// +build go1.10 package main import ( "flag" "fmt" "log" "math/rand" "os" "strconv" "strings" "github.com/rclone/rclone/lib/encoder" ) const ( edgeLeft = iota edgeRight ) type mapping struct { mask uint src, dst []rune } type stringPair struct { a, b string } const header = `// Code generated by ./internal/gen/main.go. DO NOT EDIT. ` + `//go:generate go run ./internal/gen/main.go package encoder ` var maskBits = []struct { mask uint name string }{ {encoder.EncodeZero, "EncodeZero"}, {encoder.EncodeWin, "EncodeWin"}, {encoder.EncodeSlash, "EncodeSlash"}, {encoder.EncodeBackSlash, "EncodeBackSlash"}, {encoder.EncodeCrLf, "EncodeCrLf"}, {encoder.EncodeHashPercent, "EncodeHashPercent"}, {encoder.EncodeDel, "EncodeDel"}, {encoder.EncodeCtl, "EncodeCtl"}, {encoder.EncodeLeftSpace, "EncodeLeftSpace"}, {encoder.EncodeLeftTilde, "EncodeLeftTilde"}, {encoder.EncodeLeftCrLfHtVt, "EncodeLeftCrLfHtVt"}, {encoder.EncodeRightSpace, "EncodeRightSpace"}, {encoder.EncodeRightPeriod, "EncodeRightPeriod"}, {encoder.EncodeRightCrLfHtVt, "EncodeRightCrLfHtVt"}, {encoder.EncodeInvalidUtf8, "EncodeInvalidUtf8"}, } type edge struct { mask uint name string edge int orig []rune replace []rune } var allEdges = []edge{ {encoder.EncodeLeftSpace, "EncodeLeftSpace", edgeLeft, []rune{' '}, []rune{'␠'}}, {encoder.EncodeLeftTilde, "EncodeLeftTilde", edgeLeft, []rune{'~'}, []rune{'~'}}, {encoder.EncodeLeftCrLfHtVt, "EncodeLeftCrLfHtVt", edgeLeft, []rune{'\t', '\n', '\v', '\r'}, []rune{'␀' + '\t', '␀' + '\n', '␀' + '\v', '␀' + '\r'}, }, {encoder.EncodeRightSpace, "EncodeRightSpace", edgeRight, []rune{' '}, []rune{'␠'}}, {encoder.EncodeRightPeriod, "EncodeRightPeriod", edgeRight, []rune{'.'}, []rune{'.'}}, {encoder.EncodeRightCrLfHtVt, "EncodeRightCrLfHtVt", edgeRight, []rune{'\t', '\n', '\v', '\r'}, []rune{'␀' + '\t', '␀' + '\n', '␀' + '\v', '␀' + '\r'}, }, } var allMappings = []mapping{{ encoder.EncodeZero, []rune{ 0, }, []rune{ '␀', }}, { encoder.EncodeWin, []rune{ ':', '?', '"', '*', '<', '>', '|', }, []rune{ ':', '?', '"', '*', '<', '>', '|', }}, { encoder.EncodeSlash, []rune{ '/', }, []rune{ '/', }}, { encoder.EncodeBackSlash, []rune{ '\\', }, []rune{ '\', }}, { encoder.EncodeCrLf, []rune{ rune(0x0D), rune(0x0A), }, []rune{ '␍', '␊', }}, { encoder.EncodeHashPercent, []rune{ '#', '%', }, []rune{ '#', '%', }}, { encoder.EncodeDel, []rune{ 0x7F, }, []rune{ '␡', }}, { encoder.EncodeCtl, runeRange(0x01, 0x1F), runeRange('␁', '␟'), }} var ( rng *rand.Rand printables = runeRange(0x20, 0x7E) fullwidthPrintables = runeRange(0xFF00, 0xFF5E) encodables = collectEncodables(allMappings) encoded = collectEncoded(allMappings) greek = runeRange(0x03B1, 0x03C9) ) func main() { seed := flag.Int64("s", 42, "random seed") flag.Parse() rng = rand.New(rand.NewSource(*seed)) fd, err := os.Create("encoder_cases_test.go") fatal(err, "Unable to open encoder_cases_test.go:") defer func() { fatal(fd.Close(), "Failed to close encoder_cases_test.go:") }() fatalW(fd.WriteString(header))("Failed to write header:") fatalW(fd.WriteString("var testCasesSingle = []testCase{\n\t"))("Write:") _i := 0 i := func() (r int) { r, _i = _i, _i+1 return } for _, m := range maskBits { if len(getMapping(m.mask).src) == 0 { continue } if _i != 0 { fatalW(fd.WriteString(" "))("Write:") } in, out := buildTestString( []mapping{getMapping(m.mask)}, // pick []mapping{getMapping(0)}, // quote printables, fullwidthPrintables, encodables, encoded, greek) // fill fatalW(fmt.Fprintf(fd, `{ // %d mask: %s, in: %s, out: %s, },`, i(), m.name, strconv.Quote(in), strconv.Quote(out)))("Error writing test case:") } fatalW(fd.WriteString(` } var testCasesSingleEdge = []testCase{ `))("Write:") _i = 0 for _, e := range allEdges { for idx, orig := range e.orig { if _i != 0 { fatalW(fd.WriteString(" "))("Write:") } fatalW(fmt.Fprintf(fd, `{ // %d mask: %s, in: %s, out: %s, },`, i(), e.name, strconv.Quote(string(orig)), strconv.Quote(string(e.replace[idx]))))("Error writing test case:") } for _, m := range maskBits { if len(getMapping(m.mask).src) == 0 || invalidMask(e.mask|m.mask) { continue } for idx, orig := range e.orig { replace := e.replace[idx] pairs := buildEdgeTestString( []edge{e}, []mapping{getMapping(0), getMapping(m.mask)}, // quote [][]rune{printables, fullwidthPrintables, encodables, encoded, greek}, // fill func(rIn, rOut []rune, quoteOut []bool, testMappings []mapping) (out []stringPair) { testL := len(rIn) skipOrig := false for _, m := range testMappings { if runePos(orig, m.src) != -1 || runePos(orig, m.dst) != -1 { skipOrig = true break } } if !skipOrig { rIn[10], rOut[10], quoteOut[10] = orig, orig, false } out = append(out, stringPair{string(rIn), quotedToString(rOut, quoteOut)}) for _, i := range []int{0, 1, testL - 2, testL - 1} { for _, j := range []int{1, testL - 2, testL - 1} { if j < i { continue } rIn := append([]rune{}, rIn...) rOut := append([]rune{}, rOut...) quoteOut := append([]bool{}, quoteOut...) for _, in := range []rune{orig, replace} { expect, quote := in, false if i == 0 && e.edge == edgeLeft || i == testL-1 && e.edge == edgeRight { expect, quote = replace, in == replace } rIn[i], rOut[i], quoteOut[i] = in, expect, quote if i != j { for _, in := range []rune{orig, replace} { expect, quote = in, false if j == testL-1 && e.edge == edgeRight { expect, quote = replace, in == replace } rIn[j], rOut[j], quoteOut[j] = in, expect, quote } } out = append(out, stringPair{string(rIn), quotedToString(rOut, quoteOut)}) } } } return }) for _, p := range pairs { fatalW(fmt.Fprintf(fd, ` { // %d mask: %s | %s, in: %s, out: %s, },`, i(), m.name, e.name, strconv.Quote(p.a), strconv.Quote(p.b)))("Error writing test case:") } } } } fatalW(fmt.Fprintf(fd, ` { // %d mask: EncodeLeftSpace, in: " ", out: "␠ ", }, { // %d mask: EncodeLeftTilde, in: "~~", out: "~~", }, { // %d mask: EncodeRightSpace, in: " ", out: " ␠", }, { // %d mask: EncodeRightPeriod, in: "..", out: "..", }, { // %d mask: EncodeLeftSpace | EncodeRightPeriod, in: " .", out: "␠.", }, { // %d mask: EncodeLeftSpace | EncodeRightSpace, in: " ", out: "␠", }, { // %d mask: EncodeLeftSpace | EncodeRightSpace, in: " ", out: "␠␠", }, { // %d mask: EncodeLeftSpace | EncodeRightSpace, in: " ", out: "␠ ␠", }, { // %d mask: EncodeRightPeriod | EncodeRightSpace, in: "a. ", out: "a.