1 # This awk program contains the type mapping tables - and the treatments
10 class_i=class_name"_i"
11 print "\t// generated part" > idl_file
12 printf " // generated part\n" > hxx_file
13 printf "//\n// generated part\n//\n" > cxx_file
14 print "Functions parsing (for debug)" > "parse_result"
17 # type mapping from c++ component to idl
19 idl_arg_type["int"]="in long"
20 idl_arg_type["double"]="in double"
21 idl_arg_type["float"]="in float"
22 idl_arg_type["long"]="in long"
23 idl_arg_type["short"]="in short"
24 idl_arg_type["unsigned"]="in unsigned long"
25 idl_arg_type["const char*"]="in string"
26 idl_arg_type["const std::string&"]="in string"
27 idl_arg_type["int&"]="out long"
28 idl_arg_type["double&"]="out double"
29 idl_arg_type["float&"]="out float"
30 idl_arg_type["long&"]="out long"
31 idl_arg_type["short&"]="out short"
32 idl_arg_type["unsigned&"]="out unsigned long"
33 idl_arg_type["std::string&"]="out string"
34 idl_arg_type["const MEDMEM::MESH&"]="in SALOME_MED::MESH"
35 idl_arg_type["const MEDMEM::MESH*"]="in SALOME_MED::MESH"
36 idl_arg_type["const MEDMEM::FIELD<double>*"]="in SALOME_MED::FIELDDOUBLE"
37 idl_arg_type["const MEDMEM::FIELD<double>&"]="in SALOME_MED::FIELDDOUBLE"
38 idl_arg_type["MEDMEM::FIELD<double>*&"]="out SALOME_MED::FIELDDOUBLE"
39 idl_arg_type["const std::vector<double>&"]="in SALOME::SenderDouble"
40 idl_arg_type["const std::vector<std::vector<double> >&"]="in SALOME::Matrix"
41 idl_arg_type["std::vector<double>*&"]="out SALOME::SenderDouble"
42 idl_arg_type["const MEDMEM::FIELD<int>*"]="in SALOME_MED::FIELDINT"
43 idl_arg_type["const MEDMEM::FIELD<int>&"]="in SALOME_MED::FIELDINT"
44 idl_arg_type["MEDMEM::FIELD<int>*&"]="out SALOME_MED::FIELDINT"
45 idl_arg_type["const std::vector<int>&"]="in SALOME::SenderInt"
46 idl_arg_type["std::vector<int>*&"]="out SALOME::SenderInt"
49 # mapping for returned types
51 idl_rtn_type["void"]="void"
52 idl_rtn_type["int"]="long"
53 idl_rtn_type["double"]="double"
54 idl_rtn_type["float"]="float"
55 idl_rtn_type["long"]="long"
56 idl_rtn_type["short"]="short"
57 idl_rtn_type["unsigned"]="unsigned long"
58 idl_rtn_type["const char*"]="string"
59 idl_rtn_type["char*"]="string"
60 idl_rtn_type["std::string"]="string"
61 idl_rtn_type["const MEDMEM::MESH&"]="SALOME_MED::MESH"
62 idl_rtn_type["MEDMEM::MESH&"]="SALOME_MED::MESH"
63 idl_rtn_type["MEDMEM::MESH*"]="SALOME_MED::MESH"
64 idl_rtn_type["const MEDMEM::MESH*"]="SALOME_MED::MESH"
65 idl_rtn_type["const MEDMEM::FIELD<double>*"]="SALOME_MED::FIELDDOUBLE"
66 idl_rtn_type["MEDMEM::FIELD<double>*"]="SALOME_MED::FIELDDOUBLE"
67 idl_rtn_type["MEDMEM::FIELD<double>&"]="SALOME_MED::FIELDDOUBLE"
