Replace lib/scriptsfig2pdftex.sh and fig2pstex.sh by their python version

git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@14265 a592a061-630c-0410-9148-cb99ea01b6c8
This commit is contained in:
Bo Peng 2006-06-29 15:30:22 +00:00
parent 9bf01f2b34
commit ad3a07c4f2
6 changed files with 159 additions and 182 deletions

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@ -882,8 +882,8 @@ dist_scripts_DATA = \
scripts/clean_dvi.py \
scripts/convertDefault.py \
scripts/fen2ascii.py \
scripts/fig2pdftex.sh \
scripts/fig2pstex.sh \
scripts/fig2pdftex.py \
scripts/fig2pstex.py \
scripts/fig_copy.py \
scripts/layout2layout.py \
scripts/legacy_lyxpreview2ppm.py \

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@ -391,8 +391,8 @@ def checkConverterEntries():
\converter date dateout "date +%d-%m-%Y > $$o" ""
\converter docbook docbook-xml "cp $$i $$o" "xml"
\converter fen asciichess "python $$s/scripts/fen2ascii.py $$i $$o" ""
\converter fig pdftex "sh $$s/scripts/fig2pdftex.sh $$i $$o" ""
\converter fig pstex "sh $$s/scripts/fig2pstex.sh $$i $$o" ""
\converter fig pdftex "python $$s/scripts/fig2pdftex.py $$i $$o" ""
\converter fig pstex "python $$s/scripts/fig2pstex.py $$i $$o" ""
\converter lyx lyx13x "python $$s/lyx2lyx/lyx2lyx -t 221 $$i > $$o" ""
''')

105
lib/scripts/fig2pdftex.py Normal file
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@ -0,0 +1,105 @@
#!/usr/bin/env python
# -*- coding: iso-8859-15 -*-
# file fig2pdf.py
# This file is part of LyX, the document processor.
# Licence details can be found in the file COPYING.
#
# \author Angus Leeming
# \author Bo Peng
#
# Full author contact details are available in file CREDITS
# This script converts an XFIG image to something that pdflatex can process
# into high quality PDF.
# Usage:
# python fig2pdftex.py ${base}.fig ${base}.pdft
# This command generates
# ${base}.pdf the converted pdf file
# ${base}.pdft a tex file that can be included in your latex document
# using '\input{${base}.pdft}'
#
# Note:
# Do not use this command as
# python fig2pdftex.py file.fig file.pdf
# the real pdf file will be overwritten by a tex file named file.pdf.
#
import os, sys, re
def runCommand(cmd):
''' Utility function:
run a command, quit if fails
'''
if os.system(cmd) != 0:
print "Command '%s' fails." % cmd
sys.exit(1)
# We expect two args, the names of the input and output files.
if len(sys.argv) != 3:
sys.exit(1)
input, output = sys.argv[1:]
# Fail silently if the file doesn't exist
if not os.path.isfile(input):
sys.exit(0)
# Strip the extension from ${output}
outbase = os.path.splitext(output)[0]
# Ascertain whether fig2dev is "modern enough".
# If it is, then the help info will mention "pdftex_t" as one of the
# available outputs.
fout = os.popen('fig2dev -h')
help_msg = fout.read()
fout.close()
if 'pdftex_t' in help_msg:
# Modern versions of xfig can output the image without "special" text as
# a PDF file ${base}.pdf and place the text in a LaTeX file
# ${base}.pdftex_t for typesetting by pdflatex itself.
runCommand('fig2dev -Lpdftex -p1 %s %s.pdf' % (input, outbase))
runCommand('fig2dev -Lpdftex_t -p%s %s %s' % (outbase, input, output))
else:
# Older versions of xfig cannot do this, so we emulate the behaviour using
# pstex and pstex_t output.
runCommand('fig2dev -Lpstex %s %s.pstex' % (input, outbase))
runCommand('fig2dev -Lpstex_t -p %s %s %s' % (outbase, input, output))
# manipulates the Bounding Box info to enable gs to produce
# the appropriate PDF file from an EPS one.
# The generated PostScript commands are extracted from epstopdf, distributed
# with tetex.
epsfile = outbase + '.pstex'
tmp = open(epsfile + '.??', 'w')
boundingboxline = re.compile('%%BoundingBox:\s+(\d*)\s+(\d*)\s+(\d*)\s+(\d*)')
for line in open(epsfile).xreadlines():
if line[:13] == '%%BoundingBox':
(llx, lly, urx, ury) = map(int, boundingboxline.search(line).groups())
width = urx - llx
height = ury - lly
xoffset = - llx
yoffset = - lly
tmp.write('''%%%%BoundingBox: 0 0 %d %d
<< /PageSize [%d %d] >> setpagedevice
gsave %d %d translate
''' % (width, height, width, height, xoffset, yoffset))
else:
tmp.write(line)
tmp.close()
# direct move(rename) may fail under windows
os.unlink(epsfile)
os.rename(epsfile + '.??', epsfile)
# Convert the ${pstex} EPS file (free of "special" text) to PDF format
# using gs
runCommand('gs -q -dNOPAUSE -dBATCH -dSAFER -sDEVICE=pdfwrite -sOutputFile=%s.pdf %s.pstex'\
% (outbase, outbase))
os.unlink(epsfile)

