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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-28 13:16:40 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-28 13:16:40 +0000
commit47ab3d4a42e9ab51c465c4322d2ec233f6324e6b (patch)
treea61a0ffd83f4a3def4b36e5c8e99630c559aa723 /src/compress/flate/example_test.go
parentInitial commit. (diff)
downloadgolang-1.18-47ab3d4a42e9ab51c465c4322d2ec233f6324e6b.tar.xz
golang-1.18-47ab3d4a42e9ab51c465c4322d2ec233f6324e6b.zip
Adding upstream version 1.18.10.upstream/1.18.10upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/compress/flate/example_test.go')
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+// Copyright 2016 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+package flate_test
+
+import (
+ "bytes"
+ "compress/flate"
+ "fmt"
+ "io"
+ "log"
+ "os"
+ "strings"
+ "sync"
+)
+
+// In performance critical applications, Reset can be used to discard the
+// current compressor or decompressor state and reinitialize them quickly
+// by taking advantage of previously allocated memory.
+func Example_reset() {
+ proverbs := []string{
+ "Don't communicate by sharing memory, share memory by communicating.\n",
+ "Concurrency is not parallelism.\n",
+ "The bigger the interface, the weaker the abstraction.\n",
+ "Documentation is for users.\n",
+ }
+
+ var r strings.Reader
+ var b bytes.Buffer
+ buf := make([]byte, 32<<10)
+
+ zw, err := flate.NewWriter(nil, flate.DefaultCompression)
+ if err != nil {
+ log.Fatal(err)
+ }
+ zr := flate.NewReader(nil)
+
+ for _, s := range proverbs {
+ r.Reset(s)
+ b.Reset()
+
+ // Reset the compressor and encode from some input stream.
+ zw.Reset(&b)
+ if _, err := io.CopyBuffer(zw, &r, buf); err != nil {
+ log.Fatal(err)
+ }
+ if err := zw.Close(); err != nil {
+ log.Fatal(err)
+ }
+
+ // Reset the decompressor and decode to some output stream.
+ if err := zr.(flate.Resetter).Reset(&b, nil); err != nil {
+ log.Fatal(err)
+ }
+ if _, err := io.CopyBuffer(os.Stdout, zr, buf); err != nil {
+ log.Fatal(err)
+ }
+ if err := zr.Close(); err != nil {
+ log.Fatal(err)
+ }
+ }
+
+ // Output:
+ // Don't communicate by sharing memory, share memory by communicating.
+ // Concurrency is not parallelism.
+ // The bigger the interface, the weaker the abstraction.
+ // Documentation is for users.
+}
+
+// A preset dictionary can be used to improve the compression ratio.
+// The downside to using a dictionary is that the compressor and decompressor
+// must agree in advance what dictionary to use.
+func Example_dictionary() {
+ // The dictionary is a string of bytes. When compressing some input data,
+ // the compressor will attempt to substitute substrings with matches found
+ // in the dictionary. As such, the dictionary should only contain substrings
+ // that are expected to be found in the actual data stream.
+ const dict = `<?xml version="1.0"?>` + `<book>` + `<data>` + `<meta name="` + `" content="`
+
+ // The data to compress should (but is not required to) contain frequent
+ // substrings that match those in the dictionary.
+ const data = `<?xml version="1.0"?>
+<book>
+ <meta name="title" content="The Go Programming Language"/>
+ <meta name="authors" content="Alan Donovan and Brian Kernighan"/>
+ <meta name="published" content="2015-10-26"/>
+ <meta name="isbn" content="978-0134190440"/>
+ <data>...</data>
+</book>
+`
+
+ var b bytes.Buffer
+
+ // Compress the data using the specially crafted dictionary.
+ zw, err := flate.NewWriterDict(&b, flate.DefaultCompression, []byte(dict))
+ if err != nil {
+ log.Fatal(err)
+ }
+ if _, err := io.Copy(zw, strings.NewReader(data)); err != nil {
+ log.Fatal(err)
+ }
+ if err := zw.Close(); err != nil {
+ log.Fatal(err)
+ }
+
+ // The decompressor must use the same dictionary as the compressor.
+ // Otherwise, the input may appear as corrupted.