68 idl_rtn_type["const MEDMEM::FIELD<double>&"]="SALOME_MED::FIELDDOUBLE"
69 idl_rtn_type["std::vector<double>*"]="SALOME::SenderDouble"
70 idl_rtn_type["std::vector<std::vector<double> >*"]="SALOME::Matrix"
71 idl_rtn_type["const MEDMEM::FIELD<int>*"]="SALOME_MED::FIELDINT"
72 idl_rtn_type["MEDMEM::FIELD<int>*"]="SALOME_MED::FIELDINT"
73 idl_rtn_type["MEDMEM::FIELD<int>&"]="SALOME_MED::FIELDINT"
74 idl_rtn_type["const MEDMEM::FIELD<int>&"]="SALOME_MED::FIELDINT"
75 idl_rtn_type["std::vector<int>*"]="SALOME::SenderInt"
78 # Corba mapping table (for argument's types and returned types)
80 idl_impl_hxx["in long"]="CORBA::Long"
81 idl_impl_hxx["in double"]="CORBA::Double"
82 idl_impl_hxx["in float"]="CORBA::Float"
83 idl_impl_hxx["in short"]="CORBA::Short"
84 idl_impl_hxx["in unsigned long"]="CORBA::ULong"
85 idl_impl_hxx["in string"]="const char*"
86 idl_impl_hxx["out long"]="CORBA::Long_out"
87 idl_impl_hxx["out double"]="CORBA::Double_out"
88 idl_impl_hxx["out float"]="CORBA::Float_out"
89 idl_impl_hxx["out short"]="CORBA::Short_out"
90 idl_impl_hxx["out unsigned long"]="CORBA::ULong_out"
91 idl_impl_hxx["out string"]="CORBA::String_out"
92 idl_impl_hxx["in SALOME_MED::MESH"]="SALOME_MED::MESH_ptr"
93 idl_impl_hxx["in SALOME_MED::FIELDDOUBLE"]="SALOME_MED::FIELDDOUBLE_ptr"
94 idl_impl_hxx["out SALOME_MED::FIELDDOUBLE"]="SALOME_MED::FIELDDOUBLE_out"
95 idl_impl_hxx["in SALOME::SenderDouble"]="SALOME::SenderDouble_ptr"
96 idl_impl_hxx["out SALOME::SenderDouble"]="SALOME::SenderDouble_out"
97 idl_impl_hxx["in SALOME::Matrix"]="SALOME::Matrix_ptr"
98 idl_impl_hxx["in SALOME_MED::FIELDINT"]="SALOME_MED::FIELDINT_ptr"
99 idl_impl_hxx["out SALOME_MED::FIELDINT"]="SALOME_MED::FIELDINT_out"
100 idl_impl_hxx["in SALOME::SenderInt"]="SALOME::SenderInt_ptr"
101 idl_impl_hxx["out SALOME::SenderInt"]="SALOME::SenderInt_out"
102 idl_impl_hxx["void"]="void"
103 idl_impl_hxx["long"]="CORBA::Long"
104 idl_impl_hxx["double"]="CORBA::Double"
105 idl_impl_hxx["unsigned long"]="CORBA::ULong"
106 idl_impl_hxx["string"]="char*"
107 idl_impl_hxx["SALOME_MED::MESH"]="SALOME_MED::MESH_ptr"
108 idl_impl_hxx["SALOME_MED::FIELDDOUBLE"]="SALOME_MED::FIELDDOUBLE_ptr"
109 idl_impl_hxx["SALOME::SenderDouble"]="SALOME::SenderDouble_ptr"
110 idl_impl_hxx["SALOME::Matrix"]="SALOME::Matrix_ptr"
111 idl_impl_hxx["SALOME_MED::FIELDINT"]="SALOME_MED::FIELDINT_ptr"
112 idl_impl_hxx["SALOME::SenderInt"]="SALOME::SenderInt_ptr"
115 # table for c++ code generation : argument's processing
117 cpp_impl_a["int"]="\tint _%s(%s);\n"
118 cpp_impl_a["double"]="\tdouble _%s(%s);\n"
119 cpp_impl_a["float"]="\tfloat _%s(%s);\n"
120 cpp_impl_a["long"]="\tlong _%s(%s);\n"
