//! Structured values. use std::fmt; extern crate value_bag; #[cfg(feature = "kv_unstable_sval")] extern crate sval; #[cfg(feature = "kv_unstable_serde")] extern crate serde; use self::value_bag::ValueBag; pub use kv::Error; /// A type that can be converted into a [`Value`](struct.Value.html). pub trait ToValue { /// Perform the conversion. fn to_value(&self) -> Value; } impl<'a, T> ToValue for &'a T where T: ToValue + ?Sized, { fn to_value(&self) -> Value { (**self).to_value() } } impl<'v> ToValue for Value<'v> { fn to_value(&self) -> Value { Value { inner: self.inner.clone(), } } } /// Get a value from a type implementing `std::fmt::Debug`. #[macro_export] macro_rules! as_debug { ($capture:expr) => { $crate::kv::Value::from_debug(&$capture) }; } /// Get a value from a type implementing `std::fmt::Display`. #[macro_export] macro_rules! as_display { ($capture:expr) => { $crate::kv::Value::from_display(&$capture) }; } /// Get a value from an error. #[cfg(feature = "kv_unstable_std")] #[macro_export] macro_rules! as_error { ($capture:expr) => { $crate::kv::Value::from_dyn_error(&$capture) }; } #[cfg(feature = "kv_unstable_serde")] /// Get a value from a type implementing `serde::Serialize`. #[macro_export] macro_rules! as_serde { ($capture:expr) => { $crate::kv::Value::from_serde(&$capture) }; } /// Get a value from a type implementing `sval::value::Value`. #[cfg(feature = "kv_unstable_sval")] #[macro_export] macro_rules! as_sval { ($capture:expr) => { $crate::kv::Value::from_sval(&$capture) }; } /// A value in a structured key-value pair. /// /// # Capturing values /// /// There are a few ways to capture a value: /// /// - Using the `Value::capture_*` methods. /// - Using the `Value::from_*` methods. /// - Using the `ToValue` trait. /// - Using the standard `From` trait. /// /// ## Using the `Value::capture_*` methods /// /// `Value` offers a few constructor methods that capture values of different kinds. /// These methods require a `T: 'static` to support downcasting. /// /// ``` /// use log::kv::Value; /// /// let value = Value::capture_debug(&42i32); /// /// assert_eq!(Some(42), value.to_i64()); /// ``` /// /// ## Using the `Value::from_*` methods /// /// `Value` offers a few constructor methods that capture values of different kinds. /// These methods don't require `T: 'static`, but can't support downcasting. /// /// ``` /// use log::kv::Value; /// /// let value = Value::from_debug(&42i32); /// /// assert_eq!(None, value.to_i64()); /// ``` /// /// ## Using the `ToValue` trait /// /// The `ToValue` trait can be used to capture values generically. /// It's the bound used by `Source`. /// /// ``` /// # use log::kv::ToValue; /// let value = 42i32.to_value(); /// /// assert_eq!(Some(42), value.to_i64()); /// ``` /// /// ``` /// # use std::fmt::Debug; /// use log::kv::ToValue; /// /// let value = (&42i32 as &dyn Debug).to_value(); /// /// assert_eq!(None, value.to_i64()); /// ``` /// /// ## Using the standard `From` trait /// /// Standard types that implement `ToValue` also implement `From`. /// /// ``` /// use log::kv::Value; /// /// let value = Value::from(42i32); /// /// assert_eq!(Some(42), value.to_i64()); /// ``` pub struct Value<'v> { inner: ValueBag<'v>, } impl<'v> Value<'v> { /// Get a value from a type implementing `ToValue`. pub fn from_any(value: &'v T) -> Self where T: ToValue, { value.to_value() } /// Get a value from a type implementing `std::fmt::Debug`. pub fn capture_debug(value: &'v T) -> Self where T: fmt::Debug + 'static, { Value { inner: ValueBag::capture_debug(value), } } /// Get a value from a type implementing `std::fmt::Display`. pub fn capture_display(value: &'v T) -> Self where T: fmt::Display + 'static, { Value { inner: ValueBag::capture_display(value), } } /// Get