[04124c4] | 1 | // |
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| 2 | // Cforall Version 1.0.0 Copyright (C) 2019 University of Waterloo |
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| 3 | // |
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| 4 | // The contents of this file are covered under the licence agreement in the |
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| 5 | // file "LICENCE" distributed with Cforall. |
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| 6 | // |
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| 7 | // Pass.impl.hpp -- |
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| 8 | // |
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| 9 | // Author : Thierry Delisle |
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| 10 | // Created On : Thu May 09 15::37::05 2019 |
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| 11 | // Last Modified By : |
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| 12 | // Last Modified On : |
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| 13 | // Update Count : |
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| 14 | // |
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| 15 | |
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[f47f887] | 16 | #pragma once |
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| 17 | // IWYU pragma: private, include "Pass.hpp" |
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| 18 | |
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[c15085d] | 19 | #include "Common/Stats/Heap.h" |
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| 20 | |
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[f47f887] | 21 | namespace ast { |
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[7ff3e522] | 22 | template<typename core_t> |
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[04124c4] | 23 | class Pass; |
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[f47f887] | 24 | |
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[a056f56] | 25 | struct TranslationUnit; |
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[293dc1c] | 26 | |
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[d3aa64f1] | 27 | struct PureVisitor; |
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| 28 | |
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[04124c4] | 29 | namespace __pass { |
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| 30 | typedef std::function<void( void * )> cleanup_func_t; |
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| 31 | typedef std::function<void( cleanup_func_t, void * )> at_cleanup_t; |
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[f47f887] | 32 | |
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| 33 | |
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[04124c4] | 34 | // boolean reference that may be null |
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| 35 | // either refers to a boolean value or is null and returns true |
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| 36 | class bool_ref { |
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| 37 | public: |
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| 38 | bool_ref() = default; |
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| 39 | ~bool_ref() = default; |
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[f47f887] | 40 | |
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[04124c4] | 41 | operator bool() { return m_ref ? *m_ref : true; } |
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| 42 | bool operator=( bool val ) { assert(m_ref); return *m_ref = val; } |
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[f47f887] | 43 | |
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[04124c4] | 44 | private: |
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[f47f887] | 45 | |
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[04124c4] | 46 | friend class visit_children_guard; |
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[f47f887] | 47 | |
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[04124c4] | 48 | bool * set( bool * val ) { |
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| 49 | bool * prev = m_ref; |
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| 50 | m_ref = val; |
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| 51 | return prev; |
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| 52 | } |
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[f47f887] | 53 | |
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[04124c4] | 54 | bool * m_ref = nullptr; |
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| 55 | }; |
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[f47f887] | 56 | |
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[04124c4] | 57 | // Implementation of the guard value |
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| 58 | // Created inside the visit scope |
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| 59 | class guard_value { |
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| 60 | public: |
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| 61 | /// Push onto the cleanup |
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| 62 | guard_value( at_cleanup_t * at_cleanup ) { |
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| 63 | if( at_cleanup ) { |
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| 64 | *at_cleanup = [this]( cleanup_func_t && func, void* val ) { |
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| 65 | push( std::move( func ), val ); |
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| 66 | }; |
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[f47f887] | 67 | } |
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[04124c4] | 68 | } |
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[f47f887] | 69 | |
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[04124c4] | 70 | ~guard_value() { |
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| 71 | while( !cleanups.empty() ) { |
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| 72 | auto& cleanup = cleanups.top(); |
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| 73 | cleanup.func( cleanup.val ); |
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| 74 | cleanups.pop(); |
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[f47f887] | 75 | } |
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[04124c4] | 76 | } |
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[f47f887] | 77 | |
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[04124c4] | 78 | void push( cleanup_func_t && func, void* val ) { |
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| 79 | cleanups.emplace( std::move(func), val ); |
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| 80 | } |
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[f47f887] | 81 | |
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[04124c4] | 82 | private: |
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| 83 | struct cleanup_t { |
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| 84 | cleanup_func_t func; |
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| 85 | void * val; |
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[f47f887] | 86 | |
