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684 lines
21 KiB
Plaintext
684 lines
21 KiB
Plaintext
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# SOME DESCRIPTIVE TITLE
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# Copyright (C) YEAR Free Software Foundation, Inc.
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# This file is distributed under the same license as the PACKAGE package.
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# FIRST AUTHOR <EMAIL@ADDRESS>, YEAR.
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#
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#, fuzzy
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msgid ""
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msgstr ""
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"Project-Id-Version: PACKAGE VERSION\n"
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"POT-Creation-Date: 2013-07-07 21:10+0300\n"
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"PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n"
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"Last-Translator: FULL NAME <EMAIL@ADDRESS>\n"
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"Language-Team: LANGUAGE <LL@li.org>\n"
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"Language: \n"
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"MIME-Version: 1.0\n"
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"Content-Type: text/plain; charset=CHARSET\n"
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"Content-Transfer-Encoding: 8bit\n"
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#. type: Plain text
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#: doc/rust.md:4 doc/rustpkg.md:4 doc/tutorial.md:4
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#: doc/tutorial-borrowed-ptr.md:4 doc/tutorial-ffi.md:4
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#: doc/tutorial-macros.md:4 doc/tutorial-tasks.md:4 doc/tut.md:4
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msgid "# Introduction"
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msgstr ""
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#. type: Plain text
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#: doc/rust.md:2033 doc/rust.md:2174 doc/tutorial-macros.md:323
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msgid "~~~~"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:2
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msgid "% Rust Macros Tutorial"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:12
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msgid ""
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"Functions are the primary tool that programmers can use to build "
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"abstractions. Sometimes, however, programmers want to abstract over compile-"
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"time syntax rather than run-time values. Macros provide syntactic "
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"abstraction. For an example of how this can be useful, consider the "
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"following two code fragments, which both pattern-match on their input and "
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"both return early in one case, doing nothing otherwise:"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:30
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#, no-wrap
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msgid ""
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"~~~~\n"
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"# enum t { special_a(uint), special_b(uint) };\n"
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"# fn f() -> uint {\n"
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"# let input_1 = special_a(0);\n"
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"# let input_2 = special_a(0);\n"
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"match input_1 {\n"
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" special_a(x) => { return x; }\n"
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" _ => {}\n"
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"}\n"
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"// ...\n"
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"match input_2 {\n"
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" special_b(x) => { return x; }\n"
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" _ => {}\n"
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"}\n"
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"# return 0u;\n"
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"# }\n"
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"~~~~\n"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:38
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msgid ""
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"This code could become tiresome if repeated many times. However, no "
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"function can capture its functionality to make it possible to abstract the "
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"repetition away. Rust's macro system, however, can eliminate the "
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"repetition. Macros are lightweight custom syntax extensions, themselves "
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"defined using the `macro_rules!` syntax extension. The following "
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"`early_return` macro captures the pattern in the above code:"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:59
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#, no-wrap
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msgid ""
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"~~~~\n"
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"# enum t { special_a(uint), special_b(uint) };\n"
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"# fn f() -> uint {\n"
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"# let input_1 = special_a(0);\n"
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"# let input_2 = special_a(0);\n"
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"macro_rules! early_return(\n"
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" ($inp:expr $sp:ident) => ( // invoke it like `(input_5 special_e)`\n"
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" match $inp {\n"
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" $sp(x) => { return x; }\n"
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" _ => {}\n"
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" }\n"
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" );\n"
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")\n"
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"// ...\n"
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"early_return!(input_1 special_a);\n"
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"// ...\n"
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"early_return!(input_2 special_b);\n"
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"# return 0;\n"
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"# }\n"
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"~~~~\n"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:65
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msgid ""
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"Macros are defined in pattern-matching style: in the above example, the text "
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"`($inp:expr $sp:ident)` that appears on the left-hand side of the `=>` is "
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"the *macro invocation syntax*, a pattern denoting how to write a call to the "
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"macro. The text on the right-hand side of the `=>`, beginning with `match "
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"$inp`, is the *macro transcription syntax*: what the macro expands to."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:67
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msgid "# Invocation syntax"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:71
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msgid ""
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"The macro invocation syntax specifies the syntax for the arguments to the "
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"macro. It appears on the left-hand side of the `=>` in a macro definition. "
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"It conforms to the following rules:"
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msgstr ""
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#. type: Bullet: '1. '
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#: doc/tutorial-macros.md:76
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msgid "It must be surrounded by parentheses."