121 cpp_impl_a["short"]="\tshort _%s(%s);\n"
122 cpp_impl_a["unsigned"]="\tunsigned _%s(%s);\n"
123 cpp_impl_a["const char*"]="\tconst char* _%s(%s);\n"
124 cpp_impl_a["const std::string&"]="\tconst std::string _%s(%s);\n"
125 cpp_impl_a["int&"]="\tint _%s;\n"
126 cpp_impl_a["double&"]="\tdouble _%s;\n"
127 cpp_impl_a["float&"]="\tfloat _%s;\n"
128 cpp_impl_a["long&"]="\tlong _%s;\n"
129 cpp_impl_a["short&"]="\tshort _%s;\n"
130 cpp_impl_a["unsigned&"]="\tunsigned _%s;\n"
131 cpp_impl_a["std::string&"]="std::string _%s;\n"
132 cpp_impl_a["const MEDMEM::MESH&"]="\tMEDMEM::MESHClient* _%s = new MEDMEM::MESHClient(%s);\n" # MESHClient cannot be created on the stack (private constructor), so we create it on the heap and dereference it later (in treatment 4)
133 cpp_impl_a["const MEDMEM::MESH*"]="\tMEDMEM::MESHClient* _%s = new MEDMEM::MESHClient(%s);\n"
134 cpp_impl_a["MEDMEM::FIELD<double>*&"]="\tMEDMEM::FIELD<double>* _%s;\n"
135 cpp_impl_a["const MEDMEM::FIELD<double>*"]="\tstd::auto_ptr<MEDMEM::FIELD<double> > _%s ( new MEDMEM::FIELDClient<double,MEDMEM::FullInterlace>(%s) );\n"
136 cpp_impl_a["const MEDMEM::FIELD<double>&"]="\tMEDMEM::FIELDClient<double,MEDMEM::FullInterlace> _%s(%s);\n"
137 cpp_impl_a["const std::vector<double>&"]="\tlong _%s_size;\n\tdouble *_%s_value = ReceiverFactory::getValue(%s,_%s_size);\n"\
138 "\tstd::vector<double> _%s(_%s_value,_%s_value+_%s_size);\n\tdelete [] _%s_value;"
139 cpp_impl_a["std::vector<double>*&"]="\tstd::vector<double>* _%s;\n"
140 cpp_impl_a["const std::vector<std::vector<double> >&"]="\tMatrixClient _%s_client;\n\tint _%s_nbRow;\n\tint _%s_nbCol;\n"\
141 "\tdouble* _%s_tab = _%s_client.getValue(%s,_%s_nbCol,_%s_nbRow);\n\tstd::vector<std::vector<double> > _%s(_%s_nbRow);\n"\
142 "\tfor (int i=0; i!=_%s_nbRow; ++i)\n\t{\n\t _%s[i].resize(_%s_nbCol);\n"\
143 "\t std::copy(_%s_tab+_%s_nbCol*i,_%s_tab+_%s_nbCol*(i+1), _%s[i].begin());\n\t}\n\tdelete [] _%s_tab;\n"
144 cpp_impl_a["MEDMEM::FIELD<int>*&"]="\tMEDMEM::FIELD<int>* _%s;\n"
145 cpp_impl_a["const MEDMEM::FIELD<int>*"]="\tstd::auto_ptr<MEDMEM::FIELD<int> > _%s ( new MEDMEM::FIELDClient<int>(%s) );\n"
146 cpp_impl_a["const MEDMEM::FIELD<int>&"]="\tMEDMEM::FIELDClient<int> _%s(%s);\n"
147 cpp_impl_a["const std::vector<int>&"]="\tlong _%s_size;\n\tint *_%s_value = ReceiverFactory::getValue(%s,_%s_size);\n"\
148 "\tstd::vector<int> _%s(_%s_value,_%s_value+_%s_size);\n\tdelete [] _%s_value;"
149 cpp_impl_a["std::vector<int>*&"]="\tstd::vector<int>* _%s;\n"
153 # table for c++ code generation : returned value processing
155 cpp_impl_b["void"]=""
156 cpp_impl_b["int"]="\tCORBA::Long _rtn_ior(_rtn_cpp);\n"
