/Users/deen/code/yugabyte-db/src/yb/rocksdb/third-party/fbson/FbsonDocument.h

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/*
 *  Copyright (c) 2011-present, Facebook, Inc.
 *  All rights reserved.
 *
 *  This source code is licensed under the BSD-style license found in the
 *  LICENSE file in the root directory of this source tree. An additional grant
 *  of patent rights can be found in the PATENTS file in the same directory.
 *
 * The following only applies to changes made to this file as part of YugaByte development.
 *
 * Portions Copyright (c) YugaByte, Inc.
 *
 * 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.
 *
 *
 */

/*
 * This header defines FbsonDocument, FbsonKeyValue, and various value classes
 * which are derived from FbsonValue, and a forward iterator for container
 * values - essentially everything that is related to FBSON binary data
 * structures.
 *
 * Implementation notes:
 *
 * None of the classes in this header file can be instantiated directly (i.e.
 * you cannot create a FbsonKeyValue or FbsonValue object - all constructors
 * are declared non-public). We use the classes as wrappers on the packed FBSON
 * bytes (serialized), and cast the classes (types) to the underlying packed
 * byte array.
 *
 * For the same reason, we cannot define any FBSON value class to be virtual,
 * since we never call constructors, and will not instantiate vtbl and vptrs.
 *
 * Therefore, the classes are defined as packed structures (i.e. no data
 * alignment and padding), and the private member variables of the classes are
 * defined precisely in the same order as the FBSON spec. This ensures we
 * access the packed FBSON bytes correctly.
 *
 * The packed structures are highly optimized for in-place operations with low
 * overhead. The reads (and in-place writes) are performed directly on packed
 * bytes. There is no memory allocation at all at runtime.
 *
 * For updates/writes of values that will expand the original FBSON size, the
 * write will fail, and the caller needs to handle buffer increase.
 *
 * ** Iterator **
 * Both ObjectVal class and ArrayVal class have iterator type that you can use
 * to declare an iterator on a container object to go through the key-value
 * pairs or value list. The iterator has both non-const and const types.
 *
 * Note: iterators are forward direction only.
 *
 * ** Query **
 * Querying into containers is through the member functions find (for key/value
 * pairs) and get (for array elements), and is in streaming style. We don't
 * need to read/scan the whole FBSON packed bytes in order to return results.
 * Once the key/index is found, we will stop search.  You can use text to query
 * both objects and array (for array, text will be converted to integer index),
 * and use index to retrieve from array. Array index is 0-based.
 *
 * ** External dictionary **
 * During query processing, you can also pass a call-back function, so the
 * search will first try to check if the key string exists in the dictionary.
 * If so, search will be based on the id instead of the key string.
 *
 * @author Tian Xia <tianx@fb.com>
 */

#ifndef FBSON_FBSONDOCUMENT_H
#define FBSON_FBSONDOCUMENT_H

#include <stdlib.h>
#include <string.h>
#include <assert.h>

namespace fbson {

#pragma pack(push, 1)

#define FBSON_VER 1

// forward declaration
class FbsonValue;
class ObjectVal;

/*
 * FbsonDocument is the main object that accesses and queries FBSON packed
 * bytes. NOTE: FbsonDocument only allows object container as the top level
 * FBSON value. However, you can use the static method "createValue" to get any
 * FbsonValue object from the packed bytes.
 *
 * FbsonDocument object also dereferences to an object container value
 * (ObjectVal) once FBSON is loaded.
 *
 * ** Load **
 * FbsonDocument is usable after loading packed bytes (memory location) into
 * the object. We only need the header and first few bytes of the payload after
 * header to verify the FBSON.
 *
 * Note: creating an FbsonDocument (through createDocument) does not allocate
 * any memory. The document object is an efficient wrapper on the packed bytes
 * which is accessed directly.
 *
 * ** Query **
 * Query is through dereferencing into ObjectVal.
 */
class FbsonDocument {
 public:
  // create an FbsonDocument object from FBSON packed bytes
  static FbsonDocument* createDocument(const char* pb, uint32_t size);

