is and how to install it. These instructions are written with OS X /Linux in mind but should be applicable to Windows Operating Systems.

Obtaining Eclipse + CDT

Eclipse IDE is an IDE written in Java that was initially used for developing java programs. Eclipse is also a "Rich Client Platform" on which almost any type of application can be built. One such project is the "C/C++ Development Tools" or CDT. The home page is here.

You can download a version of Eclipse that does NOT include all the other Java Development tools and only includes the C/C++ tools here. Just select the "Eclipse IDE for C/C++ Developers" link on that page.

There is also an Eclipse/CDT distribution for Windows, now called Wascana, that specifically includes MinGW/MSys/JRE/CDT/WxWidget. The home page is here.

CMake Editor Plugin for Eclipse

There is an editor plug-in for Eclipse available that will do syntax coloring, and in-editor CMake command documentation : CMake Editor. This plugin will NOT do project management for you or generate CMake files for you. You are still responsible for this part. CMakeEd just makes creating the CMakeLists.txt files easier.

Eclipse + CDT Version Information

CDT 3.1.2 goes with Eclipse 3.2
CDT 4.0 goes with Eclipse 3.3.

I highly recommend CDT 4.0 as the feature set is vastly improved, most notably the indexer which has become super fast. The syntax highlighting improvements are also very nice. There are now at least 3 C/C++ code formatters available (or edit/create your own style rules). Numerous other improvements are also incorporated into the release. Eclipse 3.3 does require Java 1.5 (5.0) jvm.

File System Setup

Eclipse CDT supports projects that already provide a makefile so this is good news for CMake users.

The basic steps to get Eclipse + CDT + CMake working are:

  1. Use CMake to generate makefiles for your project
  2. Create a new project in Eclipse using the top level directory of your project source code as the "Project Directory".
  3. Create an "External Tool" to run cmake from within Eclipse (Optional)

Note Regarding Out-Of-Source Builds: Eclipse CDT will work better if the the build directory is located within the source directory. Doing so makes it easier to configure Eclipse to Debug and Run your program. It is possible to store your build directory completely outside of the source directory however setting up the ability to debug and run your targets will be slightly more complicated. Regardless of how you set things up, it is currently not possible to use the same source directory with multiple Eclipse projects. Eclipse stores a .project and .cproject file in the root of each project (your source tree in this case) and keeps track of active projects. It will not allow you to reuse a source directory twice (as it views them as project directories).

A typical project setup workflow would be something like this.

In a terminal program, "cd" into the top level of your project (source) directory ideally where your CMakeLists.txt file resides. Create a directory called "Build". cd into Build and then run 'ccmake' or 'cmake' using the parent directory as the target for cmake. Let us use the 'Example' directory that is a part of the CMake source distribution as the source folder for this tutorial.

[mjackson@Thor:]$ cd /CMake-2.4.6/Example
[mjackson@Thor:]$ mkdir Build
[mjackson@Thor:]$ cd Build
[mjackson@Thor:]$ ccmake ../

Basic Project Setup
Image showing the basic Project setup for our tutorial.

At this point we have bootstrapped the process somewhat so Eclipse throws less errors when we setup the Eclipse Projects.

Eclipse Project Setup

Launch Eclipse and go to "New->C++ Project" Menu

New Project Menu


Select the MakeFile Project type, choose Other Toolchain and click Next

Project Wizard Makefile Selection


Select the Advanced Settings Button

Project Wizard Setting Project Type


Uncheck the Use Default Build Command
Insert the following in the Build Command Text Field:  make -C ${workspace_loc}/[NAME OF YOUR PROJECT]/Build VERBOSE=1

"In the picture below, the name of the project is 'MXATools'" Project Wizard Advanced Options


Disclose the "C/C++ Build" options, and select "Settings".
In the Right Side pane select the binary format for your system.
Click on the OK Button. Your project is now ready.

Project Wizard Setting binary Parser


Our Finished Project showing off
some of the C++ semantic highlighting capabilities
Eclipse showing the CMakeEditor Plugin
Project Wizard
CMakeEditor Screen Shot

Creating an External Tool to run cmake (Optional)

In the course of normal development it is common to edit your CMakeLists.txt files. The makefile should pick up this difference and rerun cmake again. Most of the time this is perfectly sufficient and works just fine. Othertimes however this is NOT sufficient so having a convenient way to run CMake from within Eclipse is handy.

Times when this step is needed:

  • You do major edits to the CMakeLists.txt files and you want to be sure that cmake is picking everything up.
  • You would like to start from a clean build state with nothing in the build directory
  • You are developing your CMakeLists.txt file and you just want to see the outcome of running cmake on your project but do NOT need to actually build your project. For example you are configuring a file and just want to see the newly created/configured file


Creating an External Tool
To do this select the "Run->External Tools->Show External Tools Dialog..." menu.
Create a new "Program" and call it Cmake.
In the "Location" text field, type the absolute path to cmake (/usr/local/bin/cmake).
In the "Working Directory" test field insert the following: "${workspace_loc}/[NAME OF YOUR PROJECT DIRECTORY/Build" and in the Arguments section insert the following: "../".
In the "Refresh" tab select The project containing the selected resources.
In the "Common" tab check the "External Tools" selection.
This will put a shortcut in the "Run" menu for you.
Click the Apply Button and then run.
CMake will now run on your project directory.

Parsing Errors more efficiently

The CDT Error Parser cannot handle error messages that span more than one line, which is the default gcc behavior. In order to force gcc to generate single line error messages with no line wrapping, add to your CMakeLists.txt:

IF(CMAKE_COMPILER_IS_GNUCC)
  SET(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fmessage-length=0")
ENDIF(CMAKE_COMPILER_IS_GNUCC)
IF(CMAKE_COMPILER_IS_GNUCXX)
  SET(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fmessage-length=0")
ENDIF(CMAKE_COMPILER_IS_GNUCXX)

Automatic Discovery of Include directories (Optional, but handy)

Eclipse relies on default include paths such as /usr/include to find and index header files. One can manually enter more include paths from the "Project Properties" dialog but there is a much easier way for Eclipse to pick up on any 'non-default' include paths needed by your project.

Eclipse has a mechanism in place to 'Discover' these locations. The mechanism works by parsing the compiler invocation looking for "-I" arguments then adds these directories to the list of include paths to index. In order for this discovery process to work you need to build your project at least once with the CMAKE_VERBOSE_MAKEFILE to true either by setting the variable in your CMakeLists.txt file
SET(CMAKE_VERBOSE_MAKEFILE ON)
OR
by setting the "make" command to the following:
make -C ${workspace_loc}/[NAME OF YOUR PROJECT DIRECTORY/Build VERBOSE=1

Multiple Make Jobs for Multi-Core Hardware

If you have a multi-core hardware system (Intel Core Duo or the like) you can use the following to invoke more than one compile job:

make -C ${workspace_loc}/[NAME OF YOUR PROJECT DIRECTORY/Build -j2

Where '2' is the number of jobs to have make run.

True Out of Source Builds

You can still do out of source builds if you want. The make command would be the following if you have created your build directory at the same level as your project directory and called it "MyProjectBuild"

make -C ${workspace_loc}/[NAME OF YOUR PROJECT DIRECTORY/../MyProjectBuild

While this will work, what you will be missing is the list of binaries in your project view which makes setup of Debugging and Running your executable easier. All this can still be setup through custom run and debug commands in eclipse. I will leave that as an exercise to the reader.



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