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|
# \setuplayout[width=3cm]
#
# tex.setup.setuplayout.width.[integer|real|dimension|string|key]
# tex.[mp]var.whatever.width.[integer|real|dimension|string|key]
require 'fileutils'
# require 'ftools'
require 'digest/md5'
# this can become a lua thing
# no .*? but 0-9a-z\:\. because other too slow (and greedy)
class Hash
def subset(pattern)
h = Hash.new
r = /^#{pattern.gsub('.','\.')}/
self.keys.each do |k|
h[k] = self[k].dup if k =~ r
end
return h
end
end
module ExaEncrypt
def ExaEncrypt.encrypt_base(logger, oldfilename, newfilename)
if FileTest.file?(oldfilename) then
logger.report("checking #{oldfilename}") if logger
if data = IO.read(oldfilename) then
done = false
# cfg file:
#
# banner : exa configuration file
# user : domain, name = password, projectlist
#
if data =~ /^\s*banner\s*\:\s*exa\s*configuration\s*file/ then
data.gsub!(/^(\s*user\s*\:\s*.+?\s*\,\s*.+?\s*\=\s*)(.+?)(\s*\,\s*.+\s*)$/) do
pre, password, post = $1, $2, $3
unless password =~ /MD5:/i then
done = true
password = "MD5:" + Digest::MD5.hexdigest(password).upcase
end
"#{pre}#{password}#{post}"
end
else
data.gsub!(/<exa:password([^>]*?)>(.*?)<\/exa:password>/moi) do
attributes, password = $1, $2
unless password =~ /^([0-9A-F][0-9A-F])+$/ then
done = true
password = Digest::MD5.hexdigest(password).upcase
attributes = " encryption='md5'#{attributes}"
end
"<exa:password#{attributes}>#{password}</exa:password>"
end
end
begin
File.open(newfilename,'w') do |f|
f.puts(data)
end
rescue
logger.report("#{newfilename} cannot be written") if logger
else
logger.report("#{oldfilename} encrypted into #{newfilename}") if done and logger
end
end
end
end
end
module ExaModes
@@modefile = 'examodes.tex'
@@request = /(<exa:request.*?)(>.*?<\/exa:request>)/mo
@@redone = /<exa:request[^>]*?texified=([\'\"])yes\1.*?>/mo
@@reload = /<(exa:variable)([^>]+?label\=)([\"\'])([0-9A-Za-z\-\.\:]+?)(\3[^\/]*?)>(.*?)<(\/exa:variable)>/mo
@@recalc = /<(exa:variable)([^>]+?label\=)([\"\'])([0-9A-Za-z\-\.\:]+?)([\.\:]calcmath)(\3[^\/]*?)>(.*?)<(\/exa:variable)>/mo
@@rename = /<(exa:variable)([^>]+?label\=)([\"\'])([0-9A-Za-z\-\.\:]+?)(\3[^\/]*?)>(.*?)<(\/exa:variable)>/mo
@@refile = /<(exa:filename|exa:filelist)>(.*?)<(\/\1)>/mo
def ExaModes.cleanup_request(logger,filename='request.exa',modefile=@@modefile)
begin File.delete(filename+'.raw') ; rescue ; end
begin File.delete(modefile) ; rescue ; end
if FileTest.file?(filename) then
data, done = nil, false
begin
data = IO.read(filename)
rescue
data = nil
end
if data =~ @@request and data !~ @@redone then
data.gsub!(@@rename) do
done = true
'<' + $1 + $2 + $3 + $4 + $5 + '>' +
texifiedstr($4,$6) +
'<' + $7 + '>'
end
data.gsub!(@@refile) do
done = true
'<' + $1 + '>' +
cleanpath($2) +
'<' + $3 + '>'
end
data.gsub!(@@recalc) do
done = true
'<' + $1 + $2 + $3 + $4 + ":raw" + $6 + '>' + $7 + '<' + $8 + '>' +
'<' + $1 + $2 + $3 + $4 + $6 + '>' +
calculatortexmath($7,false) +
'<' + $8 + '>'
end
if done then
data.gsub!(@@request) do
$1 + " texified='yes'" + $2
end
begin File.copy(filename, filename+'.raw') ; rescue ; end
begin
logger.report("rewriting #{filename}") if logger
File.open(filename,'w') do |f|
f.puts(data)
end
rescue
logger.report("#{filename} cannot be rewritten") if logger
end
end
else
logger.report("#{filename} is already ok") if logger
end
@variables = Hash.new
data.scan(@@reload) do
@variables[$4] = $5
end
vars = @variables.subset('data.tex.var')
mpvars = @variables.subset('data.tex.mpvar')
modes = @variables.subset('data.tex.mode')
setups = @variables.subset('data.tex.setup')
if not (modes.empty? and setups.empty? and vars.empty? and mpvars.empty?) then
begin
File.open(modefile,'w') do |mod|
logger.report("saving modes and setups in #{modefile}") if logger
if not modes.empty? then
for key in modes.keys do
k = key.dup
k.gsub!(/\./,'-')
mod.puts("\\enablemode[#{k}-#{modes[key]}]\n")
if modes[key] =~ /(on|yes|start)/o then # ! ! ! ! !
