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/* 
 * Licensed to the Apache Software Foundation (ASF) under one 
 * or more contributor license agreements.  See the NOTICE file 
 * distributed with this work for additional information 
 * regarding copyright ownership.  The ASF licenses this file 
 * to you 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 
 * 
 *     https://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 avro_Decoder_hh__ 
#define avro_Decoder_hh__ 
 
#include "Config.hh" 
#include <stdint.h> 
#include <string> 
#include <vector> 
#include <memory> 
 
#include "ValidSchema.hh" 
#include "Stream.hh" 
 
/// \file 
/// 
/// Low level support for decoding avro values. 
/// This class has two types of functions.  One type of functions support 
/// decoding of leaf values (for example, decodeLong and 
/// decodeString). These functions have analogs in Encoder. 
/// 
/// The other type of functions support decoding of maps and arrays. 
/// These functions are arrayStart, startItem, and arrayEnd 
/// (and similar functions for maps). 
 
namespace avro { 
 
/** 
 * Decoder is an interface implemented by every decoder capable 
 * of decoding Avro data. 
 */ 
class AVRO_DECL Decoder { 
public: 
    virtual ~Decoder() { }; 
    /// All future decoding will come from is, which should be valid 
    /// until replaced by another call to init() or this Decoder is 
    /// destructed. 
    virtual void init(InputStream& is) = 0; 
 
    /// Decodes a null from the current stream. 
    virtual void decodeNull() = 0; 
 
    /// Decodes a bool from the current stream 
    virtual bool decodeBool() = 0; 
 
    /// Decodes a 32-bit int from the current stream. 
    virtual int32_t decodeInt() = 0; 
 
    /// Decodes a 64-bit signed int from the current stream. 
    virtual int64_t decodeLong() = 0; 
 
    /// Decodes a single-precision floating point number from current stream. 
    virtual float decodeFloat() = 0; 
 
    /// Decodes a double-precision floating point number from current stream. 
    virtual double decodeDouble() = 0; 
 
    /// Decodes a UTF-8 string from the current stream. 
    std::string decodeString() { 
        std::string result; 
        decodeString(result); 
        return result; 
    } 
 
    /** 
     * Decodes a UTF-8 string from the stream and assigns it to value. 
     */ 
    virtual void decodeString(std::string& value) = 0; 
 
    /// Skips a string on the current stream. 
    virtual void skipString() = 0; 
 
    /// Decodes arbitray binary data from the current stream. 
    std::vector<uint8_t> decodeBytes() { 
        std::vector<uint8_t> result; 
        decodeBytes(result); 
        return result; 
    } 
 
    /// Decodes arbitrary binary data from the current stream and puts it 
    /// in value. 
    virtual void decodeBytes(std::vector<uint8_t>& value) = 0; 
 
    /// Skips bytes on the current stream. 
    virtual void skipBytes() = 0; 
 
    /** 
     * Decodes fixed length binary from the current stream. 
     * \param[in] n The size (byte count) of the fixed being read. 
     * \return The fixed data that has been read. The size of the returned 
     * vector is guaranteed to be equal to \p n. 
     */ 
    std::vector<uint8_t> decodeFixed(size_t n) { 
        std::vector<uint8_t> result; 
        decodeFixed(n, result); 
        return result; 
    } 
 
    /** 
     * Decodes a fixed from the current stream. 
     * \param[in] n The size (byte count) of the fixed being read. 
     * \param[out] value The value that receives the fixed. The vector will 
     * be size-adjusted based on the fixed's size. 
     */ 
    virtual void decodeFixed(size_t n, std::vector<uint8_t>& value) = 0; 
 
    /// Skips fixed length binary on the current stream. 
    virtual void skipFixed(size_t n) = 0; 
 
    /// Decodes enum from the current stream. 
    virtual size_t decodeEnum() = 0; 
 
