gigaparsec/bytes/regexp_test.go

// SPDX-License-Identifier: Unlicense

package bytes_test

import (
	"bytes"
	"testing"

	"git.codemonkeysoftware.net/b/gigaparsec"
	pbytes "git.codemonkeysoftware.net/b/gigaparsec/bytes"
	"git.codemonkeysoftware.net/b/gigaparsec/cursor"
	ptest "git.codemonkeysoftware.net/b/gigaparsec/test"
	pgen "git.codemonkeysoftware.net/b/gigaparsec/test/generator"
	"github.com/shoenig/test"
	"github.com/shoenig/test/must"
	"pgregory.net/rapid"
)

func Todo(t *testing.T) {
	t.Fatalf("TODO")
}

func TestRegexp(t *testing.T) {
	t.Run("only searches the beginning of input", Todo)
	t.Run("position is correct after match", Todo)
	t.Run("fails on unexpected error", Todo)
	t.Run("returns a useful Got value", rapid.MakeCheck(func(t *rapid.T) {

	}))
	t.Run("basically works", func(t *testing.T) {
		result, err := pbytes.Regexp("a")(gigaparsec.MakeState(cursor.NewSlice([]byte("a"))))
		must.NoError(t, err)
		failed, _, msg := result.Failed()
		must.False(t, failed, must.Sprint(msg))
		succeeded, consumed, value, _, _ := result.Succeeded()
		test.True(t, succeeded)
		test.True(t, consumed)
		test.EqOp(t, "a", value)
	})
}

func TestRuneReader(t *testing.T) {
	var s = []byte("abcdefghijklmnopqrstuvwxyz")
	rr := pbytes.NewRuneReader(cursor.NewSlice(s))
	for i, b := range s {
		r, n, err := rr.ReadRune()
		test.NoError(t, err)
		test.EqOp(t, 1, n)
		test.EqOp(t, r, rune(b))
		if t.Failed() {
			t.Fatalf("failed at %d", i)
		}
	}
}

func TestMatchString(t *testing.T) {
	t.Run("fails on unexpected error", rapid.MakeCheck(func(t *rapid.T) {
		s := rapid.StringN(-1, -1, 100).Draw(t, "s")
		readErr := pgen.Error().Draw(t, "readErr")
		result, err := pbytes.MatchString(s)(gigaparsec.MakeState(cursor.NewReaderAt(ptest.ErrReaderAt(readErr))))
		test.ErrorIs(t, err, readErr)
		failed, consumed, _ := result.Failed()
		test.True(t, failed)
		test.False(t, consumed)
	}))
	t.Run("does not succeed or consume on mismatch", rapid.MakeCheck(func(t *rapid.T) {
		bgen := rapid.SliceOfN(rapid.Byte(), 1, 100)
		input := bgen.Draw(t, "input")
		notPrefix := func(b []byte) bool { return !bytes.HasPrefix(input, b) }
		s := string(bgen.Filter(notPrefix).Draw(t, "s"))

		result, err := pbytes.MatchString(s)(gigaparsec.MakeState(cursor.NewSlice(input)))
		must.NoError(t, err)
		failed, consumed, _ := result.Failed()
		must.True(t, failed)
		test.False(t, consumed)
	}))
	t.Run("succeeds with correct value, consumption, and position", rapid.MakeCheck(func(t *rapid.T) {
		input := rapid.SliceOfN(rapid.Byte(), 1, 100).Draw(t, "input")
		slen := rapid.IntRange(0, len(input)).Draw(t, "slen")
		s := string(input[:slen])
		result, err := pbytes.MatchString(s)(gigaparsec.MakeState(cursor.NewSlice(input)))
		must.NoError(t, err)
		succeeded, consumed, value, next, _ := result.Succeeded()
		must.True(t, succeeded)
		test.True(t, consumed)
		test.EqOp(t, s, value)
		ptest.StateIsAt(t, next, uint64(slen))
	}))
}
Unlicens the code and add SPDX identifier to files 2024-09-18 22:28:53 +00:00			`// SPDX-License-Identifier: Unlicense`

Regexp parser needs tests 2024-09-10 22:50:14 +00:00			`package bytes_test`

Fix RuneReader breaking right before EOF 2024-09-18 02:48:38 +00:00			`import (`
Added MatchString 2024-09-24 17:53:32 +00:00			`"bytes"`
Fix RuneReader breaking right before EOF 2024-09-18 02:48:38 +00:00			`"testing"`