  // create an FbsonValue from FBSON packed bytes
  static FbsonValue* createValue(const char* pb, uint32_t size);

  uint8_t version() { return header_.ver_; }

  FbsonValue* getValue() { return ((FbsonValue*)payload_); }

  ObjectVal* operator->() { return ((ObjectVal*)payload_); }

  const ObjectVal* operator->() const { return ((const ObjectVal*)payload_); }

 private:
  /*
   * FbsonHeader class defines FBSON header (internal to FbsonDocument).
   *
   * Currently it only contains version information (1-byte). We may expand the
   * header to include checksum of the FBSON binary for more security.
   */
  struct FbsonHeader {
    uint8_t ver_;
  } header_;

  char payload_[1];

  FbsonDocument();

  FbsonDocument(const FbsonDocument&) = delete;
  FbsonDocument& operator=(const FbsonDocument&) = delete;
};

/*
 * FbsonFwdIteratorT implements FBSON's iterator template.
 *
 * Note: it is an FORWARD iterator only due to the design of FBSON format.
 */
template <class Iter_Type, class Cont_Type>
class FbsonFwdIteratorT {
  typedef Iter_Type iterator;
  typedef typename std::iterator_traits<Iter_Type>::pointer pointer;
  typedef typename std::iterator_traits<Iter_Type>::reference reference;

 public:
  explicit FbsonFwdIteratorT(const iterator& i) : current_(i) {}

  // allow non-const to const iterator conversion (same container type)
  template <class Iter_Ty>
  FbsonFwdIteratorT(const FbsonFwdIteratorT<Iter_Ty, Cont_Type>& rhs)
      : current_(rhs.base()) {}

  bool operator==(const FbsonFwdIteratorT& rhs) const {
    return (current_ == rhs.current_);
  }

  bool operator!=(const FbsonFwdIteratorT& rhs) const {
    return !operator==(rhs);
  }

  bool operator<(const FbsonFwdIteratorT& rhs) const {
    return (current_ < rhs.current_);
  }

  bool operator>(const FbsonFwdIteratorT& rhs) const { return !operator<(rhs); }

  FbsonFwdIteratorT& operator++() {
    current_ = (iterator)(((char*)current_) + current_->numPackedBytes());
    return *this;
  }

  FbsonFwdIteratorT operator++(int) {
    auto tmp = *this;
    current_ = (iterator)(((char*)current_) + current_->numPackedBytes());
    return tmp;
  }

  explicit operator pointer() { return current_; }

  reference operator*() const { return *current_; }

  pointer operator->() const { return current_; }

  iterator base() const { return current_; }

 private:
  iterator current_;
};

typedef int (*hDictInsert)(const char* key, unsigned len);
typedef int (*hDictFind)(const char* key, unsigned len);

/*
 * FbsonType defines 10 primitive types and 2 container types, as described
 * below.
 *
 * primitive_value ::=
 *   0x00        //null value (0 byte)
 * | 0x01        //boolean true (0 byte)
 * | 0x02        //boolean false (0 byte)
 * | 0x03 int8   //char/int8 (1 byte)
 * | 0x04 int16  //int16 (2 bytes)
 * | 0x05 int32  //int32 (4 bytes)
 * | 0x06 int64  //int64 (8 bytes)
 * | 0x07 double //floating point (8 bytes)
 * | 0x08 string //variable length string
 * | 0x09 binary //variable length binary
 *
 * container ::=
 *   0x0A int32 key_value_list //object, int32 is the total bytes of the object
 * | 0x0B int32 value_list     //array, int32 is the total bytes of the array
 */
enum class FbsonType : char {
  T_Null = 0x00,
  T_True = 0x01,
  T_False = 0x02,
  T_Int8 = 0x03,
  T_Int16 = 0x04,
  T_Int32 = 0x05,
  T_Int64 = 0x06,
  T_Double = 0x07,
  T_String = 0x08,
  T_Binary = 0x09,
  T_Object = 0x0A,
  T_Array = 0x0B,
  NUM_TYPES,
};

typedef std::underlying_type<FbsonType>::type FbsonTypeUnder;

