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420 lines
11 KiB
420 lines
11 KiB
package lib |
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import ( |
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"bytes" |
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"fmt" |
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"io" |
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"math/big" |
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"math/bits" |
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"math/rand" |
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"os" |
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"os/exec" |
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"reflect" |
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"strconv" |
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"strings" |
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"time" |
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"unicode" |
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"unicode/utf8" |
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) |
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func init() { |
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if bits.UintSize != 64 { |
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panic("only works on 64 bits CPU") |
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} |
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} |
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const ( |
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MinInt = ^MaxInt |
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MaxInt = 1<<63 - 1 |
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StrLen = 13 // Default length of random strings |
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SliceLen = 8 // Default length of slices |
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) |
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var ( |
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nsSince1970 = time.Now().UnixNano() |
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bigRand = rand.New(rand.NewSource(nsSince1970)) |
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|
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// charsets |
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Digit = RuneRange('0', '9') // Decimal digit characters |
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Lower = RuneRange('a', 'z') // Lowercase latin alphabet characters |
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Upper = RuneRange('A', 'Z') // Uppercase latin alphabet characters |
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ASCII = RuneRange(' ', '~') // ASCII printable characters |
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Space = strings.Repeat(" ", StrLen) // Spaces characters |
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Basic = Lower + Upper // Lower and Upper characters |
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Alnum = Basic + Digit // Basic and Digit characters |
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Words = Alnum + Space // Alnum and Space characters |
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) |
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func init() { |
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rand.Seed(nsSince1970) |
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} |
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// RuneRange returns a string containing all the valid runes from a to b. |
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func RuneRange(a, b rune) string { |
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var s []rune |
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for { |
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if utf8.ValidRune(a) { |
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s = append(s, a) |
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} |
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if a == b { |
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return string(s) |
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} |
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if a < b { |
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a++ |
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} else { |
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a-- |
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} |
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} |
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} |
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// IntRange returns a slice containing all the int from a to b. |
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func IntRange(a, b int) (s []int) { |
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for { |
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s = append(s, a) |
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if a == b { |
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return |
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} |
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if a < b { |
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a++ |
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} else { |
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a-- |
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} |
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} |
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} |
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// RandIntBetween returns a random int between a and b included. |
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func RandIntBetween(a, b int) int { |
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if a > b { |
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a, b = b, a |
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} |
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n := big.NewInt(int64(b)) // b |
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n.Sub(n, big.NewInt(int64(a))) // b-a |
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n.Add(n, big.NewInt(1)) // b-a+1 |
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n.Rand(bigRand, n) // 0 <= n <= b-a |
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n.Add(n, big.NewInt(int64(a))) // a <= n <= b |
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return int(n.Int64()) |
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} |
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// RandPosZ returns a random int between 0 and MaxInt included. |
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func RandPosZ() int { return RandIntBetween(0, MaxInt) } |
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// RandPos returns a random int between 1 and MaxInt included. |
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func RandPos() int { return RandIntBetween(1, MaxInt) } |
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// RandInt returns a random int between MinInt and MaxInt included. |
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func RandInt() int { return RandIntBetween(MinInt, MaxInt) } |
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// RandNeg returns a random int between MinInt and 1 included. |
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func RandNeg() int { return RandIntBetween(MinInt, 1) } |
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// RandNegZ returns a random int between MinInt and 0 included. |
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func RandNegZ() int { return RandIntBetween(MinInt, 0) } |
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// MakeIntFunc returns a slice of ints created by f. |
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func MakeIntFunc(f func() int) (s []int) { |
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i := 0 |
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for i < SliceLen { |
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s = append(s, f()) |
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i++ |
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} |
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return |
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} |
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// MultRandPosZ returns a slice of random ints between 0 and MaxInt included. |
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func MultRandPosZ() []int { return MakeIntFunc(RandPosZ) } |
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// MultRandPos returns a slice of random ints between 1 and MaxInt included. |
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func MultRandPos() []int { return MakeIntFunc(RandPos) } |
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// MultRandInt returns a slice of random ints between MinInt and MaxInt included. |
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func MultRandInt() []int { return MakeIntFunc(RandInt) } |
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// MultRandNeg returns a slice of random ints between MinInt and 1 included. |
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func MultRandNeg() []int { return MakeIntFunc(RandNeg) } |
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// MultRandNegZ returns a slice of random ints between MinInt and 0 included. |
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func MultRandNegZ() []int { return MakeIntFunc(RandNegZ) } |
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// MultRandIntBetween returns a slice of random ints between a and b included. |
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func MultRandIntBetween(a, b int) []int { |
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return MakeIntFunc(func() int { return RandIntBetween(a, b) }) |
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} |
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// RandRune returns a random printable rune |
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// (although you may not have the corresponding glyph). |