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[04124c4] | 87 | cleanup_t( cleanup_func_t&& func, void * val ) : func(func), val(val) {} |
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[f47f887] | 88 | }; |
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| 89 | |
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[c408483] | 90 | std::stack< cleanup_t, std::vector<cleanup_t> > cleanups; |
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[04124c4] | 91 | }; |
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[f47f887] | 92 | |
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[04124c4] | 93 | // Guard structure implementation for whether or not children should be visited |
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| 94 | class visit_children_guard { |
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| 95 | public: |
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[f47f887] | 96 | |
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[04124c4] | 97 | visit_children_guard( bool_ref * ref ) |
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| 98 | : m_val ( true ) |
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| 99 | , m_prev( ref ? ref->set( &m_val ) : nullptr ) |
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| 100 | , m_ref ( ref ) |
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| 101 | {} |
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| 102 | |
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| 103 | ~visit_children_guard() { |
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| 104 | if( m_ref ) { |
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| 105 | m_ref->set( m_prev ); |
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[f47f887] | 106 | } |
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[04124c4] | 107 | } |
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[f47f887] | 108 | |
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[04124c4] | 109 | operator bool() { return m_val; } |
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[f47f887] | 110 | |
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[04124c4] | 111 | private: |
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| 112 | bool m_val; |
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| 113 | bool * m_prev; |
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| 114 | bool_ref * m_ref; |
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| 115 | }; |
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[f47f887] | 116 | |
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[e4b6cf78] | 117 | /// "Short hand" to check if this is a valid previsit function |
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| 118 | /// Mostly used to make the static_assert look (and print) prettier |
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[7ff3e522] | 119 | template<typename core_t, typename node_t> |
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[dff6452] | 120 | struct is_valid_previsit { |
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[93f74c0f] | 121 | using ret_t = decltype( std::declval<core_t*>()->previsit( std::declval<const node_t *>() ) ); |
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[dff6452] | 122 | |
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| 123 | static constexpr bool value = std::is_void< ret_t >::value || |
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| 124 | std::is_base_of<const node_t, typename std::remove_pointer<ret_t>::type >::value; |
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| 125 | }; |
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| 126 | |
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[e4b6cf78] | 127 | /// Used by previsit implementation |
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| 128 | /// We need to reassign the result to 'node', unless the function |
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| 129 | /// returns void, then we just leave 'node' unchanged |
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[0b8bf27] | 130 | template<bool is_void> |
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| 131 | struct __assign; |
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| 132 | |
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| 133 | template<> |
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| 134 | struct __assign<true> { |
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[7ff3e522] | 135 | template<typename core_t, typename node_t> |
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| 136 | static inline void result( core_t & core, const node_t * & node ) { |
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| 137 | core.previsit( node ); |
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[0b8bf27] | 138 | } |
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| 139 | }; |
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| 140 | |
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| 141 | template<> |
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| 142 | struct __assign<false> { |
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[7ff3e522] | 143 | template<typename core_t, typename node_t> |
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| 144 | static inline void result( core_t & core, const node_t * & node ) { |
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| 145 | node = core.previsit( node ); |
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[0b8bf27] | 146 | assertf(node, "Previsit must not return NULL"); |
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| 147 | } |
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| 148 | }; |
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| 149 | |
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[e4b6cf78] | 150 | /// Used by postvisit implementation |
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| 151 | /// We need to return the result unless the function |
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| 152 | /// returns void, then we just return the original node |
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| 153 | template<bool is_void> |
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| 154 | struct __return; |
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| 155 | |
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| 156 | template<> |
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| 157 | struct __return<true> { |
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[7ff3e522] | 158 | template<typename core_t, typename node_t> |
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| 159 | static inline const node_t * result( core_t & core, const node_t * & node ) { |
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| 160 | core.postvisit( node ); |
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[e4b6cf78] | 161 | return node; |
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| 162 | } |
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| 163 | }; |
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| 164 | |
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| 165 | template<> |
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| 166 | struct __return<false> { |
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[7ff3e522] | 167 | template<typename core_t, typename node_t> |
