mirror of https://github.com/djcb/mu.git
345 lines
8.5 KiB
C++
345 lines
8.5 KiB
C++
/*
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** Copyright (C) 2020 Dirk-Jan C. Binnema <djcb@djcbsoftware.nl>
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**
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** This library is free software; you can redistribute it and/or
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** modify it under the terms of the GNU Lesser General Public License
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** as published by the Free Software Foundation; either version 2.1
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** of the License, or (at your option) any later version.
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**
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** This library is distributed in the hope that it will be useful,
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** but WITHOUT ANY WARRANTY; without even the implied warranty of
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** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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** Lesser General Public License for more details.
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**
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** You should have received a copy of the GNU Lesser General Public
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** License along with this library; if not, write to the Free
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** Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
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** 02110-1301, USA.
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*/
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#include "mu-parser.hh"
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#include "mu-tokenizer.hh"
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#include "utils/mu-utils.hh"
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#include "utils/mu-error.hh"
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using namespace Mu;
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// 3 precedence levels: units (NOT,()) > factors (OR) > terms (AND)
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// query -> <term-1> | ε
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// <term-1> -> <factor-1> <term-2> | ε
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// <term-2> -> OR|XOR <term-1> | ε
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// <factor-1> -> <unit> <factor-2> | ε
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// <factor-2> -> [AND]|AND NOT <factor-1> | ε
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// <unit> -> [NOT] <term-1> | ( <term-1> ) | <data>
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// <data> -> <value> | <range> | <regex>
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// <value> -> [field:]value
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// <range> -> [field:][lower]..[upper]
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// <regex> -> [field:]/regex/
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#define BUG(...) Mu::Error (Error::Code::Internal, format("%u: BUG: ",__LINE__) \
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+ format(__VA_ARGS__))
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static Token
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look_ahead (const Mu::Tokens& tokens)
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{
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return tokens.front();
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}
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static Mu::Tree
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empty()
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{
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return {{Node::Type::Empty}};
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}
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static Mu::Tree term_1 (Mu::Tokens& tokens, ProcPtr proc, WarningVec& warnings);
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static Mu::Tree
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value (const ProcIface::FieldInfoVec& fields, const std::string& v,
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size_t pos, ProcPtr proc, WarningVec& warnings)
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{
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auto val = utf8_flatten(v);
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if (fields.empty())
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throw BUG("expected one or more fields");
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if (fields.size() == 1) {
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const auto item = fields.front();
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return Tree({Node::Type::Value,
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std::make_unique<Value>(
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item.field, item.prefix, item.id,
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proc->process_value(item.field, val),
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item.supports_phrase)});
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}
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// a 'multi-field' such as "recip:"
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Tree tree(Node{Node::Type::OpOr});
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for (const auto& item: fields)
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tree.add_child (Tree({Node::Type::Value,
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std::make_unique<Value>(
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item.field, item.prefix, item.id,
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proc->process_value(item.field, val),
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item.supports_phrase)}));
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return tree;
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}
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static Mu::Tree
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regex (const ProcIface::FieldInfoVec& fields, const std::string& v,
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size_t pos, ProcPtr proc, WarningVec& warnings)
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{
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if (v.length() < 2)
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throw BUG("expected regexp, got '%s'", v.c_str());
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const auto rxstr = utf8_flatten(v.substr(1, v.length()-2));
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try {
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Tree tree(Node{Node::Type::OpOr});
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const auto rx = std::regex (rxstr);
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for (const auto& field: fields) {
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const auto terms = proc->process_regex (field.field, rx);
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for (const auto& term: terms) {
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tree.add_child (Tree(
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{Node::Type::Value,
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std::make_unique<Value>(field.field, "",
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field.id, term)}));
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}
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}
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if (tree.children.empty())
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return empty();
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else
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return tree;
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} catch (...) {
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// fallback
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warnings.push_back ({pos, "invalid regexp"});
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return value (fields, v, pos, proc, warnings);
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}
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}
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static Mu::Tree
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range (const ProcIface::FieldInfoVec& fields, const std::string& lower,
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const std::string& upper, size_t pos, ProcPtr proc,
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WarningVec& warnings)
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{
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if (fields.empty())
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throw BUG("expected field");
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const auto& field = fields.front();
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if (!proc->is_range_field(field.field))
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return value (fields, lower + ".." + upper, pos, proc, warnings);
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auto prange = proc->process_range (field.field, lower, upper);
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if (prange.lower > prange.upper)
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prange = proc->process_range (field.field, upper, lower);
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return Tree({Node::Type::Range,
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std::make_unique<Range>(field.field, field.prefix, field.id,
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prange.lower, prange.upper)});
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}
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static Mu::Tree
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data (Mu::Tokens& tokens, ProcPtr proc, WarningVec& warnings)
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{
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const auto token = look_ahead(tokens);
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if (token.type != Token::Type::Data)
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warnings.push_back ({token.pos, "expected: value"});
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tokens.pop_front();
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std::string field, val;
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const auto col = token.str.find (":");
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if (col != 0 && col != std::string::npos && col != token.str.length()-1) {
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field = token.str.substr(0, col);
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val = token.str.substr(col + 1);
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} else
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val = token.str;
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auto fields = proc->process_field (field);
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if (fields.empty()) {// not valid field...
