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bioio.hpp
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bioio.hpp
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/* bioio.hpp -- FASTA/Q I/O
Copyright (C) 2017 University of Oxford.
Author: Daniel Cooke <[email protected]>
Use of this source code is governed by the MIT license that can be found in the LICENSE file. */
#ifndef __bioio__bioio__
#define __bioio__bioio__
#include <string>
#include <vector>
#include <unordered_map>
#include <iostream>
#include <fstream>
#include <cstddef>
#include <limits>
#include <sstream>
#include <algorithm>
#include <iterator>
#include <utility>
#include <type_traits>
namespace bioio {
namespace detail {
inline std::vector<std::string> split(const std::string& str, const char delim)
{
std::stringstream ss {str};
std::string item;
std::vector<std::string> result {};
while (std::getline(ss, item, delim)) result.emplace_back(item);
return result;
}
} // namespace detail
/*=======================================================================================
Types
=======================================================================================*/
struct FastaContigIndex
{
std::string contig_name;
std::size_t length;
std::size_t offset;
std::size_t line_length;
std::size_t line_byte_length;
FastaContigIndex() = default;
template <typename T>
explicit FastaContigIndex(T&& contig_name, std::size_t length, std::size_t offset,
std::size_t line_length, std::size_t line_byte_length)
: contig_name {std::forward<T>(contig_name)}
, offset {offset}
, length {length}
, line_length {line_length}
, line_byte_length {line_byte_length}
{}
template <typename T>
explicit FastaContigIndex(const T& fasta_index_line)
{
const auto parts = detail::split(fasta_index_line, '\t');
contig_name = parts[0];
length = std::stoull(parts[1]);
offset = std::stoull(parts[2]);
line_length = std::stoull(parts[3]);
line_byte_length = std::stoull(parts[4]);
}
};
using FastaIndex = std::unordered_map<std::string, FastaContigIndex>;
template <typename StringType = std::string, typename SequenceType = std::string>
struct FastaRecord
{
StringType name;
SequenceType sequence;
FastaRecord() = delete;
template <typename StringType_, typename SequenceType_>
explicit FastaRecord(StringType_&& name, SequenceType_&& sequence)
: name {std::forward<StringType_>(name)}
, sequence {std::forward<SequenceType_>(sequence)}
{}
};
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string>
struct FastqRecord
{
StringType name;
SequenceType1 seq;
SequenceType2 qual;
FastqRecord() = delete;
template <typename StringType_, typename SequenceType1_, typename SequenceType2_>
explicit FastqRecord(StringType_&& name, SequenceType1_&& seq, SequenceType2_&& qual)
:name {std::forward<StringType_>(name)}
, seq {std::forward<SequenceType1_>(seq)}
, qual {std::forward<SequenceType2_>(qual)}
{}
};
template <typename StringType = std::string>
using ReadIds = std::vector<StringType>;
template <typename StringType = std::string, typename SequenceType = std::string>
using FastaMap = std::unordered_map<StringType, SequenceType>;
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string>
using FastqMap = std::unordered_map<StringType, std::pair<SequenceType1, SequenceType2>>;
template <typename StringType = std::string, typename SequenceType = std::string>
using FastaReads = std::pair<ReadIds<StringType>, FastaMap<StringType, SequenceType>>;
template <typename StringType = std::string, typename SequenceType = std::string,
typename SequenceType2 = std::string>
using FastqReads = std::pair<ReadIds<StringType>, FastqMap<StringType, SequenceType, SequenceType2>>;
namespace detail
{
// Counts the occurrences of record_delim that follow a newline '\n'
inline size_t count_records(std::istream& is, const char record_delim)
{
const auto current_position = is.tellg();
size_t result {};
while (is) {
if (is.peek() == record_delim) ++result;
is.ignore(std::numeric_limits<std::streamsize>::max(), '\n');
}
is.clear();
is.seekg(current_position, std::ios::beg);
return result;
}
static constexpr char fasta_delim {'>'};
static constexpr char fastq_delim {'@'};
template <typename StringType = std::string, typename SequenceType = std::string>
::bioio::FastaRecord<StringType, SequenceType>
read_fasta_record(std::istream& fasta)
{
StringType name;
std::getline(fasta, name); // name is always a single line
SequenceType line;
std::getline(fasta, line);
// The FASTA format is not as simple as FASTQ - the sequence
// may be broken into multiple lines. We assume each line is the same size.