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msgstr ""
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#. type: Bullet: '2. '
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#: doc/tutorial-macros.md:76
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msgid "`$` has special meaning (described below)."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:76
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#, no-wrap
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msgid ""
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"3. The `()`s, `[]`s, and `{}`s it contains must balance. For example, `([)` is\n"
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"forbidden.\n"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:78
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msgid "Otherwise, the invocation syntax is free-form."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:83
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#, no-wrap
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msgid ""
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"To take as an argument a fragment of Rust code, write `$` followed by a name\n"
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" (for use on the right-hand side), followed by a `:`, followed by a *fragment\n"
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" specifier*. The fragment specifier denotes the sort of fragment to match. The\n"
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" most common fragment specifiers are:\n"
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msgstr ""
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#. type: Bullet: '* '
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#: doc/tutorial-macros.md:92
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msgid ""
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"`ident` (an identifier, referring to a variable or item. Examples: `f`, `x`, "
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"`foo`.)"
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msgstr ""
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#. type: Bullet: '* '
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#: doc/tutorial-macros.md:92
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msgid ""
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"`expr` (an expression. Examples: `2 + 2`; `if true then { 1 } else { 2 }`; "
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"`f(42)`.)"
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msgstr ""
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#. type: Bullet: '* '
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#: doc/tutorial-macros.md:92
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msgid "`ty` (a type. Examples: `int`, `~[(char, ~str)]`, `&T`.)"
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msgstr ""
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#. type: Bullet: '* '
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#: doc/tutorial-macros.md:92
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msgid ""
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"`pat` (a pattern, usually appearing in a `match` or on the left-hand side of "
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"a declaration. Examples: `Some(t)`; `(17, 'a')`; `_`.)"
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msgstr ""
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#. type: Bullet: '* '
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#: doc/tutorial-macros.md:92
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msgid ""
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"`block` (a sequence of actions. Example: `{ log(error, \"hi\"); return 12; }"
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"`)"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:95
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msgid ""
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"The parser interprets any token that's not preceded by a `$` literally. "
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"Rust's usual rules of tokenization apply,"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:98
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msgid ""
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"So `($x:ident -> (($e:expr)))`, though excessively fancy, would designate a "
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"macro that could be invoked like: `my_macro!(i->(( 2+2 )))`."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:100
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msgid "## Invocation location"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:105
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msgid ""
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"A macro invocation may take the place of (and therefore expand to) an "
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"expression, an item, or a statement. The Rust parser will parse the macro "
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"invocation as a \"placeholder\" for whichever of those three nonterminals is "
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"appropriate for the location."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:112
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msgid ""
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"At expansion time, the output of the macro will be parsed as whichever of "
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"the three nonterminals it stands in for. This means that a single macro "
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"might, for example, expand to an item or an expression, depending on its "
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"arguments (and cause a syntax error if it is called with the wrong argument "
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"for its location). Although this behavior sounds excessively dynamic, it is "
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"known to be useful under some circumstances."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:115
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msgid "# Transcription syntax"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:119
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msgid ""
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"The right-hand side of the `=>` follows the same rules as the left-hand "
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"side, except that a `$` need only be followed by the name of the syntactic "
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"fragment to transcribe into the macro expansion; its type need not be "
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"repeated."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:126
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msgid ""
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"The right-hand side must be enclosed by delimiters, which the transcriber "