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warnings.push_back ({token.pos, format ("invalid field '%s'", field.c_str())});
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fields = proc->process_field ("");
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// fallback, treat the whole of foo:bar as a value
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return value (fields, field + ":" + val, token.pos, proc, warnings);
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}
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// does it look like a regexp?
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if (val.length() >=2 )
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if (val[0] == '/' && val[val.length()-1] == '/')
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return regex (fields, val, token.pos, proc, warnings);
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// does it look like a range?
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const auto dotdot = val.find("..");
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if (dotdot != std::string::npos)
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return range(fields, val.substr(0, dotdot), val.substr(dotdot + 2),
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token.pos, proc, warnings);
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else if (proc->is_range_field(fields.front().field)) {
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// range field without a range - treat as field:val..val
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return range (fields, val, val, token.pos, proc, warnings);
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}
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// if nothing else, it's a value.
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return value (fields, val, token.pos, proc, warnings);
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}
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static Mu::Tree
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unit (Mu::Tokens& tokens, ProcPtr proc, WarningVec& warnings)
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{
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if (tokens.empty()) {
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warnings.push_back ({0, "expected: unit"});
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return empty();
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}
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const auto token = look_ahead (tokens);
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if (token.type == Token::Type::Not) {
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tokens.pop_front();
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Tree tree{{Node::Type::OpNot}};
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tree.add_child(unit (tokens, proc, warnings));
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return tree;
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}
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if (token.type == Token::Type::Open) {
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tokens.pop_front();
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auto tree = term_1 (tokens, proc, warnings);
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if (tokens.empty())
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warnings.push_back({token.pos, "expected: ')'"});
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else {
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const auto token2 = look_ahead(tokens);
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if (token2.type == Token::Type::Close)
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tokens.pop_front();
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else {
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warnings.push_back(
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{token2.pos,
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std::string("expected: ')' but got ") +
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token2.str});
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}
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}
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return tree;
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}
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return data (tokens, proc, warnings);
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}
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static Mu::Tree factor_1 (Mu::Tokens& tokens, ProcPtr proc,
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WarningVec& warnings);
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static Mu::Tree
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factor_2 (Mu::Tokens& tokens, Node::Type& op, ProcPtr proc,
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WarningVec& warnings)
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{
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if (tokens.empty())
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return empty();
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const auto token = look_ahead(tokens);
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switch (token.type) {
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case Token::Type::And: {
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tokens.pop_front();
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op = Node::Type::OpAnd;
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} break;
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case Token::Type::Open:
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case Token::Type::Data:
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case Token::Type::Not:
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op = Node::Type::OpAnd; // implicit AND
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break;
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default:
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return empty();
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}
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return factor_1 (tokens, proc, warnings);
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}
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static Mu::Tree
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factor_1 (Mu::Tokens& tokens, ProcPtr proc, WarningVec& warnings)
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{
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Node::Type op { Node::Type::Invalid };
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auto t = unit (tokens, proc, warnings);
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auto a2 = factor_2 (tokens, op, proc, warnings);
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if (a2.empty())
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return t;
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Tree tree {{op}};
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tree.add_child(std::move(t));
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tree.add_child(std::move(a2));
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return tree;
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}
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static Mu::Tree
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term_2 (Mu::Tokens& tokens, Node::Type& op, ProcPtr proc,
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WarningVec& warnings)
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{
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if (tokens.empty())
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return empty();
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const auto token = look_ahead (tokens);
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switch (token.type) {
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case Token::Type::Or:
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op = Node::Type::OpOr;
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break;
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case Token::Type::Xor:
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op = Node::Type::OpXor;
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break;
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default:
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if (token.type != Token::Type::Close)
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warnings.push_back({token.pos, "expected OR|XOR"});
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return empty();
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}
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tokens.pop_front();
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return term_1 (tokens, proc, warnings);
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}
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static Mu::Tree
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term_1 (Mu::Tokens& tokens, ProcPtr proc, WarningVec& warnings)
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{
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Node::Type op { Node::Type::Invalid };
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auto t = factor_1 (tokens, proc, warnings);
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auto o2 = term_2 (tokens, op, proc, warnings);
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if (o2.empty())
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return t;
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else {
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Tree tree {{op}};
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tree.add_child(std::move(t));
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tree.add_child(std::move(o2));
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return tree;
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}
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}
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static Mu::Tree
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query (Mu::Tokens& tokens, ProcPtr proc, WarningVec& warnings)
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{
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if (tokens.empty())
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return empty ();
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else
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return term_1 (tokens, proc, warnings);
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}
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Mu::Tree
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Mu::parse (const std::string& expr, WarningVec& warnings, ProcPtr proc)
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{
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try {
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auto tokens = tokenize (expr);
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return query (tokens, proc, warnings);
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} catch (const std::runtime_error& ex) {
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std::cerr << ex.what() << std::endl;
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return empty();
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}
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}
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