589 lines
22 KiB
Rust
589 lines
22 KiB
Rust
// Copyright 2013-2014 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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/*!
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Utilities for formatting and printing strings
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This module contains the runtime support for the `format!` syntax extension.
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This macro is implemented in the compiler to emit calls to this module in order
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to format arguments at runtime into strings and streams.
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The functions contained in this module should not normally be used in everyday
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use cases of `format!`. The assumptions made by these functions are unsafe for
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all inputs, and the compiler performs a large amount of validation on the
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arguments to `format!` in order to ensure safety at runtime. While it is
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possible to call these functions directly, it is not recommended to do so in the
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general case.
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## Usage
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The `format!` macro is intended to be familiar to those coming from C's
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printf/fprintf functions or Python's `str.format` function. In its current
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revision, the `format!` macro returns a `StrBuf` type which is the result of
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the formatting. In the future it will also be able to pass in a stream to
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format arguments directly while performing minimal allocations.
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Some examples of the `format!` extension are:
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```rust
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format!("Hello"); // => "Hello".to_owned()
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format!("Hello, {:s}!", "world"); // => "Hello, world!".to_owned()
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format!("The number is {:d}", 1); // => "The number is 1".to_owned()
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format!("{:?}", ~[3, 4]); // => "~[3, 4]".to_owned()
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format!("{value}", value=4); // => "4".to_owned()
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format!("{} {}", 1, 2); // => "1 2".to_owned()
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```
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From these, you can see that the first argument is a format string. It is
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required by the compiler for this to be a string literal; it cannot be a
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variable passed in (in order to perform validity checking). The compiler will
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then parse the format string and determine if the list of arguments provided is
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suitable to pass to this format string.
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### Positional parameters
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Each formatting argument is allowed to specify which value argument it's
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referencing, and if omitted it is assumed to be "the next argument". For
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example, the format string `{} {} {}` would take three parameters, and they
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would be formatted in the same order as they're given. The format string
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`{2} {1} {0}`, however, would format arguments in reverse order.
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Things can get a little tricky once you start intermingling the two types of
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positional specifiers. The "next argument" specifier can be thought of as an
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iterator over the argument. Each time a "next argument" specifier is seen, the
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iterator advances. This leads to behavior like this:
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```rust
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format!("{1} {} {0} {}", 1, 2); // => "2 1 1 2".to_owned()
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```
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The internal iterator over the argument has not been advanced by the time the
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first `{}` is seen, so it prints the first argument. Then upon reaching the
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second `{}`, the iterator has advanced forward to the second argument.
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Essentially, parameters which explicitly name their argument do not affect
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parameters which do not name an argument in terms of positional specifiers.
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A format string is required to use all of its arguments, otherwise it is a
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compile-time error. You may refer to the same argument more than once in the
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format string, although it must always be referred to with the same type.
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### Named parameters
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Rust itself does not have a Python-like equivalent of named parameters to a
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function, but the `format!` macro is a syntax extension which allows it to
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leverage named parameters. Named parameters are listed at the end of the
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argument list and have the syntax:
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```notrust
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identifier '=' expression
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```
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For example, the following `format!` expressions all use named argument:
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```rust
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format!("{argument}", argument = "test"); // => "test".to_owned()
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format!("{name} {}", 1, name = 2); // => "2 1".to_owned()
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format!("{a:s} {c:d} {b:?}", a="a", b=(), c=3); // => "a 3 ()".to_owned()
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```
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It is illegal to put positional parameters (those without names) after arguments
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which have names. Like positional parameters, it is illegal to provided named
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parameters that are unused by the format string.
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### Argument types
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Each argument's type is dictated by the format string. It is a requirement that
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every argument is only ever referred to by one type. When specifying the format
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of an argument, however, a string like `{}` indicates no type. This is allowed,
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and if all references to one argument do not provide a type, then the format `?`
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is used (the type's rust-representation is printed). For example, this is an
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invalid format string:
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```notrust
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{0:d} {0:s}
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```
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Because the first argument is both referred to as an integer as well as a
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string.
