swh:1:snp:ff2a11cd2e44dd19ec3814028ef2ce6605664e63
Tip revision: ac670139302bf853d603c9dd3545eab63f1f0966 authored by Eric Fischer on 21 November 2017, 18:50:01 UTC
Merge pull request #473 from mapbox/json-join
Merge pull request #473 from mapbox/json-join
Tip revision: ac67013
pbf_reader.hpp
#ifndef PROTOZERO_PBF_READER_HPP
#define PROTOZERO_PBF_READER_HPP
/*****************************************************************************
protozero - Minimalistic protocol buffer decoder and encoder in C++.
This file is from https://github.com/mapbox/protozero where you can find more
documentation.
*****************************************************************************/
/**
* @file pbf_reader.hpp
*
* @brief Contains the pbf_reader class.
*/
#include <cstddef>
#include <cstdint>
#include <string>
#include <utility>
#include <protozero/config.hpp>
#include <protozero/exception.hpp>
#include <protozero/iterators.hpp>
#include <protozero/types.hpp>
#include <protozero/varint.hpp>
#if PROTOZERO_BYTE_ORDER != PROTOZERO_LITTLE_ENDIAN
# include <protozero/byteswap.hpp>
#endif
namespace protozero {
/**
* This class represents a protobuf message. Either a top-level message or
* a nested sub-message. Top-level messages can be created from any buffer
* with a pointer and length:
*
* @code
* std::string buffer;
* // fill buffer...
* pbf_reader message(buffer.data(), buffer.size());
* @endcode
*
* Sub-messages are created using get_message():
*
* @code
* pbf_reader message(...);
* message.next();
* pbf_reader submessage = message.get_message();
* @endcode
*
* All methods of the pbf_reader class except get_bytes() and get_string()
* provide the strong exception guarantee, ie they either succeed or do not
* change the pbf_reader object they are called on. Use the get_view() method
* instead of get_bytes() or get_string(), if you need this guarantee.
*/
class pbf_reader {
// A pointer to the next unread data.
const char* m_data = nullptr;
// A pointer to one past the end of data.
const char* m_end = nullptr;
// The wire type of the current field.
pbf_wire_type m_wire_type = pbf_wire_type::unknown;
// The tag of the current field.
pbf_tag_type m_tag = 0;
template <typename T>
T get_fixed() {
T result;
skip_bytes(sizeof(T));
std::memcpy(&result, m_data - sizeof(T), sizeof(T));
#if PROTOZERO_BYTE_ORDER != PROTOZERO_LITTLE_ENDIAN
detail::byteswap_inplace(&result);
#endif
return result;
}
template <typename T>
iterator_range<const_fixed_iterator<T>> packed_fixed() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
const auto len = get_len_and_skip();
protozero_assert(len % sizeof(T) == 0);
return iterator_range<const_fixed_iterator<T>>{const_fixed_iterator<T>(m_data - len, m_data),
const_fixed_iterator<T>(m_data, m_data)};
}
template <typename T>
T get_varint() {
return static_cast<T>(decode_varint(&m_data, m_end));
}
template <typename T>
T get_svarint() {
protozero_assert((has_wire_type(pbf_wire_type::varint) || has_wire_type(pbf_wire_type::length_delimited)) && "not a varint");
return static_cast<T>(decode_zigzag64(decode_varint(&m_data, m_end)));
}
pbf_length_type get_length() {
return get_varint<pbf_length_type>();
}
void skip_bytes(pbf_length_type len) {
if (m_data + len > m_end) {
throw end_of_buffer_exception();
}
m_data += len;
// In debug builds reset the tag to zero so that we can detect (some)
// wrong code.
#ifndef NDEBUG
m_tag = 0;
#endif
}
pbf_length_type get_len_and_skip() {
const auto len = get_length();
skip_bytes(len);
return len;
}
template <typename T>
iterator_range<T> get_packed() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
const auto len = get_len_and_skip();
return iterator_range<T>{T{m_data - len, m_data},
T{m_data, m_data}};
}
public:
/**
* Construct a pbf_reader message from a data_view. The pointer from the
* data_view will be stored inside the pbf_reader object, no data is
* copied. So you must make sure the view stays valid as long as the
* pbf_reader object is used.
*
* The buffer must contain a complete protobuf message.
*
* @post There is no current field.
*/
explicit pbf_reader(const data_view& view) noexcept
: m_data(view.data()),
m_end(view.data() + view.size()),
m_wire_type(pbf_wire_type::unknown),
m_tag(0) {
}
/**
* Construct a pbf_reader message from a data pointer and a length. The
* pointer will be stored inside the pbf_reader object, no data is copied.