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// One-in-ten chance to get a rune higher than 0x10000 (1<<16). |
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func RandRune() rune { |
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ranges := unicode.PrintRanges |
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table := ranges[rand.Intn(len(ranges))] |
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if rand.Intn(10) == 0 { |
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r := table.R32[rand.Intn(len(table.R32))] |
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n := uint32(rand.Intn(int((r.Hi-r.Lo)/r.Stride) + 1)) |
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return rune(r.Lo + n*r.Stride) |
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} |
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r := table.R16[rand.Intn(len(table.R16))] |
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n := uint16(rand.Intn(int((r.Hi-r.Lo)/r.Stride) + 1)) |
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return rune(r.Lo + n*r.Stride) |
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} |
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// RandStr returns a string with l random characters taken from chars. |
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// If chars is empty, the characters are random printable runes. |
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func RandStr(l int, chars string) string { |
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if l <= 0 { |
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return "" |
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} |
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dst := make([]rune, l) |
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if chars == "" { |
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for i := range dst { |
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dst[i] = RandRune() |
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} |
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} else { |
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src := []rune(chars) |
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for i := range dst { |
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r := rand.Intn(len(src)) |
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dst[i] = src[r] |
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} |
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} |
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return string(dst) |
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} |
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// RandDigit returns a string containing random decimal digit characters. |
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func RandDigit() string { return RandStr(StrLen, Digit) } |
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// RandLower returns a string containing random lowercase latin alphabet characters. |
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func RandLower() string { return RandStr(StrLen, Lower) } |
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// RandUpper returns a string containing random uppercase latin alphabet characters. |
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func RandUpper() string { return RandStr(StrLen, Upper) } |
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// RandASCII returns a string containing random ASCII printable characters. |
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func RandASCII() string { return RandStr(StrLen, ASCII) } |
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// RandSpace returns a string containing random spaces characters. |
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func RandSpace() string { return RandStr(StrLen, Space) } |
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// RandBasic returns a string containing random lower and upper characters. |
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func RandBasic() string { return RandStr(StrLen, Basic) } |
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// RandAlnum returns a string containing random basic and digit characters. |
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func RandAlnum() string { return RandStr(StrLen, Alnum) } |
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// RandWords returns a string containing random alphanumeric and space characters. |
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func RandWords() string { return RandStr(StrLen, Words) } |
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// MakeStrFunc returns a slice of strings created by f. |
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func MakeStrFunc(f func() string) (s []string) { |
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i := 0 |
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for i < StrLen { |
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s = append(s, f()) |
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i++ |
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} |
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return |
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} |
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// MultRandDigit returns a slice of strings containing random Decimal digit characters. |
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func MultRandDigit() []string { return MakeStrFunc(RandDigit) } |
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// MultRandLower returns a slice of strings containing random Lowercase latin alphabet. |
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func MultRandLower() []string { return MakeStrFunc(RandLower) } |
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// MultRandUpper returns a slice of strings containing random Uppercase latin alphabet. |
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func MultRandUpper() []string { return MakeStrFunc(RandUpper) } |
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// MultRandASCII returns a slice of strings containing random ASCII printable characters. |
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func MultRandASCII() []string { return MakeStrFunc(RandASCII) } |
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// MultRandSpace returns a slice of strings containing random Spaces characters. |
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func MultRandSpace() []string { return MakeStrFunc(RandSpace) } |
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// MultRandBasic returns a slice of strings containing random Lower and Upper characters. |
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func MultRandBasic() []string { return MakeStrFunc(RandBasic) } |
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// MultRandAlnum returns a slice of strings containing random Basic and Digit characters. |
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func MultRandAlnum() []string { return MakeStrFunc(RandAlnum) } |
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// MultRandWords returns a slice of strings containing random Alnum and Space characters. |
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func MultRandWords() []string { return MakeStrFunc(RandWords) } |
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func Format(a ...interface{}) string { |
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ss := make([]string, len(a)) |
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for i, v := range a { |
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switch v.(type) { |
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case nil: |
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ss[i] = "nil" // instead of "<nil>" |
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case |
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string, |
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byte, // uint8 |
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rune: // int32 |
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// string : a double-quoted string safely escaped with Go syntax |
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// byte, rune : a single-quoted character literal safely escaped with Go syntax |
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ss[i] = fmt.Sprintf("%q", v) |
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default: |
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// a Go-syntax representation of the value |
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ss[i] = fmt.Sprintf("%#v", v) |
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} |
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} |
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return strings.Join(ss, ", ") |
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} |
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var valueOf = reflect.ValueOf |
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func Call(fn interface{}, args []interface{}) []interface{} { |
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// Convert args from []interface{} to []reflect.Value |
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vals := make([]reflect.Value, len(args)) |
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for i, v := range args { |
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if v != nil { |
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vals[i] = valueOf(v) |
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} else { |
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vals[i] = reflect.Zero(reflect.TypeOf((*interface{})(nil)).Elem()) |
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} |
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} |
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vals = valueOf(fn).Call(vals) |
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// Convert the return values from []reflect.Value to []interface{} |
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result := make([]interface{}, len(vals)) |
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for i, v := range vals { |
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result[i] = v.Interface() |