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@ -1,134 +0,0 @@
#! /bin/sh
# file fig2pdf.sh
# This file is part of LyX, the document processor.
# Licence details can be found in the file COPYING.
#
# author Angus Leeming
#
# Full author contact details are available in file CREDITS
# This script converts an XFIG image to something that pdflatex can process
# into high quality PDF.
# Usage: sh fig2pdf.sh ${base}.xfig
# to generate ${base}.pdftex_t
# Thereafter, you need only '\input{${base}.pdftex_t}' in your latex document.
# The external programs
FIG2DEV=fig2dev
# Used only by legacy_xfig
GS=gs
find_exe() {
test $# -eq 1 || exit 1
type $1 > /dev/null || {
echo "Unable to find \"$1\". Please install."
exit 1
}
}
# modern_xfig() and legacy_xfig() are the functions that do all the work.
# Modern versions of xfig can output the image without "special" text as
# a PDF file ${base}.pdf and place the text in a LaTeX file
# ${base}.pdftex_t for typesetting by pdflatex itself.
modern_xfig() {
# Can we find fig2dev?
find_exe ${FIG2DEV}
input=$1
pdftex_t=$2
pdftex=$3.pdf
${FIG2DEV} -Lpdftex -p1 ${input} ${pdftex}
${FIG2DEV} -Lpdftex_t -p${outbase} ${input} ${pdftex_t}
exit 0;
}
# This function is used only by legacy_xfig.
# It manipulates the Bounding Box info to enable gs to produce
# the appropriate PDF file from an EPS one.
# The generated PostScript commands are extracted from epstopdf, distributed
# with tetex.
clean_epsfile() {
test $# -eq 1 || exit 1
# No bounding box info
grep '%%BoundingBox' $1 > /dev/null || return 1;
bbox=`sed -n '/^%%BoundingBox/p' $1`
llx=`echo ${bbox} | cut -d' ' -f2`
lly=`echo ${bbox} | cut -d' ' -f3`
urx=`echo ${bbox} | cut -d' ' -f4`
ury=`echo ${bbox} | cut -d' ' -f5`
width=`expr $urx - $llx`
height=`expr $ury - $lly`
xoffset=`expr 0 - $llx`
yoffset=`expr 0 - $lly`
temp=$1.??
sed "/^%%BoundingBox/{
s/^\(%%BoundingBox:\).*/\1 0 0 ${width} ${height}\\
<< \/PageSize [${width} ${height}] >> setpagedevice\\
gsave ${xoffset} ${yoffset} translate/
}" $1 > $temp
mv -f $temp $1
}
# Older versions of xfig cannot do this, so we emulate the behaviour using
# pstex and pstex_t output.
legacy_xfig() {
# Can we find fig2dev and epstopdf?
find_exe ${FIG2DEV}
find_exe ${GS}
input=$1
pdftex_t=$2
pdf=$3.pdf
pstex=$3.pstex
${FIG2DEV} -Lpstex ${input} ${pstex}
${FIG2DEV} -Lpstex_t -p${outbase} ${input} ${pdftex_t}
# Convert the ${pstex} EPS file (free of "special" text) to PDF format
# using gs
clean_epsfile ${pstex}
${GS} -q -dNOPAUSE -dBATCH -dSAFER \
-sDEVICE=pdfwrite -sOutputFile=${pdf} ${pstex}
rm -f ${pstex}
exit 0;
}
# The main logic of the script is below.
# All it does is ascertain which of the two functions above to call.
# We expect two args, the names of the input and output files.
test $# -eq 2 || exit 1
input=$1
output=$2
# Fail silently if the file doesn't exist
test -r $input || exit 0
# Strip the extension from ${output}
outbase=`echo ${output} | sed 's/[.][^.]*$//'`
# Ascertain whether fig2dev is "modern enough".
# If it is, then the help info will mention "pdftex_t" as one of the
# available outputs.
CONVERT_IT=modern_xfig
${FIG2DEV} -h | grep 'pdftex_t' > /dev/null || CONVERT_IT=legacy_xfig
${CONVERT_IT} ${input} ${output} ${outbase}
# The end

