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Easy binary data manipulation. Support binary encoding-decoding with matching and condition guards. Implements the subset of Erlang bit syntax.




No requiremtents.


Basic syntax description

(bitmatch binary-data
 ((pattern ...) expression)
 (else expression))

 pattern ...)

Patterns description

Read byte from stream and bind to varaible NAME or compare with immediate value if name not a symbol name. Supported immediate values types: integer char string
Read n-BITS big endian unsigned integer, bind-or-compare to NAME.
(NAME BITS big signed)
(NAME BITS big unsigned)
(NAME BITS little)
Read n-BITS little endian unsigned integer, bind-or-compare to NAME.
(NAME BITS little signed)
(NAME BITS little unsigned)
(NAME BITS host)
Read n-BITS unsigned integer using system byte-order, bind-or-compare to NAME.
(NAME BITS host signed)
(NAME BITS host unsigned)
(NAME 16 float)
Read ieee-754 floating point half-precision, bind-or-compare to NAME.
(NAME 32 float)
Read ieee-754 floating point single precision, bind-or-compare to NAME.
(NAME float)
Read single precision floating point, bind-or-compare to NAME.
(NAME double)
Read double precision floating point, bind-or-compare to NAME.
(NAME BITS bitstring)
Read raw BITS from stream, bind-or-compare to NAME.
(NAME bitstring)
Greedy read, consume all available bits.
Empty bitstring
(PACKET-NAME bitpacket)
Read a packet defined by the (bitpacket PACKET-NAME ...) declaration. Bind each packet field to current lexical scope. !!! bitpacket is an experimental feature !!!
user guard EXPRESSION. Matching will continue only when this evaluates to a true value.

Matching inputs against bit patterns

[syntax] (bitmatch binary-data patterns-list else-guard)

Constructing bitstrings from input based on bit patterns

[syntax] (bitconstruct pattern)
((EXPRESSION ...) bitstring)
EXPRESSION should evaluate to bitstring during constructing.

Defining custom bitstring forms

[syntax] (bitpacket PACKET-NAME fields ...)

Define well-known set of fields. Fields syntax the same as bitmatch pattern syntax.

Dealing with bitstring objects

Bitstring objects represent strings of bits of arbitrary length. This means they can store any number of unaligned bits, rather like bitfields in C. Bitfields can also share memory with other bitfields, which means you can easily create sub-bitstrings from other bitstrings.

[procedure] (bitstring=? bitstring1 bitstring2)

Compare bitstrings.

[procedure] (bitstring->list bitstring [bits [little-endian]])

Convert bitstring to list of bits.

Optional group bits, default value 1, indicates how many bits each entry in the list should span. For example, to see the contents grouped by octet, use 8 here.

Optional little-endian when #t little-endian otherwise #f big-endian, default value #f. This has an effect only if bit is larger than 8.

[procedure] (bitstring? obj)

Returns #t or #f depending on whether obj is a bitstring or another type of object.

[procedure] (bitstring-length bitstring)

Return length of the bitstring in bits.

[procedure] (bitstring-append bitstring1 bitstring2)

Concatenate bitstrings.

[procedure] (bitstring-append! dest-bitstring src-bitstring)

Concatenate bitstrings, and store result into dest-bitstring.

[procedure] (bitstring-of-any obj)

Construct bitstring from arbitrary object.


; Example 1. Tagged data structure.
; struct Tagged {
;  enum { IntegerType = 1, FloatType = 2 };
;  unsigned char Tag; // integer type = 1, float type = 2
;  union {
;   unsigned int IValue;
;   float FValue;
;  };
; };

(use bitstring)

; The following will print "integer:3721182122",
; which is the decimal value of #xDDCCBBAA
(bitmatch "\x01\xAA\xBB\xCC\xDD"
  (((#x01) (IValue 32 little))
      (print "integer:" IValue))
  (((#x02) (FValue 32 float))
      (print "float:" FValue)))

; Example 2. Fixed length string. 
; struct FixedString {
;  short Length; // length of StringData array
;  char StringData[0];
; };

(use bitstring)

; This will print "StringData:(65 66 67 68 69)"
; First it reads the length byte of 5, bind it to Length and
; then it will read a bit string with a length of that many octets.
(bitmatch "\x05\x00ABCDE"
  (((Length 16 little)
    (StringData (* 8 Length) bitstring))
      (print "StringData:" (bitstring->list StringData 8)))
      (print "invalid string")))

; Example 3. IP packet parsing. 

(use bitstring srfi-4)

(define IPRaw `#u8( #x45 #x00 #x00 #x6c
        #x92 #xcc #x00 #x00
        #x38 #x06 #x00 #x00
        #x92 #x95 #xba #x14
        #xa9 #x7c #x15 #x95 ))

(bitmatch IPRaw
  (((Version 4)
    (IHL 4)
    (TOS 8)
    (TL 16)
    (Identification 16)
    (Reserved 1) (DF 1) (MF 1)
    (FramgentOffset 13)
    (TTL 8)
    (Protocol 8) (check (or (= Protocol 1)
                            (= Protocol 2)
                            (= Protocol 6)
                            (= Protocol 17))) 
    (CheckSum 16)
    (SourceAddr 32 bitstring)
    (DestinationAddr 32 bitstring)
    (Optional bitstring))
      ; print packet filds
      (print "\n Version: " Version
             "\n IHL: " IHL
             "\n TOS: " TOS
             "\n TL:  " TL
             "\n Identification: " Identification
             "\n DF: " DF
             "\n MF: " MF
             "\n FramgentOffset: " FramgentOffset
             "\n Protocol: " Protocol
             "\n CheckSum: " CheckSum
             "\n SourceAddr: " 
                 (bitmatch SourceAddr (((A)(B)(C)(D)) (list A B C D)))
               "\n DestinationAddr: " 
                   (bitmatch DestinationAddr (((A)(B)(C)(D)) (list A B C D)))))
    (print "bad datagram")))

; Example 3.1 Using bitconstruct.

