lyx_mirror/lib/scripts/lyxpreview2bitmap.sh

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#! /bin/sh
# file lyxpreview2bitmap.sh
# This file is part of LyX, the document processor.
# Licence details can be found in the file COPYING.
#
# author Angus Leeming
# with much advice from David Kastrup, david.kastrup@t-online.de.
#
# Full author contact details are available in file CREDITS
# This script takes a LaTeX file and generates bitmap image files,
# one per page.
# The idea is to use it with preview.sty from the preview-latex project
# (http://preview-latex.sourceforge.net/) to create small bitmap
# previews of things like math equations.
# preview.sty can be obtained from
# CTAN/macros/latex/contrib/supported/preview.
# This script takes three arguments:
# TEXFILE: the name of the .tex file to be converted.
# SCALEFACTOR: a scale factor, used to ascertain the resolution of the
# generated image which is then passed to gs.
# OUTPUTFORMAT: the format of the output bitmap image files.
# Two formats are recognised: "ppm" and "png".
# If successful, this script will leave in dir ${DIR}:
# a (possibly large) number of image files with names like
# ${BASE}\([0-9]*\).${SUFFIX} where SUFFIX is ppm or png.
# a file containing info needed by LyX to position the images correctly
# on the screen.
# ${BASE}.metrics
# All other files ${BASE}* will be deleted.
# A quick note on the choice of OUTPUTFORMAT:
# In general files in PPM format are 10-100 times larger than the
# equivalent files in PNG format. Larger files results in longer
# reading and writing times as well as greater disk usage.
# However, whilst the Qt image loader can load files in PNG format
# without difficulty, the xforms image loader cannot. They must first
# be converted to a loadable format (eg PPM!). Thus, previews will take
# longer to appear if the xforms loader is used to load snippets in
# PNG format.
# You can always experiment by adding a line to your
# ${LYXUSERDIR}/preferences file
# \converter lyxpreview ${FORMAT} "lyxpreview2bitmap.sh" ""
# where ${FORMAT} is either ppm or png.
# Three helper functions.
FIND_IT () {
which ${EXECUTABLE} > /dev/null
if [ $? -ne 0 ]; then
echo "Unable to find \"${EXECUTABLE}\". Please install."
exit 1
fi
}
BAIL_OUT () {
# Remove everything except the original .tex file.
FILES=`ls ${BASE}* | sed -e "/${BASE}.tex/d"`
rm -f ${FILES} texput.log
echo "Leaving ${BASE}.tex in ${DIR}"
exit 1
}
REQUIRED_VERSION () {
echo "We require preview.sty version 0.73 or newer. You're using"
grep 'Package: preview' ${LOGFILE}
}
# Preliminary check.
if [ $# -ne 3 ]; then
exit 1
fi
# Extract the params from the argument list.
DIR=`dirname $1`
BASE=`basename $1 .tex`
SCALEFACTOR=$2
if [ "$3" = "ppm" ]; then
GSDEVICE=pnmraw
GSSUFFIX=ppm
elif [ "$3" = "png" ]; then
GSDEVICE=png16m
GSSUFFIX=png
else
echo "Unrecognised output format ${OUTPUTFORMAT}."
echo "Expected either \"ppm\" or \"png\"."
BAIL_OUT
fi
# We use latex, dvips and gs, so check that they're all there.
EXECUTABLE=latex; FIND_IT
EXECUTABLE=dvips; FIND_IT
EXECUTABLE=gs; FIND_IT
# Initialise some variables.
TEXFILE=${BASE}.tex
LOGFILE=${BASE}.log
DVIFILE=${BASE}.dvi
PSFILE=${BASE}.ps
METRICSFILE=${BASE}.metrics
# LaTeX -> DVI.
cd ${DIR}
latex ${TEXFILE}
if [ $? -ne 0 ]; then
echo "Failed: latex ${TEXFILE}"