if (!fasta.good() || fasta.peek() == fasta_delim) {
return ::bioio::FastaRecord<StringType, SequenceType> {std::move(name), std::move(line)};
} else {
const auto line_size = line.size();
line.resize(line_size);
SequenceType seq {};
seq.reserve(line_size * 100);
const auto line_begin = line.cbegin(), line_end = line.cend();
seq.insert(seq.end(), line_begin, line_end);
while (fasta.good()) {
fasta.getline(&line[0], line_size + 1);
if (line.front() == fasta_delim) {
if (fasta.good()) fasta.seekg(-fasta.gcount(), std::ios_base::cur);
break;
}
if (fasta.gcount() < line_size) {
seq.insert(seq.end(), line_begin, line_begin + fasta.gcount() - 1);
break;
}
seq.insert(seq.end(), line_begin, line_end);
}
seq.shrink_to_fit();
return ::bioio::FastaRecord<StringType, SequenceType> {std::move(name), std::move(seq)};
}
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string>
::bioio::FastqRecord<StringType, SequenceType1, SequenceType2>
read_fastq_record(std::istream& fastq)
{
StringType name;
SequenceType1 seq;
SequenceType2 quals;
// Unlike FASTA, FASTQ always use one line per field.
std::getline(fastq, name);
std::getline(fastq, seq);
fastq.ignore(std::numeric_limits<std::streamsize>::max(), '\n');
std::getline(fastq, quals);
return ::bioio::FastqRecord<StringType, SequenceType1, SequenceType2>
{std::move(name), std::move(seq), std::move(quals)};
}
} // namespace detail
/*=======================================================================================
INDEX: For reading FASTA index files
=======================================================================================*/
inline std::size_t count_contigs_in_fasta_index(std::istream& fasta_index)
{
return std::count(std::istreambuf_iterator<char>(fasta_index),
std::istreambuf_iterator<char>(), '\n');
}
inline std::size_t count_contigs_in_fasta_index(const std::string& fasta_index_path)
{
std::ifstream fasta_index {fasta_index_path, std::ios::binary};
return count_contigs_in_fasta_index(fasta_index);
}
inline std::vector<std::string> read_fasta_index_contig_names(std::istream& fasta_index)
{
std::vector<std::string> result {};
result.reserve(100);
std::string line;
while (std::getline(fasta_index, line)) {
result.emplace_back(line.substr(0, line.find('\t')));
}
result.shrink_to_fit();
return result;
}
inline std::vector<std::string> read_fasta_index_contig_names(const std::string& fasta_index_path)
{
std::ifstream fasta_index {fasta_index_path, std::ios::binary};
return read_fasta_index_contig_names(fasta_index);
}
inline FastaIndex read_fasta_index(std::istream& fasta_index)
{
FastaIndex result {};
result.reserve(100);
std::string line;
while (std::getline(fasta_index, line)) {
FastaContigIndex contig_index {line};
result.emplace(contig_index.contig_name, std::move(contig_index));
}
result.rehash(result.size());
return result;
}
inline FastaIndex read_fasta_index(const std::string& fasta_index_path)
{
std::ifstream fasta_index {fasta_index_path, std::ios::binary};
return read_fasta_index(fasta_index);
}
inline std::size_t calculate_contig_size(std::istream& fasta_index, const std::string& contig_name)
{
const auto current_position = fasta_index.tellg();
fasta_index.seekg(0, std::ios::beg);
std::string line;
while (std::getline(fasta_index, line)) {
FastaContigIndex contig_index {line};
if (contig_index.contig_name == contig_name) return contig_index.length;
}
fasta_index.clear();
fasta_index.seekg(current_position, std::ios::beg);
return 0;
}
inline size_t calculate_contig_size(const std::string& fasta_index_path, const std::string& contig_name)
{
std::ifstream fasta_index {fasta_index_path, std::ios::binary};
return calculate_contig_size(fasta_index, contig_name);
}
/*=======================================================================================
FASTA: For reading FASTAs with index files
=======================================================================================*/
namespace detail {
inline std::size_t line_offset(const ::bioio::FastaContigIndex& index, const std::size_t begin) noexcept
{