/*
 * FbsonKeyValue class defines FBSON key type, as described below.
 *
 * key ::=
 *   0x00 int8    //1-byte dictionary id
 * | int8 (byte*) //int8 (>0) is the size of the key string
 *
 * value ::= primitive_value | container
 *
 * FbsonKeyValue can be either an id mapping to the key string in an external
 * dictionary, or it is the original key string. Whether to read an id or a
 * string is decided by the first byte (size_).
 *
 * Note: a key object must be followed by a value object. Therefore, a key
 * object implicitly refers to a key-value pair, and you can get the value
 * object right after the key object. The function numPackedBytes hence
 * indicates the total size of the key-value pair, so that we will be able go
 * to next pair from the key.
 *
 * ** Dictionary size **
 * By default, the dictionary size is 255 (1-byte). Users can define
 * "USE_LARGE_DICT" to increase the dictionary size to 655535 (2-byte).
 */
class FbsonKeyValue {
 public:
#ifdef USE_LARGE_DICT
  static const int sMaxKeyId = 65535;
  typedef uint16_t keyid_type;
#else
  static const int sMaxKeyId = 255;
  typedef uint8_t keyid_type;
#endif // #ifdef USE_LARGE_DICT

  static const uint8_t sMaxKeyLen = 64;

  // size of the key. 0 indicates it is stored as id
  uint8_t klen() const { return size_; }

  // get the key string. Note the string may not be null terminated.
  const char* getKeyStr() const { return key_.str_; }

  keyid_type getKeyId() const { return key_.id_; }

  unsigned int keyPackedBytes() const {
    return size_ ? (sizeof(size_) + size_)
                 : (sizeof(size_) + sizeof(keyid_type));
  }

  FbsonValue* value() const {
    return (FbsonValue*)(((char*)this) + keyPackedBytes());
  }

  // size of the total packed bytes (key+value)
  unsigned int numPackedBytes() const;

 private:
  uint8_t size_;

  union key_ {
    keyid_type id_;
    char str_[1];
  } key_;

  FbsonKeyValue();
};

/*
 * FbsonValue is the base class of all FBSON types. It contains only one member
 * variable - type info, which can be retrieved by member functions is[Type]()
 * or type().
 */
class FbsonValue {
 public:
  static const uint32_t sMaxValueLen = 1 << 24; // 16M

  bool isNull() const { return (type_ == FbsonType::T_Null); }
  bool isTrue() const { return (type_ == FbsonType::T_True); }
  bool isFalse() const { return (type_ == FbsonType::T_False); }
  bool isInt8() const { return (type_ == FbsonType::T_Int8); }
  bool isInt16() const { return (type_ == FbsonType::T_Int16); }
  bool isInt32() const { return (type_ == FbsonType::T_Int32); }
  bool isInt64() const { return (type_ == FbsonType::T_Int64); }
  bool isDouble() const { return (type_ == FbsonType::T_Double); }
  bool isString() const { return (type_ == FbsonType::T_String); }
  bool isBinary() const { return (type_ == FbsonType::T_Binary); }
  bool isObject() const { return (type_ == FbsonType::T_Object); }
  bool isArray() const { return (type_ == FbsonType::T_Array); }

  FbsonType type() const { return type_; }

  // size of the total packed bytes
  unsigned int numPackedBytes() const;

  // size of the value in bytes
  unsigned int size() const;

  // get the raw byte array of the value
  const char* getValuePtr() const;

  // find the FBSON value by a key path string (null terminated)
  FbsonValue* findPath(const char* key_path,
                       const char* delim = ".",
                       hDictFind handler = nullptr) {
    return findPath(key_path, (unsigned int)strlen(key_path), delim, handler);
  }

  // find the FBSON value by a key path string (with length)
  FbsonValue* findPath(const char* key_path,
                       unsigned int len,
                       const char* delim,
                       hDictFind handler);

 protected:
  FbsonType type_; // type info

  FbsonValue();
};

/*
 * NumerValT is the template class (derived from FbsonValue) of all number
 * types (integers and double).
 */
template <class T>
class NumberValT : public FbsonValue {
 public:
  T val() const { return num_; }

  unsigned int numPackedBytes() const { return sizeof(FbsonValue) + sizeof(T); }

  // catch all unknow specialization of the template class
  bool setVal(T value) { return false; }

 private:
  T num_;

  NumberValT();
};

typedef NumberValT<int8_t> Int8Val;

// override setVal for Int8Val
template <>
inline bool Int8Val::setVal(int8_t value) {
  if (!isInt8()) {
    return false;
  }

  num_ = value;
  return true;
}

typedef NumberValT<int16_t> Int16Val;

// override setVal for Int16Val
template <>
inline bool Int16Val::setVal(int16_t value) {
  if (!isInt16()) {
    return false;
  }

  num_ = value;
  return true;
}

typedef NumberValT<int32_t> Int32Val;

