diff --git a/doc/effective_go.html b/doc/effective_go.html index 1bd8655fa2f..f3f8020e642 100644 --- a/doc/effective_go.html +++ b/doc/effective_go.html @@ -228,7 +228,7 @@ Since the whole declaration is presented, such a comment can often be perfunctor
// Error codes returned by failures to parse an expression. var ( - ErrInternal = os.NewError("internal error"); + ErrInternal = os.NewError("internal error"); ErrUnmatchedLpar = os.NewError("unmatched '('"); ErrUnmatchedRpar = os.NewError("unmatched ')'"); ... @@ -255,7 +255,7 @@ var ( Names are as important in Go as in any other language. In some cases they even have semantic effect: for instance, the visibility of a name outside a package is determined by whether its -first character is an upper case letter. +first character is upper case. It's therefore worth spending a little time talking about naming conventions in Go programs. @@ -300,7 +300,7 @@ notcontainer_vector
and notcontainerVector
.The importer of a package will use the name to refer to its contents (the
import .
notation is intended mostly for tests and other -unusual situations), and exported names in the package can use that fact +unusual situations) and exported names in the package can use that fact to avoid stutter. For instance, the buffered reader type in thebufio
package is calledReader
, notBufReader
, because users see it asbufio.Reader
, @@ -448,7 +448,8 @@ statement, it's common to see one used to set up a local variable.if err := file.Chmod(0664); err != nil { - log.Stderr(err) + log.Stderr(err); + return err; }@@ -519,11 +520,12 @@ for i := 0; i < 10; i++ {
-If you're looping over an array, slice, string, or map a range
clause can set
-it all up for you.
+If you're looping over an array, slice, string, or map,
+or reading from a channel, a range
clause can
+manage the loop for you.
-var m map[string] int; +var m map[string]int; sum := 0; for _, value := range m { // key is unused sum += value @@ -531,8 +533,8 @@ for _, value := range m { // key is unused
-For strings, the range
does more of the work for you, breaking out individual
-characters by parsing the UTF-8 (erroneous encodings consume one byte and produce the
+For strings, the range
does more work for you, breaking out individual
+Unicode characters by parsing the UTF-8 (erroneous encodings consume one byte and produce the
replacement rune U+FFFD). The loop
@@ -637,7 +639,7 @@ have the corresponding type in each clause.@@ -2194,15 +2196,15 @@ separate pieces, it can be parallelized, with a channel to signal when each piece completes.switch t := interfaceValue.(type) { default: - fmt.Printf("unexpected type"); + fmt.Printf("unexpected type %T", type); // %T prints type case bool: fmt.Printf("boolean %t\n", t); case int: @@ -657,7 +659,7 @@ case *int: One of Go's unusual properties is that functions and methods can return multiple values. This feature can be used to improve on a couple of clumsy idioms in C programs: in-band -error returns (-1
forEOF
for example) +error returns (such as-1
forEOF
) and modifying an argument. @@ -1033,7 +1035,7 @@ the moment, this snippet would also read the first 32 bytes of the buffer. var n int; var err os.Error; for i := 0; i < 32; i++ { - nbytes, e := f.Read(buf[i:i+1]); + nbytes, e := f.Read(buf[i:i+1]); // Read one byte. if nbytes == 0 || e != nil { err = e; break; @@ -1083,10 +1085,10 @@ structure holding the pointer, length, and capacity) is passed by value.Maps are a convenient and powerful built-in data structure to associate values of different types. -The key can be of type that implements equality, such as integers, -floats, strings, pointers, and interfaces (as long as the dynamic type +The key can be of any type that implements equality, such as integers, +floats, strings, pointers, and interfaces (as long as the dynamic type supports equality), but not structs, arrays or slices -because those types do not have equality defined upon them. +because those types do not have equality defined for them. Like slices, maps are a reference type. If you pass a map to a function that changes the contents of the map, the changes will be visible in the caller. @@ -1571,7 +1573,7 @@ as though the existing value has a new type. do create a new value.)
