1 // go-gcc.cc -- Go frontend to gcc IR.
2 // Copyright (C) 2011-2017 Free Software Foundation, Inc.
3 // Contributed by Ian Lance Taylor, Google.
5 // This file is part of GCC.
7 // GCC is free software; you can redistribute it and/or modify it under
8 // the terms of the GNU General Public License as published by the Free
9 // Software Foundation; either version 3, or (at your option) any later
12 // GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 // WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
17 // You should have received a copy of the GNU General Public License
18 // along with GCC; see the file COPYING3. If not see
19 // <http://www.gnu.org/licenses/>.
21 #include "go-system.h"
23 // This has to be included outside of extern "C", so we have to
24 // include it here before tree.h includes it later.
28 #include "fold-const.h"
29 #include "stringpool.h"
30 #include "stor-layout.h"
32 #include "tree-iterator.h"
37 #include "gimple-expr.h"
39 #include "langhooks.h"
51 // A class wrapping a tree.
72 // In gcc, types, expressions, and statements are all trees.
73 class Btype
: public Gcc_tree
81 class Bexpression
: public Gcc_tree
89 class Bstatement
: public Gcc_tree
97 class Bfunction
: public Gcc_tree
105 class Bblock
: public Gcc_tree
113 class Blabel
: public Gcc_tree
121 // Bvariable is a bit more complicated, because of zero-sized types.
122 // The GNU linker does not permit dynamic variables with zero size.
123 // When we see such a variable, we generate a version of the type with
124 // non-zero size. However, when referring to the global variable, we
125 // want an expression of zero size; otherwise, if, say, the global
126 // variable is passed to a function, we will be passing a
127 // non-zero-sized value to a zero-sized value, which can lead to a
134 : t_(t
), orig_type_(NULL
)
137 Bvariable(tree t
, tree orig_type
)
138 : t_(t
), orig_type_(orig_type
)
141 // Get the tree for use as an expression.
143 get_tree(Location
) const;
145 // Get the actual decl;
155 // Get the tree of a variable for use as an expression. If this is a
156 // zero-sized global, create an expression that refers to the decl but
159 Bvariable::get_tree(Location location
) const
161 if (this->orig_type_
== NULL
162 || this->t_
== error_mark_node
163 || TREE_TYPE(this->t_
) == this->orig_type_
)
165 // Return *(orig_type*)&decl. */
166 tree t
= build_fold_addr_expr_loc(location
.gcc_location(), this->t_
);
167 t
= fold_build1_loc(location
.gcc_location(), NOP_EXPR
,
168 build_pointer_type(this->orig_type_
), t
);
169 return build_fold_indirect_ref_loc(location
.gcc_location(), t
);
172 // This file implements the interface between the Go frontend proper
173 // and the gcc IR. This implements specific instantiations of
174 // abstract classes defined by the Go frontend proper. The Go
175 // frontend proper class methods of these classes to generate the
176 // backend representation.
178 class Gcc_backend
: public Backend
187 { return this->make_type(error_mark_node
); }
191 { return this->make_type(void_type_node
); }
195 { return this->make_type(boolean_type_node
); }
198 integer_type(bool, int);
207 pointer_type(Btype
*);
210 function_type(const Btyped_identifier
&,
211 const std::vector
<Btyped_identifier
>&,
212 const std::vector
<Btyped_identifier
>&,
217 struct_type(const std::vector
<Btyped_identifier
>&);
220 array_type(Btype
*, Bexpression
*);
223 placeholder_pointer_type(const std::string
&, Location
, bool);
226 set_placeholder_pointer_type(Btype
*, Btype
*);
229 set_placeholder_function_type(Btype
*, Btype
*);
232 placeholder_struct_type(const std::string
&, Location
);
235 set_placeholder_struct_type(Btype
* placeholder
,
236 const std::vector
<Btyped_identifier
>&);
239 placeholder_array_type(const std::string
&, Location
);
242 set_placeholder_array_type(Btype
*, Btype
*, Bexpression
*);
245 named_type(const std::string
&, Btype
*, Location
);
248 circular_pointer_type(Btype
*, bool);
251 is_circular_pointer_type(Btype
*);
257 type_alignment(Btype
*);
260 type_field_alignment(Btype
*);
263 type_field_offset(Btype
*, size_t index
);
268 zero_expression(Btype
*);
272 { return this->make_expression(error_mark_node
); }
275 nil_pointer_expression()
276 { return this->make_expression(null_pointer_node
); }
279 var_expression(Bvariable
* var
, Varexpr_context
, Location
);
282 indirect_expression(Btype
*, Bexpression
* expr
, bool known_valid
, Location
);
285 named_constant_expression(Btype
* btype
, const std::string
& name
,
286 Bexpression
* val
, Location
);
289 integer_constant_expression(Btype
* btype
, mpz_t val
);
292 float_constant_expression(Btype
* btype
, mpfr_t val
);
295 complex_constant_expression(Btype
* btype
, mpc_t val
);
298 string_constant_expression(const std::string
& val
);
301 boolean_constant_expression(bool val
);
304 real_part_expression(Bexpression
* bcomplex
, Location
);
307 imag_part_expression(Bexpression
* bcomplex
, Location
);
310 complex_expression(Bexpression
* breal
, Bexpression
* bimag
, Location
);
313 convert_expression(Btype
* type
, Bexpression
* expr
, Location
);
316 function_code_expression(Bfunction
*, Location
);
319 address_expression(Bexpression
*, Location
);
322 struct_field_expression(Bexpression
*, size_t, Location
);
325 compound_expression(Bstatement
*, Bexpression
*, Location
);
328 conditional_expression(Bfunction
*, Btype
*, Bexpression
*, Bexpression
*,
329 Bexpression
*, Location
);
332 unary_expression(Operator
, Bexpression
*, Location
);
335 binary_expression(Operator
, Bexpression
*, Bexpression
*, Location
);
338 constructor_expression(Btype
*, const std::vector
<Bexpression
*>&, Location
);
341 array_constructor_expression(Btype
*, const std::vector
<unsigned long>&,
342 const std::vector
<Bexpression
*>&, Location
);
345 pointer_offset_expression(Bexpression
* base
, Bexpression
* offset
, Location
);
348 array_index_expression(Bexpression
* array
, Bexpression
* index
, Location
);
351 call_expression(Bfunction
* caller
, Bexpression
* fn
,
352 const std::vector
<Bexpression
*>& args
,
353 Bexpression
* static_chain
, Location
);
356 stack_allocation_expression(int64_t size
, Location
);
362 { return this->make_statement(error_mark_node
); }
365 expression_statement(Bfunction
*, Bexpression
*);
368 init_statement(Bfunction
*, Bvariable
* var
, Bexpression
* init
);
371 assignment_statement(Bfunction
*, Bexpression
* lhs
, Bexpression
* rhs
,
375 return_statement(Bfunction
*, const std::vector
<Bexpression
*>&,
379 if_statement(Bfunction
*, Bexpression
* condition
, Bblock
* then_block
,
380 Bblock
* else_block
, Location
);
383 switch_statement(Bfunction
* function
, Bexpression
* value
,
384 const std::vector
<std::vector
<Bexpression
*> >& cases
,
385 const std::vector
<Bstatement
*>& statements
,
389 compound_statement(Bstatement
*, Bstatement
*);
392 statement_list(const std::vector
<Bstatement
*>&);
395 exception_handler_statement(Bstatement
* bstat
, Bstatement
* except_stmt
,
396 Bstatement
* finally_stmt
, Location
);
401 block(Bfunction
*, Bblock
*, const std::vector
<Bvariable
*>&,
405 block_add_statements(Bblock
*, const std::vector
<Bstatement
*>&);
408 block_statement(Bblock
*);
414 { return new Bvariable(error_mark_node
); }
417 global_variable(const std::string
& var_name
,
418 const std::string
& asm_name
,
422 bool in_unique_section
,
426 global_variable_set_init(Bvariable
*, Bexpression
*);
429 local_variable(Bfunction
*, const std::string
&, Btype
*, bool,
433 parameter_variable(Bfunction
*, const std::string
&, Btype
*, bool,
437 static_chain_variable(Bfunction
*, const std::string
&, Btype
*, Location
);
440 temporary_variable(Bfunction
*, Bblock
*, Btype
*, Bexpression
*, bool,
441 Location
, Bstatement
**);
444 implicit_variable(const std::string
&, const std::string
&, Btype
*,
445 bool, bool, bool, int64_t);
448 implicit_variable_set_init(Bvariable
*, const std::string
&, Btype
*,
449 bool, bool, bool, Bexpression
*);
452 implicit_variable_reference(const std::string
&, const std::string
&, Btype
*);
455 immutable_struct(const std::string
&, const std::string
&,
456 bool, bool, Btype
*, Location
);
459 immutable_struct_set_init(Bvariable
*, const std::string
&, bool, bool, Btype
*,
460 Location
, Bexpression
*);
463 immutable_struct_reference(const std::string
&, const std::string
&,
469 label(Bfunction
*, const std::string
& name
, Location
);
472 label_definition_statement(Blabel
*);
475 goto_statement(Blabel
*, Location
);
478 label_address(Blabel
*, Location
);
484 { return this->make_function(error_mark_node
); }
487 function(Btype
* fntype
, const std::string
& name
, const std::string
& asm_name
,
488 bool is_visible
, bool is_declaration
, bool is_inlinable
,
489 bool disable_split_stack
, bool in_unique_section
, Location
);
492 function_defer_statement(Bfunction
* function
, Bexpression
* undefer
,
493 Bexpression
* defer
, Location
);
496 function_set_parameters(Bfunction
* function
, const std::vector
<Bvariable
*>&);
499 function_set_body(Bfunction
* function
, Bstatement
* code_stmt
);
502 lookup_builtin(const std::string
&);
505 write_global_definitions(const std::vector
<Btype
*>&,
506 const std::vector
<Bexpression
*>&,
507 const std::vector
<Bfunction
*>&,
508 const std::vector
<Bvariable
*>&);
511 write_export_data(const char* bytes
, unsigned int size
);
515 // Make a Bexpression from a tree.
517 make_expression(tree t
)
518 { return new Bexpression(t
); }
520 // Make a Bstatement from a tree.
522 make_statement(tree t
)
523 { return new Bstatement(t
); }
525 // Make a Btype from a tree.
528 { return new Btype(t
); }
531 make_function(tree t
)
532 { return new Bfunction(t
); }
535 fill_in_struct(Btype
*, const std::vector
<Btyped_identifier
>&);
538 fill_in_array(Btype
*, Btype
*, Bexpression
*);
541 non_zero_size_type(tree
);
545 define_builtin(built_in_function bcode
, const char* name
, const char* libname
,
546 tree fntype
, bool const_p
, bool noreturn_p
);
548 // A mapping of the GCC built-ins exposed to GCCGo.
549 std::map
<std::string
, Bfunction
*> builtin_functions_
;
552 // A helper function to create a GCC identifier from a C++ string.
555 get_identifier_from_string(const std::string
& str
)
557 return get_identifier_with_length(str
.data(), str
.length());
560 // Define the built-in functions that are exposed to GCCGo.
562 Gcc_backend::Gcc_backend()
564 /* We need to define the fetch_and_add functions, since we use them
566 tree t
= this->integer_type(true, BITS_PER_UNIT
)->get_tree();
567 tree p
= build_pointer_type(build_qualified_type(t
, TYPE_QUAL_VOLATILE
));
568 this->define_builtin(BUILT_IN_SYNC_ADD_AND_FETCH_1
, "__sync_fetch_and_add_1",
569 NULL
, build_function_type_list(t
, p
, t
, NULL_TREE
),
572 t
= this->integer_type(true, BITS_PER_UNIT
* 2)->get_tree();
573 p
= build_pointer_type(build_qualified_type(t
, TYPE_QUAL_VOLATILE
));
574 this->define_builtin(BUILT_IN_SYNC_ADD_AND_FETCH_2
, "__sync_fetch_and_add_2",
575 NULL
, build_function_type_list(t
, p
, t
, NULL_TREE
),
578 t
= this->integer_type(true, BITS_PER_UNIT
* 4)->get_tree();
579 p
= build_pointer_type(build_qualified_type(t
, TYPE_QUAL_VOLATILE
));
580 this->define_builtin(BUILT_IN_SYNC_ADD_AND_FETCH_4
, "__sync_fetch_and_add_4",
581 NULL
, build_function_type_list(t
, p
, t
, NULL_TREE
),
584 t
= this->integer_type(true, BITS_PER_UNIT
* 8)->get_tree();
585 p
= build_pointer_type(build_qualified_type(t
, TYPE_QUAL_VOLATILE
));
586 this->define_builtin(BUILT_IN_SYNC_ADD_AND_FETCH_8
, "__sync_fetch_and_add_8",
587 NULL
, build_function_type_list(t
, p
, t
, NULL_TREE
),
590 // We use __builtin_expect for magic import functions.
591 this->define_builtin(BUILT_IN_EXPECT
, "__builtin_expect", NULL
,
592 build_function_type_list(long_integer_type_node
,
593 long_integer_type_node
,
594 long_integer_type_node
,
598 // We use __builtin_memcmp for struct comparisons.
599 this->define_builtin(BUILT_IN_MEMCMP
, "__builtin_memcmp", "memcmp",
600 build_function_type_list(integer_type_node
,
607 // Used by runtime/internal/sys.
