mindoc/vendor/github.com/boombuler/barcode/aztec/highlevel_test.go

133 lines
4.8 KiB
Go

package aztec
import (
"bytes"
"strings"
"testing"
"github.com/boombuler/barcode/utils"
)
func bitStr(bl *utils.BitList) string {
buf := new(bytes.Buffer)
for i := 0; i < bl.Len(); i++ {
if bl.GetBit(i) {
buf.WriteRune('X')
} else {
buf.WriteRune('.')
}
}
return buf.String()
}
func testHighLevelEncodeString(t *testing.T, s, expectedBits string) {
bits := highlevelEncode([]byte(s))
result := bitStr(bits)
expectedBits = strings.Replace(expectedBits, " ", "", -1)
if result != expectedBits {
t.Errorf("invalid result for highlevelEncode(%q). Got:\n%s", s, result)
}
}
func testHighLevelEncodeStringCnt(t *testing.T, s string, expectedBitCnt int) {
bits := highlevelEncode([]byte(s))
if bits.Len() != expectedBitCnt {
t.Errorf("invalid result for highlevelEncode(%q). Got %d, expected %d bits", s, bits.Len(), expectedBitCnt)
}
}
func Test_HighLevelEncode(t *testing.T) {
testHighLevelEncodeString(t, "A. b.",
// 'A' P/S '. ' L/L b D/L '.'
"...X. ..... ...XX XXX.. ...XX XXXX. XX.X")
testHighLevelEncodeString(t, "Lorem ipsum.",
// 'L' L/L 'o' 'r' 'e' 'm' ' ' 'i' 'p' 's' 'u' 'm' D/L '.'
".XX.X XXX.. X.... X..XX ..XX. .XXX. ....X .X.X. X...X X.X.. X.XX. .XXX. XXXX. XX.X")
testHighLevelEncodeString(t, "Lo. Test 123.",
// 'L' L/L 'o' P/S '. ' U/S 'T' 'e' 's' 't' D/L ' ' '1' '2' '3' '.'
".XX.X XXX.. X.... ..... ...XX XXX.. X.X.X ..XX. X.X.. X.X.X XXXX. ...X ..XX .X.. .X.X XX.X")
testHighLevelEncodeString(t, "Lo...x",
// 'L' L/L 'o' D/L '.' '.' '.' U/L L/L 'x'
".XX.X XXX.. X.... XXXX. XX.X XX.X XX.X XXX. XXX.. XX..X")
testHighLevelEncodeString(t, ". x://abc/.",
//P/S '. ' L/L 'x' P/S ':' P/S '/' P/S '/' 'a' 'b' 'c' P/S '/' D/L '.'
"..... ...XX XXX.. XX..X ..... X.X.X ..... X.X.. ..... X.X.. ...X. ...XX ..X.. ..... X.X.. XXXX. XX.X")
// Uses Binary/Shift rather than Lower/Shift to save two bits.
testHighLevelEncodeString(t, "ABCdEFG",
//'A' 'B' 'C' B/S =1 'd' 'E' 'F' 'G'
"...X. ...XX ..X.. XXXXX ....X .XX..X.. ..XX. ..XXX .X...")
testHighLevelEncodeStringCnt(t,
// Found on an airline boarding pass. Several stretches of Binary shift are
// necessary to keep the bitcount so low.
"09 UAG ^160MEUCIQC0sYS/HpKxnBELR1uB85R20OoqqwFGa0q2uEi"+
"Ygh6utAIgLl1aBVM4EOTQtMQQYH9M2Z3Dp4qnA/fwWuQ+M8L3V8U=",
823)
}
func Test_HighLevelEncodeBinary(t *testing.T) {
// binary short form single byte
testHighLevelEncodeString(t, "N\u0000N",
// 'N' B/S =1 '\0' N
".XXXX XXXXX ....X ........ .XXXX") // Encode "N" in UPPER
testHighLevelEncodeString(t, "N\u0000n",
// 'N' B/S =2 '\0' 'n'
".XXXX XXXXX ...X. ........ .XX.XXX.") // Encode "n" in BINARY
// binary short form consecutive bytes
testHighLevelEncodeString(t, "N\x00\x80 A",
// 'N' B/S =2 '\0' \u0080 ' ' 'A'
".XXXX XXXXX ...X. ........ X....... ....X ...X.")
// binary skipping over single character
testHighLevelEncodeString(t, "\x00a\xFF\x80 A",
// B/S =4 '\0' 'a' '\3ff' '\200' ' ' 'A'
"XXXXX ..X.. ........ .XX....X XXXXXXXX X....... ....X ...X.")
// getting into binary mode from digit mode
testHighLevelEncodeString(t, "1234\u0000",
//D/L '1' '2' '3' '4' U/L B/S =1 \0
"XXXX. ..XX .X.. .X.X .XX. XXX. XXXXX ....X ........")
// Create a string in which every character requires binary
sb := new(bytes.Buffer)
for i := 0; i <= 3000; i++ {
sb.WriteByte(byte(128 + (i % 30)))
}
// Test the output generated by Binary/Switch, particularly near the
// places where the encoding changes: 31, 62, and 2047+31=2078
for _, i := range []int{1, 2, 3, 10, 29, 30, 31, 32, 33, 60, 61, 62, 63, 64, 2076, 2077, 2078, 2079, 2080, 2100} {
// This is the expected length of a binary string of length "i"
expectedLength := (8 * i)
switch {
case i <= 31:
expectedLength += 10
case i <= 62:
expectedLength += 20
case i <= 2078:
expectedLength += 21
default:
expectedLength += 31
}
data := string(sb.Bytes()[:i])
// Verify that we are correct about the length.
testHighLevelEncodeStringCnt(t, data, expectedLength)
if i != 1 && i != 32 && i != 2079 {
// The addition of an 'a' at the beginning or end gets merged into the binary code
// in those cases where adding another binary character only adds 8 or 9 bits to the result.
// So we exclude the border cases i=1,32,2079
// A lower case letter at the beginning will be merged into binary mode
testHighLevelEncodeStringCnt(t, "a"+string(sb.Bytes()[:i-1]), expectedLength)
// A lower case letter at the end will also be merged into binary mode
testHighLevelEncodeStringCnt(t, string(sb.Bytes()[:i-1])+"a", expectedLength)
}
// A lower case letter at both ends will enough to latch us into LOWER.
testHighLevelEncodeStringCnt(t, "a"+data+"b", expectedLength+15)
}
}