SSME eCore Class		= Signal Operator or Phylum								/ signal.metal class
--------------------------------------------------------------------------------------------------------------------------------------------------------
After 				= nomb_a										/ <prim_temporel>
And 				= et											/ <fact_logique>
ArrayElem			= elem											/ <fact_flot>
ArrayElementsEnumeration	= l_ele_vec, tab_vide									/ <enumeration_vectoriel>
ArrayIndex			= ind_mot										/ <indice_motif>
ArrayProcess			= moti											/ <motif>
ArrayProduct			= mmul											/ <term_arithmetique>
ArrayRestructuration		= rest											/ <expr_restruct>
ArrayType			= t_vect										/ <type_tableau>
AssertProcess			= p_assert										/ <primaire_processus>
AssertSignal			= appe_assert										/ <appel>
Bounds				= born											/ <bornes>
CartesianProduct		= pcar											/ <produit_index>
CaseBranch			= cas											/ <cas>
CaseEnumeration			= idem ListExprSignal									/ <enumeration_valeurs>
CaseInterval			= intv_ff, intv_fo, intv_of, intv_oo							/ <enumeration_valeurs>
CaseProcess			= p_cas, l_cas										/ <expr_case>
Cell				= memo											/ <expr_dynamique>
ClockDifference			= comp											/ <expr_horloge>
ClockEquality			= l_equ_hor										/ <relation_horl>
ClockExclusiveRelation		= l_exc_hor										/ <relation_horl>
Clock				= evnt											/ <expr_flot>
ClockInfRelation		= l_dec_hor										/ <relation_horl>
ClockProduct			= binf											/ <term_horloge>
ClockSupRelation		= l_cro_hor										/ <relation_horl>
ClockUnion			= bsup											/ <expr_horloge>
ComplexConstructor		= cplx											/ <fact_arithmetique>
Composition			= l_feed										/ <l_composition>
Concatenation			= conc											/ <expr_arithmetique>
ConditionedDependence		= dep_d											/ <dependances>
ConstantCharacter		= E_CST (phylum)									/ -
ConstantDescription		= cons											/ <def_constante>
ConstantDoubleReal		= E_CST (phylum)									/ -
ConstantEnum			= v_enum										/ <fact_flot>
ConstantInteger			= E_CST (phylum)									/ -
ConstantLogical			= true, false										/ <constante_logique>
ConstantReal			= E_CST (phylum)									/ -
ConstantsDeclaration		= dec_con, dec_con_p, l_cons, implicit							/ <decl_constantes>
ConstantString			= CST_CHA (phylum)									/ -
Conversion			= conv											/ <conversion>
Count				= nomb_m										/ <prim_temporel>
Default				= mele											/ <expr_temporel>
Delay				= ret, ret_un										/ <expr_dynamique>
Description			= desc, l_prag										/ <description>
Div				= divi											/ <term_arithmetique>
ElemDefinitionEnumeration	= l_e_vect										/ <enumeration_vectoriel>
ElemDefinition			= ele_vec										/ <element_simple>
EnumerationType			= t_enum										/ <type_enumere>
EqualEqual			= egeg											/ <expr_relation>
Equal				= egal											/ <term_relation>
ExternalAttribute		= exte											/ <indication_externe>
ExternalGraph			= spec, l_attr										/ <graphe_externe>
ExternalReferences		= ref, l_ident										/ <references>
FieldAccess			= cham											/ <fact_flot>
FormalProcess			= form_proc, form_node, form_func, form_act						/ <decl_processus_formel>
From				= nomb_d										/ <prim_temporel>
GraphSpecification		= idem ExprProcess									/ <spec_proprietes>
Greater				= supe											/ <term_relation>
GreaterOrEqual			= s_egal										/ <term_relation>
Identifier			= IDENT (phylum)									/ -
IdentityEquation		= def_egal										/ <contrainte_signaux>
IfThenElse			= cond											/ <expr_condition>
Index				= enum											/ <expr_index>
