551 lines
17 KiB
Markdown
Executable file
551 lines
17 KiB
Markdown
Executable file
# Manifest files - `vcpkg.json`
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The `vcpkg.json` file contains metadata about the port.
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It's a JSON file, and replaces the existing CONTROL file metadata structure.
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It must have a top level object, and all fields are case sensitive.
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## Examples:
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The most important fields in a manifest, the ones which are required for all ports,
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are the `"name"` field, and a version field (for now, just `"version-string"`).
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There's more information about these fields below.
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```json
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{
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"name": "ace",
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"version-string": "6.5.5"
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}
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```
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```json
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{
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"name": "vtk",
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"version-string": "8.2.0",
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"port-version": 2,
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"description": "Software system for 3D computer graphics, image processing, and visualization",
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"dependencies": [
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{
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"name": "atlmfc",
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"platform": "windows"
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},
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"double-conversion",
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"eigen3",
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"expat",
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"freetype",
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"glew",
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"hdf5",
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"jsoncpp",
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"libharu",
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"libjpeg-turbo",
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"libpng",
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"libtheora",
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"libxml2",
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"lz4",
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"netcdf-c",
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"proj4",
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"pugixml",
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"sqlite3",
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"tiff",
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"zlib"
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]
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}
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```
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## Fields
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### `"name"`
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The name of the port.
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When adding new ports be aware that the name may conflict with other projects that are not a part of vcpkg. For example `json` conflicts with too many other projects so you should add a scope to the name such as `taocpp-json` to make it unique. Verify there are no conflicts on a search engine as well as on other package collections.
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Package collections to check for conflicts:
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+ [Repology](https://repology.org/projects/)
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+ [Debian packages](https://www.debian.org/distrib/packages)
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+ [Packages search](https://pkgs.org/)
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A name must be an identifier: i.e., it must only consist of lowercase ascii alphabetic characters,
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numbers, and hyphens, and it must not begin nor end with a hyphen.
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### Version fields
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Currently there are different fields for special versioning. Namely:
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Manifest property | Versioning scheme
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------------------|------------------------------------
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`version` | For dot-separated numeric versions
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`version-semver` | For SemVer compliant versions
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`version-date` | For dates in the format YYYY-MM-DD
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`version-string` | For arbitrary strings
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See https://github.com/microsoft/vcpkg/blob/master/docs/specifications/versioning.md#22-package-versions for more details.
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Additionally, `"port-version"` is used to differentiate between port changes that don't change the underlying library version.
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#### `"version-string"`
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This field is an ascii string, and may contain alphanumeric characters, `.`, `_`, or `-`. No attempt at ordering versions is made; all versions are treated as byte strings and are only evaluated for equality.
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For tagged-release ports, we follow the following convention:
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1. If the library follows a scheme like `va.b.c`, we remove the leading `v`. In this case, it becomes `a.b.c`.
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2. If the library includes its own name in the version like `curl-7_65_1`, we remove the leading name: `7_65_1`
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3. If the library is versioned by dates, format the resulting version string just like the upstream library;
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for example, Abseil formats their dates `lts_2020_02_25`, so the `"version-string"` should be `"lts_2020_02_25"`.
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For rolling-release ports, we use the date that the _commit was accessed by you_, formatted as `YYYY-MM-DD`. Stated another way: if someone had a time machine and went to that date, they would see this commit as the latest master.
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For example, given:
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1. The latest commit was made on 2019-04-19
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2. The current version string is `2019-02-14`
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3. Today's date is 2019-06-01.
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Then if you update the source version today, you should give it version `2019-06-01`.
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#### `"port-version"`
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The version of the port, aside from the library version.
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This field is a non-negative integer.
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It allows one to version the port file separately from the version of the underlying library;
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if you make a change to a port, without changing the underlying version of the library,
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you should increment this field by one (starting at `0`, which is equivalent to no `"port-version"` field).
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When the version of the underlying library is upgraded,
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this field should be set back to `0` (i.e., delete the `"port-version"` field).
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#### Examples:
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```json
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{
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"version": "1.0.5",
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"port-version": 2
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}
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```
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```json
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{
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"version": "2019-03-21"
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}
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```
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### `"description"`
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A description of the library.
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This field can either be a single string, which should be a summary of the library,
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or can be an array, with the first line being a summary and the remaining lines being the detailed description -
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one string per line.
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#### Examples:
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```json
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{
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"description": "C++ header-only JSON library"
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}
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```
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```json
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{
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"description": [
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"Mosquitto is an open source message broker that implements the MQ Telemetry Transport protocol versions 3.1 and 3.1.1.",
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"MQTT provides a lightweight method of carrying out messaging using a publish/subscribe model."