608 this->define_builtin(BUILT_IN_CTZ
, "__builtin_ctz", "ctz",
609 build_function_type_list(integer_type_node
,
613 this->define_builtin(BUILT_IN_CTZLL
, "__builtin_ctzll", "ctzll",
614 build_function_type_list(integer_type_node
,
615 long_long_unsigned_type_node
,
618 this->define_builtin(BUILT_IN_BSWAP32
, "__builtin_bswap32", "bswap32",
619 build_function_type_list(uint32_type_node
,
623 this->define_builtin(BUILT_IN_BSWAP64
, "__builtin_bswap64", "bswap64",
624 build_function_type_list(uint64_type_node
,
629 // We provide some functions for the math library.
630 tree math_function_type
= build_function_type_list(double_type_node
,
633 tree math_function_type_long
=
634 build_function_type_list(long_double_type_node
, long_double_type_node
,
635 long_double_type_node
, NULL_TREE
);
636 tree math_function_type_two
= build_function_type_list(double_type_node
,
640 tree math_function_type_long_two
=
641 build_function_type_list(long_double_type_node
, long_double_type_node
,
642 long_double_type_node
, NULL_TREE
);
643 this->define_builtin(BUILT_IN_ACOS
, "__builtin_acos", "acos",
644 math_function_type
, true, false);
645 this->define_builtin(BUILT_IN_ACOSL
, "__builtin_acosl", "acosl",
646 math_function_type_long
, true, false);
647 this->define_builtin(BUILT_IN_ASIN
, "__builtin_asin", "asin",
648 math_function_type
, true, false);
649 this->define_builtin(BUILT_IN_ASINL
, "__builtin_asinl", "asinl",
650 math_function_type_long
, true, false);
651 this->define_builtin(BUILT_IN_ATAN
, "__builtin_atan", "atan",
652 math_function_type
, true, false);
653 this->define_builtin(BUILT_IN_ATANL
, "__builtin_atanl", "atanl",
654 math_function_type_long
, true, false);
655 this->define_builtin(BUILT_IN_ATAN2
, "__builtin_atan2", "atan2",
656 math_function_type_two
, true, false);
657 this->define_builtin(BUILT_IN_ATAN2L
, "__builtin_atan2l", "atan2l",
658 math_function_type_long_two
, true, false);
659 this->define_builtin(BUILT_IN_CEIL
, "__builtin_ceil", "ceil",
660 math_function_type
, true, false);
661 this->define_builtin(BUILT_IN_CEILL
, "__builtin_ceill", "ceill",
662 math_function_type_long
, true, false);
663 this->define_builtin(BUILT_IN_COS
, "__builtin_cos", "cos",
664 math_function_type
, true, false);
665 this->define_builtin(BUILT_IN_COSL
, "__builtin_cosl", "cosl",
666 math_function_type_long
, true, false);
667 this->define_builtin(BUILT_IN_EXP
, "__builtin_exp", "exp",
668 math_function_type
, true, false);
669 this->define_builtin(BUILT_IN_EXPL
, "__builtin_expl", "expl",
670 math_function_type_long
, true, false);
671 this->define_builtin(BUILT_IN_EXPM1
, "__builtin_expm1", "expm1",
672 math_function_type
, true, false);
673 this->define_builtin(BUILT_IN_EXPM1L
, "__builtin_expm1l", "expm1l",
674 math_function_type_long
, true, false);
675 this->define_builtin(BUILT_IN_FABS
, "__builtin_fabs", "fabs",
676 math_function_type
, true, false);
677 this->define_builtin(BUILT_IN_FABSL
, "__builtin_fabsl", "fabsl",
678 math_function_type_long
, true, false);
679 this->define_builtin(BUILT_IN_FLOOR
, "__builtin_floor", "floor",
680 math_function_type
, true, false);
681 this->define_builtin(BUILT_IN_FLOORL
, "__builtin_floorl", "floorl",
682 math_function_type_long
, true, false);
683 this->define_builtin(BUILT_IN_FMOD
, "__builtin_fmod", "fmod",
684 math_function_type_two
, true, false);
685 this->define_builtin(BUILT_IN_FMODL
, "__builtin_fmodl", "fmodl",
686 math_function_type_long_two
, true, false);
687 this->define_builtin(BUILT_IN_LDEXP
, "__builtin_ldexp", "ldexp",
688 build_function_type_list(double_type_node
,
693 this->define_builtin(BUILT_IN_LDEXPL
, "__builtin_ldexpl", "ldexpl",
694 build_function_type_list(long_double_type_node
,
695 long_double_type_node
,
699 this->define_builtin(BUILT_IN_LOG
, "__builtin_log", "log",
700 math_function_type
, true, false);
701 this->define_builtin(BUILT_IN_LOGL
, "__builtin_logl", "logl",
702 math_function_type_long
, true, false);
703 this->define_builtin(BUILT_IN_LOG1P
, "__builtin_log1p", "log1p",
704 math_function_type
, true, false);
705 this->define_builtin(BUILT_IN_LOG1PL
, "__builtin_log1pl", "log1pl",
706 math_function_type_long
, true, false);
707 this->define_builtin(BUILT_IN_LOG10
, "__builtin_log10", "log10",
708 math_function_type
, true, false);
709 this->define_builtin(BUILT_IN_LOG10L
, "__builtin_log10l", "log10l",
710 math_function_type_long
, true, false);
711 this->define_builtin(BUILT_IN_LOG2
, "__builtin_log2", "log2",
712 math_function_type
, true, false);
713 this->define_builtin(BUILT_IN_LOG2L
, "__builtin_log2l", "log2l",
714 math_function_type_long
, true, false);
715 this->define_builtin(BUILT_IN_SIN
, "__builtin_sin", "sin",
716 math_function_type
, true, false);
717 this->define_builtin(BUILT_IN_SINL
, "__builtin_sinl", "sinl",
718 math_function_type_long
, true, false);
719 this->define_builtin(BUILT_IN_SQRT
, "__builtin_sqrt", "sqrt",
720 math_function_type
, true, false);
721 this->define_builtin(BUILT_IN_SQRTL
, "__builtin_sqrtl", "sqrtl",
722 math_function_type_long
, true, false);
723 this->define_builtin(BUILT_IN_TAN
, "__builtin_tan", "tan",
724 math_function_type
, true, false);
725 this->define_builtin(BUILT_IN_TANL
, "__builtin_tanl", "tanl",
726 math_function_type_long
, true, false);
727 this->define_builtin(BUILT_IN_TRUNC
, "__builtin_trunc", "trunc",
728 math_function_type
, true, false);
729 this->define_builtin(BUILT_IN_TRUNCL
, "__builtin_truncl", "truncl",
730 math_function_type_long
, true, false);
732 // We use __builtin_return_address in the thunk we build for
733 // functions which call recover, and for runtime.getcallerpc.
734 t
= build_function_type_list(ptr_type_node
, unsigned_type_node
, NULL_TREE
);
735 this->define_builtin(BUILT_IN_RETURN_ADDRESS
, "__builtin_return_address",
736 NULL
, t
, false, false);
738 // The runtime calls __builtin_frame_address for runtime.getcallersp.
739 this->define_builtin(BUILT_IN_FRAME_ADDRESS
, "__builtin_frame_address",
740 NULL
, t
, false, false);
742 // The runtime calls __builtin_extract_return_addr when recording
743 // the address to which a function returns.
744 this->define_builtin(BUILT_IN_EXTRACT_RETURN_ADDR
,
745 "__builtin_extract_return_addr", NULL
,
746 build_function_type_list(ptr_type_node
,
751 // The compiler uses __builtin_trap for some exception handling
753 this->define_builtin(BUILT_IN_TRAP
, "__builtin_trap", NULL
,
754 build_function_type(void_type_node
, void_list_node
),
757 // The runtime uses __builtin_prefetch.
758 this->define_builtin(BUILT_IN_PREFETCH
, "__builtin_prefetch", NULL
,
759 build_varargs_function_type_list(void_type_node
,
765 // Get an unnamed integer type.
768 Gcc_backend::integer_type(bool is_unsigned
, int bits
)
773 if (bits
== INT_TYPE_SIZE
)
774 type
= unsigned_type_node
;
775 else if (bits
== CHAR_TYPE_SIZE
)
776 type
= unsigned_char_type_node
;
777 else if (bits
== SHORT_TYPE_SIZE
)
778 type
= short_unsigned_type_node
;
779 else if (bits
== LONG_TYPE_SIZE
)
780 type
= long_unsigned_type_node
;
781 else if (bits
== LONG_LONG_TYPE_SIZE
)
782 type
= long_long_unsigned_type_node
;
784 type
= make_unsigned_type(bits
);
788 if (bits
== INT_TYPE_SIZE
)
789 type
= integer_type_node
;
790 else if (bits
== CHAR_TYPE_SIZE
)
791 type
= signed_char_type_node
;
792 else if (bits
== SHORT_TYPE_SIZE
)
793 type
= short_integer_type_node
;
794 else if (bits
== LONG_TYPE_SIZE
)
795 type
= long_integer_type_node
;
796 else if (bits
== LONG_LONG_TYPE_SIZE
)
797 type
= long_long_integer_type_node
;
799 type
= make_signed_type(bits
);
801 return this->make_type(type
);
804 // Get an unnamed float type.
807 Gcc_backend::float_type(int bits
)
810 if (bits
== FLOAT_TYPE_SIZE
)
811 type
= float_type_node
;
812 else if (bits
== DOUBLE_TYPE_SIZE
)
813 type
= double_type_node
;
814 else if (bits
== LONG_DOUBLE_TYPE_SIZE
)
815 type
= long_double_type_node
;
818 type
= make_node(REAL_TYPE
);
819 TYPE_PRECISION(type
) = bits
;
822 return this->make_type(type
);
825 // Get an unnamed complex type.
828 Gcc_backend::complex_type(int bits
)
831 if (bits
== FLOAT_TYPE_SIZE
* 2)
832 type
= complex_float_type_node
;
833 else if (bits
== DOUBLE_TYPE_SIZE
* 2)
834 type
= complex_double_type_node
;
835 else if (bits
== LONG_DOUBLE_TYPE_SIZE
* 2)
836 type
= complex_long_double_type_node
;
839 type
= make_node(REAL_TYPE
);
840 TYPE_PRECISION(type
) = bits
/ 2;
842 type
= build_complex_type(type
);
844 return this->make_type(type
);
847 // Get a pointer type.
850 Gcc_backend::pointer_type(Btype
* to_type
)
852 tree to_type_tree
= to_type
->get_tree();
853 if (to_type_tree
== error_mark_node
)
854 return this->error_type();
855 tree type
= build_pointer_type(to_type_tree
);
856 return this->make_type(type
);
859 // Make a function type.
862 Gcc_backend::function_type(const Btyped_identifier
& receiver
,
863 const std::vector
<Btyped_identifier
>& parameters
,
864 const std::vector
<Btyped_identifier
>& results
,
865 Btype
* result_struct
,
868 tree args
= NULL_TREE
;
870 if (receiver
.btype
!= NULL
)
872 tree t
= receiver
.btype
->get_tree();
873 if (t
== error_mark_node
)
874 return this->error_type();
875 *pp
= tree_cons(NULL_TREE
, t
, NULL_TREE
);
876 pp
= &TREE_CHAIN(*pp
);
879 for (std::vector
<Btyped_identifier
>::const_iterator p
= parameters
.begin();
880 p
!= parameters
.end();
883 tree t
= p
->btype
->get_tree();
884 if (t
== error_mark_node
)
885 return this->error_type();
886 *pp
= tree_cons(NULL_TREE
, t
, NULL_TREE
);
887 pp
= &TREE_CHAIN(*pp
);
890 // Varargs is handled entirely at the Go level. When converted to
891 // GENERIC functions are not varargs.
892 *pp
= void_list_node
;
896 result
= void_type_node
;
897 else if (results
.size() == 1)
898 result
= results
.front().btype
->get_tree();
901 gcc_assert(result_struct
!= NULL
);
902 result
= result_struct
->get_tree();
904 if (result
== error_mark_node
)
905 return this->error_type();
907 // The libffi library can not represent a zero-sized object. To
908 // avoid causing confusion on 32-bit SPARC, we treat a function that
909 // returns a zero-sized value as returning void. That should do no
910 // harm since there is no actual value to be returned. See
911 // https://gcc.gnu.org/PR72814 for details.
912 if (result
!= void_type_node
&& int_size_in_bytes(result
) == 0)
913 result
= void_type_node
;
915 tree fntype
= build_function_type(result
, args
);
916 if (fntype
== error_mark_node
)
917 return this->error_type();
919 return this->make_type(build_pointer_type(fntype
));
922 // Make a struct type.
925 Gcc_backend::struct_type(const std::vector
<Btyped_identifier
>& fields
)
927 return this->fill_in_struct(this->make_type(make_node(RECORD_TYPE
)), fields
);
930 // Fill in the fields of a struct type.
933 Gcc_backend::fill_in_struct(Btype
* fill
,
934 const std::vector
<Btyped_identifier
>& fields
)
936 tree fill_tree
= fill
->get_tree();
937 tree field_trees
= NULL_TREE
;
938 tree
* pp
= &field_trees
;
939 for (std::vector
<Btyped_identifier
>::const_iterator p
= fields
.begin();
943 tree name_tree
= get_identifier_from_string(p
->name
);
944 tree type_tree
= p
->btype
->get_tree();
945 if (type_tree
== error_mark_node
)
946 return this->error_type();
947 tree field
= build_decl(p
->location
.gcc_location(), FIELD_DECL
, name_tree
,
949 DECL_CONTEXT(field
) = fill_tree
;
951 pp
= &DECL_CHAIN(field
);
953 TYPE_FIELDS(fill_tree
) = field_trees
;
954 layout_type(fill_tree
);
958 // Make an array type.
