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nixpkgs/lib/gvariant.nix
Silvan Mosberger 4f0dadbf38 treewide: format all inactive Nix files 
After final improvements to the official formatter implementation,
this commit now performs the first treewide reformat of Nix files using it.
This is part of the implementation of RFC 166.

Only "inactive" files are reformatted, meaning only files that
aren't being touched by any PR with activity in the past 2 months.
This is to avoid conflicts for PRs that might soon be merged.
Later we can do a full treewide reformat to get the rest,
which should not cause as many conflicts.

A CI check has already been running for some time to ensure that new and
already-formatted files are formatted, so the files being reformatted here
should also stay formatted.

This commit was automatically created and can be verified using

    nix-build a08b3a4d19.tar.gz \
      --argstr baseRev b32a094368
    result/bin/apply-formatting $NIXPKGS_PATH
2024-12-10 20:26:33 +01:00

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/**
A partial and basic implementation of GVariant formatted strings.
See [GVariant Format Strings](https://docs.gtk.org/glib/gvariant-format-strings.html) for details.
:::{.warning}
This API is not considered fully stable and it might therefore
change in backwards incompatible ways without prior notice.
:::
*/
# This file is based on https://github.com/nix-community/home-manager
# Copyright (c) 2017-2022 Home Manager contributors
{ lib }:
let
inherit (lib)
concatMapStringsSep
concatStrings
escape
head
replaceStrings
;
mkPrimitive = t: v: {
_type = "gvariant";
type = t;
value = v;
__toString = self: "@${self.type} ${toString self.value}"; # https://docs.gtk.org/glib/gvariant-text.html
};
type = {
arrayOf = t: "a${t}";
maybeOf = t: "m${t}";
tupleOf = ts: "(${concatStrings ts})";
dictionaryEntryOf = nameType: valueType: "{${nameType}${valueType}}";
string = "s";
boolean = "b";
uchar = "y";
int16 = "n";
uint16 = "q";
int32 = "i";
uint32 = "u";
int64 = "x";
uint64 = "t";
double = "d";
variant = "v";
};
in
rec {
inherit type;
/**
Check if a value is a GVariant value
# Inputs
`v`
: value to check
# Type
```
isGVariant :: Any -> Bool
```
*/
isGVariant = v: v._type or "" == "gvariant";
intConstructors = [
{
name = "mkInt32";
type = type.int32;
min = -2147483648;
max = 2147483647;
}
{
name = "mkUint32";
type = type.uint32;
min = 0;
max = 4294967295;
}
{
name = "mkInt64";
type = type.int64;
# Nix does not support such large numbers.
min = null;
max = null;
}
{
name = "mkUint64";
type = type.uint64;
min = 0;
# Nix does not support such large numbers.
max = null;
}
{
name = "mkInt16";
type = type.int16;
min = -32768;
max = 32767;
}
{
name = "mkUint16";
type = type.uint16;
min = 0;
max = 65535;
}
{
name = "mkUchar";
type = type.uchar;
min = 0;
max = 255;
}
];
/**
Returns the GVariant value that most closely matches the given Nix value.
If no GVariant value can be found unambiguously then error is thrown.
# Inputs
`v`
: 1\. Function argument
# Type
```
mkValue :: Any -> gvariant
```
*/
mkValue =
v:
if builtins.isBool v then
mkBoolean v
else if builtins.isFloat v then
mkDouble v
else if builtins.isString v then
mkString v
else if builtins.isList v then
mkArray v
else if isGVariant v then
v
else if builtins.isInt v then
let
validConstructors = builtins.filter (
{ min, max, ... }: (min == null || min <= v) && (max == null || v <= max)
) intConstructors;
in
throw ''
The GVariant type for number ${builtins.toString v} is unclear.
Please wrap the value with one of the following, depending on the value type in GSettings schema:
${lib.concatMapStringsSep "\n" (
{ name, type, ... }: "- `lib.gvariant.${name}` for `${type}`"
) validConstructors}
''
else if builtins.isAttrs v then
throw "Cannot construct GVariant value from an attribute set. If you want to construct a dictionary, you will need to create an array containing items constructed with `lib.gvariant.mkDictionaryEntry`."
else
throw "The GVariant type of ${builtins.typeOf v} can't be inferred.";
/**
Returns the GVariant array from the given type of the elements and a Nix list.
# Inputs
`elems`
: 1\. Function argument
# Type
```
mkArray :: [Any] -> gvariant
```
# Examples
:::{.example}
## `lib.gvariant.mkArray` usage example
```nix
# Creating a string array
lib.gvariant.mkArray [ "a" "b" "c" ]
```
:::
*/
mkArray =
elems:
let
vs = map mkValue (lib.throwIf (elems == [ ]) "Please create empty array with mkEmptyArray." elems);
elemType = lib.throwIfNot (lib.all (t: (head vs).type == t) (
map (v: v.type) vs
)) "Elements in a list should have same type." (head vs).type;
in
mkPrimitive (type.arrayOf elemType) vs
// {
__toString = self: "@${self.type} [${concatMapStringsSep "," toString self.value}]";
};
/**
Returns the GVariant array from the given empty Nix list.
# Inputs
`elemType`
: 1\. Function argument
# Type
```
mkEmptyArray :: gvariant.type -> gvariant
```
# Examples
:::{.example}
## `lib.gvariant.mkEmptyArray` usage example
```nix