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"This makes it suitable for 'machine to machine' messaging such as with low power sensors or mobile devices such as phones, embedded computers or microcontrollers like the Arduino."
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]
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}
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```
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### `"homepage"`
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The URL of the homepage for the library where a user is able to find additional documentation or the original source code.
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### `"documentation"`
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The URL where a user would be able to find official documentation for the library. Optional.
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### `"maintainers"`
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A list of strings that define the set of maintainers of a package.
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It's recommended that these take the form of `Givenname Surname <email>`,
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but this field is not checked for consistency.
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Optional.
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#### Example:
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```json
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{
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"homepage": "https://github.com/microsoft/vcpkg"
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}
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```
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### `"dependencies"`
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An array of ports the library has a dependency on.
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vcpkg does not distinguish between build-only dependencies and runtime dependencies.
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The complete list of dependencies needed to successfully use the library should be specified.
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For example: websocketpp is a header only library, and thus does not require any dependencies at install time.
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However, downstream users need boost and openssl to make use of the library.
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Therefore, websocketpp lists boost and openssl as dependencies.
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Each dependency may be either an identifier, or an object.
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For many dependencies, just listing the name of the library should be fine;
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however, if one needs to add extra information to that dependency, one may use the dependency object.
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For a dependency object, the `"name"` field is used to designate the library;
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for example the dependency object `{ "name": "zlib" }` is equivalent to just writing `"zlib"`.
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If the port is dependent on optional features of another library,
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those can be specified using the `"features"` field of the dependency object.
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If the port does not require any features from the dependency,
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this should be specified with the `"default-features"` fields set to `false`.
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Dependencies can also be filtered based on the target triplet to support differing requirements.
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These filters use the same syntax as the `"supports"` field below,
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and are specified in the `"platform"` field.
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#### Example:
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```json
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{
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"dependencies": [
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{
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"name": "curl",
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"default-features": false,
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"features": [
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"winssl"
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],
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"platform": "windows"
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},
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{
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"name": "curl",
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"default-features": false,
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"features": [
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"openssl"
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],
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"platform": "!windows"
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},
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"rapidjson"
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]
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}
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```
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### `"features"`
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Multiple optional features can be specified in manifest files, in the `"features"` object field.
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This field is a map from the feature name, to the feature's information.
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Each one must have a `"description"` field, and may also optionally have a `"dependencies"` field.
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A feature's name must be an identifier -
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in other words, lowercase alphabetic characters, digits, and hyphens,
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neither starting nor ending with a hyphen.
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A feature's `"description"` is a description of the feature,
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and is the same kind of thing as the port `"description"` field.
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A feature's `"dependencies"` field contains the list of extra dependencies required to build and use this feature;
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this field isn't required if the feature doesn't require any extra dependencies.
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On installation the dependencies from all selected features are combined to produce the full dependency list for the build.
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#### Example:
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```json
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{
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"name": "vtk",
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"version-string": "8.2.0",
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"port-version": 2,
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"description": "Software system for 3D computer graphics, image processing, and visualization",
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"dependencies": [
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{
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"name": "atlmfc",
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"platform": "windows"
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},
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"double-conversion",
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"eigen3",
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"expat",
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"freetype",
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"glew",
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"hdf5",
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"jsoncpp",
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"libharu",
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"libjpeg-turbo",
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"libpng",
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"libtheora",
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"libxml2",
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"lz4",
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"netcdf-c",
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"proj4",
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"pugixml",
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"sqlite3",
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"tiff",
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"zlib"
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],
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"features": {
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"mpi": {
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"description": "MPI functionality for VTK",
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"dependencies": [
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{
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"name": "hdf5",
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"features": [
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"parallel"
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]
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},
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"mpi"
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]
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},
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"openvr": {
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"description": "OpenVR functionality for VTK",
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"dependencies": [
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"openvr",
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"sdl2"
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]
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},
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"python": {
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"description": "Python functionality for VTK",
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"dependencies": [
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"python3"
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]
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},
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"qt": {
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"description": "Qt functionality for VTK",
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"dependencies": [
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"qt5"
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]
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}
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}
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}
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```
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### `"default-features"`
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An array of feature names that the library uses by default, if nothing else is specified.
