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9c5e8fff0e
| Author | SHA1 | Date | |
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| 9c5e8fff0e | |||
| bfc9a9ae58 |
2
TODO.txt
2
TODO.txt
@ -1,5 +1,5 @@
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Write Repeat tests
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Think about not requiring so much Pos() when making messages
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Think about changing "consume" to "commit"
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Rename Seq2 to Seq
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Document Seq
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Should MakeState be private now that there's Run?
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@ -379,25 +379,26 @@ func Pipe[In, Ignore, Through any](p Parser[In, Ignore]) func(Through) Parser[In
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// It succeeds if and only if p succeeds at least minCount times.
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// It consumes if and only if at least one of the applications of p consumes.
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func Repeat[In, Out any](minCount int, p Parser[In, Out]) Parser[In, []Out] {
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return func(s State[In]) (Result[In, []Out], error) {
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return func(state State[In]) (Result[In, []Out], error) {
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var values []Out
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var consumed bool
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next := s
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currState := state
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for {
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result, err := p(next)
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result, err := p(currState)
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if err != nil {
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return Result[In, []Out]{}, fmt.Errorf("AtLeastN: %w", err)
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}
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consumed = consumed || result.Consumed()
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var value Out
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var success bool
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success, value, next = result.Status()
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success, value, nextState := result.Status()
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if !success {
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if len(values) >= minCount {
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return Succeed(consumed, values, next, MessageOK(s.Pos())), nil
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return Succeed(consumed, values, currState, MessageOK(state.Pos())), nil
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}
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return Fail[In, []Out](consumed, result.Message()), nil
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}
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currState = nextState
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values = append(values, value)
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}
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}
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@ -4,6 +4,8 @@ package gigaparsec_test
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import (
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"bytes"
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"errors"
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"io"
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"testing"
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"git.codemonkeysoftware.net/b/gigaparsec"
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@ -138,24 +140,69 @@ func TestEnd(t *testing.T) {
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}
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func TestRepeat(t *testing.T) {
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t.Run("succeeds iff number of successes ≥ minCount", rapid.MakeCheck(func(t *rapid.T) {
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const good byte = 'o'
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const bad byte = 'x'
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const maxParses = 100
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t.Run("succeeds iff number of successes ≥ minCount", rapid.MakeCheck(func(t *rapid.T) {
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minCount := rapid.IntRange(0, maxParses).Draw(t, "minCount")
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successes := rapid.IntRange(0, maxParses).Draw(t, "successes")
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shouldSucceed := successes >= minCount
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input := append(ptest.SliceOfN(good, successes), bad)
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p := gigaparsec.Repeat(minCount, gigaparsec.Match(good))
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result, err := p(gigaparsec.MakeState(bytes.NewReader(input)))
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input := append(ptest.SliceOfN(true, successes), false)
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p := gigaparsec.Repeat(minCount, gigaparsec.Match(true))
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result, err := p(gigaparsec.MakeState(gigaparsec.SliceReaderAt[bool](input)))
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must.NoError(t, err)
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success, _, _ := result.Status()
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test.EqOp(t, successes >= minCount, success, test.Sprint("expected successes ≥ minCount"))
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success, _, next := result.Status()
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test.EqOp(t, shouldSucceed, success)
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if success {
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test.EqOp(t, uint64(successes), next.Pos())
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}
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}))
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t.Run("consumes iff at least one application consumes", Todo)
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t.Run("fails on error", Todo)
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t.Run("position is unchanged on failure", Todo)
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t.Run("position follows last success on overall success", Todo)
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t.Run("consumes iff at least one application consumes", rapid.MakeCheck(func(t *rapid.T) {
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type Token struct {
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Consume, Succeed bool
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}
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// p will succeed and consume based on the values in the parsed token.
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var p gigaparsec.Parser[Token, Token] = func(s gigaparsec.State[Token]) (gigaparsec.Result[Token, Token], error) {
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buf := make([]Token, 1)
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_, next, err := s.Read(buf)
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if errors.Is(err, io.EOF) {
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return gigaparsec.Fail[Token, Token](false, gigaparsec.MessageEnd(s.Pos())), nil
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}
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if err != nil {
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return gigaparsec.Result[Token, Token]{}, err
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}
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tok := buf[0]
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if tok.Succeed {
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return gigaparsec.Succeed(tok.Consume, tok, next, gigaparsec.MessageOK(s.Pos())), nil
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} else {
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return gigaparsec.Fail[Token, Token](tok.Consume, gigaparsec.MakeMessage(s.Pos(), "false", "true")), nil
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}
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}
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input := rapid.Map(rapid.SliceOfN(rapid.Just(Token{Succeed: true}), 0, 100),
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func(ts []Token) []Token { return append(ts, Token{}) }).Draw(t, "input")
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consumeAt := rapid.Ptr(rapid.IntRange(0, len(input)-1), true).Draw(t, "consumeAt")
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if consumeAt != nil {
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input[*consumeAt].Consume = true
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}
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shouldConsume := consumeAt != nil
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result, err := gigaparsec.Repeat(0, p)(gigaparsec.MakeState(gigaparsec.SliceReaderAt[Token](input)))
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must.NoError(t, err)
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test.EqOp(t, shouldConsume, result.Consumed())
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}))
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t.Run("does not consume on empty input", func(t *testing.T) {
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p := gigaparsec.Repeat(0, gigaparsec.Match(0))
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result, err := p(gigaparsec.MakeState(gigaparsec.SliceReaderAt[int](nil)))
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must.NoError(t, err)
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must.False(t, result.Consumed())
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})
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t.Run("fails on error", func(t *testing.T) {
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expectedErr := errors.New("it broke")
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p := gigaparsec.Repeat(0, gigaparsec.Match(byte(0)))
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result, err := p(gigaparsec.MakeState(ptest.ErrReaderAt(expectedErr)))
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succeeded, _, _ := result.Status()
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test.ErrorIs(t, err, expectedErr)
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test.False(t, succeeded)
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})
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}
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