* So you must make sure the buffer stays valid as long as the pbf_reader
* object is used.
*
* The buffer must contain a complete protobuf message.
*
* @post There is no current field.
*/
pbf_reader(const char* data, std::size_t size) noexcept
: m_data(data),
m_end(data + size),
m_wire_type(pbf_wire_type::unknown),
m_tag(0) {
}
/**
* Construct a pbf_reader message from a data pointer and a length. The
* pointer will be stored inside the pbf_reader object, no data is copied.
* So you must make sure the buffer stays valid as long as the pbf_reader
* object is used.
*
* The buffer must contain a complete protobuf message.
*
* @post There is no current field.
*/
explicit pbf_reader(const std::pair<const char*, std::size_t>& data) noexcept
: m_data(data.first),
m_end(data.first + data.second),
m_wire_type(pbf_wire_type::unknown),
m_tag(0) {
}
/**
* Construct a pbf_reader message from a std::string. A pointer to the
* string internals will be stored inside the pbf_reader object, no data
* is copied. So you must make sure the string is unchanged as long as the
* pbf_reader object is used.
*
* The string must contain a complete protobuf message.
*
* @post There is no current field.
*/
explicit pbf_reader(const std::string& data) noexcept
: m_data(data.data()),
m_end(data.data() + data.size()),
m_wire_type(pbf_wire_type::unknown),
m_tag(0) {
}
/**
* pbf_reader can be default constructed and behaves like it has an empty
* buffer.
*/
pbf_reader() noexcept = default;
/// pbf_reader messages can be copied trivially.
pbf_reader(const pbf_reader&) noexcept = default;
/// pbf_reader messages can be moved trivially.
pbf_reader(pbf_reader&&) noexcept = default;
/// pbf_reader messages can be copied trivially.
pbf_reader& operator=(const pbf_reader& other) noexcept = default;
/// pbf_reader messages can be moved trivially.
pbf_reader& operator=(pbf_reader&& other) noexcept = default;
~pbf_reader() = default;
/**
* Swap the contents of this object with the other.
*
* @param other Other object to swap data with.
*/
void swap(pbf_reader& other) noexcept {
using std::swap;
swap(m_data, other.m_data);
swap(m_end, other.m_end);
swap(m_wire_type, other.m_wire_type);
swap(m_tag, other.m_tag);
}
/**
* In a boolean context the pbf_reader class evaluates to `true` if there
* are still fields available and to `false` if the last field has been
* read.
*/
operator bool() const noexcept {
return m_data < m_end;
}
/**
* Return the length in bytes of the current message. If you have
* already called next() and/or any of the get_*() functions, this will
* return the remaining length.
*
* This can, for instance, be used to estimate the space needed for a
* buffer. Of course you have to know reasonably well what data to expect
* and how it is encoded for this number to have any meaning.
*/
std::size_t length() const noexcept {
return std::size_t(m_end - m_data);
}
/**
* Set next field in the message as the current field. This is usually
* called in a while loop:
*
* @code
* pbf_reader message(...);
* while (message.next()) {
* // handle field
* }
* @endcode
*
* @returns `true` if there is a next field, `false` if not.
* @pre There must be no current field.
* @post If it returns `true` there is a current field now.
*/
bool next() {
if (m_data == m_end) {
return false;
}
const auto value = get_varint<uint32_t>();
m_tag = pbf_tag_type(value >> 3);
// tags 0 and 19000 to 19999 are not allowed as per
// https://developers.google.com/protocol-buffers/docs/proto
protozero_assert(((m_tag > 0 && m_tag < 19000) ||
(m_tag > 19999 && m_tag <= ((1 << 29) - 1))) && "tag out of range");
m_wire_type = pbf_wire_type(value & 0x07);
switch (m_wire_type) {
case pbf_wire_type::varint:
case pbf_wire_type::fixed64:
case pbf_wire_type::length_delimited:
case pbf_wire_type::fixed32:
break;
default:
throw unknown_pbf_wire_type_exception();
}
return true;
}
/**
* Set next field with given tag in the message as the current field.
* Fields with other tags are skipped. This is usually called in a while
* loop for repeated fields:
*
* @code
* pbf_reader message(...);
* while (message.next(17)) {
* // handle field
* }
* @endcode
*
* or you can call it just once to get the one field with this tag:
*
* @code
* pbf_reader message(...);
* if (message.next(17)) {
* // handle field
* }
* @endcode
*
* Note that this will not check the wire type. The two-argument version
* of this function will also check the wire type.
*
* @returns `true` if there is a next field with this tag.