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#### Example:
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```json
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{
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"default-features": [
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"kinesis"
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],
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"features": {
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"dynamodb": {
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"description": "Build dynamodb support",
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"dependencies": [
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"dynamodb"
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]
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},
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"kinesis": {
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"description": "build kinesis support"
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}
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}
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}
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```
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### `"supports"`
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A string, formatted as a platform expression,
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that evaluates to true when the port should build successfully for a triplet.
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This field is used in the CI testing to skip ports,
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and warns users in advance that a given install tree is not expected to succeed.
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Therefore, this field should be used optimistically;
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in cases where a port is expected to succeed 10% of the time, it should still be marked "supported".
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The grammar for this top-level platform expression, in [EBNF], is as follows:
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```ebnf
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whitespace-character =
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| ? U+0009 "CHARACTER TABULATION" ?
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| ? U+000A "LINE FEED" ?
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| ? U+000D "CARRIAGE RETURN" ?
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| ? U+0020 "SPACE" ? ;
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optional-whitespace = { whitespace-character } ;
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required-whitespace = whitespace-character, { optional-whitespace } ;
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lowercase-alpha =
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| "a" | "b" | "c" | "d" | "e" | "f" | "g" | "h" | "i" | "j" | "k" | "l" | "m"
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| "n" | "o" | "p" | "q" | "r" | "s" | "t" | "u" | "v" | "w" | "x" | "y" | "z" ;
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digit =
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| "0" | "1" | "2" | "3" | "4"
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| "5" | "6" | "7" | "8" | "9" ;
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identifier-character =
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| lowercase-alpha
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| digit ;
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platform-expression-list =
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| platform-expression { ",", optional-whitespace, platform-expression } ;
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platform-expression =
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| platform-expression-not
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| platform-expression-and
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| platform-expression-or ;
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platform-expression-identifier =
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| identifier-character, { identifier-character }, optional-whitespace ;
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platform-expression-grouped =
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| "(", optional-whitespace, platform-expression, ")", optional-whitespace ;
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platform-expression-simple =
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| platform-expression-identifier
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| platform-expression-grouped ;
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platform-expression-unary-keyword-operand =
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| required-whitespace, platform-expression-simple
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| optional-whitespace, platform-expression-grouped ;
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platform-expression-not =
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| platform-expression-simple
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| "!", optional-whitespace, platform-expression-simple
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| "not", platform-expression-unary-keyword-operand ;
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platform-expression-binary-keyword-first-operand =
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| platform-expression-not, required-whitespace
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| platform-expression-grouped ;
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platform-expression-binary-keyword-second-operand =
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| required-whitespace, platform-expression-not
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| platform-expression-grouped ;
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platform-expression-and =
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| platform-expression-not, { "&", optional-whitespace, platform-expression-not }
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| platform-expression-binary-keyword-first-operand, { "and", platform-expression-binary-keyword-second-operand } ;
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platform-expression-or =
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| platform-expression-not, { "|", optional-whitespace, platform-expression-not }
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| platform-expression-binary-keyword-first-operand, { "or", platform-expression-binary-keyword-second-operand } (* to allow for future extension *) ;
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top-level-platform-expression = optional-whitespace, platform-expression-list ;
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```
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Basically, there are four kinds of expressions -- identifiers, negations, ands, and ors.
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Negations may only negate an identifier or a grouped expression.
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Ands and ors are a list of `&` or `|` separated identifiers, negated expressions, and grouped expressions.
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One may not mix `&` and `|` without parentheses for grouping.
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These predefined identifier expressions are computed from standard triplet settings:
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- `native` - `TARGET_TRIPLET` == `HOST_TRIPLET`;
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useful for ports which depend on their own built binaries in their build.
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- `x64` - `VCPKG_TARGET_ARCHITECTURE` == `"x64"`
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- `x86` - `VCPKG_TARGET_ARCHITECTURE` == `"x86"`
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- `arm` - `VCPKG_TARGET_ARCHITECTURE` == `"arm"` or `VCPKG_TARGET_ARCHITECTURE` == `"arm64"`
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- `arm64` - `VCPKG_TARGET_ARCHITECTURE` == `"arm64"`
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- `windows` - `VCPKG_CMAKE_SYSTEM_NAME` == `""` or `VCPKG_CMAKE_SYSTEM_NAME` == `"WindowsStore"`
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- `mingw` - `VCPKG_CMAKE_SYSTEM_NAME` == `"MinGW"`
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- `uwp` - `VCPKG_CMAKE_SYSTEM_NAME` == `"WindowsStore"`
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- `linux` - `VCPKG_CMAKE_SYSTEM_NAME` == `"Linux"`
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- `osx` - `VCPKG_CMAKE_SYSTEM_NAME` == `"Darwin"`
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- `android` - `VCPKG_CMAKE_SYSTEM_NAME` == `"Android"`
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- `static` - `VCPKG_LIBRARY_LINKAGE` == `"static"`
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- `wasm32` - `VCPKG_TARGET_ARCHITECTURE` == `"wasm32"`
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- `emscripten` - `VCPKG_CMAKE_SYSTEM_NAME` == `"Emscripten"`
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- `staticcrt` - `VCPKG_CRT_LINKAGE` == `"static"`
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These predefined identifier expressions can be overridden in the triplet file,
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via the [`VCPKG_DEP_INFO_OVERRIDE_VARS`](../users/triplets.md) option,
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and new identifier expressions can be added via the same mechanism.
