I have a short program that converts a few binary numbers into their ASCII equivalents. I tried translating this into go today and found that strconv.Itoa() doesn't work as I expected.
// translate Computer History Museum t-shirt
// http://i.ebayimg.com/images/g/qksAAOSwaB5XjsI1/s-l300.jpg
package main
import (
"fmt"
"strconv"
)
func main() {
var binaryStrings [3]string
binaryStrings = [3]string{"01000011","01001000","01001101"}
for _,bin := range binaryStrings {
if decimal, err := strconv.ParseInt(bin, 2, 64); err != nil {
fmt.Println(err)
} else {
letter := strconv.Itoa(int(decimal))
fmt.Println(bin, decimal, letter, string(decimal))
}
}
}
which outputs
$ go run chm-tshirt.go
01000011 67 67 C
01001000 72 72 H
01001101 77 77 M
So it seems like string() is doing what I thought strconv.Itoa() would do. I was expecting the third column to show what I get in the fourth column. Is this a bug or what am I missing?
strconv.Itoa formats an integer as a decimal string. Example: strconv.Itoa(65) and strconv.Itoa('A') return the string "65".
string(intValue) yields a string containing the UTF-8 representation of the integer. Example: string('A') and string(65) evaluate to the string "A".
Experience has shown that many people erroneously expect string(intValue) to return the decimal representation of the integer value. Because this expectation is so common, the Go 1.15 version of go vet warns about string(intValue) conversions when the type of the integer value is not rune or byte (read details here).
Related
How can I get the number of characters of a string in Go?
For example, if I have a string "hello" the method should return 5. I saw that len(str) returns the number of bytes and not the number of characters so len("£") returns 2 instead of 1 because £ is encoded with two bytes in UTF-8.
You can try RuneCountInString from the utf8 package.
returns the number of runes in p
that, as illustrated in this script: the length of "World" might be 6 (when written in Chinese: "世界"), but the rune count of "世界" is 2:
package main
import "fmt"
import "unicode/utf8"
func main() {
fmt.Println("Hello, 世界", len("世界"), utf8.RuneCountInString("世界"))
}
Phrozen adds in the comments:
Actually you can do len() over runes by just type casting.
len([]rune("世界")) will print 2. At least in Go 1.3.
And with CL 108985 (May 2018, for Go 1.11), len([]rune(string)) is now optimized. (Fixes issue 24923)
The compiler detects len([]rune(string)) pattern automatically, and replaces it with for r := range s call.
Adds a new runtime function to count runes in a string.
Modifies the compiler to detect the pattern len([]rune(string))
and replaces it with the new rune counting runtime function.
RuneCount/lenruneslice/ASCII 27.8ns ± 2% 14.5ns ± 3% -47.70%
RuneCount/lenruneslice/Japanese 126ns ± 2% 60 ns ± 2% -52.03%
RuneCount/lenruneslice/MixedLength 104ns ± 2% 50 ns ± 1% -51.71%
Stefan Steiger points to the blog post "Text normalization in Go"
What is a character?
As was mentioned in the strings blog post, characters can span multiple runes.
For example, an 'e' and '◌́◌́' (acute "\u0301") can combine to form 'é' ("e\u0301" in NFD). Together these two runes are one character.
The definition of a character may vary depending on the application.
For normalization we will define it as:
a sequence of runes that starts with a starter,
a rune that does not modify or combine backwards with any other rune,
followed by possibly empty sequence of non-starters, that is, runes that do (typically accents).
The normalization algorithm processes one character at at time.
Using that package and its Iter type, the actual number of "character" would be:
package main
import "fmt"
import "golang.org/x/text/unicode/norm"
func main() {
var ia norm.Iter
ia.InitString(norm.NFKD, "école")
nc := 0
for !ia.Done() {
nc = nc + 1
ia.Next()
}
fmt.Printf("Number of chars: %d\n", nc)
}
Here, this uses the Unicode Normalization form NFKD "Compatibility Decomposition"
Oliver's answer points to UNICODE TEXT SEGMENTATION as the only way to reliably determining default boundaries between certain significant text elements: user-perceived characters, words, and sentences.
For that, you need an external library like rivo/uniseg, which does Unicode Text Segmentation.