a value from an error. #[cfg(feature = "kv_unstable_std")] pub fn capture_error(err: &'v T) -> Self where T: std::error::Error + 'static, { Value { inner: ValueBag::capture_error(err), } } #[cfg(feature = "kv_unstable_serde")] /// Get a value from a type implementing `serde::Serialize`. pub fn capture_serde(value: &'v T) -> Self where T: self::serde::Serialize + 'static, { Value { inner: ValueBag::capture_serde1(value), } } /// Get a value from a type implementing `sval::value::Value`. #[cfg(feature = "kv_unstable_sval")] pub fn capture_sval(value: &'v T) -> Self where T: self::sval::value::Value + 'static, { Value { inner: ValueBag::capture_sval1(value), } } /// Get a value from a type implementing `std::fmt::Debug`. pub fn from_debug(value: &'v T) -> Self where T: fmt::Debug, { Value { inner: ValueBag::from_debug(value), } } /// Get a value from a type implementing `std::fmt::Display`. pub fn from_display(value: &'v T) -> Self where T: fmt::Display, { Value { inner: ValueBag::from_display(value), } } /// Get a value from a type implementing `serde::Serialize`. #[cfg(feature = "kv_unstable_serde")] pub fn from_serde(value: &'v T) -> Self where T: self::serde::Serialize, { Value { inner: ValueBag::from_serde1(value), } } /// Get a value from a type implementing `sval::value::Value`. #[cfg(feature = "kv_unstable_sval")] pub fn from_sval(value: &'v T) -> Self where T: self::sval::value::Value, { Value { inner: ValueBag::from_sval1(value), } } /// Get a value from a dynamic `std::fmt::Debug`. pub fn from_dyn_debug(value: &'v dyn fmt::Debug) -> Self { Value { inner: ValueBag::from_dyn_debug(value), } } /// Get a value from a dynamic `std::fmt::Display`. pub fn from_dyn_display(value: &'v dyn fmt::Display) -> Self { Value { inner: ValueBag::from_dyn_display(value), } } /// Get a value from a dynamic error. #[cfg(feature = "kv_unstable_std")] pub fn from_dyn_error(err: &'v (dyn std::error::Error + 'static)) -> Self { Value { inner: ValueBag::from_dyn_error(err), } } /// Get a value from a type implementing `sval::value::Value`. #[cfg(feature = "kv_unstable_sval")] pub fn from_dyn_sval(value: &'v dyn self::sval::value::Value) -> Self { Value { inner: ValueBag::from_dyn_sval1(value), } } /// Get a value from an internal primitive. fn from_value_bag(value: T) -> Self where T: Into>, { Value { inner: value.into(), } } /// Check whether this value can be downcast to `T`. pub fn is(&self) -> bool { self.inner.is::() } /// Try downcast this value to `T`. pub fn downcast_ref(&self) -> Option<&T> { self.inner.downcast_ref::() } /// Inspect this value using a simple visitor. pub fn visit(&self, visitor: impl Visit<'v>) -> Result<(), Error> { struct Visitor(V); impl<'v, V> value_bag::visit::Visit<'v> for Visitor where V: Visit<'v>, { fn visit_any(&mut self, value: ValueBag) -> Result<(), value_bag::Error> { self.0 .visit_any(Value { inner: value }) .map_err(Error::into_value) } fn visit_u64(&mut self, value: u64) -> Result<(), value_bag::Error> { self.0.visit_u64(value).map_err(Error::into_value) } fn visit_i64(&mut self, value: i64) -> Result<(), value_bag::Error> { self.0.visit_i64(value).map_err(Error::into_value) } fn visit_u128(&mut self, value: u128) -> Result<(), value_bag::Error> { self.0.visit_u128(value).map_err(Error::into_value) } fn visit_i128(&mut self, value: i128) -> Result<(), value_bag::Error> { self.0.visit_i128(value).map_err(Error::into_value) } fn visit_f64(&mut self, value: f64) -> Result<(), value_bag::Error> { self.0.visit_f64(value).map_err(Error::into_value) } fn visit_bool(&mut self, value: bool) -> Result<(), value_bag::Error> { self.0.visit_bool(value).map_err(Error::into_value) } fn visit_str(&mut self, value: &str) -> Result<(), value_bag::Error> { self.0.visit_str(value).map_err(Error::into_value) } fn