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"ignores. Therefore `() => ((1,2,3))` is a macro that expands to a tuple "
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"expression, `() => (let $x=$val)` is a macro that expands to a statement, "
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"and `() => (1,2,3)` is a macro that expands to a syntax error (since the "
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"transcriber interprets the parentheses on the right-hand-size as delimiters, "
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"and `1,2,3` is not a valid Rust expression on its own)."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:133
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msgid ""
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"Except for permissibility of `$name` (and `$(...)*`, discussed below), the "
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"right-hand side of a macro definition is ordinary Rust syntax. In "
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"particular, macro invocations (including invocations of the macro currently "
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"being defined) are permitted in expression, statement, and item locations. "
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"However, nothing else about the code is examined or executed by the macro "
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"system; execution still has to wait until run-time."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:135
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msgid "## Interpolation location"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:139
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msgid ""
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"The interpolation `$argument_name` may appear in any location consistent "
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"with its fragment specifier (i.e., if it is specified as `ident`, it may be "
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"used anywhere an identifier is permitted)."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:141
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msgid "# Multiplicity"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:143
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msgid "## Invocation"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:150
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msgid ""
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"Going back to the motivating example, recall that `early_return` expanded "
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"into a `match` that would `return` if the `match`'s scrutinee matched the "
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"\"special case\" identifier provided as the second argument to "
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"`early_return`, and do nothing otherwise. Now suppose that we wanted to "
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"write a version of `early_return` that could handle a variable number of "
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"\"special\" cases."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:156
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msgid ""
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"The syntax `$(...)*` on the left-hand side of the `=>` in a macro definition "
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"accepts zero or more occurrences of its contents. It works much like the `*` "
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"operator in regular expressions. It also supports a separator token (a comma-"
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"separated list could be written `$(...),*`), and `+` instead of `*` to mean "
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"\"at least one\"."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:179
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#, no-wrap
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msgid ""
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"~~~~\n"
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"# enum t { special_a(uint),special_b(uint),special_c(uint),special_d(uint)};\n"
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"# fn f() -> uint {\n"
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"# let input_1 = special_a(0);\n"
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"# let input_2 = special_a(0);\n"
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"macro_rules! early_return(\n"
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" ($inp:expr, [ $($sp:ident)|+ ]) => (\n"
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" match $inp {\n"
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" $(\n"
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" $sp(x) => { return x; }\n"
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" )+\n"
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" _ => {}\n"
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" }\n"
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" );\n"
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")\n"
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"// ...\n"
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"early_return!(input_1, [special_a|special_c|special_d]);\n"
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"// ...\n"
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"early_return!(input_2, [special_b]);\n"
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"# return 0;\n"
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"# }\n"
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"~~~~\n"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:181
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msgid "### Transcription"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:191
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msgid ""
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"As the above example demonstrates, `$(...)*` is also valid on the right-hand "
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"side of a macro definition. The behavior of `*` in transcription, especially "
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"in cases where multiple `*`s are nested, and multiple different names are "
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"involved, can seem somewhat magical and intuitive at first. The system that "
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"interprets them is called \"Macro By Example\". The two rules to keep in "
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|
"mind are (1) the behavior of `$(...)*` is to walk through one \"layer\" of "
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"repetitions for all of the `$name`s it contains in lockstep, and (2) each `"
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"$name` must be under at least as many `$(...)*`s as it was matched against. "
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"If it is under more, it'll be repeated, as appropriate."