+ fmt.Println("Decompressed output using the dictionary:")
+ zr := flate.NewReaderDict(bytes.NewReader(b.Bytes()), []byte(dict))
+ if _, err := io.Copy(os.Stdout, zr); err != nil {
+ log.Fatal(err)
+ }
+ if err := zr.Close(); err != nil {
+ log.Fatal(err)
+ }
+
+ fmt.Println()
+
+ // Substitute all of the bytes in the dictionary with a '#' to visually
+ // demonstrate the approximate effectiveness of using a preset dictionary.
+ fmt.Println("Substrings matched by the dictionary are marked with #:")
+ hashDict := []byte(dict)
+ for i := range hashDict {
+ hashDict[i] = '#'
+ }
+ zr = flate.NewReaderDict(&b, hashDict)
+ if _, err := io.Copy(os.Stdout, zr); err != nil {
+ log.Fatal(err)
+ }
+ if err := zr.Close(); err != nil {
+ log.Fatal(err)
+ }
+
+ // Output:
+ // Decompressed output using the dictionary:
+ // <?xml version="1.0"?>
+ // <book>
+ // <meta name="title" content="The Go Programming Language"/>
+ // <meta name="authors" content="Alan Donovan and Brian Kernighan"/>
+ // <meta name="published" content="2015-10-26"/>
+ // <meta name="isbn" content="978-0134190440"/>
+ // <data>...</data>
+ // </book>
+ //
+ // Substrings matched by the dictionary are marked with #:
+ // #####################
+ // ######
+ // ############title###########The Go Programming Language"/#
+ // ############authors###########Alan Donovan and Brian Kernighan"/#
+ // ############published###########2015-10-26"/#
+ // ############isbn###########978-0134190440"/#
+ // ######...</#####
+ // </#####
+}
+
+// DEFLATE is suitable for transmitting compressed data across the network.
+func Example_synchronization() {
+ var wg sync.WaitGroup
+ defer wg.Wait()
+
+ // Use io.Pipe to simulate a network connection.
+ // A real network application should take care to properly close the
+ // underlying connection.
+ rp, wp := io.Pipe()
+
+ // Start a goroutine to act as the transmitter.
+ wg.Add(1)
+ go func() {
+ defer wg.Done()
+
+ zw, err := flate.NewWriter(wp, flate.BestSpeed)
+ if err != nil {
+ log.Fatal(err)
+ }
+
+ b := make([]byte, 256)
+ for _, m := range strings.Fields("A long time ago in a galaxy far, far away...") {
+ // We use a simple framing format where the first byte is the
+ // message length, followed the message itself.
+ b[0] = uint8(copy(b[1:], m))
+
+ if _, err := zw.Write(b[:1+len(m)]); err != nil {
+ log.Fatal(err)
+ }
+
+ // Flush ensures that the receiver can read all data sent so far.
+ if err := zw.Flush(); err != nil {
+ log.Fatal(err)
+ }
+ }
+
+ if err := zw.Close(); err != nil {
+ log.Fatal(err)
+ }
+ }()
+
+ // Start a goroutine to act as the receiver.
+ wg.Add(1)
+ go func() {
+ defer wg.Done()
+
+ zr := flate.NewReader(rp)
+
+ b := make([]byte, 256)
+ for {
+ // Read the message length.
+ // This is guaranteed to return for every corresponding
+ // Flush and Close on the transmitter side.
+ if _, err := io.ReadFull(zr, b[:1]); err != nil {
+ if err == io.EOF {
+ break // The transmitter closed the stream
+ }
+ log.Fatal(err)
+ }
+
+ // Read the message content.
+ n := int(b[0])
+ if _, err := io.ReadFull(zr, b[:n]); err != nil {
+ log.Fatal(err)
+ }
+
+ fmt.Printf("Received %d bytes: %s\n", n, b[:n])
+ }
+ fmt.Println()
+
+ if err := zr.Close(); err != nil {
+ log.Fatal(err)
+ }
+ }()
+
+ // Output:
+ // Received 1 bytes: A
+ // Received 4 bytes: long
+ // Received 4 bytes: time
+ // Received 3 bytes: ago
+ // Received 2 bytes: in
+ // Received 1 bytes: a
+ // Received 6 bytes: galaxy
+ // Received 4 bytes: far,
+ // Received 3 bytes: far
+ // Received 7 bytes: away...
+}