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index.hxx
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index.hxx
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#ifndef HYPER_UTIL_BUFFER_H
#define HYPER_UTIL_BUFFER_H
#include <algorithm>
#include <vector>
#include <initializer_list>
#include <string>
#include <iostream>
#include <sstream>
#include <iomanip>
#include <exception>
#include "deps/datcxx/sodium-encodedecode/index.hxx"
///
/// namespace Hyper
///
namespace Hyper {
///
/// namespace Util
///
namespace Util {
///
/// class Buffer<T>
/// comment A class that provides some convenient methods for managing buffers.
///
template<typename T>
class Buffer {
public:
///
/// property vector<T> value
/// comment Contains a vector of the type the constructor was specialized with.
///
std::vector<T> value;
class OutOfRange : public std::exception {
virtual const char* what() const throw() {
return "Out Of Range Exception";
}
} EX_OUT_OF_RANGE;
// bool equals(Buffer b);
// int indexOf(T value, int byteOffset);
///
/// operator =
/// comment Assign one buffer to another.
///
Buffer& operator= (const Buffer& buf);
///
/// operator ==
/// comment Determine if two buffers values are equal.
///
bool operator== (const Buffer<T>& rhs) {
return std::equal(
std::begin(this->value),
std::end(this->value),
std::begin(rhs.value)
);
}
///
/// operator !=
/// comment Determine if two buffers values are not equal.
///
bool operator!= (const Buffer<T>& rhs) {
return !std::equal(
std::begin(this->value),
std::end(this->value),
std::begin(rhs.value)
);
}
///
/// operator <<
/// comment Allow buffers to interface with streams. The value of the
/// comment buffer will be represented as hex in a angle-bracket delimited
/// comment string.
///
friend std::ostream& operator<< (std::ostream &os, const Buffer<T>& buf) {
if (buf.value.empty()) {
os << "";
return os;
}
std::ios_base::fmtflags f(std::cout.flags());
os << "<Buffer" << std::hex << std::setfill('0');
for (auto const& c : buf.value) {
os << " " << std::setw(2) << (int) c;
}
std::cout.flags(f);
os << ">";
return os;
};
///
/// operator []
/// comment Provides access of the buffer via index.
///
T operator[] (int i) {
return this->value[i];
}
///
/// constructor Buffer<T>(initializer_list<T> list)
/// comment Constructs a buffer from an initializer list.
///
Buffer(std::initializer_list<T> l) : value(l) {}
///
/// constructor Buffer<T>()
/// comment Constructs an empty buffer.
///
Buffer() {
this->value = std::vector<T>(0);
};
///
/// constructor Buffer<T>(size_t size)
/// comment Constructs a buffer with a value of `size`.
///
/// param size The size initially allocated for the buffer value.
///
Buffer(size_t size) {
this->value = std::vector<T>(size);
};
///
/// constructor Buffer<T>(const string& str)
/// comment Constructs a buffer from a string.
///
Buffer(const std::string& str) {
this->value = std::vector<T>(str.begin(), str.end());
};
///
/// constructor Buffer<T>(const Buffer& buf)
/// comment Constructs a buffer from another buffer.
///
Buffer(const Buffer& buf) {
this->value = buf.value;
};
///
/// method fill(const std::string str, size_t start = 0, size_t end = 0)
/// comment Fill the buffer with str from start to end.
///
/// return Buffer
/// comment Returns a new buffer containing the fill.
///
Buffer fill(const std::string str, size_t start = 0, size_t end = 0) {
auto size = this->value.size();
// don't allow start to be greater than the underlying buffer size.
if (start > size) {
start = size;
}
// if start is greater than zero, subtract that from the size.
if (start > 0) {
size -= start;
}
// if end is zero or greater than size, bring it back down to size.
if (end == 0 || end > size) {
end = size;
}
// construct a return buffer that duplicates the underlying buffer.
Buffer res(this->value.size());
res.value = this->value;
for (int i = start; i < end;) {
for (auto& ch : str) {
res.value[i++] = ch;
}
}
return res;
};
///
/// method toString()
/// comment Get the value of of the buffer as a string.
///
/// return std::string
///
std::string toString() {
std::string str(this->value.begin(), this->value.end());
return str;
};
///
/// method toString(const std::string& encoding, size_t start = 0, size_t end = 0)
/// comment Get the value of of the buffer as a string.
