1 | #pragma once |
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2 | // IWYU pragma: private, include "PassVisitor.h" |
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3 | |
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4 | template<typename pass_type> |
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5 | class PassVisitor; |
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6 | |
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7 | typedef std::function<void( void * )> cleanup_func_t; |
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8 | typedef std::function< void( cleanup_func_t, void * ) > at_cleanup_t; |
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9 | |
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10 | class guard_value_impl { |
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11 | public: |
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12 | guard_value_impl( at_cleanup_t * at_cleanup ) { |
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13 | if( at_cleanup ) { |
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14 | *at_cleanup = [this]( cleanup_func_t && func, void* val ) { |
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15 | push( std::move( func ), val ); |
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16 | }; |
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17 | } |
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18 | } |
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19 | |
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20 | ~guard_value_impl() { |
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21 | while( !cleanups.empty() ) { |
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22 | auto& cleanup = cleanups.top(); |
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23 | cleanup.func( cleanup.val ); |
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24 | cleanups.pop(); |
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25 | } |
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26 | } |
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27 | |
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28 | void push( cleanup_func_t && func, void* val ) { |
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29 | cleanups.emplace( std::move(func), val ); |
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30 | } |
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31 | |
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32 | private: |
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33 | struct cleanup_t { |
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34 | cleanup_func_t func; |
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35 | void * val; |
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36 | |
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37 | cleanup_t( cleanup_func_t&& func, void * val ) : func(func), val(val) {} |
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38 | }; |
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39 | |
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40 | std::stack< cleanup_t > cleanups; |
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41 | }; |
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42 | |
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43 | class bool_ref { |
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44 | public: |
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45 | bool_ref() = default; |
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46 | ~bool_ref() = default; |
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47 | |
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48 | operator bool() { return *m_ref; } |
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49 | bool operator=( bool val ) { return *m_ref = val; } |
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50 | |
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51 | private: |
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52 | |
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53 | template<typename pass> |
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54 | friend class PassVisitor; |
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55 | |
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56 | void set( bool & val ) { m_ref = &val; }; |
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57 | |
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58 | bool * m_ref; |
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59 | }; |
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60 | |
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61 | template< typename TreeType, typename VisitorType > |
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62 | inline void indexerScopedAccept( TreeType * tree, VisitorType & visitor ) { |
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63 | auto guard = makeFuncGuard( |
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64 | [&visitor]() { visitor.indexerScopeEnter(); }, |
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65 | [&visitor]() { visitor.indexerScopeLeave(); } |
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66 | ); |
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67 | maybeAccept( tree, visitor ); |
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68 | } |
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69 | |
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70 | template< typename TreeType, typename MutatorType > |
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71 | inline void indexerScopedMutate( TreeType *& tree, MutatorType & mutator ) { |
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72 | auto guard = makeFuncGuard( |
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73 | [&mutator]() { mutator.indexerScopeEnter(); }, |
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74 | [&mutator]() { mutator.indexerScopeLeave(); } |
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75 | ); |
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76 | tree = maybeMutate( tree, mutator ); |
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77 | } |
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78 | |
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79 | template< typename TreeType, typename MutatorType > |
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80 | inline void maybeMutateRef( TreeType *& tree, MutatorType & mutator ) { |
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81 | tree = maybeMutate( tree, mutator ); |
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82 | } |
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83 | |
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84 | //------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
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85 | // Deep magic (a.k.a template meta programming) to make the templated visitor work |
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86 | // Basically the goal is to make 2 previsit_impl |
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87 | // 1 - Use when a pass implements a valid previsit. This uses overloading which means the any overload of |
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88 | // 'pass.previsit( node )' that compiles will be used for that node for that type |
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89 | // This requires that this option only compile for passes that actually define an appropriate visit. |
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90 | // SFINAE will make sure the compilation errors in this function don't halt the build. |
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91 | // See http://en.cppreference.com/w/cpp/language/sfinae for details on SFINAE |
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92 | // 2 - Since the first implementation might not be specilizable, the second implementation exists and does nothing. |
