gigaparsec/cursor/cursor_test.go

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// SPDX-License-Identifier: Unlicense
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package cursor_test
import (
"bytes"
"io"
"testing"
"git.codemonkeysoftware.net/b/gigaparsec/cursor"
ptest "git.codemonkeysoftware.net/b/gigaparsec/test"
pgen "git.codemonkeysoftware.net/b/gigaparsec/test/generator"
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"github.com/shoenig/test"
"github.com/shoenig/test/must"
"pgregory.net/rapid"
)
func Todo(t *testing.T) {
t.Errorf("TODO")
}
func testCursor[C cursor.Cursor[byte]](t *testing.T, makeCursor func([]byte) C) {
t.Helper()
t.Run("cursor reads the same position every time", rapid.MakeCheck(func(t *rapid.T) {
data := rapid.SliceOfN(rapid.Byte(), 1, 100).Draw(t, "data")
dst := pgen.SliceOfNZero[byte](0, len(data)-1).Draw(t, "dst")
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expected := data[:len(dst)]
c := makeCursor(data)
_, next, err := c.Read(dst)
must.NoError(t, err)
must.SliceEqOp(t, expected, dst)
next.Read(dst)
_, _, err = c.Read(dst)
must.NoError(t, err)
must.SliceEqOp(t, expected, dst)
}))
t.Run("Read returns io.EOF iff it overruns source", rapid.MakeCheck(func(t *rapid.T) {
data := rapid.SliceOfN(rapid.Byte(), 0, 100).Draw(t, "data")
dst := pgen.SliceOfNZero[byte](0, 200).Draw(t, "dst")
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c := makeCursor(data)
n, _, err := c.Read(dst)
t.Logf("n=%d", n)
must.EqOp(t, min(len(data), len(dst)), int(n))
if len(dst) > len(data) || c.Pos() == uint64(len(data)) {
must.ErrorIs(t, err, io.EOF)
} else {
must.NoError(t, err)
}
}))
t.Run("next cursor reads next input", rapid.MakeCheck(func(t *rapid.T) {
const maxLen = 100
data := rapid.SliceOfN(rapid.Byte(), 1, maxLen).Draw(t, "data")
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skip := rapid.IntRange(0, len(data)-1).Draw(t, "skip")
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c := makeCursor(data)
_, next, err := c.Read(make([]byte, skip))
must.NoError(t, err)
must.EqOp(t, skip, int(next.Pos()))
dst := make([]byte, maxLen)
n, _, _ := next.Read(dst)
must.SliceEqOp(t, data[skip:skip+int(n)], dst[:n])
}))
t.Run("Read returns an error if n is less than requested", rapid.MakeCheck(func(t *rapid.T) {
data := rapid.SliceOfN(rapid.Byte(), 0, 100).Draw(t, "data")
c := makeCursor(data)
n, _, err := c.Read(make([]byte, len(data)+1))
test.ErrorIs(t, err, io.EOF)
test.EqOp(t, len(data), int(n))
}))
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t.Run("At sets cursor position", rapid.MakeCheck(func(t *rapid.T) {
data := rapid.SliceOfN(rapid.Byte(), 1, 100).Draw(t, "data")
pos := rapid.Uint64Range(0, uint64(len(data)-1)).Draw(t, "pos")
c := makeCursor(data).At(pos)
dst := make([]byte, 1)
n, _, err := c.Read(dst)
test.EqOp(t, 1, n)
test.NoError(t, err)
test.EqOp(t, data[pos], dst[0])
}))
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t.Run("Pos returns correct position after At", rapid.MakeCheck(func(t *rapid.T) {
var data []byte
pos := rapid.Uint64().Draw(t, "pos")
c := makeCursor(data).At(pos)
test.EqOp(t, pos, c.Pos())
}))
t.Run("Pos returns correct position after Read", rapid.MakeCheck(func(t *rapid.T) {
const maxLen = 100
data := rapid.SliceOfN(rapid.Byte(), 1, maxLen).Draw(t, "data")
skip := rapid.Uint64Range(0, uint64(len(data)-1)).Draw(t, "skip")
c := makeCursor(data)
_, next, err := c.Read(make([]byte, skip))
must.NoError(t, err)
test.EqOp(t, skip, next.Pos())
}))
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}
func TestReaderAtCursor(t *testing.T) {
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testCursor(t, func(b []byte) cursor.ReaderAtCursor[byte] {
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return cursor.NewReaderAt(bytes.NewReader(b))
})
t.Run("Read returns an error if the ReaderAt fails", rapid.MakeCheck(func(t *rapid.T) {
expectedErr := pgen.Error().Draw(t, "expectedErr")
startPos := rapid.Uint64().Draw(t, "startPos")
dst := pgen.SliceOfNZero[byte](0, 100).Draw(t, "dst")
c := cursor.NewReaderAt(ptest.ErrReaderAt(expectedErr)).At(startPos)
n, next, err := c.Read(dst)
test.ErrorIs(t, err, expectedErr)
test.EqOp(t, startPos, next.Pos())
test.Zero(t, n)
}))
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}