// override setVal for Int32Val
template <>
inline bool Int32Val::setVal(int32_t value) {
  if (!isInt32()) {
    return false;
  }

  num_ = value;
  return true;
}

typedef NumberValT<int64_t> Int64Val;

// override setVal for Int64Val
template <>
inline bool Int64Val::setVal(int64_t value) {
  if (!isInt64()) {
    return false;
  }

  num_ = value;
  return true;
}

typedef NumberValT<double> DoubleVal;

// override setVal for DoubleVal
template <>
inline bool DoubleVal::setVal(double value) {
  if (!isDouble()) {
    return false;
  }

  num_ = value;
  return true;
}

/*
 * BlobVal is the base class (derived from FbsonValue) for string and binary
 * types. The size_ indicates the total bytes of the payload_.
 */
class BlobVal : public FbsonValue {
 public:
  // size of the blob payload only
  unsigned int getBlobLen() const { return size_; }

  // return the blob as byte array
  const char* getBlob() const { return payload_; }

  // size of the total packed bytes
  unsigned int numPackedBytes() const {
    return sizeof(FbsonValue) + sizeof(size_) + size_;
  }

 protected:
  uint32_t size_;
  char payload_[1];

  // set new blob bytes
  bool internalSetVal(const char* blob, uint32_t blobSize) {
    // if we cannot fit the new blob, fail the operation
    if (blobSize > size_) {
      return false;
    }

    memcpy(payload_, blob, blobSize);

    // Set the reset of the bytes to 0.  Note we cannot change the size_ of the
    // current payload, as all values are packed.
    memset(payload_ + blobSize, 0, size_ - blobSize);

    return true;
  }

  BlobVal();

 private:
  // Disable as this class can only be allocated dynamically
  BlobVal(const BlobVal&) = delete;
  BlobVal& operator=(const BlobVal&) = delete;
};

/*
 * Binary type
 */
class BinaryVal : public BlobVal {
 public:
  bool setVal(const char* blob, uint32_t blobSize) {
    if (!isBinary()) {
      return false;
    }

    return internalSetVal(blob, blobSize);
  }

 private:
  BinaryVal();
};

/*
 * String type
 * Note: FBSON string may not be a c-string (NULL-terminated)
 */
class StringVal : public BlobVal {
 public:
  bool setVal(const char* str, uint32_t blobSize) {
    if (!isString()) {
      return false;
    }

    return internalSetVal(str, blobSize);
  }

 private:
  StringVal();
};

/*
 * ContainerVal is the base class (derived from FbsonValue) for object and
 * array types. The size_ indicates the total bytes of the payload_.
 */
class ContainerVal : public FbsonValue {
 public:
  // size of the container payload only
  unsigned int getContainerSize() const { return size_; }

  // return the container payload as byte array
  const char* getPayload() const { return payload_; }

  // size of the total packed bytes
  unsigned int numPackedBytes() const {
    return sizeof(FbsonValue) + sizeof(size_) + size_;
  }

 protected:
  uint32_t size_;
  char payload_[1];

  ContainerVal();

  ContainerVal(const ContainerVal&) = delete;
  ContainerVal& operator=(const ContainerVal&) = delete;
};

/*
 * Object type
 */
class ObjectVal : public ContainerVal {
 public:
  // find the FBSON value by a key string (null terminated)
  FbsonValue* find(const char* key, hDictFind handler = nullptr) const {
    if (!key)
      return nullptr;

    return find(key, (unsigned int)strlen(key), handler);
  }

  // find the FBSON value by a key string (with length)
  FbsonValue* find(const char* key,
                   unsigned int klen,
                   hDictFind handler = nullptr) const {
    if (!key || !klen)
      return nullptr;

    int key_id = -1;
    if (handler && (key_id = handler(key, klen)) >= 0) {
      return find(key_id);
    }

    return internalFind(key, klen);
  }

  // find the FBSON value by a key dictionary ID
  FbsonValue* find(int key_id) const {
    if (key_id < 0 || key_id > FbsonKeyValue::sMaxKeyId)
      return nullptr;

    const char* pch = payload_;
    const char* fence = payload_ + size_;

    while (pch < fence) {
      FbsonKeyValue* pkey = (FbsonKeyValue*)(pch);
      if (!pkey->klen() && key_id == pkey->getKeyId()) {
        return pkey->value();
      }
      pch += pkey->numPackedBytes();
    }