50
lib/scripts/fig2pstex.py Normal file
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@ -0,0 +1,50 @@
#!/usr/bin/env python
# -*- coding: iso-8859-15 -*-
# file fig2pstex.py
# This file is part of LyX, the document processor.
# Licence details can be found in the file COPYING.
#
# \author Angus Leeming
# \author Bo Peng
#
# Full author contact details are available in file CREDITS
# This script converts an XFIG image to something that latex can process
# into high quality PostScript.
# Usage:
# python fig2pstex.py ${base}.fig ${base}.pstex
# This command generates
# ${base}.eps the converted eps file
# ${base}.pstex a tex file that can be included in your latex document
# using '\input{${output}}'.
#
# Note:
# Do not use this command as
# python fig2pstex.py file.fig file.eps
# the real eps file will be overwritten by a tex file named file.eps.
#
import os, sys
# We expect two args, the names of the input and output files.
if len(sys.argv) != 3:
sys.exit(1)
input, output = sys.argv[1:]
# Fail silently if the file doesn't exist
if not os.path.isfile(input):
sys.exit(0)
# Strip the extension from ${output}
outbase = os.path.splitext(output)[0]
# Generate the EPS file
# Generate the PSTEX_T file
if os.system('fig2dev -Lpstex %s %s.eps' % (input, outbase)) != 0 or \
os.system('fig2dev -Lpstex_t -p%s %s %s' % (outbase, input, output)) != 0:
print 'fig2dev fails'
sys.exit(1)

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@ -1,44 +0,0 @@
#! /bin/sh
# file fig2pstex.sh
# This file is part of LyX, the document processor.
# Licence details can be found in the file COPYING.
#
# author Angus Leeming
#
# Full author contact details are available in file CREDITS
# This script converts an XFIG image to something that latex can process
# into high quality PostScript.
# Usage: sh fig2pstex.sh ${input} ${output}
# to generate the pstex_t file ${output}.
# In turn this file will \includegraphics{${output_base}}.
# The necessary ${output_base}.eps is also generated by this script.
#
# Thereafter, you need only '\input{${output}}' in your latex document.
# We expect two args, the names of the input and output files.
test $# -eq 2 || exit 1
# Can we find fig2dev?
type fig2dev > /dev/null || exit 1
input=$1
output=$2
# Fail silently if the file doesn't exist
test -r $input || exit 0
# Strip the extension from ${output}
outbase=`echo ${output} | sed 's/[.][^.]*$//'`
# Generate the EPS file
outeps=${outbase}.eps
fig2dev -Lpstex ${input} ${outeps}
# Generate the PSTEX_T file
fig2dev -Lpstex_t -p${outbase} ${input} ${output}
# The end