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:193
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msgid "## Parsing limitations"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:197
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msgid ""
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"For technical reasons, there are two limitations to the treatment of syntax "
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"fragments by the macro parser:"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:210
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#, no-wrap
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msgid ""
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"1. The parser will always parse as much as possible of a Rust syntactic\n"
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"fragment. For example, if the comma were omitted from the syntax of\n"
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"`early_return!` above, `input_1 [` would've been interpreted as the beginning\n"
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"of an array index. In fact, invoking the macro would have been impossible.\n"
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"2. The parser must have eliminated all ambiguity by the time it reaches a\n"
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"`$name:fragment_specifier` declaration. This limitation can result in parse\n"
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"errors when declarations occur at the beginning of, or immediately after,\n"
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"a `$(...)*`. For example, the grammar `$($t:ty)* $e:expr` will always fail to\n"
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"parse because the parser would be forced to choose between parsing `t` and\n"
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"parsing `e`. Changing the invocation syntax to require a distinctive token in\n"
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"front can solve the problem. In the above example, `$(T $t:ty)* E $e:exp`\n"
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"solves the problem.\n"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:212
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msgid "# Macro argument pattern matching"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:214
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msgid "Now consider code like the following:"
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msgstr ""
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#. type: Plain text
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#: doc/tutorial-macros.md:216
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msgid "## Motivation"
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msgstr ""
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||
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|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:236
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"~~~~\n"
|
||
|
"# enum t1 { good_1(t2, uint), bad_1 };\n"
|
||
|
"# pub struct t2 { body: t3 }\n"
|
||
|
"# enum t3 { good_2(uint), bad_2};\n"
|
||
|
"# fn f(x: t1) -> uint {\n"
|
||
|
"match x {\n"
|
||
|
" good_1(g1, val) => {\n"
|
||
|
" match g1.body {\n"
|
||
|
" good_2(result) => {\n"
|
||
|
" // complicated stuff goes here\n"
|
||
|
" return result + val;\n"
|
||
|
" },\n"
|
||
|
" _ => fail!(\"Didn't get good_2\")\n"
|
||
|
" }\n"
|
||
|
" }\n"
|
||
|
" _ => return 0 // default value\n"
|
||
|
"}\n"
|
||
|
"# }\n"
|
||
|
"~~~~\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:241
|
||
|
msgid ""
|
||
|
"All the complicated stuff is deeply indented, and the error-handling code is "
|
||
|
"separated from matches that fail. We'd like to write a macro that performs a "
|
||
|
"match, but with a syntax that suits the problem better. The following macro "
|
||
|
"can solve the problem:"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:263
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"~~~~\n"
|
||
|
"macro_rules! biased_match (\n"
|
||
|
" // special case: `let (x) = ...` is illegal, so use `let x = ...` instead\n"
|
||
|
" ( ($e:expr) ~ ($p:pat) else $err:stmt ;\n"
|
||
|
" binds $bind_res:ident\n"
|
||
|
" ) => (\n"
|
||
|
" let $bind_res = match $e {\n"
|
||
|
" $p => ( $bind_res ),\n"
|
||
|
" _ => { $err }\n"
|
||
|
" };\n"
|
||
|
" );\n"
|
||
|
" // more than one name; use a tuple\n"
|
||
|
" ( ($e:expr) ~ ($p:pat) else $err:stmt ;\n"
|
||
|
" binds $( $bind_res:ident ),*\n"
|
||
|
" ) => (\n"
|
||
|
" let ( $( $bind_res ),* ) = match $e {\n"
|
||
|
" $p => ( $( $bind_res ),* ),\n"
|
||
|
" _ => { $err }\n"
|
||
|
" };\n"
|
||
|
" )\n"
|
||
|
")\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:277
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"# enum t1 { good_1(t2, uint), bad_1 };\n"
|
||
|
"# pub struct t2 { body: t3 }\n"
|
||
|
"# enum t3 { good_2(uint), bad_2};\n"
|
||
|
"# fn f(x: t1) -> uint {\n"
|
||
|
"biased_match!((x) ~ (good_1(g1, val)) else { return 0 };\n"
|
||
|
" binds g1, val )\n"
|
||
|
"biased_match!((g1.body) ~ (good_2(result) )\n"
|
||
|
" else { fail!(\"Didn't get good_2\") };\n"
|
||
|
" binds result )\n"
|
||
|
"// complicated stuff goes here\n"
|
||
|
"return result + val;\n"
|
||
|
"# }\n"
|
||
|
"~~~~\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:288
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"This solves the indentation problem. But if we have a lot of chained matches\n"
|
||
|
"like this, we might prefer to write a single macro invocation. The input\n"
|
||
|
"pattern we want is clear:\n"
|
||
|
"~~~~\n"
|
||
|
"# macro_rules! b(\n"
|
||
|
" ( $( ($e:expr) ~ ($p:pat) else $err:stmt ; )*\n"
|
||
|
" binds $( $bind_res:ident ),*\n"
|
||
|
" )\n"
|
||
|
"# => (0))\n"
|
||
|
"~~~~\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:291
|
||
|
msgid ""
|
||
|
"However, it's not possible to directly expand to nested match statements. "
|
||
|
"But there is a solution."
