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This version of this document is no longer maintained. For the latest documentation, see http://www.qnx.com/developers/docs. |
You can select a topic from this diagram:
This chapter describes managing source code from within the IDE.
CVS is the default source-management system in the IDE. Other systems (e.g. ClearCase) are also supported.
The CVS Repository Exploring perspective lets you bring code from CVS into your workspace. If another developer changes the source in CVS while you're working on it, the IDE helps you synchronize with CVS and resolve any conflicts. You can also choose to automatically notify the CVS server whenever you start working on a file. The CVS server will then notify other developers who work on that file as well. Finally, the CVS Repository Exploring perspective lets you check your modified code back into CVS.
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The IDE connects to CVS repositories that reside only on remote servers -- you can't have a local CVS repository (i.e. one that resides on your host computer) unless it's set up to allow CVS pserver, ext, or extssh connections. |
The IDE lets you "undo" changes with its local history. While you're working on your code, the IDE automatically keeps track of the changes you make to your file; it lets you roll back to an earlier version of a file that you saved but didn't commit to CVS.
For more on the IDE's local history feature, follow these links in the Workbench User Guide: Reference-->User interface information-->Development environment-->Local history.
For each project, the IDE stores important information in these two files:
You must include both files with your project when you commit it to CVS.
Since the CVS Repository Exploring perspective is a core Eclipse feature, you'll find complete documentation in the Eclipse Workbench User Guide. Follow these links:
This table may help you find information quickly in the Workbench User Guide:
| If you want to: | Go to: |
|---|---|
| Connect to a CVS repository | Tasks-->Working in the team environment with CVS-->Working with a CVS repository-->Creating a CVS repository location |
| Check code out of CVS | Tasks-->Working in the team environment with CVS-->Working with projects shared with CVS-->Checking out a project from a CVS repository |
| Synchronize with a CVS repository | Tasks-->Working in the team environment with CVS-->Synchronizing with the repository, especially the Updating section |
| See who's also working on a file | Tasks-->Working in the team environment with CVS-->Finding out who's working on what: watch/edit |
| Resolve CVS conflicts | Tasks-->Working in the team environment with CVS-->Synchronizing with the repository-->Resolving conflicts |
| Prevent certain files from being committed to CVS | Tasks-->Working in the team environment with CVS-->Synchronizing with the repository-->Version control life cycle: adding and ignoring resources |
| Create and apply a patch | Tasks-->Working in the team environment with CVS-->Working with patches |
| Track code changes that haven't been committed to CVS | Tasks-->Working with local history, especially the Comparing resources with the local history section |
| View an online FAQ about the CVS Repository Exploring perspective | Reference-->Team Support-->CVS |
As with many tasks within the IDE, there's more than one way to bring existing source files into your workspace:
Whatever method you use, you always need to set up an IDE project in your workspace in order to work with the resources you're importing.
If you're importing code that uses an existing build system, you may need to provide a Makefile with all: and clean: targets that call your existing build system.
For example, if you're using the jam tool to build your application, your IDE project Makefile might look like this:
all:
jam -fbuild.jam
clean:
jam -fbuild.jam clean
Suppose you have an existing source hierarchy that looks something like this:
In order to work efficiently with this source in the IDE, each component and subcomponent should be a "subproject" within the one main project. (You could keep an entire hierarchy as a single project if you wish, but you'd probably find it cumbersome to build and work with such a monolith.)
Unfortunately, the current version of Eclipse (3.0) in QNX Momentics 6.3 doesn't support nesting projects as such. So how would you import such a source tree into Eclipse 3.0?
First, in your workspace create a single project that reflects all the components that reside in your existing source tree:
Now we'll create an individual project (via File-->New-->Project...) for each of the existing projects (or components) in your source tree. In this example, we'd create a separate project for each of the following source components:
Next we'll link each individual project in the IDE to its corresponding directory in the source tree:
Now we'll need to tell the IDE to build Project_ComponentA in the ComponentA linked folder that you just created in your workspace:
Now when you go to build Project_ComponentA, the IDE will build it in the ComponentA folder in your workspace (even though the source actually resides in a folder outside your workspace).