mod.puts("\\enablemode[#{k}]\n")
end
end
mod.puts("\n\\readfile{cont-mod}{}{}\n")
end
if not setups.empty? then
for key in setups.keys
if key =~ /^(.+?)\.(.+?)\.(.+?)$/o then
command, key, type, value = $1, $2, $3, setups[key]
value = cleanedup(key,type,value)
mod.puts("\\#{$1}[#{key}=#{value}]\n")
elsif key =~ /^(.+?)\.(.+?)$/o then
command, type, value = $1, $2, setups[key]
mod.puts("\\#{$1}[#{value}]\n")
end
end
end
savevaroptions(vars, 'setvariables', mod)
savevaroptions(mpvars,'setMPvariables',mod)
end
rescue
logger.report("#{modefile} cannot be saved") if logger
end
else
logger.report("#{modefile} is not created") if logger
end
end
end
private
def ExaModes.autoparenthesis(str)
if str =~ /[\+\-]/o then '[1]' + str + '[1]' else str end
end
def ExaModes.cleanedup(key,type,value)
if type == 'dimension' then
unless value =~ /(cm|mm|in|bp|sp|pt|dd|em|ex)/o
value + 'pt'
else
value
end
elsif type == 'calcmath' then
'{' + calculatortexmath(value,true) + '}'
elsif type =~ /^filename|filelist$/ or key =~ /^filename|filelist$/ then
cleanpath(value)
else
value
end
end
def ExaModes.cleanpath(str)
(str ||'').gsub(/\\/o,'/')
end
def ExaModes.texifiedstr(key,val)
case key
when 'filename' then
cleanpath(val)
when 'filelist' then
cleanpath(val)
else
val
end
end
def ExaModes.savevaroptions(vars,setvariables,mod)
if not vars.empty? then
for key in vars.keys do
# var.whatever.width.dimension.value
if key =~ /^(.+?)\.(.+?)\.(.+?)$/o then
tag, key, type, value = $1, $2, $3, vars[key]
value = cleanedup(key,type,value)
mod.puts("\\#{setvariables}[#{tag}][#{key}=#{value}]\n")
elsif key =~ /^(.+?)\.(.+?)$/o then
tag, key, value = $1, $2, vars[key]
mod.puts("\\#{setvariables}[#{tag}][#{key}=#{value}]\n")
end
end
end
end
def ExaModes.calculatortexmath(str,tx=true)
if tx then
bdisp, edisp = "\\displaymath\{", "\}"
binln, einln = "\\inlinemath\{" , "\}"
egraf = "\\endgraf"
else
bdisp, edisp = "<displaytexmath>", "</displaytexmath>"
binln, einln = "<inlinetexmath>" , "</inlinetexmath>"
egraf = "<p/>"
end
str.gsub!(/\n\s*\n+/moi, "\\ENDGRAF ")
str.gsub!(/(\[\[)\s*(.*?)\s*(\]\])/mos) do
$1 + docalculatortexmath($2) + $3
end
str.gsub!(/(\\ENDGRAF)+\s*(\[\[)\s*(.*?)\s*(\]\])/moi) do
$1 + bdisp + $3 + edisp
end
str.gsub!(/(\[\[)\s*(.*?)\s*(\]\])/o) do
binln + $2 + einln
end
str.gsub!(/\\ENDGRAF/mos, egraf)
str
end
def ExaModes.docalculatortexmath(str)
str.gsub!(/\n/o) { ' ' }
str.gsub!(/\s+/o) { ' ' }
str.gsub!(/>/o) { '>' }
str.gsub!(/</o) { '<' }
str.gsub!(/&.*?;/o) { }
level = 0
str.gsub!(/([\(\)])/o) do |chr|
if chr == '(' then
level = level + 1
chr = '[' + level.to_s + ']'
elsif chr == ')' then
chr = '[' + level.to_s + ']'
level = level - 1
end
chr
end
# ...E...
loop do
break unless str.gsub!(/([\d\.]+)E([\-\+]{0,1}[\d\.]+)/o) do
"\{\\SCINOT\{#{$1}\}\{#{$2}\}\}"