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Because formatting is done via traits, there is no requirement that the
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`d` format actually takes an `int`, but rather it simply requires a type which
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ascribes to the `Signed` formatting trait. There are various parameters which do
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require a particular type, however. Namely if the syntax `{:.*s}` is used, then
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the number of characters to print from the string precedes the actual string and
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must have the type `uint`. Although a `uint` can be printed with `{:u}`, it is
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illegal to reference an argument as such. For example, this is another invalid
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format string:
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```notrust
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{:.*s} {0:u}
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```
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### Formatting traits
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When requesting that an argument be formatted with a particular type, you are
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actually requesting that an argument ascribes to a particular trait. This allows
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multiple actual types to be formatted via `{:d}` (like `i8` as well as `int`).
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The current mapping of types to traits is:
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* `?` ⇒ `Poly`
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* `d` ⇒ `Signed`
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* `i` ⇒ `Signed`
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* `u` ⇒ `Unsigned`
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* `b` ⇒ `Bool`
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* `c` ⇒ `Char`
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* `o` ⇒ `Octal`
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* `x` ⇒ `LowerHex`
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* `X` ⇒ `UpperHex`
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* `s` ⇒ `String`
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* `p` ⇒ `Pointer`
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* `t` ⇒ `Binary`
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* `f` ⇒ `Float`
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* `e` ⇒ `LowerExp`
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* `E` ⇒ `UpperExp`
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* *nothing* ⇒ `Show`
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What this means is that any type of argument which implements the
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`std::fmt::Binary` trait can then be formatted with `{:t}`. Implementations are
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provided for these traits for a number of primitive types by the standard
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library as well. If no format is specified (as in `{}` or `{:6}`), then the
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format trait used is the `Show` trait. This is one of the more commonly
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implemented traits when formatting a custom type.
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When implementing a format trait for your own type, you will have to implement a
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method of the signature:
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```rust
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# use std;
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# mod fmt { pub type Result = (); }
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# struct T;
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# trait SomeName<T> {
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fn fmt(&self, f: &mut std::fmt::Formatter) -> fmt::Result;
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# }
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```
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Your type will be passed as `self` by-reference, and then the function should
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emit output into the `f.buf` stream. It is up to each format trait
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implementation to correctly adhere to the requested formatting parameters. The
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values of these parameters will be listed in the fields of the `Formatter`
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struct. In order to help with this, the `Formatter` struct also provides some
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helper methods.
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Additionally, the return value of this function is `fmt::Result` which is a
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typedef to `Result<(), IoError>` (also known as `IoError<()>`). Formatting
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implementations should ensure that they return errors from `write!` correctly
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(propagating errors upward).
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An example of implementing the formatting traits would look
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like:
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```rust
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use std::fmt;
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use std::f64;
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struct Vector2D {
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x: int,
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y: int,
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}
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impl fmt::Show for Vector2D {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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// The `f` value implements the `Writer` trait, which is what the
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// write! macro is expecting. Note that this formatting ignores the
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// various flags provided to format strings.
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write!(f, "({}, {})", self.x, self.y)
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}
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}
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// Different traits allow different forms of output of a type. The meaning of
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// this format is to print the magnitude of a vector.
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impl fmt::Binary for Vector2D {
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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let magnitude = (self.x * self.x + self.y * self.y) as f64;
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let magnitude = magnitude.sqrt();
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// Respect the formatting flags by using the helper method
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// `pad_integral` on the Formatter object. See the method documentation
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// for details, and the function `pad` can be used to pad strings.
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let decimals = f.precision.unwrap_or(3);
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let string = f64::to_str_exact(magnitude, decimals);
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f.pad_integral(true, "", string.as_bytes())
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}
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}
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fn main() {
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let myvector = Vector2D { x: 3, y: 4 };
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println!("{}", myvector); // => "(3, 4)"
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println!("{:10.3t}", myvector); // => " 5.000"
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}
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```
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### Related macros
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There are a number of related macros in the `format!` family. The ones that are
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currently implemented are:
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```ignore
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format! // described above
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write! // first argument is a &mut io::Writer, the destination
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writeln! // same as write but appends a newline
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print! // the format string is printed to the standard output
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println! // same as print but appends a newline
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format_args! // described below.