# Creating an empty string array
lib.gvariant.mkEmptyArray (lib.gvariant.type.string)
```
:::
*/
mkEmptyArray =
elemType:
mkPrimitive (type.arrayOf elemType) [ ]
// {
__toString = self: "@${self.type} []";
};
/**
Returns the GVariant variant from the given Nix value. Variants are containers
of different GVariant type.
# Inputs
`elem`
: 1\. Function argument
# Type
```
mkVariant :: Any -> gvariant
```
# Examples
:::{.example}
## `lib.gvariant.mkVariant` usage example
```nix
lib.gvariant.mkArray [
(lib.gvariant.mkVariant "a string")
(lib.gvariant.mkVariant (lib.gvariant.mkInt32 1))
]
```
:::
*/
mkVariant =
elem:
let
gvarElem = mkValue elem;
in
mkPrimitive type.variant gvarElem
// {
__toString = self: "<${toString self.value}>";
};
/**
Returns the GVariant dictionary entry from the given key and value.
# Inputs
`name`
: The key of the entry
`value`
: The value of the entry
# Type
```
mkDictionaryEntry :: String -> Any -> gvariant
```
# Examples
:::{.example}
## `lib.gvariant.mkDictionaryEntry` usage example
```nix
# A dictionary describing an Epiphanys search provider
[
(lib.gvariant.mkDictionaryEntry "url" (lib.gvariant.mkVariant "https://duckduckgo.com/?q=%s&t=epiphany"))
(lib.gvariant.mkDictionaryEntry "bang" (lib.gvariant.mkVariant "!d"))
(lib.gvariant.mkDictionaryEntry "name" (lib.gvariant.mkVariant "DuckDuckGo"))
]
```
:::
*/
mkDictionaryEntry =
name: value:
let
name' = mkValue name;
value' = mkValue value;
dictionaryType = type.dictionaryEntryOf name'.type value'.type;
in
mkPrimitive dictionaryType { inherit name value; }
// {
__toString = self: "@${self.type} {${name'},${value'}}";
};
/**
Returns the GVariant maybe from the given element type.
# Inputs
`elemType`
: 1\. Function argument
`elem`
: 2\. Function argument
# Type
```
mkMaybe :: gvariant.type -> Any -> gvariant
```
*/
mkMaybe =
elemType: elem:
mkPrimitive (type.maybeOf elemType) elem
// {
__toString =
self: if self.value == null then "@${self.type} nothing" else "just ${toString self.value}";
};
/**
Returns the GVariant nothing from the given element type.
# Inputs
`elemType`
: 1\. Function argument
# Type
```
mkNothing :: gvariant.type -> gvariant
```
*/
mkNothing = elemType: mkMaybe elemType null;
/**
Returns the GVariant just from the given Nix value.
# Inputs
`elem`
: 1\. Function argument
# Type
```
mkJust :: Any -> gvariant
```
*/
mkJust =
elem:
let
gvarElem = mkValue elem;
in
mkMaybe gvarElem.type gvarElem;
/**
Returns the GVariant tuple from the given Nix list.
# Inputs
`elems`
: 1\. Function argument
# Type
```
mkTuple :: [Any] -> gvariant
```
*/
mkTuple =
elems:
let
gvarElems = map mkValue elems;
tupleType = type.tupleOf (map (e: e.type) gvarElems);
in
mkPrimitive tupleType gvarElems
// {
__toString = self: "@${self.type} (${concatMapStringsSep "," toString self.value})";
};
/**
Returns the GVariant boolean from the given Nix bool value.
# Inputs
`v`
: 1\. Function argument
# Type
```
mkBoolean :: Bool -> gvariant
```
*/
mkBoolean =
v:
mkPrimitive type.boolean v
// {
__toString = self: if self.value then "true" else "false";
};
/**
Returns the GVariant string from the given Nix string value.
# Inputs
`v`
: 1\. Function argument
# Type
```
mkString :: String -> gvariant
```
*/
mkString =
v:
let
sanitize = s: replaceStrings [ "\n" ] [ "\\n" ] (escape [ "'" "\\" ] s);
in
mkPrimitive type.string v
// {
__toString = self: "'${sanitize self.value}'";
};
/**
Returns the GVariant object path from the given Nix string value.
# Inputs
`v`
: 1\. Function argument
# Type
```
mkObjectpath :: String -> gvariant
```
*/
mkObjectpath =
v:
mkPrimitive type.string v
// {
__toString = self: "objectpath '${escape [ "'" ] self.value}'";
};
/**
Returns the GVariant uchar from the given Nix int value.
# Type
```
mkUchar :: Int -> gvariant
```
*/
mkUchar = mkPrimitive type.uchar;
/**
Returns the GVariant int16 from the given Nix int value.
# Type
```
mkInt16 :: Int -> gvariant
```
*/
mkInt16 = mkPrimitive type.int16;
/**
Returns the GVariant uint16 from the given Nix int value.
# Type
```
mkUint16 :: Int -> gvariant
```
*/
mkUint16 = mkPrimitive type.uint16;
/**
Returns the GVariant int32 from the given Nix int value.
# Inputs
`v`
: 1\. Function argument
# Type
```
mkInt32 :: Int -> gvariant
```
*/
mkInt32 =
v:
mkPrimitive type.int32 v
// {
__toString = self: toString self.value;
};
/**
Returns the GVariant uint32 from the given Nix int value.
# Type
```
mkUint32 :: Int -> gvariant
```
*/
mkUint32 = mkPrimitive type.uint32;
/**
Returns the GVariant int64 from the given Nix int value.
# Type
```
mkInt64 :: Int -> gvariant
```
*/
mkInt64 = mkPrimitive type.int64;
/**
Returns the GVariant uint64 from the given Nix int value.
# Type
```
mkUint64 :: Int -> gvariant
```
*/
mkUint64 = mkPrimitive type.uint64;
/**
Returns the GVariant double from the given Nix float value.
# Inputs
`v`
: 1\. Function argument
# Type
```
mkDouble :: Float -> gvariant
```
*/
mkDouble =
v:
mkPrimitive type.double v
// {
__toString = self: toString self.value;
};
}
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