    assert(pch == fence);

    return nullptr;
  }

  typedef FbsonKeyValue value_type;
  typedef value_type* pointer;
  typedef const value_type* const_pointer;
  typedef FbsonFwdIteratorT<pointer, ObjectVal> iterator;
  typedef FbsonFwdIteratorT<const_pointer, ObjectVal> const_iterator;

  iterator begin() { return iterator((pointer)payload_); }

  const_iterator begin() const { return const_iterator((pointer)payload_); }

  iterator end() { return iterator((pointer)(payload_ + size_)); }

  const_iterator end() const {
    return const_iterator((pointer)(payload_ + size_));
  }

 private:
  FbsonValue* internalFind(const char* key, unsigned int klen) const {
    const char* pch = payload_;
    const char* fence = payload_ + size_;

    while (pch < fence) {
      FbsonKeyValue* pkey = (FbsonKeyValue*)(pch);
      if (klen == pkey->klen() && strncmp(key, pkey->getKeyStr(), klen) == 0) {
        return pkey->value();
      }
      pch += pkey->numPackedBytes();
    }

    assert(pch == fence);

    return nullptr;
  }

 private:
  ObjectVal();
};

/*
 * Array type
 */
class ArrayVal : public ContainerVal {
 public:
  // get the FBSON value at index
  FbsonValue* get(int idx) const {
    if (idx < 0)
      return nullptr;

    const char* pch = payload_;
    const char* fence = payload_ + size_;

    while (pch < fence && idx-- > 0)
      pch += ((FbsonValue*)pch)->numPackedBytes();

    if (idx == -1)
      return (FbsonValue*)pch;
    else {
      assert(pch == fence);
      return nullptr;
    }
  }

  // Get number of elements in array
  unsigned int numElem() const {
    const char* pch = payload_;
    const char* fence = payload_ + size_;

    unsigned int num = 0;
    while (pch < fence) {
      ++num;
      pch += ((FbsonValue*)pch)->numPackedBytes();
    }

    assert(pch == fence);

    return num;
  }

  typedef FbsonValue value_type;
  typedef value_type* pointer;
  typedef const value_type* const_pointer;
  typedef FbsonFwdIteratorT<pointer, ArrayVal> iterator;
  typedef FbsonFwdIteratorT<const_pointer, ArrayVal> const_iterator;

  iterator begin() { return iterator((pointer)payload_); }

  const_iterator begin() const { return const_iterator((pointer)payload_); }

  iterator end() { return iterator((pointer)(payload_ + size_)); }

  const_iterator end() const {
    return const_iterator((pointer)(payload_ + size_));
  }

 private:
  ArrayVal();
};

inline FbsonDocument* FbsonDocument::createDocument(const char* pb,
                                                    uint32_t size) {
  if (!pb || size < sizeof(FbsonHeader) + sizeof(FbsonValue)) {
    return nullptr;
  }

  FbsonDocument* doc = (FbsonDocument*)pb;
  if (doc->header_.ver_ != FBSON_VER) {
    return nullptr;
  }

  FbsonValue* val = (FbsonValue*)doc->payload_;
  if (!val->isObject() || size != sizeof(FbsonHeader) + val->numPackedBytes()) {
    return nullptr;
  }

  return doc;
}

inline FbsonValue* FbsonDocument::createValue(const char* pb, uint32_t size) {
  if (!pb || size < sizeof(FbsonHeader) + sizeof(FbsonValue)) {
    return nullptr;
  }

  FbsonDocument* doc = (FbsonDocument*)pb;
  if (doc->header_.ver_ != FBSON_VER) {
    return nullptr;
  }

  FbsonValue* val = (FbsonValue*)doc->payload_;
  if (size != sizeof(FbsonHeader) + val->numPackedBytes()) {
    return nullptr;
  }

  return val;
}

inline unsigned int FbsonKeyValue::numPackedBytes() const {
  unsigned int ks = keyPackedBytes();
  FbsonValue* val = (FbsonValue*)(((char*)this) + ks);
  return ks + val->numPackedBytes();
}

