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/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef LIBTEXTCLASSIFIER_UTILS_GRAMMAR_PARSING_PARSE_TREE_H_
#define LIBTEXTCLASSIFIER_UTILS_GRAMMAR_PARSING_PARSE_TREE_H_
#include <functional>
#include <vector>
#include "annotator/types.h"
#include "utils/grammar/semantics/expression_generated.h"
#include "utils/grammar/types.h"
#include "utils/strings/stringpiece.h"
namespace libtextclassifier3::grammar {
// Represents a parse tree for a match that was found for a nonterminal.
struct ParseTree {
enum class Type : int8 {
// Default, untyped match.
kDefault = 0,
// An assertion match (see: AssertionNode).
kAssertion = 1,
// A value mapping match (see: MappingNode).
kMapping = 2,
// An exclusion match (see: ExclusionNode).
kExclusion = 3,
// A match for an annotation (see: AnnotationNode).
kAnnotation = 4,
// A match for a semantic annotation (see: SemanticExpressionNode).
kExpression = 5,
};
explicit ParseTree() = default;
explicit ParseTree(const Nonterm lhs, const CodepointSpan& codepoint_span,
const int match_offset, const Type type)
: lhs(lhs),
type(type),
codepoint_span(codepoint_span),
match_offset(match_offset) {}
// For binary rule matches: rhs1 != NULL and rhs2 != NULL
// unary rule matches: rhs1 == NULL and rhs2 != NULL
// terminal rule matches: rhs1 != NULL and rhs2 == NULL
// custom leaves: rhs1 == NULL and rhs2 == NULL
bool IsInteriorNode() const { return rhs2 != nullptr; }
bool IsLeaf() const { return !rhs2; }
bool IsBinaryRule() const { return rhs1 && rhs2; }
bool IsUnaryRule() const { return !rhs1 && rhs2; }
bool IsTerminalRule() const { return rhs1 && !rhs2; }
bool HasLeadingWhitespace() const {
return codepoint_span.first != match_offset;
}
const ParseTree* unary_rule_rhs() const { return rhs2; }
// Used in singly-linked queue of matches for processing.
ParseTree* next = nullptr;
// Nonterminal we found a match for.
Nonterm lhs = kUnassignedNonterm;
// Type of the match.
Type type = Type::kDefault;
// The span in codepoints.
CodepointSpan codepoint_span;
// The begin codepoint offset used during matching.
// This is usually including any prefix whitespace.
int match_offset;
union {
// The first sub match for binary rules.
const ParseTree* rhs1 = nullptr;
// The terminal, for terminal rules.
const char* terminal;
};
// First or second sub-match for interior nodes.
const ParseTree* rhs2 = nullptr;
};
// Node type to keep track of associated values.
struct MappingNode : public ParseTree {
explicit MappingNode(const Nonterm arg_lhs,
const CodepointSpan arg_codepoint_span,
const int arg_match_offset, const int64 arg_value)
: ParseTree(arg_lhs, arg_codepoint_span, arg_match_offset,
Type::kMapping),
id(arg_value) {}
// The associated id or value.
int64 id;
};
// Node type to keep track of assertions.
struct AssertionNode : public ParseTree {
explicit AssertionNode(const Nonterm arg_lhs,
const CodepointSpan arg_codepoint_span,
const int arg_match_offset, const bool arg_negative)
: ParseTree(arg_lhs, arg_codepoint_span, arg_match_offset,
Type::kAssertion),
negative(arg_negative) {}
// If true, the assertion is negative and will be valid if the input doesn't
// match.
bool negative;
};
// Node type to define exclusions.
struct ExclusionNode : public ParseTree {
explicit ExclusionNode(const Nonterm arg_lhs,
const CodepointSpan arg_codepoint_span,
const int arg_match_offset,
const Nonterm arg_exclusion_nonterm)
: ParseTree(arg_lhs, arg_codepoint_span, arg_match_offset,
Type::kExclusion),
exclusion_nonterm(arg_exclusion_nonterm) {}
// The nonterminal that denotes matches to exclude from a successful match.
// So the match is only valid if there is no match of `exclusion_nonterm`
// spanning the same text range.
Nonterm exclusion_nonterm;
};
// Match to represent an annotator annotated span in the grammar.
struct AnnotationNode : public ParseTree {
explicit AnnotationNode(const Nonterm arg_lhs,
const CodepointSpan arg_codepoint_span,
const int arg_match_offset,
const ClassificationResult* arg_annotation)
: ParseTree(arg_lhs, arg_codepoint_span, arg_match_offset,
Type::kAnnotation),
annotation(arg_annotation) {}
const ClassificationResult* annotation;
};
// Node type to represent an associated semantic expression.
struct SemanticExpressionNode : public ParseTree {
explicit SemanticExpressionNode(const Nonterm arg_lhs,
const CodepointSpan arg_codepoint_span,
const int arg_match_offset,
const SemanticExpression* arg_expression)
: ParseTree(arg_lhs, arg_codepoint_span, arg_match_offset,
Type::kExpression),
expression(arg_expression) {}
const SemanticExpression* expression;
};
// Utility functions for parse tree traversal.
// Does a preorder traversal, calling `node_fn` on each node.
// `node_fn` is expected to return whether to continue expanding a node.
void Traverse(const ParseTree* root,
const std::function<bool(const ParseTree*)>& node_fn);
// Does a preorder traversal, selecting all nodes where `pred_fn` returns true.
std::vector<const ParseTree*> SelectAll(
const ParseTree* root,
const std::function<bool(const ParseTree*)>& pred_fn);
// Retrieves all nodes of a given type.
template <typename T>
const std::vector<const T*> SelectAllOfType(const ParseTree* root,
const ParseTree::Type type) {
std::vector<const T*> result;
Traverse(root, [&result, type](const ParseTree* node) {
if (node->type == type) {
result.push_back(static_cast<const T*>(node));
}
return true;
});
return result;
}
} // namespace libtextclassifier3::grammar
#endif // LIBTEXTCLASSIFIER_UTILS_GRAMMAR_PARSING_PARSE_TREE_H_