return begin % index.line_length;
}
inline std::size_t region_offset(const ::bioio::FastaContigIndex& index, const std::size_t begin) noexcept
{
return index.offset + begin / index.line_length * index.line_byte_length + line_offset(index, begin);
}
inline std::size_t remaining_line_length(const ::bioio::FastaContigIndex& index, const std::size_t begin) noexcept
{
return index.line_length - line_offset(index, begin);
}
} // namespace detail
template <typename SequenceType = std::string>
SequenceType
read_fasta_contig(std::istream& fasta, const FastaContigIndex& index,
const std::size_t begin, std::size_t length)
{
SequenceType result {};
if (length == 0 || begin >= index.length) {
return result;
}
fasta.seekg(detail::region_offset(index, begin), std::ios::beg);
length = std::min(length, index.length - begin);
if (index.line_length == index.line_byte_length) {
result.resize(length);
fasta.read(&result[0], length);
} else {
const auto num_line_end_bytes = index.line_byte_length - index.line_length;
const auto num_remaining_curr_line_bytes = detail::remaining_line_length(index, begin);
if (length <= num_remaining_curr_line_bytes) {
result.resize(length);
fasta.read(&result[0], length);
} else {
// Allocate enough space to fit a full last line so we don't need to keep
// checking how much of the final line to read.
result.resize(length + detail::remaining_line_length(index, begin + length) + num_line_end_bytes);
fasta.read(&result[0], num_remaining_curr_line_bytes + num_line_end_bytes);
for (auto pos = num_remaining_curr_line_bytes; pos < length; pos += index.line_length) {
fasta.read(&result[pos], index.line_byte_length);
}
result.resize(length);
}
}
fasta.clear(); // assumes indexed queries do not need eof flag
return result;
}
template <typename SequenceType = std::string>
SequenceType
read_fasta_contig(const std::string& fasta_path, const FastaContigIndex& index,
const std::size_t begin, const std::size_t length)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_contig<SequenceType>(fasta, index, begin, length);
}
template <typename SequenceType = std::string>
SequenceType read_fasta_contig(std::istream& fasta, const FastaContigIndex& index)
{
return read_fasta_contig<SequenceType>(fasta, index, 0, index.length);
}
template <typename SequenceType = std::string>
SequenceType read_fasta_contig(const std::string& fasta_path, const FastaContigIndex& index)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_contig<SequenceType>(fasta, index);
}
template <typename T, typename U>
std::ostream& operator<<(std::ostream& os, const FastaRecord<T, U>& data)
{
os << ">" << data.first << "\n" << data.second;
return os;
}
/*=======================================================================================
FASTA: Optimised for reading a Fasta file with a single contig without an index
=======================================================================================*/
template <typename StringType = std::string, typename SequenceType = std::string>
FastaRecord<StringType, SequenceType> read_single_contig_fasta(const std::string& fasta_path)
{
std::ifstream fasta {fasta_path, std::ios::binary | std::ios::ate};
const auto file_length = static_cast<size_t>(fasta.tellg());
fasta.seekg(0, std::ios::beg);
StringType name;
std::getline(fasta, name);
SequenceType sequence;
sequence.resize(file_length - name.size() - 1);
fasta.read(&sequence[0], sequence.size());
sequence.erase(std::remove(sequence.begin(), sequence.end(), '\n'), sequence.end());
return FastaRecord<StringType, SequenceType> {std::move(name), std::move(sequence)};
}
/*=======================================================================================
FASTA: For reading multiple record Fasta files without an index
=======================================================================================*/
inline std::size_t count_fasta_records(std::istream& fasta)
{
return detail::count_records(fasta, detail::fasta_delim);
}
inline std::size_t count_fasta_records(const std::string& fasta_path)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return count_fasta_records(fasta);
