fmt.rs - mozsearch

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//! [`core::fmt::DebugTuple`] reimplementation with

//! [`DebugTuple::finish_non_exhaustive()`] method.

use ::core;

use core::fmt::{Debug, Formatter, Result, Write};

use core::prelude::v1::*;

/// Same as [`core::fmt::DebugTuple`], but with

/// [`DebugTuple::finish_non_exhaustive()`] method.

#[must_use = "must eventually call `finish()` or `finish_non_exhaustive()` on \

              Debug builders"]

pub struct DebugTuple<'a, 'b: 'a> {

    fmt: &'a mut Formatter<'b>,

    result: Result,

    fields: usize,

    empty_name: bool,

/// Creates a new [`DebugTuple`].

pub fn debug_tuple<'a, 'b>(

    fmt: &'a mut Formatter<'b>,

    name: &str,

) -> DebugTuple<'a, 'b> {

    let result = fmt.write_str(name);

    DebugTuple {

        fmt,

        result,

        fields: 0,

        empty_name: name.is_empty(),

impl<'a, 'b: 'a> DebugTuple<'a, 'b> {

    /// Adds a new field to the generated tuple struct output.

///

    /// # Example

///

    /// ```rust

    /// use core::fmt;

    /// use derive_more::__private::debug_tuple;

///

    /// struct Foo(i32, String);

///

    /// impl fmt::Debug for Foo {

    ///     fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {

    ///         debug_tuple(fmt, "Foo")

    ///             .field(&self.0) // We add the first field.

    ///             .field(&self.1) // We add the second field.

    ///             .finish() // We're good to go!

    ///     }

    /// }

///

    /// assert_eq!(

    ///     format!("{:?}", Foo(10, "Hello World".to_string())),

    ///     "Foo(10, \"Hello World\")",

    /// );

    /// ```

    pub fn field(&mut self, value: &dyn Debug) -> &mut Self {

        self.result = self.result.and_then(|_| {

            if self.is_pretty() {

                if self.fields == 0 {

                    self.fmt.write_str("(\n")?;

                let mut padded_formatter = Padded::new(self.fmt);

                padded_formatter.write_fmt(format_args!("{value:#?}"))?;

                padded_formatter.write_str(",\n")

            } else {

                let prefix = if self.fields == 0 { "(" } else { ", " };

                self.fmt.write_str(prefix)?;

                value.fmt(self.fmt)

});

        self.fields += 1;

        self

    /// Finishes output and returns any error encountered.

///

    /// # Example

///

    /// ```

    /// use core::fmt;

    /// use derive_more::__private::debug_tuple;

///

    /// struct Foo(i32, String);

///

    /// impl fmt::Debug for Foo {

    ///     fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {

    ///         debug_tuple(fmt, "Foo")

    ///             .field(&self.0)

    ///             .field(&self.1)

    ///             .finish() // You need to call it to "finish" the

    ///                       // tuple formatting.

    ///     }

    /// }

///

    /// assert_eq!(

    ///     format!("{:?}", Foo(10, "Hello World".to_string())),

    ///     "Foo(10, \"Hello World\")",

    /// );

    /// ```

    pub fn finish(&mut self) -> Result {

        if self.fields > 0 {

            self.result = self.result.and_then(|_| {

                if self.fields == 1 && self.empty_name && !self.is_pretty() {

                    self.fmt.write_str(",")?;

                self.fmt.write_str(")")

});

        self.result

    /// Marks the struct as non-exhaustive, indicating to the reader that there are some other

    /// fields that are not shown in the debug representation, and finishes output, returning any

    /// error encountered.

///

    /// # Example

///

    /// ```rust

    /// use core::fmt;

    /// use derive_more::__private::debug_tuple;

///

    /// struct Bar(i32, f32);

///

    /// impl fmt::Debug for Bar {

    ///     fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result {

    ///         debug_tuple(fmt, "Bar")

    ///             .field(&self.0)

    ///             .finish_non_exhaustive() // Show that some other field(s) exist.

    ///     }

    /// }

///

    /// assert_eq!(format!("{:?}", Bar(10, 1.0)), "Bar(10, ..)");

    /// ```

    pub fn finish_non_exhaustive(&mut self) -> Result {

        self.result = self.result.and_then(|_| {

            if self.fields > 0 {

                if self.is_pretty() {

                    let mut padded_formatter = Padded::new(self.fmt);

                    padded_formatter.write_str("..\n")?;

                    self.fmt.write_str(")")

                } else {

                    self.fmt.write_str(", ..)")

            } else {

                self.fmt.write_str("(..)")

});

        self.result

    fn is_pretty(&self) -> bool {

        self.fmt.alternate()

/// Wrapper for a [`Formatter`] adding 4 spaces on newlines for inner pretty

/// printed [`Debug`] values.

struct Padded<'a, 'b> {

    formatter: &'a mut Formatter<'b>,

    on_newline: bool,

impl<'a, 'b> Padded<'a, 'b> {

    fn new(formatter: &'a mut Formatter<'b>) -> Self {

        Self {

            formatter,

            on_newline: true,

impl<'a, 'b> Write for Padded<'a, 'b> {

    fn write_str(&mut self, s: &str) -> Result {

        for s in s.split_inclusive('\n') {

            if self.on_newline {

                self.formatter.write_str("    ")?;

            self.on_newline = s.ends_with('\n');

            self.formatter.write_str(s)?;

        Ok(())