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| 168 | static inline auto result( core_t & core, const node_t * & node ) { |
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| 169 | return core.postvisit( node ); |
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[e4b6cf78] | 170 | } |
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| 171 | }; |
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| 172 | |
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[04124c4] | 173 | //------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
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| 174 | // Deep magic (a.k.a template meta programming) to make the templated visitor work |
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| 175 | // Basically the goal is to make 2 previsit |
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| 176 | // 1 - Use when a pass implements a valid previsit. This uses overloading which means the any overload of |
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| 177 | // 'pass.previsit( node )' that compiles will be used for that node for that type |
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| 178 | // This requires that this option only compile for passes that actually define an appropriate visit. |
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| 179 | // SFINAE will make sure the compilation errors in this function don't halt the build. |
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| 180 | // See http://en.cppreference.com/w/cpp/language/sfinae for details on SFINAE |
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| 181 | // 2 - Since the first implementation might not be specilizable, the second implementation exists and does nothing. |
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| 182 | // This is needed only to eliminate the need for passes to specify any kind of handlers. |
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| 183 | // The second implementation only works because it has a lower priority. This is due to the bogus last parameter. |
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| 184 | // The second implementation takes a long while the first takes an int. Since the caller always passes an literal 0 |
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| 185 | // the first implementation takes priority in regards to overloading. |
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| 186 | //------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
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| 187 | // PreVisit : may mutate the pointer passed in if the node is mutated in the previsit call |
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[7ff3e522] | 188 | template<typename core_t, typename node_t> |
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| 189 | static inline auto previsit( core_t & core, const node_t * & node, int ) -> decltype( core.previsit( node ), void() ) { |
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[b0abc8a0] | 190 | static_assert( |
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[7ff3e522] | 191 | is_valid_previsit<core_t, node_t>::value, |
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[dff6452] | 192 | "Previsit may not change the type of the node. It must return its paremeter or void." |
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[b0abc8a0] | 193 | ); |
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[0b8bf27] | 194 | |
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| 195 | __assign< |
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| 196 | std::is_void< |
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[7ff3e522] | 197 | decltype( core.previsit( node ) ) |
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[0b8bf27] | 198 | >::value |
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[7ff3e522] | 199 | >::result( core, node ); |
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[04124c4] | 200 | } |
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| 201 | |
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[7ff3e522] | 202 | template<typename core_t, typename node_t> |
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| 203 | static inline auto previsit( core_t &, const node_t *, long ) {} |
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[04124c4] | 204 | |
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| 205 | // PostVisit : never mutates the passed pointer but may return a different node |
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[7ff3e522] | 206 | template<typename core_t, typename node_t> |
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| 207 | static inline auto postvisit( core_t & core, const node_t * node, int ) -> |
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| 208 | decltype( core.postvisit( node ), node->accept( *(Visitor*)nullptr ) ) |
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[dff6452] | 209 | { |
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[e4b6cf78] | 210 | return __return< |
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| 211 | std::is_void< |
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[7ff3e522] | 212 | decltype( core.postvisit( node ) ) |
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[e4b6cf78] | 213 | >::value |
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[7ff3e522] | 214 | >::result( core, node ); |
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[04124c4] | 215 | } |
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| 216 | |
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[7ff3e522] | 217 | template<typename core_t, typename node_t> |
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| 218 | static inline const node_t * postvisit( core_t &, const node_t * node, long ) { return node; } |
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[04124c4] | 219 | |
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| 220 | //------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
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| 221 | // Deep magic (a.k.a template meta programming) continued |
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| 222 | // To make the templated visitor be more expressive, we allow 'accessories' : classes/structs the implementation can inherit |
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| 223 | // from in order to get extra functionallity for example |
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| 224 | // class ErrorChecker : WithShortCircuiting { ... }; |
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| 225 | // Pass<ErrorChecker> checker; |
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| 226 | // this would define a pass that uses the templated visitor with the additionnal feature that it has short circuiting |
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| 227 | // Note that in all cases the accessories are not required but guarantee the requirements of the feature is matched |
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| 228 | //------------------------------------------------------------------------------------------------------------------------------------------------------------------------- |