BAIL_OUT
fi
# Parse ${LOGFILE} to obtain bounding box info to output to
# ${METRICSFILE}.
# This extracts lines starting "Preview: Tightpage" and
# "Preview: Snippet".
grep -E 'Preview: [ST]' ${LOGFILE} > ${METRICSFILE}
if [ $? -ne 0 ]; then
echo "Failed: grep -E 'Preview: [ST]' ${LOGFILE}"
REQUIRED_VERSION
BAIL_OUT
fi
# Parse ${LOGFILE} to obtain ${RESOLUTION} for the gs process to follow.
# 1. Extract font size from a line like "Preview: Fontsize 20.74pt"
# Use grep for speed and because it gives an error if the line is
# not found.
LINE=`grep 'Preview: Fontsize' ${LOGFILE}`
if [ $? -ne 0 ]; then
echo "Failed: grep 'Preview: Fontsize' ${LOGFILE}"
REQUIRED_VERSION
BAIL_OUT
fi
# The sed script strips out everything that won't form a decimal number
# from the line. It bails out after the first match has been made in
# case there are multiple lines "Preview: Fontsize". (There shouldn't
# be.)
# Note: use "" quotes in the echo to preserve newlines.
LATEXFONT=`echo "${LINE}" | sed 's/[^0-9\.]//g; 1q'`
# 2. Extract magnification from a line like
# "Preview: Magnification 2074"
# If no such line found, default to MAGNIFICATION=1000.
LINE=`grep 'Preview: Magnification' ${LOGFILE}`
if [ $? -ne 0 ]; then
MAGNIFICATION=1000
else
# Strip out everything that won't form an /integer/.
MAGNIFICATION=`echo "${LINE}" | sed 's/[^0-9]//g; 1q'`
fi
# 3. Compute resolution.
# "bc" allows floating-point arithmetic, unlike "expr" or "dc".
RESOLUTION=`echo "scale=2; \
${SCALEFACTOR} * (10/${LATEXFONT}) * (1000/${MAGNIFICATION})" \
| bc`
# DVI -> PostScript
dvips -o ${PSFILE} ${DVIFILE}
if [ $? -ne 0 ]; then
echo "Failed: dvips -o ${PSFILE} ${DVIFILE}"
BAIL_OUT
fi
# PostScript -> Bitmap files
# Older versions of gs have problems with a large degree of
# anti-aliasing at high resolutions
# test expects integer arguments.
# ${RESOLUTION} may be a float. Truncate it.
INT_RESOLUTION=`echo "${RESOLUTION} / 1" | bc`
ALPHA=4
if [ ${INT_RESOLUTION} -gt 150 ]; then
ALPHA=2
fi
gs -q -dNOPAUSE -dBATCH -dSAFER \
-sDEVICE=${GSDEVICE} -sOutputFile=${BASE}%d.${GSSUFFIX} \
-dGraphicsAlphaBit=${ALPHA} -dTextAlphaBits=${ALPHA} \
-r${RESOLUTION} ${PSFILE}
if [ $? -ne 0 ]; then
echo "Failed: gs ${PSFILE}"
BAIL_OUT
fi
# All has been successful, so remove everything except the bitmap files
# and the metrics file.
FILES=`ls ${BASE}* | sed -e "/${BASE}.metrics/d" \
-e "/${BASE}\([0-9]*\).${GSSUFFIX}/d"`
rm -f ${FILES} texput.log
# The bitmap files can have large amounts of whitespace to the left and
# right. This can be cropped if so desired.
CROP=1
which pnmcrop > /dev/null
if [ $? -ne 0 ]; then
CROP=0
fi
# There's no point cropping the image if using PNG images. If you want to
# crop, use PPM.
# Apparently dvipng will support cropping at some stage in the future...
if [ ${CROP} -eq 1 -a "${GSDEVICE}" = "pnmraw" ]; then
for FILE in ${BASE}*.${GSSUFFIX}
do
pnmcrop -left ${FILE} | pnmcrop -right ${FILE} > ${BASE}.tmp
if [ $? -eq 0 ]; then
mv ${BASE}.tmp ${FILE}
else
rm -f ${BASE}.tmp
fi
done
rm -f ${BASE}.tmp
fi