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Linked resources let you overlap
files in your workspace, so files from one project can
appear in another project. But keep in mind that if you
change a file or other resource in one place, the
duplicate resource will also be affected. If you
delete a duplicate resource, its original will also be
deleted!
Special rules apply when working with linked resources. Since a linked resource must reside directly below a project, you can't copy or move a linked resource into other folders. If you delete a linked resource from your project, this will not cause the corresponding resource in the filesystem to also be deleted. But if you delete child resources of linked folders, this will delete those child resources from the filesystem! |
On Windows hosts, you can select files or folders and drop them into projects in the Navigator view:
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You can also use Cut, Copy, and Paste to move or copy files into a project from Windows Explorer. |
Using the CVS Repository Exploring perspective, you can check out modules or directories into existing projects, or to create new projects.
Bringing code into the IDE from CVS differs slightly depending on what you're importing:
To check out an existing C/C++ project (either a QNX project or a Standard Make project) from the CVS repository into your workspace:
The IDE creates a project with the same name as the CVS module in your workspace. The project is automatically recognized as a Standard Make or QNX project (if the project has .project and .cdtproject files).
To check out existing C/C++ code that isn't part of a project:
The IDE displays the Check Out As wizard.
The Check Out As wizard
Choose the workspace location for this project, then the CVS tag to check out. Click Finish to exit the Check Out As dialog.
Click Next to continue.
To import a directory full of C/C++ code into an existing project:
The IDE displays the Check Out As dialog.
Click Next to continue. The IDE displays the Check Out Into dialog.
Use the Import wizard to bring files or folders into an existing project from a variety of different sources, such as:
For details, see "Importing projects" in the Common Wizards Reference chapter.
As an alternative to dragging-and-dropping, you can link files and folders into a project. This lets you include files in your project, even if they need to reside in a specific place on your filesystem (because of a restrictive source control system, for example).
To add a linked resource to a project in the C/C++ Project or Navigator view:
The New File or New Folder dialog appears.
See Concepts-->Workbench-->Linked resources in the Workbench User Guide for more information about linked resources.
A container is a project that creates a logical grouping of subprojects. Containers can ease the building of large multiproject systems. You can have containers practically anywhere you want on the filesystem, with one exception: containers can't appear in the parent folders of other projects (because this would create a projects-in-projects problem).
Containers let you specify just about any number of build configurations (which are analogous to build variants in C/C++ projects). Each build configuration contains a list of subprojects and specifies which variant to be built for each of those projects. Note that each build configuration may contain a different list and mix of subprojects (e.g. QNX C/C++ projects, standard make projects, or other container projects.)
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In order to create a container, you must have at least one subproject that you want to contain. |
To create a container project:
Each subproject has a make-targets entry under the Target field. The "Default" entry means don't pass any targets to the make command. QNX C/C++ projects will interpret this as "rebuild". If a subproject is also a container project, this field represents build configuration for that container.
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You can set the default for QNX C/C++ projects by opening the Preferences dialog box (Window-->Preferences in the menu), then choosing QNX-->Container properties. |
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The Stop on error column controls whether the build process for the container will stop at the first subproject to have an error or will continue to build all the remaining subprojects. |
To select a working set, click the down-arrow at the top of the C/C++ Projects view pane and select the working set you want. Note that the working set created when the container was created will have the same name as the container.
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If you add or remove elements to a container project later, the working set is not updated automatically. |
Just as QNX C/C++ projects have build variants, container projects have build configurations. Each configuration can be entirely distinct from other configurations in the same container. For example, you could have two separate configurations, say "Development" and "Released,", in your top-level container. The "Development" configuration would build the "Development" configuration of any subcontainers, as well as the appropriate build variant for any subprojects. The "Released" configuration would be identical, except that it would build the "Released" variants of subprojects.