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:293
|
||
|
msgid "## The recursive approach to macro writing"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:297
|
||
|
msgid ""
|
||
|
"A macro may accept multiple different input grammars. The first one to "
|
||
|
"successfully match the actual argument to a macro invocation is the one that "
|
||
|
"\"wins\"."
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:301
|
||
|
msgid ""
|
||
|
"In the case of the example above, we want to write a recursive macro to "
|
||
|
"process the semicolon-terminated lines, one-by-one. So, we want the "
|
||
|
"following input patterns:"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:308
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"~~~~\n"
|
||
|
"# macro_rules! b(\n"
|
||
|
" ( binds $( $bind_res:ident ),* )\n"
|
||
|
"# => (0))\n"
|
||
|
"~~~~\n"
|
||
|
"...and:\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:317
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"~~~~\n"
|
||
|
"# macro_rules! b(\n"
|
||
|
" ( ($e :expr) ~ ($p :pat) else $err :stmt ;\n"
|
||
|
" $( ($e_rest:expr) ~ ($p_rest:pat) else $err_rest:stmt ; )*\n"
|
||
|
" binds $( $bind_res:ident ),*\n"
|
||
|
" )\n"
|
||
|
"# => (0))\n"
|
||
|
"~~~~\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:321
|
||
|
msgid ""
|
||
|
"The resulting macro looks like this. Note that the separation into "
|
||
|
"`biased_match!` and `biased_match_rec!` occurs only because we have an outer "
|
||
|
"piece of syntax (the `let`) which we only want to transcribe once."
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:342
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"macro_rules! biased_match_rec (\n"
|
||
|
" // Handle the first layer\n"
|
||
|
" ( ($e :expr) ~ ($p :pat) else $err :stmt ;\n"
|
||
|
" $( ($e_rest:expr) ~ ($p_rest:pat) else $err_rest:stmt ; )*\n"
|
||
|
" binds $( $bind_res:ident ),*\n"
|
||
|
" ) => (\n"
|
||
|
" match $e {\n"
|
||
|
" $p => {\n"
|
||
|
" // Recursively handle the next layer\n"
|
||
|
" biased_match_rec!($( ($e_rest) ~ ($p_rest) else $err_rest ; )*\n"
|
||
|
" binds $( $bind_res ),*\n"
|
||
|
" )\n"
|
||
|
" }\n"
|
||
|
" _ => { $err }\n"
|
||
|
" }\n"
|
||
|
" );\n"
|
||
|
" ( binds $( $bind_res:ident ),* ) => ( ($( $bind_res ),*) )\n"
|
||
|
")\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:364
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"// Wrap the whole thing in a `let`.\n"
|
||
|
"macro_rules! biased_match (\n"
|
||
|
" // special case: `let (x) = ...` is illegal, so use `let x = ...` instead\n"
|
||
|
" ( $( ($e:expr) ~ ($p:pat) else $err:stmt ; )*\n"
|
||
|
" binds $bind_res:ident\n"
|
||
|
" ) => (\n"
|
||
|
" let ( $( $bind_res ),* ) = biased_match_rec!(\n"
|
||
|
" $( ($e) ~ ($p) else $err ; )*\n"
|
||
|
" binds $bind_res\n"
|
||
|
" );\n"
|
||
|
" );\n"
|
||
|
" // more than one name: use a tuple\n"
|
||
|
" ( $( ($e:expr) ~ ($p:pat) else $err:stmt ; )*\n"
|
||
|
" binds $( $bind_res:ident ),*\n"
|
||
|
" ) => (\n"
|
||
|
" let ( $( $bind_res ),* ) = biased_match_rec!(\n"
|
||
|
" $( ($e) ~ ($p) else $err ; )*\n"