* @pre There must be no current field.
* @post If it returns `true` there is a current field now with the given tag.
*/
bool next(pbf_tag_type next_tag) {
while (next()) {
if (m_tag == next_tag) {
return true;
} else {
skip();
}
}
return false;
}
/**
* Set next field with given tag and wire type in the message as the
* current field. Fields with other tags are skipped. This is usually
* called in a while loop for repeated fields:
*
* @code
* pbf_reader message(...);
* while (message.next(17, pbf_wire_type::varint)) {
* // handle field
* }
* @endcode
*
* or you can call it just once to get the one field with this tag:
*
* @code
* pbf_reader message(...);
* if (message.next(17, pbf_wire_type::varint)) {
* // handle field
* }
* @endcode
*
* Note that this will also check the wire type. The one-argument version
* of this function will not check the wire type.
*
* @returns `true` if there is a next field with this tag.
* @pre There must be no current field.
* @post If it returns `true` there is a current field now with the given tag.
*/
bool next(pbf_tag_type next_tag, pbf_wire_type type) {
while (next()) {
if (m_tag == next_tag && m_wire_type == type) {
return true;
} else {
skip();
}
}
return false;
}
/**
* The tag of the current field. The tag is the field number from the
* description in the .proto file.
*
* Call next() before calling this function to set the current field.
*
* @returns tag of the current field.
* @pre There must be a current field (ie. next() must have returned `true`).
*/
pbf_tag_type tag() const noexcept {
return m_tag;
}
/**
* Get the wire type of the current field. The wire types are:
*
* * 0 - varint
* * 1 - 64 bit
* * 2 - length-delimited
* * 5 - 32 bit
*
* All other types are illegal.
*
* Call next() before calling this function to set the current field.
*
* @returns wire type of the current field.
* @pre There must be a current field (ie. next() must have returned `true`).
*/
pbf_wire_type wire_type() const noexcept {
return m_wire_type;
}
/**
* Get the tag and wire type of the current field in one integer suitable
* for comparison with a switch statement.
*
* Use it like this:
*
* @code
* pbf_reader message(...);
* while (message.next()) {
* switch (message.tag_and_type()) {
* case tag_and_type(17, pbf_wire_type::length_delimited):
* ....
* break;
* case tag_and_type(21, pbf_wire_type::varint):
* ....
* break;
* default:
* message.skip();
* }
* }
* @endcode
*/
uint32_t tag_and_type() const noexcept {
return protozero::tag_and_type(tag(), wire_type());
}
/**
* Check the wire type of the current field.
*
* @returns `true` if the current field has the given wire type.
* @pre There must be a current field (ie. next() must have returned `true`).
*/
bool has_wire_type(pbf_wire_type type) const noexcept {
return wire_type() == type;
}
/**
* Consume the current field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @post The current field was consumed and there is no current field now.
*/
void skip() {
protozero_assert(tag() != 0 && "call next() before calling skip()");
switch (wire_type()) {
case pbf_wire_type::varint:
skip_varint(&m_data, m_end);
break;
case pbf_wire_type::fixed64:
skip_bytes(8);
break;
case pbf_wire_type::length_delimited:
skip_bytes(get_length());
break;
case pbf_wire_type::fixed32:
skip_bytes(4);
break;
default:
protozero_assert(false && "can not be here because next() should have thrown already");
}
}
///@{
/**
* @name Scalar field accessor functions
*/
/**
* Consume and return value of current "bool" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "bool".
* @post The current field was consumed and there is no current field now.
*/
bool get_bool() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::varint) && "not a varint");
protozero_assert((*m_data & 0x80) == 0 && "not a 1 byte varint");
skip_bytes(1);
return m_data[-1] != 0; // -1 okay because we incremented m_data the line before
}
/**
* Consume and return value of current "enum" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "enum".
* @post The current field was consumed and there is no current field now.
*/
int32_t get_enum() {
protozero_assert(has_wire_type(pbf_wire_type::varint) && "not a varint");
return get_varint<int32_t>();
}
/**
* Consume and return value of current "int32" varint field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "int32".
* @post The current field was consumed and there is no current field now.
*/
int32_t get_int32() {
protozero_assert(has_wire_type(pbf_wire_type::varint) && "not a varint");
return get_varint<int32_t>();
}
/**
* Consume and return value of current "sint32" varint field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "sint32".
* @post The current field was consumed and there is no current field now.
*/
int32_t get_sint32() {
protozero_assert(has_wire_type(pbf_wire_type::varint) && "not a varint");
return get_svarint<int32_t>();
}
/**
* Consume and return value of current "uint32" varint field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "uint32".
