source: src/ResolvExpr/SpecCost.cc@ e6b42e7

ADT arm-eh ast-experimental enum forall-pointer-decay jacob/cs343-translation new-ast-unique-expr pthread-emulation qualifiedEnum
Last change on this file since e6b42e7 was 7ff3e522, checked in by Andrew Beach <ajbeach@…>, 5 years ago

{pass_t Pass::pass; => core_t Pass::core;} To avoid confusion about which pass we are talking about.
  • Property mode set to 100644
File size: 7.1 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// SpecCost.cc --
8//
9// Author : Aaron B. Moss
10// Created On : Tue Oct 02 15:50:00 2018
11// Last Modified By : Andrew Beach
12// Last Modified On : Wed Jul 3 11:07:00 2019
13// Update Count : 3
14//
15
16#include <cassert>
17#include <limits>
18#include <list>
19#include <type_traits>
20
21#include "AST/Pass.hpp"
22#include "AST/Type.hpp"
23#include "Common/PassVisitor.h"
24#include "SynTree/Declaration.h"
25#include "SynTree/Expression.h"
26#include "SynTree/Type.h"
27
28namespace ResolvExpr {
29
30 /// Counts specializations in a type
31 class CountSpecs : public WithShortCircuiting, public WithVisitorRef<CountSpecs> {
32 int count = -1; ///< specialization count (-1 for none)
33
34 public:
35 int get_count() const { return count >= 0 ? count : 0; }
36
37 // mark specialization of base type
38 void postvisit(PointerType*) { if ( count >= 0 ) ++count; }
39
40 // mark specialization of base type
41 void postvisit(ArrayType*) { if ( count >= 0 ) ++count; }
42
43 // mark specialization of base type
44 void postvisit(ReferenceType*) { if ( count >= 0 ) ++count; }
45
46 private:
47 // takes minimum non-negative count over parameter/return list
48 void takeminover( int& mincount, std::list<DeclarationWithType*>& dwts ) {
49 for ( DeclarationWithType* dwt : dwts ) {
50 count = -1;
51 maybeAccept( dwt->get_type(), *visitor );
52 if ( count != -1 && count < mincount ) mincount = count;
53 }
54 }
55
56 public:
57 // take minimal specialization value over ->returnVals and ->parameters
58 void previsit(FunctionType* fty) {
59 int mincount = std::numeric_limits<int>::max();
60 takeminover( mincount, fty->parameters );
61 takeminover( mincount, fty->returnVals );
62 // add another level to mincount if set
63 count = mincount < std::numeric_limits<int>::max() ? mincount + 1 : -1;
64 // already visited children
65 visit_children = false;
66 }
67
68 private:
69 // returns minimum non-negative count + 1 over type parameters (-1 if none such)
70 int minover( std::list<Expression*>& parms ) {
71 int mincount = std::numeric_limits<int>::max();
72 for ( Expression* parm : parms ) {
73 count = -1;
74 maybeAccept( parm->result, *visitor );
75 if ( count != -1 && count < mincount ) mincount = count;
76 }
77 return mincount < std::numeric_limits<int>::max() ? mincount + 1 : -1;
78 }
79
80 public:
81 // look for polymorphic parameters
82 void previsit(StructInstType* sty) {
83 count = minover( sty->parameters );
84 visit_children = false;
85 }
86
87 // look for polymorphic parameters
88 void previsit(UnionInstType* uty) {
89 count = minover( uty->parameters );
90 visit_children = false;
91 }
92
93 // note polymorphic type (which may be specialized)
94 // xxx - maybe account for open/closed type variables
95 void postvisit(TypeInstType*) { count = 0; }
96
97 // take minimal specialization over elements
98 // xxx - maybe don't increment, tuple flattening doesn't necessarily specialize
99 void previsit(TupleType* tty) {
100 int mincount = std::numeric_limits<int>::max();
101 for ( Type* ty : tty->types ) {
102 count = -1;
103 maybeAccept( ty, *visitor );
104 if ( count != -1 && count < mincount ) mincount = count;
105 }
106 count = mincount < std::numeric_limits<int>::max() ? mincount + 1 : -1;
107 visit_children = false;
108 }
109 };
110
111 /// Returns the (negated) specialization cost for a given type
112 int specCost( Type* ty ) {
113 PassVisitor<CountSpecs> counter;
114 maybeAccept( ty, *counter.pass.visitor );
115 return counter.pass.get_count();
116 }
117
118namespace {
119 /// The specialization counter inner class.