157 cpp_impl_b["double"]="\tCORBA::Double _rtn_ior(_rtn_cpp);\n"
158 cpp_impl_b["float"]="\tCORBA::Float _rtn_ior(_rtn_cpp);\n"
159 cpp_impl_b["long"]="\tCORBA::Long _rtn_ior(_rtn_cpp);\n"
160 cpp_impl_b["short"]="\tCORBA::Short _rtn_ior(_rtn_cpp);\n"
161 cpp_impl_b["unsigned"]="\tCORBA::ULong _rtn_ior(_rtn_cpp);\n"
162 cpp_impl_b["const char*"]="\tchar* _rtn_ior = CORBA::string_dup(_rtn_cpp);\n"
163 cpp_impl_b["char*"]="\tchar* _rtn_ior(_rtn_cpp);\n"
164 cpp_impl_b["std::string"]="\tchar* _rtn_ior=CORBA::string_dup(_rtn_cpp.c_str());\n"
165 "\tstd::copy(_rtn_cpp.begin(),_rtn_cpp.end(),_rtn_ior);\n"
166 cpp_impl_b["const MEDMEM::MESH&"]=\
167 "\tMEDMEM::MESH_i * _rtn_mesh_i = new MEDMEM::MESH_i(const_cast<MEDMEM::MESH*>(&_rtn_cpp));\n"\
168 "\tSALOME_MED::MESH_ptr _rtn_ior = _rtn_mesh_i->_this();\n"
169 cpp_impl_b["MEDMEM::MESH&"]=\
170 "\tMEDMEM::MESH_i * _rtn_mesh_i = new MEDMEM::MESH_i(&_rtn_cpp);\n"\
171 "\tSALOME_MED::MESH_ptr _rtn_ior = _rtn_mesh_i->_this();\n"
172 cpp_impl_b["MEDMEM::MESH*"]=\
173 "\tMEDMEM::MESH_i * _rtn_mesh_i = new MEDMEM::MESH_i(_rtn_cpp);\n"\
174 "\tSALOME_MED::MESH_ptr _rtn_ior = _rtn_mesh_i->_this();\n"
175 cpp_impl_b["const MEDMEM::MESH*"]=\
176 "\tMEDMEM::MESH_i * _rtn_mesh_i = new MEDMEM::MESH_i(const_cast<MEDMEM::MESH*>(_rtn_cpp));\n"\
177 "\tSALOME_MED::MESH_ptr _rtn_ior = _rtn_mesh_i->_this();\n"
178 cpp_impl_b["const MEDMEM::FIELD<double>*"]=\
179 "\tMEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace> * _rtn_field_i = new MEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace>(const_cast<MEDMEM::FIELD<double>*>(_rtn_cpp),false);\n"\
180 "\tSALOME_MED::FIELDDOUBLE_ptr _rtn_ior = _rtn_field_i->_this();\n"
181 cpp_impl_b["MEDMEM::FIELD<double>*"]=\
182 "\tMEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace> * _rtn_field_i = new MEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace>(_rtn_cpp,true);\n"\
183 "\tSALOME_MED::FIELDDOUBLE_ptr _rtn_ior = _rtn_field_i->_this();\n"
184 cpp_impl_b["MEDMEM::FIELD<double>&"]=\
185 "\tMEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace> * _rtn_field_i = new MEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace>(&_rtn_cpp,false);\n"\
186 "\tSALOME_MED::FIELDDOUBLE_ptr _rtn_ior = _rtn_field_i->_this();\n"
187 cpp_impl_b["const MEDMEM::FIELD<double>&"]=\
188 "\tMEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace> * _rtn_field_i = new MEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace>(const_cast<MEDMEM::FIELD<double>*>(&_rtn_cpp),false);\n"\
189 "\tSALOME_MED::FIELDDOUBLE_ptr _rtn_ior = _rtn_field_i->_this();\n"
190 cpp_impl_b["std::vector<double>*"]=\