			`"git.codemonkeysoftware.net/b/gigaparsec"`
Added MatchString 2024-09-24 17:53:32 +00:00			`pbytes "git.codemonkeysoftware.net/b/gigaparsec/bytes"`
Fix RuneReader breaking right before EOF 2024-09-18 02:48:38 +00:00			`"git.codemonkeysoftware.net/b/gigaparsec/cursor"`
Added MatchString 2024-09-24 17:53:32 +00:00			`ptest "git.codemonkeysoftware.net/b/gigaparsec/test"`
			`pgen "git.codemonkeysoftware.net/b/gigaparsec/test/generator"`
Fix RuneReader breaking right before EOF 2024-09-18 02:48:38 +00:00			`"github.com/shoenig/test"`
			`"github.com/shoenig/test/must"`
			`"pgregory.net/rapid"`
			`)`
Regexp parser needs tests 2024-09-10 22:50:14 +00:00
			`func Todo(t *testing.T) {`
			`t.Fatalf("TODO")`
			`}`

			`func TestRegexp(t *testing.T) {`
Wrote down more details on needed Regexp tests 2024-09-11 00:45:08 +00:00			`t.Run("only searches the beginning of input", Todo)`
			`t.Run("position is correct after match", Todo)`
			`t.Run("fails on unexpected error", Todo)`
Fix RuneReader breaking right before EOF 2024-09-18 02:48:38 +00:00			`t.Run("returns a useful Got value", rapid.MakeCheck(func(t *rapid.T) {`

			`}))`
			`t.Run("basically works", func(t *testing.T) {`
Added MatchString 2024-09-24 17:53:32 +00:00			`result, err := pbytes.Regexp("a")(gigaparsec.MakeState(cursor.NewSlice([]byte("a"))))`
Fix RuneReader breaking right before EOF 2024-09-18 02:48:38 +00:00			`must.NoError(t, err)`
			`failed, _, msg := result.Failed()`
			`must.False(t, failed, must.Sprint(msg))`
			`succeeded, consumed, value, _, _ := result.Succeeded()`
			`test.True(t, succeeded)`
			`test.True(t, consumed)`
			`test.EqOp(t, "a", value)`
			`})`
Regexp parser needs tests 2024-09-10 22:50:14 +00:00			`}`
Move RuneReader into bytes package 2024-09-10 22:52:08 +00:00
			`func TestRuneReader(t *testing.T) {`
Fix RuneReader breaking right before EOF 2024-09-18 02:48:38 +00:00			`var s = []byte("abcdefghijklmnopqrstuvwxyz")`
Added MatchString 2024-09-24 17:53:32 +00:00			`rr := pbytes.NewRuneReader(cursor.NewSlice(s))`
Fix RuneReader breaking right before EOF 2024-09-18 02:48:38 +00:00			`for i, b := range s {`
			`r, n, err := rr.ReadRune()`
			`test.NoError(t, err)`
			`test.EqOp(t, 1, n)`
			`test.EqOp(t, r, rune(b))`
			`if t.Failed() {`
			`t.Fatalf("failed at %d", i)`
			`}`
			`}`
Move RuneReader into bytes package 2024-09-10 22:52:08 +00:00			`}`
Added MatchString 2024-09-24 17:53:32 +00:00
			`func TestMatchString(t *testing.T) {`
			`t.Run("fails on unexpected error", rapid.MakeCheck(func(t *rapid.T) {`
			`s := rapid.StringN(-1, -1, 100).Draw(t, "s")`
			`readErr := pgen.Error().Draw(t, "readErr")`
			`result, err := pbytes.MatchString(s)(gigaparsec.MakeState(cursor.NewReaderAt(ptest.ErrReaderAt(readErr))))`
			`test.ErrorIs(t, err, readErr)`
			`failed, consumed, _ := result.Failed()`
			`test.True(t, failed)`
			`test.False(t, consumed)`
			`}))`
			`t.Run("does not succeed or consume on mismatch", rapid.MakeCheck(func(t *rapid.T) {`
			`bgen := rapid.SliceOfN(rapid.Byte(), 1, 100)`
			`input := bgen.Draw(t, "input")`
			`notPrefix := func(b []byte) bool { return !bytes.HasPrefix(input, b) }`
			`s := string(bgen.Filter(notPrefix).Draw(t, "s"))`

			`result, err := pbytes.MatchString(s)(gigaparsec.MakeState(cursor.NewSlice(input)))`
			`must.NoError(t, err)`
			`failed, consumed, _ := result.Failed()`
			`must.True(t, failed)`
			`test.False(t, consumed)`
			`}))`
			`t.Run("succeeds with correct value, consumption, and position", rapid.MakeCheck(func(t *rapid.T) {`
			`input := rapid.SliceOfN(rapid.Byte(), 1, 100).Draw(t, "input")`
			`slen := rapid.IntRange(0, len(input)).Draw(t, "slen")`
			`s := string(input[:slen])`
			`result, err := pbytes.MatchString(s)(gigaparsec.MakeState(cursor.NewSlice(input)))`
			`must.NoError(t, err)`
			`succeeded, consumed, value, next, _ := result.Succeeded()`
			`must.True(t, succeeded)`
			`test.True(t, consumed)`
			`test.EqOp(t, s, value)`
			`ptest.StateIsAt(t, next, uint64(slen))`
			`}))`
			`}`