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https://github.com/golang/go
synced 2024-11-21 19:34:46 -07:00
docs: float->float64 plus a couple of other tweaks.
R=rsc, gri CC=golang-dev https://golang.org/cl/3978042
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@ -58,8 +58,6 @@ Implement goto restrictions.
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<li>
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Improved optimization.
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<li>
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5g: Better floating point support.
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<li>
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Use escape analysis to keep more data on stack.
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</ul>
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@ -106,5 +104,6 @@ Public continuous build and benchmark infrastructure (gobuilder).
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Package manager (goinstall).
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<li>
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A means of recovering from a panic (recover).
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<li>
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5g: Better floating point support.
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</ul>
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@ -1124,14 +1124,14 @@ you can pass a pointer to the array.
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</p>
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<pre>
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func Sum(a *[3]float) (sum float) {
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func Sum(a *[3]float64) (sum float64) {
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for _, v := range *a {
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sum += v
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}
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return
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}
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array := [...]float{7.0, 8.5, 9.1}
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array := [...]float64{7.0, 8.5, 9.1}
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x := Sum(&array) // Note the explicit address-of operator
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</pre>
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@ -1233,7 +1233,8 @@ Maps are a convenient and powerful built-in data structure to associate
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values of different types.
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The key can be of any type for which the equality operator is defined,
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such as integers,
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floats, strings, pointers, and interfaces (as long as the dynamic type
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floating point and complex numbers,
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strings, pointers, and interfaces (as long as the dynamic type
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supports equality). Structs, arrays and slices cannot be used as map keys,
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because equality is not defined on those types.
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Like slices, maps are a reference type. If you pass a map to a function
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@ -1806,7 +1807,7 @@ Because the two types (<code>Sequence</code> and <code>[]int</code>)
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are the same if we ignore the type name, it's legal to convert between them.
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The conversion doesn't create a new value, it just temporarily acts
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as though the existing value has a new type.
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(There are other legal conversions, such as from integer to float, that
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(There are other legal conversions, such as from integer to floating point, that
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do create a new value.)
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</p>
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<p>
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@ -296,8 +296,8 @@ than one value, the C function returns a struct. For example, these
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functions have equivalent types:
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<pre>
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func GoFunction(int) (int, float)
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struct { int i; float f; } CFunction(int)
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func GoFunction(int) (int, float64)
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struct { int i; float64 f; } CFunction(int)
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</pre>
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<p>
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@ -665,11 +665,16 @@ of Effective Go</a> for more details.
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Why is <code>int</code> 32 bits on 64 bit machines?</h3>
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<p>
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The size of <code>int</code> and <code>float</code> is implementation-specific.
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The sizes of <code>int</code> and <code>uint</code> are implementation-specific
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but the same as each other on a given platform.
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The 64 bit Go compilers (both 6g and gccgo) use a 32 bit representation for
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both <code>int</code> and <code>float</code>. Code that relies on a particular
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size of value should use an explicitly sized type, like <code>int64</code> or
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<code>float64</code>.
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<code>int</code>. Code that relies on a particular
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size of value should use an explicitly sized type, like <code>int64</code>.
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On the other hand, floating-point scalars and complex
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numbers are always sized: <code>float32</code>, <code>complex64</code>,
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etc., because programmers should be aware of precision when using
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floating-point numbers.
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The default size of a floating-point constant is <code>float64</code>.
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</p>
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<h2 id="Concurrency">Concurrency</h2>
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@ -107,7 +107,7 @@ parentheses.
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<pre>
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var (
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i int
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m float
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m float64
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)
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</pre>
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@ -238,14 +238,19 @@ started; for instance, <code>os.Args</code> is a slice used by the
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<p>
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<h2>An Interlude about Types</h2>
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<p>
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Go has some familiar types such as <code>int</code> and <code>float</code>, which represent
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Go has some familiar types such as <code>int</code> and <code>uint</code> (unsigned <code>int</code>), which represent
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values of the ''appropriate'' size for the machine. It also defines
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explicitly-sized types such as <code>int8</code>, <code>float64</code>, and so on, plus
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unsigned integer types such as <code>uint</code>, <code>uint32</code>, etc. These are
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distinct types; even if <code>int</code> and <code>int32</code> are both 32 bits in size,
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unsigned integer types such as <code>uint</code>, <code>uint32</code>, etc.
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These are distinct types; even if <code>int</code> and <code>int32</code> are both 32 bits in size,
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they are not the same type. There is also a <code>byte</code> synonym for
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<code>uint8</code>, which is the element type for strings.
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<p>
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Floating-point types are always sized: <code>float32</code> and <code>float64</code>,
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plus <code>complex64</code> (two <code>float32s</code>) and <code>complex128</code>
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(two <code>float64s</code>). Complex numbers are outside the
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scope of this tutorial.
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<p>
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Speaking of <code>string</code>, that's a built-in type as well. Strings are
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<i>immutable values</i>—they are not just arrays of <code>byte</code> values.