That will actually count "grapheme cluster", where multiple code points may be combined into one user-perceived character.
package uniseg
import (
"fmt"
"github.com/rivo/uniseg"
)
func main() {
gr := uniseg.NewGraphemes("👍🏼!")
for gr.Next() {
fmt.Printf("%x ", gr.Runes())
}
// Output: [1f44d 1f3fc] [21]
}
Two graphemes, even though there are three runes (Unicode code points).
You can see other examples in "How to manipulate strings in GO to reverse them?"
👩🏾🦰 alone is one grapheme, but, from unicode to code points converter, 4 runes:
👩: women (1f469)
dark skin (1f3fe)
ZERO WIDTH JOINER (200d)
🦰red hair (1f9b0)
There is a way to get count of runes without any packages by converting string to []rune as len([]rune(YOUR_STRING)):
package main
import "fmt"
func main() {
russian := "Спутник и погром"
english := "Sputnik & pogrom"
fmt.Println("count of bytes:",
len(russian),
len(english))
fmt.Println("count of runes:",
len([]rune(russian)),
len([]rune(english)))
}
count of bytes 30 16
count of runes 16 16
I should point out that none of the answers provided so far give you the number of characters as you would expect, especially when you're dealing with emojis (but also some languages like Thai, Korean, or Arabic). VonC's suggestions will output the following:
fmt.Println(utf8.RuneCountInString("🏳️🌈🇩🇪")) // Outputs "6".
fmt.Println(len([]rune("🏳️🌈🇩🇪"))) // Outputs "6".
That's because these methods only count Unicode code points. There are many characters which can be composed of multiple code points.
Same for using the Normalization package:
var ia norm.Iter
ia.InitString(norm.NFKD, "🏳️🌈🇩🇪")
nc := 0
for !ia.Done() {
nc = nc + 1
ia.Next()
}
fmt.Println(nc) // Outputs "6".
Normalization is not really the same as counting characters and many characters cannot be normalized into a one-code-point equivalent.
masakielastic's answer comes close but only handles modifiers (the rainbow flag contains a modifier which is thus not counted as its own code point):
fmt.Println(GraphemeCountInString("🏳️🌈🇩🇪")) // Outputs "5".
fmt.Println(GraphemeCountInString2("🏳️🌈🇩🇪")) // Outputs "5".
The correct way to split Unicode strings into (user-perceived) characters, i.e. grapheme clusters, is defined in the Unicode Standard Annex #29. The rules can be found in Section 3.1.1. The github.com/rivo/uniseg package implements these rules so you can determine the correct number of characters in a string:
fmt.Println(uniseg.GraphemeClusterCount("🏳️🌈🇩🇪")) // Outputs "2".
If you need to take grapheme clusters into account, use regexp or unicode module. Counting the number of code points(runes) or bytes also is needed for validaiton since the length of grapheme cluster is unlimited. If you want to eliminate extremely long sequences, check if the sequences conform to stream-safe text format.
package main
import (
"regexp"
"unicode"
"strings"
)
func main() {
str := "\u0308" + "a\u0308" + "o\u0308" + "u\u0308"
str2 := "a" + strings.Repeat("\u0308", 1000)
println(4 == GraphemeCountInString(str))
println(4 == GraphemeCountInString2(str))
println(1 == GraphemeCountInString(str2))
println(1 == GraphemeCountInString2(str2))
println(true == IsStreamSafeString(str))
println(false == IsStreamSafeString(str2))
}
func GraphemeCountInString(str string) int {
re := regexp.MustCompile("\\PM\\pM*|.")
return len(re.FindAllString(str, -1))
}
func GraphemeCountInString2(str string) int {
length := 0
checked := false
index := 0
for _, c := range str {
if !unicode.Is(unicode.M, c) {
length++
if checked == false {
checked = true
}
} else if checked == false {
length++
}
index++
}
return length
}
func IsStreamSafeString(str string) bool {
re := regexp.MustCompile("\\PM\\pM{30,}")
return !re.MatchString(str)
}
There are several ways to get a string length:
package main
import (
"bytes"
"fmt"
"strings"
"unicode/utf8"
)
func main() {
b := "这是个测试"
len1 := len([]rune(b))
len2 := bytes.Count([]byte(b), nil) -1
len3 := strings.Count(b, "") - 1
len4 := utf8.RuneCountInString(b)
fmt.Println(len1)
fmt.Println(len2)
fmt.Println(len3)
fmt.Println(len4)
}
Depends a lot on your definition of what a "character" is. If "rune equals a character " is OK for your task (generally it isn't) then the answer by VonC is perfect for you. Otherwise, it should be probably noted, that there are few situations where the number of runes in a Unicode string is an interesting value. And even in those situations it's better, if possible, to infer the count while "traversing" the string as the runes are processed to avoid doubling the UTF-8 decode effort.