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93 | // This is needed only to eliminate the need for passes to specify any kind of handlers. |
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94 | // The second implementation only works because it has a lower priority. This is due to the bogus last parameter. |
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95 | // The second implementation takes a long while the first takes an int. Since the caller always passes an literal 0 |
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96 | // the first implementation takes priority in regards to overloading. |
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97 | // Mutator functions work along the same principal |
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98 | //------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
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99 | // Visit |
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100 | template<typename pass_type, typename node_type> |
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101 | static inline auto previsit_impl( pass_type& pass, node_type * node, __attribute__((unused)) int unused ) -> decltype( pass.previsit( node ), void() ) { |
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102 | pass.previsit( node ); |
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103 | } |
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104 | |
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105 | template<typename pass_type, typename node_type> |
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106 | static inline void previsit_impl( __attribute__((unused)) pass_type& pass, __attribute__((unused)) node_type * node, __attribute__((unused)) long unused ) {} |
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107 | |
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108 | |
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109 | template<typename pass_type, typename node_type> |
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110 | static inline auto postvisit_impl( pass_type& pass, node_type * node, __attribute__((unused)) int unused ) -> decltype( pass.postvisit( node ), void() ) { |
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111 | pass.postvisit( node ); |
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112 | } |
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113 | |
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114 | template<typename pass_type, typename node_type> |
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115 | static inline void postvisit_impl( __attribute__((unused)) pass_type& pass, __attribute__((unused)) node_type * node, __attribute__((unused)) long unused ) {} |
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116 | |
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117 | //--------------------------------------------------------- |
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118 | // Mutate |
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119 | template<typename pass_type, typename node_type> |
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120 | static inline auto premutate_impl( pass_type& pass, node_type * node, __attribute__((unused)) int unused ) -> decltype( pass.premutate( node ), void() ) { |
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121 | return pass.premutate( node ); |
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122 | } |
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123 | |
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124 | template<typename pass_type, typename node_type> |
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125 | static inline void premutate_impl( __attribute__((unused)) pass_type& pass, __attribute__((unused)) node_type * node, __attribute__((unused)) long unused ) {} |
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126 | |
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127 | |
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128 | template<typename return_type, typename pass_type, typename node_type> |
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129 | static inline auto postmutate_impl( pass_type& pass, node_type * node, __attribute__((unused)) int unused ) -> decltype( pass.postmutate( node ) ) { |
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130 | return pass.postmutate( node ); |
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131 | } |
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132 | |
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133 | template<typename return_type, typename pass_type, typename node_type> |
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134 | static inline return_type postmutate_impl( __attribute__((unused)) pass_type& pass, node_type * node, __attribute__((unused)) long unused ) { return node; } |
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135 | |
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136 | //--------------------------------------------------------- |
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137 | // Begin/End scope |
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138 | template<typename pass_type> |
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139 | static inline auto begin_scope_impl( pass_type& pass, __attribute__((unused)) int unused ) -> decltype( pass.beginScope(), void() ) { |
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140 | pass.beginScope(); |
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141 | } |
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142 | |
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143 | template<typename pass_type> |
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144 | static inline void begin_scope_impl( __attribute__((unused)) pass_type& pass, __attribute__((unused)) long unused ) {} |
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145 | |
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146 | |
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147 | template<typename pass_type> |
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148 | static inline auto end_scope_impl( pass_type& pass, __attribute__((unused)) int unused ) -> decltype( pass.endScope(), void() ) { |
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149 | pass.endScope(); |
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150 | } |
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151 | |
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152 | template<typename pass_type> |
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153 | static inline void end_scope_impl( __attribute__((unused)) pass_type& pass, __attribute__((unused)) long unused ) {} |
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154 | |
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155 | //--------------------------------------------------------- |
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156 | // Fields |
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157 | #define FIELD_PTR( type, name ) \ |
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158 | template<typename pass_type> \ |
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159 | static inline auto name##_impl( pass_type& pass, __attribute__((unused)) int unused ) -> decltype( &pass.name ) { return &pass.name; } \ |
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160 | \ |
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161 | template<typename pass_type> \ |
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162 | static inline type * name##_impl( __attribute__((unused)) pass_type& pass, __attribute__((unused)) long unused ) { return nullptr;} \ |
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163 | |
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164 | FIELD_PTR( TypeSubstitution *, env ) |
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165 | FIELD_PTR( std::list< Statement* >, stmtsToAddBefore ) |