-It's an idiom of Go code to convert the +It's an idiom in Go programs to convert the type of an expression to access a different set of methods. As an example, we could use the existing type
@@ -1757,7 +1759,7 @@ func (f HandlerFunc) ServeHTTP(c *Conn, req *Request) {sort.IntArray
to reduce the entire example @@ -1620,9 +1622,9 @@ the rest of the code is unaffected by the change of algorithm. A similar approach allows the streaming cipher algorithms in thecrypto/block
package to be separated from the block ciphers they chain together. -By analogy to thebufio
package, +By analogy with thebufio
package, they wrap aCipher
interface -and they returnhash.Hash
, +and returnhash.Hash
,io.Reader
, orio.Writer
interface values, not specific implementations.HandlerFunc
is a type with a method,ServeHTTP
, so values of that type can serve HTTP requests. Look at the implementation of the method: the receiver is a function,f
, and the method -callsf
. That may seem odd but it's no different from, say, +callsf
. That may seem odd but it's not that different from, say, the receiver being a channel and the method sending on the channel.@@ -1953,8 +1955,8 @@ it would be erroneous to embed
@@ -1986,11 +1988,11 @@ high-level approach, using channels to control access makes it easier to write clear, correct programs.log.Logger
ifJob
struc contained another field or method calledLogger
. However, if the duplicate name is never mentioned in the program outside the type definition, it is OK. This qualification provides some protection against changes made to types embedded from outside; there -is no problem if a field is added that conflicts with another field in another subtype if that field -is never used. +is no problem if a field is added that conflicts with another field in another subtype if neither field +is ever used.-Another way to think about this model is to consider a typical single-threaded +One way to think about this model is to consider a typical single-threaded program running on one CPU. It has no need for synchronization primitives. Now run another such instance; it too needs no synchronization. Now let those two communicate; if the communication is the synchronizer, there's still no need -for other synchronization. Consider Unix pipelines: they fit this model +for other synchronization. Unix pipelines, for example, fit this model perfectly. Although Go's approach to concurrency originates in Hoare's Communicating Sequential Processes (CSP), it can also be seen as a type-safe generalization of Unix pipes. @@ -2036,7 +2038,7 @@ func Announce(message string, delay int64) { }
-In Go function literals are closures: the implementation makes +In Go, function literals are closures: the implementation makes sure the variables referred to by the function survive as long as they are active.
These examples aren't too practical because the functions have no way of signaling @@ -2086,7 +2088,7 @@ value has been copied to the buffer. A buffered channel can be used like a semaphore, for instance to limit throughput. In this example, incoming requests are passed to
@@ -2166,7 +2168,7 @@ func sum(a []int) (s int) { request := &Request{[]int{3, 4, 5}, sum, make(chan int)} // Send request -client Requests <- request; +clientRequests <- request; // Wait for response. fmt.Printf("answer: %d\n", <-request.resultChan);handle
, which sends a value into the channel, processes -the request, and then receives a value out of the channel. +the request, and then receives a value from the channel. The capacity of the channel buffer limits the number of simultaneous calls toprocess
.
-Let's say we have an expensive operation to perform on an array of items, +Let's say we have an expensive operation to perform on a vector of items, and that the value of the operation on each item is independent, as in this idealized example.
-type Vec []float64 +type Vector []float64 // Apply the operation to n elements of v starting at i. -func (v Vec) DoSome(i, n int, u Vec, c chan int) { +func (v Vector) DoSome(i, n int, u Vector, c chan int) { for ; i < n; i++ { v[i] += u.Op(v[i]) } @@ -2218,7 +2220,7 @@ launching all the goroutines.const NCPU = 4 // number of CPU cores -func (v Vec) DoAll(u Vec) { +func (v Vector) DoAll(u Vector) { c := make(chan int, NCPU); // Buffering optional but sensible. for i := 0; i < NCPU; i++ { go v.DoSome(i*len(v)/NCPU, (i+1)*len(v)/NCPU, u, c); @@ -2235,7 +2237,7 @@ func (v Vec) DoAll(u Vec) {A leaky buffer
-The tools of concurrent programming can often make non-concurrent +The tools of concurrent programming can even make non-concurrent ideas easier to express. Here's an example abstracted from an RPC package. The client goroutine loops receiving data from some source, perhaps a network. To avoid allocating and freeing buffers, it keeps