}
template <typename UnaryPredicate,
typename = typename std::enable_if<
!std::is_convertible<UnaryPredicate, std::string>::value
>::type>
bool seek_fasta_record(std::istream& fasta, UnaryPredicate pred)
{
std::string record;
while (std::getline(fasta, record)) {
if (pred(record)) {
fasta.seekg(-(record.size() + 1), std::ios_base::cur);
return true;
}
while (fasta) {
if (fasta.peek() == detail::fasta_delim) break;
fasta.ignore(std::numeric_limits<std::streamsize>::max(), '\n');
}
}
return false;
}
inline bool seek_fasta_record(std::istream& fasta, const std::string& name)
{
return seek_fasta_record(fasta,
[&] (const std::string& fasta_record) {
if (fasta_record.size() < name.size()) return false;
return std::equal(name.cbegin(), name.cend(),
std::next(fasta_record.cbegin()));
});
}
template <typename SequenceType = std::string, typename UnaryPredicate>
SequenceType read_fasta_seq(std::istream& fasta, UnaryPredicate pred)
{
if (seek_fasta_record(fasta, pred)) {
return detail::read_fasta_record<std::string, SequenceType>(fasta).sequence;
}
return SequenceType {};
}
template <typename SequenceType = std::string, typename UnaryPredicate>
SequenceType read_fasta_seq(const std::string& fasta_path, UnaryPredicate pred)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_seq(fasta, pred);
}
template <typename SequenceType = std::string>
SequenceType read_fasta_seq(std::istream& fasta, const std::string& name)
{
if (seek_fasta_record(fasta, name)) {
return detail::read_fasta_record<std::string, SequenceType>(fasta).sequence;
}
return SequenceType {};
}
template <typename SequenceType = std::string>
SequenceType read_fasta_seq(const std::string& fasta_path, const std::string& name)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_seq(fasta, name);
}
template <typename Container = std::vector<std::string>>
Container read_fasta_seqs(std::istream& fasta, size_t num_records)
{
Container result {};
result.reserve(num_records);
using SequenceType = typename Container::value_type;
for (; num_records > 0; --num_records) {
result.emplace_back(detail::read_fasta_record<std::string, SequenceType>(fasta).sequence);
}
return result;
}
template <typename Container = std::vector<std::string>>
Container read_fasta_seqs(std::istream& fasta)
{
return read_fasta_seqs<Container>(fasta, count_fasta_records(fasta));
}
template <typename Container = std::vector<std::string>>
Container read_fasta_seqs(const std::string& fasta_path)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_seqs<Container>(fasta);
}
template <typename Container = std::vector<std::string>>
Container read_fasta_seqs(const std::string& fasta_path, const std::size_t num_records)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_seqs<Container>(fasta, num_records);
}
template <typename StringType = std::string, typename SequenceType = std::string>
std::vector<FastaRecord<StringType, SequenceType>> read_fasta(std::istream& fasta,
std::size_t num_records)
{
std::vector<FastaRecord<StringType, SequenceType>> result {};
result.reserve(num_records);
for (; num_records > 0; --num_records) {
result.emplace_back(detail::read_fasta_record<StringType, SequenceType>(fasta));
}
return result;
}
template <typename StringType = std::string, typename SequenceType = std::string>
std::vector<FastaRecord<StringType, SequenceType>> read_fasta(std::istream& fasta)
{
return read_fasta<StringType, SequenceType>(fasta, count_fasta_records(fasta));
}
template <typename StringType = std::string, typename SequenceType = std::string>
std::vector<FastaRecord<StringType, SequenceType>> read_fasta(const std::string& fasta_path)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta<StringType, SequenceType>(fasta);
}
template <typename StringType = std::string, typename SequenceType = std::string>
std::vector<FastaRecord<StringType, SequenceType>> read_fasta(const std::string& fasta_path,
const std::size_t num_records)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta<StringType, SequenceType>(fasta, num_records);
