-
-
Notifications
You must be signed in to change notification settings - Fork 59
Concepts
Why are these build scripts? Why not just use normal scripts with functions instead of scripts with tasks? This is a reasonable question and in many cases scripts with functions is the right choice. But in some scenarios scripts with tasks are easier to compose and use due to special conventions and features.
There is a directory with files, a "project", "workspace", "repository", etc. And there are operations on its files, "tasks". Tasks should be automated and easily invoked individually or as combinations.
This is a typical scenario where a build script with tasks may have advantages over a normal script with functions, especially if its location is the project directory.
The current location is always set to the build script directory. This is done before invoking the script itself, tasks, conditions, inputs, outputs, blocks, etc.
Due to this convention, tasks dealing with project files simply access them by relative paths. Other scripts in the project are easily invoked by relative paths, too. Tasks may change the current location and do not have to care of restoring it.
This is not the case for normal scripts. The location of files has to be set current manually or specified by a parameter or calculated. Invocation of external scripts by relative paths also needs some coding. If a function changes the current location then it may have to restore it for others.
Tasks may refer to other tasks to be invoked as well. Task relations allow easy composition of complex task trees. See Show Build Graph for examples.
A build script caller does not have to know all the relations. It calls the tasks that should be done. Related tasks are discovered by the engine and invoked in the proper order according to defined relations.
This is not the case for a set of functions in a normal script. All required functions have to be known to a caller and invoked explicitly in a correct order. This may be easy with a few functions but it is difficult and error prone in complex scenarios with many related operations.
Of course, some functions may call other functions themselves, relations are also possible, and a caller does not have to specify functions to be invoked anyway. But...
A task may be referenced many times by other tasks in the task trees being built. But as soon as it is invoked, it is never invoked again in the same build.
This is not the case with functions calling other functions. A function may be called many times. As a result, without extra care it may do the same job more than once. This is suboptimal performance in some cases and issues in others.
A build script is checked by the engine for missing referenced tasks and cyclic references. If there is any then the build stops before invocation of tasks and the problem is explained.
This is not the case for a normal script with functions. Problems like missing functions and cyclic references are discovered somewhere in the middle of the running process.
The default PowerShell error action is Continue, so that non terminating errors do not stop processing. This may be useful in interactive mode when errors are analysed before typing next commands.
But in scripts Continue is simply dangerous. That is why the build engine sets the default error action to Stop and build scripts may count on this.
This is not the case for a normal script. The current default error action is unknown, it depends on various factors, and very likely it is the default not safe Continue. Thus, normal scripts should take care of this.
Invocation of build scripts comes with simple and yet useful logging, with colors in a console, task duration measurement, processing of failures with shown error messages and task locations. Warnings are collected and shown separately after a build.
Incremental tasks provide effective ways to process files with out of date output and skip files with up to date output.
The build engine provides a few helper commands. Build scripts may use them in order to avoid some tedious coding.
-
exec
invokes an application and checks for exit code. -
assert
tests a condition and fails if it is not true. -
equals
verifies that two specified objects are equal. -
remove
removes the specified temporary build items. -
property
gets a session or environment variable. -
requires
checks for the required build assets. -
use
creates aliases to often used tools.
Build script tasks naturally describe what actions are supposed to be performed for a project, even if they are not documented explicitly. Supportive tools get this information in various ways.
-
Invoke-Build ?
shows available tasks with jobs and optional synopses from comments. -
Invoke-Build ... -WhatIf
gets more detailed preview of tasks and jobs to be invoked. -
Show-BuildGraph
,Show-BuildMermaid.ps1
,Show-BuildDgml
show task graphs. -
Show-BuildTree
shows task trees as text.
- Concepts
- Script Tutorial
- Incremental Tasks
- Partial Incremental Tasks
- How Build Works
- Special Variables
- Build Failures
- Build Analysis
- Parallel Builds
- Persistent Builds
- Portable Build Scripts
- Using for Test Automation
- Debugging Tips
- VSCode Tips
Helpers
- Invoke Task from VSCode
- Generate VSCode Tasks
- Invoke Task from ISE
- Resolve MSBuild
- Show Build Trees
- Show Build Graph
- Argument Completers
- Invoke-Build.template
Appendix