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This field is optional and defaults to true.
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> Implementers' Note: these terms are computed from the triplet via the `vcpkg_get_dep_info` mechanism.
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[EBNF]: https://en.wikipedia.org/wiki/Extended_Backus%E2%80%93Naur_form
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#### Example:
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```json
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{
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"supports": "!uwp & !(arm & !arm64)"
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}
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```
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This means "doesn't support uwp, nor arm32 (but does support arm64)".
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### `"license"`
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The license of the port. This is an [SPDX license expression],
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or `null` for proprietary licenses and other licenses for which
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one should "just read the `copyright` file" (e.g., Qt).
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[SPDX license expression]: https://spdx.dev/ids/#how
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Additionally, you can find the list of [recognized license IDs]
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and [recognized license exception IDs] in Annex A of the SPDX specification.
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[recognized license IDs]: https://spdx.github.io/spdx-spec/SPDX-license-list/#a1-licenses-with-short-identifiers
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[recognized license exception IDs]: https://spdx.github.io/spdx-spec/SPDX-license-list/#a2-exceptions-list
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The following is an EBNF conversion of the ABNF located at
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<https://spdx.github.io/spdx-spec/SPDX-license-expressions/>,
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and this is what we actually parse in vcpkg.
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Note that vcpkg does not support DocumentRefs.
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```ebnf
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idchar = ? regex /[-.a-zA-Z0-9]/ ?
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idstring = ( idchar ), { idchar } ;
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(* note that unrecognized license and license exception IDs will be warned against *)
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license-id = idstring ;
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license-exception-id = idstring ;
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(* note that DocumentRefs are unsupported by this implementation *)
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license-ref = "LicenseRef-", idstring ;
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with = [ whitespace ], "WITH", [ whitespace ] ;
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and = [ whitespace ], "AND", [ whitespace ] ;
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or = [ whitespace ], "OR", [ whitespace ] ;
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simple-expression = [ whitespace ], (
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| license-id
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| license-id, "+"
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| license-ref
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), [ whitespace ] ;
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(* the following are split up from compound-expression to make precedence obvious *)
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parenthesized-expression =
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| simple-expression
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| [ whitespace ], "(", or-expression, ")", [ whitespace ] ;
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with-expression =
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| parenthesized-expression
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| simple-expression, with, license-exception-id, [ whitespace ] ;
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(* note: "a AND b OR c" gets parsed as "(a AND b) OR c" *)
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and-expression = with-expression, { and, with-expression } ;
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or-expression = and-expression, { or, and-exression } ;
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license-expression = or-expression ;
|
|
```
|
|
|
|
#### Examples
|
|
|
|
For libraries with simple licensing,
|
|
only one license identifier may be needed;
|
|
|
|
vcpkg, for example, would use this since it uses the MIT license:
|
|
|
|
```json
|
|
{
|
|
"license": "MIT"
|
|
}
|
|
```
|
|
|
|
Many GPL'd projects allow either the GPL 2 or any later versions:
|
|
|
|
```json
|
|
{
|
|
"license": "GPL-2.0-or-later"
|
|
}
|
|
```
|
|
|
|
Many Rust projects, in order to make certain they're useable with GPL,
|
|
but also desiring the MIT license, will allow licensing under either
|
|
the MIT license or Apache 2.0:
|
|
|
|
```json
|
|
{
|
|
"license": "Apache-2.0 OR MIT"
|
|
}
|
|
```
|
|
|
|
Some major projects include exceptions;
|
|
the Microsoft C++ standard library, and the LLVM project,
|
|
are licensed under Apache 2.0 with the LLVM exception:
|
|
|
|
```json
|
|
{
|
|
"license": "Apache-2.0 WITH LLVM-exception"
|
|
}
|
|
```
|