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166 | FIELD_PTR( std::list< Statement* >, stmtsToAddAfter ) |
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167 | FIELD_PTR( std::list< Declaration* >, declsToAddBefore ) |
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168 | FIELD_PTR( std::list< Declaration* >, declsToAddAfter ) |
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169 | FIELD_PTR( bool_ref, visit_children ) |
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170 | FIELD_PTR( at_cleanup_t, at_cleanup ) |
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171 | FIELD_PTR( PassVisitor<pass_type> * const, visitor ) |
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172 | |
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173 | //--------------------------------------------------------- |
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174 | // Indexer |
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175 | template<typename pass_type> |
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176 | static inline auto indexer_impl_enterScope( pass_type & pass, int ) -> decltype( pass.indexer.enterScope(), void() ) { |
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177 | pass.indexer.enterScope(); |
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178 | } |
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179 | |
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180 | template<typename pass_type> |
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181 | static inline auto indexer_impl_enterScope( pass_type &, long ) {} |
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182 | |
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183 | template<typename pass_type> |
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184 | static inline auto indexer_impl_leaveScope( pass_type & pass, int ) -> decltype( pass.indexer.leaveScope(), void() ) { |
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185 | pass.indexer.leaveScope(); |
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186 | } |
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187 | |
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188 | template<typename pass_type> |
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189 | static inline auto indexer_impl_leaveScope( pass_type &, long ) {} |
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190 | |
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191 | |
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192 | #define INDEXER_FUNC( func, type ) \ |
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193 | template<typename pass_type> \ |
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194 | static inline auto indexer_impl_##func ( pass_type & pass, int, type arg ) -> decltype( pass.indexer.func( arg ), void() ) { \ |
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195 | pass.indexer.func( arg ); \ |
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196 | } \ |
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197 | \ |
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198 | template<typename pass_type> \ |
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199 | static inline void indexer_impl_##func ( pass_type &, long, type ) { } \ |
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200 | |
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201 | INDEXER_FUNC( addId , DeclarationWithType * ); |
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202 | INDEXER_FUNC( addType , NamedTypeDecl * ); |
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203 | INDEXER_FUNC( addStruct , StructDecl * ); |
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204 | INDEXER_FUNC( addEnum , EnumDecl * ); |
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205 | INDEXER_FUNC( addUnion , UnionDecl * ); |
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206 | INDEXER_FUNC( addTrait , TraitDecl * ); |
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207 | |
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208 | |
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209 | template<typename pass_type> |
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210 | static inline auto indexer_impl_addStructFwd( pass_type & pass, int, StructDecl * decl ) -> decltype( pass.indexer.addStruct( decl ), void() ) { |
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211 | StructDecl * fwd = new StructDecl( decl->name ); |
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212 | cloneAll( decl->parameters, fwd->parameters ); |
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213 | pass.indexer.addStruct( fwd ); |
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214 | } |
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215 | |
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216 | template<typename pass_type> |
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217 | static inline auto indexer_impl_addStructFwd( pass_type &, long, StructDecl * ) {} |
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218 | |
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219 | template<typename pass_type> |
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220 | static inline auto indexer_impl_addUnionFwd( pass_type & pass, int, UnionDecl * decl ) -> decltype( pass.indexer.addUnion( decl ), void() ) { |
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221 | UnionDecl * fwd = new UnionDecl( decl->name ); |
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222 | cloneAll( decl->parameters, fwd->parameters ); |
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223 | pass.indexer.addUnion( fwd ); |
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224 | } |
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225 | |
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226 | template<typename pass_type> |
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227 | static inline auto indexer_impl_addUnionFwd( pass_type &, long, UnionDecl * ) {} |
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228 | |
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229 | template<typename pass_type> |
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230 | static inline auto indexer_impl_addStruct( pass_type & pass, int, const std::string & str ) -> decltype( pass.indexer.addStruct( str ), void() ) { |
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231 | if ( ! pass.indexer.lookupStruct( str ) ) { |
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232 | pass.indexer.addStruct( str ); |
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233 | } |
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234 | } |
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235 | |
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236 | template<typename pass_type> |
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237 | static inline auto indexer_impl_addStruct( pass_type &, long, const std::string & ) {} |
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238 | |
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239 | template<typename pass_type> |
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240 | static inline auto indexer_impl_addUnion( pass_type & pass, int, const std::string & str ) -> decltype( pass.indexer.addUnion( str ), void() ) { |
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241 | if ( ! pass.indexer.lookupUnion( str ) ) { |
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242 | pass.indexer.addUnion( str ); |
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243 | } |
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244 | } |
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245 | |
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246 | template<typename pass_type> |
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247 | static inline auto indexer_impl_addUnion( pass_type &, long, const std::string & ) {} |
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