    /// Start decoding an array. Returns the number of entries in first chunk. 
    virtual size_t arrayStart() = 0; 
 
    /// Returns the number of entries in next chunk. 0 if last. 
    virtual size_t arrayNext() = 0; 
 
    /// Tries to skip an array. If it can, it returns 0. Otherwise 
    /// it returns the number of elements to be skipped. The client 
    /// should skip the individual items. In such cases, skipArray 
    /// is identical to arrayStart. 
    virtual size_t skipArray() = 0; 
 
    /// Start decoding a map. Returns the number of entries in first chunk. 
    virtual size_t mapStart() = 0; 
 
    /// Returns the number of entries in next chunk. 0 if last. 
    virtual size_t mapNext() = 0; 
 
    /// Tries to skip a map. If it can, it returns 0. Otherwise 
    /// it returns the number of elements to be skipped. The client 
    /// should skip the individual items. In such cases, skipMap 
    /// is identical to mapStart. 
    virtual size_t skipMap() = 0; 
 
    /// Decodes a branch of a union. The actual value is to follow. 
    virtual size_t decodeUnionIndex() = 0; 
 
    /// Drains any additional data at the end of the current entry in a stream. 
    /// It also returns any unused bytes back to any underlying input stream. 
    /// One situation this happens is when the reader's schema and 
    /// the writer's schema are records but are different and the writer's 
    /// record has more fields at the end of the record. 
    /// Leaving such data unread is usually not a problem. If multiple 
    /// records are stored consecutively in a stream (e.g. Avro data file) 
    /// any attempt to read the next record will automatically skip 
    /// those extra fields of the current record. It would still leave 
    /// the extra fields at the end of the last record in the stream. 
    /// This would mean that the stream is not in a good state. For example, 
    /// if some non-avro information is stored at the end of the stream, 
    /// the consumers of such data would see the bytes left behind 
    /// by the avro decoder. Similar set of problems occur if the Decoder 
    /// consumes more than what it should. 
    virtual void drain() = 0; 
}; 
 
/** 
 * Shared pointer to Decoder. 
 */ 
typedef std::shared_ptr<Decoder> DecoderPtr; 
 
/** 
 * ResolvingDecoder is derived from \ref Decoder, with an additional 
 * function to obtain the field ordering of fields within a record. 
 */ 
class AVRO_DECL ResolvingDecoder : public Decoder { 
public: 
    /// Returns the order of fields for records. 
    /// The order of fields could be different from the order of their 
    /// order in the schema because the writer's field order could 
    /// be different. In order to avoid buffering and later use, 
    /// we return the values in the writer's field order. 
    virtual const std::vector<size_t>& fieldOrder() = 0; 
}; 
 
/** 
 * Shared pointer to ResolvingDecoder. 
 */ 
typedef std::shared_ptr<ResolvingDecoder> ResolvingDecoderPtr; 
/** 
 *  Returns an decoder that can decode binary Avro standard. 
 */ 
AVRO_DECL DecoderPtr binaryDecoder(); 
 
/** 
 *  Returns an decoder that validates sequence of calls to an underlying 
 *  Decoder against the given schema. 
 */ 
AVRO_DECL DecoderPtr validatingDecoder(const ValidSchema& schema, 
    const DecoderPtr& base); 
 
/** 
 *  Returns an decoder that can decode Avro standard for JSON. 
 */ 
AVRO_DECL DecoderPtr jsonDecoder(const ValidSchema& schema); 
 
/** 
 *  Returns a decoder that decodes avro data from base written according to 
 *  writerSchema and resolves against readerSchema. 
 *  The client uses the decoder as if the data were written using readerSchema. 
 *  // FIXME: Handle out of order fields. 
 */ 
AVRO_DECL ResolvingDecoderPtr resolvingDecoder(const ValidSchema& writer, 
    const ValidSchema& reader, const DecoderPtr& base); 
 
 
}   // namespace avro 
 
#endif