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Effective Go: append and a few words about ...
R=rsc, gri, iant CC=golang-dev https://golang.org/cl/2821041
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@ -1218,6 +1218,11 @@ func Append(slice, data[]byte) []byte {
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We must return the slice afterwards because, although <code>Append</code>
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can modify the elements of <code>slice</code>, the slice itself (the run-time data
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structure holding the pointer, length, and capacity) is passed by value.
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<p>
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The idea of appending to a slice is so useful it's captured by the
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<code>append</code> built-in function. To understand that function's
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design, though, we need a little more information, so we'll return
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to it later.
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</p>
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@ -1465,6 +1470,10 @@ func Println(v ...interface{}) {
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}
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</pre>
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<p>
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We write <code>...</code> after <code>v</code> in the call to <code>Output</code> to tell the
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compiler to treat <code>v</code> as a list of arguments; otherwise it would just pass
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<code>v</code> as a single slice argument.
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<p>
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There's even more to printing than we've covered here. See the <code>godoc</code> documentation
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for package <code>fmt</code> for the details.
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</p>
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@ -1484,6 +1493,47 @@ func Min(a ...int) int {
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}
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</pre>
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<h3 id="append">Append</h3>
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<p>
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Now we have the missing piece we needed to explain the design of
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the <code>append</code> built-in function. The signature of <code>append</code>
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is different from our custom <code>Append</code> function above.
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Schematically, it's like this:
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<pre>
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func append(slice []<i>T</i>, elements...T) []<i>T</i>
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</pre>
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where <i>T</i> is a placeholder for any given type. You can't
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actually write a function in Go where the type <code>T</code>
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is determined by the caller.
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That's why <code>append</code> is built in: it needs support from the
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compiler.
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<p>
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What <code>append</code> does is append the elements to the end of
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the slice and return the result. The result needs to be returned
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because, as with our hand-written <code>Append</code>, the underlying
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array may change. This simple example
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<pre>
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x := []int{1,2,3}
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x = append(x, 4, 5, 6)
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fmt.Println(x)
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</pre>
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prints <code>[1 2 3 4 5 6]</code>. So <code>append</code> works a
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little like <code>Printf</code>, collecting an arbitrary number of
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arguments.
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<p>
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But what if we wanted to do what our <code>Append</code> does and
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append a slice to a slice? Easy: use <code>...</code> at the call
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site, just as we did in the call to <code>Output</code> above. This
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snippet produces identical output to the one above.
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<pre>
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x := []int{1,2,3}
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y := []int{4,5,6}
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x = append(x, y...)
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fmt.Println(x)
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</pre>
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Without that <code>...</code>, it wouldn't compile because the types
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would be wrong; <code>y</code> is not of type <code>int</code>.
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<h2 id="initialization">Initialization</h2>
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<p>
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