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/* This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free
Software Foundation; either version 3, or (at your option) any later
version.
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
autogen definitions py-runtime;
py-runtime = { code = GPY_RR_extend_globl_stack;
arguments = "tree size";
proto = "tree";
comment = "/* Extends the runtime globl stack by passed size (integer_type_node) */";
function_identifier = "gpy_rr_extend_runtime_stack";
fntype = "void_type_node,
integer_type_node,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 1, size";
};
py-runtime = { code = GPY_RR_fold_attrib;
arguments = "tree ident, tree addr, tree offset";
proto = "tree, tree, tree";
comment = "/* Fold attribute info into an attribute type */";
function_identifier = "gpy_rr_fold_attribute";
fntype = "gpy_attrib_type_ptr,
gpy_const_char_ptr,
gpy_unsigned_char_ptr,
integer_type_node,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 3, ident, addr, offset";
};
py-runtime = { code = GPY_RR_fold_attrib_list;
arguments = "VEC(tree,gc) * attribs";
proto = "VEC(tree,gc) *";
comment = "/* Requires the first tree in the arguments to be an integer_type_node of the number of arguments */";
function_identifier = "gpy_rr_fold_attrib_list";
fntype = "gpy_attrib_type_ptr_ptr,
integer_type_node,
va_list_type_node,
NULL_TREE";
build_call = build_call_expr_loc_vec;
build_call_args = "BUILTINS_LOCATION, fndecl, attribs";
};
py-runtime = { code = GPY_RR_fold_class_decl;
arguments = "tree attrib_list, tree size, tree identifier";
proto = "tree, tree, tree";
comment = "/* Fold class data into class object args = <attrib list><size><identifier> */";
function_identifier = "gpy_rr_fold_class_decl";
fntype = "gpy_object_type_ptr,
gpy_attrib_type_ptr_ptr,
integer_type_node,
gpy_const_char_ptr,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 3, attrib_list, size, identifier";
};
py-runtime = { code = GPY_RR_fold_func_decl;
arguments = "tree identifier, tree func";
proto = "tree, tree";
comment = "/* Fold func into decl <identifier><fndcel> */";
function_identifier = "gpy_rr_fold_staticmethod_decl";
fntype = "gpy_object_type_ptr,
gpy_const_char_ptr,
ptr_type_node,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 2, identifier, build_fold_addr_expr (func)";
};
py-runtime = { code = GPY_RR_fold_classmethod_decl;
arguments = "tree identifier, tree func";
proto = "tree, tree";
comment = "/* Fold func into decl <identifier><fndcel> */";
function_identifier = "gpy_rr_fold_classmethod_decl";
fntype = "gpy_object_type_ptr,
gpy_const_char_ptr,
ptr_type_node,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 2, identifier, build_fold_addr_expr (func)";
};
py-runtime = { code = GPY_RR_fold_integer;
arguments = "tree integer";
proto = "tree";
comment = "/* Fold integer into Int object via Int (x) */";
function_identifier = "gpy_rr_fold_integer";
fntype = "gpy_object_type_ptr,
integer_type_node,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 1, integer";
};
py-runtime = { code = GPY_RR_incr_ref_count;
arguments = "tree obj";
proto = "tree";
comment = "/* incr the refrence count on the object */";
function_identifier = "gpy_rr_incr_ref_count";
fntype = "void_type_node,
gpy_object_type_ptr,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 1, obj";
};
py-runtime = { code = GPY_RR_decr_ref_count;
arguments = "tree obj";
proto = "tree";
comment = "/* decr the refrence count on the object */";
function_identifier = "gpy_rr_decr_ref_count";
fntype = "void_type_node,
gpy_object_type_ptr,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 1, obj";
};
py-runtime = { code = GPY_RR_eval_print;
arguments = "VEC(tree,gc) * arguments";
proto = "VEC(tree,gc) *";
comment = "/* first index is the fd (1/0) 2nd idx is number of elements and finaly va_list of args */";
function_identifier = "gpy_rr_eval_print";
fntype = "void_type_node,
integer_type_node,
integer_type_node,
va_list_type_node,
NULL_TREE";
build_call = build_call_expr_loc_vec;
build_call_args = "BUILTINS_LOCATION, fndecl, arguments";
};
py-runtime = { code = GPY_RR_eval_expression;
arguments = "tree x, tree y, tree op";
proto = "tree, tree, tree";
comment = "/* Evaluate the operation op of the 2 objects x and y and return result */";
function_identifier = "gpy_rr_eval_expression";
fntype = "gpy_object_type_ptr,
gpy_object_type_ptr,
integer_type_node,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 3, x, y, op";
};
py-runtime = { code = GPY_RR_fold_attrib_ref;
arguments = "tree base, tree attrib";
proto = "tree, tree";
comment = "/* Eval base.attrib */";
function_identifier = "gpy_rr_eval_attrib_reference";
fntype = "gpy_object_type_ptr_ptr,
gpy_object_type_ptr,
gpy_const_char_ptr,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 2, base, attrib";
};
py-runtime = { code = GPY_RR_fold_call;
arguments = "VEC(tree,gc) * arguments";
proto = "VEC(tree,gc) *";
comment = "/* Eval call */";
function_identifier = "gpy_rr_fold_call";
fntype = "gpy_object_type_ptr,
integer_type_node,
va_list_type_node,
NULL_TREE";
build_call = build_call_expr_loc_vec;
build_call_args = "BUILTINS_LOCATION, fndecl, arguments";
};
py-runtime = { code = GPY_RR_fold_argument;
arguments = "tree args, tree offset";
proto = "tree, tree";
comment = "/* Eval arg */";
function_identifier = "gpy_rr_fold_argument";
fntype = "gpy_object_type_ptr,
gpy_object_type_ptr_ptr,
integer_type_node,
NULL_TREE";
build_call = build_call_expr;
build_call_args = "fndecl, 2, args, offset";
};
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