end
end
# ^-..
loop do
break unless str.gsub!(/\^([\-\+]*\d+)/o) do
"\^\{#{$1}\}"
end
end
# ^(...)
loop do
break unless str.gsub!(/\^(\[\d+\])(.*?)\1/o) do
"\^\{#{$2}\}"
end
end
# 1/x^2
loop do
break unless str.gsub!(/([\d\w\.]+)\/([\d\w\.]+)\^([\d\w\.]+)/o) do
"@\{#{$1}\}\{#{$2}\^\{#{$3}\}\}"
end
end
# int(a,b,c)
loop do
break unless str.gsub!(/(int|sum|prod)(\[\d+\])(.*?),(.*?),(.*?)\2/o) do
"\\#{$1.upcase}\^\{#{$4}\}\_\{#{$5}\}\{#{autoparenthesis($3)}\}"
end
end
# int(a,b)
loop do
break unless str.gsub!(/(int|sum|prod)(\[\d+\])(.*?),(.*?)\2/o) do
"\\#{$1.upcase}\_\{#{$4}\}\{#{autoparenthesis($3)}\}"
end
end
# int(a)
loop do
break unless str.gsub!(/(int|sum|prod)(\[\d+\])(.*?)\2/o) do
"\\#{$1.upcase}\{#{autoparenthesis($3)}\}"
end
end
# sin(x) => {\sin(x)}
loop do
break unless str.gsub!(/(median|min|max|round|sqrt|sin|cos|tan|sinh|cosh|tanh|ln|log)\s*(\[\d+\])(.*?)\2/o) do
"\{\\#{$1.upcase}\{#{$2}#{$3}#{$2}\}\}"
end
end
# mean
str.gsub!(/(mean)(\[\d+\])(.*?)\2/o) do
"\{\\OVERLINE\{#{$3}\}\}"
end
# sin x => {\sin(x)}
# ...
# (1+x)/(1+x) => \frac{1+x}{1+x}
loop do
break unless str.gsub!(/(\[\d+\])(.*?)\1\/(\[\d+\])(.*?)\3/o) do
"@\{#{$2}\}\{#{$4}\}"
end
end
# (1+x)/x => \frac{1+x}{x}
loop do
break unless str.gsub!(/(\[\d+\])(.*?)\1\/([a-zA-Z0-9]+)/o) do
"@\{#{$2}\}\{#{$3}\}"
end
end
# 1/(1+x) => \frac{1}{1+x}
loop do
break unless str.gsub!(/([a-zA-Z0-9]+)\/(\[\d+\])(.*?)\2/o) do
"@\{#{$1}\}\{#{$3}\}"
end
end
# 1/x => \frac{1}{x}
loop do
break unless str.gsub!(/([a-zA-Z0-9]+)\/([a-zA-Z0-9]+)/o) do
"@\{#{$1}\}\{#{$2}\}"
end
end
#
str.gsub!(/\@/o) do
"\\FRAC "
end
str.gsub!(/\*/o) do
" "
end
str.gsub!(/\<\=/o) do
"\\LE "
end
str.gsub!(/\>\=/o) do
"\\GE "
end
str.gsub!(/\=/o) do
"\\EQ "
end
str.gsub!(/\</o) do
"\\LT "
end
str.gsub!(/\>/) do
"\\GT "
end
str.gsub!(/(D)(\[\d+\])(.*?)\2/o) do
"\{\\FRAC\{\\MBOX{d}\}\{\\MBOX{d}x\}\{#{$2}#{$3}#{$2}\}\}"
end
str.gsub!(/(exp)(\[\d+\])(.*?)\2/o) do
"\{e^\{#{$3}\}\}"
end
str.gsub!(/(abs)(\[\d+\])(.*?)\2/o) do
"\{\\left\|#{$3}\\right\|\}"
end
str.gsub!(/D([x|y])/o) do
"\\FRAC\{\{\\rm d\}#{$1}\}\{\{\\rm d\}x\}"
end
str.gsub!(/D([f|g])(\[\d+\])(.*?)\2/o) do
"\{\\rm #{$1}\}'#{$2}#{$3}#{$2}"
end
str.gsub!(/([f|g])(\[\d+\])(.*?)\2/o) do
"\{\\rm #{$1}\}#{$2}#{$3}#{$2}"
end
str.gsub!(/(pi|inf)/io) do
"\\#{$1} "
end
loop do
break unless str.gsub!(/(\[\d+?\])(.*?)\1/o) do
"\\left(#{$2}\\right)"
end
end
str.gsub!(/\\([A-Z]+?)([\s\{\^\_\\])/io) do
"\\#{$1.downcase}#{$2}"
end
str
end
end
# ExaModes.cleanup_request()
|