961 Gcc_backend::array_type(Btype
* element_btype
, Bexpression
* length
)
963 return this->fill_in_array(this->make_type(make_node(ARRAY_TYPE
)),
964 element_btype
, length
);
967 // Fill in an array type.
970 Gcc_backend::fill_in_array(Btype
* fill
, Btype
* element_type
,
973 tree element_type_tree
= element_type
->get_tree();
974 tree length_tree
= length
->get_tree();
975 if (element_type_tree
== error_mark_node
|| length_tree
== error_mark_node
)
976 return this->error_type();
978 gcc_assert(TYPE_SIZE(element_type_tree
) != NULL_TREE
);
980 length_tree
= fold_convert(sizetype
, length_tree
);
982 // build_index_type takes the maximum index, which is one less than
984 tree index_type_tree
= build_index_type(fold_build2(MINUS_EXPR
, sizetype
,
988 tree fill_tree
= fill
->get_tree();
989 TREE_TYPE(fill_tree
) = element_type_tree
;
990 TYPE_DOMAIN(fill_tree
) = index_type_tree
;
991 TYPE_ADDR_SPACE(fill_tree
) = TYPE_ADDR_SPACE(element_type_tree
);
992 layout_type(fill_tree
);
994 if (TYPE_STRUCTURAL_EQUALITY_P(element_type_tree
))
995 SET_TYPE_STRUCTURAL_EQUALITY(fill_tree
);
996 else if (TYPE_CANONICAL(element_type_tree
) != element_type_tree
997 || TYPE_CANONICAL(index_type_tree
) != index_type_tree
)
998 TYPE_CANONICAL(fill_tree
) =
999 build_array_type(TYPE_CANONICAL(element_type_tree
),
1000 TYPE_CANONICAL(index_type_tree
));
1005 // Create a placeholder for a pointer type.
1008 Gcc_backend::placeholder_pointer_type(const std::string
& name
,
1009 Location location
, bool)
1011 tree ret
= build_distinct_type_copy(ptr_type_node
);
1014 tree decl
= build_decl(location
.gcc_location(), TYPE_DECL
,
1015 get_identifier_from_string(name
),
1017 TYPE_NAME(ret
) = decl
;
1019 return this->make_type(ret
);
1022 // Set the real target type for a placeholder pointer type.
1025 Gcc_backend::set_placeholder_pointer_type(Btype
* placeholder
,
1028 tree pt
= placeholder
->get_tree();
1029 if (pt
== error_mark_node
)
1031 gcc_assert(TREE_CODE(pt
) == POINTER_TYPE
);
1032 tree tt
= to_type
->get_tree();
1033 if (tt
== error_mark_node
)
1035 placeholder
->set_tree(error_mark_node
);
1038 gcc_assert(TREE_CODE(tt
) == POINTER_TYPE
);
1039 TREE_TYPE(pt
) = TREE_TYPE(tt
);
1040 if (TYPE_NAME(pt
) != NULL_TREE
)
1042 // Build the data structure gcc wants to see for a typedef.
1043 tree copy
= build_variant_type_copy(pt
);
1044 TYPE_NAME(copy
) = NULL_TREE
;
1045 DECL_ORIGINAL_TYPE(TYPE_NAME(pt
)) = copy
;
1050 // Set the real values for a placeholder function type.
1053 Gcc_backend::set_placeholder_function_type(Btype
* placeholder
, Btype
* ft
)
1055 return this->set_placeholder_pointer_type(placeholder
, ft
);
1058 // Create a placeholder for a struct type.
1061 Gcc_backend::placeholder_struct_type(const std::string
& name
,
1064 tree ret
= make_node(RECORD_TYPE
);
1067 tree decl
= build_decl(location
.gcc_location(), TYPE_DECL
,
1068 get_identifier_from_string(name
),
1070 TYPE_NAME(ret
) = decl
;
1072 return this->make_type(ret
);
1075 // Fill in the fields of a placeholder struct type.
1078 Gcc_backend::set_placeholder_struct_type(
1080 const std::vector
<Btyped_identifier
>& fields
)
1082 tree t
= placeholder
->get_tree();
1083 gcc_assert(TREE_CODE(t
) == RECORD_TYPE
&& TYPE_FIELDS(t
) == NULL_TREE
);
1084 Btype
* r
= this->fill_in_struct(placeholder
, fields
);
1086 if (TYPE_NAME(t
) != NULL_TREE
)
1088 // Build the data structure gcc wants to see for a typedef.
1089 tree copy
= build_distinct_type_copy(t
);
1090 TYPE_NAME(copy
) = NULL_TREE
;
1091 DECL_ORIGINAL_TYPE(TYPE_NAME(t
)) = copy
;
1094 return r
->get_tree() != error_mark_node
;
1097 // Create a placeholder for an array type.
1100 Gcc_backend::placeholder_array_type(const std::string
& name
,
1103 tree ret
= make_node(ARRAY_TYPE
);
1104 tree decl
= build_decl(location
.gcc_location(), TYPE_DECL
,
1105 get_identifier_from_string(name
),
1107 TYPE_NAME(ret
) = decl
;
1108 return this->make_type(ret
);
1111 // Fill in the fields of a placeholder array type.
1114 Gcc_backend::set_placeholder_array_type(Btype
* placeholder
,
1115 Btype
* element_btype
,
1116 Bexpression
* length
)
1118 tree t
= placeholder
->get_tree();
1119 gcc_assert(TREE_CODE(t
) == ARRAY_TYPE
&& TREE_TYPE(t
) == NULL_TREE
);
1120 Btype
* r
= this->fill_in_array(placeholder
, element_btype
, length
);
1122 // Build the data structure gcc wants to see for a typedef.
1123 tree copy
= build_distinct_type_copy(t
);
1124 TYPE_NAME(copy
) = NULL_TREE
;
1125 DECL_ORIGINAL_TYPE(TYPE_NAME(t
)) = copy
;
1127 return r
->get_tree() != error_mark_node
;
1130 // Return a named version of a type.
1133 Gcc_backend::named_type(const std::string
& name
, Btype
* btype
,
1136 tree type
= btype
->get_tree();
1137 if (type
== error_mark_node
)
1138 return this->error_type();
1140 // The middle-end expects a basic type to have a name. In Go every
1141 // basic type will have a name. The first time we see a basic type,
1142 // give it whatever Go name we have at this point.
1143 if (TYPE_NAME(type
) == NULL_TREE
1144 && location
.gcc_location() == BUILTINS_LOCATION
1145 && (TREE_CODE(type
) == INTEGER_TYPE
1146 || TREE_CODE(type
) == REAL_TYPE
1147 || TREE_CODE(type
) == COMPLEX_TYPE
1148 || TREE_CODE(type
) == BOOLEAN_TYPE
))
1150 tree decl
= build_decl(BUILTINS_LOCATION
, TYPE_DECL
,
1151 get_identifier_from_string(name
),
1153 TYPE_NAME(type
) = decl
;
1154 return this->make_type(type
);
1157 tree copy
= build_variant_type_copy(type
);
1158 tree decl
= build_decl(location
.gcc_location(), TYPE_DECL
,
1159 get_identifier_from_string(name
),
1161 DECL_ORIGINAL_TYPE(decl
) = type
;
1162 TYPE_NAME(copy
) = decl
;
1163 return this->make_type(copy
);
1166 // Return a pointer type used as a marker for a circular type.
1169 Gcc_backend::circular_pointer_type(Btype
*, bool)
1171 return this->make_type(ptr_type_node
);
1174 // Return whether we might be looking at a circular type.
1177 Gcc_backend::is_circular_pointer_type(Btype
* btype
)
1179 return btype
->get_tree() == ptr_type_node
;
1182 // Return the size of a type.
1185 Gcc_backend::type_size(Btype
* btype
)
1187 tree t
= btype
->get_tree();
1188 if (t
== error_mark_node
)
1190 t
= TYPE_SIZE_UNIT(t
);
1191 gcc_assert(tree_fits_uhwi_p (t
));
1192 unsigned HOST_WIDE_INT val_wide
= TREE_INT_CST_LOW(t
);
1193 int64_t ret
= static_cast<int64_t>(val_wide
);
1194 if (ret
< 0 || static_cast<unsigned HOST_WIDE_INT
>(ret
) != val_wide
)
1199 // Return the alignment of a type.
1202 Gcc_backend::type_alignment(Btype
* btype
)
1204 tree t
= btype
->get_tree();
1205 if (t
== error_mark_node
)
1207 return TYPE_ALIGN_UNIT(t
);
1210 // Return the alignment of a struct field of type BTYPE.
1213 Gcc_backend::type_field_alignment(Btype
* btype
)
1215 tree t
= btype
->get_tree();
1216 if (t
== error_mark_node
)
1218 return go_field_alignment(t
);
1221 // Return the offset of a field in a struct.
1224 Gcc_backend::type_field_offset(Btype
* btype
, size_t index
)
1226 tree struct_tree
= btype
->get_tree();
1227 if (struct_tree
== error_mark_node
)
1229 gcc_assert(TREE_CODE(struct_tree
) == RECORD_TYPE
);
1230 tree field
= TYPE_FIELDS(struct_tree
);
1231 for (; index
> 0; --index
)
1233 field
= DECL_CHAIN(field
);
1234 gcc_assert(field
!= NULL_TREE
);
1236 HOST_WIDE_INT offset_wide
= int_byte_position(field
);
1237 int64_t ret
= static_cast<int64_t>(offset_wide
);
1238 gcc_assert(ret
== offset_wide
);
1242 // Return the zero value for a type.
1245 Gcc_backend::zero_expression(Btype
* btype
)
1247 tree t
= btype
->get_tree();
1249 if (t
== error_mark_node
)
1250 ret
= error_mark_node
;
1252 ret
= build_zero_cst(t
);
1253 return this->make_expression(ret
);
1256 // An expression that references a variable.
1259 Gcc_backend::var_expression(Bvariable
* var
, Varexpr_context
, Location location
)
1261 tree ret
= var
->get_tree(location
);
1262 if (ret
== error_mark_node
)
1263 return this->error_expression();
1264 return this->make_expression(ret
);
1267 // An expression that indirectly references an expression.
1270 Gcc_backend::indirect_expression(Btype
* btype
, Bexpression
* expr
,
1271 bool known_valid
, Location location
)
1273 tree expr_tree
= expr
->get_tree();
1274 tree type_tree
= btype
->get_tree();
1275 if (expr_tree
== error_mark_node
|| type_tree
== error_mark_node
)
1276 return this->error_expression();
1278 // If the type of EXPR is a recursive pointer type, then we
1279 // need to insert a cast before indirecting.
1280 tree target_type_tree
= TREE_TYPE(TREE_TYPE(expr_tree
));
1281 if (VOID_TYPE_P(target_type_tree
))
1282 expr_tree
= fold_convert_loc(location
.gcc_location(),
1283 build_pointer_type(type_tree
), expr_tree
);
1285 tree ret
= build_fold_indirect_ref_loc(location
.gcc_location(),
1288 TREE_THIS_NOTRAP(ret
) = 1;
1289 return this->make_expression(ret
);
1292 // Return an expression that declares a constant named NAME with the
1293 // constant value VAL in BTYPE.
1296 Gcc_backend::named_constant_expression(Btype
* btype
, const std::string
& name
,
1297 Bexpression
* val
, Location location
)
1299 tree type_tree
= btype
->get_tree();
1300 tree const_val
= val
->get_tree();
1301 if (type_tree
== error_mark_node
|| const_val
== error_mark_node
)
1302 return this->error_expression();
1304 tree name_tree
= get_identifier_from_string(name
);
1305 tree decl
= build_decl(location
.gcc_location(), CONST_DECL
, name_tree
,
1307 DECL_INITIAL(decl
) = const_val
;
1308 TREE_CONSTANT(decl
) = 1;
1309 TREE_READONLY(decl
) = 1;
1311 go_preserve_from_gc(decl
);
1312 return this->make_expression(decl
);
1315 // Return a typed value as a constant integer.
1318 Gcc_backend::integer_constant_expression(Btype
* btype
, mpz_t val
)
1320 tree t
= btype
->get_tree();
1321 if (t
== error_mark_node
)
1322 return this->error_expression();
1324 tree ret
= double_int_to_tree(t
, mpz_get_double_int(t
, val
, true));
1325 return this->make_expression(ret
);
1328 // Return a typed value as a constant floating-point number.
1331 Gcc_backend::float_constant_expression(Btype
* btype
, mpfr_t val
)
1333 tree t
= btype
->get_tree();
1335 if (t
== error_mark_node
)
1336 return this->error_expression();
1339 real_from_mpfr(&r1
, val
, t
, GMP_RNDN
);
1341 real_convert(&r2
, TYPE_MODE(t
), &r1
);
1342 ret
= build_real(t
, r2
);
1343 return this->make_expression(ret
);
1346 // Return a typed real and imaginary value as a constant complex number.
1349 Gcc_backend::complex_constant_expression(Btype
* btype
, mpc_t val
)
1351 tree t
= btype
->get_tree();
1353 if (t
== error_mark_node
)
1354 return this->error_expression();
1357 real_from_mpfr(&r1
, mpc_realref(val
), TREE_TYPE(t
), GMP_RNDN
);
1359 real_convert(&r2
, TYPE_MODE(TREE_TYPE(t
)), &r1
);
1362 real_from_mpfr(&r3
, mpc_imagref(val
), TREE_TYPE(t
), GMP_RNDN
);
1364 real_convert(&r4
, TYPE_MODE(TREE_TYPE(t
)), &r3
);
1366 ret
= build_complex(t
, build_real(TREE_TYPE(t
), r2
),
1367 build_real(TREE_TYPE(t
), r4
));
1368 return this->make_expression(ret
);
1371 // Make a constant string expression.