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```
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#### `write!`
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This and `writeln` are two macros which are used to emit the format string to a
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specified stream. This is used to prevent intermediate allocations of format
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strings and instead directly write the output. Under the hood, this function is
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actually invoking the `write` function defined in this module. Example usage is:
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```rust
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# #![allow(unused_must_use)]
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use std::io;
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let mut w = io::MemWriter::new();
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write!(&mut w as &mut io::Writer, "Hello {}!", "world");
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```
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#### `print!`
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This and `println` emit their output to stdout. Similarly to the `write!` macro,
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the goal of these macros is to avoid intermediate allocations when printing
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output. Example usage is:
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```rust
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print!("Hello {}!", "world");
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println!("I have a newline {}", "character at the end");
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```
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#### `format_args!`
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This is a curious macro which is used to safely pass around
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an opaque object describing the format string. This object
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does not require any heap allocations to create, and it only
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references information on the stack. Under the hood, all of
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the related macros are implemented in terms of this. First
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off, some example usage is:
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```
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use std::fmt;
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use std::io;
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# #[allow(unused_must_use)]
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# fn main() {
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format_args!(fmt::format, "this returns {}", "StrBuf");
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let some_writer: &mut io::Writer = &mut io::stdout();
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format_args!(|args| { write!(some_writer, "{}", args) }, "print with a {}", "closure");
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fn my_fmt_fn(args: &fmt::Arguments) {
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write!(&mut io::stdout(), "{}", args);
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}
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format_args!(my_fmt_fn, "or a {} too", "function");
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# }
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```
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The first argument of the `format_args!` macro is a function (or closure) which
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takes one argument of type `&fmt::Arguments`. This structure can then be
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passed to the `write` and `format` functions inside this module in order to
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process the format string. The goal of this macro is to even further prevent
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intermediate allocations when dealing formatting strings.
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For example, a logging library could use the standard formatting syntax, but it
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would internally pass around this structure until it has been determined where
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output should go to.
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It is unsafe to programmatically create an instance of `fmt::Arguments` because
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the operations performed when executing a format string require the compile-time
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checks provided by the compiler. The `format_args!` macro is the only method of
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safely creating these structures, but they can be unsafely created with the
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constructor provided.
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## Internationalization
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The formatting syntax supported by the `format!` extension supports
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internationalization by providing "methods" which execute various different
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outputs depending on the input. The syntax and methods provided are similar to
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other internationalization systems, so again nothing should seem alien.
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Currently two methods are supported by this extension: "select" and "plural".
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Each method will execute one of a number of clauses, and then the value of the
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clause will become what's the result of the argument's format. Inside of the
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cases, nested argument strings may be provided, but all formatting arguments
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must not be done through implicit positional means. All arguments inside of each
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case of a method must be explicitly selected by their name or their integer
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position.
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Furthermore, whenever a case is running, the special character `#` can be used
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to reference the string value of the argument which was selected upon. As an
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example:
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```rust
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format!("{0, select, other{#}}", "hello"); // => "hello".to_owned()
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```
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This example is the equivalent of `{0:s}` essentially.
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### Select
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The select method is a switch over a `&str` parameter, and the parameter *must*
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be of the type `&str`. An example of the syntax is:
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```notrust
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{0, select, male{...} female{...} other{...}}
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```
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Breaking this down, the `0`-th argument is selected upon with the `select`
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method, and then a number of cases follow. Each case is preceded by an
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identifier which is the match-clause to execute the given arm. In this case,
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there are two explicit cases, `male` and `female`. The case will be executed if
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the string argument provided is an exact match to the case selected.
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The `other` case is also a required case for all `select` methods. This arm will
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be executed if none of the other arms matched the word being selected over.
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### Plural
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The plural method is a switch statement over a `uint` parameter, and the
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parameter *must* be a `uint`. A plural method in its full glory can be specified
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as:
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```notrust
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{0, plural, offset=1 =1{...} two{...} many{...} other{...}}
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```
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To break this down, the first `0` indicates that this method is selecting over
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the value of the first positional parameter to the format string. Next, the
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`plural` method is being executed. An optionally-supplied `offset` is then given
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which indicates a number to subtract from argument `0` when matching. This is
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then followed by a list of cases.