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Once you've built a string <i>value</i>, you can't change it, although
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@ -452,14 +457,15 @@ language specification but here are some illustrative examples:
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a := uint64(0) // equivalent; uses a "conversion"
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i := 0x1234 // i gets default type: int
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var j int = 1e6 // legal - 1000000 is representable in an int
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x := 1.5 // a float
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x := 1.5 // a float64, the default type for floating constants
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i3div2 := 3/2 // integer division - result is 1
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f3div2 := 3./2. // floating point division - result is 1.5
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f3div2 := 3./2. // floating-point division - result is 1.5
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</pre>
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<p>
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Conversions only work for simple cases such as converting <code>ints</code> of one
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sign or size to another, and between <code>ints</code> and <code>floats</code>, plus a few other
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simple cases. There are no automatic numeric conversions of any kind in Go,
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sign or size to another and between integers and floating-point numbers,
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plus a couple of other instances outside the scope of a tutorial.
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There are no automatic numeric conversions of any kind in Go,
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other than that of making constants have concrete size and type when
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assigned to a variable.
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<p>
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@ -189,14 +189,19 @@ started; for instance, "os.Args" is a slice used by the
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An Interlude about Types
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----
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Go has some familiar types such as "int" and "float", which represent
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Go has some familiar types such as "int" and "uint" (unsigned "int"), which represent
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values of the ''appropriate'' size for the machine. It also defines
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explicitly-sized types such as "int8", "float64", and so on, plus
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unsigned integer types such as "uint", "uint32", etc. These are
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distinct types; even if "int" and "int32" are both 32 bits in size,
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unsigned integer types such as "uint", "uint32", etc.
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These are distinct types; even if "int" and "int32" are both 32 bits in size,
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they are not the same type. There is also a "byte" synonym for
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"uint8", which is the element type for strings.
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Floating-point types are always sized: "float32" and "float64",
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plus "complex64" (two "float32s") and "complex128"
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(two "float64s"). Complex numbers are outside the
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scope of this tutorial.
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Speaking of "string", that's a built-in type as well. Strings are
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<i>immutable values</i>—they are not just arrays of "byte" values.
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Once you've built a string <i>value</i>, you can't change it, although
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@ -362,13 +367,14 @@ language specification but here are some illustrative examples:
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a := uint64(0) // equivalent; uses a "conversion"
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i := 0x1234 // i gets default type: int
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var j int = 1e6 // legal - 1000000 is representable in an int
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x := 1.5 // a float
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x := 1.5 // a float64, the default type for floating constants
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i3div2 := 3/2 // integer division - result is 1
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f3div2 := 3./2. // floating point division - result is 1.5
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f3div2 := 3./2. // floating-point division - result is 1.5
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Conversions only work for simple cases such as converting "ints" of one
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sign or size to another, and between "ints" and "floats", plus a few other
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simple cases. There are no automatic numeric conversions of any kind in Go,
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sign or size to another and between integers and floating-point numbers,
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plus a couple of other instances outside the scope of a tutorial.
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There are no automatic numeric conversions of any kind in Go,
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other than that of making constants have concrete size and type when
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assigned to a variable.
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@ -45,11 +45,10 @@ architectures.
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</dt>
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<dd>
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Incomplete.
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It only supports Linux binaries, the optimizer is not enabled,
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and floating point is performed entirely in software.
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It only supports Linux binaries, the optimizer is incomplete,
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and floating point uses the VFP unit.
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However, all tests pass.
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Work on the optimizer and use of the VFP hardware
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floating point unit is underway.
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Work on the optimizer is continuing.
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Tested against a Nexus One.
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</dd>
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</dl>
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@ -37,11 +37,11 @@ func (p IntArray) Less(i, j int) bool { return p[i] < p[j] }
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func (p IntArray) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
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type FloatArray []float
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type Float64Array []float64
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func (p FloatArray) Len() int { return len(p) }
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func (p FloatArray) Less(i, j int) bool { return p[i] < p[j] }
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func (p FloatArray) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
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func (p Float64Array) Len() int { return len(p) }
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func (p Float64Array) Less(i, j int) bool { return p[i] < p[j] }
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func (p Float64Array) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
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type StringArray []string
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@ -54,10 +54,10 @@ func (p StringArray) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
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// Convenience wrappers for common cases
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func SortInts(a []int) { Sort(IntArray(a)) }
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func SortFloats(a []float) { Sort(FloatArray(a)) }
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func SortFloat64s(a []float64) { Sort(Float64Array(a)) }
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func SortStrings(a []string) { Sort(StringArray(a)) }
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func IntsAreSorted(a []int) bool { return IsSorted(IntArray(a)) }
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func FloatsAreSorted(a []float) bool { return IsSorted(FloatArray(a)) }
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func Float64sAreSorted(a []float64) bool { return IsSorted(Float64Array(a)) }
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func StringsAreSorted(a []string) bool { return IsSorted(StringArray(a)) }
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