1374 Gcc_backend::string_constant_expression(const std::string
& val
)
1376 tree index_type
= build_index_type(size_int(val
.length()));
1377 tree const_char_type
= build_qualified_type(unsigned_char_type_node
,
1379 tree string_type
= build_array_type(const_char_type
, index_type
);
1380 TYPE_STRING_FLAG(string_type
) = 1;
1381 tree string_val
= build_string(val
.length(), val
.data());
1382 TREE_TYPE(string_val
) = string_type
;
1384 return this->make_expression(string_val
);
1387 // Make a constant boolean expression.
1390 Gcc_backend::boolean_constant_expression(bool val
)
1392 tree bool_cst
= val
? boolean_true_node
: boolean_false_node
;
1393 return this->make_expression(bool_cst
);
1396 // Return the real part of a complex expression.
1399 Gcc_backend::real_part_expression(Bexpression
* bcomplex
, Location location
)
1401 tree complex_tree
= bcomplex
->get_tree();
1402 if (complex_tree
== error_mark_node
)
1403 return this->error_expression();
1404 gcc_assert(COMPLEX_FLOAT_TYPE_P(TREE_TYPE(complex_tree
)));
1405 tree ret
= fold_build1_loc(location
.gcc_location(), REALPART_EXPR
,
1406 TREE_TYPE(TREE_TYPE(complex_tree
)),
1408 return this->make_expression(ret
);
1411 // Return the imaginary part of a complex expression.
1414 Gcc_backend::imag_part_expression(Bexpression
* bcomplex
, Location location
)
1416 tree complex_tree
= bcomplex
->get_tree();
1417 if (complex_tree
== error_mark_node
)
1418 return this->error_expression();
1419 gcc_assert(COMPLEX_FLOAT_TYPE_P(TREE_TYPE(complex_tree
)));
1420 tree ret
= fold_build1_loc(location
.gcc_location(), IMAGPART_EXPR
,
1421 TREE_TYPE(TREE_TYPE(complex_tree
)),
1423 return this->make_expression(ret
);
1426 // Make a complex expression given its real and imaginary parts.
1429 Gcc_backend::complex_expression(Bexpression
* breal
, Bexpression
* bimag
,
1432 tree real_tree
= breal
->get_tree();
1433 tree imag_tree
= bimag
->get_tree();
1434 if (real_tree
== error_mark_node
|| imag_tree
== error_mark_node
)
1435 return this->error_expression();
1436 gcc_assert(TYPE_MAIN_VARIANT(TREE_TYPE(real_tree
))
1437 == TYPE_MAIN_VARIANT(TREE_TYPE(imag_tree
)));
1438 gcc_assert(SCALAR_FLOAT_TYPE_P(TREE_TYPE(real_tree
)));
1439 tree ret
= fold_build2_loc(location
.gcc_location(), COMPLEX_EXPR
,
1440 build_complex_type(TREE_TYPE(real_tree
)),
1441 real_tree
, imag_tree
);
1442 return this->make_expression(ret
);
1445 // An expression that converts an expression to a different type.
1448 Gcc_backend::convert_expression(Btype
* type
, Bexpression
* expr
,
1451 tree type_tree
= type
->get_tree();
1452 tree expr_tree
= expr
->get_tree();
1453 if (type_tree
== error_mark_node
1454 || expr_tree
== error_mark_node
1455 || TREE_TYPE(expr_tree
) == error_mark_node
)
1456 return this->error_expression();
1459 if (this->type_size(type
) == 0)
1461 // Do not convert zero-sized types.
1464 else if (TREE_CODE(type_tree
) == INTEGER_TYPE
)
1465 ret
= fold(convert_to_integer(type_tree
, expr_tree
));
1466 else if (TREE_CODE(type_tree
) == REAL_TYPE
)
1467 ret
= fold(convert_to_real(type_tree
, expr_tree
));
1468 else if (TREE_CODE(type_tree
) == COMPLEX_TYPE
)
1469 ret
= fold(convert_to_complex(type_tree
, expr_tree
));
1470 else if (TREE_CODE(type_tree
) == POINTER_TYPE
1471 && TREE_CODE(TREE_TYPE(expr_tree
)) == INTEGER_TYPE
)
1472 ret
= fold(convert_to_pointer(type_tree
, expr_tree
));
1473 else if (TREE_CODE(type_tree
) == RECORD_TYPE
1474 || TREE_CODE(type_tree
) == ARRAY_TYPE
)
1475 ret
= fold_build1_loc(location
.gcc_location(), VIEW_CONVERT_EXPR
,
1476 type_tree
, expr_tree
);
1478 ret
= fold_convert_loc(location
.gcc_location(), type_tree
, expr_tree
);
1480 return this->make_expression(ret
);
1483 // Get the address of a function.
1486 Gcc_backend::function_code_expression(Bfunction
* bfunc
, Location location
)
1488 tree func
= bfunc
->get_tree();
1489 if (func
== error_mark_node
)
1490 return this->error_expression();
1492 tree ret
= build_fold_addr_expr_loc(location
.gcc_location(), func
);
1493 return this->make_expression(ret
);
1496 // Get the address of an expression.
1499 Gcc_backend::address_expression(Bexpression
* bexpr
, Location location
)
1501 tree expr
= bexpr
->get_tree();
1502 if (expr
== error_mark_node
)
1503 return this->error_expression();
1505 tree ret
= build_fold_addr_expr_loc(location
.gcc_location(), expr
);
1506 return this->make_expression(ret
);
1509 // Return an expression for the field at INDEX in BSTRUCT.
1512 Gcc_backend::struct_field_expression(Bexpression
* bstruct
, size_t index
,
1515 tree struct_tree
= bstruct
->get_tree();
1516 if (struct_tree
== error_mark_node
1517 || TREE_TYPE(struct_tree
) == error_mark_node
)
1518 return this->error_expression();
1519 gcc_assert(TREE_CODE(TREE_TYPE(struct_tree
)) == RECORD_TYPE
);
1520 tree field
= TYPE_FIELDS(TREE_TYPE(struct_tree
));
1521 if (field
== NULL_TREE
)
1523 // This can happen for a type which refers to itself indirectly
1524 // and then turns out to be erroneous.
1525 return this->error_expression();
1527 for (unsigned int i
= index
; i
> 0; --i
)
1529 field
= DECL_CHAIN(field
);
1530 gcc_assert(field
!= NULL_TREE
);
1532 if (TREE_TYPE(field
) == error_mark_node
)
1533 return this->error_expression();
1534 tree ret
= fold_build3_loc(location
.gcc_location(), COMPONENT_REF
,
1535 TREE_TYPE(field
), struct_tree
, field
,
1537 if (TREE_CONSTANT(struct_tree
))
1538 TREE_CONSTANT(ret
) = 1;
1539 return this->make_expression(ret
);
1542 // Return an expression that executes BSTAT before BEXPR.
1545 Gcc_backend::compound_expression(Bstatement
* bstat
, Bexpression
* bexpr
,
1548 tree stat
= bstat
->get_tree();
1549 tree expr
= bexpr
->get_tree();
1550 if (stat
== error_mark_node
|| expr
== error_mark_node
)
1551 return this->error_expression();
1552 tree ret
= fold_build2_loc(location
.gcc_location(), COMPOUND_EXPR
,
1553 TREE_TYPE(expr
), stat
, expr
);
1554 return this->make_expression(ret
);
1557 // Return an expression that executes THEN_EXPR if CONDITION is true, or
1558 // ELSE_EXPR otherwise.
1561 Gcc_backend::conditional_expression(Bfunction
*, Btype
* btype
,
1562 Bexpression
* condition
,
1563 Bexpression
* then_expr
,
1564 Bexpression
* else_expr
, Location location
)
1566 tree type_tree
= btype
== NULL
? void_type_node
: btype
->get_tree();
1567 tree cond_tree
= condition
->get_tree();
1568 tree then_tree
= then_expr
->get_tree();
1569 tree else_tree
= else_expr
== NULL
? NULL_TREE
: else_expr
->get_tree();
1570 if (type_tree
== error_mark_node
1571 || cond_tree
== error_mark_node
1572 || then_tree
== error_mark_node
1573 || else_tree
== error_mark_node
)
1574 return this->error_expression();
1575 tree ret
= build3_loc(location
.gcc_location(), COND_EXPR
, type_tree
,
1576 cond_tree
, then_tree
, else_tree
);
1577 return this->make_expression(ret
);
1580 // Return an expression for the unary operation OP EXPR.
1583 Gcc_backend::unary_expression(Operator op
, Bexpression
* expr
, Location location
)
1585 tree expr_tree
= expr
->get_tree();
1586 if (expr_tree
== error_mark_node
1587 || TREE_TYPE(expr_tree
) == error_mark_node
)
1588 return this->error_expression();
1590 tree type_tree
= TREE_TYPE(expr_tree
);
1591 enum tree_code code
;
1594 case OPERATOR_MINUS
:
1596 tree computed_type
= excess_precision_type(type_tree
);
1597 if (computed_type
!= NULL_TREE
)
1599 expr_tree
= convert(computed_type
, expr_tree
);
1600 type_tree
= computed_type
;
1606 code
= TRUTH_NOT_EXPR
;
1609 code
= BIT_NOT_EXPR
;
1616 tree ret
= fold_build1_loc(location
.gcc_location(), code
, type_tree
,
1618 return this->make_expression(ret
);
1621 // Convert a gofrontend operator to an equivalent tree_code.
1623 static enum tree_code
1624 operator_to_tree_code(Operator op
, tree type
)
1626 enum tree_code code
;
1632 case OPERATOR_NOTEQ
:
1648 code
= TRUTH_ORIF_EXPR
;
1650 case OPERATOR_ANDAND
:
1651 code
= TRUTH_ANDIF_EXPR
;
1656 case OPERATOR_MINUS
:
1660 code
= BIT_IOR_EXPR
;
1663 code
= BIT_XOR_EXPR
;
1669 if (TREE_CODE(type
) == REAL_TYPE
|| TREE_CODE(type
) == COMPLEX_TYPE
)
1672 code
= TRUNC_DIV_EXPR
;
1675 code
= TRUNC_MOD_EXPR
;
1677 case OPERATOR_LSHIFT
:
1680 case OPERATOR_RSHIFT
:
1684 code
= BIT_AND_EXPR
;
1686 case OPERATOR_BITCLEAR
:
1687 code
= BIT_AND_EXPR
;
1696 // Return an expression for the binary operation LEFT OP RIGHT.
1699 Gcc_backend::binary_expression(Operator op
, Bexpression
* left
,
1700 Bexpression
* right
, Location location
)
1702 tree left_tree
= left
->get_tree();
1703 tree right_tree
= right
->get_tree();
1704 if (left_tree
== error_mark_node
1705 || right_tree
== error_mark_node
)
1706 return this->error_expression();
1707 enum tree_code code
= operator_to_tree_code(op
, TREE_TYPE(left_tree
));
1709 bool use_left_type
= op
!= OPERATOR_OROR
&& op
!= OPERATOR_ANDAND
;
1710 tree type_tree
= use_left_type
? TREE_TYPE(left_tree
) : TREE_TYPE(right_tree
);
1711 tree computed_type
= excess_precision_type(type_tree
);
1712 if (computed_type
!= NULL_TREE
)
1714 left_tree
= convert(computed_type
, left_tree
);
1715 right_tree
= convert(computed_type
, right_tree
);
1716 type_tree
= computed_type
;
1719 // For comparison operators, the resulting type should be boolean.
1723 case OPERATOR_NOTEQ
:
1728 type_tree
= boolean_type_node
;
1734 tree ret
= fold_build2_loc(location
.gcc_location(), code
, type_tree
,
1735 left_tree
, right_tree
);
1736 return this->make_expression(ret
);
1739 // Return an expression that constructs BTYPE with VALS.
1742 Gcc_backend::constructor_expression(Btype
* btype
,
1743 const std::vector
<Bexpression
*>& vals
,
1746 tree type_tree
= btype
->get_tree();
1747 if (type_tree
== error_mark_node
)
1748 return this->error_expression();
1750 vec
<constructor_elt
, va_gc
> *init
;
1751 vec_alloc(init
, vals
.size());
1753 tree sink
= NULL_TREE
;
1754 bool is_constant
= true;
1755 tree field
= TYPE_FIELDS(type_tree
);
1756 for (std::vector
<Bexpression
*>::const_iterator p
= vals
.begin();
1758 ++p
, field
= DECL_CHAIN(field
))
1760 gcc_assert(field
!= NULL_TREE
);
1761 tree val
= (*p
)->get_tree();
1762 if (TREE_TYPE(field
) == error_mark_node
1763 || val
== error_mark_node
1764 || TREE_TYPE(val
) == error_mark_node
)
1765 return this->error_expression();
1767 if (int_size_in_bytes(TREE_TYPE(field
)) == 0)
1769 // GIMPLE cannot represent indices of zero-sized types so
1770 // trying to construct a map with zero-sized keys might lead
1771 // to errors. Instead, we evaluate each expression that
1772 // would have been added as a map element for its
1773 // side-effects and construct an empty map.