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| 229 | // For several accessories, the feature is enabled by detecting that a specific field is present |
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| 230 | // Use a macro the encapsulate the logic of detecting a particular field |
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| 231 | // The type is not strictly enforced but does match the accessory |
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| 232 | #define FIELD_PTR( name, default_type ) \ |
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[7ff3e522] | 233 | template< typename core_t > \ |
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| 234 | static inline auto name( core_t & core, int ) -> decltype( &core.name ) { return &core.name; } \ |
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[04124c4] | 235 | \ |
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[7ff3e522] | 236 | template< typename core_t > \ |
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| 237 | static inline default_type * name( core_t &, long ) { return nullptr; } |
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[04124c4] | 238 | |
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| 239 | // List of fields and their expected types |
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[b2a11ba] | 240 | FIELD_PTR( typeSubs, const ast::TypeSubstitution * ) |
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[04124c4] | 241 | FIELD_PTR( stmtsToAddBefore, std::list< ast::ptr< ast::Stmt > > ) |
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| 242 | FIELD_PTR( stmtsToAddAfter , std::list< ast::ptr< ast::Stmt > > ) |
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| 243 | FIELD_PTR( declsToAddBefore, std::list< ast::ptr< ast::Decl > > ) |
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| 244 | FIELD_PTR( declsToAddAfter , std::list< ast::ptr< ast::Decl > > ) |
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| 245 | FIELD_PTR( visit_children, __pass::bool_ref ) |
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| 246 | FIELD_PTR( at_cleanup, __pass::at_cleanup_t ) |
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[7ff3e522] | 247 | FIELD_PTR( visitor, ast::Pass<core_t> * const ) |
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[04124c4] | 248 | |
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| 249 | // Remove the macro to make sure we don't clash |
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| 250 | #undef FIELD_PTR |
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| 251 | |
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[7ff3e522] | 252 | template< typename core_t > |
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| 253 | static inline auto beginTrace(core_t &, int) -> decltype( core_t::traceId, void() ) { |
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| 254 | // Stats::Heap::stacktrace_push(core_t::traceId); |
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[c15085d] | 255 | } |
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| 256 | |
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[7ff3e522] | 257 | template< typename core_t > |
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| 258 | static inline auto endTrace(core_t &, int) -> decltype( core_t::traceId, void() ) { |
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[0d070ca] | 259 | // Stats::Heap::stacktrace_pop(); |
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[c15085d] | 260 | } |
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| 261 | |
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[7ff3e522] | 262 | template< typename core_t > |
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| 263 | static void beginTrace(core_t &, long) {} |
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[c15085d] | 264 | |
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[7ff3e522] | 265 | template< typename core_t > |
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| 266 | static void endTrace(core_t &, long) {} |
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[c15085d] | 267 | |
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[0dd9a5e] | 268 | // Allows visitor to handle an error on top-level declarations, and possibly suppress the error. |
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| 269 | // If onError() returns false, the error will be ignored. By default, it returns true. |
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| 270 | |
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| 271 | template< typename core_t > |
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[e00c22f] | 272 | static bool on_error (core_t &, ptr<Decl> &, long) { return true; } |
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[0dd9a5e] | 273 | |
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| 274 | template< typename core_t > |
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[e00c22f] | 275 | static auto on_error (core_t & core, ptr<Decl> & decl, int) -> decltype(core.on_error(decl)) { |
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[a056f56] | 276 | return core.on_error(decl); |
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[0dd9a5e] | 277 | } |
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| 278 | |
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[04124c4] | 279 | // Another feature of the templated visitor is that it calls beginScope()/endScope() for compound statement. |
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| 280 | // All passes which have such functions are assumed desire this behaviour |
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| 281 | // detect it using the same strategy |
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| 282 | namespace scope { |
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[7ff3e522] | 283 | template<typename core_t> |
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| 284 | static inline auto enter( core_t & core, int ) -> decltype( core.beginScope(), void() ) { |
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| 285 | core.beginScope(); |
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[f47f887] | 286 | } |
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| 287 | |
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[7ff3e522] | 288 | template<typename core_t> |
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| 289 | static inline void enter( core_t &, long ) {} |
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[f47f887] | 290 | |
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[7ff3e522] | 291 | template<typename core_t> |
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| 292 | static inline auto leave( core_t & core, int ) -> decltype( core.endScope(), void() ) { |
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| 293 | core.endScope(); |
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[f47f887] | 294 | } |
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| 295 | |
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[7ff3e522] | 296 | template<typename core_t> |
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| 297 | static inline void leave( core_t &, long ) {} |
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[e0e9a0b] | 298 | } // namespace scope |
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[f47f887] | 299 | |
