ProjEnv allows the use of hierarchical parameter structure for projects.
Project description
Overview
projenv provides mechanism for project to manage parameters for programs in hierarchical way. Environment is a special type of dictionary holding parameters used by parts. There are multiple levels and types of environment files playing part in program run.
Environment node
Environment evaluation process walks the project tree from top to program location. In each node it looks for set of files that defines the environment parameters. By default, environment is derived from two type of files as each node:
Number |
Name |
Description |
---|---|---|
1 |
.envpackage.xml |
environment parameters for the package. |
2 |
.envoverride.xml |
personal overrides for package environment. It may include re-define parameters with override ride=True. |
Project can alter this default behavior by defining .envconfig.xml at its root with specific value for envnodes.
<environ>
<envnodes>.envproject, .envpackage, .envoverride</envnodes>
</environ>
Program Interface
Within programs there are three types of access points to the environment variables. To get projenv dictionary, program can perform the following command:
Loading environment variables from project structure
Updating environment variable in program
Accessing environment variables
Loading environment variables
import projenv
env=projenv.Environ()
When Program evaluates environment, it starts with root location going down the tree up to and including package environment of Program location.
Environ class __init__ has the following signature
Environ(self, osenv=True, trace_env=None, logclass=None, logger=None)
Name |
Description |
Default Values |
---|---|---|
osenv |
If set, load os environ. |
True |
trace_env |
List of environment variables to trace |
None |
logclass |
If provided the string will be used for trace naming. |
None |
logger |
If set to True and logclass=None, use Python getChild to set trace name. |
None |
Within derivative articles environment can be updated with environment variable as follows.
Updating environment variables
env.updates([
EnvVar(name='REJ_ALLOWED',cast='integer',value=0,input=True),
EnvVar(name='OUT_FILE',value='${VAR_LOC}/summary.csv',cast='path', input=True),
EnvVar(name='RATE',override='True',cast='integer',value=5,input=True)])
If input is set to True the variable update will be ignored if the variable is defined in parent environment. If variable is not defined in parent environment, it will be defined and set to value from the command. If input is set to False update will overwrite variable value if variable exists, if variable is not defined it will define it. Override flags environment variable as changeable by derivative program articles.
Accessing environment variables
import projenv
env=projenv.Environ()
env.updates([
EnvVar(name='REJ_ALLOWED',cast='integer',value=0,input=True),
EnvVar(name='OUT_FILE',value='${VAR_LOC}/summary.csv',cast='path', input=True),
EnvVar(name='RATE',override='True',cast='integer',value=5,input=True)])
ofile=env['OUT_FILE']
rate=env.get('RATE')
In the first case(ofile variable), direct access, KeyError exception may be sent if variable name does not exist. In the second example(rate variable), None value will be returned if not found.
Environment Tree
Environment files are evaluated in hierarchical way. The project tree and its packages are treated as nodes in a tree. Each node can be evaluated and have its own representation of the environment.
Single Project Environment Tree
At each node, environment is evaluated in the sequence or envnodes configuration parameter. By default this means:
First .envpackage.xml, if available, is read and set.
Next, .envoverride.xml overrides, if available, is read and set.
As shown below, this behavior could be changed to support different environment node structure. For example, to support legacy projects using older version of projenv, the following configuration .envconfig.xml can be used:
<environ>
<envnodes>.projectenv, packageenv, personalenv</envnodes>
</environ>
The following figure shows a possible use of default configuration.The structure below shows example environment tree in a project. When the above command is engaged in Program A, it would include environment setting of Project and Package A locations. Program AB will include Program A, Package A and Package AB accordingly.
- Project
envpackage
envoverride
Program A
- Package A
evpackage
envoverride
- Package AB
envpackage
envoverride
Program AB
The structure below shows example of an environment file. Core environment is tagged under < environ>. Environ mechanism would look for this tag. Once found, it would evaluate its content as environ- ment directive.
<environment>
<environ>
<var name='AC_WS_LOC' value='${HOME}/sand/myproject' export='True'/>
<var name='AC_ENV_NAME' value='test' export='True'/>
<var name='AC_VAR_BASE' value='${HOME}/var/data/' export='True'/>
<var name='AC_LOG_LEVEL' value='DEBUG' export='True'/>
<var name='AC_LOG_STDOUT' value='True' override='True' export='True' cast='boolean'/>
<var name='AC_LOG_STDOUT_LEVEL' value='INFO' override='True' export='True'/>
<var name='AC_LOG_STDERR' value='True' override='True' export='True' cast='boolean'/>
<var name='AC_LOG_STDERR_LEVEL' value='CRITICAL' override='True' export='True'/>
</environ>
</environment>
Note: <environment> tag is to provide enclosure to environ. Environ mechanism is not depending on its existent per se. However, some kind on enclosure is required; <environ> can not be in top level of the XML.
Example of Multiple Project Environment Tree
- At each import, environment is evaluated in the following sequence:
First get the node representation of imported path.