1774 append_to_statement_list(val
, &sink
);
1778 constructor_elt empty
= {NULL
, NULL
};
1779 constructor_elt
* elt
= init
->quick_push(empty
);
1781 elt
->value
= fold_convert_loc(location
.gcc_location(), TREE_TYPE(field
),
1783 if (!TREE_CONSTANT(elt
->value
))
1784 is_constant
= false;
1786 gcc_assert(field
== NULL_TREE
);
1787 tree ret
= build_constructor(type_tree
, init
);
1789 TREE_CONSTANT(ret
) = 1;
1790 if (sink
!= NULL_TREE
)
1791 ret
= fold_build2_loc(location
.gcc_location(), COMPOUND_EXPR
,
1792 type_tree
, sink
, ret
);
1793 return this->make_expression(ret
);
1797 Gcc_backend::array_constructor_expression(
1798 Btype
* array_btype
, const std::vector
<unsigned long>& indexes
,
1799 const std::vector
<Bexpression
*>& vals
, Location location
)
1801 tree type_tree
= array_btype
->get_tree();
1802 if (type_tree
== error_mark_node
)
1803 return this->error_expression();
1805 gcc_assert(indexes
.size() == vals
.size());
1807 tree element_type
= TREE_TYPE(type_tree
);
1808 HOST_WIDE_INT element_size
= int_size_in_bytes(element_type
);
1809 vec
<constructor_elt
, va_gc
> *init
;
1810 vec_alloc(init
, element_size
== 0 ? 0 : vals
.size());
1812 tree sink
= NULL_TREE
;
1813 bool is_constant
= true;
1814 for (size_t i
= 0; i
< vals
.size(); ++i
)
1816 tree index
= size_int(indexes
[i
]);
1817 tree val
= (vals
[i
])->get_tree();
1819 if (index
== error_mark_node
1820 || val
== error_mark_node
)
1821 return this->error_expression();
1823 if (element_size
== 0)
1825 // GIMPLE cannot represent arrays of zero-sized types so trying
1826 // to construct an array of zero-sized values might lead to errors.
1827 // Instead, we evaluate each expression that would have been added as
1828 // an array value for its side-effects and construct an empty array.
1829 append_to_statement_list(val
, &sink
);
1833 if (!TREE_CONSTANT(val
))
1834 is_constant
= false;
1836 constructor_elt empty
= {NULL
, NULL
};
1837 constructor_elt
* elt
= init
->quick_push(empty
);
1842 tree ret
= build_constructor(type_tree
, init
);
1844 TREE_CONSTANT(ret
) = 1;
1845 if (sink
!= NULL_TREE
)
1846 ret
= fold_build2_loc(location
.gcc_location(), COMPOUND_EXPR
,
1847 type_tree
, sink
, ret
);
1848 return this->make_expression(ret
);
1851 // Return an expression for the address of BASE[INDEX].
1854 Gcc_backend::pointer_offset_expression(Bexpression
* base
, Bexpression
* index
,
1857 tree base_tree
= base
->get_tree();
1858 tree index_tree
= index
->get_tree();
1859 tree element_type_tree
= TREE_TYPE(TREE_TYPE(base_tree
));
1860 if (base_tree
== error_mark_node
1861 || TREE_TYPE(base_tree
) == error_mark_node
1862 || index_tree
== error_mark_node
1863 || element_type_tree
== error_mark_node
)
1864 return this->error_expression();
1866 tree element_size
= TYPE_SIZE_UNIT(element_type_tree
);
1867 index_tree
= fold_convert_loc(location
.gcc_location(), sizetype
, index_tree
);
1868 tree offset
= fold_build2_loc(location
.gcc_location(), MULT_EXPR
, sizetype
,
1869 index_tree
, element_size
);
1870 tree ptr
= fold_build2_loc(location
.gcc_location(), POINTER_PLUS_EXPR
,
1871 TREE_TYPE(base_tree
), base_tree
, offset
);
1872 return this->make_expression(ptr
);
1875 // Return an expression representing ARRAY[INDEX]
1878 Gcc_backend::array_index_expression(Bexpression
* array
, Bexpression
* index
,
1881 tree array_tree
= array
->get_tree();
1882 tree index_tree
= index
->get_tree();
1883 if (array_tree
== error_mark_node
1884 || TREE_TYPE(array_tree
) == error_mark_node
1885 || index_tree
== error_mark_node
)
1886 return this->error_expression();
1888 tree ret
= build4_loc(location
.gcc_location(), ARRAY_REF
,
1889 TREE_TYPE(TREE_TYPE(array_tree
)), array_tree
,
1890 index_tree
, NULL_TREE
, NULL_TREE
);
1891 return this->make_expression(ret
);
1894 // Create an expression for a call to FN_EXPR with FN_ARGS.
1896 Gcc_backend::call_expression(Bfunction
*, // containing fcn for call
1897 Bexpression
* fn_expr
,
1898 const std::vector
<Bexpression
*>& fn_args
,
1899 Bexpression
* chain_expr
,
1902 tree fn
= fn_expr
->get_tree();
1903 if (fn
== error_mark_node
|| TREE_TYPE(fn
) == error_mark_node
)
1904 return this->error_expression();
1906 gcc_assert(FUNCTION_POINTER_TYPE_P(TREE_TYPE(fn
)));
1907 tree rettype
= TREE_TYPE(TREE_TYPE(TREE_TYPE(fn
)));
1909 size_t nargs
= fn_args
.size();
1910 tree
* args
= nargs
== 0 ? NULL
: new tree
[nargs
];
1911 for (size_t i
= 0; i
< nargs
; ++i
)
1913 args
[i
] = fn_args
.at(i
)->get_tree();
1914 if (args
[i
] == error_mark_node
)
1915 return this->error_expression();
1919 if (TREE_CODE(fndecl
) == ADDR_EXPR
)
1920 fndecl
= TREE_OPERAND(fndecl
, 0);
1922 // This is to support builtin math functions when using 80387 math.
1923 tree excess_type
= NULL_TREE
;
1925 && TREE_CODE(fndecl
) == FUNCTION_DECL
1926 && DECL_IS_BUILTIN(fndecl
)
1927 && DECL_BUILT_IN_CLASS(fndecl
) == BUILT_IN_NORMAL
1929 && ((SCALAR_FLOAT_TYPE_P(rettype
)
1930 && SCALAR_FLOAT_TYPE_P(TREE_TYPE(args
[0])))
1931 || (COMPLEX_FLOAT_TYPE_P(rettype
)
1932 && COMPLEX_FLOAT_TYPE_P(TREE_TYPE(args
[0])))))
1934 excess_type
= excess_precision_type(TREE_TYPE(args
[0]));
1935 if (excess_type
!= NULL_TREE
)
1937 tree excess_fndecl
= mathfn_built_in(excess_type
,
1938 DECL_FUNCTION_CODE(fndecl
));
1939 if (excess_fndecl
== NULL_TREE
)
1940 excess_type
= NULL_TREE
;
1943 fn
= build_fold_addr_expr_loc(location
.gcc_location(),
1945 for (size_t i
= 0; i
< nargs
; ++i
)
1947 if (SCALAR_FLOAT_TYPE_P(TREE_TYPE(args
[i
]))
1948 || COMPLEX_FLOAT_TYPE_P(TREE_TYPE(args
[i
])))
1949 args
[i
] = ::convert(excess_type
, args
[i
]);
1956 build_call_array_loc(location
.gcc_location(),
1957 excess_type
!= NULL_TREE
? excess_type
: rettype
,
1961 CALL_EXPR_STATIC_CHAIN (ret
) = chain_expr
->get_tree();
1963 if (excess_type
!= NULL_TREE
)
1965 // Calling convert here can undo our excess precision change.
1966 // That may or may not be a bug in convert_to_real.
1967 ret
= build1_loc(location
.gcc_location(), NOP_EXPR
, rettype
, ret
);
1971 return this->make_expression(ret
);
1974 // Return an expression that allocates SIZE bytes on the stack.
1977 Gcc_backend::stack_allocation_expression(int64_t size
, Location location
)
1979 tree alloca
= builtin_decl_explicit(BUILT_IN_ALLOCA
);
1980 tree size_tree
= build_int_cst(integer_type_node
, size
);
1981 tree ret
= build_call_expr_loc(location
.gcc_location(), alloca
, 1, size_tree
);
1982 tree memset
= builtin_decl_explicit(BUILT_IN_MEMSET
);
1983 ret
= build_call_expr_loc(location
.gcc_location(), memset
, 3,
1984 ret
, integer_zero_node
, size_tree
);
1985 return this->make_expression(ret
);
1988 // An expression as a statement.
1991 Gcc_backend::expression_statement(Bfunction
*, Bexpression
* expr
)
1993 return this->make_statement(expr
->get_tree());
1996 // Variable initialization.
1999 Gcc_backend::init_statement(Bfunction
*, Bvariable
* var
, Bexpression
* init
)
2001 tree var_tree
= var
->get_decl();
2002 tree init_tree
= init
->get_tree();
2003 if (var_tree
== error_mark_node
|| init_tree
== error_mark_node
)
2004 return this->error_statement();
2005 gcc_assert(TREE_CODE(var_tree
) == VAR_DECL
);
2007 // To avoid problems with GNU ld, we don't make zero-sized
2008 // externally visible variables. That might lead us to doing an
2009 // initialization of a zero-sized expression to a non-zero sized
2010 // variable, or vice-versa. Avoid crashes by omitting the
2011 // initializer. Such initializations don't mean anything anyhow.
2012 if (int_size_in_bytes(TREE_TYPE(var_tree
)) != 0
2013 && init_tree
!= NULL_TREE
2014 && int_size_in_bytes(TREE_TYPE(init_tree
)) != 0)
2016 DECL_INITIAL(var_tree
) = init_tree
;
2017 init_tree
= NULL_TREE
;
2020 tree ret
= build1_loc(DECL_SOURCE_LOCATION(var_tree
), DECL_EXPR
,
2021 void_type_node
, var_tree
);
2022 if (init_tree
!= NULL_TREE
)
2023 ret
= build2_loc(DECL_SOURCE_LOCATION(var_tree
), COMPOUND_EXPR
,
2024 void_type_node
, init_tree
, ret
);
2026 return this->make_statement(ret
);
2032 Gcc_backend::assignment_statement(Bfunction
* bfn
, Bexpression
* lhs
,
2033 Bexpression
* rhs
, Location location
)
2035 tree lhs_tree
= lhs
->get_tree();
2036 tree rhs_tree
= rhs
->get_tree();
2037 if (lhs_tree
== error_mark_node
|| rhs_tree
== error_mark_node
)
2038 return this->error_statement();
2040 // To avoid problems with GNU ld, we don't make zero-sized
2041 // externally visible variables. That might lead us to doing an
2042 // assignment of a zero-sized expression to a non-zero sized
2043 // expression; avoid crashes here by avoiding assignments of
2044 // zero-sized expressions. Such assignments don't really mean
2046 if (int_size_in_bytes(TREE_TYPE(lhs_tree
)) == 0
2047 || int_size_in_bytes(TREE_TYPE(rhs_tree
)) == 0)
2048 return this->compound_statement(this->expression_statement(bfn
, lhs
),
2049 this->expression_statement(bfn
, rhs
));
2051 // Sometimes the same unnamed Go type can be created multiple times
2052 // and thus have multiple tree representations. Make sure this does
2053 // not confuse the middle-end.
2054 if (TREE_TYPE(lhs_tree
) != TREE_TYPE(rhs_tree
))
2056 tree lhs_type_tree
= TREE_TYPE(lhs_tree
);
2057 gcc_assert(TREE_CODE(lhs_type_tree
) == TREE_CODE(TREE_TYPE(rhs_tree
)));
2058 if (POINTER_TYPE_P(lhs_type_tree
)
2059 || INTEGRAL_TYPE_P(lhs_type_tree
)
2060 || SCALAR_FLOAT_TYPE_P(lhs_type_tree
)
2061 || COMPLEX_FLOAT_TYPE_P(lhs_type_tree
))
2062 rhs_tree
= fold_convert_loc(location
.gcc_location(), lhs_type_tree
,
2064 else if (TREE_CODE(lhs_type_tree
) == RECORD_TYPE
2065 || TREE_CODE(lhs_type_tree
) == ARRAY_TYPE
)
2067 gcc_assert(int_size_in_bytes(lhs_type_tree
)
2068 == int_size_in_bytes(TREE_TYPE(rhs_tree
)));
2069 rhs_tree
= fold_build1_loc(location
.gcc_location(),
2071 lhs_type_tree
, rhs_tree
);
2075 return this->make_statement(fold_build2_loc(location
.gcc_location(),
2078 lhs_tree
, rhs_tree
));
2084 Gcc_backend::return_statement(Bfunction
* bfunction
,
2085 const std::vector
<Bexpression
*>& vals
,
2088 tree fntree
= bfunction
->get_tree();
2089 if (fntree
== error_mark_node
)
2090 return this->error_statement();
2091 tree result
= DECL_RESULT(fntree
);
2092 if (result
== error_mark_node
)
2093 return this->error_statement();
2095 // If the result size is zero bytes, we have set the function type
2096 // to have a result type of void, so don't return anything.
2097 // See the function_type method.
