From ezaikonnikov at common-lisp.net Fri Feb 23 23:48:36 2007 From: ezaikonnikov at common-lisp.net (ezaikonnikov) Date: Fri, 23 Feb 2007 18:48:36 -0500 (EST) Subject: [cl-jpeg-cvs] CVS cljl/ Message-ID: <20070223234836.2D5D32D01D@common-lisp.net> Update of /project/cl-jpeg/cvsroot/cljl/ In directory clnet:/tmp/cvs-serv23338 Log Message: Import from SF, ver 1.033 Status: Vendor Tag: cljl Release Tags: v1 N cljl//LICENSE N cljl//cl-jpeg.asd N cljl//jpeg.lisp N cljl//debian/README.Debian N cljl//debian/changelog N cljl//debian/control N cljl//debian/copyright N cljl//debian/postinst N cljl//debian/prerm N cljl//debian/rules No conflicts created by this import From ezaikonnikov at common-lisp.net Sat Feb 24 00:00:14 2007 From: ezaikonnikov at common-lisp.net (ezaikonnikov) Date: Fri, 23 Feb 2007 19:00:14 -0500 (EST) Subject: [cl-jpeg-cvs] CVS cljl Message-ID: <20070224000014.D07A97E0ED@common-lisp.net> Update of /project/cl-jpeg/cvsroot/cljl In directory clnet:/tmp/cvs-serv25374 Modified Files: jpeg.lisp Log Message: pending patch applied --- /project/cl-jpeg/cvsroot/cljl/jpeg.lisp 2007/02/23 23:48:36 1.1.1.1 +++ /project/cl-jpeg/cvsroot/cljl/jpeg.lisp 2007/02/24 00:00:12 1.2 @@ -1,6 +1,6 @@ ;; -*- Mode: LISP; Package: (JPEG :use (common-lisp)) -*- ;;; Generic Common Lisp JPEG encoder/decoder implementation -;;; $Id: jpeg.lisp,v 1.1.1.1 2007/02/23 23:48:36 ezaikonnikov Exp $ +;;; $Id: jpeg.lisp,v 1.2 2007/02/24 00:00:12 ezaikonnikov Exp $ ;;; Version 1.022, June 1999. ;;; Written by Eugene Zaikonnikov [viking at funcall.org] ;;; Copyright [c] 1999, Eugene Zaikonnikov @@ -59,11 +59,14 @@ ;;; to the Independent JPEG Group - colorspace conversion and DCT algorithms were adopted from their sources; ;;; to Jeff Dalton for his wise paper "Common Lisp Pitfalls". -(defpackage #:jpeg (:use #:common-lisp)) -(in-package #:jpeg) +(defpackage #:jpeg + (:use #:common-lisp) + (:export #:encode-image + #:decode-stream + #:decode-image + #:jpeg-to-bmp)) -(eval-when (compile) - (export '(encode-image decode-image jpeg-to-bmp))) +(in-package #:jpeg) (declaim (inline csize write-stuffed quantize get-average zigzag encode-block llm-dct descale crunch colorspace-convert subsample inverse-llm-dct dequantize upsample extend recieve decode-ac decode-dc decode-block izigzag write-bits)) @@ -651,7 +654,7 @@ ;;; Function that maps value into SSSS (defun csize (n) - (declare #.*optimize* (type fixnum n val LSB MSB)) + (declare #.*optimize* (type fixnum n)) (svref *csize* (plus n 1023))) ;;; zigzag ordering @@ -731,7 +734,7 @@ ;;; Encodes block using specified huffman tables, returns new pred (DC prediction value) ;;; and last code written to stream for padding (defun encode-block (block tables pred s) - (declare #.*optimize* (type fixnum pred newpred diff dcpos) + (declare #.