source: src/AST/Node.hpp@ 043a5b6

ADT arm-eh ast-experimental enum forall-pointer-decay jacob/cs343-translation jenkins-sandbox new-ast new-ast-unique-expr pthread-emulation qualifiedEnum
Last change on this file since 043a5b6 was f685679, checked in by Andrew Beach <ajbeach@…>, 6 years ago

Translation can go both ways without crashing. Don't seem to be the inverse of each other.
  • Property mode set to 100644
File size: 5.0 KB
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1//
2// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3//
4// The contents of this file are covered under the licence agreement in the
5// file "LICENCE" distributed with Cforall.
6//
7// Node.hpp --
8//
9// Author : Thierry Delisle
10// Created On : Wed May 8 10:27:04 2019
11// Last Modified By : Andrew Beach
12// Last Modified On : Thu May 23 16:00:00 2019
13// Update Count : 4
14//
15
16#pragma once
17
18#include <cassert>
19#include <iosfwd>
20
21namespace ast {
22
23class Visitor;
24
25/// Base class for all AST nodes.
26/// Keeps both strong and weak reference counts.
27class Node {
28public:
29 // override defaults to ensure assignment doesn't
30 // change/share reference counts
31 Node() = default;
32 Node(const Node&) : strong_count(0), weak_count(0) {}
33 Node(Node&&) : strong_count(0), weak_count(0) {}
34 Node& operator= (const Node&) = delete;
35 Node& operator= (Node&&) = delete;
36 virtual ~Node() = default;
37
38 virtual const Node * accept( Visitor & v ) const = 0;
39
40 /// Types of node references
41 enum class ref_type {
42 strong,
43 weak
44 };
45
46private:
47 /// Make a copy of this node; should be overridden in subclass with more precise return type
48 virtual Node * clone() const = 0;
49
50 /// Must be copied in ALL derived classes
51 template<typename node_t>
52 friend node_t * mutate(const node_t * node);
53
54 mutable size_t strong_count = 0;
55 mutable size_t weak_count = 0;
56
57 void increment(ref_type ref) const {
58 switch (ref) {
59 case ref_type::strong: strong_count++; break;
60 case ref_type::weak : weak_count ++; break;
61 }
62 }
63
64 void decrement(ast::Node::ref_type ref) const {
65 switch (ref) {
66 case ref_type::strong: strong_count--; break;
67 case ref_type::weak : weak_count --; break;
68 }
69
70 if(!strong_count && !weak_count) {
71 delete this;
72 }
73 }
74
75 template< typename node_t, enum Node::ref_type ref_t >
76 friend class ptr_base;
77};
78
79// Mutate a node, non-member function to avoid static type
80// problems and be able to use auto return
81template<typename node_t>
82node_t * mutate( const node_t * node ) {
83 if (node->strong_count <= 1) {
84 return const_cast<node_t *>(node);
85 }
86
87 assertf(
88 node->weak_count == 0,
89 "Error: mutating node with weak references to it will invalided some references"
90 );
91 return node->clone();
92}
93
94std::ostream& operator<< ( std::ostream& out, const Node * node );
95
96/// Call a visitor on a possibly-null node
97template<typename node_t>
98auto maybe_accept( const node_t * n, Visitor & v ) -> decltype( n->accept(v) ) {
99 return n ? n->accept( v ) : nullptr;
100}
101
102/// Base class for the smart pointer types
103/// should never really be used.
104template< typename node_t, enum Node::ref_type ref_t >
105class ptr_base {
106public:
107 ptr_base() : node(nullptr) {}
108 ptr_base( const node_t * n ) : node(n) { if( node ) _inc(node); }
109 ~ptr_base() { if( node ) _dec(node); }
110
111 ptr_base( const ptr_base & o ) : node(o.node) {
112 if( node ) _inc(node);
113 }
114
115 ptr_base( ptr_base && o ) : node(o.node) {
116 if( node ) _inc(node);
117 }
118
119 template< enum Node::ref_type o_ref_t >
120 ptr_base( const ptr_base<node_t, o_ref_t> & o ) : node(o.node) {
121 if( node ) _inc(node);
122 }
123
124 template< enum Node::ref_type o_ref_t >
125 ptr_base( ptr_base<node_t, o_ref_t> && o ) : node(o.node) {
126 if( node ) _inc(node);
127 }
128
129 template<typename o_node_t>
130 ptr_base & operator=( const o_node_t * node ) {
131 assign( node ? strict_dynamic_cast<const node_t *>(node) : nullptr );
132 return *this;
133 }
134
135 ptr_base & operator=( const ptr_base & o ) {
136 assign(o.node);
137 return *this;
138 }
139
140 ptr_base & operator=( ptr_base && o ) {
141 assign(o.node);
142 return *this;
143 }
144
145 template< enum Node::ref_type o_ref_t >
146 ptr_base & operator=( const ptr_base<node_t, o_ref_t> & o ) {
147 assign(o.node);
148 return *this;
149 }
150
151 template< enum Node::ref_type o_ref_t >
152 ptr_base & operator=( ptr_base<node_t, o_ref_t> && o ) {
153 assign(o.node);
154 return *this;
155 }
156
157 const node_t * get() const { return node; }
158 const node_t * operator->() const { return node; }
159 const node_t & operator* () const { return *node; }
160 explicit operator bool() const { return node; }
161 operator const node_t * () const { return node; }
162
163 /// wrapper for convenient access to dynamic_cast
164 template<typename o_node_t>
165 const o_node_t * as() const { return dynamic_cast<const o_node_t *>(node); }
166
167 /// Returns a mutable version of the pointer in this node.
168 node_t * get_and_mutate();
169
170 /// Sets this pointer to a mutated version of a pointer (possibly) owned elsehere.
171 /// Returns a mutable version of the pointer in this node.
172 node_t * set_and_mutate( const node_t * n );
173
174 using ptr = const node_t *;
175
176private:
177 void assign( const node_t * other ) {
178 if( other ) _inc(other);
179 if( node ) _dec(node );
180 node = other;
181 }
182
183 void _inc( const node_t * other );
184 void _dec( const node_t * other );
185
186protected:
187 const node_t * node;
188};
189
190/// Owning pointer to node
191template< typename node_t >
192using ptr = ptr_base< node_t, Node::ref_type::strong >;
193
194/// Observing pointer to node
195template< typename node_t >
196using readonly = ptr_base< node_t, Node::ref_type::weak >;
197}
198
199// Local Variables: //
200// tab-width: 4 //
201// mode: c++ //
202// compile-command: "make install" //
203// End: //
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