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#pragma once 
 
#include "reader.h" 
 
#include <util/generic/maybe.h> 
#include <util/generic/bt_exception.h> 
#include <util/generic/yexception.h> 
#include <util/system/yassert.h> 
 
/** Imperative recursive-descent parsing helpers. 
 * 
 *  These functions help verify conditions and advance parser state. 
 *  For aggregate parsing functions, common precondition is to require Begin{X} 
 *  event prior to function invocation. Thus, parsers are composable by calling 
 *  sub-parser after dispatching on opening event, e.g.: 
 * 
 *    if (reader.LastEvent().Type() == EEventType::BeginMap) { 
 *        ReadSomeMap(reader) 
 *    } 
 * 
 */ 
 
namespace NYsonPull {
    namespace NReadOps {
        class TExpectationFailure: public TWithBackTrace<yexception> {
        }; 
 
        inline void Expect(const TEvent& got, EEventType expected) {
            Y_ENSURE_EX( 
                got.Type() == expected, 
                TExpectationFailure() << "expected " << expected << ", got " << got); 
        }
 
        inline void Expect(const TScalar& got, EScalarType expected) {
            Y_ENSURE_EX( 
                got.Type() == expected, 
                TExpectationFailure() << "expected scalar " << expected << ", got " << got); 
        }
 
        // ExpectBegin{X} functions verify that last event WAS X 
        // SkipBegin{X} functions verify that next event WILL BE X and CONSUME it 
 
        inline void ExpectBeginStream(TReader& reader) { 
            Expect(reader.LastEvent(), EEventType::BeginStream); 
        } 
 
        inline void SkipBeginStream(TReader& reader) { 
            Expect(reader.NextEvent(), EEventType::BeginStream); 
        } 
 
        inline void ExpectBeginMap(TReader& reader) {
            Expect(reader.LastEvent(), EEventType::BeginMap); 
        }
 
        inline void SkipBeginMap(TReader& reader) {
            Expect(reader.NextEvent(), EEventType::BeginMap); 
        }
 
        inline void ExpectBeginList(TReader& reader) {
            Expect(reader.LastEvent(), EEventType::BeginList); 
        }
 
        inline void SkipBeginList(TReader& reader) {
            Expect(reader.NextEvent(), EEventType::BeginList); 
        }
 
        inline bool ReadListItem(TReader& reader) {
            return reader.NextEvent().Type() != EEventType::EndList; 
        }
 
        inline TMaybe<TStringBuf> ReadKey(TReader& reader) {
            const auto& event = reader.NextEvent(); 
            switch (event.Type()) { 
                case EEventType::Key: 
                    return event.AsString(); 
                case EEventType::EndMap: 
                    return Nothing();
                default:
                    ythrow yexception() << "Unexpected event: " << event;
            }
        }
 
        template <typename T = const TScalar&>
        inline T ReadScalar(TReader& reader);
 
        template <>
        inline const TScalar& ReadScalar<const TScalar&>(TReader& reader) {
            const auto& event = reader.NextEvent(); 
            Expect(event, EEventType::Scalar); 
            return event.AsScalar(); 
        }
 
        template <>
        inline i64 ReadScalar<i64>(TReader& reader) {
            const auto& scalar = ReadScalar(reader);
            Expect(scalar, EScalarType::Int64); 
            return scalar.AsInt64(); 
        }
 
        template <>
        inline ui64 ReadScalar<ui64>(TReader& reader) {
            const auto& scalar = ReadScalar(reader);
            Expect(scalar, EScalarType::UInt64); 
            return scalar.AsUInt64(); 
        }
 
        template <>
        inline double ReadScalar<double>(TReader& reader) {
            const auto& scalar = ReadScalar(reader);
            Expect(scalar, EScalarType::Float64); 
            return scalar.AsFloat64(); 
        }
 
        template <>
        inline TStringBuf ReadScalar<TStringBuf>(TReader& reader) {
            const auto& scalar = ReadScalar(reader);
            Expect(scalar, EScalarType::String); 
            return scalar.AsString(); 
        }
 
        template <>
        inline TString ReadScalar<TString>(TReader& reader) {
            return TString(ReadScalar<TStringBuf>(reader));
        }
 
        template <>
        inline bool ReadScalar<bool>(TReader& reader) {
            const auto& scalar = ReadScalar(reader);
            Expect(scalar, EScalarType::Boolean); 
            return scalar.AsBoolean(); 
        }
 
        // Skip value that was already started with `event`
        void SkipCurrentValue(const TEvent& event, TReader& reader);
 
        // Skip value that starts at `reader.next_event()`
        void SkipValue(TReader& reader);
 
        // Skip values with attributes, wait for map value 
        void SkipControlRecords(TReader& reader); 
    }
}