IOProfile			= ent_sor, l_dec_s									/ <entrees_sorties>
Iteration			= ens_vec, l_parc									/ <element_multiple>
IterationProcess		= iter											/ <motif>
LabelledProcess			= p_etiq										/ <processus_etiquete>
Labels				= lab, l_ident										/ <decl_etiquettes>
Less				= infe											/ <term_relation>
LessLessEqual			= iieg											/ <expr_relation>
LessOrEqual			= i_egal										/ <term_relation>
ListExprSignal			= l_e_sign										/ <l_expr_flot>, <l_expr_signal>
ListModule			= l_modu										/ <l_modules>
Masking				= obli, l_ident										/ <expr_profil>
Minus				= moin											/ <expr_arithmetique>
ModuleDescription		= desc_modu, l_prag, l_decl								/ <description_module>
Module				= modu											/ <module>
ModulesImport			= l_impo										/ <l_objets_importes>
Modulo				= mod											/ <term_arithmetique>
NotEqual			= diff											/ <term_relation>
NullClock			= hnull											/ <expr_signal>
NullProc			= null_proc										/ <primaire_processus>
Operator			= IDENT_OP (phylum)									/ -
OperatorModel			= oper											/ <decl_processus>
Or				= ou											/ <term_logique>
PartialIteration		= parc											/ <parcours_de_partie>
Plus				= plus											/ <expr_arithmetique>
Power				= puis											/ <fact_arithmetique>
Pragma				= prag, l_opra										/ <pragma>
PredefinedType			= event, logical, short, integer, long, real, dpreal, complex, dcomplex, char, string	/ <type_predefini>
PreviousIterationRef		= sdec											/ <fact_flot>
ProcessAttribute		= safe, determ, unsafe									/ <attribut>
ProcessCall			= appe											/ <appel>
ProcessExpansion		= inst, l_e_para									/ <production>
ProcessModel			= process, process_p, node, node_p, func, func_p, act, act_p, automaton, automaton_p / <decl_processus>
ProcessModelInterface		= inte, l_dec_s										/ <interface>
ProcessType			= type_proc, type_node, type_func, type_act, l_prag					/ <def_type>
Product				= mult											/ <term_arithmetique>
Recover				= recu											/ <term_composite>
Repetition			= repe											/ <term_arithmetique>
RestrictionProcess		= p_conf, l_decl									/ <corps_modele>
SequentialDefinition		= sequ											/ <expr_sequence>
SharedVariablesDeclaration	= dec_par, l_sign, implicit								/ <decl_partages>
SignalNaming			= init											/ <signal>
SignalsDeclaration		= dec_sig, l_sign, implicit								/ <decl_signaux>
SignalsDefinition		= def_sig										/ <definition_signal>
Signals				= idem ListExprSignal									/ <signaux>
SignalsPartialDefaultDefinition	= def_part_def										/ <definition_signal>
SignalsPartialDefinition	= def_part										/ <definition_signal>
StateVariablesDeclaration	= dec_var, l_sign, implicit								/ <decl_variables>
StateVariableValue		= v_var_in										/ <fact_flot>
StringValue			= chai											/ <chaine>
Transposition			= tran											/ <expr_composite>
TupleType			= bund, stru, l_dec_s									/ <type_tuple>
TypeDescription			= type (<identificateur>, <description_type>, <expr_signal>)				/ <def_type>
TypeMorphism			= type (<type_decrit>, <description_type>, nil ())					/ <def_type>
TypesDeclaration		= l_type, l_type_p									/ <l_def_types>
UnaryMinus			= nega											/ <unaire_arithmetique>
UnaryPlus			= idem ExprSignal									/ <unaire_arithmetique>
UnaryWhen			= when1											/ <fact_horloge>
UnconditionedDependences	= l_dep											/ <dependances>
Var				= var											/ <expr_dynamique>
When				= extr											/ <term_temporel>
Window				= fen											/ <expr_dynamique>
Xor				= ouex											/ <expr_logique>