2098 tree res_type
= TREE_TYPE(result
);
2099 if (res_type
== void_type_node
|| int_size_in_bytes(res_type
) == 0)
2101 tree stmt_list
= NULL_TREE
;
2102 for (std::vector
<Bexpression
*>::const_iterator p
= vals
.begin();
2106 tree val
= (*p
)->get_tree();
2107 if (val
== error_mark_node
)
2108 return this->error_statement();
2109 append_to_statement_list(val
, &stmt_list
);
2111 tree ret
= fold_build1_loc(location
.gcc_location(), RETURN_EXPR
,
2112 void_type_node
, NULL_TREE
);
2113 append_to_statement_list(ret
, &stmt_list
);
2114 return this->make_statement(stmt_list
);
2119 ret
= fold_build1_loc(location
.gcc_location(), RETURN_EXPR
, void_type_node
,
2121 else if (vals
.size() == 1)
2123 tree val
= vals
.front()->get_tree();
2124 if (val
== error_mark_node
)
2125 return this->error_statement();
2126 tree set
= fold_build2_loc(location
.gcc_location(), MODIFY_EXPR
,
2127 void_type_node
, result
,
2128 vals
.front()->get_tree());
2129 ret
= fold_build1_loc(location
.gcc_location(), RETURN_EXPR
,
2130 void_type_node
, set
);
2134 // To return multiple values, copy the values into a temporary
2135 // variable of the right structure type, and then assign the
2136 // temporary variable to the DECL_RESULT in the return
2138 tree stmt_list
= NULL_TREE
;
2139 tree rettype
= TREE_TYPE(result
);
2141 if (DECL_STRUCT_FUNCTION(fntree
) == NULL
)
2142 push_struct_function(fntree
);
2144 push_cfun(DECL_STRUCT_FUNCTION(fntree
));
2145 tree rettmp
= create_tmp_var(rettype
, "RESULT");
2148 tree field
= TYPE_FIELDS(rettype
);
2149 for (std::vector
<Bexpression
*>::const_iterator p
= vals
.begin();
2151 p
++, field
= DECL_CHAIN(field
))
2153 gcc_assert(field
!= NULL_TREE
);
2154 tree ref
= fold_build3_loc(location
.gcc_location(), COMPONENT_REF
,
2155 TREE_TYPE(field
), rettmp
, field
,
2157 tree val
= (*p
)->get_tree();
2158 if (val
== error_mark_node
)
2159 return this->error_statement();
2160 tree set
= fold_build2_loc(location
.gcc_location(), MODIFY_EXPR
,
2162 ref
, (*p
)->get_tree());
2163 append_to_statement_list(set
, &stmt_list
);
2165 gcc_assert(field
== NULL_TREE
);
2166 tree set
= fold_build2_loc(location
.gcc_location(), MODIFY_EXPR
,
2169 tree ret_expr
= fold_build1_loc(location
.gcc_location(), RETURN_EXPR
,
2170 void_type_node
, set
);
2171 append_to_statement_list(ret_expr
, &stmt_list
);
2174 return this->make_statement(ret
);
2177 // Create a statement that attempts to execute BSTAT and calls EXCEPT_STMT if an
2178 // error occurs. EXCEPT_STMT may be NULL. FINALLY_STMT may be NULL and if not
2179 // NULL, it will always be executed. This is used for handling defers in Go
2180 // functions. In C++, the resulting code is of this form:
2181 // try { BSTAT; } catch { EXCEPT_STMT; } finally { FINALLY_STMT; }
2184 Gcc_backend::exception_handler_statement(Bstatement
* bstat
,
2185 Bstatement
* except_stmt
,
2186 Bstatement
* finally_stmt
,
2189 tree stat_tree
= bstat
->get_tree();
2190 tree except_tree
= except_stmt
== NULL
? NULL_TREE
: except_stmt
->get_tree();
2191 tree finally_tree
= finally_stmt
== NULL
2193 : finally_stmt
->get_tree();
2195 if (stat_tree
== error_mark_node
2196 || except_tree
== error_mark_node
2197 || finally_tree
== error_mark_node
)
2198 return this->error_statement();
2200 if (except_tree
!= NULL_TREE
)
2201 stat_tree
= build2_loc(location
.gcc_location(), TRY_CATCH_EXPR
,
2202 void_type_node
, stat_tree
,
2203 build2_loc(location
.gcc_location(), CATCH_EXPR
,
2204 void_type_node
, NULL
, except_tree
));
2205 if (finally_tree
!= NULL_TREE
)
2206 stat_tree
= build2_loc(location
.gcc_location(), TRY_FINALLY_EXPR
,
2207 void_type_node
, stat_tree
, finally_tree
);
2208 return this->make_statement(stat_tree
);
2214 Gcc_backend::if_statement(Bfunction
*, Bexpression
* condition
,
2215 Bblock
* then_block
, Bblock
* else_block
,
2218 tree cond_tree
= condition
->get_tree();
2219 tree then_tree
= then_block
->get_tree();
2220 tree else_tree
= else_block
== NULL
? NULL_TREE
: else_block
->get_tree();
2221 if (cond_tree
== error_mark_node
2222 || then_tree
== error_mark_node
2223 || else_tree
== error_mark_node
)
2224 return this->error_statement();
2225 tree ret
= build3_loc(location
.gcc_location(), COND_EXPR
, void_type_node
,
2226 cond_tree
, then_tree
, else_tree
);
2227 return this->make_statement(ret
);
2233 Gcc_backend::switch_statement(
2234 Bfunction
* function
,
2236 const std::vector
<std::vector
<Bexpression
*> >& cases
,
2237 const std::vector
<Bstatement
*>& statements
,
2238 Location switch_location
)
2240 gcc_assert(cases
.size() == statements
.size());
2242 tree decl
= function
->get_tree();
2243 if (DECL_STRUCT_FUNCTION(decl
) == NULL
)
2244 push_struct_function(decl
);
2246 push_cfun(DECL_STRUCT_FUNCTION(decl
));
2248 tree stmt_list
= NULL_TREE
;
2249 std::vector
<std::vector
<Bexpression
*> >::const_iterator pc
= cases
.begin();
2250 for (std::vector
<Bstatement
*>::const_iterator ps
= statements
.begin();
2251 ps
!= statements
.end();
2256 source_location loc
= (*ps
!= NULL
2257 ? EXPR_LOCATION((*ps
)->get_tree())
2258 : UNKNOWN_LOCATION
);
2259 tree label
= create_artificial_label(loc
);
2260 tree c
= build_case_label(NULL_TREE
, NULL_TREE
, label
);
2261 append_to_statement_list(c
, &stmt_list
);
2265 for (std::vector
<Bexpression
*>::const_iterator pcv
= pc
->begin();
2269 tree t
= (*pcv
)->get_tree();
2270 if (t
== error_mark_node
)
2271 return this->error_statement();
2272 source_location loc
= EXPR_LOCATION(t
);
2273 tree label
= create_artificial_label(loc
);
2274 tree c
= build_case_label((*pcv
)->get_tree(), NULL_TREE
, label
);
2275 append_to_statement_list(c
, &stmt_list
);
2281 tree t
= (*ps
)->get_tree();
2282 if (t
== error_mark_node
)
2283 return this->error_statement();
2284 append_to_statement_list(t
, &stmt_list
);
2289 tree tv
= value
->get_tree();
2290 if (tv
== error_mark_node
)
2291 return this->error_statement();
2292 tree t
= build3_loc(switch_location
.gcc_location(), SWITCH_EXPR
,
2293 NULL_TREE
, tv
, stmt_list
, NULL_TREE
);
2294 return this->make_statement(t
);
2297 // Pair of statements.
2300 Gcc_backend::compound_statement(Bstatement
* s1
, Bstatement
* s2
)
2302 tree stmt_list
= NULL_TREE
;
2303 tree t
= s1
->get_tree();
2304 if (t
== error_mark_node
)
2305 return this->error_statement();
2306 append_to_statement_list(t
, &stmt_list
);
2308 if (t
== error_mark_node
)
2309 return this->error_statement();
2310 append_to_statement_list(t
, &stmt_list
);
2312 // If neither statement has any side effects, stmt_list can be NULL
2314 if (stmt_list
== NULL_TREE
)
2315 stmt_list
= integer_zero_node
;
2317 return this->make_statement(stmt_list
);
2320 // List of statements.
2323 Gcc_backend::statement_list(const std::vector
<Bstatement
*>& statements
)
2325 tree stmt_list
= NULL_TREE
;
2326 for (std::vector
<Bstatement
*>::const_iterator p
= statements
.begin();
2327 p
!= statements
.end();
2330 tree t
= (*p
)->get_tree();
2331 if (t
== error_mark_node
)
2332 return this->error_statement();
2333 append_to_statement_list(t
, &stmt_list
);
2335 return this->make_statement(stmt_list
);
2338 // Make a block. For some reason gcc uses a dual structure for
2339 // blocks: BLOCK tree nodes and BIND_EXPR tree nodes. Since the
2340 // BIND_EXPR node points to the BLOCK node, we store the BIND_EXPR in
2344 Gcc_backend::block(Bfunction
* function
, Bblock
* enclosing
,
2345 const std::vector
<Bvariable
*>& vars
,
2346 Location start_location
,
2349 tree block_tree
= make_node(BLOCK
);
2350 if (enclosing
== NULL
)
2352 tree fndecl
= function
->get_tree();
2353 gcc_assert(fndecl
!= NULL_TREE
);
2355 // We may have already created a block for local variables when
2356 // we take the address of a parameter.
2357 if (DECL_INITIAL(fndecl
) == NULL_TREE
)
2359 BLOCK_SUPERCONTEXT(block_tree
) = fndecl
;
2360 DECL_INITIAL(fndecl
) = block_tree
;
2364 tree superblock_tree
= DECL_INITIAL(fndecl
);
2365 BLOCK_SUPERCONTEXT(block_tree
) = superblock_tree
;
2367 for (pp
= &BLOCK_SUBBLOCKS(superblock_tree
);
2369 pp
= &BLOCK_CHAIN(*pp
))
2376 tree superbind_tree
= enclosing
->get_tree();
2377 tree superblock_tree
= BIND_EXPR_BLOCK(superbind_tree
);
2378 gcc_assert(TREE_CODE(superblock_tree
) == BLOCK
);
2380 BLOCK_SUPERCONTEXT(block_tree
) = superblock_tree
;
2382 for (pp
= &BLOCK_SUBBLOCKS(superblock_tree
);
2384 pp
= &BLOCK_CHAIN(*pp
))
2389 tree
* pp
= &BLOCK_VARS(block_tree
);
2390 for (std::vector
<Bvariable
*>::const_iterator pv
= vars
.begin();
2394 *pp
= (*pv
)->get_decl();
2395 if (*pp
!= error_mark_node
)
2396 pp
= &DECL_CHAIN(*pp
);
2400 TREE_USED(block_tree
) = 1;
2402 tree bind_tree
= build3_loc(start_location
.gcc_location(), BIND_EXPR
,
2403 void_type_node
, BLOCK_VARS(block_tree
),
2404 NULL_TREE
, block_tree
);
2405 TREE_SIDE_EFFECTS(bind_tree
) = 1;
2406 return new Bblock(bind_tree
);
2409 // Add statements to a block.
2412 Gcc_backend::block_add_statements(Bblock
* bblock
,
2413 const std::vector
<Bstatement
*>& statements
)
2415 tree stmt_list
= NULL_TREE
;
2416 for (std::vector
<Bstatement
*>::const_iterator p
= statements
.begin();
2417 p
!= statements
.end();
2420 tree s
= (*p
)->get_tree();
2421 if (s
!= error_mark_node
)
2422 append_to_statement_list(s
, &stmt_list
);
2425 tree bind_tree
= bblock
->get_tree();
2426 gcc_assert(TREE_CODE(bind_tree
) == BIND_EXPR
);
2427 BIND_EXPR_BODY(bind_tree
) = stmt_list
;
2430 // Return a block as a statement.
2433 Gcc_backend::block_statement(Bblock
* bblock
)
2435 tree bind_tree
= bblock
->get_tree();
2436 gcc_assert(TREE_CODE(bind_tree
) == BIND_EXPR
);
2437 return this->make_statement(bind_tree
);
2440 // This is not static because we declare it with GTY(()) in go-c.h.
2441 tree go_non_zero_struct
;
2443 // Return a type corresponding to TYPE with non-zero size.
2446 Gcc_backend::non_zero_size_type(tree type
)
2448 if (int_size_in_bytes(type
) != 0)
2451 switch (TREE_CODE(type
))
2454 if (TYPE_FIELDS(type
) != NULL_TREE
)
2456 tree ns
= make_node(RECORD_TYPE
);
2457 tree field_trees
= NULL_TREE
;
2458 tree
*pp
= &field_trees
;
2459 for (tree field
= TYPE_FIELDS(type
);
2461 field
= DECL_CHAIN(field
))
2463 tree ft
= TREE_TYPE(field
);
2464 if (field
== TYPE_FIELDS(type
))
2465 ft
= non_zero_size_type(ft
);
2466 tree f
= build_decl(DECL_SOURCE_LOCATION(field
), FIELD_DECL
,
2467 DECL_NAME(field
), ft
);
2468 DECL_CONTEXT(f
) = ns
;
2470 pp
= &DECL_CHAIN(f
);
2472 TYPE_FIELDS(ns
) = field_trees
;
2477 if (go_non_zero_struct
== NULL_TREE
)
2479 type
= make_node(RECORD_TYPE
);
2480 tree field
= build_decl(UNKNOWN_LOCATION
, FIELD_DECL
,
2481 get_identifier("dummy"),
2483 DECL_CONTEXT(field
) = type
;
2484 TYPE_FIELDS(type
) = field
;
2486 go_non_zero_struct
= type
;
2488 return go_non_zero_struct
;
2492 tree element_type
= non_zero_size_type(TREE_TYPE(type
));
2493 return build_array_type_nelts(element_type
, 1);
2503 // Make a global variable.
