#! /usr/bin/env ruby # -*- coding: UTF-8 -*- # # INDENT=' '*8 WRAP_LEN=150 # def set_type t, sym return ETYPES['Eina_Bool'] if t=='Eina_Bool' if ETYPES[t].nil? # v = ( ETYPES[sym].nil? ? ( TYPES[sym].nil? ? ':'+sym.downcase : TYPES[sym] ) : ETYPES[sym] ) v = ( TYPES[sym].nil? ? ':'+sym.downcase : TYPES[sym] ) ETYPES[t] = v printf "\033[0;35m%40s\033[0m => \033[0;36m%s\033[0m\n",t,v return v else printf "\033[0;31mERROR type #{t} => #{sym} alredy exists!\033[0m\n" exit 1 end end # def get_type t k = t.gsub(/(const|enum|union)/, '').strip r = TYPES[k] return r unless r.nil? r = ETYPES[k] return r unless r.nil? if not k=~ /\*/ printf "\033[0;31munknown type >#{k}< #{t}\033[0m\n" exit 1 end k = k.gsub(/[ \*]*/, '').strip r = ETYPES[k] return ':'+k.downcase if r==':pointer' ':pointer' end # def get_type_from_arg arg, l if arg=~ /^\s*void\s*$/ return '' end if arg =~ /\.\.\./ return ':varargs' end k = arg.gsub(/const/,'').gsub(/\s{2,}/,' ').strip if k=~/(.*?)(\w+)$/ return get_type $1.strip end # try with unchanged argument string t = get_type k if t.nil? printf "\033[0;31mwrong arg >#{k}< #{arg} (#{l})\033[0m\n" exit 1 end t end # def wrap_text txt, indent txt.gsub( /(.{1,#{150}})(?: +|$\n?)|(.{1,#{150}})/,"\\1\\2\n#{indent}").sub(/\n\s+$/,'') end # def gen_enums path, indent r = [] open(path+'-enums','r').readlines.each do |l| l.strip! if not l=~/((?:typedef )?enum(?: \w+)?) \{(.*)\} (\w+)/ printf "\033[0;31mFIXME : #{l}\n#{indent}# FIXME\033[0m\n" r << indent+"# #{l}\n#{indent}# FIXME" next end typedef = $1.strip values = $2.strip typename = $3.strip tsym = set_type typename, typename syms, vals = [], [] values.split(',').each do |define| s,v = define.gsub(/ /,'').split(/=/) syms << s vals << v end if vals.count(nil) == vals.length args = syms.collect{ |sym| ':'+sym.strip.downcase }.join(', ') else i=0 h={} syms.zip(vals) do |s,v| sym=':'+s.downcase if h.has_key? v h[s]=h[v] elsif v.nil? h[s]=i i+=1 elsif v=~/\|/ els = v.gsub(/[\(\)]/,'').split(/\|/) v = els.inject('') { |s,e| s+="#{h[e]}|" }[0..-2] h[s]=v i=eval(v).to_i+1 else h[s]=v i=eval(v).to_i+1 end end args = syms.inject(''){|r,s| r+=":#{s.strip.downcase}, #{h[s]}, " }.sub(/, $/,'') end r << indent+"# #{typedef} {...} #{typename};" r << wrap_text( indent+"enum #{tsym}, [ #{args} ]", indent+' '*4 ) end r end # def gen_typedefs path, indent r = [] open(path+'-types','r').readlines.each do |l| l.strip! if l=~/typedef (struct|union) _?\w+ (\w+);/ t = $2.strip sym = 'pointer' elsif l=~/typedef enum/ # nothing todo next elsif l =~/typedef\s+((?:\w+\**\s)+)(\w+);/ t = $2.strip sym = $1.strip else r << indent+"# #{l}\n#{indent}# FIXME" next end tsym = set_type t, sym r << indent+"# #{l}" r << indent+"typedef #{tsym}, :#{t.downcase}" end r end # def gen_callbacks path, indent r = [] open(path+'-callbacks','r').readlines.each do |l| l.strip! if not l=~/^\s*typedef\s+(.*)((?:\(\*?\w+\)| \*?\w+))\s*\((.*)\);/ printf "\033[0;31m# #{l}\n#{indent}# FIXME\033[0m\n" r << indent+"# #{l}\n#{indent}# FIXME" next end ret = $1.strip name = $2.strip args = $3.split(',').collect { |arg| get_type_from_arg arg, l }.join ', ' t = name.sub(/\(/,'').sub(/\)/,'').sub(/\*/,'') sym = ( t.downcase=~/_cb$/ ? t : t+'_cb' ) tsym = set_type t, sym r << indent+"# #{l}" r << wrap_text(indent+"callback #{tsym}, [ #{args} ], #{get_type ret}", indent+' '*4 ) end r end # def gen_variables path, indent r = [] open(path+'-variables','r').readlines.each do |l| l.strip! if not l=~ /EAPI\s+extern\s+(\w+\s+\*?)