Evaluate it recursively (loading imports).
Finally, insert the resulted imported map instead of the import directive (flat).
Project A: /Users/me/projs/proja/.envpackage.xml
<environment>
<environ>
<var name='FILE_LOC' value='/Users/me/tmp/' export='True'/>
<var name='FILE_NAME' value='aname' export='True'/>
<var name='FILE_PATH' value='${FILE_LOC}${FILE_NAME}' export='True'/>
</environ>
</environment>
Project B: /Users/me/projs/projb/.envpackage.xml’
<environment>
<environ>
<import name='proja' path='/Users/me/projs/proja/.projectenv.xml'/>
<var name='FILE_NAME' value='bname' export='True'/>
</environ>
</environment>
The example above shows import project directive within project B’s environment. In project B’s context, FILE_PATH variable will result with the value /Users/me/tmp/bname.
Recursive inclusion of environments (recursive import statement) would cause evaluation of environment variables to be loaded recursively. Consideration is given to overrides in post import environments.
Note: import must be set as full path for the installation of the included project. It is therefore best practice to populate real path only in .envoverride.xml and not in .envpackage.xml.
Best Practices
So many options, so what should one do?
Naming Parameters
Prefix your parameters with an identifier. Specifically if your projects would need to cooperate (import their environment). We have all parameters us ’AC ’ as prefix. We also define ’AC PROJ PREFIX’ that can be used in program to construct parameter name.
We recommend following UNIX convention for environment variables. Use upper-case letters separated with underscore. We use this style in all of this document listings.
Drivers and Derivatives, for the sake of this discussion we define three types of parameters: 1. standalone is a parameter that is not dependent on another and is not used by another parameter. 2. driver is a parameter that other parameters defined by it. 3. derivative is a parameter that includes a driver in its definitions.
A parameter can be both a driver and derivative. Use drivers and derivative parameter definition in such a way that users may personalize the behavior of the system. For example, developers may want to change their own directory structure to fit their own tools.
.envproject
Dot (.) envproject, although not default in envnodes configuration, good practice to use. It is usually contains parameters that are good for the all projects. You can look at is as your standard parameters to all projects that you produce. In the following listing locations are defined as derivatives of AC VAR BASE. This is useful since users of this project can override that parameter to change to their own structure.
<environment>
<environ>
<var name=’AC_PROJ_PREFIX’ value=’AC_’ export=’True’ override=’True’/>
<var name=’AC_VAR_BASE’ value=’/var/accord/data/’ override=’True’ export=’True’/>
<var name=’AC_ENV_NAME’ value=’.’ override=’True’ export=’True’/>
<var name=’AC_VAR_LOC’ value=’${AC_VAR_BASE}${AC_ENV_NAME}/’ override=’True’ export=’True’/>
<var name=’AC_LOG_LOC’ value=’${AC_VAR_LOC}/log/’ override=’True’ export=’True’/>
<var name=’AC_REJ_LOC’ value=’${AC_VAR_LOC}/rej/’ override=’True’ export=’True’/>
<var name=’AC_RUN_LOC’ value=’${AC_VAR_LOC}/run/’ override=’True’ export=’True’/>
<var name=’AC_IN_LOC’ value=’${AC_VAR_LOC}/in/’ override=’True’ export=’True’/>
<var name=’AC_OUT_LOC’ value=’${AC_VAR_LOC}/out/’ override=’True’ export=’True’/>
</environ>
</environment>
.envpackage
Dot envpackage includes definitions for that are specific to the project or the package. Usually this is kept for things like RPC PORT or maybe MAIL SEND SMTP.
.envoverride
Dot envoverride provides means to personalize an environment. Users can override .envpackage or .envproject parameters. you may want to exclude envoverride from your code repository (e.g., add envoverride.xml to .gitignore). Otherwise, users may override each other personalizations.
Installation, validation and example program
How to install, validate installation and use the package?
Installation
To install run following command: pip install projenv
Validation
test.py in github link below perform unit test cases to check projenv.
Example
See example of the program using projenv on Github https://github.com/Acrisel/projenv/blob/master/environ/example/example
Backwards compatibility
Due the changes in naming of node base files, projects using previous version can do one of the following steps.
Change node files name to fit the new naming convention.
Add .envconfig.xml with proper envnodes definition as follows:
<environ>
<envnodes>.projectenv.xml, packageenv.xml, personalenv.xml</envnodes>
</environ>
also, each folder in the project hierarchy need to have __init__.py file; this is since the search for parent folder stops when a folder is found not to have __init__.py file.
Additional resources
Documentation is in the “docs” directory and online at the design and use of projenv.
example and tests directory shows ways to use projenv.Environ . Both directories are available to view and download as part of source code on GitHub. GitHub_link
Docs are updated rigorously. If you find any problems in the docs, or think they should be clarified in any way, please take 30 seconds to fill out a ticket in github or send us email at support@acrisel.com
To get more help or to provide suggestions you can send as email to: arnon@acrisel.com uri@acrisel.com
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