2506 Gcc_backend::global_variable(const std::string
& var_name
,
2507 const std::string
& asm_name
,
2511 bool in_unique_section
,
2514 tree type_tree
= btype
->get_tree();
2515 if (type_tree
== error_mark_node
)
2516 return this->error_variable();
2518 // The GNU linker does not like dynamic variables with zero size.
2519 tree orig_type_tree
= type_tree
;
2520 if ((is_external
|| !is_hidden
) && int_size_in_bytes(type_tree
) == 0)
2521 type_tree
= this->non_zero_size_type(type_tree
);
2523 tree decl
= build_decl(location
.gcc_location(), VAR_DECL
,
2524 get_identifier_from_string(var_name
),
2527 DECL_EXTERNAL(decl
) = 1;
2529 TREE_STATIC(decl
) = 1;
2532 TREE_PUBLIC(decl
) = 1;
2533 SET_DECL_ASSEMBLER_NAME(decl
, get_identifier_from_string(asm_name
));
2537 SET_DECL_ASSEMBLER_NAME(decl
, get_identifier_from_string(asm_name
));
2540 TREE_USED(decl
) = 1;
2542 if (in_unique_section
)
2543 resolve_unique_section (decl
, 0, 1);
2545 go_preserve_from_gc(decl
);
2547 return new Bvariable(decl
, orig_type_tree
);
2550 // Set the initial value of a global variable.
2553 Gcc_backend::global_variable_set_init(Bvariable
* var
, Bexpression
* expr
)
2555 tree expr_tree
= expr
->get_tree();
2556 if (expr_tree
== error_mark_node
)
2558 gcc_assert(TREE_CONSTANT(expr_tree
));
2559 tree var_decl
= var
->get_decl();
2560 if (var_decl
== error_mark_node
)
2562 DECL_INITIAL(var_decl
) = expr_tree
;
2564 // If this variable goes in a unique section, it may need to go into
2565 // a different one now that DECL_INITIAL is set.
2566 if (symtab_node::get(var_decl
)
2567 && symtab_node::get(var_decl
)->implicit_section
)
2569 set_decl_section_name (var_decl
, NULL
);
2570 resolve_unique_section (var_decl
,
2571 compute_reloc_for_constant (expr_tree
),
2576 // Make a local variable.
2579 Gcc_backend::local_variable(Bfunction
* function
, const std::string
& name
,
2580 Btype
* btype
, bool is_address_taken
,
2583 tree type_tree
= btype
->get_tree();
2584 if (type_tree
== error_mark_node
)
2585 return this->error_variable();
2586 tree decl
= build_decl(location
.gcc_location(), VAR_DECL
,
2587 get_identifier_from_string(name
),
2589 DECL_CONTEXT(decl
) = function
->get_tree();
2590 TREE_USED(decl
) = 1;
2591 if (is_address_taken
)
2592 TREE_ADDRESSABLE(decl
) = 1;
2593 go_preserve_from_gc(decl
);
2594 return new Bvariable(decl
);
2597 // Make a function parameter variable.
2600 Gcc_backend::parameter_variable(Bfunction
* function
, const std::string
& name
,
2601 Btype
* btype
, bool is_address_taken
,
2604 tree type_tree
= btype
->get_tree();
2605 if (type_tree
== error_mark_node
)
2606 return this->error_variable();
2607 tree decl
= build_decl(location
.gcc_location(), PARM_DECL
,
2608 get_identifier_from_string(name
),
2610 DECL_CONTEXT(decl
) = function
->get_tree();
2611 DECL_ARG_TYPE(decl
) = type_tree
;
2612 TREE_USED(decl
) = 1;
2613 if (is_address_taken
)
2614 TREE_ADDRESSABLE(decl
) = 1;
2615 go_preserve_from_gc(decl
);
2616 return new Bvariable(decl
);
2619 // Make a static chain variable.
2622 Gcc_backend::static_chain_variable(Bfunction
* function
, const std::string
& name
,
2623 Btype
* btype
, Location location
)
2625 tree type_tree
= btype
->get_tree();
2626 if (type_tree
== error_mark_node
)
2627 return this->error_variable();
2628 tree decl
= build_decl(location
.gcc_location(), PARM_DECL
,
2629 get_identifier_from_string(name
), type_tree
);
2630 tree fndecl
= function
->get_tree();
2631 DECL_CONTEXT(decl
) = fndecl
;
2632 DECL_ARG_TYPE(decl
) = type_tree
;
2633 TREE_USED(decl
) = 1;
2634 DECL_ARTIFICIAL(decl
) = 1;
2635 DECL_IGNORED_P(decl
) = 1;
2636 TREE_READONLY(decl
) = 1;
2638 struct function
*f
= DECL_STRUCT_FUNCTION(fndecl
);
2641 push_struct_function(fndecl
);
2643 f
= DECL_STRUCT_FUNCTION(fndecl
);
2645 gcc_assert(f
->static_chain_decl
== NULL
);
2646 f
->static_chain_decl
= decl
;
2647 DECL_STATIC_CHAIN(fndecl
) = 1;
2649 go_preserve_from_gc(decl
);
2650 return new Bvariable(decl
);
2653 // Make a temporary variable.
2656 Gcc_backend::temporary_variable(Bfunction
* function
, Bblock
* bblock
,
2657 Btype
* btype
, Bexpression
* binit
,
2658 bool is_address_taken
,
2660 Bstatement
** pstatement
)
2662 gcc_assert(function
!= NULL
);
2663 tree decl
= function
->get_tree();
2664 tree type_tree
= btype
->get_tree();
2665 tree init_tree
= binit
== NULL
? NULL_TREE
: binit
->get_tree();
2666 if (type_tree
== error_mark_node
2667 || init_tree
== error_mark_node
2668 || decl
== error_mark_node
)
2670 *pstatement
= this->error_statement();
2671 return this->error_variable();
2675 // We can only use create_tmp_var if the type is not addressable.
2676 if (!TREE_ADDRESSABLE(type_tree
))
2678 if (DECL_STRUCT_FUNCTION(decl
) == NULL
)
2679 push_struct_function(decl
);
2681 push_cfun(DECL_STRUCT_FUNCTION(decl
));
2683 var
= create_tmp_var(type_tree
, "GOTMP");
2688 gcc_assert(bblock
!= NULL
);
2689 var
= build_decl(location
.gcc_location(), VAR_DECL
,
2690 create_tmp_var_name("GOTMP"),
2692 DECL_ARTIFICIAL(var
) = 1;
2693 DECL_IGNORED_P(var
) = 1;
2695 DECL_CONTEXT(var
) = decl
;
2697 // We have to add this variable to the BLOCK and the BIND_EXPR.
2698 tree bind_tree
= bblock
->get_tree();
2699 gcc_assert(TREE_CODE(bind_tree
) == BIND_EXPR
);
2700 tree block_tree
= BIND_EXPR_BLOCK(bind_tree
);
2701 gcc_assert(TREE_CODE(block_tree
) == BLOCK
);
2702 DECL_CHAIN(var
) = BLOCK_VARS(block_tree
);
2703 BLOCK_VARS(block_tree
) = var
;
2704 BIND_EXPR_VARS(bind_tree
) = BLOCK_VARS(block_tree
);
2707 if (this->type_size(btype
) != 0 && init_tree
!= NULL_TREE
)
2708 DECL_INITIAL(var
) = fold_convert_loc(location
.gcc_location(), type_tree
,
2711 if (is_address_taken
)
2712 TREE_ADDRESSABLE(var
) = 1;
2714 *pstatement
= this->make_statement(build1_loc(location
.gcc_location(),
2716 void_type_node
, var
));
2718 // Don't initialize VAR with BINIT, but still evaluate BINIT for
2719 // its side effects.
2720 if (this->type_size(btype
) == 0 && init_tree
!= NULL_TREE
)
2722 this->compound_statement(this->expression_statement(function
, binit
),
2725 return new Bvariable(var
);
2728 // Create an implicit variable that is compiler-defined. This is used when
2729 // generating GC root variables and storing the values of a slice initializer.
2732 Gcc_backend::implicit_variable(const std::string
& name
,
2733 const std::string
& asm_name
,
2734 Btype
* type
, bool is_hidden
, bool is_constant
,
2735 bool is_common
, int64_t alignment
)
2737 tree type_tree
= type
->get_tree();
2738 if (type_tree
== error_mark_node
)
2739 return this->error_variable();
2741 tree decl
= build_decl(BUILTINS_LOCATION
, VAR_DECL
,
2742 get_identifier_from_string(name
), type_tree
);
2743 DECL_EXTERNAL(decl
) = 0;
2744 TREE_PUBLIC(decl
) = !is_hidden
;
2745 TREE_STATIC(decl
) = 1;
2746 TREE_USED(decl
) = 1;
2747 DECL_ARTIFICIAL(decl
) = 1;
2750 DECL_COMMON(decl
) = 1;
2752 // When the initializer for one implicit_variable refers to another,
2753 // it needs to know the visibility of the referenced struct so that
2754 // compute_reloc_for_constant will return the right value. On many
2755 // systems calling make_decl_one_only will mark the decl as weak,
2756 // which will change the return value of compute_reloc_for_constant.
2757 // We can't reliably call make_decl_one_only yet, because we don't
2758 // yet know the initializer. This issue doesn't arise in C because
2759 // Go initializers, unlike C initializers, can be indirectly
2760 // recursive. To ensure that compute_reloc_for_constant computes
2761 // the right value if some other initializer refers to this one, we
2762 // mark this symbol as weak here. We undo that below in
2763 // immutable_struct_set_init before calling mark_decl_one_only.
2764 DECL_WEAK(decl
) = 1;
2768 TREE_READONLY(decl
) = 1;
2769 TREE_CONSTANT(decl
) = 1;
2773 SET_DECL_ALIGN(decl
, alignment
* BITS_PER_UNIT
);
2774 DECL_USER_ALIGN(decl
) = 1;
2776 if (! asm_name
.empty())
2777 SET_DECL_ASSEMBLER_NAME(decl
, get_identifier_from_string(asm_name
));
2779 go_preserve_from_gc(decl
);
2780 return new Bvariable(decl
);
2783 // Set the initalizer for a variable created by implicit_variable.
2784 // This is where we finish compiling the variable.
2787 Gcc_backend::implicit_variable_set_init(Bvariable
* var
, const std::string
&,
2788 Btype
*, bool, bool, bool is_common
,
2791 tree decl
= var
->get_decl();
2794 init_tree
= NULL_TREE
;
2796 init_tree
= init
->get_tree();
2797 if (decl
== error_mark_node
|| init_tree
== error_mark_node
)
2800 DECL_INITIAL(decl
) = init_tree
;
2802 // Now that DECL_INITIAL is set, we can't call make_decl_one_only.
2803 // See the comment where DECL_WEAK is set in implicit_variable.
2806 DECL_WEAK(decl
) = 0;
2807 make_decl_one_only(decl
, DECL_ASSEMBLER_NAME(decl
));
2810 resolve_unique_section(decl
, 2, 1);
2812 rest_of_decl_compilation(decl
, 1, 0);
2815 // Return a reference to an implicit variable defined in another package.
2818 Gcc_backend::implicit_variable_reference(const std::string
& name
,
2819 const std::string
& asm_name
,
2822 tree type_tree
= btype
->get_tree();
2823 if (type_tree
== error_mark_node
)
2824 return this->error_variable();
2826 tree decl
= build_decl(BUILTINS_LOCATION
, VAR_DECL
,
2827 get_identifier_from_string(name
), type_tree
);
2828 DECL_EXTERNAL(decl
) = 1;
2829 TREE_PUBLIC(decl
) = 1;
2830 TREE_STATIC(decl
) = 0;
2831 DECL_ARTIFICIAL(decl
) = 1;
2832 if (! asm_name
.empty())
2833 SET_DECL_ASSEMBLER_NAME(decl
, get_identifier_from_string(asm_name
));
2834 go_preserve_from_gc(decl
);
2835 return new Bvariable(decl
);
2838 // Create a named immutable initialized data structure.
2841 Gcc_backend::immutable_struct(const std::string
& name
,
2842 const std::string
& asm_name
,
2844 bool is_common
, Btype
* btype
, Location location
)
2846 tree type_tree
= btype
->get_tree();
2847 if (type_tree
== error_mark_node
)
2848 return this->error_variable();
2849 gcc_assert(TREE_CODE(type_tree
) == RECORD_TYPE
);
2850 tree decl
= build_decl(location
.gcc_location(), VAR_DECL
,
2851 get_identifier_from_string(name
),
2852 build_qualified_type(type_tree
, TYPE_QUAL_CONST
));
2853 TREE_STATIC(decl
) = 1;
2854 TREE_USED(decl
) = 1;
2855 TREE_READONLY(decl
) = 1;
2856 TREE_CONSTANT(decl
) = 1;
2857 DECL_ARTIFICIAL(decl
) = 1;
2859 TREE_PUBLIC(decl
) = 1;
2860 if (! asm_name
.empty())
2861 SET_DECL_ASSEMBLER_NAME(decl
, get_identifier_from_string(asm_name
));
2863 // When the initializer for one immutable_struct refers to another,
2864 // it needs to know the visibility of the referenced struct so that
2865 // compute_reloc_for_constant will return the right value. On many
2866 // systems calling make_decl_one_only will mark the decl as weak,
2867 // which will change the return value of compute_reloc_for_constant.
