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Delete () from function names and change the reference to some functions to the correct term, methods. R=golang-dev, dsymonds CC=golang-dev https://golang.org/cl/5874063
198 lines
5.5 KiB
HTML
198 lines
5.5 KiB
HTML
<!--{
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"Title": "Defer, Panic, and Recover",
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"Template": true
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}-->
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<p>
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Go has the usual mechanisms for control flow: if, for, switch, goto. It also
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has the go statement to run code in a separate goroutine. Here I'd like to
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discuss some of the less common ones: defer, panic, and recover.
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</p>
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<p>
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A <b>defer statement</b> pushes a function call onto a list. The list of saved
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calls is executed after the surrounding function returns. Defer is commonly
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used to simplify functions that perform various clean-up actions.
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</p>
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<p>
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For example, let's look at a function that opens two files and copies the
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contents of one file to the other:
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</p>
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{{code "/doc/progs/defer.go" `/func CopyFile/` `/STOP/`}}
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<p>
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This works, but there is a bug. If the call to os.Create fails, the
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function will return without closing the source file. This can be easily
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remedied by putting a call to src.Close before the second return statement,
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but if the function were more complex the problem might not be so easily
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noticed and resolved. By introducing defer statements we can ensure that the
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files are always closed:
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</p>
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{{code "/doc/progs/defer2.go" `/func CopyFile/` `/STOP/`}}
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<p>
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Defer statements allow us to think about closing each file right after opening
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it, guaranteeing that, regardless of the number of return statements in the
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function, the files <i>will</i> be closed.
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</p>
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<p>
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The behavior of defer statements is straightforward and predictable. There are
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three simple rules:
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</p>
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<p>
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1. <i>A deferred function's arguments are evaluated when the defer statement is
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evaluated.</i>
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</p>
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<p>
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In this example, the expression "i" is evaluated when the Println call is
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deferred. The deferred call will print "0" after the function returns.
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</p>
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{{code "/doc/progs/defer.go" `/func a/` `/STOP/`}}
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<p>
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2. <i>Deferred function calls are executed in Last In First Out order
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</i>after<i> the surrounding function returns.</i>
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</p>
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<p>
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This function prints "3210":
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</p>
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{{code "/doc/progs/defer.go" `/func b/` `/STOP/`}}
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<p>
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3. <i>Deferred functions may read and assign to the returning function's named
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return values.</i>
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</p>
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<p>
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In this example, a deferred function increments the return value i <i>after</i>
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the surrounding function returns. Thus, this function returns 2:
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</p>
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{{code "/doc/progs/defer.go" `/func c/` `/STOP/`}}
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<p>
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This is convenient for modifying the error return value of a function; we will
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see an example of this shortly.
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</p>
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<p>
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<b>Panic</b> is a built-in function that stops the ordinary flow of control and
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begins <i>panicking</i>. When the function F calls panic, execution of F stops,
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any deferred functions in F are executed normally, and then F returns to its
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caller. To the caller, F then behaves like a call to panic. The process
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continues up the stack until all functions in the current goroutine have
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returned, at which point the program crashes. Panics can be initiated by
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invoking panic directly. They can also be caused by runtime errors, such as
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out-of-bounds array accesses.
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</p>
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<p>
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<b>Recover</b> is a built-in function that regains control of a panicking
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goroutine. Recover is only useful inside deferred functions. During normal
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execution, a call to recover will return nil and have no other effect. If the
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current goroutine is panicking, a call to recover will capture the value given
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to panic and resume normal execution.
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</p>
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<p>
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Here's an example program that demonstrates the mechanics of panic and defer:
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</p>
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{{code "/doc/progs/defer2.go" `/package main/` `/STOP/`}}
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<p>
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The function g takes the int i, and panics if i is greater than 3, or else it
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calls itself with the argument i+1. The function f defers a function that calls
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recover and prints the recovered value (if it is non-nil). Try to picture what
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the output of this program might be before reading on.
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</p>
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<p>
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The program will output:
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</p>
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<pre>Calling g.
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Printing in g 0
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Printing in g 1
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Printing in g 2
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Printing in g 3
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Panicking!
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Defer in g 3
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Defer in g 2
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Defer in g 1
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Defer in g 0
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Recovered in f 4
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Returned normally from f.</pre>
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<p>
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If we remove the deferred function from f the panic is not recovered and
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reaches the top of the goroutine's call stack, terminating the program. This
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modified program will output:
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</p>
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<pre>Calling g.
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Printing in g 0
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Printing in g 1
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Printing in g 2
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Printing in g 3
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Panicking!
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Defer in g 3
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Defer in g 2
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Defer in g 1
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Defer in g 0
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panic: 4
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panic PC=0x2a9cd8
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[stack trace omitted]</pre>
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<p>
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For a real-world example of <b>panic</b> and <b>recover</b>, see the
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<a href="/pkg/encoding/json/">json package</a> from the Go standard library.
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It decodes JSON-encoded data with a set of recursive functions.
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When malformed JSON is encountered, the parser calls panic to unwind the
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stack to the top-level function call, which recovers from the panic and returns
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an appropriate error value (see the 'error' and 'unmarshal' methods of
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the decodeState type in
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<a href="/src/pkg/encoding/json/decode.go">decode.go</a>).
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</p>
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<p>
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The convention in the Go libraries is that even when a package uses panic
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internally, its external API still presents explicit error return values.
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</p>
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<p>
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Other uses of <b>defer</b> (beyond the file.Close example given earlier)
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include releasing a mutex:
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</p>
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<pre>mu.Lock()
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defer mu.Unlock()</pre>
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<p>
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printing a footer:
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</p>
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<pre>printHeader()
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defer printFooter()</pre>
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<p>
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and more.
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</p>
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<p>
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In summary, the defer statement (with or without panic and recover) provides an
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unusual and powerful mechanism for control flow. It can be used to model a
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number of features implemented by special-purpose structures in other
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programming languages. Try it out.
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</p>
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