* @post The current field was consumed and there is no current field now.
*/
uint32_t get_uint32() {
protozero_assert(has_wire_type(pbf_wire_type::varint) && "not a varint");
return get_varint<uint32_t>();
}
/**
* Consume and return value of current "int64" varint field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "int64".
* @post The current field was consumed and there is no current field now.
*/
int64_t get_int64() {
protozero_assert(has_wire_type(pbf_wire_type::varint) && "not a varint");
return get_varint<int64_t>();
}
/**
* Consume and return value of current "sint64" varint field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "sint64".
* @post The current field was consumed and there is no current field now.
*/
int64_t get_sint64() {
protozero_assert(has_wire_type(pbf_wire_type::varint) && "not a varint");
return get_svarint<int64_t>();
}
/**
* Consume and return value of current "uint64" varint field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "uint64".
* @post The current field was consumed and there is no current field now.
*/
uint64_t get_uint64() {
protozero_assert(has_wire_type(pbf_wire_type::varint) && "not a varint");
return get_varint<uint64_t>();
}
/**
* Consume and return value of current "fixed32" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "fixed32".
* @post The current field was consumed and there is no current field now.
*/
uint32_t get_fixed32() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::fixed32) && "not a 32-bit fixed");
return get_fixed<uint32_t>();
}
/**
* Consume and return value of current "sfixed32" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "sfixed32".
* @post The current field was consumed and there is no current field now.
*/
int32_t get_sfixed32() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::fixed32) && "not a 32-bit fixed");
return get_fixed<int32_t>();
}
/**
* Consume and return value of current "fixed64" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "fixed64".
* @post The current field was consumed and there is no current field now.
*/
uint64_t get_fixed64() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::fixed64) && "not a 64-bit fixed");
return get_fixed<uint64_t>();
}
/**
* Consume and return value of current "sfixed64" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "sfixed64".
* @post The current field was consumed and there is no current field now.
*/
int64_t get_sfixed64() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::fixed64) && "not a 64-bit fixed");
return get_fixed<int64_t>();
}
/**
* Consume and return value of current "float" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "float".
* @post The current field was consumed and there is no current field now.
*/
float get_float() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::fixed32) && "not a 32-bit fixed");
return get_fixed<float>();
}
/**
* Consume and return value of current "double" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "double".
* @post The current field was consumed and there is no current field now.
*/
double get_double() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::fixed64) && "not a 64-bit fixed");
return get_fixed<double>();
}
/**
* Consume and return value of current "bytes", "string", or "message"
* field.
*
* @returns A data_view object.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "bytes", "string", or "message".
* @post The current field was consumed and there is no current field now.
*/
data_view get_view() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::length_delimited) && "not of type string, bytes or message");
const auto len = get_len_and_skip();
return data_view{m_data - len, len};
}
#ifndef PROTOZERO_STRICT_API
/**
* Consume and return value of current "bytes" or "string" field.
*
* @returns A pair with a pointer to the data and the length of the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "bytes" or "string".
* @post The current field was consumed and there is no current field now.
*/
std::pair<const char*, pbf_length_type> get_data() {
protozero_assert(tag() != 0 && "call next() before accessing field value");
protozero_assert(has_wire_type(pbf_wire_type::length_delimited) && "not of type string, bytes or message");
const auto len = get_len_and_skip();
return std::make_pair(m_data - len, len);
}
#endif
/**
* Consume and return value of current "bytes" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "bytes".
* @post The current field was consumed and there is no current field now.
*/
std::string get_bytes() {
return std::string(get_view());
}
/**
* Consume and return value of current "string" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "string".
* @post The current field was consumed and there is no current field now.
*/
std::string get_string() {
return std::string(get_view());
}
/**
* Consume and return value of current "message" field.
*
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "message".
* @post The current field was consumed and there is no current field now.
*/
pbf_reader get_message() {
return pbf_reader(get_view());
}
///@}
/// Forward iterator for iterating over bool (int32 varint) values.
using const_bool_iterator = const_varint_iterator< int32_t>;
/// Forward iterator for iterating over enum (int32 varint) values.
using const_enum_iterator = const_varint_iterator< int32_t>;
/// Forward iterator for iterating over int32 (varint) values.
using const_int32_iterator = const_varint_iterator< int32_t>;
/// Forward iterator for iterating over sint32 (varint) values.
using const_sint32_iterator = const_svarint_iterator<int32_t>;
/// Forward iterator for iterating over uint32 (varint) values.
using const_uint32_iterator = const_varint_iterator<uint32_t>;
/// Forward iterator for iterating over int64 (varint) values.
using const_int64_iterator = const_varint_iterator< int64_t>;
/// Forward iterator for iterating over sint64 (varint) values.
using const_sint64_iterator = const_svarint_iterator<int64_t>;
/// Forward iterator for iterating over uint64 (varint) values.
using const_uint64_iterator = const_varint_iterator<uint64_t>;
///@{
/**
* @name Repeated packed field accessor functions
*/
/**
* Consume current "repeated packed bool" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed bool".