2868 // We can't reliably call make_decl_one_only yet, because we don't
2869 // yet know the initializer. This issue doesn't arise in C because
2870 // Go initializers, unlike C initializers, can be indirectly
2871 // recursive. To ensure that compute_reloc_for_constant computes
2872 // the right value if some other initializer refers to this one, we
2873 // mark this symbol as weak here. We undo that below in
2874 // immutable_struct_set_init before calling mark_decl_one_only.
2876 DECL_WEAK(decl
) = 1;
2878 // We don't call rest_of_decl_compilation until we have the
2881 go_preserve_from_gc(decl
);
2882 return new Bvariable(decl
);
2885 // Set the initializer for a variable created by immutable_struct.
2886 // This is where we finish compiling the variable.
2889 Gcc_backend::immutable_struct_set_init(Bvariable
* var
, const std::string
&,
2890 bool, bool is_common
, Btype
*, Location
,
2891 Bexpression
* initializer
)
2893 tree decl
= var
->get_decl();
2894 tree init_tree
= initializer
->get_tree();
2895 if (decl
== error_mark_node
|| init_tree
== error_mark_node
)
2898 DECL_INITIAL(decl
) = init_tree
;
2900 // Now that DECL_INITIAL is set, we can't call make_decl_one_only.
2901 // See the comment where DECL_WEAK is set in immutable_struct.
2904 DECL_WEAK(decl
) = 0;
2905 make_decl_one_only(decl
, DECL_ASSEMBLER_NAME(decl
));
2908 // These variables are often unneeded in the final program, so put
2909 // them in their own section so that linker GC can discard them.
2910 resolve_unique_section(decl
,
2911 compute_reloc_for_constant (init_tree
),
2914 rest_of_decl_compilation(decl
, 1, 0);
2917 // Return a reference to an immutable initialized data structure
2918 // defined in another package.
2921 Gcc_backend::immutable_struct_reference(const std::string
& name
,
2922 const std::string
& asm_name
,
2926 tree type_tree
= btype
->get_tree();
2927 if (type_tree
== error_mark_node
)
2928 return this->error_variable();
2929 gcc_assert(TREE_CODE(type_tree
) == RECORD_TYPE
);
2930 tree decl
= build_decl(location
.gcc_location(), VAR_DECL
,
2931 get_identifier_from_string(name
),
2932 build_qualified_type(type_tree
, TYPE_QUAL_CONST
));
2933 TREE_READONLY(decl
) = 1;
2934 TREE_CONSTANT(decl
) = 1;
2935 DECL_ARTIFICIAL(decl
) = 1;
2936 TREE_PUBLIC(decl
) = 1;
2937 DECL_EXTERNAL(decl
) = 1;
2938 if (! asm_name
.empty())
2939 SET_DECL_ASSEMBLER_NAME(decl
, get_identifier_from_string(asm_name
));
2940 go_preserve_from_gc(decl
);
2941 return new Bvariable(decl
);
2947 Gcc_backend::label(Bfunction
* function
, const std::string
& name
,
2953 tree func_tree
= function
->get_tree();
2954 if (DECL_STRUCT_FUNCTION(func_tree
) == NULL
)
2955 push_struct_function(func_tree
);
2957 push_cfun(DECL_STRUCT_FUNCTION(func_tree
));
2959 decl
= create_artificial_label(location
.gcc_location());
2965 tree id
= get_identifier_from_string(name
);
2966 decl
= build_decl(location
.gcc_location(), LABEL_DECL
, id
,
2968 DECL_CONTEXT(decl
) = function
->get_tree();
2970 return new Blabel(decl
);
2973 // Make a statement which defines a label.
2976 Gcc_backend::label_definition_statement(Blabel
* label
)
2978 tree lab
= label
->get_tree();
2979 tree ret
= fold_build1_loc(DECL_SOURCE_LOCATION(lab
), LABEL_EXPR
,
2980 void_type_node
, lab
);
2981 return this->make_statement(ret
);
2984 // Make a goto statement.
2987 Gcc_backend::goto_statement(Blabel
* label
, Location location
)
2989 tree lab
= label
->get_tree();
2990 tree ret
= fold_build1_loc(location
.gcc_location(), GOTO_EXPR
, void_type_node
,
2992 return this->make_statement(ret
);
2995 // Get the address of a label.
2998 Gcc_backend::label_address(Blabel
* label
, Location location
)
3000 tree lab
= label
->get_tree();
3002 TREE_ADDRESSABLE(lab
) = 1;
3003 tree ret
= fold_convert_loc(location
.gcc_location(), ptr_type_node
,
3004 build_fold_addr_expr_loc(location
.gcc_location(),
3006 return this->make_expression(ret
);
3009 // Declare or define a new function.
3012 Gcc_backend::function(Btype
* fntype
, const std::string
& name
,
3013 const std::string
& asm_name
, bool is_visible
,
3014 bool is_declaration
, bool is_inlinable
,
3015 bool disable_split_stack
, bool in_unique_section
,
3018 tree functype
= fntype
->get_tree();
3019 if (functype
!= error_mark_node
)
3021 gcc_assert(FUNCTION_POINTER_TYPE_P(functype
));
3022 functype
= TREE_TYPE(functype
);
3024 tree id
= get_identifier_from_string(name
);
3025 if (functype
== error_mark_node
|| id
== error_mark_node
)
3026 return this->error_function();
3028 tree decl
= build_decl(location
.gcc_location(), FUNCTION_DECL
, id
, functype
);
3029 if (! asm_name
.empty())
3030 SET_DECL_ASSEMBLER_NAME(decl
, get_identifier_from_string(asm_name
));
3032 TREE_PUBLIC(decl
) = 1;
3034 DECL_EXTERNAL(decl
) = 1;
3037 tree restype
= TREE_TYPE(functype
);
3039 build_decl(location
.gcc_location(), RESULT_DECL
, NULL_TREE
, restype
);
3040 DECL_ARTIFICIAL(resdecl
) = 1;
3041 DECL_IGNORED_P(resdecl
) = 1;
3042 DECL_CONTEXT(resdecl
) = decl
;
3043 DECL_RESULT(decl
) = resdecl
;
3046 DECL_UNINLINABLE(decl
) = 1;
3047 if (disable_split_stack
)
3049 tree attr
= get_identifier ("no_split_stack");
3050 DECL_ATTRIBUTES(decl
) = tree_cons(attr
, NULL_TREE
, NULL_TREE
);
3052 if (in_unique_section
)
3053 resolve_unique_section(decl
, 0, 1);
3055 go_preserve_from_gc(decl
);
3056 return new Bfunction(decl
);
3059 // Create a statement that runs all deferred calls for FUNCTION. This should
3060 // be a statement that looks like this in C++:
3062 // try { UNDEFER; } catch { CHECK_DEFER; goto finish; }
3065 Gcc_backend::function_defer_statement(Bfunction
* function
, Bexpression
* undefer
,
3066 Bexpression
* defer
, Location location
)
3068 tree undefer_tree
= undefer
->get_tree();
3069 tree defer_tree
= defer
->get_tree();
3070 tree fntree
= function
->get_tree();
3072 if (undefer_tree
== error_mark_node
3073 || defer_tree
== error_mark_node
3074 || fntree
== error_mark_node
)
3075 return this->error_statement();
3077 if (DECL_STRUCT_FUNCTION(fntree
) == NULL
)
3078 push_struct_function(fntree
);
3080 push_cfun(DECL_STRUCT_FUNCTION(fntree
));
3082 tree stmt_list
= NULL
;
3083 Blabel
* blabel
= this->label(function
, "", location
);
3084 Bstatement
* label_def
= this->label_definition_statement(blabel
);
3085 append_to_statement_list(label_def
->get_tree(), &stmt_list
);
3087 Bstatement
* jump_stmt
= this->goto_statement(blabel
, location
);
3088 tree jump
= jump_stmt
->get_tree();
3089 tree catch_body
= build2(COMPOUND_EXPR
, void_type_node
, defer_tree
, jump
);
3090 catch_body
= build2(CATCH_EXPR
, void_type_node
, NULL
, catch_body
);
3092 build2(TRY_CATCH_EXPR
, void_type_node
, undefer_tree
, catch_body
);
3093 append_to_statement_list(try_catch
, &stmt_list
);
3096 return this->make_statement(stmt_list
);
3099 // Record PARAM_VARS as the variables to use for the parameters of FUNCTION.
3100 // This will only be called for a function definition.
3103 Gcc_backend::function_set_parameters(Bfunction
* function
,
3104 const std::vector
<Bvariable
*>& param_vars
)
3106 tree func_tree
= function
->get_tree();
3107 if (func_tree
== error_mark_node
)
3110 tree params
= NULL_TREE
;
3112 for (std::vector
<Bvariable
*>::const_iterator pv
= param_vars
.begin();
3113 pv
!= param_vars
.end();
3116 *pp
= (*pv
)->get_decl();
3117 gcc_assert(*pp
!= error_mark_node
);
3118 pp
= &DECL_CHAIN(*pp
);
3121 DECL_ARGUMENTS(func_tree
) = params
;
3125 // Set the function body for FUNCTION using the code in CODE_BLOCK.
3128 Gcc_backend::function_set_body(Bfunction
* function
, Bstatement
* code_stmt
)
3130 tree func_tree
= function
->get_tree();
3131 tree code
= code_stmt
->get_tree();
3133 if (func_tree
== error_mark_node
|| code
== error_mark_node
)
3135 DECL_SAVED_TREE(func_tree
) = code
;
3139 // Look up a named built-in function in the current backend implementation.
3140 // Returns NULL if no built-in function by that name exists.
3143 Gcc_backend::lookup_builtin(const std::string
& name
)
3145 if (this->builtin_functions_
.count(name
) != 0)
3146 return this->builtin_functions_
[name
];
3150 // Write the definitions for all TYPE_DECLS, CONSTANT_DECLS,
3151 // FUNCTION_DECLS, and VARIABLE_DECLS declared globally, as well as
3152 // emit early debugging information.
3155 Gcc_backend::write_global_definitions(
3156 const std::vector
<Btype
*>& type_decls
,
3157 const std::vector
<Bexpression
*>& constant_decls
,
3158 const std::vector
<Bfunction
*>& function_decls
,
3159 const std::vector
<Bvariable
*>& variable_decls
)
3161 size_t count_definitions
= type_decls
.size() + constant_decls
.size()
3162 + function_decls
.size() + variable_decls
.size();
3164 tree
* defs
= new tree
[count_definitions
];
3166 // Convert all non-erroneous declarations into Gimple form.
3168 for (std::vector
<Bvariable
*>::const_iterator p
= variable_decls
.begin();
3169 p
!= variable_decls
.end();
3172 tree v
= (*p
)->get_decl();
3173 if (v
!= error_mark_node
)
3176 go_preserve_from_gc(defs
[i
]);
3181 for (std::vector
<Btype
*>::const_iterator p
= type_decls
.begin();
3182 p
!= type_decls
.end();
3185 tree type_tree
= (*p
)->get_tree();
3186 if (type_tree
!= error_mark_node
3187 && IS_TYPE_OR_DECL_P(type_tree
))
3189 defs
[i
] = TYPE_NAME(type_tree
);
3190 gcc_assert(defs
[i
] != NULL
);
3191 go_preserve_from_gc(defs
[i
]);
3195 for (std::vector
<Bexpression
*>::const_iterator p
= constant_decls
.begin();
3196 p
!= constant_decls
.end();
3199 if ((*p
)->get_tree() != error_mark_node
)
3201 defs
[i
] = (*p
)->get_tree();
3202 go_preserve_from_gc(defs
[i
]);
3206 for (std::vector
<Bfunction
*>::const_iterator p
= function_decls
.begin();
3207 p
!= function_decls
.end();
3210 tree decl
= (*p
)->get_tree();
3211 if (decl
!= error_mark_node
)
3213 go_preserve_from_gc(decl
);
3214 gimplify_function_tree(decl
);
3215 cgraph_node::finalize_function(decl
, true);
3222 // Pass everything back to the middle-end.
3224 wrapup_global_declarations(defs
, i
);
3230 Gcc_backend::write_export_data(const char* bytes
, unsigned int size
)
3232 go_write_export_data(bytes
, size
);
3236 // Define a builtin function. BCODE is the builtin function code
3237 // defined by builtins.def. NAME is the name of the builtin function.
3238 // LIBNAME is the name of the corresponding library function, and is
3239 // NULL if there isn't one. FNTYPE is the type of the function.
3240 // CONST_P is true if the function has the const attribute.
3241 // NORETURN_P is true if the function has the noreturn attribute.
3244 Gcc_backend::define_builtin(built_in_function bcode
, const char* name
,
3245 const char* libname
, tree fntype
, bool const_p
,
3248 tree decl
= add_builtin_function(name
, fntype
, bcode
, BUILT_IN_NORMAL
,
3249 libname
, NULL_TREE
);
3251 TREE_READONLY(decl
) = 1;
3253 TREE_THIS_VOLATILE(decl
) = 1;
3254 set_builtin_decl(bcode
, decl
, true);
3255 this->builtin_functions_
[name
] = this->make_function(decl
);
3256 if (libname
!= NULL
)
3258 decl
= add_builtin_function(libname
, fntype
, bcode
, BUILT_IN_NORMAL
,
3261 TREE_READONLY(decl
) = 1;
3263 TREE_THIS_VOLATILE(decl
) = 1;
3264 this->builtin_functions_
[libname
] = this->make_function(decl
);
3268 // Return the backend generator.
3273 return new Gcc_backend();