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Copy pathdatapacking.h
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322 lines (297 loc) · 11.4 KB
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#pragma once
#include <stdint.h>
#include <vector>
#include <array>
#include <string>
#include <stdexcept>
#include <algorithm>
#include <cpputils/templateutils.h>
// todo: add 'P copybytes([int n, ]range-object)' which copies (n or range.size()) bytes
// to range, and returns the ptr to the next item to be written.
template <typename, typename = void>
constexpr bool has_op_difference_v{};
template <typename T>
constexpr bool has_op_difference_v<
T,
std::void_t< decltype(std::declval<T>()-std::declval<T>()) >
> = true;
template<typename P>
struct packer_base {
P p;
P last;
packer_base(P first, P last)
: p(first), last(last)
{
}
bool eof() const
{
return p == last;
}
void require(int n)
{
if (!have(n))
throw std::runtime_error("not enough data");
}
bool have(int n)
{
// I used to check for difference_type here, unfortunately since c++20
// backinserter now has a difference_type, but no operate-, so checking for that now.
if constexpr (has_op_difference_v<P>)
return n <= last-p;
// with output iterator i can't check if there is enough space,
// usually this is the case with the back_insert_iterator.
return true;
}
void skip(int n)
{
require(n);
p += n;
}
};
template<typename P>
struct unchecked_unpacker : packer_base<P> {
unchecked_unpacker(P first, P last)
: packer_base<P>(first, last)
{
}
uint8_t get8()
{
return *(this->p)++;
}
uint16_t get16le()
{
uint8_t lo = get8();
uint8_t hi = get8();
return (uint16_t(hi)<<8) | lo;
}
uint32_t get24le()
{
uint16_t lo = get16le();
uint8_t hi = get8();
return (uint32_t(hi)<<16) | lo;
}
uint32_t get32le()
{
uint16_t lo = get16le();
uint16_t hi = get16le();
return (uint32_t(hi)<<16) | lo;
}
uint64_t get64le()
{
uint32_t lo = get32le();
uint32_t hi = get32le();
return (uint64_t(hi)<<32) | lo;
}
uint16_t get16be()
{
uint8_t hi = get8();
uint8_t lo = get8();
return (uint16_t(hi)<<8) | lo;
}
uint32_t get24be()
{
uint8_t hi = get8();
uint16_t lo = get16be();
return (uint32_t(hi)<<8) | lo;
}
uint32_t get32be()
{
uint16_t hi = get16be();
uint16_t lo = get16be();
return (uint32_t(hi)<<16) | lo;
}
uint64_t get64be()
{
uint32_t hi = get32be();
uint32_t lo = get32be();
return (uint64_t(hi)<<32) | lo;
}
std::string getstr(int n) { this->p += n; return std::string(this->p-n, this->p); }
std::string getzstr() {
auto z = std::find(unchecked_unpacker<P>::p, unchecked_unpacker<P>::last, 0);
auto str = unchecked_unpacker<P>::getstr(z-unchecked_unpacker<P>::p);
unchecked_unpacker<P>::skip(1);
return str;
}
std::vector<uint8_t> getbytes(int n) { this->p += n; return std::vector<uint8_t>(this->p-n, this->p); }
const uint8_t *getdata(int n) { this->p += n; return &*(this->p-n); }
};
template<typename P>
struct unpacker : unchecked_unpacker<P> {
unpacker(P first, P last)
: unchecked_unpacker<P>(first, last)
{
}
uint8_t get8() { this->require(1); return unchecked_unpacker<P>::get8(); }
uint16_t get16le() { this->require(2); return unchecked_unpacker<P>::get16le(); }
uint32_t get24le() { this->require(3); return unchecked_unpacker<P>::get24le(); }
uint32_t get32le() { this->require(4); return unchecked_unpacker<P>::get32le(); }
uint64_t get64le() { this->require(8); return unchecked_unpacker<P>::get64le(); }
uint16_t get16be() { this->require(2); return unchecked_unpacker<P>::get16be(); }
uint32_t get24be() { this->require(3); return unchecked_unpacker<P>::get24be(); }
uint32_t get32be() { this->require(4); return unchecked_unpacker<P>::get32be(); }
uint64_t get64be() { this->require(8); return unchecked_unpacker<P>::get64be(); }
std::string getstr(int n) { this->require(n); return unchecked_unpacker<P>::getstr(n); }
std::string getzstr() {
auto z = std::find(unchecked_unpacker<P>::p, unchecked_unpacker<P>::last, 0);
