commit | 62528c3cc4f2bc1cd63b19142e8c00be613ea395 | [log] [tgz] |
---|---|---|
author | Marcel van Lohuizen <mpvl@golang.org> | Thu Sep 10 09:29:45 2020 +0200 |
committer | Marcel van Lohuizen <mpvl@golang.org> | Sat Sep 12 07:55:38 2020 +0000 |
tree | b69c8f8b97cb37d88854b81d292dc6b5ddc93e44 | |
parent | 3d863fc0ecc3ea5d72ce09260ebfb1554a54eb62 [diff] |
internal/core/eval: rewrite of closedness algorithm Spec did not change, but simplified algorithm. Fixes many bugs. This also adds a new compaction algorithm. This will be enabled in a follow-up CL. Also: - "not allowed" failure is now registered with child. This allows multiple failures to be recorded naturally, and also retains more of the correct structure. But more importantly, it prevents descending into the substructure, preventing spurious errors. - Position information has changed slightly, mostly for the better. This introduces a regression on trim. See tools/trim/trim_test.go Fixes #271 Fixes #320 Fixes #370 Fixes #471 Fixes #476 Fixes #483 Fixes #490 Fixes #491 Fixes #493 Fixes #494 Fixes #496 Fixes #497 Change-Id: Ia90ebbbafd8cfc768188d33f109a2e33a4cee922 Reviewed-on: https://cue-review.googlesource.com/c/cue/+/7002 Reviewed-by: Marcel van Lohuizen <mpvl@golang.org>
Configure, Unify, Execute
CUE is an open source data constraint language which aims to simplify tasks involving defining and using data.
It is a superset of JSON, allowing users familiar with JSON to get started quickly.
You can use CUE to
CUE merges the notion of schema and data. The same CUE definition can simultaneously be used for validating data and act as a template to reduce boilerplate. Schema definition is enriched with fine-grained value definitions and default values. At the same time, data can be simplified by removing values implied by such detailed definitions. The merging of these two concepts enables many tasks to be handled in a principled way.
Constraints provide a simple and well-defined, yet powerful, alternative to inheritance, a common source of complexity with configuration languages.
The CUE scripting layer defines declarative scripting, expressed in CUE, on top of data. This solves three problems: working around the closedness of CUE definitions (we say CUE is hermetic), providing an easy way to share common scripts and workflows for using data, and giving CUE the knowledge of how data is used to optimize validation.
There are many tools that interpret data or use a specialized language for a specific domain (Kustomize, Ksonnet). This solves dealing with data on one level, but the problem it solves may repeat itself at a higher level when integrating other systems in a workflow. CUE scripting is generic and allows users to define any workflow.
CUE is designed for automation. Some aspects of this are:
Using Homebrew, you can install using the CUE Homebrew tap:
brew install cuelang/tap/cue
If you already have Go installed, the short version is:
go get -u cuelang.org/go/cmd/cue
This will install the cue
command line tool.
For more details see Installing CUE.
The fastest way to learn the basics is to follow the tutorial on basic language constructs.
A more elaborate tutorial demonstrating of how to convert and restructure an existing set of Kubernetes configurations is available in written form.
Language Specification: official CUE Language specification.
API: the API on godoc.org
Builtin packages: builtins available from CUE programs
cue
Command line reference: the cue
command
Our canonical Git repository is located at https://cue.googlesource.com.
To contribute, please read the Contribution Guide.
To report issues or make a feature request, use the issue tracker.
Changes can be contributed using Gerrit or Github pull requests.
You can get in touch with the cuelang community in the following ways:
Unless otherwise noted, the CUE source files are distributed under the Apache 2.0 license found in the LICENSE file.
This is not an officially supported Google product.