From 15a56fcb5f29b8507298144a835a819de652e788 Mon Sep 17 00:00:00 2001 From: Roland Reichwein Date: Sat, 14 Mar 2020 15:24:23 +0100 Subject: Prepare DFA --- lexer.cpp | 283 +------------------------------------------------------------- 1 file changed, 1 insertion(+), 282 deletions(-) (limited to 'lexer.cpp') diff --git a/lexer.cpp b/lexer.cpp index 63330c1..4a458c3 100644 --- a/lexer.cpp +++ b/lexer.cpp @@ -2,294 +2,13 @@ using namespace Lex; -void Tree::clear() { - nodes.clear(); - root = 0; - last = 0; - node_num = 0; -} - -// Type of lexical token -std::string Tree::GetType() { - if (node_num > 0 && nodes[root].child_names.size() == 1) - return nodes[root].child_names[0]; - return ""; -} - -bool Tree::Valid(const std::string& Top) const { - // A token is non empty - if (node_num == 0) - return false; - - // Start symbol on top - auto rootNode{nodes.find(root)}; - if (rootNode == nodes.end()) - throw std::runtime_error("Node not found: "s + std::to_string(root)); - - if (rootNode->second.name != Top) - return false; - - // All nodes filled (implies all leaves are terminal) - for (const auto& [index, node]: nodes) { - if (node.childs.size() < node.child_names.size()) - return false; // node not filled - } - - return true; -} - -bool Tree::AddFirstNode(char c, const BNF& bnf, const std::map>& reverseBNF) { - node_num ++; - root = node_num; - last = node_num; - std::string node_name(1, char(c)); - - auto reverseRule{reverseBNF.find(node_name)}; - if (reverseRule == reverseBNF.end()) - throw std::runtime_error("Reverse rule not found for "s + node_name); - - auto rule{bnf.find(node_name)}; - if (rule != bnf.end()) { // multiple variants! - throw std::runtime_error("BNF rule for terminal symbol "s + node_name + " found."s); - } - nodes.emplace(root, TreeNode{0, std::vector{}, std::vector{}, node_name}); - return true; -} - -std::vector Tree::getParentTreeNode(const BNF& bnf, const std::map>& reverseBNF) { - std::vector result; // default: empty - - auto& root_name {nodes[root].name}; - auto bnfParents {reverseBNF.find(root_name)}; - if (bnfParents == reverseBNF.end()) - return result; - - for (const auto& parent_node_name : bnfParents->second) { - auto lists {bnf.at(parent_node_name)}; - for (const auto& list : lists) { - if (list.size() > 0 && list[0] == root_name) { - TreeNode node{0, std::vector{root}, list, parent_node_name}; - result.push_back(node); - } - } - } - - return result; -} - -index_t Tree::GetLast() { - index_t result {root}; - - while(result != 0 && nodes[result].childs.size() >= 2) { - result = nodes[result].childs[nodes[result].childs.size() - 1]; - } - - return result; -} - -void Tree::AddRootNode(const TreeNode& newRootNode) { - node_num++; - nodes[node_num] = newRootNode; - root = node_num; - last = node_num; -} - -void Tree::RemoveRootNode() { - root = nodes[root].childs[0]; - nodes.erase(node_num); - node_num--; - last = GetLast(); -} - -// Path from leaf to root -std::vector Tree::GetPath(std::string a, std::string b, const BNF& bnf, const std::map>& reverseBNF) { - std::vector result; - - while (a != b) { - auto parents {reverseBNF.find(a)}; - if (parents == reverseBNF.end()) - return {}; - - bool hit{false}; - for (const auto& parent : parents->second) { - for (const auto& list : bnf.at(parent)) { - if (list.size() > 0 && list[0] == a) { - if (!hit) { - result.push_back(a); - a = parent; - hit = true; - } else - throw std::runtime_error("Double match for "s + parent + "/"s + a); - } - } - } - } - if (a == b) { - result.push_back(a); - } - return result; -} - -index_t Tree::AddNode(const std::string& name, const std::string& child_name, index_t parent_index, const BNF& bnf, const std::map>& reverseBNF) -{ - TreeNode& parent {nodes[parent_index]}; - node_num++; - index_t index = node_num; - parent.childs.push_back(index); - std::vector child_names; - auto rule {bnf.find(name)}; - if (rule != bnf.end()) { - for (auto& list : rule->second) { - if (list.size() > 0 && list[0] == child_name) - child_names = list; - } - } - nodes.emplace(index, TreeNode{parent_index, {}, child_names, name}); - //root stays - last = GetLast(); - - return index; -} - -void Tree::AddPath(const std::vector& path, index_t current_index, const BNF& bnf, const std::map>& reverseBNF) { - for (int i = path.size() - 1; i >= 0; i--) { - std::string child_name; - if (i > 0) - child_name = path[i - 1]; - current_index = AddNode(path[i], child_name, current_index, bnf, reverseBNF); - } -} - -// try to add character to tree -bool Tree::Add(char c, const BNF& bnf, const std::map>& reverseBNF) { - if (nodes.empty()) { // first node - return AddFirstNode(c, bnf, reverseBNF); - } else { // at least one character is already present - // Traverse tree until partially filled node found - // or new node can be added - index_t current_index{last}; - - while (current_index != 0) { - TreeNode& node {nodes[current_index]}; - if (node.childs.size() < node.child_names.size()) { // partially filled node - std::vector list = GetPath(std::string(1, c), node.child_names[node.childs.size()], bnf, reverseBNF); - if (list.size() > 0) { - AddPath(list, current_index, bnf, reverseBNF); - return true; - } else { - return false; // The path a->b is not available via bnf - } - } - current_index = node.parent; - } - - // Add node at root - - std::vector parent_nodes = getParentTreeNode(bnf, reverseBNF); - if (parent_nodes.size() == 0) - throw std::runtime_error("Couldn't add new parent node."); - - for (const auto &i : parent_nodes) { - AddRootNode(i); - if (Add(c, bnf, reverseBNF)) - return true; - RemoveRootNode(); - } - - } - return false; -} - -// add path to start symbol -void Tree::Resolve(const BNF& bnf, const std::map>& reverseBNF) { - if (nodes.empty()) // only handle non-empty trees - return; - - while (true) { - std::string& old_root_name { nodes[root].name }; // current root node name - - auto parents {reverseBNF.find(old_root_name)}; - if (parents != reverseBNF.end()) { // parents in bnf available - bool hit{false}; - for (auto& parent : parents->second) { - for (const auto& list : bnf.at(parent)) { - if (list.size() == 1 && list[0] == old_root_name) { - if (!hit) { - const std::string& new_root_name {parent}; - // Add new TreeNode in the direction to root: - // New root with 1 child (old root) - nodes.emplace(++node_num, - TreeNode{0, // parent - std::vector{root}, // child indices - std::vector{old_root_name}, // child names - new_root_name // name - }); - nodes[root].parent = node_num; - root = node_num; - // this->last stays - hit = true; - } else - throw std::runtime_error("Error: Multiple resolve nodes for "s + old_root_name); - } - } - } - if (!hit) - break; - } else - break; - } -} - -void Lexer::FinalizeTree(Tree& tree, std::string& token, std::vector& result) -{ - tree.Resolve(bnf, ReverseBNF); - if (tree.Valid(Top)) { - result.emplace_back(Token{tree.GetType(), token, Location{location.line, location.column - token.size()}}); - token.clear(); - } - tree.clear(); -} - -Lexer::Lexer(const BNF& bnf, const std::string& Top): bnf(bnf), Top(Top), ReverseBNF{Reverse(bnf)} +Lexer::Lexer(const BNF& bnf, const std::string& Top) { } std::vector Lexer::Lex(const std::string& s) { - location = {1, 0}; - std::vector result; - std::string token; - - std::string Whitespace{"\t \n\r"}; - Tree tree; - - for (size_t pos{0}; pos < s.size(); pos++) { - char c{s[pos]}; - if (c == '\n') { - location.column = 0; - location.line++; - } else if (std::isprint(c)) { - location.column++; - } - - //std::cout << "Char: |" << c << "|" << std::endl; - if (Whitespace.find(c) != std::string::npos) { // found whitespace character - // evaluate token up to now and skip whitespace - FinalizeTree(tree, token, result); - } else { // no whitespace: try to add to tree - if (!tree.Add(c, bnf, ReverseBNF)) { - FinalizeTree(tree, token, result); - if (!tree.Add(c, bnf, ReverseBNF)) - throw std::runtime_error("Parse error"); - } - - token.push_back(c); - } - } - - // Final evaluation of last token - FinalizeTree(tree, token, result); return result; } -- cgit v1.2.3