}
template <typename StringType = std::string, typename SequenceType = std::string,
typename UnaryOperation>
FastaReads<StringType, SequenceType> read_fasta_map(std::istream& fasta,
std::size_t num_records,
UnaryOperation unary_op)
{
FastaMap<StringType, SequenceType> records {};
records.reserve(num_records);
ReadIds<StringType> contig_names {};
contig_names.reserve(num_records);
for (; num_records > 0; --num_records) {
auto record = detail::read_fasta_record<StringType, SequenceType>(fasta);
auto f_name = unary_op(std::move(record.name));
records.emplace(f_name, std::move(record.sequence));
contig_names.insert(std::move(f_name));
}
return FastaReads<StringType, SequenceType> {std::move(contig_names), std::move(records)};
}
template <typename StringType = std::string, typename SequenceType = std::string,
typename UnaryOperation>
FastaReads<StringType, SequenceType> read_fasta_map(std::istream& fasta,
UnaryOperation unary_op)
{
return read_fasta_map<StringType, SequenceType, UnaryOperation>(fasta,
count_fasta_records(fasta),
unary_op);
}
template <typename StringType = std::string, typename SequenceType = std::string,
typename UnaryOperation>
FastaReads<StringType, SequenceType> read_fasta_map(const std::string& fasta_path,
UnaryOperation unary_op)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_map<StringType, SequenceType, UnaryOperation>(fasta, unary_op);
}
template <typename StringType = std::string, typename SequenceType = std::string,
typename UnaryOperation>
FastaReads<StringType, SequenceType> read_fasta_map(const std::string& fasta_path,
size_t num_records,
UnaryOperation unary_op)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_map<StringType, SequenceType, UnaryOperation>(fasta, num_records, unary_op);
}
template <typename StringType = std::string, typename SequenceType = std::string>
FastaReads<StringType, SequenceType> read_fasta_map(const std::string& fasta_path)
{
return read_fasta_map<StringType, SequenceType>(fasta_path,
[] (StringType&& name) {
return name;
});
}
template <typename StringType = std::string, typename SequenceType = std::string,
typename UnaryOperation>
FastaReads<StringType, SequenceType>
read_fasta_map(std::istream& fasta, const ReadIds<StringType>& names,
UnaryOperation unary_op)
{
auto num_records = names.size();
FastaMap<StringType, SequenceType> records {};
records.reserve(num_records);
ReadIds<StringType> f_names {};
f_names.reserve(num_records);
for (; num_records > 0; --num_records) {
auto record = detail::read_fasta_record<StringType, SequenceType>(fasta);
auto f_name = unary_op(std::move(record.name));
if (names.find(f_name) != names.end()) {
records.emplace(f_name, std::move(record.sequence));
f_names.insert(std::move(f_name));
}
}
return FastaReads<StringType, SequenceType> {std::move(f_names), std::move(records)};
}
template <typename StringType = std::string, typename SequenceType = std::string,
typename UnaryOperation>
FastaReads<StringType, SequenceType>
read_fasta_map(const std::string& fasta_path, const ReadIds<StringType>& names,
UnaryOperation unary_op)
{
std::ifstream fasta {fasta_path, std::ios::binary};
return read_fasta_map<StringType, SequenceType, UnaryOperation>(fasta, names, unary_op);
}
template <typename StringType = std::string, typename SequenceType = std::string>
FastaReads<StringType, SequenceType>
read_fasta_map(const std::string& path, const ReadIds<StringType>& names)
{
return read_fasta_map(path, names,
[] (StringType&& name) { return name; });
}
template <typename T, typename U>
std::ostream& operator<<(std::ostream& os, const FastaReads<T, U>& records)
{
for (auto name : records.first) {
os << ">" << name << "\n" << records.second.at(name);
}
return os;
}
template <typename T, typename U>
void write_fasta(const std::string& path, const FastaReads<T, U>& records)
{
std::ofstream fasta {path, std::ios::out | std::ios::binary};
fasta << records;
}
/*=======================================================================================
FASTQ: For reading multiple line Fastq files.