(define (construct-fixed-string str)
    ((string-length str) 16) (str bitstring) ))

; The following will print "#t".  First, it reads a 16-bit number length
; and compares it to the immediate value of 7.  Then it will read a
; string and compare it to the immediate value of "qwerty.".  If there
; was any remaining data in the string, it would fail.
(bitmatch (construct-fixed-string "qwerty.")
  (((7 16) ("qwerty."))
    (print #t))
    (print #f)))

; Example 3.2 Concatenating bitstrings.

(define (construct-complex-object)
    ((construct-fixed-string "A") bitstring)
    (#xAABB 16)
    ((construct-fixed-string "RRR") bitstring)

(print (construct-complex-object))

; Basic TGA image parser.
; Support True-Image type format and Run-Length-Encoding compression.
; Full Source:
; WARNING!!! bitpacket feature is experimental !!!
(use bitstring posix srfi-4)

(bitpacket TGA-Header
  (ID-length 8)
  (ColorMapType 8)
  (ImageType 8)
  (TGA-ColorMapSpec bitpacket)
  (TGA-ImageSpec bitpacket))

(bitpacket TGA-ColorMapSpec
  (FirstEntryIndex 16 little)
  (ColorMapLength 16 little)
  (ColorMapEntrySize 8))

(bitpacket TGA-ImageSpec
  (X-Origin 16 little)
  (Y-Origin 16 little)
  (ImageWidth 16 little)
  (ImageHeight 16 little)
  (PixelDepth 8)
  (ImageTransferOrder 2)
  (#x00 2) ; reserved
  (AttributesBitsPerPixel 4))

(define (bitstring->blob bs)
  (u8vector->blob (list->u8vector (bitstring->list bs))))

(define (parse-tga file file-out)
  (let* ((fi (file-open file (+ open/rdonly open/binary)))
         (fo (file-open file-out (+ open/write open/creat open/trunc open/binary)))
         (size (file-size fi))
         (res (file-read fi size))
         (data (car res)))
    (bitmatch data
      ; True-Color uncompressed
      (((TGA-Header bitpacket)
      	(check (and (= 0 ColorMapType) (= 2 ImageType)))
      	(ID-data ID-length bitstring)
        (Image-data (* ImageWidth ImageHeight PixelDepth) bitstring)
        (Rest-data bitstring))
        	  (print "True-Color uncompressed")
        	  (print ImageWidth "x" ImageHeight "x" PixelDepth)
        	    (lambda (color)
        	      (file-write fo (bitstring->blob color)))
        	    PixelDepth Image-data)))
      ; True-Color compressed
      (((TGA-Header bitpacket)
      	(check (and (= 0 ColorMapType) (= 10 ImageType)))
      	(ID-data ID-length bitstring)
      	(Image-data bitstring))
      		  (print "True-Color compressed")
      		  (print ImageWidth "x" ImageHeight "x" PixelDepth)
        	      (lambda (color)
        	      	(file-write fo (bitstring->blob color)))
        	      PixelDepth Image-data))))))

(define (parse-image-uncompressed func depth image)
  (bitmatch image
    (((Color depth bitstring) (Rest bitstring))
      	(func Color)
      	(parse-image-uncompressed func depth Rest)))))

(define (parse-image-compressed func depth image)
  (bitmatch image
    (((1 1) (Count 7) (Color depth bitstring) (Rest bitstring))
      	(let loop ((i 0))
	  (func Color)
	  (if (< i Count)
	    (loop (+ i 1))
	    (parse-image-compressed func depth Rest))))
    (((0 1) (Count 7) (RAW-data (* depth (+ Count 1)) bitstring) (Rest bitstring))
      	  (parse-image-uncompressed func depth RAW-data)
      	  (parse-image-compressed func depth Rest)))))

; Convert images to raw pixels 
(parse-tga "tests/24compressed.tga" "tests/24c.raw")
(parse-tga "tests/24uncompressed.tga" "tests/24u.raw")




Bitstring is maintained in a hg bitbucket repository.

Version History

1.0 introduce bitstring-append, bitstring-append! fixed bug in bitstring-append size calculation (sjamaan) native "host" endian byteorder (sjamaan) signed/unsigned integer attributes


Restore (check EXPRESSION) syntax, cause this is not same as matchable (?) bytestring? function check if string is byte aligned. bytestring-fold helper function.

0.4 Multiline user expressions. Bitconstruct now accept only single pattern. "bitstring-compare" renamed to "bitstring=?". Optimized immidiate value macro expansion. (check EXPRESSION) guard renamed to (? EXPRESSION).

0.3 install bugfixes

0.2 introduce bitconstruct

0.1 first public release /procedure