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} |
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return result |
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} |
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type Output struct { |
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Results []interface{} |
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Stdout string |
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} |
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func Monitor(fn interface{}, args []interface{}) (out Output) { |
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old := os.Stdout |
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r, w, err := os.Pipe() |
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if err != nil { |
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Fatalln("Cannot create pipe.") |
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} |
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os.Stdout = w |
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out.Results = Call(fn, args) |
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outC := make(chan string) |
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var buf strings.Builder |
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go func() { |
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io.Copy(&buf, r) |
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outC <- buf.String() |
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}() |
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os.Stdout = old |
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w.Close() |
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out.Stdout = <-outC |
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return out |
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} |
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func Challenge(name string, fn1, fn2 interface{}, args ...interface{}) { |
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st1 := Monitor(fn1, args) |
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st2 := Monitor(fn2, args) |
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if !reflect.DeepEqual(st1.Results, st2.Results) { |
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Fatalf("%s(%s) == %s instead of %s\n", |
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name, |
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Format(args...), |
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Format(st1.Results...), |
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Format(st2.Results...), |
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) |
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} |
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if !reflect.DeepEqual(st1.Stdout, st2.Stdout) { |
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Fatalf("%s(%s) prints:\n%s\ninstead of:\n%s\n", |
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name, |
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Format(args...), |
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Format(st1.Stdout), |
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Format(st2.Stdout), |
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) |
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} |
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} |
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func Fatal(a ...interface{}) { |
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fmt.Fprint(os.Stderr, a...) |
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os.Exit(1) |
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} |
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func Fatalln(a ...interface{}) { |
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fmt.Fprintln(os.Stderr, a...) |
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os.Exit(1) |
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} |
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func Fatalf(format string, a ...interface{}) { |
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fmt.Fprintf(os.Stderr, format, a...) |
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os.Exit(1) |
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} |
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func ChallengeMainStdin(exercise, input string, args ...string) { |
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run := func(name string) (string, int) { |
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cmd := exec.Command(name, args...) |
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if input != "" { |
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cmd.Stdin = bytes.NewBufferString(input) |
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} |
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b, err := cmd.CombinedOutput() |
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if err != nil { |
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if ee, ok := err.(*exec.ExitError); ok { |
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return string(b), ee.ExitCode() |
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} |
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Fatalln(err) |
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} |
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return string(b), 0 |
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} |
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console := func(out string) string { |
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var quotedArgs []string |
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for _, arg := range args { |
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quotedArgs = append(quotedArgs, strconv.Quote(arg)) |
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} |
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s := "\n$ " |
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if input != "" { |
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s += "echo -ne " + strconv.Quote(input) + " | " |
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} |
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return fmt.Sprintf(s+"./%s %s\n%s$ ", exercise, strings.Join(quotedArgs, " "), out) |
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} |
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code := func(code int) string { |
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return fmt.Sprintf("echo $?\n%d\n$", code) |
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} |
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student, studentCode := run("./exe") |
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solution, solutionCode := run(exercise + "_prog") |
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if solutionCode == 0 { |
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if studentCode != 0 { |
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Fatalln("Your program fails (non-zero exit status) when it should not :\n" + |
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console(student) + |
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code(studentCode) + "\n\n" + |
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"Expected :\n" + |
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console(solution) + |
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code(solutionCode)) |
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} |
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} else { |
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if studentCode == 0 { |
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Fatalln("Your program does not fail when it should (with a non-zero exit status) :" + "\n" + |
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console(student) + |
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code(studentCode) + "\n\n" + |
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"Expected :\n" + |
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console(solution) + |
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code(solutionCode)) |
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} |
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} |
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if student != solution { |
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Fatalln("Your program output is not correct :\n" + |
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console(student) + "\n\n" + |
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"Expected :\n" + |
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console(solution)) |
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} |
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} |
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// GCD returns greatest common divisor of a and b. |
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func GCD(a, b int) int { |
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for a != b { |
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if a > b { |
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a -= b |
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} else { |
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b -= a |
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} |
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} |
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return a |
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} |
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func ChallengeMain(exercise string, args ...string) { |
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ChallengeMainStdin(exercise, "", args...) |
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} |
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// TODO: check unhandled errors on all solutions (it should contains "ERROR" on the first line to prove we correctly handle the error) |
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// TODO: remove the number of rand functions, refactor test cases (aka "table")
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