=======================================================================================*/
inline std::size_t count_fastq_records(std::istream& fastq)
{
return detail::count_records(fastq, detail::fastq_delim);
}
inline std::size_t count_fastq_records(const std::string& fastq_path)
{
std::ifstream fastq {fastq_path, std::ios::binary};
return count_fasta_records(fastq);
}
template <typename SequenceType = std::string>
std::vector<SequenceType>
read_fastq_seqs(std::istream& fastq)
{
auto num_records = count_fastq_records(fastq);
std::vector<SequenceType> result {};
result.reserve(num_records);
for (; num_records > 0; --num_records) {
result.push_back(detail::read_fastq_record<std::string, SequenceType, std::string>(fastq).seq);
}
return result;
}
template <typename SequenceType = std::string>
std::vector<SequenceType>
read_fastq_seqs(const std::string& path)
{
std::ifstream fastq {path, std::ios::binary};
return read_fastq_seqs(fastq);
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string, typename F>
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>>
read_fastq(std::istream& fastq, std::size_t num_records, F f)
{
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>> result {};
result.reserve(num_records);
for (; num_records > 0; --num_records) {
auto record = detail::read_fastq_record<StringType, SequenceType1, SequenceType2>(fastq);
result.emplace_back(f(std::move(record.name)), std::move(record.seq), std::move(record.qual));
}
return result;
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string, typename F>
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>>
read_fastq(std::istream& fastq, F f)
{
return read_fastq<StringType, SequenceType1, SequenceType2, F>(fastq, count_fastq_records(fastq), f);
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string, typename F>
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>>
read_fastq(const std::string& path, const std::size_t num_records, F f)
{
std::ifstream fastq {path, std::ios::binary};
return read_fastq<StringType, SequenceType1, SequenceType2, F>(fastq, num_records, f);
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string, typename F>
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>>
read_fastq(const std::string& path, F f)
{
std::ifstream fastq {path, std::ios::binary};
return read_fastq<StringType, SequenceType1, SequenceType2, F>(fastq, f);
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string>
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>>
read_fastq(const std::string& path)
{
return read_fastq<StringType, SequenceType1, SequenceType2>(path, [] (const StringType& name) { return name; });
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string>
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>>
read_fastq(std::istream& fastq)
{
return read_fastq<StringType, SequenceType1, SequenceType2>(fastq, [] (const StringType& name) { return name; });
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string>
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>>
read_fastq(std::istream& fastq, const std::size_t num_records)
{
return read_fastq<StringType, SequenceType1, SequenceType2>(fastq, num_records, [] (const StringType& name) {
return name;
});
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string, typename IntegerType>
std::vector<FastqRecord<StringType, SequenceType1, SequenceType2>>
read_fastq(const std::string& path, const std::size_t num_records)
{
std::ifstream fastq {path, std::ios::binary};
return read_fastq<StringType, SequenceType1, SequenceType2>(fastq, num_records, [] (const StringType& name) {
return name;
});
}
template <typename StringType = std::string, typename SequenceType1 = std::string,
typename SequenceType2 = std::string>
FastqReads<StringType, SequenceType1, SequenceType2>
read_fastq_map(const std::string& path)
{
std::ifstream fastq {path, std::ios::binary};
auto num_records = count_fastq_records(fastq);
ReadIds<StringType> names {};
FastqMap<StringType, SequenceType1, SequenceType2> data {};
data.reserve(num_records);
for (; num_records > 0; --num_records) {
auto record = detail::read_fastq_record<StringType, SequenceType1, SequenceType2>(fastq);
data.emplace(record.name, {std::move(record.seq), std::move(record.qual)});
names.insert(std::move(record.name));
}
return {names, data};
}
} // namespace bioio
#endif