/* generated by Id 1.1 at ,$ */ /* with the command: -I../stage1/ -I../st80 -c CodeGenerator.st -o ../stage2/CodeGenerator.o.c */ #include static struct __libid *_libid= 0; #ifdef ID_DEBUG # define _enter(info) void *__id_debug= _libid->enter(info) # define _line(lno) _libid->line(lno) # define _leave() _libid->leave(__id_debug) # define _backtrace() _libid->backtrace() #else # define _enter(info) (void)info # define _line(lno) # define _leave() # define _backtrace() "(no debugging information)\n" #endif #define _return _leave(); return #define _sendv(MSG, N, RCV, ARG...) ({ \ struct __send _s= { (MSG), (N), (RCV) }; \ ((_imp_t)(_libid->bindv(&_s)))(&_s, _s.receiver, _s.receiver, ##ARG); \ }) #define _superv(TYP, MSG, N, RCV, ARG...) ({ \ struct __send _s= { (MSG), (N), (TYP) }; \ _imp_t _imp= _libid->bindv(&_s); \ _s.receiver= (RCV); \ _imp(&_s, _s.receiver, _s.receiver, ##ARG); \ }) static oop s_new_5f_= 0; static oop s_encoder= 0; static oop s_withCompiler_encoder_= 0; static oop s_at_ifAbsent_= 0; static oop s_forExecutionModel_= 0; static oop s__5fdebugName= 0; static oop s_new= 0; static oop s__5fimport_= 0; static oop s_size_5f_value_5f_= 0; static oop s_function_5f_arity_5f_outer_state_nlr_5f_= 0; static oop s_value_5f_= 0; static oop s__5fslots= 0; static oop s__2c= 0; static oop s_error_= 0; static oop s__5fsizeof= 0; static struct _Selector { const char *name; oop *addr; } _Selectors[]= { { "new_:", &s_new_5f_ }, { "encoder", &s_encoder }, { "withCompiler:encoder:", &s_withCompiler_encoder_ }, { "at:ifAbsent:", &s_at_ifAbsent_ }, { "forExecutionModel:", &s_forExecutionModel_ }, { "_debugName", &s__5fdebugName }, { "new", &s_new }, { "_import:", &s__5fimport_ }, { "size_:value_:", &s_size_5f_value_5f_ }, { "function_:arity_:outer:state:nlr_:", &s_function_5f_arity_5f_outer_state_nlr_5f_ }, { "value_:", &s_value_5f_ }, { "_slots", &s__5fslots }, { ",", &s__2c }, { "error:", &s_error_ }, { "_sizeof", &s__5fsizeof }, { 0, 0 } }; struct t__object { struct _vtable *_vtable[0]; }; struct t__selector { struct _vtable *_vtable[0]; oop v__size; oop v__elements; }; struct t__assoc { struct _vtable *_vtable[0]; oop v_key; oop v_value; }; struct t__closure { struct _vtable *_vtable[0]; oop v__method; oop v_data; }; struct t__vector { struct _vtable *_vtable[0]; oop v__size; }; struct t__vtable { struct _vtable *_vtable[0]; oop v__tally; oop v_bindings; oop v_delegate; }; struct t_Object { struct _vtable *_vtable[0]; }; struct t_UndefinedObject { struct _vtable *_vtable[0]; }; struct t_StaticBlockClosure { struct _vtable *_vtable[0]; oop v__function; oop v__arity; }; struct t_BlockClosure { struct _vtable *_vtable[0]; oop v__function; oop v__arity; oop v_outer; oop v_state; oop v__nlr; }; struct t_Magnitude { struct _vtable *_vtable[0]; }; struct t_Character { struct _vtable *_vtable[0]; oop v_value; }; struct t_Number { struct _vtable *_vtable[0]; }; struct t_Fraction { struct _vtable *_vtable[0]; oop v_numerator; oop v_denominator; }; struct t_Float { struct _vtable *_vtable[0]; }; struct t_Integer { struct _vtable *_vtable[0]; }; struct t_SmallInteger { struct _vtable *_vtable[0]; }; struct t_LargePositiveInteger { struct _vtable *_vtable[0]; oop v_bytes; }; struct t_LargeNegativeInteger { struct _vtable *_vtable[0]; oop v_bytes; }; struct t_Collection { struct _vtable *_vtable[0]; }; struct t_SequenceableCollection { struct _vtable *_vtable[0]; }; struct t_ArrayedCollection { struct _vtable *_vtable[0]; oop v_size; }; struct t_Array { struct _vtable *_vtable[0]; oop v_size; oop v__pointers; }; struct t_ImmutableArray { struct _vtable *_vtable[0]; oop v_size; oop v__pointers; }; struct t_WordArray { struct _vtable *_vtable[0]; oop v_size; oop v__words; }; struct t_ImmutableWordArray { struct _vtable *_vtable[0]; oop v_size; oop v__words; }; struct t_ByteArray { struct _vtable *_vtable[0]; oop v_size; oop v__bytes; }; struct t_ImmutableByteArray { struct _vtable *_vtable[0]; oop v_size; oop v__bytes; }; struct t_String { struct _vtable *_vtable[0]; oop v_size; oop v__bytes; }; struct t_ImmutableString { struct _vtable *_vtable[0]; oop v_size; oop v__bytes; }; struct t_Symbol { struct _vtable *_vtable[0]; oop v_size; oop v__bytes; }; struct t_nil { struct _vtable *_vtable[0]; }; struct t_true { struct _vtable *_vtable[0]; }; struct t_false { struct _vtable *_vtable[0]; }; struct t_CharacterTable { struct _vtable *_vtable[0]; oop v_size; oop v__pointers; }; struct t_Set { struct _vtable *_vtable[0]; oop v_tally; oop v_array; }; struct t_LookupKey { struct _vtable *_vtable[0]; oop v_key; }; struct t_Association { struct _vtable *_vtable[0]; oop v_key; oop v_value; }; struct t_OrderedCollection { struct _vtable *_vtable[0]; oop v_array; oop v_firstIndex; oop v_lastIndex; }; struct t_Dictionary { struct _vtable *_vtable[0]; oop v_tally; oop v_array; }; struct t_SymbolTable { struct _vtable *_vtable[0]; oop v_tally; oop v_array; }; struct t_IdentitySet { struct _vtable *_vtable[0]; oop v_tally; oop v_array; }; struct t_IdentityDictionary { struct _vtable *_vtable[0]; oop v_tally; oop v_array; }; struct t_SlotVariableNode { struct _vtable *_vtable[0]; oop v_name; oop v_position; oop v_scope; oop v_receiver; oop v_type; }; struct t_EncodedVariableNode { struct _vtable *_vtable[0]; oop v_name; oop v_position; oop v_scope; oop v_offset; }; struct t_LocalVariableNode { struct _vtable *_vtable[0]; oop v_name; oop v_position; oop v_scope; oop v_offset; oop v_index; }; struct t_ArgumentVariableNode { struct _vtable *_vtable[0]; oop v_name; oop v_position; oop v_scope; oop v_offset; oop v_index; oop v_tied; }; struct t_TemporaryVariableNode { struct _vtable *_vtable[0]; oop v_name; oop v_position; oop v_scope; oop v_offset; oop v_index; }; struct t_Scope { struct _vtable *_vtable[0]; oop v_tally; oop v_array; oop v_argumentCount; oop v_temporaryCount; oop v_stackSize; oop v_outer; oop v_blocks; oop v_tag; oop v_level; oop v_lastOffset; oop v_encodings; oop v_exportFlag; oop v_importFlag; oop v_nlrFlag; oop v_hasVarargs; }; struct t_ParseNode { struct _vtable *_vtable[0]; oop v_position; oop v_location; }; struct t_VariableNode { struct _vtable *_vtable[0]; oop v_position; oop v_location; oop v_name; oop v_variable; oop v_level; }; struct t_LiteralNode { struct _vtable *_vtable[0]; oop v_position; oop v_location; oop v_value; oop v_tag; oop v_constructor; }; struct t_IntegerNode { struct _vtable *_vtable[0]; oop v_position; oop v_location; oop v_value; oop v_tag; oop v_constructor; }; struct t_SendNode { struct _vtable *_vtable[0]; oop v_position; oop v_location; oop v_receiver; oop v_selector; oop v_arguments; oop v_cascades; oop v_superedType; oop v_specialGenerator; }; struct t_GlobalVariableNode { struct _vtable *_vtable[0]; oop v_name; oop v_position; oop v_scope; oop v_offset; }; struct t_Encoder { struct _vtable *_vtable[0]; oop v_globalContext; oop v_globals; oop v_scope; oop v_tempCount; oop v_tempMax; oop v_outerCount; oop v_selectors; oop v_literals; oop v_literalMap; oop v_literalTag; oop v_methodType; oop v_specialEncoders; oop v_implementations; oop v_knownSelectors; }; struct t_NameManglingTable { struct _vtable *_vtable[0]; oop v_size; oop v__pointers; }; struct t_Smalltalk { struct _vtable *_vtable[0]; oop v_argumentCount; oop v_argumentVector; }; struct t_CodeGenerator { struct _vtable *_vtable[0]; oop v_compiler; oop v_encoder; oop v_nextLabel; }; static oop l_3= 0; static oop l_5= 0; static oop v__object= 0; static oop v__vector= 0; static oop v_Object= 0; static oop v_UndefinedObject= 0; static oop v_StaticBlockClosure= 0; static oop v_BlockClosure= 0; static oop v_Magnitude= 0; static oop v_Number= 0; static oop v_Integer= 0; static oop v_SmallInteger= 0; static oop v_LargePositiveInteger= 0; static oop v_Collection= 0; static oop v_SequenceableCollection= 0; static oop v_ArrayedCollection= 0; static oop v_Array= 0; static oop v_WordArray= 0; static oop v_ByteArray= 0; static oop v_String= 0; static oop v_ImmutableString= 0; static oop v_Set= 0; static oop v_LookupKey= 0; static oop v_Dictionary= 0; static oop v_IdentityDictionary= 0; static oop v_EncodedVariableNode= 0; static oop v_LocalVariableNode= 0; static oop v_ParseNode= 0; static oop v_LiteralNode= 0; static oop v_CodeGenerator= 0; static oop v_CodeGenerators= 0; static size_t CodeGenerator___5fsizeof(oop _closure, oop v_self) { return sizeof(struct t_CodeGenerator); } static char *CodeGenerator___5fdebugName(oop _closure, oop v_self) { return "CodeGenerator"; } static struct __slotinfo *CodeGenerator___5fslots(oop _closure, oop v_self) { static struct __slotinfo info[]= { { "compiler", 0, 4 }, { "encoder", 4, 4 }, { "nextLabel", 8, 4 }, { 0, 0, 0 } }; return &info[0]; } static struct __methodinfo __info2= { "[] forExecutionModel:", "CodeGenerator", "/Users/piumarta/src/idst/object/idc/CodeGenerator.st", 0, 30, 35, 0 }; static oop b_2(oop v__closure, oop v__self) { _enter(&__info2); oop _1= 0; oop _2= 0; oop _3= 0; _line(32); _1= ((oop *)((struct t_BlockClosure *)((struct t_BlockClosure *)v__self)->v_state))[1]; /* self */ _2= l_3; _3= ((oop *)((struct t_BlockClosure *)((struct t_BlockClosure *)v__self)->v_state))[3]; /* modelSymbol */ _line(32); _2=_sendv(s__2c, 2, _2, _3); _line(32); _1=_sendv(s_error_, 2, _1, _2); _leave(); return _1; _leave(); } static struct __methodinfo __info1= { "forExecutionModel:", "CodeGenerator", "/Users/piumarta/src/idst/object/idc/CodeGenerator.st", 0, 30, 35, &__info2 }; static oop CodeGenerator__forExecutionModel_(oop v__closure, oop v_stateful_self, oop v_self, oop v_modelSymbol) { _enter(&__info1); oop _state1= _sendv(s_new_5f_, 2, v__vector, 7); oop _1= 0; oop _2= 0; oop _3= 0; ((oop *)_state1)[2]= v_stateful_self; ((oop *)_state1)[1]= v_self; ((oop *)_state1)[3]= v_modelSymbol; _line(30); _1= v_CodeGenerators; _2= ((oop *)_state1)[3]; /* modelSymbol */ /* Scope() */ /* Scope('compiler'->SlotVariableNode 'encoder'->SlotVariableNode 'self'->ArgumentVariableNode 'nextLabel'->SlotVariableNode 'modelSymbol'->ArgumentVariableNode 'stateful_self'->ArgumentVariableNode) */ /* nil */ /* 2 */ /* 1 */ _3= _sendv(s_function_5f_arity_5f_outer_state_nlr_5f_, 6, v_BlockClosure, (oop)b_2, 0, 0, ((oop *)_state1), 0); _line(32); _1=_sendv(s_at_ifAbsent_, 3, _1, _2, _3); _leave(); return _1; _leave(); } static struct __methodinfo __info4= { "withCompiler:encoder:", "CodeGenerator", "/Users/piumarta/src/idst/object/idc/CodeGenerator.st", 0, 35, 43, &__info1 }; static oop CodeGenerator__withCompiler_encoder_(oop v__closure, oop v_stateful_self, oop v_self, oop v_aCompiler, oop v_anEncoder) { _enter(&__info4); oop _1= 0; _line(35); _1= v_self; _line(37); _1=_sendv(s_new, 1, _1); v_self= _1; v_stateful_self= _1; _1= v_aCompiler; ((struct t_CodeGenerator *)v_stateful_self)->v_compiler= _1; _1= v_anEncoder; ((struct t_CodeGenerator *)v_stateful_self)->v_encoder= _1; _1= l_5; ((struct t_CodeGenerator *)v_stateful_self)->v_nextLabel= _1; _1= v_self; _leave(); return _1; _leave(); } static struct __methodinfo __info6= { "encoder", "CodeGenerator", "/Users/piumarta/src/idst/object/idc/CodeGenerator.st", 0, 43, 44, &__info4 }; static oop CodeGenerator__encoder(oop v__closure, oop v_stateful_self, oop v_self) { _enter(&__info6); oop _1= 0; _line(43); _1= ((struct t_CodeGenerator *)v_stateful_self)->v_encoder; _leave(); return _1; _leave(); } static struct __methodinfo __info= { "__id__init__", "", "CodeGenerator.st", 0, 0, 0, &__info6 }; void __id__init__CodeGenerator(struct __libid *__libid) { if (_libid) return; if (!(_libid= __libid)) { fprintf(stderr, "init _libid %p\n", __libid); abort(); } # define GC_add_roots _libid->gc_addRoots GC_INIT(); { struct _Selector *s= 0; for (s= _Selectors; s->name; ++s) *s->addr= _libid->intern(s->name); } _enter(&__info); _libid->infos(&__info, &__info2); _sendv(s__5fimport_, 3, _libid->_object, "Object", "__id__init__Object"); v__object= _libid->import("_object"); v__vector= _libid->import("_vector"); v_Object= _libid->import("Object"); v_UndefinedObject= _libid->import("UndefinedObject"); v_StaticBlockClosure= _libid->import("StaticBlockClosure"); v_BlockClosure= _libid->import("BlockClosure"); v_Magnitude= _libid->import("Magnitude"); v_Number= _libid->import("Number"); v_Integer= _libid->import("Integer"); v_SmallInteger= _libid->import("SmallInteger"); v_LargePositiveInteger= _libid->import("LargePositiveInteger"); v_Collection= _libid->import("Collection"); v_SequenceableCollection= _libid->import("SequenceableCollection"); v_ArrayedCollection= _libid->import("ArrayedCollection"); v_Array= _libid->import("Array"); v_WordArray= _libid->import("WordArray"); v_ByteArray= _libid->import("ByteArray"); v_String= _libid->import("String"); v_ImmutableString= _libid->import("ImmutableString"); _sendv(s__5fimport_, 3, _libid->_object, "Symbol", "__id__init__Symbol"); v_Set= _libid->import("Set"); v_LookupKey= _libid->import("LookupKey"); v_Dictionary= _libid->import("Dictionary"); _sendv(s__5fimport_, 3, _libid->_object, "IdentityDictionary", "__id__init__IdentityDictionary"); v_IdentityDictionary= _libid->import("IdentityDictionary"); _sendv(s__5fimport_, 3, _libid->_object, "Encoder", "__id__init__Encoder"); v_EncodedVariableNode= _libid->import("EncodedVariableNode"); v_LocalVariableNode= _libid->import("LocalVariableNode"); v_ParseNode= _libid->import("ParseNode"); v_LiteralNode= _libid->import("LiteralNode"); _sendv(s__5fimport_, 3, _libid->_object, "Smalltalk", "__id__init__Smalltalk"); v_CodeGenerator= _libid->proto2(v_Object, CodeGenerator___5fsizeof(0, 0)); _libid->method(v_CodeGenerator, s__5fsizeof, (_imp_t)CodeGenerator___5fsizeof); _libid->method(v_CodeGenerator, s__5fdebugName, (_imp_t)CodeGenerator___5fdebugName); _libid->method(v_CodeGenerator, s__5fslots, (_imp_t)CodeGenerator___5fslots); _libid->export("CodeGenerator", v_CodeGenerator); { oop _1= 0; _1= v_IdentityDictionary; _line(28); _1=_sendv(s_new, 1, _1); v_CodeGenerators= _1; _libid->export("CodeGenerators", v_CodeGenerators); } l_3= _sendv(s_size_5f_value_5f_, 3, v_ImmutableString, 38, "no code generator available for model "); _libid->method(v_CodeGenerator, s_forExecutionModel_, (_imp_t)CodeGenerator__forExecutionModel_); l_5= _sendv(s_value_5f_, 2, v_SmallInteger, 0); _libid->method(v_CodeGenerator, s_withCompiler_encoder_, (_imp_t)CodeGenerator__withCompiler_encoder_); _libid->method(v_CodeGenerator, s_encoder, (_imp_t)CodeGenerator__encoder); _leave(); }