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Note that the default configuration is the first configuration that was created when the container project was created. |
To create a build configuration for a container:
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If you want to change the build order, use the Shift Up or Shift Down buttons. |
There are two ways to change existing configurations for a container project, both of which appear in the right-click menu:
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Although you can use either method to edit a configuration,
you might find changing the Properties easier because it
shows you a tree-view of your entire container
project.
Note also that you can edit only those configurations that are immediate children of the root container. |
You can use the container project's Properties to:
To edit a configuration:
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While editing a configuration, you can include or exclude a component from the build just by checking or unchecking the component. Note that if you exclude a component from being built, it's not removed from your container. |
You can access the Container Build Configuration dialog from the container project's right-click menu.
Note that this method doesn't show you a tree-view of your container.
To edit the configuration:
Once you've finished setting up your container project and its configurations, it's very simple to build your container:
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A project's build variant selected in the container
configuration will be built, regardless of whether the
variant is selected in the C/C++ project's properties. In
other words, the container project overrides the individual
project's build-variant setting during the build.
The one exception to this is the All Enabled variant in the container configuration. If the container configuration is set to build all enabled variants of a project, then only those variants that you've selected in the project's build-variant properties will be built. |
To build the default container configuration, you can also use the Build item in the right-click menu.
QNX BSPs and other source packages (e.g. DDKs) are distributed as .zip archives. The IDE lets you import these packages into the IDE:
| When you import: | The IDE creates: |
|---|---|
| QNX BSP source package | A System Builder project. |
| QNX C/C++ source package | A C or C++ application or library project. |
You import a QNX source archive using the standard Eclipse import dialog:
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If you're importing a BSP, select QNX Board Support Package. If you're importing a DDK, select QNX Source Package. |
As you can see, you can choose to import either a QNX BSP or a "source package." Although a BSP is, in fact, a package that contains source code, the two types are structured differently and will generate different types of projects. If you try to import a BSP archive as a QNX Source Package, the IDE won't create a System Builder project.
After you choose the type of package you're importing, the wizard then presents you with a list of the packages found in $QNX_TARGET/usr/src/archives on your host:
Notice that as you highlight a package in the list, a description for that package is displayed.
To add more packages to the list:
Each source package contains several components (or projects, in IDE terms). For the package you selected, the wizard then gives you a list of each source project contained in the archive:
You can decide to import only certain parts of the source package -- simply uncheck the entries you don't want (they're all selected by default). Again, as you highlight a component, you'll see its description in the bottom pane.
The last page of the import wizard lets you name your source projects. You can specify:
If you plan to import a source BSP and a binary BSP into the IDE, remember to give each project a different name.
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Importing dual-endian BSPs will display this informational message:
If you add build variants, you will need to copy the CPU-specific files to the new variant's build directories. |
When you finish with the wizard, it creates all the projects and brings in the sources from the archive. It will then ask if you want to build all the projects you've just imported.
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If you answer Yes, the IDE will begin the build process, which may take several minutes (depending on how much source you've imported). |
If you decide not to build now, you can always do a Rebuild All from the main toolbar's Project menu at a later time.
If you didn't import all the components from a BSP package, you can bring in the rest of them by selecting the System Builder project and opening the import wizard (right-click the project, then select Import...). The IDE detects your selection and then extends the existing BSP (rather than making a new one).
When you import a QNX Board Support Package, the IDE opens the QNX BSP perspective. This perspective combines the minimum elements from both the C/C++ Development perspective and the System Builder perspective:
You can export projects to your filesystem or to .zip files by doing one of the following:
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Press Alt while dragging to copy the file or folder instead of moving it out of the project. |
The Export wizard helps you export entire projects to your filesystem or a .zip file.
To export one or more projects:
The Export wizard appears.
The Export wizard's next panel appears.
To select files based on their extensions, click the Select Types... button. The Select Types dialog box appears.
Click one or more extensions, then click OK to filter the selected files in the Export wizard.
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If you export more than one project, and someone imports from the resulting filesystem or .zip file, they'll get one project containing all of the projects you exported. |
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