I tried to make to do the normalization a bit faster:
en, _ = glyphSmart(data)
func glyphSmart(text string) (int, int) {
gc := 0
dummy := 0
for ind, _ := range text {
gc++
dummy = ind
}
dummy = 0
return gc, dummy
}
I'm running into a really weird issue in my Go code. It seems that identical strings, one declared inside a struct and one outside, have different lengths when used. The following code shows an example:
type evaluateTest struct {
name string
expected int
fen string
}
func TestEvaluate(t *testing.T) {
cases := []evaluateTest{
{"Pawn testing", 330, "8/8/8/8/4P3/3P4/2P5/8 w KQkq - 0 11"},
}
for _, test := range cases {
outside := "8/8/8/8/4P3/3P4/2P5/8 w KQkq - 0 11"
fmt.Printf("String in struct has length %v\n", len(test.fen))
fmt.Printf("String outside struct has length %v\n", len(outside))
This outputs:
String in struct has length 41
String outside struct has length 38
Looping through the string and printing the character codes gives junk characters in the first three positions (decimal 226, 128, 139) of the string in the struct, and none in the one declared outside.
I'm really at a loss as to what's going on here. Any help is very appreciated.
One string starts with two zero width spaces (\u200b). The other starts with one.
In situations like this, it's helpful to print using %q to see what's going on. See the playground example.
I came across a function posted online that used the rune() function in golang, but I am having a hard time looking up what it is. I am going through the tutorial and inexperienced with the docs so it is hard to find what I am looking for.
Specifically, I am trying to see why this fails...
fmt.Println(rune("foo"))
and this does not
fmt.Println([]rune("foo"))
rune is a type in Go. It's just an alias for int32, but it's usually used to represent Unicode points. rune() isn't a function, it's syntax for type conversion into rune. Conversions in Go always have the syntax type() which might make them look like functions.
The first bit of code fails because conversion of strings to numeric types isn't defined in Go. However conversion of strings to slices of runes/int32s is defined like this in language specification:
Converting a value of a string type to a slice of runes type yields a
slice containing the individual Unicode code points of the string.
[golang.org]
So your example prints a slice of runes with values 102, 111 and 111
As stated in #Michael's first-rate comment fmt.Println([]rune("foo")) is a conversion of a string to a slice of runes []rune. When you convert from string to []rune, each utf-8 char in that string becomes a Rune. See https://stackoverflow.com/a/51611567/12817546. Similarly, in the reverse conversion, when converted from []rune to string, each rune becomes a utf-8 char in the string. See https://stackoverflow.com/a/51611567/12817546. A []rune can also be set to a byte, float64, int or a bool.
package main
import (
. "fmt"
)
func main() {
r := []rune("foo")
c := []interface{}{byte(r[0]), float64(r[0]), int(r[0]), r, string(r), r[0] != 0}
checkType(c)
}
func checkType(s []interface{}) {
for k, _ := range s {
Printf("%T %v\n", s[k], s[k])
}
}
byte(r[0]) is set to “uint8 102”, float64(r[0]) is set to “float64 102”,int(r[0]) is set to “int 102”, r is the rune” []int32 [102 111 111]”, string(r) prints “string foo”, r[0] != 0 and shows “bool true”.
[]rune to string conversion is supported natively by the spec. See the comment in https://stackoverflow.com/a/46021588/12817546. In Go then a string is a sequence of bytes. However, since multiple bytes can represent a rune code-point, a string value can also contain runes. So, it can be converted to a []rune , or vice versa. See https://stackoverflow.com/a/19325804/12817546.
Note, there are only two built-in type aliases in Go, byte (alias of uint8) and rune (alias of int32). See https://Go101.org/article/type-system-overview.html. Rune literals are just 32-bit integer values. For example, the rune literal 'a' is actually the number "97". See https://stackoverflow.com/a/19311218/12817546. Quotes edited.