|
||
|
" binds $( $bind_res ),*\n"
|
||
|
" );\n"
|
||
|
" )\n"
|
||
|
")\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:378
|
||
|
#, no-wrap
|
||
|
msgid ""
|
||
|
"# enum t1 { good_1(t2, uint), bad_1 };\n"
|
||
|
"# pub struct t2 { body: t3 }\n"
|
||
|
"# enum t3 { good_2(uint), bad_2};\n"
|
||
|
"# fn f(x: t1) -> uint {\n"
|
||
|
"biased_match!(\n"
|
||
|
" (x) ~ (good_1(g1, val)) else { return 0 };\n"
|
||
|
" (g1.body) ~ (good_2(result) ) else { fail!(\"Didn't get good_2\") };\n"
|
||
|
" binds val, result )\n"
|
||
|
"// complicated stuff goes here\n"
|
||
|
"return result + val;\n"
|
||
|
"# }\n"
|
||
|
"~~~~\n"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:382
|
||
|
msgid ""
|
||
|
"This technique applies to many cases where transcribing a result all at once "
|
||
|
"is not possible. The resulting code resembles ordinary functional "
|
||
|
"programming in some respects, but has some important differences from "
|
||
|
"functional programming."
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:390
|
||
|
msgid ""
|
||
|
"The first difference is important, but also easy to forget: the "
|
||
|
"transcription (right-hand) side of a `macro_rules!` rule is literal syntax, "
|
||
|
"which can only be executed at run-time. If a piece of transcription syntax "
|
||
|
"does not itself appear inside another macro invocation, it will become part "
|
||
|
"of the final program. If it is inside a macro invocation (for example, the "
|
||
|
"recursive invocation of `biased_match_rec!`), it does have the opportunity "
|
||
|
"to affect transcription, but only through the process of attempted pattern "
|
||
|
"matching."
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:398
|
||
|
msgid ""
|
||
|
"The second, related, difference is that the evaluation order of macros feels "
|
||
|
"\"backwards\" compared to ordinary programming. Given an invocation `m1!(m2!"
|
||
|
"())`, the expander first expands `m1!`, giving it as input the literal "
|
||
|
"syntax `m2!()`. If it transcribes its argument unchanged into an appropriate "
|
||
|
"position (in particular, not as an argument to yet another macro "
|
||
|
"invocation), the expander will then proceed to evaluate `m2!()` (along with "
|
||
|
"any other macro invocations `m1!(m2!())` produced)."
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:400
|
||
|
msgid "# A final note"
|
||
|
msgstr ""
|
||
|
|
||
|
#. type: Plain text
|
||
|
#: doc/tutorial-macros.md:407
|
||
|
msgid ""
|
||
|
"Macros, as currently implemented, are not for the faint of heart. Even "
|
||
|
"ordinary syntax errors can be more difficult to debug when they occur inside "
|
||
|
"a macro, and errors caused by parse problems in generated code can be very "
|
||
|
"tricky. Invoking the `log_syntax!` macro can help elucidate intermediate "
|
||
|
"states, invoking `trace_macros!(true)` will automatically print those "
|
||
|
"intermediate states out, and passing the flag `--pretty expanded` as a "
|
||
|
"command-line argument to the compiler will show the result of expansion."
|
||
|
msgstr ""
|