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[e0e9a0b] | 300 | // Certain passes desire an up to date symbol table automatically |
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[0e42794] | 301 | // detect the presence of a member name `symtab` and call all the members appropriately |
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| 302 | namespace symtab { |
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[04124c4] | 303 | // Some simple scoping rules |
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[7ff3e522] | 304 | template<typename core_t> |
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| 305 | static inline auto enter( core_t & core, int ) -> decltype( core.symtab, void() ) { |
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| 306 | core.symtab.enterScope(); |
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[04124c4] | 307 | } |
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[f47f887] | 308 | |
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[7ff3e522] | 309 | template<typename core_t> |
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| 310 | static inline auto enter( core_t &, long ) {} |
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[f47f887] | 311 | |
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[7ff3e522] | 312 | template<typename core_t> |
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| 313 | static inline auto leave( core_t & core, int ) -> decltype( core.symtab, void() ) { |
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| 314 | core.symtab.leaveScope(); |
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[04124c4] | 315 | } |
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[f47f887] | 316 | |
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[7ff3e522] | 317 | template<typename core_t> |
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| 318 | static inline auto leave( core_t &, long ) {} |
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[f47f887] | 319 | |
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[0e42794] | 320 | // The symbol table has 2 kind of functions mostly, 1 argument and 2 arguments |
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[04124c4] | 321 | // Create macro to condense these common patterns |
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[0e42794] | 322 | #define SYMTAB_FUNC1( func, type ) \ |
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[7ff3e522] | 323 | template<typename core_t> \ |
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| 324 | static inline auto func( core_t & core, int, type arg ) -> decltype( core.symtab.func( arg ), void() ) {\ |
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| 325 | core.symtab.func( arg ); \ |
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[04124c4] | 326 | } \ |
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| 327 | \ |
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[7ff3e522] | 328 | template<typename core_t> \ |
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| 329 | static inline void func( core_t &, long, type ) {} |
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[04124c4] | 330 | |
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[0e42794] | 331 | #define SYMTAB_FUNC2( func, type1, type2 ) \ |
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[7ff3e522] | 332 | template<typename core_t> \ |
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| 333 | static inline auto func( core_t & core, int, type1 arg1, type2 arg2 ) -> decltype( core.symtab.func( arg1, arg2 ), void () ) {\ |
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| 334 | core.symtab.func( arg1, arg2 ); \ |
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[04124c4] | 335 | } \ |
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[f47f887] | 336 | \ |
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[7ff3e522] | 337 | template<typename core_t> \ |
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| 338 | static inline void func( core_t &, long, type1, type2 ) {} |
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[04124c4] | 339 | |
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[0e42794] | 340 | SYMTAB_FUNC1( addId , const DeclWithType * ); |
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| 341 | SYMTAB_FUNC1( addType , const NamedTypeDecl * ); |
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| 342 | SYMTAB_FUNC1( addStruct , const StructDecl * ); |
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| 343 | SYMTAB_FUNC1( addEnum , const EnumDecl * ); |
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| 344 | SYMTAB_FUNC1( addUnion , const UnionDecl * ); |
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| 345 | SYMTAB_FUNC1( addTrait , const TraitDecl * ); |
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[396b830] | 346 | SYMTAB_FUNC2( addWith , const std::vector< ptr<Expr> > &, const Decl * ); |
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[04124c4] | 347 | |
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| 348 | // A few extra functions have more complicated behaviour, they are hand written |
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[7ff3e522] | 349 | template<typename core_t> |
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| 350 | static inline auto addStructFwd( core_t & core, int, const ast::StructDecl * decl ) -> decltype( core.symtab.addStruct( decl ), void() ) { |
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[6d51bd7] | 351 | ast::StructDecl * fwd = new ast::StructDecl( decl->location, decl->name ); |
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[87701b6] | 352 | fwd->params = decl->params; |
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[7ff3e522] | 353 | core.symtab.addStruct( fwd ); |
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[6d51bd7] | 354 | } |
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| 355 | |
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[7ff3e522] | 356 | template<typename core_t> |
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| 357 | static inline void addStructFwd( core_t &, long, const ast::StructDecl * ) {} |
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[6d51bd7] | 358 | |
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[7ff3e522] | 359 | template<typename core_t> |
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| 360 | static inline auto addUnionFwd( core_t & core, int, const ast::UnionDecl * decl ) -> decltype( core.symtab.addUnion( decl ), void() ) { |
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[6d51bd7] | 361 | UnionDecl * fwd = new UnionDecl( decl->location, decl->name ); |
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[87701b6] | 362 | fwd->params = decl->params; |
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[7ff3e522] | 363 | core.symtab.addUnion( fwd ); |
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[6d51bd7] | 364 | } |
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| 365 | |
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[7ff3e522] | 366 | template<typename core_t> |
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| 367 | static inline void addUnionFwd( core_t &, long, const ast::UnionDecl * ) {} |