␠", }, { // %d mask: EncodeRightPeriod | EncodeRightSpace, in: "a .", out: "a .", }, } var testCasesDoubleEdge = []testCase{ `, i(), i(), i(), i(), i(), i(), i(), i(), i(), i()))("Error writing test case:") _i = 0 for _, e1 := range allEdges { for _, e2 := range allEdges { if e1.mask == e2.mask { continue } for _, m := range maskBits { if len(getMapping(m.mask).src) == 0 || invalidMask(m.mask|e1.mask|e2.mask) { continue } orig, replace := e1.orig[0], e1.replace[0] edges := []edge{e1, e2} pairs := buildEdgeTestString( edges, []mapping{getMapping(0), getMapping(m.mask)}, // quote [][]rune{printables, fullwidthPrintables, encodables, encoded, greek}, // fill func(rIn, rOut []rune, quoteOut []bool, testMappings []mapping) (out []stringPair) { testL := len(rIn) for _, i := range []int{0, testL - 1} { for _, secondOrig := range e2.orig { rIn := append([]rune{}, rIn...) rOut := append([]rune{}, rOut...) quoteOut := append([]bool{}, quoteOut...) rIn[1], rOut[1], quoteOut[1] = secondOrig, secondOrig, false rIn[testL-2], rOut[testL-2], quoteOut[testL-2] = secondOrig, secondOrig, false for _, in := range []rune{orig, replace} { rIn[i], rOut[i], quoteOut[i] = in, in, false fixEdges(rIn, rOut, quoteOut, edges) out = append(out, stringPair{string(rIn), quotedToString(rOut, quoteOut)}) } } } return }) for _, p := range pairs { if _i != 0 { fatalW(fd.WriteString(" "))("Write:") } fatalW(fmt.Fprintf(fd, `{ // %d mask: %s | %s | %s, in: %s, out: %s, },`, i(), m.name, e1.name, e2.name, strconv.Quote(p.a), strconv.Quote(p.b)))("Error writing test case:") } } } } fatalW(fmt.Fprint(fd, "\n}\n"))("Error writing test case:") } func fatal(err error, s ...interface{}) { if err != nil { log.Fatalln(append(s, err)) } } func fatalW(_ int, err error) func(...interface{}) { if err != nil { return func(s ...interface{}) { log.Fatalln(append(s, err)) } } return func(s ...interface{}) {} } func invalidMask(mask uint) bool { return mask&(encoder.EncodeCtl|encoder.EncodeCrLf) != 0 && mask&(encoder.EncodeLeftCrLfHtVt|encoder.EncodeRightCrLfHtVt) != 0 } // construct a slice containing the runes between (l)ow (inclusive) and (h)igh (inclusive) func runeRange(l, h rune) []rune { if h < l { panic("invalid range") } out := make([]rune, h-l+1) for i := range out { out[i] = l + rune(i) } return out } func getMapping(mask uint) mapping { for _, m := range allMappings { if m.mask == mask { return m } } return mapping{} } func collectEncodables(m []mapping) (out []rune) { for _, s := range m { for _, r := range s.src { out = append(out, r) } } return } func collectEncoded(m []mapping) (out []rune) { for _, s := range m { for _, r := range s.dst { out = append(out, r) } } return } func buildTestString(mappings, testMappings []mapping, fill ...