working on tree generation
parent
319d385cd9
commit
ef8b03ae66
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@ -1,5 +1,5 @@
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cmake_minimum_required(VERSION 3.25)
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project(lilfbtf5 VERSION 0.1.30)
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project(lilfbtf5 VERSION 0.1.31)
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option(ENABLE_ADDRSAN "Enable the address sanitizer" OFF)
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option(ENABLE_UBSAN "Enable the ub sanitizer" OFF)
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@ -34,6 +34,7 @@ namespace fb
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void reset();
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bool choice();
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bool choice(double d);
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bool chance(double chance = 0.5);
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float random_float(float min = 0, float max = 1);
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@ -122,18 +122,24 @@ namespace fb
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}
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};
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struct node_construction_info_t
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{
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blt::bump_allocator<blt::BLT_2MB_SIZE, false>& alloc;
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random& engine;
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type_engine_t& types;
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};
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struct tree_construction_info_t
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{
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tree_init_t tree_type;
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random& engine;
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type_engine_t& types;
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double terminal_chance = 0.5;
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};
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struct node_construction_info_t
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{
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tree_t& tree;
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random& engine;
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type_engine_t& types;
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double terminal_chance;
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node_construction_info_t(tree_t& tree, const tree_construction_info_t& info):
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tree(tree), engine(info.engine), types(info.types), terminal_chance(info.terminal_chance)
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{}
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};
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}
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@ -153,7 +159,9 @@ namespace fb
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static detail::node_t* allocate_terminal(detail::node_construction_info_t info, type_id type);
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static void grow(detail::node_construction_info_t info, blt::size_t min_depth, blt::size_t max_depth);
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static void full(detail::node_construction_info_t info, blt::size_t depth);
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public:
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explicit tree_t(type_engine_t& types);
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@ -63,4 +63,10 @@ namespace fb
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{
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return random_double() <= chance;
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}
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bool random::choice(double d)
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{
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std::uniform_real_distribution<double> dist(0, 1);\
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return dist(engine) < d;
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}
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}
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182
src/tree.cpp
182
src/tree.cpp
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@ -27,99 +27,38 @@ namespace fb
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tree_t::tree_t(type_engine_t& types): alloc(), types(types)
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{}
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tree_t tree_t::make_tree(type_engine_t& types, random& engine,
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tree_t tree_t::make_tree(detail::tree_construction_info_t tree_info,
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blt::size_t min_depth, blt::size_t max_depth, std::optional<type_id> starting_type)
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{
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using detail::node_t;
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tree_t tree(types);
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tree_t tree(tree_info.types);
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{
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if (starting_type)
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tree.root = allocate_non_terminal({tree, tree_info}, starting_type.value());
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else
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{
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auto& non_terminals = types.get_non_terminals(starting_type.value());
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auto selection = non_terminals[engine.random_long(0, non_terminals.size() - 1)];
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func_t func(types.get_function_argc(selection), types.get_function(selection), starting_type.value(), selection);
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if (const auto& func_init = types.get_function_initializer(selection))
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func_init.value()(func);
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tree.root = tree.alloc.template emplace<node_t>(func, tree.alloc);
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} else
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{
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auto& non_terminals = types.get_all_non_terminals();
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auto selection = non_terminals[engine.random_long(0, non_terminals.size() - 1)];
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func_t func(types.get_function_argc(selection.second), types.get_function(selection.second), selection.first, selection.second);
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if (const auto& func_init = types.get_function_initializer(selection.second))
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auto& non_terminals = tree_info.types.get_all_non_terminals();
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auto selection = non_terminals[tree_info.engine.random_long(0, non_terminals.size() - 1)];
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func_t func(tree_info.types.get_function_argc(selection.second), tree_info.types.get_function(selection.second), selection.first,
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selection.second);
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if (const auto& func_init = tree_info.types.get_function_initializer(selection.second))
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func_init.value()(func);
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tree.root = tree.alloc.template emplace<node_t>(func, tree.alloc);
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}
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}
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std::stack<std::pair<node_t*, blt::size_t>> stack;
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stack.emplace(tree.root, 0);
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while (!stack.empty())
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switch (tree_info.tree_type)
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{
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auto top = stack.top();
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auto* node = top.first;
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auto depth = top.second;
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stack.pop();
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const auto& allowed_types = types.get_function_allowed_arguments(node->type.getFunction());
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// we need to make sure there is at least one non-terminal generation, until we hit the min height
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bool has_one_non_terminal = false;
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for (blt::size_t i = 0; i < node->type.argc(); i++)
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{
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type_id type_category = allowed_types[i];
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const auto& terminals = types.get_terminals(type_category);
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const auto& non_terminals = types.get_non_terminals(type_category);
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if (depth < min_depth && !has_one_non_terminal)
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{
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// make sure we have at least min height possible by using at least one non terminal
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function_id selection = non_terminals[engine.random_long(0, non_terminals.size() - 1)];
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func_t func(types.get_function_argc(selection), types.get_function(selection), type_category, selection);
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if (const auto& func_init = types.get_function_initializer(selection))
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func_init.value()(func);
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node->children[i] = tree.alloc.template emplace<node_t>(func, tree.alloc);
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has_one_non_terminal = true;
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} else if (depth >= max_depth)
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{
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// if we are above the max_height select only terminals
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function_id selection = terminals[engine.random_long(0, terminals.size() - 1)];
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func_t func(types.get_function_argc(selection), types.get_function(selection), type_category, selection);
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if (const auto& func_init = types.get_function_initializer(selection))
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func_init.value()(func);
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node->children[i] = tree.alloc.template emplace<node_t>(func, tree.alloc);
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} else if (engine.choice())
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{
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// otherwise select between use full() method
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function_id selection = non_terminals[engine.random_long(0, non_terminals.size() - 1)];