*optimize* (type fixnum pred) (type (simple-vector *) block)) (let* ((ehufsi-dc (first (first tables))) (ehufco-dc (second (first tables))) @@ -740,7 +743,7 @@ (newpred (svref block 0)) (diff (minus newpred pred)) (dcpos (csize diff))) - (declare (type fixnum pred newpred diff pos) + (declare (type fixnum pred newpred diff dcpos) (dynamic-extent diff dcpos)) ;; writing dc code first (write-bits (svref ehufco-dc dcpos) (svref ehufsi-dc dcpos) s) @@ -1589,25 +1592,31 @@ (when (= (descriptor-ncomp image) 3) (inverse-colorspace-convert image)))) +(defun decode-stream (stream) + (unless (= (read-marker stream) *M_SOI*) + (error "Unrecognized JPEG format")) + (let* ((image (make-descriptor)) + (marker (interpret-markers image 0 stream))) + (cond ((= *M_SOF0* marker) (decode-frame image stream) + (values (descriptor-buffer image) + (descriptor-height image) + (descriptor-width image) + (descriptor-ncomp image))) + (t (error "Unsupported JPEG format"))))) + ;;; Top level decoder function (defun decode-image (filename) - (with-open-file - (s filename :direction :input :element-type 'unsigned-byte) - (unless (= (read-marker s) *M_SOI*) - (error "Unrecognized JPEG format")) - (let* ((image (make-descriptor)) - (marker (interpret-markers image 0 s))) - (cond ((= *M_SOF0* marker) (decode-frame image s) - (values (descriptor-buffer image) (descriptor-height image) (descriptor-width image))) - (t (error "Unsupported JPEG format")))))) + (with-open-file (in filename :direction :input :element-type 'unsigned-byte) + (decode-stream in))) + ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; -;;; Here's some useful routines +;;; Here are some useful routines ;;; Produces outfile (Windows 24-bit bitmap) from a JPEG infile (defun jpeg-to-bmp (&key infile outfile) (with-open-file (o outfile :direction :output :element-type 'unsigned-byte) - (multiple-value-bind (rgb h w) + (multiple-value-bind (rgb h w number-components) (decode-image infile) (let* ((compl (rem w 4)) (len (+ 54 (* h w 3) (mul compl h)))) @@ -1644,15 +1653,25 @@ (write-byte 24 o) ;bitcount, 24-bit BMP (write-byte 0 o) (write-sequence (make-array 24 :initial-element 0 :element-type 'unsigned-byte) o) ;the rest of header - (loop for y fixnum from (1- h) downto 0 - for ypos fixnum = (* y 3 w) do - (loop for x fixnum from ypos to (plus ypos (* (1- w) 3)) by 3 do - (write-byte (the unsigned-byte (svref rgb x)) o) - (write-byte (the unsigned-byte (svref rgb (1+ x))) o) - (write-byte (the unsigned-byte (svref rgb (plus 2 x))) o)) - (loop for i fixnum from 0 below compl do ;adjusting to double-word - (write-byte 0 o))))))) - + (ecase number-components + (1 + (loop :for y :from (1- h) :downto 0 :do + (loop :for x :from (1- w) :downto 0 :do + (let ((grey (svref rgb (+ x (* y w))))) + (write-byte grey o) + (write-byte grey o) + (write-byte grey o))) + (dotimes (i compl) + (write-byte 0 o)))) + (3 + (loop for y fixnum from (1- h) downto 0 + for ypos fixnum = (* y 3 w) do + (loop for x fixnum from ypos to (plus ypos (* (1- w) 3)) by 3 do + (write-byte (the unsigned-byte (svref rgb x)) o) + (write-byte (the unsigned-byte (svref rgb (1+ x))) o) + (write-byte (the unsigned-byte (svref rgb (plus 2 x))) o)) + (loop for i fixnum from 0 below compl do ;adjusting to double-word + (write-byte 0 o))))))))) ;;; Provides simple user interface for encoder: quality may vary 1 to 5 (decreasing)