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Each case is allowed to supply a specific value to match upon with the syntax
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`=N`. This case is executed if the value at argument `0` matches N exactly,
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without taking the offset into account. A case may also be specified by one of
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five keywords: `zero`, `one`, `two`, `few`, and `many`. These cases are matched
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on after argument `0` has the offset taken into account. Currently the
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definitions of `many` and `few` are hardcoded, but they are in theory defined by
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the current locale.
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Finally, all `plural` methods must have an `other` case supplied which will be
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executed if none of the other cases match.
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## Syntax
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The syntax for the formatting language used is drawn from other languages, so it
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should not be too alien. Arguments are formatted with python-like syntax,
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meaning that arguments are surrounded by `{}` instead of the C-like `%`. The
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actual grammar for the formatting syntax is:
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```notrust
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format_string := <text> [ format <text> ] *
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format := '{' [ argument ] [ ':' format_spec ] [ ',' function_spec ] '}'
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argument := integer | identifier
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format_spec := [[fill]align][sign]['#'][0][width]['.' precision][type]
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fill := character
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align := '<' | '>'
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sign := '+' | '-'
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width := count
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precision := count | '*'
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type := identifier | ''
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count := parameter | integer
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parameter := integer '$'
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function_spec := plural | select
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select := 'select' ',' ( identifier arm ) *
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plural := 'plural' ',' [ 'offset:' integer ] ( selector arm ) *
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selector := '=' integer | keyword
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keyword := 'zero' | 'one' | 'two' | 'few' | 'many' | 'other'
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arm := '{' format_string '}'
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```
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## Formatting Parameters
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Each argument being formatted can be transformed by a number of formatting
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parameters (corresponding to `format_spec` in the syntax above). These
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parameters affect the string representation of what's being formatted. This
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syntax draws heavily from Python's, so it may seem a bit familiar.
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### Fill/Alignment
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The fill character is provided normally in conjunction with the `width`
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parameter. This indicates that if the value being formatted is smaller than
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`width` some extra characters will be printed around it. The extra characters
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are specified by `fill`, and the alignment can be one of two options:
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* `<` - the argument is left-aligned in `width` columns
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* `>` - the argument is right-aligned in `width` columns
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### Sign/#/0
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These can all be interpreted as flags for a particular formatter.
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* '+' - This is intended for numeric types and indicates that the sign should
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always be printed. Positive signs are never printed by default, and the
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negative sign is only printed by default for the `Signed` trait. This
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flag indicates that the correct sign (+ or -) should always be printed.
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* '-' - Currently not used
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* '#' - This flag is indicates that the "alternate" form of printing should be
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used. By default, this only applies to the integer formatting traits and
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performs like:
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* `x` - precedes the argument with a "0x"
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* `X` - precedes the argument with a "0x"
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* `t` - precedes the argument with a "0b"
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* `o` - precedes the argument with a "0o"
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* '0' - This is used to indicate for integer formats that the padding should
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both be done with a `0` character as well as be sign-aware. A format
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like `{:08d}` would yield `00000001` for the integer `1`, while the same
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format would yield `-0000001` for the integer `-1`. Notice that the
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negative version has one fewer zero than the positive version.
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### Width
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This is a parameter for the "minimum width" that the format should take up. If
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the value's string does not fill up this many characters, then the padding
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specified by fill/alignment will be used to take up the required space.
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The default fill/alignment for non-numerics is a space and left-aligned. The
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defaults for numeric formatters is also a space but with right-alignment. If the
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'0' flag is specified for numerics, then the implicit fill character is '0'.
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The value for the width can also be provided as a `uint` in the list of
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parameters by using the `2$` syntax indicating that the second argument is a
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`uint` specifying the width.
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### Precision
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For non-numeric types, this can be considered a "maximum width". If the
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resulting string is longer than this width, then it is truncated down to this
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many characters and only those are emitted.
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For integral types, this has no meaning currently.
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For floating-point types, this indicates how many digits after the decimal point
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should be printed.
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## Escaping
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The literal characters `{`, `}`, or `#` may be included in a string by
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preceding them with the `\` character. Since `\` is already an
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escape character in Rust strings, a string literal using this escape
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will look like `"\\{"`.