visit_borrowed_str(&mut self, value: &'v str) -> Result<(), value_bag::Error> { self.0.visit_borrowed_str(value).map_err(Error::into_value) } fn visit_char(&mut self, value: char) -> Result<(), value_bag::Error> { self.0.visit_char(value).map_err(Error::into_value) } #[cfg(feature = "kv_unstable_std")] fn visit_error( &mut self, err: &(dyn std::error::Error + 'static), ) -> Result<(), value_bag::Error> { self.0.visit_error(err).map_err(Error::into_value) } #[cfg(feature = "kv_unstable_std")] fn visit_borrowed_error( &mut self, err: &'v (dyn std::error::Error + 'static), ) -> Result<(), value_bag::Error> { self.0.visit_borrowed_error(err).map_err(Error::into_value) } } self.inner .visit(&mut Visitor(visitor)) .map_err(Error::from_value) } } impl<'v> fmt::Debug for Value<'v> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fmt::Debug::fmt(&self.inner, f) } } impl<'v> fmt::Display for Value<'v> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fmt::Display::fmt(&self.inner, f) } } impl ToValue for dyn fmt::Debug { fn to_value(&self) -> Value { Value::from_dyn_debug(self) } } impl ToValue for dyn fmt::Display { fn to_value(&self) -> Value { Value::from_dyn_display(self) } } #[cfg(feature = "kv_unstable_std")] impl ToValue for dyn std::error::Error + 'static { fn to_value(&self) -> Value { Value::from_dyn_error(self) } } #[cfg(feature = "kv_unstable_serde")] impl<'v> self::serde::Serialize for Value<'v> { fn serialize(&self, s: S) -> Result where S: self::serde::Serializer, { self.inner.serialize(s) } } #[cfg(feature = "kv_unstable_sval")] impl<'v> self::sval::value::Value for Value<'v> { fn stream(&self, stream: &mut self::sval::value::Stream) -> self::sval::value::Result { self::sval::value::Value::stream(&self.inner, stream) } } #[cfg(feature = "kv_unstable_sval")] impl ToValue for dyn self::sval::value::Value { fn to_value(&self) -> Value { Value::from_dyn_sval(self) } } impl ToValue for str { fn to_value(&self) -> Value { Value::from(self) } } impl ToValue for u128 { fn to_value(&self) -> Value { Value::from(self) } } impl ToValue for i128 { fn to_value(&self) -> Value { Value::from(self) } } impl ToValue for std::num::NonZeroU128 { fn to_value(&self) -> Value { Value::from(self) } } impl ToValue for std::num::NonZeroI128 { fn to_value(&self) -> Value { Value::from(self) } } impl<'v> From<&'v str> for Value<'v> { fn from(value: &'v str) -> Self { Value::from_value_bag(value) } } impl<'v> From<&'v u128> for Value<'v> { fn from(value: &'v u128) -> Self { Value::from_value_bag(value) } } impl<'v> From<&'v i128> for Value<'v> { fn from(value: &'v i128) -> Self { Value::from_value_bag(value) } } impl<'v> From<&'v std::num::NonZeroU128> for Value<'v> { fn from(v: &'v std::num::NonZeroU128) -> Value<'v> { // SAFETY: `NonZeroU128` and `u128` have the same ABI Value::from_value_bag(unsafe { std::mem::transmute::<&std::num::NonZeroU128, &u128>(v) }) } } impl<'v> From<&'v std::num::NonZeroI128> for Value<'v> { fn from(v: &'v std::num::NonZeroI128) -> Value<'v> { // SAFETY: `NonZeroI128` and `i128` have the same ABI Value::from_value_bag(unsafe { std::mem::transmute::<&std::num::NonZeroI128, &i128>(v) }) } } impl ToValue for () { fn to_value(&self) -> Value { Value::from_value_bag(()) } } impl ToValue for Option where T: ToValue, { fn to_value(&self) -> Value { match *self { Some(ref value) => value.to_value(), None => Value::from_value_bag(()), } } } macro_rules! impl_to_value_primitive { ($($into_ty:ty,)*) => { $( impl ToValue for $into_ty { fn to_value(&self) -> Value { Value::from(*self) } } impl<'v> From<$into_ty> for Value<'v> { fn from(value: $into_ty) -> Self { Value::from_value_bag(value) } } )* }; } macro_rules! impl_to_value_nonzero_primitive { ($($into_ty:ident,)*) => { $( impl ToValue for std::num::$into_ty { fn to_value(&self) -> Value { Value::from(self.get()) } } impl<'v> From for Value<'v> { fn from(value: std::num::$into_ty) -> Self { Value::from(value.get()) } } )* }; } macro_rules! impl_value_to_primitive { ($(#[doc = $doc:tt] $into_name:ident -> $into_ty:ty,)*) => { impl<'v> Value<'v> { $( #[doc = $doc] pub fn $into_name(&self) -> Option<$into_ty> { self.inner.