191 "\tSALOME::SenderDouble_ptr _rtn_ior = SenderFactory::buildSender(*this,&(*_rtn_cpp)[0],(*_rtn_cpp).size(),true);\n"
192 cpp_impl_b["std::vector<std::vector<double> >*"]=\
193 "\tint _rtn_cpp_i=(*_rtn_cpp).size();\n\tint _rtn_cpp_j=(*_rtn_cpp)[0].size();\n"\
194 "\tdouble* _rtn_tab = new double[_rtn_cpp_i*_rtn_cpp_j];\n"\
195 "\tfor (int i=0; i!=_rtn_cpp_i; ++i)\n\t std::copy((*_rtn_cpp)[i].begin(),(*_rtn_cpp)[i].end(),_rtn_tab+i*_rtn_cpp_j);\n"\
196 "\tSALOME_Matrix_i* _rtn_matrix_i = new SALOME_Matrix_i(*this,_rtn_tab,_rtn_cpp_i,_rtn_cpp_j,true);\n"\
197 "\tSALOME::Matrix_ptr _rtn_ior = _rtn_matrix_i->_this();\n\tdelete _rtn_cpp;\n"
198 cpp_impl_b["const MEDMEM::FIELD<int>*"]=\
199 "\tMEDMEM::FIELDINT_i * _rtn_field_i = new MEDMEM::FIELDINT_i(const_cast<MEDMEM::FIELD<int>*>(_rtn_cpp),false);\n"\
200 "\tSALOME_MED::FIELDINT_ptr _rtn_ior = _rtn_field_i->_this();\n"
201 cpp_impl_b["MEDMEM::FIELD<int>*"]=\
202 "\tMEDMEM::FIELDINT_i * _rtn_field_i = new MEDMEM::FIELDINT_i(_rtn_cpp,true);\n"\
203 "\tSALOME_MED::FIELDINT_ptr _rtn_ior = _rtn_field_i->_this();\n"
204 cpp_impl_b["MEDMEM::FIELD<int>&"]=\
205 "\tMEDMEM::FIELDINT_i * _rtn_field_i = new MEDMEM::FIELDINT_i(&_rtn_cpp,false);\n"\
206 "\tSALOME_MED::FIELDINT_ptr _rtn_ior = _rtn_field_i->_this();\n"
207 cpp_impl_b["const MEDMEM::FIELD<int>&"]=\
208 "\tMEDMEM::FIELDINT_i * _rtn_field_i = new MEDMEM::FIELDINT_i(const_cast<MEDMEM::FIELD<int>*>(&_rtn_cpp),false);\n"\
209 "\tSALOME_MED::FIELDINT_ptr _rtn_ior = _rtn_field_i->_this();\n"
210 cpp_impl_b["std::vector<int>*"]=\
211 "\tSALOME::SenderInt_ptr _rtn_ior = SenderFactory::buildSender(*this,&(*_rtn_cpp)[0],(*_rtn_cpp).size(),true);\n"
215 # table for c++ code generation : out parameters processing and removeRef for reference counted objects
217 cpp_impl_c["MEDMEM::FIELD<double>*&"]=\
218 "\tMEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace> * %s_ior = new MEDMEM::FIELDTEMPLATE_I<double,MEDMEM::FullInterlace>(_%s, true);\n"\
219 "\t%s = %s_ior->_this();\n"
220 cpp_impl_c["MEDMEM::FIELD<int>*&"]=\
221 "\tMEDMEM::FIELDINT_i * %s_ior = new MEDMEM::FIELDINT_i(_%s, true);\n"\
222 "\t%s = %s_ior->_this();\n"
223 cpp_impl_c["std::vector<double>*&"]=\
224 "\t%s = SenderFactory::buildSender(*this,&(*_%s)[0],(*_%s).size(),true);\n"
225 cpp_impl_c["std::vector<int>*&"]=\
226 "\t%s = SenderFactory::buildSender(*this,&(*_%s)[0],(*_%s).size(),true);\n"
227 cpp_impl_c["std::string&"]="\t%s = CORBA::string_dup(_%s.c_str());\n"
228 cpp_impl_c["int&"]="\t%s = _%s;\n"
229 cpp_impl_c["double&"]="\t%s = _%s;\n"
230 cpp_impl_c["float&"]="\t%s = _%s;\n"
231 cpp_impl_c["long&"]="\t%s = _%s;\n"
232 cpp_impl_c["short&"]="\t%s = _%s;\n"
233 cpp_impl_c["unsigned&"]="\t%s = _%s;\n"