I'm writing a small pragram to number the paragraph:
put paragraph number in front of each paragraph in the form of [1]..., [2]....
Article title should be excluded.
Here is my program:
package main
import (
"fmt"
"io/ioutil"
)
var s_end = [3]string{".", "!", "?"}
func main() {
b, err := ioutil.ReadFile("i_have_a_dream.txt")
if err != nil {
panic(err)
}
p_num, s_num := 1, 1
for _, char := range b {
fmt.Printf("[%s]", p_num)
p_num += 1
if char == byte("\n") {
fmt.Printf("\n[%s]", p_num)
p_num += 1
} else {
fmt.Printf(char)
}
}
}
http://play.golang.org/p/f4S3vQbglY
I got this error:
prog.go:21: cannot convert "\n" to type byte
prog.go:21: cannot convert "\n" (type string) to type byte
prog.go:21: invalid operation: char == "\n" (mismatched types byte and string)
prog.go:25: cannot use char (type byte) as type string in argument to fmt.Printf
[process exited with non-zero status]
How to convert string to byte?
What is the general practice to process text? Read in, parse it by byte, or by line?
Update
I solved the problem by converting the buffer byte to string, replacing strings by regular expression. (Thanks to #Tomasz Kłak for the regexp help)
I put the code here for reference.
package main
import (
"fmt"
"io/ioutil"
"regexp"
)
func main() {
b, err := ioutil.ReadFile("i_have_a_dream.txt")
if err != nil {
panic(err)
}
s := string(b)
r := regexp.MustCompile("(\r\n)+")
counter := 1
repl := func(match string) string {
p_num := counter
counter++
return fmt.Sprintf("%s [%d] ", match, p_num)
}
fmt.Println(r.ReplaceAllStringFunc(s, repl))
}
Using "\n" causes it to be treated as an array, use '\n' to treat it as a single char.
A string cannot be converted into a byte in a meaningful way. Use one of the following approaches:
If you have a string literal like "a", consider using a rune literal like 'a' which can be converted into a byte.
If you want to take a byte out of a string, use an index expression like myString[42].
If you want to interpret the content of a string as a (decimal) number, use strconv.Atoi() or strconv.ParseInt().
Please notice that it is customary in Go to write programs that can deal with Unicode characters. Explaining how to do this would be too much for this answer, but there are tutorials out there which explain what kind of things to pay attention to.
I'm having some trouble while reading a file which has a fixed column length format. Some columns may contain umlauts.
Umlauts seem to use 2 bytes instead of one. This is not the behaviour I was expecting. Is there any kind of function which returns a substring? Slice does not seem to work in this case.
Here's some sample code:
http://play.golang.org/p/ZJ1axy7UXe
umlautsString := "Rhön"
fmt.Println(len(umlautsString))
fmt.Println(umlautsString[0:4])
Prints:
5
Rhö
In go, a slice of a string counts bytes, not runes. This is why "Rhön"[0:3] gives you Rh and the first byte of ö.
Characters encoded in UTF-8 are represented as runes because UTF-8 encodes characters in more than one
byte (up to four bytes) to provide a bigger range of characters.
If you want to slice a string with the [] syntax, convert the string to []rune before.
Example (on play):
umlautsString := "Rhön"
runes = []rune(umlautsString)
fmt.Println(string(runes[0:3])) // Rhö
Noteworthy: This golang blog post about string representation in go.
You can convert string to []rune and work with it:
package main
import "fmt"
func main() {
umlautsString := "Rhön"
fmt.Println(len(umlautsString))
subStrRunes:= []rune(umlautsString)
fmt.Println(len(subStrRunes))
fmt.Println(string(subStrRunes[0:4]))
}
http://play.golang.org/p/__WfitzMOJ
Hope that helps!
Another option is the utf8string package:
package main
import "golang.org/x/exp/utf8string"
func main() {
s := utf8string.NewString("🧡💛💚💙💜")
// example 1
n := s.RuneCount()
println(n == 5)
// example 2
t := s.Slice(0, 2)
println(t == "🧡💛")
}
https://pkg.go.dev/golang.org/x/exp/utf8string