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func_t func(types.get_function_argc(selection), types.get_function(selection), type_category, selection);
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if (const auto& func_init = types.get_function_initializer(selection))
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func_init.value()(func);
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node->children[i] = tree.alloc.template emplace<node_t>(func, tree.alloc);
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} else
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{
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// and use grow() method, meaning select choice again
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if (engine.choice())
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{
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// to use non-terminals
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function_id selection = non_terminals[engine.random_long(0, non_terminals.size() - 1)];
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func_t func(types.get_function_argc(selection), types.get_function(selection), type_category, selection);
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if (const auto& func_init = types.get_function_initializer(selection))
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func_init.value()(func);
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node->children[i] = tree.alloc.template emplace<node_t>(func, tree.alloc);
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} else
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{
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// or use terminals
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function_id selection = terminals[engine.random_long(0, terminals.size() - 1)];
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func_t func(types.get_function_argc(selection), types.get_function(selection), type_category, selection);
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if (const auto& func_init = types.get_function_initializer(selection))
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func_init.value()(func);
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node->children[i] = tree.alloc.template emplace<node_t>(func, tree.alloc);
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}
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}
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// node has children that need populated
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if (node->children[i]->type.argc() != 0)
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stack.emplace(node->children[i], depth + 1);
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}
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case tree_init_t::GROW:
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grow({tree, tree_info}, min_depth, max_depth);
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break;
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case tree_init_t::FULL:
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full({tree, tree_info}, tree_info.engine.random_long(min_depth, max_depth));
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break;
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case tree_init_t::RAMPED_HALF_HALF:
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break;
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case tree_init_t::BRETT_HALF_HALF:
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break;
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}
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return tree;
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@ -159,7 +98,7 @@ namespace fb
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func_t func(info.types.get_function_argc(selection), info.types.get_function(selection), type, selection);
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if (const auto& func_init = info.types.get_function_initializer(selection))
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func_init.value()(func);
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return info.alloc.template emplace<detail::node_t>(func, info.alloc);
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return info.tree.alloc.template emplace<detail::node_t>(func, info.tree.alloc);
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}
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detail::node_t* tree_t::allocate_terminal(detail::node_construction_info_t info, type_id type)
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func_t func(info.types.get_function_argc(selection), info.types.get_function(selection), type, selection);
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if (const auto& func_init = info.types.get_function_initializer(selection))
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func_init.value()(func);
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return info.alloc.template emplace<detail::node_t>(func, info.alloc);
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return info.tree.alloc.template emplace<detail::node_t>(func, info.tree.alloc);
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}
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detail::node_t* tree_t::allocate_non_terminal_restricted(detail::node_construction_info_t info, type_id type)
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func_t func(info.types.get_function_argc(selection), info.types.get_function(selection), type, selection);
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if (const auto& func_init = info.types.get_function_initializer(selection))
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(*func_init)(func);
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return info.alloc.template emplace<detail::node_t>(func, info.alloc);
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return info.tree.alloc.template emplace<detail::node_t>(func, info.tree.alloc);
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}
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void tree_t::grow(detail::node_construction_info_t info, blt::size_t min_depth, blt::size_t max_depth)
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{
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using namespace detail;
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std::stack<std::pair<node_t*, blt::size_t>> stack;
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stack.emplace(info.tree.root, 0);
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while (!stack.empty())
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{
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auto top = stack.top();
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auto* node = top.first;
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auto depth = top.second;
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stack.pop();
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const auto& allowed_types = info.types.get_function_allowed_arguments(node->type.getFunction());
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// we need to make sure there is at least one non-terminal generation, until we hit the min height
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bool has_one_non_terminal = false;
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for (blt::size_t i = 0; i < node->type.argc(); i++)
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{
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type_id type_category = allowed_types[i];
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if (depth < min_depth && !has_one_non_terminal)
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{
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// make sure we have at least min height possible by using at least one non terminal
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node->children[i] = allocate_non_terminal(info, type_category);
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has_one_non_terminal = true;
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} else if (depth >= max_depth || info.engine.choice(info.terminal_chance))
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{
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// if we are above the max_height select only terminals or otherwise select between use of terminals
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node->children[i] = allocate_terminal(info, type_category);
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} else
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{
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// and use of non-terminals method
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node->children[i] = allocate_non_terminal(info, type_category);
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}
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// node has children that need populated
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if (node->children[i]->type.argc() != 0)
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stack.emplace(node->children[i], depth + 1);
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}
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}
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}
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void tree_t::full(detail::node_construction_info_t info, blt::size_t select_depth)
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{
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using namespace detail;
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std::stack<std::pair<node_t*, blt::size_t>> stack;
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stack.emplace(info.tree.root, 0);
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while (!stack.empty())
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{
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auto top = stack.top();
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auto* node = top.first;
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auto depth = top.second;
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stack.pop();
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const auto& allowed_types = info.types.get_function_allowed_arguments(node->type.getFunction());
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for (blt::size_t i = 0; i < node->type.argc(); i++)
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{
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type_id type_category = allowed_types[i];
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if (depth >= select_depth)
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{
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// if we are above the max_height select only terminals
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node->children[i] = allocate_terminal(info, type_category);
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} else
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{
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// otherwise only non-terminals can be used
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node->children[i] = allocate_non_terminal(info, type_category);
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}
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// node has children that need populated
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if (node->children[i]->type.argc() != 0)
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stack.emplace(node->children[i], depth + 1);
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}
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}
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}
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