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[6d51bd7] | 368 | |
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[7ff3e522] | 369 | template<typename core_t> |
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| 370 | static inline auto addStruct( core_t & core, int, const std::string & str ) -> decltype( core.symtab.addStruct( str ), void() ) { |
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| 371 | if ( ! core.symtab.lookupStruct( str ) ) { |
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| 372 | core.symtab.addStruct( str ); |
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[6d51bd7] | 373 | } |
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| 374 | } |
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| 375 | |
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[7ff3e522] | 376 | template<typename core_t> |
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| 377 | static inline void addStruct( core_t &, long, const std::string & ) {} |
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[6d51bd7] | 378 | |
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[7ff3e522] | 379 | template<typename core_t> |
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| 380 | static inline auto addUnion( core_t & core, int, const std::string & str ) -> decltype( core.symtab.addUnion( str ), void() ) { |
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| 381 | if ( ! core.symtab.lookupUnion( str ) ) { |
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| 382 | core.symtab.addUnion( str ); |
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[6d51bd7] | 383 | } |
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| 384 | } |
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| 385 | |
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[7ff3e522] | 386 | template<typename core_t> |
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| 387 | static inline void addUnion( core_t &, long, const std::string & ) {} |
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[04124c4] | 388 | |
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[0e42794] | 389 | #undef SYMTAB_FUNC1 |
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| 390 | #undef SYMTAB_FUNC2 |
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[e0e9a0b] | 391 | } // namespace symtab |
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| 392 | |
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| 393 | // Some passes need to mutate TypeDecl and properly update their pointing TypeInstType. |
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| 394 | // Detect the presence of a member name `subs` and call all members appropriately |
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| 395 | namespace forall { |
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| 396 | // Some simple scoping rules |
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[7ff3e522] | 397 | template<typename core_t> |
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[361bf01] | 398 | static inline auto enter( core_t & core, int, const ast::FunctionType * type ) |
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[7ff3e522] | 399 | -> decltype( core.subs, void() ) { |
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| 400 | if ( ! type->forall.empty() ) core.subs.beginScope(); |
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[e0e9a0b] | 401 | } |
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| 402 | |
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[7ff3e522] | 403 | template<typename core_t> |
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[361bf01] | 404 | static inline auto enter( core_t &, long, const ast::FunctionType * ) {} |
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[e0e9a0b] | 405 | |
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[7ff3e522] | 406 | template<typename core_t> |
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[361bf01] | 407 | static inline auto leave( core_t & core, int, const ast::FunctionType * type ) |
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[7ff3e522] | 408 | -> decltype( core.subs, void() ) { |
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| 409 | if ( ! type->forall.empty() ) { core.subs.endScope(); } |
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[e0e9a0b] | 410 | } |
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| 411 | |
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[7ff3e522] | 412 | template<typename core_t> |
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[361bf01] | 413 | static inline auto leave( core_t &, long, const ast::FunctionType * ) {} |
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[e0e9a0b] | 414 | |
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| 415 | // Replaces a TypeInstType's base TypeDecl according to the table |
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[7ff3e522] | 416 | template<typename core_t> |
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| 417 | static inline auto replace( core_t & core, int, const ast::TypeInstType *& inst ) |
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| 418 | -> decltype( core.subs, void() ) { |
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[396b830] | 419 | inst = ast::mutate_field( |
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[7ff3e522] | 420 | inst, &ast::TypeInstType::base, core.subs.replace( inst->base ) ); |
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[e0e9a0b] | 421 | } |
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| 422 | |
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[7ff3e522] | 423 | template<typename core_t> |
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| 424 | static inline auto replace( core_t &, long, const ast::TypeInstType *& ) {} |
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[e0e9a0b] | 425 | |
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| 426 | } // namespace forall |
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[e6b42e7] | 427 | |
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| 428 | template<typename core_t> |
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| 429 | static inline auto get_result( core_t & core, char ) -> decltype( core.result() ) { |
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| 430 | return core.result(); |
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| 431 | } |
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| 432 | |
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| 433 | template<typename core_t> |
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| 434 | static inline auto get_result( core_t & core, int ) -> decltype( core.result ) { |
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| 435 | return core.result; |
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| 436 | } |
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| 437 | |
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| 438 | template<typename core_t> |
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| 439 | static inline void get_result( core_t &, long ) {} |
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[e0e9a0b] | 440 | } // namespace __pass |
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[aebf5b0] | 441 | } // namespace ast |
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