234 cpp_impl_c["const MEDMEM::MESH&"]="\t_%s->removeReference();\n"
235 cpp_impl_c["const MEDMEM::MESH*"]="\t_%s->removeReference();\n"
238 # record sep is ");\n" whith blanks all around, and optional "(" at the beginning
239 RS="[(]?[ \t]*[)][ \t]*[;][ \t]*[\n]"
240 FS="[ \t]*[(,][ \t]*" # field sep is either "(" or "," surrounded by blanks
243 # --------------------- treatment 1 ----------------------------------
245 # extract from fields types, function name, and argument's names
248 print "Function : ",$0 >> "parse_result" # print for debug
249 for (i=1; i<=NF; i++) {
250 print "\t-> ",i," : ",$i >> "parse_result"
253 # check if returned type ($1) is one of the accepted types (idl_rtn_type)
254 for (cpptype in idl_rtn_type) {
255 if ( substr($1,1,length(cpptype)) == cpptype ) {
256 # if compatible, store returned type and function name
258 name[1]=substr($1,length(cpptype)+1)
259 sub("^[ \t]*","",name[1]) # get rid of leading blanks
265 # for each argument ($i), check if it is compatible (belongs to idl_arg_type)
266 for (i=2; i<=NF; i++) {
268 split($i,tab,"=") # get rid of default value
270 for (cpptype in idl_arg_type) {
271 if ( substr(item,1,length(cpptype)) == cpptype ) {
272 # if compatible, store argument type and name
274 name[i]=substr(item,length(cpptype)+1)
275 sub("^[ \t]*","",name[i]) # get rid of leading blanks
276 if ( length(name[i]) == 0 ) # automatic name if argument's name wasn't precised
277 name[i]=sprintf("_arg%d",i-1)
282 ok*=ok2 # ok=0 if one of the type is not compatible
285 # print compatibility
286 if ( $0 !~ class_name ) { # constructor are not considered, but we don't print it
287 if ( ok == 0){ # if one of the c++ type is not compatible
288 printf " [KO] : %s",$0
291 printf " [OK] : %s",$0
294 printf "(" # if there is no argument, parenthesis was suppressed, so we add it for printing
298 if ( ok == 0) # pass to the next function if one of the c++ type is not compatible
302 # --------------------- treatment 2 ----------------------------------
304 # generate the Corba interface (idl file)
307 printf "\t%s %s(", idl_rtn_type[type[1]],name[1] >> idl_file # return type and name of function
308 if ( NF >= 2 ){ # if there is arguments, print them
309 for (i=2; i<=NF-1; i++)
310 printf "%s %s,",idl_arg_type[type[i]],name[i] >> idl_file
311 printf "%s %s", idl_arg_type[type[NF]],name[NF] >> idl_file
313 printf ");\n" >> idl_file
316 # --------------------- treatment 3 ----------------------------------
318 # generate the C++ implementation of component (hxx file)
321 printf " %s %s(",idl_impl_hxx[idl_rtn_type[type[1]]],name[1] >> hxx_file
322 if ( NF >= 2 ){ # if there is arguments, print them
