ci: fix `v check-md doc/docs.md`
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173e6a943b
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doc/docs.md
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doc/docs.md
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@ -490,7 +490,7 @@ d := b + x // d is of type `f64` - automatic promotion of `x`'s value
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```v nofmt
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name := 'Bob'
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assert name.len == 3 // will print 3
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assert name[0] == byte(66) // indexing gives a byte, byte(66) == `B`
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assert name[0] == u8(66) // indexing gives a byte, u8(66) == `B`
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assert name[1..3] == 'ob' // slicing gives a string 'ob'
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// escape codes
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@ -499,7 +499,7 @@ assert windows_newline.len == 2
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// arbitrary bytes can be directly specified using `\x##` notation where `#` is
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// a hex digit aardvark_str := '\x61ardvark' assert aardvark_str == 'aardvark'
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assert '\xc0'[0] == byte(0xc0)
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assert '\xc0'[0] == u8(0xc0)
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// or using octal escape `\###` notation where `#` is an octal digit
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aardvark_str2 := '\141ardvark'
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@ -692,7 +692,7 @@ A `rune` can be converted to UTF-8 bytes by using the `.bytes()` method.
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```v
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rocket := `🚀`
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assert rocket.bytes() == [byte(0xf0), 0x9f, 0x9a, 0x80]
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assert rocket.bytes() == [u8(0xf0), 0x9f, 0x9a, 0x80]
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```
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Hex, Unicode, and Octal escape sequences also work in a `rune` literal:
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@ -704,9 +704,9 @@ assert `\u0061` == `a`
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// multibyte literals work too
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assert `\u2605` == `★`
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assert `\u2605`.bytes() == [byte(0xe2), 0x98, 0x85]
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assert `\xe2\x98\x85`.bytes() == [byte(0xe2), 0x98, 0x85]
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assert `\342\230\205`.bytes() == [byte(0xe2), 0x98, 0x85]
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assert `\u2605`.bytes() == [u8(0xe2), 0x98, 0x85]
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assert `\xe2\x98\x85`.bytes() == [u8(0xe2), 0x98, 0x85]
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assert `\342\230\205`.bytes() == [u8(0xe2), 0x98, 0x85]
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```
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Note that `rune` literals use the same escape syntax as strings, but they can only hold one unicode
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@ -763,7 +763,7 @@ If you want a different type of integer, you can use casting:
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```v
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a := i64(123)
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b := byte(42)
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b := u8(42)
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c := i16(12345)
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```
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@ -854,7 +854,7 @@ The type of an array is determined by the first element:
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* `[1, 2, 3]` is an array of ints (`[]int`).
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* `['a', 'b']` is an array of strings (`[]string`).
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The user can explicitly specify the type for the first element: `[byte(16), 32, 64, 128]`.
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The user can explicitly specify the type for the first element: `[u8(16), 32, 64, 128]`.
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V arrays are homogeneous (all elements must have the same type).
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This means that code like `[1, 'a']` will not compile.
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