[]rune) (string, string) { combinedMappings := append(mappings, testMappings...) var ( rIn []rune rOut []rune ) for _, m := range mappings { if len(m.src) == 0 || len(m.src) != len(m.dst) { panic("invalid length") } rIn = append(rIn, m.src...) rOut = append(rOut, m.dst...) } inL := len(rIn) testL := inL * 3 if testL < 30 { testL = 30 } rIn = append(rIn, make([]rune, testL-inL)...) rOut = append(rOut, make([]rune, testL-inL)...) quoteOut := make([]bool, testL) set := func(i int, in, out rune, quote bool) { rIn[i] = in rOut[i] = out quoteOut[i] = quote } for i, r := range rOut[:inL] { set(inL+i, r, r, true) } outer: for pos := inL * 2; pos < testL; pos++ { m := pos % len(fill) i := rng.Intn(len(fill[m])) r := fill[m][i] for _, m := range combinedMappings { if pSrc := runePos(r, m.src); pSrc != -1 { set(pos, r, m.dst[pSrc], false) continue outer } else if pDst := runePos(r, m.dst); pDst != -1 { set(pos, r, r, true) continue outer } } set(pos, r, r, false) } rng.Shuffle(testL, func(i, j int) { rIn[i], rIn[j] = rIn[j], rIn[i] rOut[i], rOut[j] = rOut[j], rOut[i] quoteOut[i], quoteOut[j] = quoteOut[j], quoteOut[i] }) var bOut strings.Builder bOut.Grow(testL) for i, r := range rOut { if quoteOut[i] { bOut.WriteRune(encoder.QuoteRune) } bOut.WriteRune(r) } return string(rIn), bOut.String() } func buildEdgeTestString(edges []edge, testMappings []mapping, fill [][]rune, gen func(rIn, rOut []rune, quoteOut []bool, testMappings []mapping) []stringPair, ) []stringPair { testL := 30 rIn := make([]rune, testL) // test input string rOut := make([]rune, testL) // test output string without quote runes quoteOut := make([]bool, testL) // if true insert quote rune before the output rune set := func(i int, in, out rune, quote bool) { rIn[i] = in rOut[i] = out quoteOut[i] = quote } // populate test strings with values from the `fill` set outer: for pos := 0; pos < testL; pos++ { m := pos % len(fill) i := rng.Intn(len(fill[m])) r := fill[m][i] for _, m := range testMappings { if pSrc := runePos(r, m.src); pSrc != -1 { set(pos, r, m.dst[pSrc], false) continue outer } else if pDst := runePos(r, m.dst); pDst != -1 { set(pos, r, r, true) continue outer } } set(pos, r, r, false) } rng.Shuffle(testL, func(i, j int) { rIn[i], rIn[j] = rIn[j], rIn[i] rOut[i], rOut[j] = rOut[j], rOut[i] quoteOut[i], quoteOut[j] = quoteOut[j], quoteOut[i] }) fixEdges(rIn, rOut, quoteOut, edges) return gen(rIn, rOut, quoteOut, testMappings) } func fixEdges(rIn, rOut []rune, quoteOut []bool, edges []edge) { testL := len(rIn) for _, e := range edges { for idx, o := range e.orig { r := e.replace[idx] if e.edge == edgeLeft && rIn[0] == o { rOut[0], quoteOut[0] = r, false } else if e.edge == edgeLeft && rIn[0] == r { quoteOut[0] = true } else if e.edge == edgeRight && rIn[testL-1] == o { rOut[testL-1], quoteOut[testL-1] = r, false } else if e.edge == edgeRight && rIn[testL-1] == r { quoteOut[testL-1] = true } } } } func runePos(r rune, s []rune) int { for i, c := range s { if c == r { return i } } return -1 } // quotedToString returns a string for the chars slice where a encoder.QuoteRune is // inserted before a char[i] when quoted[i] is true. func quotedToString(chars []rune, quoted []bool) string { var out strings.Builder out.Grow(len(chars)) for i, r := range chars { if quoted[i] { out.WriteRune(encoder.QuoteRune) } out.WriteRune(r) } return out.String() }