323 for (i=2; i<=NF-1; i++)
324 printf "%s %s,",idl_impl_hxx[idl_arg_type[type[i]]],name[i] >> hxx_file
325 printf "%s %s", idl_impl_hxx[idl_arg_type[type[NF]]],name[NF] >> hxx_file
327 printf ");\n" >> hxx_file
330 # --------------------- treatment 4 ----------------------------------
332 # generate the C++ implementation of component (cxx file)
335 # a) generate the function declaration + macro declarations
336 func_name=class_name"_i::"name[1]
337 printf "%s %s(",idl_impl_hxx[idl_rtn_type[type[1]]],func_name >> cxx_file
338 if ( NF >= 2 ){ # if there is arguments, print them
339 for (i=2; i<=NF-1; i++)
340 printf "%s %s,",idl_impl_hxx[idl_arg_type[type[i]]],name[i] >> cxx_file
341 printf "%s %s", idl_impl_hxx[idl_arg_type[type[NF]]],name[NF] >> cxx_file
343 printf ")\n{\n\tbeginService(\"%s\");\n\tBEGIN_OF(\"%s\");\n",func_name,func_name >> cxx_file
345 # b) generate the argument processing part
347 printf "//\tArguments processing\n" >> cxx_file
348 for (i=2; i<=NF; i++)
349 printf cpp_impl_a[type[i]],name[i],name[i],name[i],name[i],name[i],name[i],name[i],name[i],name[i],\
350 name[i],name[i],name[i],name[i],name[i],name[i],name[i],name[i],name[i],name[i] >> cxx_file
353 # c) generate the call to the c++ component
354 if ( type[1] == "void" ) # if return type is void, the call syntax is different.
355 printf "//\tCall cpp component\n\tcppCompo_->%s(",name[1] >> cxx_file
357 printf "//\tCall cpp component\n\t%s _rtn_cpp = cppCompo_->%s(",type[1],name[1] >> cxx_file
358 if ( NF >= 2 ){ # if there is arguments, print them
359 for (i=2; i<=NF; i++) {
360 # special treatment for some arguments
363 if ( cpp_impl_a[type[i]] ~ "auto_ptr" )
364 post=".get()" # for auto_ptr argument, retrieve the raw pointer behind
365 if ( type[i] == "const MEDMEM::MESH&" )
366 pre="*" # we cannot create MESHClient on the stack (private constructor), so we create it on the heap and dereference it
368 post=post"," # separator between arguments
369 printf " %s_%s%s",pre,name[i],post >> cxx_file
373 # d) generate the post_processing of returned and out parameters
374 printf ");\n//\tPost-processing & return\n" >> cxx_file
375 for (i=2; i<=NF; i++)
376 printf cpp_impl_c[type[i]],name[i],name[i],name[i],name[i] >> cxx_file # process for out parameters
377 printf cpp_impl_b[type[1]] >> cxx_file # process for returned value
378 printf "\tendService(\"%s\");\n\tEND_OF(\"%s\");\n",func_name,func_name >> cxx_file
379 if ( type[1] != "void" )
380 printf "\treturn _rtn_ior;\n" >> cxx_file
381 printf "}\n\n" >> cxx_file
386 # CNC peut être mis dans le template directement printf "\nprivate:\n std::auto_ptr<%s> cppImpl_;\n",class_name >> hxx_file