// Poor man's "virtual" function FbsonValue::numPackedBytes
inline unsigned int FbsonValue::numPackedBytes() const {
  switch (type_) {
  case FbsonType::T_Null:
  case FbsonType::T_True:
  case FbsonType::T_False: {
    return sizeof(type_);
  }

  case FbsonType::T_Int8: {
    return sizeof(type_) + sizeof(int8_t);
  }
  case FbsonType::T_Int16: {
    return sizeof(type_) + sizeof(int16_t);
  }
  case FbsonType::T_Int32: {
    return sizeof(type_) + sizeof(int32_t);
  }
  case FbsonType::T_Int64: {
    return sizeof(type_) + sizeof(int64_t);
  }
  case FbsonType::T_Double: {
    return sizeof(type_) + sizeof(double);
  }
  case FbsonType::T_String:
  case FbsonType::T_Binary: {
    return ((BlobVal*)(this))->numPackedBytes();
  }

  case FbsonType::T_Object:
  case FbsonType::T_Array: {
    return ((ContainerVal*)(this))->numPackedBytes();
  }
  default:
    return 0;
  }
}

inline unsigned int FbsonValue::size() const {
  switch (type_) {
  case FbsonType::T_Int8: {
    return sizeof(int8_t);
  }
  case FbsonType::T_Int16: {
    return sizeof(int16_t);
  }
  case FbsonType::T_Int32: {
    return sizeof(int32_t);
  }
  case FbsonType::T_Int64: {
    return sizeof(int64_t);
  }
  case FbsonType::T_Double: {
    return sizeof(double);
  }
  case FbsonType::T_String:
  case FbsonType::T_Binary: {
    return ((BlobVal*)(this))->getBlobLen();
  }

  case FbsonType::T_Object:
  case FbsonType::T_Array: {
    return ((ContainerVal*)(this))->getContainerSize();
  }
  case FbsonType::T_Null:
  case FbsonType::T_True:
  case FbsonType::T_False:
  default:
    return 0;
  }
}

inline const char* FbsonValue::getValuePtr() const {
  switch (type_) {
  case FbsonType::T_Int8:
  case FbsonType::T_Int16:
  case FbsonType::T_Int32:
  case FbsonType::T_Int64:
  case FbsonType::T_Double:
    return ((char*)this) + sizeof(FbsonType);

  case FbsonType::T_String:
  case FbsonType::T_Binary:
    return ((BlobVal*)(this))->getBlob();

  case FbsonType::T_Object:
  case FbsonType::T_Array:
    return ((ContainerVal*)(this))->getPayload();

  case FbsonType::T_Null:
  case FbsonType::T_True:
  case FbsonType::T_False:
  default:
    return nullptr;
  }
}

inline FbsonValue* FbsonValue::findPath(const char* key_path,
                                        unsigned int kp_len,
                                        const char* delim = ".",
                                        hDictFind handler = nullptr) {
  if (!key_path || !kp_len)
    return nullptr;

  if (!delim)
    delim = "."; // default delimiter

  FbsonValue* pval = this;
  const char* fence = key_path + kp_len;
  char idx_buf[21]; // buffer to parse array index (integer value)

  while (pval && key_path < fence) {
    const char* key = key_path;
    unsigned int klen = 0;
    // find the current key
    for (; key_path != fence && *key_path != *delim; ++key_path, ++klen)
      ;

    if (!klen)
      return nullptr;

    switch (pval->type_) {
    case FbsonType::T_Object: {
      pval = ((ObjectVal*)pval)->find(key, klen, handler);
      break;
    }

    case FbsonType::T_Array: {
      // parse string into an integer (array index)
      if (klen >= sizeof(idx_buf))
        return nullptr;

      memcpy(idx_buf, key, klen);
      idx_buf[klen] = 0;

      char* end = nullptr;
      int index = (int)strtol(idx_buf, &end, 10);
      if (end && !*end)
        pval = ((fbson::ArrayVal*)pval)->get(index);
      else
        // incorrect index string
        return nullptr;
      break;
    }

    default:
      return nullptr;
    }

    // skip the delimiter
    if (key_path < fence) {
      ++key_path;
      if (key_path == fence)
        // we have a trailing delimiter at the end
        return nullptr;
    }
  }

  return pval;
}

#pragma pack(pop)

} // namespace fbson

#endif // FBSON_FBSONDOCUMENT_H

YugabyteDB (2.13.0.0-b42, bfc6a6643e7399ac8a0e81d06a3ee6d6571b33ab)

Coverage Report

Created: 2022-03-09 17:30