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|
*/
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use io::Writer;
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use io;
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use option::None;
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use repr;
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use result::{Ok, Err};
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use str::{Str, StrAllocating};
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use str;
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use strbuf::StrBuf;
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use slice::Vector;
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pub use core::fmt::{Formatter, Result, FormatWriter, Show, rt};
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pub use core::fmt::{Show, Bool, Char, Signed, Unsigned, Octal, Binary};
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pub use core::fmt::{LowerHex, UpperHex, String, Pointer};
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pub use core::fmt::{Float, LowerExp, UpperExp};
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pub use core::fmt::{FormatError, WriteError};
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pub use core::fmt::{Argument, Arguments, write, radix, Radix, RadixFmt};
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#[doc(hidden)]
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pub use core::fmt::{argument, argumentstr, argumentuint};
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#[doc(hidden)]
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pub use core::fmt::{secret_show, secret_string, secret_unsigned};
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#[doc(hidden)]
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pub use core::fmt::{secret_signed, secret_lower_hex, secret_upper_hex};
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#[doc(hidden)]
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pub use core::fmt::{secret_bool, secret_char, secret_octal, secret_binary};
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#[doc(hidden)]
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|
pub use core::fmt::{secret_bool, secret_char, secret_octal, secret_binary};
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|
#[doc(hidden)]
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pub use core::fmt::{secret_float, secret_upper_exp, secret_lower_exp};
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|
#[doc(hidden)]
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|
pub use core::fmt::{secret_pointer};
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|
|
|
#[doc(hidden)]
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|
pub fn secret_poly<T: Poly>(x: &T, fmt: &mut Formatter) -> Result {
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|
// FIXME #11938 - UFCS would make us able call the this method
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|
// directly Poly::fmt(x, fmt).
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|
x.fmt(fmt)
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}
|
|
|
|
/// Format trait for the `?` character
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|
pub trait Poly {
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/// Formats the value using the given formatter.
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fn fmt(&self, &mut Formatter) -> Result;
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}
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|
|
|
/// The format function takes a precompiled format string and a list of
|
|
/// arguments, to return the resulting formatted string.
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|
///
|
|
/// # Arguments
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|
///
|
|
/// * args - a structure of arguments generated via the `format_args!` macro.
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|
/// Because this structure can only be safely generated at
|
|
/// compile-time, this function is safe.
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|
///
|
|
/// # Example
|
|
///
|
|
/// ```rust
|
|
/// use std::fmt;
|
|
///
|
|
/// let s = format_args!(fmt::format, "Hello, {}!", "world");
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|
/// assert_eq!(s, "Hello, world!".to_owned());
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|
/// ```
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|
pub fn format(args: &Arguments) -> StrBuf{
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|
let mut output = io::MemWriter::new();
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|
let _ = write!(&mut output, "{}", args);
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|
str::from_utf8(output.unwrap().as_slice()).unwrap().into_strbuf()
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|
}
|
|
|
|
/// Temporary transition utility
|
|
pub fn format_strbuf(args: &Arguments) -> StrBuf {
|
|
let mut output = io::MemWriter::new();
|
|
let _ = write!(&mut output, "{}", args);
|
|
str::from_utf8(output.unwrap().as_slice()).unwrap().into_strbuf()
|
|
}
|
|
|
|
impl<T> Poly for T {
|
|
fn fmt(&self, f: &mut Formatter) -> Result {
|
|
match (f.width, f.precision) {
|
|
(None, None) => {
|
|
match repr::write_repr(f, self) {
|
|
Ok(()) => Ok(()),
|
|
Err(..) => Err(WriteError),
|
|
}
|
|
}
|
|
|
|
// If we have a specified width for formatting, then we have to make
|
|
// this allocation of a new string
|
|
_ => {
|
|
let s = repr::repr_to_str(self);
|
|
f.pad(s.as_slice())
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
impl<'a> Writer for Formatter<'a> {
|
|
fn write(&mut self, b: &[u8]) -> io::IoResult<()> {
|
|
match (*self).write(b) {
|
|
Ok(()) => Ok(()),
|
|
Err(WriteError) => Err(io::standard_error(io::OtherIoError))
|
|
}
|
|
}
|
|
}
|