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Current Directory: /opt/golang/1.22.0/src/bufio
/opt/golang/1.22.0/src/bufio/
Viewing File: /opt/golang/1.22.0/src/bufio/scan_test.go
// Copyright 2013 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 bufio_test import ( . "bufio" "bytes" "errors" "io" "strings" "testing" "unicode" "unicode/utf8" ) const smallMaxTokenSize = 256 // Much smaller for more efficient testing. // Test white space table matches the Unicode definition. func TestSpace(t *testing.T) { for r := rune(0); r <= utf8.MaxRune; r++ { if IsSpace(r) != unicode.IsSpace(r) { t.Fatalf("white space property disagrees: %#U should be %t", r, unicode.IsSpace(r)) } } } var scanTests = []string{ "", "a", "¼", "☹", "\x81", // UTF-8 error "\uFFFD", // correctly encoded RuneError "abcdefgh", "abc def\n\t\tgh ", "abc¼☹\x81\uFFFD日本語\x82abc", } func TestScanByte(t *testing.T) { for n, test := range scanTests { buf := strings.NewReader(test) s := NewScanner(buf) s.Split(ScanBytes) var i int for i = 0; s.Scan(); i++ { if b := s.Bytes(); len(b) != 1 || b[0] != test[i] { t.Errorf("#%d: %d: expected %q got %q", n, i, test, b) } } if i != len(test) { t.Errorf("#%d: termination expected at %d; got %d", n, len(test), i) } err := s.Err() if err != nil { t.Errorf("#%d: %v", n, err) } } } // Test that the rune splitter returns same sequence of runes (not bytes) as for range string. func TestScanRune(t *testing.T) { for n, test := range scanTests { buf := strings.NewReader(test) s := NewScanner(buf) s.Split(ScanRunes) var i, runeCount int var expect rune // Use a string range loop to validate the sequence of runes. for i, expect = range test { if !s.Scan() { break } runeCount++ got, _ := utf8.DecodeRune(s.Bytes()) if got != expect { t.Errorf("#%d: %d: expected %q got %q", n, i, expect, got) } } if s.Scan() { t.Errorf("#%d: scan ran too long, got %q", n, s.Text()) } testRuneCount := utf8.RuneCountInString(test) if runeCount != testRuneCount { t.Errorf("#%d: termination expected at %d; got %d", n, testRuneCount, runeCount) } err := s.Err() if err != nil { t.Errorf("#%d: %v", n, err) } } } var wordScanTests = []string{ "", " ", "\n", "a", " a ", "abc def", " abc def ", " abc\tdef\nghi\rjkl\fmno\vpqr\u0085stu\u00a0\n", } // Test that the word splitter returns the same data as strings.Fields. func TestScanWords(t *testing.T) { for n, test := range wordScanTests { buf := strings.NewReader(test) s := NewScanner(buf) s.Split(ScanWords) words := strings.Fields(test) var wordCount int for wordCount = 0; wordCount < len(words); wordCount++ { if !s.Scan() { break } got := s.Text() if got != words[wordCount] { t.Errorf("#%d: %d: expected %q got %q", n, wordCount, words[wordCount], got) } } if s.Scan() { t.Errorf("#%d: scan ran too long, got %q", n, s.Text()) } if wordCount != len(words) { t.Errorf("#%d: termination expected at %d; got %d", n, len(words), wordCount) } err := s.Err() if err != nil { t.Errorf("#%d: %v", n, err) } } } // slowReader is a reader that returns only a few bytes at a time, to test the incremental // reads in Scanner.Scan. type slowReader struct { max int buf io.Reader } func (sr *slowReader) Read(p []byte) (n int, err error) { if len(p) > sr.max { p = p[0:sr.max] } return sr.buf.Read(p) } // genLine writes to buf a predictable but non-trivial line of text of length // n, including the terminal newline and an occasional carriage return. // If addNewline is false, the \r and \n are not emitted. func genLine(buf *bytes.Buffer, lineNum, n int, addNewline bool) { buf.Reset() doCR := lineNum%5 == 0 if doCR { n-- } for i := 0; i < n-1; i++ { // Stop early for \n. c := 'a' + byte(lineNum+i) if c == '\n' || c == '\r' { // Don't confuse us. c = 'N' } buf.WriteByte(c) } if addNewline { if doCR { buf.WriteByte('\r') } buf.WriteByte('\n') } } // Test the line splitter, including some carriage returns but no long lines. func TestScanLongLines(t *testing.T) { // Build a buffer of lots of line lengths up to but not exceeding smallMaxTokenSize. tmp := new(bytes.Buffer) buf := new(bytes.Buffer) lineNum := 0 j := 0 for i := 0; i < 2*smallMaxTokenSize; i++ { genLine(tmp, lineNum, j, true) if j < smallMaxTokenSize { j++ } else { j-- } buf.Write(tmp.Bytes()) lineNum++ } s := NewScanner(&slowReader{1, buf}) s.Split(ScanLines) s.MaxTokenSize(smallMaxTokenSize) j = 0 for lineNum := 0; s.Scan(); lineNum++ { genLine(tmp, lineNum, j, false) if j < smallMaxTokenSize { j++ } else { j-- } line := tmp.String() // We use the string-valued token here, for variety. if s.Text() != line { t.Errorf("%d: bad line: %d %d\n%.100q\n%.100q\n", lineNum, len(s.Bytes()), len(line), s.Text(), line) } } err := s.Err() if err != nil { t.Fatal(err) } } // Test that the line splitter errors out on a long line. func TestScanLineTooLong(t *testing.T) { const smallMaxTokenSize = 256 // Much smaller for more efficient testing. // Build a buffer of lots of line lengths up to but not exceeding smallMaxTokenSize. tmp := new(bytes.Buffer) buf := new(bytes.Buffer) lineNum := 0 j := 0 for i := 0; i < 2*smallMaxTokenSize; i++ { genLine(tmp, lineNum, j, true) j++ buf.Write(tmp.Bytes()) lineNum++ } s := NewScanner(&slowReader{3, buf}) s.Split(ScanLines) s.MaxTokenSize(smallMaxTokenSize) j = 0 for lineNum := 0; s.Scan(); lineNum++ { genLine(tmp, lineNum, j, false) if j < smallMaxTokenSize { j++ } else { j-- } line := tmp.Bytes() if !bytes.Equal(s.Bytes(), line) { t.Errorf("%d: bad line: %d %d\n%.100q\n%.100q\n", lineNum, len(s.Bytes()), len(line), s.Bytes(), line) } } err := s.Err() if err != ErrTooLong { t.Fatalf("expected ErrTooLong; got %s", err) } } // Test that the line splitter handles a final line without a newline. func testNoNewline(text string, lines []string, t *testing.T) { buf := strings.NewReader(text) s := NewScanner(&slowReader{7, buf}) s.Split(ScanLines) for lineNum := 0; s.Scan(); lineNum++ { line := lines[lineNum] if s.Text() != line { t.Errorf("%d: bad line: %d %d\n%.100q\n%.100q\n", lineNum, len(s.Bytes()), len(line), s.Bytes(), line) } } err := s.Err() if err != nil { t.Fatal(err) } } // Test that the line splitter handles a final line without a newline. func TestScanLineNoNewline(t *testing.T) { const text = "abcdefghijklmn\nopqrstuvwxyz" lines := []string{ "abcdefghijklmn", "opqrstuvwxyz", } testNoNewline(text, lines, t) } // Test that the line splitter handles a final line with a carriage return but no newline. func TestScanLineReturnButNoNewline(t *testing.T) { const text = "abcdefghijklmn\nopqrstuvwxyz\r" lines := []string{ "abcdefghijklmn", "opqrstuvwxyz", } testNoNewline(text, lines, t) } // Test that the line splitter handles a final empty line. func TestScanLineEmptyFinalLine(t *testing.T) { const text = "abcdefghijklmn\nopqrstuvwxyz\n\n" lines := []string{ "abcdefghijklmn", "opqrstuvwxyz", "", } testNoNewline(text, lines, t) } // Test that the line splitter handles a final empty line with a carriage return but no newline. func TestScanLineEmptyFinalLineWithCR(t *testing.T) { const text = "abcdefghijklmn\nopqrstuvwxyz\n\r" lines := []string{ "abcdefghijklmn", "opqrstuvwxyz", "", } testNoNewline(text, lines, t) } var testError = errors.New("testError") // Test the correct error is returned when the split function errors out. func TestSplitError(t *testing.T) { // Create a split function that delivers a little data, then a predictable error. numSplits := 0 const okCount = 7 errorSplit := func(data []byte, atEOF bool) (advance int, token []byte, err error) { if atEOF { panic("didn't get enough data") } if numSplits >= okCount { return 0, nil, testError } numSplits++ return 1, data[0:1], nil } // Read the data. const text = "abcdefghijklmnopqrstuvwxyz" buf := strings.NewReader(text) s := NewScanner(&slowReader{1, buf}) s.Split(errorSplit) var i int for i = 0; s.Scan(); i++ { if len(s.Bytes()) != 1 || text[i] != s.Bytes()[0] { t.Errorf("#%d: expected %q got %q", i, text[i], s.Bytes()[0]) } } // Check correct termination location and error. if i != okCount { t.Errorf("unexpected termination; expected %d tokens got %d", okCount, i) } err := s.Err() if err != testError { t.Fatalf("expected %q got %v", testError, err) } } // Test that an EOF is overridden by a user-generated scan error. func TestErrAtEOF(t *testing.T) { s := NewScanner(strings.NewReader("1 2 33")) // This splitter will fail on last entry, after s.err==EOF. split := func(data []byte, atEOF bool) (advance int, token []byte, err error) { advance, token, err = ScanWords(data, atEOF) if len(token) > 1 { if s.ErrOrEOF() != io.EOF { t.Fatal("not testing EOF") } err = testError } return } s.Split(split) for s.Scan() { } if s.Err() != testError { t.Fatal("wrong error:", s.Err()) } } // Test for issue 5268. type alwaysError struct{} func (alwaysError) Read(p []byte) (int, error) { return 0, io.ErrUnexpectedEOF } func TestNonEOFWithEmptyRead(t *testing.T) { scanner := NewScanner(alwaysError{}) for scanner.Scan() { t.Fatal("read should fail") } err := scanner.Err() if err != io.ErrUnexpectedEOF { t.Errorf("unexpected error: %v", err) } } // Test that Scan finishes if we have endless empty reads. type endlessZeros struct{} func (endlessZeros) Read(p []byte) (int, error) { return 0, nil } func TestBadReader(t *testing.T) { scanner := NewScanner(endlessZeros{}) for scanner.Scan() { t.Fatal("read should fail") } err := scanner.Err() if err != io.ErrNoProgress { t.Errorf("unexpected error: %v", err) } } func TestScanWordsExcessiveWhiteSpace(t *testing.T) { const word = "ipsum" s := strings.Repeat(" ", 4*smallMaxTokenSize) + word scanner := NewScanner(strings.NewReader(s)) scanner.MaxTokenSize(smallMaxTokenSize) scanner.Split(ScanWords) if !scanner.Scan() { t.Fatalf("scan failed: %v", scanner.Err()) } if token := scanner.Text(); token != word { t.Fatalf("unexpected token: %v", token) } } // Test that empty tokens, including at end of line or end of file, are found by the scanner. // Issue 8672: Could miss final empty token. func commaSplit(data []byte, atEOF bool) (advance int, token []byte, err error) { for i := 0; i < len(data); i++ { if data[i] == ',' { return i + 1, data[:i], nil } } return 0, data, ErrFinalToken } func testEmptyTokens(t *testing.T, text string, values []string) { s := NewScanner(strings.NewReader(text)) s.Split(commaSplit) var i int for i = 0; s.Scan(); i++ { if i >= len(values) { t.Fatalf("got %d fields, expected %d", i+1, len(values)) } if s.Text() != values[i] { t.Errorf("%d: expected %q got %q", i, values[i], s.Text()) } } if