(\w+)/ printf "\033[0;31m# #{l}\n#{indent}# FIXME\033[0m\n" r << indent+"# #{l}\n#{indent}# FIXME" next end var = $2.strip t = $1.strip r << indent+"# #{l}" r << wrap_text(indent+"attach_variable :#{var}, #{get_type t}", indent+' '*4) end r end # def gen_functions path, indent r = [] r << indent+"fcts = [" open(path+'-functions','r').readlines.each do |l| l.strip! if not l=~ /EAPI ([a-zA-Z0-9_\* ]+?)(\w+) ?\(([a-zA-Z0-9_ \*,\.]*)\)( *[A-Z]{2,})?/ printf "\033[0;31m# #{l}\n#{indent}# FIXME\033[0m\n" r << indent+"# #{l}\n#{indent}# FIXME" next end ret = $1.strip func = $2.strip.downcase args = $3.split(',').collect { |arg| get_type_from_arg arg, l }.join ', ' r << indent+"# #{l}" r << wrap_text(indent+"[ :#{func}, [ #{args} ], #{get_type ret} ],", indent+' '*4) end r << indent+"]" r end # NATIVE='efl/native' # HEADER =<<-EOF #! /usr/bin/env ruby # -*- coding: UTF-8 -*- # require '#{NATIVE}'REQUIRES # module Efl # module MNAME # FCT_PREFIX = 'MY_FCT_PREFIX_' unless const_defined? :FCT_PREFIX # def self.method_missing meth, *args, &block sym = Efl::MethodResolver.resolve self, meth, FCT_PREFIX self.send sym, *args, &block end # end # module Native EOF # FOOTER =<<-EOF end end # # EOF EOF # TYPES = { 'int' => ':int', 'char' => ':char', 'void' => ':void', 'long' => ':long', 'short' => ':short', 'float' => ':float', 'pid_t' => ':ulong', 'time_t' => ':ulong', 'size_t' => ':ulong', 'ssize_t' => ':long', 'uintptr_t' => ':pointer', 'double' => ':double', 'long int' => ':long', 'long long' => ':long_long', 'unsigned int' => ':uint', 'unsigned char' => ':uchar', 'unsigned short' => ':ushort', 'unsigned long long' => ':ulong_long', 'char *' => ':string', # FIXME ?!?! 'fd_set *' => ':pointer', 'FILE *' => ':pointer', 'va_list' => ':pointer', # FIXME ?!?! 'struct tm *' => ':pointer', 'struct timeval *' => ':pointer', 'struct sockaddr *' => ':pointer', } ETYPES = { 'Eina_Bool' => ':bool' } # Evas.h EVAS_LAYER_MIN=-32768 EVAS_LAYER_MAX=32767 # path = File.dirname __FILE__ lib_path = File.join path, '..', 'lib', 'efl', 'native' # libs = [] libs << { :lib=>'eina', :header=>'eina_types.h', :modname=>'Eina', :prefix=>'eina', :outfile=>'eina_types.rb', :requires=>[], :constants=>[] } libs << { :lib=>'eina', :header=>'eina_main.h', :modname=>'Eina', :prefix=>'eina', :outfile=>'eina.rb', :requires=>[], :constants=>[] } libs << { :lib=>'eina', :header=>'eina_xattr.h', :modname=>'EinaXattr', :prefix=>'eina_xattr', :outfile=>'eina_xattr.rb', :requires=>[], :constants=>[] } libs << { :lib=>'eina', :header=>'eina_log.h', :modname=>'EinaLog', :prefix=>'eina_log', :outfile=>'eina_log.rb', :requires=>[], :constants=>[] } libs << { :lib=>'eina', :header=>'eina_list.h', :modname=>'EinaList', :prefix=>'eina_list', :outfile=>'eina_list.rb', :requires=>[], :constants=>[] } libs << { :lib=>'eina', :header=>'eina_hash.h', :modname=>'EinaHash', :prefix=>'eina_hash', :outfile=>'eina_hash.rb', :requires=>[], :constants=>[] } libs << { :lib=>'eet', :header=>'Eet.h', :modname=>'Eet', :prefix=>'eet', :outfile=>'eet.rb', :requires=>["#{NATIVE}/eina_xattr","#{NATIVE}/eina_list"], :constants=>[] } libs << { :lib=>'evas', :header=>'Evas.h', :modname=>'Evas', :prefix=>'evas', :outfile=>'evas.rb', :requires=>["#{NATIVE}/eina_list"], :constants=>['EVAS_LAYER_MIN','EVAS_LAYER_MAX'] } libs << { :lib=>'edje', :header=>'Edje.h', :modname=>'Edje', :prefix=>'edje', :outfile=>'edje.rb', :requires=>["#{NATIVE}/evas"], :constants=>[] } libs << { :lib=>'ecore', :header=>'Ecore.h', :modname=>'Ecore', :prefix=>'ecore', :outfile=>'ecore.rb', :requires=>[], :constants=>[] } libs << { :lib=>'ecore_input', :header=>'Ecore_Input.h', :modname=>'EcoreInput', :prefix=>'ecore_event', :outfile=>'ecore_input.rb', :requires=>[], :constants=>[] } libs << { :lib=>'ecore', :header=>'Ecore_Getopt.h', :modname=>'EcoreGetopt', :prefix=>'ecore_getopt', :outfile=>'ecore_getopt.rb', :requires=>["#{NATIVE}/eina_list"], :constants=>[] } libs << { :lib=>'ecore_evas', :header=>'Ecore_Evas.h', :modname=>'EcoreEvas', :prefix=>'ecore_evas', :outfile=>'ecore_evas.rb', :requires=>["#{NATIVE}/ecore_getopt","#{NATIVE}/evas"], :constants=>[] } libs << { :lib=>'emap', :header=>'EMap.h', :modname=>'Emap', :prefix=>'emap', :outfile=>'emap.rb', :requires=>["#{NATIVE}/eina_list"], :constants=>[] } ELM_LIB='elementary-ver-pre-svn-09.so.0' libs << { :lib=>ELM_LIB,:header=>'Elementary.h', :modname=>'Elm', :prefix=>'elm', :outfile=>'elementary.rb', :requires=>["#{NATIVE}/elm/elm_general","#{NATIVE}/elm/elm_tooltip"], :constants=>[] } libs << { :lib=>ELM_LIB,:header=>'elm_general.h', :modname=>'Elm', :prefix=>'elm', :outfile=>'elm/elm_general.rb', :requires=>["#{NATIVE}/evas","#{NATIVE}/elementary"], :constants=>[] } libs << { :lib=>ELM_LIB,:header=>'elm_tooltip.h', :modname=>'ElmTooltip', :prefix=>'elm', :outfile=>'elm/elm_tooltip.rb', :requires=>["#{NATIVE}/elementary"], :constants=>[] } libs << { :lib=>ELM_LIB,:header=>'elm_object_item.h', :modname=>'ElmObjectItem', :prefix=>'elm_object_item', :outfile=>'elm/elm_object_item.rb', :requires=>["#{NATIVE}/elementary"], :constants=>[] } Dir.mkdir lib_path unless (File.exists? lib_path) # libs.each do |lib| base = File.join path, 'api', lib[:header] printf "\033[1;33mparse \033[0;32m%s-*\033[0;0m\n",base printf " \033[0;33menums...\033[0;0m\n" lib[:enums]=gen_enums(base, INDENT) printf " \033[0;33mtypedefs...\033[0;0m\n" lib[:typedefs]=gen_typedefs(base, INDENT) printf " \033[0;33mcallbacks...\033[0;0m\n" lib[:callbacks]=gen_callbacks(base, INDENT) printf " \033[0;33mvariables...\033[0;0m\n" lib[:variables]=gen_variables(base, INDENT) printf " \033[0;33mfunctions...\033[0;0m\n" lib[:functions]=gen_functions(base, INDENT) printf "\033[1;33mdone\033[0;0m\n" end libs.each do |lib| printf "\033[1;33mgenerate\033[0;0m %-50s\033[0;0m",lib[:outpath] outpath = File.join lib_path, lib[:outfile] outdir = File.dirname outpath Dir.mkdir outdir unless File.exists? outdir open(File.join(outpath),'w:utf-8') do |f| reqs = ( lib[:requires].nil? ? '' : lib[:requires].inject('') {|s,e| s+="\nrequire '#{e}'"}) f << HEADER.gsub(/MNAME/,lib[:modname]).sub(/MY_FCT_PREFIX/,lib[:prefix]).sub(/REQUIRES/,reqs) f << "#{INDENT}#\n#{INDENT}ffi_lib '#{lib[:lib]}'" if not lib[:constants].empty? f << "\n#{INDENT}#\n#{INDENT}# CONSTANTS" f << "\n"+lib[:constants].collect { |cst| INDENT+cst+"="+eval(cst).to_s}.compact.join("\n") end print "enums, " if not lib[:enums].empty? f << "\n#{INDENT}#\n#{INDENT}# ENUMS" f << "\n"+lib[:enums].collect { |t| ( t.is_a?(Array) ? t[1] : t ) }.compact.join("\n") end print "typedefs, " if not lib[:typedefs].empty? f << "\n#{INDENT}#\n#{INDENT}# TYPEDEFS" f << "\n"+lib[:typedefs].collect { |t| ( t.is_a?(Array) ? t[1] : t ) }.compact.join("\n") end print "callbacks, " if not lib[:callbacks].empty? f << "\n#{INDENT}#\n#{INDENT}# CALLBACKS" f << "\n"+lib[:callbacks].join("\n") end print "variables, " if not lib[:variables].empty? f << "\n#{INDENT}#\n#{INDENT}# VARIABLES" f << "\n"+lib[:variables].join("\n") end puts "functions." if not lib[:functions].empty? f << "\n#{INDENT}#\n#{INDENT}# FUNCTIONS" f << "\n"+lib[:functions].join("\n") end f << "\n#{INDENT}#\n#{INDENT}attach_fcts fcts\n#{INDENT}#\n" f << FOOTER end end #