120 class SpecCounter : public ast::WithShortCircuiting, public ast::WithVisitorRef<SpecCounter> {
121 int count = -1; ///< specialization count (-1 for none)
122
123 // Converts the max value to -1 (none), otherwise increments the value.
124 static int toNoneOrInc( int value ) {
125 assert( 0 <= value );
126 return value < std::numeric_limits<int>::max() ? value + 1 : -1;
127 }
128
129 template<typename T> using MapperT =
130 typename std::add_pointer<ast::Type const *(typename T::value_type const &)>::type;
131
132 #warning Should use a standard maybe_accept
133 void maybe_accept( ast::Type const * type ) {
134 if ( type ) {
135 auto node = type->accept( *visitor );
136 assert( node == nullptr || node == type );
137 }
138 }
139
140 // Update the minimum to the new lowest non-none value.
141 template<typename T>
142 void updateMinimumPresent( int & minimum, const T & list, MapperT<T> mapper ) {
143 for ( const auto & node : list ) {
144 count = -1;
145 maybe_accept( mapper( node ) );
146 if ( count != -1 && count < minimum ) minimum = count;
147 }
148 }
149
150 // Returns minimum non-negative count + 1 over type parameters (-1 if none such).
151 template<typename T>
152 int minimumPresent( const T & list, MapperT<T> mapper ) {
153 int minCount = std::numeric_limits<int>::max();
154 updateMinimumPresent( minCount, list, mapper );
155 return toNoneOrInc( minCount );
156 }
157
158 // The three mappers:
159 static const ast::Type * decl_type( const ast::ptr< ast::DeclWithType > & decl ) {
160 return decl->get_type();
161 }
162 static const ast::Type * expr_result( const ast::ptr< ast::Expr > & expr ) {
163 return expr->result;
164 }
165 static const ast::Type * type_deref( const ast::ptr< ast::Type > & type ) {
166 return type.get();
167 }
168
169 public:
170 int get_count() const { return 0 <= count ? count : 0; }
171
172 // Mark specialization of base type.
173 void postvisit( const ast::PointerType * ) { if ( count >= 0 ) ++count; }
174 void postvisit( const ast::ArrayType * ) { if ( count >= 0 ) ++count; }
175 void postvisit( const ast::ReferenceType * ) { if ( count >= 0 ) ++count; }
176
177 // Use the minimal specialization value over returns and params.
178 void previsit( const ast::FunctionType * fty ) {
179 int minCount = std::numeric_limits<int>::max();
180 updateMinimumPresent( minCount, fty->params, decl_type );
181 updateMinimumPresent( minCount, fty->returns, decl_type );
182 // Add another level to minCount if set.
183 count = toNoneOrInc( minCount );
184 // We have already visited children.
185 visit_children = false;
186 }
187
188 // Look for polymorphic parameters.
189 void previsit( const ast::StructInstType * sty ) {
190 count = minimumPresent( sty->params, expr_result );
191 visit_children = false;
192 }
193
194 // Look for polymorphic parameters.
195 void previsit( const ast::UnionInstType * uty ) {
196 count = minimumPresent( uty->params, expr_result );
197 visit_children = false;
198 }
199
200 // Note polymorphic type (which may be specialized).
201 // xxx - maybe account for open/closed type variables
202 void postvisit( const ast::TypeInstType * ) { count = 0; }
203
204 // Use the minimal specialization over elements.
205 // xxx - maybe don't increment, tuple flattening doesn't necessarily specialize
206 void previsit( const ast::TupleType * tty ) {
207 count = minimumPresent( tty->types, type_deref );
208 visit_children = false;
209 }
210 };
211
212} // namespace
213
214int specCost( const ast::Type * type ) {
215 if ( nullptr == type ) {
216 return 0;
217 }
218 ast::Pass<SpecCounter> counter;
219 type->accept( counter );
220 return counter.core.get_count();
221}
222
223} // namespace ResolvExpr
224
225// Local Variables: //
226// tab-width: 4 //
227// mode: c++ //
228// compile-command: "make install" //
229// End: //
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