i != len(values) { t.Fatalf("got %d fields, expected %d", i, len(values)) } if err := s.Err(); err != nil { t.Fatal(err) } } func TestEmptyTokens(t *testing.T) { testEmptyTokens(t, "1,2,3,", []string{"1", "2", "3", ""}) } func TestWithNoEmptyTokens(t *testing.T) { testEmptyTokens(t, "1,2,3", []string{"1", "2", "3"}) } func loopAtEOFSplit(data []byte, atEOF bool) (advance int, token []byte, err error) { if len(data) > 0 { return 1, data[:1], nil } return 0, data, nil } func TestDontLoopForever(t *testing.T) { s := NewScanner(strings.NewReader("abc")) s.Split(loopAtEOFSplit) // Expect a panic defer func() { err := recover() if err == nil { t.Fatal("should have panicked") } if msg, ok := err.(string); !ok || !strings.Contains(msg, "empty tokens") { panic(err) } }() for count := 0; s.Scan(); count++ { if count > 1000 { t.Fatal("looping") } } if s.Err() != nil { t.Fatal("after scan:", s.Err()) } } func TestBlankLines(t *testing.T) { s := NewScanner(strings.NewReader(strings.Repeat("\n", 1000))) for count := 0; s.Scan(); count++ { if count > 2000 { t.Fatal("looping") } } if s.Err() != nil { t.Fatal("after scan:", s.Err()) } } type countdown int func (c *countdown) split(data []byte, atEOF bool) (advance int, token []byte, err error) { if *c > 0 { *c-- return 1, data[:1], nil } return 0, nil, nil } // Check that the looping-at-EOF check doesn't trigger for merely empty tokens. func TestEmptyLinesOK(t *testing.T) { c := countdown(10000) s := NewScanner(strings.NewReader(strings.Repeat("\n", 10000))) s.Split(c.split) for s.Scan() { } if s.Err() != nil { t.Fatal("after scan:", s.Err()) } if c != 0 { t.Fatalf("stopped with %d left to process", c) } } // Make sure we can read a huge token if a big enough buffer is provided. func TestHugeBuffer(t *testing.T) { text := strings.Repeat("x", 2*MaxScanTokenSize) s := NewScanner(strings.NewReader(text + "\n")) s.Buffer(make([]byte, 100), 3*MaxScanTokenSize) for s.Scan() { token := s.Text() if token != text { t.Errorf("scan got incorrect token of length %d", len(token)) } } if s.Err() != nil { t.Fatal("after scan:", s.Err()) } } // negativeEOFReader returns an invalid -1 at the end, as though it // were wrapping the read system call. type negativeEOFReader int func (r *negativeEOFReader) Read(p []byte) (int, error) { if *r > 0 { c := int(*r) if c > len(p) { c = len(p) } for i := 0; i < c; i++ { p[i] = 'a' } p[c-1] = '\n' *r -= negativeEOFReader(c) return c, nil } return -1, io.EOF } // Test that the scanner doesn't panic and returns ErrBadReadCount // on a reader that returns a negative count of bytes read (issue 38053). func TestNegativeEOFReader(t *testing.T) { r := negativeEOFReader(10) scanner := NewScanner(&r) c := 0 for scanner.Scan() { c++ if c > 1 { t.Error("read too many lines") break } } if got, want := scanner.Err(), ErrBadReadCount; got != want { t.Errorf("scanner.Err: got %v, want %v", got, want) } } // largeReader returns an invalid count that is larger than the number // of bytes requested. type largeReader struct{} func (largeReader) Read(p []byte) (int, error) { return len(p) + 1, nil } // Test that the scanner doesn't panic and returns ErrBadReadCount // on a reader that returns an impossibly large count of bytes read (issue 38053). func TestLargeReader(t *testing.T) { scanner := NewScanner(largeReader{}) for scanner.Scan() { } if got, want := scanner.Err(), ErrBadReadCount; got != want { t.Errorf("scanner.Err: got %v, want %v", got, want) } }
webs 1.0 - Enhanced UI