* @post The current field was consumed and there is no current field now.
*/
iterator_range<pbf_reader::const_bool_iterator> get_packed_bool() {
return get_packed<pbf_reader::const_bool_iterator>();
}
/**
* Consume current "repeated packed enum" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed enum".
* @post The current field was consumed and there is no current field now.
*/
iterator_range<pbf_reader::const_enum_iterator> get_packed_enum() {
return get_packed<pbf_reader::const_enum_iterator>();
}
/**
* Consume current "repeated packed int32" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed int32".
* @post The current field was consumed and there is no current field now.
*/
iterator_range<pbf_reader::const_int32_iterator> get_packed_int32() {
return get_packed<pbf_reader::const_int32_iterator>();
}
/**
* Consume current "repeated packed sint32" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed sint32".
* @post The current field was consumed and there is no current field now.
*/
iterator_range<pbf_reader::const_sint32_iterator> get_packed_sint32() {
return get_packed<pbf_reader::const_sint32_iterator>();
}
/**
* Consume current "repeated packed uint32" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed uint32".
* @post The current field was consumed and there is no current field now.
*/
iterator_range<pbf_reader::const_uint32_iterator> get_packed_uint32() {
return get_packed<pbf_reader::const_uint32_iterator>();
}
/**
* Consume current "repeated packed int64" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed int64".
* @post The current field was consumed and there is no current field now.
*/
iterator_range<pbf_reader::const_int64_iterator> get_packed_int64() {
return get_packed<pbf_reader::const_int64_iterator>();
}
/**
* Consume current "repeated packed sint64" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed sint64".
* @post The current field was consumed and there is no current field now.
*/
iterator_range<pbf_reader::const_sint64_iterator> get_packed_sint64() {
return get_packed<pbf_reader::const_sint64_iterator>();
}
/**
* Consume current "repeated packed uint64" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed uint64".
* @post The current field was consumed and there is no current field now.
*/
iterator_range<pbf_reader::const_uint64_iterator> get_packed_uint64() {
return get_packed<pbf_reader::const_uint64_iterator>();
}
/**
* Consume current "repeated packed fixed32" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed fixed32".
* @post The current field was consumed and there is no current field now.
*/
auto get_packed_fixed32() -> decltype(packed_fixed<uint32_t>()) {
return packed_fixed<uint32_t>();
}
/**
* Consume current "repeated packed sfixed32" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed sfixed32".
* @post The current field was consumed and there is no current field now.
*/
auto get_packed_sfixed32() -> decltype(packed_fixed<int32_t>()) {
return packed_fixed<int32_t>();
}
/**
* Consume current "repeated packed fixed64" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed fixed64".
* @post The current field was consumed and there is no current field now.
*/
auto get_packed_fixed64() -> decltype(packed_fixed<uint64_t>()) {
return packed_fixed<uint64_t>();
}
/**
* Consume current "repeated packed sfixed64" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed sfixed64".
* @post The current field was consumed and there is no current field now.
*/
auto get_packed_sfixed64() -> decltype(packed_fixed<int64_t>()) {
return packed_fixed<int64_t>();
}
/**
* Consume current "repeated packed float" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed float".
* @post The current field was consumed and there is no current field now.
*/
auto get_packed_float() -> decltype(packed_fixed<float>()) {
return packed_fixed<float>();
}
/**
* Consume current "repeated packed double" field.
*
* @returns a pair of iterators to the beginning and one past the end of
* the data.
* @pre There must be a current field (ie. next() must have returned `true`).
* @pre The current field must be of type "repeated packed double".
* @post The current field was consumed and there is no current field now.
*/
auto get_packed_double() -> decltype(packed_fixed<double>()) {
return packed_fixed<double>();
}
///@}
}; // class pbf_reader
/**
* Swap two pbf_reader objects.
*
* @param lhs First object.
* @param rhs Second object.
*/
inline void swap(pbf_reader& lhs, pbf_reader& rhs) noexcept {
lhs.swap(rhs);
}
} // end namespace protozero
#endif // PROTOZERO_PBF_READER_HPP