$into_name() } )* } } } impl_to_value_primitive![usize, u8, u16, u32, u64, isize, i8, i16, i32, i64, f32, f64, char, bool,]; #[rustfmt::skip] impl_to_value_nonzero_primitive![ NonZeroUsize, NonZeroU8, NonZeroU16, NonZeroU32, NonZeroU64, NonZeroIsize, NonZeroI8, NonZeroI16, NonZeroI32, NonZeroI64, ]; impl_value_to_primitive![ #[doc = "Try convert this value into a `u64`."] to_u64 -> u64, #[doc = "Try convert this value into a `i64`."] to_i64 -> i64, #[doc = "Try convert this value into a `u128`."] to_u128 -> u128, #[doc = "Try convert this value into a `i128`."] to_i128 -> i128, #[doc = "Try convert this value into a `f64`."] to_f64 -> f64, #[doc = "Try convert this value into a `char`."] to_char -> char, #[doc = "Try convert this value into a `bool`."] to_bool -> bool, ]; impl<'v> Value<'v> { /// Try convert this value into an error. #[cfg(feature = "kv_unstable_std")] pub fn to_borrowed_error(&self) -> Option<&(dyn std::error::Error + 'static)> { self.inner.to_borrowed_error() } /// Try convert this value into a borrowed string. pub fn to_borrowed_str(&self) -> Option<&str> { self.inner.to_borrowed_str() } } #[cfg(feature = "kv_unstable_std")] mod std_support { use super::*; use std::borrow::Cow; impl ToValue for Box where T: ToValue + ?Sized, { fn to_value(&self) -> Value { (**self).to_value() } } impl ToValue for String { fn to_value(&self) -> Value { Value::from(&**self) } } impl<'v> ToValue for Cow<'v, str> { fn to_value(&self) -> Value { Value::from(&**self) } } impl<'v> Value<'v> { /// Try convert this value into a string. pub fn to_str(&self) -> Option> { self.inner.to_str() } } impl<'v> From<&'v String> for Value<'v> { fn from(v: &'v String) -> Self { Value::from(&**v) } } } /// A visitor for a `Value`. pub trait Visit<'v> { /// Visit a `Value`. /// /// This is the only required method on `Visit` and acts as a fallback for any /// more specific methods that aren't overridden. /// The `Value` may be formatted using its `fmt::Debug` or `fmt::Display` implementation, /// or serialized using its `sval::Value` or `serde::Serialize` implementation. fn visit_any(&mut self, value: Value) -> Result<(), Error>; /// Visit an unsigned integer. fn visit_u64(&mut self, value: u64) -> Result<(), Error> { self.visit_any(value.into()) } /// Visit a signed integer. fn visit_i64(&mut self, value: i64) -> Result<(), Error> { self.visit_any(value.into()) } /// Visit a big unsigned integer. fn visit_u128(&mut self, value: u128) -> Result<(), Error> { self.visit_any((&value).into()) } /// Visit a big signed integer. fn visit_i128(&mut self, value: i128) -> Result<(), Error> { self.visit_any((&value).into()) } /// Visit a floating point. fn visit_f64(&mut self, value: f64) -> Result<(), Error> { self.visit_any(value.into()) } /// Visit a boolean. fn visit_bool(&mut self, value: bool) -> Result<(), Error> { self.visit_any(value.into()) } /// Visit a string. fn visit_str(&mut self, value: &str) -> Result<(), Error> { self.visit_any(value.into()) } /// Visit a string. fn visit_borrowed_str(&mut self, value: &'v str) -> Result<(), Error> { self.visit_str(value) } /// Visit a Unicode character. fn visit_char(&mut self, value: char) -> Result<(), Error> { let mut b = [0; 4]; self.visit_str(&*value.encode_utf8(&mut b)) } /// Visit an error. #[cfg(feature = "kv_unstable_std")] fn visit_error(&mut self, err: &(dyn std::error::Error + 'static)) -> Result<(), Error> { self.visit_any(Value::from_dyn_error(err)) } /// Visit an error. #[cfg(feature = "kv_unstable_std")] fn visit_borrowed_error( &mut self, err: &'v (dyn std::error::Error + 'static), ) -> Result<(), Error> { self.visit_any(Value::from_dyn_error(err)) } } impl<'a, 'v, T: ?Sized> Visit<'v> for &'a mut T where T: Visit<'v>, { fn visit_any(&mut self, value: Value) -> Result<(), Error> { (**self).visit_any(value) } fn visit_u64(&mut self, value: u64) -> Result<(), Error> { (**self).visit_u64(value) } fn visit_i64(&mut self, value: i64) -> Result<(), Error> { (**self).visit_i64(value) } fn visit_u128(&mut self, value: u128) -> Result<(), Error> { (**self).visit_u128(value) } fn visit_i128(&mut self, value: i128) -> Result<(), Error> { (**self).visit_i128(value) } fn visit_f64(&mut self, value: f64) -> Result<(), Error> { (**self).visit_f64(value) } fn visit_bool(&mut self, value: bool) -> Result<(), Error> { (**self).visit_bool(value) } fn visit_str(&mut self, value: &str) -> Result<(), Error> { (**self).visit_str(value) } fn visit_borrowed_str(&mut self, value: &'v str) -> Result<(), Error> { (**self).visit_borrowed_str(value) } fn visit_char(&mut self, value: char) -> Result<(), Error> { (**self).visit_char(value) } #[cfg(feature = "kv_unstable_std")] fn visit_error(&mut self, err: &(dyn std::error::Error + 'static)) -> Result<(), Error> { (**self).visit_error(err) } #[cfg(feature = "kv_unstable_std")] fn visit_borrowed_error( &mut self, err: &'v (dyn std::error::Error + 'static), ) -> Result<(), Error> { (**self).visit_borrowed_error(err) } } #[cfg(test)] pub(crate) mod tests { use super::*; pub(crate) use super::value_bag::test::Token; impl<'v> Value<'v> { pub(crate) fn to_token(&self) -> Token { self.inner.to_token() } } fn unsigned() -> impl Iterator> { vec![ Value::from(8u8), Value::from(16u16), Value::from(32u32), Value::from(64u64), Value::from(1usize), Value::from(std::num::NonZeroU8::new(8).unwrap()), Value::from(std::num::NonZeroU16::new(16).unwrap()), Value::from(std::num::NonZeroU32::new(32).unwrap()), Value::from(std::num::NonZeroU64::new(64).unwrap()), Value::from(std::num::NonZeroUsize::new(1).unwrap()), ] .into_iter() } fn signed() -> impl Iterator> { vec![ Value::from(-8i8), Value::from(-16i16), Value::from(-32i32), Value::from(-64i64), Value::from(-1isize), Value::from(std::num::NonZeroI8::new(-8).unwrap()), Value::from(std::num::NonZeroI16::new(-16).unwrap()), Value::from(std::num::NonZeroI32::new(-32).unwrap()), Value::from(std::num::NonZeroI64::new(-64).unwrap()), Value::from(std::num::NonZeroIsize::new(-1).unwrap()), ] .into_iter() } fn float() -> impl Iterator> { vec![Value::from(32.32f32), Value::from(64.64f64)].into_iter() } fn bool() -> impl Iterator> { vec![Value::from(true), Value::from(false)].into_iter() } fn str() -> impl Iterator> { vec![Value::from("a string"), Value::from("a loong string")].into_iter() } fn char() -> impl Iterator> { vec![Value::from('a'), Value::from('⛰')].into_iter() } #[test] fn test_capture_fmt() { assert_eq!(Some(42u64), Value::capture_display(&42).to_u64()); assert_eq!(Some(42u64), Value::capture_debug(&42).to_u64()); assert!(Value::from_display(&42).to_u64().is_none()); assert!(Value::from_debug(&42).to_u64().is_none()); } #[cfg(feature = "kv_unstable_std")] #[test] fn test_capture_error() { let err = std::io::Error::from(std::io::ErrorKind::Other); assert!(Value::capture_error(&err).to_borrowed_error().is_some()); assert!(Value::from_dyn_error(&err).to_borrowed_error().is_some()); } #[cfg(feature = "kv_unstable_serde")] #[test] fn test_capture_serde() { assert_eq!(Some(42u64), Value::capture_serde(&42).to_u64()); assert_eq!