///
/// param encoding type (currently supports "base64" or "hex").
///
/// return std::string
///
std::string toString(const std::string& encoding, size_t start = 0, size_t end = 0) {
if (end == 0) {
end = this->value.size();
} else if (end < start) {
return "";
}
std::stringstream ss;
std::string substring(
this->value.begin() + start,
this->value.begin() + end
);
if (encoding == "base64") {
return Hyper::Sodium::Base64::encode(substring);
}
if (encoding == "hex") {
return Hyper::Sodium::Hex::encode(substring);
}
ss << substring;
return ss.str();
};
///
/// method length()
/// comment Get the size of the buffer in by bytes.
///
/// return int
///
int length() {
return this->value.size();
};
///
/// method concat(initializer_list<T>& list)
/// comment Concatinate this buffer with a list of buffers.
///
/// param list A list of buffers to be joined.
///
/// return Buffer
/// comment Returns a new combined buffer.
///
template<typename LT>
Buffer concat(const std::initializer_list<LT>& list) {
using std::end;
using std::begin;
unsigned size = 0;
Buffer cpy(size);
for (auto& buf : list) {
size += this->value.size() + buf.value.size();
this->value.reserve(size);
this->value.insert(end(this->value), begin(buf.value), end(buf.value));
}
cpy.value = this->value;
return cpy;
};
///
/// method copy(Buffer& target, size_t targetStart, size_t sourceStart, size_t sourceEnd)
/// comment Copies this buffer (or part of it) into another buffer.
///
/// param target A Buffer to copy into.
/// param targetStart The offset within target at which to begin writing.
/// param sourceStart The offset within buf from which to begin copying.
/// param sourceEnd The offset within buf at which to stop. copying (not inclusive).
///
/// return size_t
/// comment Returns how many bytes were written to this buffer.
///
size_t copy (Buffer& buf, size_t targetStart, size_t sourceStart, size_t sourceEnd) {
using std::end;
using std::begin;
auto& source = this->value;
auto& target = buf.value;
if (targetStart >= target.size() || sourceStart >= sourceEnd) {
return 0;
}
if (sourceStart > target.size()) {
throw EX_OUT_OF_RANGE;
}
if (sourceEnd - sourceStart > target.size() - targetStart) {
sourceEnd = sourceStart + target.size() - targetStart;
}
unsigned size = std::min(
std::min(sourceEnd - sourceStart, target.size() - targetStart),
target.size() - targetStart
);
if (buf.value.size() < size) {
buf.value.resize(size);
}
std::copy(
begin(source) + sourceStart,
begin(source) + sourceEnd,
begin(target) + targetStart
);
return size;
};
///
/// overload copy(Buffer& target)
///
/// return size_t
///
size_t copy (Buffer& buf) {
if (buf.value.size() == 0) {
return 0;
}
buf.value = std::vector<T> (this->value);
return buf.value.size();
};
///
/// overload copy(Buffer& target, size_t targetStart)
///
/// return size_t
///
size_t copy (Buffer& buf, size_t targetStart) {
return copy(buf, targetStart, 0, buf.value.size());
};
///
/// overload copy(Buffer& target, size_t targetStart, size_t sourceStart)
///
/// return size_t
///
size_t copy (Buffer& buf, size_t targetStart, size_t sourceStart) {
return copy(buf, targetStart, sourceStart, buf.value.size());
};
///
/// method slice(size_t from, size_t to)
/// comment provides a new buffer that represents a slice of this one.
///
/// param from Where the new Buffer will start. Default: 0.
/// param to Where the new Buffer will end (not inclusive). Default: buf.length.
///
/// return Buffer
///
Buffer slice(size_t from, size_t to) {
const auto size = this->value.size();
if (from > size || to > size) {
Buffer<T> buf;
return buf;
}
auto _from = std::begin(this->value) + from;
auto _to = std::begin(this->value) + to;
std::vector<T> value(_from, _to);
Buffer<T> buf(value.size());
buf.value = value;
return buf;
};
///
/// overload slice(size_t from)
/// return Buffer
///
Buffer slice(size_t from) {
return slice(from, this->value.size());
};
~Buffer () {
this->value.clear();
};
};
} // namespace Util
} // namespace Hyper
#endif