# Make a struct or enum parseable from XML
This derives the [`FromXml`] trait on a struct or enum. It is the counterpart
to [`macro@IntoXml`].
## Example
```rust
# use xso::FromXml;
#[derive(FromXml, Debug, PartialEq)]
#[xml(namespace = "urn:example", name = "foo")]
struct Foo;
let foo: Foo = xso::from_bytes(b"").unwrap();
assert_eq!(foo, Foo);
```
## Attributes
The derive macros need additional information, such as XML namespaces and
names to match. This must be specified via key-value pairs on the type or
fields the derive macro is invoked on. These key-value pairs are specified as
Rust attributes. In order to disambiguate between XML attributes and Rust
attributes, we are going to refer to Rust attributes using the term *meta*
instead, which is consistent with the Rust language reference calling that
syntax construct *meta*.
All key-value pairs interpreted by these derive macros must be wrapped in a
`#[xml( ... )]` *meta*.
The values associated with the keys may be of different types, defined as
such:
- *path*: A Rust path, like `some_crate::foo::Bar`. Note that `foo` on its own
is also a path.
- *string literal*: A string literal, like `"hello world!"`.
- *type*: A Rust type.
- flag: Has no value. The key's mere presence has relevance and it must not be
followed by a `=` sign.
### Struct meta
The following keys are defined on structs:
| Key | Value type | Description |
| --- | --- | --- |
| `namespace` | *string literal* or *path* | The XML element namespace to match. If it is a *path*, it must point at a `&'static str`. |
| `name` | *string literal* or *path* | The XML element name to match. If it is a *path*, it must point at a `&'static NcNameStr`. |
Note that the `name` value must be a valid XML element name, without colons.
The namespace prefix, if any, is assigned automatically at serialisation time
and cannot be overridden. The following will thus not compile:
```compile_fail
# use xso::FromXml;
#[derive(FromXml, Debug, PartialEq)]
#[xml(namespace = "urn:example", name = "fnord:foo")] // colon not allowed
struct Foo;
```
### Field meta
For fields, the *meta* consists of a nested meta inside the `#[xml(..)]` meta,
the identifier of which controls *how* the field is mapped to XML, while the
contents control the parameters of that mapping.
The following mapping types are defined:
| Type | Description |
| --- | --- |
| [`attribute`](#attribute-meta) | Map the field to an XML attribute on the struct's element |
| [`text`](#text-meta) | Map the field to the text content of the struct's element |
#### `attribute` meta
The `attribute` meta causes the field to be mapped to an XML attribute of the
same name. For `FromXml`, the field's type must implement [`FromXmlText`] and
for `IntoXml`, the field's type must implement [`IntoOptionalXmlText`].
The following keys can be used inside the `#[xml(attribute(..))]` meta:
| Key | Value type | Description |
| --- | --- | --- |
| `namespace` | *string literal* or *path* | The optional namespace of the XML attribute to match. If it is a *path*, it must point at a `&'static str`. Note that attributes, unlike elements, are unnamespaced by default. |
| `name` | *string literal* or *path* | The name of the XML attribute to match. If it is a *path*, it must point at a `&'static NcNameStr`. |
| `default` | flag | If present, an absent attribute will substitute the default value instead of raising an error. |
If the `name` key contains a namespace prefix, it must be one of the prefixes
defined as built-in in the XML specifications. That prefix will then be
expanded to the corresponding namespace URI and the value for the `namespace`
key is implied. Mixing a prefixed name with an explicit `namespace` key is
not allowed.
The `attribute` meta also supports a shorthand syntax,
`#[xml(attribute = ..)]`, where the value is treated as the value for the
`name` key (with optional prefix as described above, and unnamespaced
otherwise).
If `default` is specified and the attribute is absent in the source, the value
is generated using [`std::default::Default`], requiring the field type to
implement the `Default` trait for a `FromXml` derivation. `default` has no
influence on `IntoXml`.
##### Example
```rust
# use xso::FromXml;
#[derive(FromXml, Debug, PartialEq)]
#[xml(namespace = "urn:example", name = "foo")]
struct Foo {
#[xml(attribute)]
a: String,
#[xml(attribute = "bar")]
b: String,
#[xml(attribute(name = "baz"))]
c: String,
#[xml(attribute(namespace = "urn:example", name = "fnord"))]
d: String,
#[xml(attribute = "xml:lang")]
e: String,
};
let foo: Foo = xso::from_bytes(b"").unwrap();
assert_eq!(foo, Foo {
a: "1".to_string(),
b: "2".to_string(),
c: "3".to_string(),
d: "4".to_string(),
e: "5".to_string(),
});
```
#### `text` meta
The `text` meta causes the field to be mapped to the text content of the
element.
| Key | Value type | Description |
| --- | --- | --- |
| `codec` | *type* | Optional [`TextCodec`] implementation which is used to encode or decode the field. |
If `codec` is given, the given `codec` must implement
[`TextCodec`][`TextCodec`] where `T` is the type of the field.
If `codec` is *not* given, the field's type must implement [`FromXmlText`] for
`FromXml` and for `IntoXml`, the field's type must implement [`IntoXmlText`].
The `text` meta also supports a shorthand syntax, `#[xml(text = ..)]`, where
the value is treated as the value for the `codec` key (with optional prefix as
described above, and unnamespaced otherwise).
Only a single field per struct may be annotated with `#[xml(text)]` at a time,
to avoid parsing ambiguities. This is also true if only `IntoXml` is derived on
a field, for consistency.
##### Example without codec
```rust
# use xso::FromXml;
#[derive(FromXml, Debug, PartialEq)]
#[xml(namespace = "urn:example", name = "foo")]
struct Foo {
#[xml(text)]
a: String,
};
let foo: Foo = xso::from_bytes(b"hello").unwrap();
assert_eq!(foo, Foo {
a: "hello".to_string(),
});
```
##### Example with codec
```rust
# use xso::FromXml;
#[derive(FromXml, Debug, PartialEq)]
#[xml(namespace = "urn:example", name = "foo")]
struct Foo {
#[xml(text = xso::text::EmptyAsNone)]
a: Option,
};
let foo: Foo = xso::from_bytes(b"").unwrap();
assert_eq!(foo, Foo {
a: None,
});
```