(Some(42u64), Value::from_serde(&42).to_u64()); } #[cfg(feature = "kv_unstable_sval")] #[test] fn test_capture_sval() { assert_eq!(Some(42u64), Value::capture_sval(&42).to_u64()); assert_eq!(Some(42u64), Value::from_sval(&42).to_u64()); } #[test] fn test_to_value_display() { assert_eq!(42u64.to_value().to_string(), "42"); assert_eq!(42i64.to_value().to_string(), "42"); assert_eq!(42.01f64.to_value().to_string(), "42.01"); assert_eq!(true.to_value().to_string(), "true"); assert_eq!('a'.to_value().to_string(), "a"); assert_eq!("a loong string".to_value().to_string(), "a loong string"); assert_eq!(Some(true).to_value().to_string(), "true"); assert_eq!(().to_value().to_string(), "None"); assert_eq!(Option::None::.to_value().to_string(), "None"); } #[test] fn test_to_value_structured() { assert_eq!(42u64.to_value().to_token(), Token::U64(42)); assert_eq!(42i64.to_value().to_token(), Token::I64(42)); assert_eq!(42.01f64.to_value().to_token(), Token::F64(42.01)); assert_eq!(true.to_value().to_token(), Token::Bool(true)); assert_eq!('a'.to_value().to_token(), Token::Char('a')); assert_eq!( "a loong string".to_value().to_token(), Token::Str("a loong string".into()) ); assert_eq!(Some(true).to_value().to_token(), Token::Bool(true)); assert_eq!(().to_value().to_token(), Token::None); assert_eq!(Option::None::.to_value().to_token(), Token::None); } #[test] fn test_to_number() { for v in unsigned() { assert!(v.to_u64().is_some()); assert!(v.to_i64().is_some()); } for v in signed() { assert!(v.to_i64().is_some()); } for v in unsigned().chain(signed()).chain(float()) { assert!(v.to_f64().is_some()); } for v in bool().chain(str()).chain(char()) { assert!(v.to_u64().is_none()); assert!(v.to_i64().is_none()); assert!(v.to_f64().is_none()); } } #[test] fn test_to_str() { for v in str() { assert!(v.to_borrowed_str().is_some()); #[cfg(feature = "kv_unstable_std")] assert!(v.to_str().is_some()); } let short_lived = String::from("short lived"); let v = Value::from(&*short_lived); assert!(v.to_borrowed_str().is_some()); #[cfg(feature = "kv_unstable_std")] assert!(v.to_str().is_some()); for v in unsigned().chain(signed()).chain(float()).chain(bool()) { assert!(v.to_borrowed_str().is_none()); #[cfg(feature = "kv_unstable_std")] assert!(v.to_str().is_none()); } } #[test] fn test_to_bool() { for v in bool() { assert!(v.to_bool().is_some()); } for v in unsigned() .chain(signed()) .chain(float()) .chain(str()) .chain(char()) { assert!(v.to_bool().is_none()); } } #[test] fn test_to_char() { for v in char() { assert!(v.to_char().is_some()); } for v in unsigned() .chain(signed()) .chain(float()) .chain(str()) .chain(bool()) { assert!(v.to_char().is_none()); } } #[test] fn test_downcast_ref() { #[derive(Debug)] struct Foo(u64); let v = Value::capture_debug(&Foo(42)); assert!(v.is::()); assert_eq!(42u64, v.downcast_ref::().expect("invalid downcast").0); } #[test] fn test_visit_integer() { struct Extract(Option); impl<'v> Visit<'v> for Extract { fn visit_any(&mut self, value: Value) -> Result<(), Error> { unimplemented!("unexpected value: {:?}", value) } fn visit_u64(&mut self, value: u64) -> Result<(), Error> { self.0 = Some(value); Ok(()) } } let mut extract = Extract(None); Value::from(42u64).visit(&mut extract).unwrap(); assert_eq!(Some(42), extract.0); } #[test] fn test_visit_borrowed_str() { struct Extract<'v>(Option<&'v str>); impl<'v> Visit<'v> for Extract<'v> { fn visit_any(&mut self, value: Value) -> Result<(), Error> { unimplemented!("unexpected value: {:?}", value) } fn visit_borrowed_str(&mut self, value: &'v str) -> Result<(), Error> { self.0 = Some(value); Ok(()) } } let mut extract = Extract(None); let short_lived = String::from("A short-lived string"); Value::from(&*short_lived).visit(&mut extract).unwrap(); assert_eq!(Some("A short-lived string"), extract.0); } }