if (z==unchecked_unpacker<P>::last)
throw std::runtime_error("missing nul after ztring");
auto str = unchecked_unpacker<P>::getstr(z-unchecked_unpacker<P>::p);
unchecked_unpacker<P>::skip(1);
return str;
}
std::vector<uint8_t> getbytes(int n) { this->require(n); return unchecked_unpacker<P>::getbytes(n); }
const uint8_t *getdata(int n) { this->require(n); return unchecked_unpacker<P>::getdata(n); }
};
template<typename CONTAINER, typename dummy = std::enable_if_t<is_container_v<CONTAINER> > >
auto makeunpacker(CONTAINER& v)
{
return unpacker(v.begin(), v.end());
}
template<typename P>
auto makeunpacker(P first, P last)
{
return unpacker(first, last);
}
template<typename P>
struct unchecked_packer : packer_base<P> {
unchecked_packer(P first, P last)
: packer_base<P>(first, last)
{
}
void set8(uint8_t value)
{
*(this->p)++ = value;
}
void set16le(uint16_t value)
{
set8(value);
set8(value>>8);
}
void set24le(uint32_t value)
{
set16le(value);
set8(value>>16);
}
void set32le(uint32_t value)
{
set16le(value);
set16le(value>>16);
}
void set64le(uint64_t value)
{
set32le(value);
set32le(value>>32);
}
void set16be(uint16_t value)
{
set8(value>>8);
set8(value);
}
void set24be(uint32_t value)
{
set8(value>>16);
set16be(value);
}
void set32be(uint32_t value)
{
set16be(value>>16);
set16be(value);
}
void set64be(uint64_t value)
{
set32be(value>>32);
set32be(value);
}
void setstr(const std::string& txt) { std::copy(txt.begin(), txt.end(), this->p); this->p += txt.size(); }
void setzstr(const std::string& txt) { setstr(txt); set8(0); }
template<typename CONTAINER, typename dummy = std::enable_if_t<is_container_v<CONTAINER> > >
void setbytes(const CONTAINER& data) { std::copy(data.begin(), data.end(), this->p); this->p += data.size(); }
template<typename Q>
void setbytes(Q first, Q last) { std::copy(first, last, this->p); this->p += std::distance(first, last); }
};
template<typename P>
struct packer : unchecked_packer<P> {
packer(P first, P last)
: unchecked_packer<P>(first, last)
{
}
void set8(uint8_t value) { this->require(1); unchecked_packer<P>::set8(value); }
void set16le(uint16_t value) { this->require(2); unchecked_packer<P>::set16le(value); }
void set24le(uint32_t value) { this->require(3); unchecked_packer<P>::set24le(value); }
void set32le(uint32_t value) { this->require(4); unchecked_packer<P>::set32le(value); }
void set64le(uint64_t value) { this->require(8); unchecked_packer<P>::set64le(value); }
void set16be(uint16_t value) { this->require(2); unchecked_packer<P>::set16be(value); }
void set24be(uint32_t value) { this->require(3); unchecked_packer<P>::set24be(value); }
void set32be(uint32_t value) { this->require(4); unchecked_packer<P>::set32be(value); }
void set64be(uint64_t value) { this->require(8); unchecked_packer<P>::set64be(value); }
void setstr(const std::string& txt) { this->require(txt.size()); unchecked_packer<P>::setstr(txt); }
void setzstr(const std::string& txt) { setstr(txt); set8(0); }
template<typename CONTAINER, typename dummy = std::enable_if_t<is_container_v<CONTAINER> > >
void setbytes(const CONTAINER& data) { this->require(data.size()); unchecked_packer<P>::setbytes(data); }
template<typename Q>
void setbytes(Q first, Q last) { this->require(std::distance(first, last)); unchecked_packer<P>::setbytes(first, last); }
};
template<typename CONTAINER, typename dummy = std::enable_if_t<is_container_v<CONTAINER> > >
auto makepacker(CONTAINER& v)
{
return packer(v.begin(), v.end());
}
template<typename P>
auto makepacker(P first, P last)
{
return packer(first, last);
}
/*
* unchecked packer
*/
struct unchecked {
template<typename P>
static uint8_t get8(P p) { return unchecked_unpacker<P>(p, p).get8(); }
template<typename P>
static uint16_t get16le(P p) { return unchecked_unpacker<P>(p, p).get16le(); }
template<typename P>
static uint32_t get24le(P p) { return unchecked_unpacker<P>(p, p).get24le(); }
template<typename P>
static uint32_t get32le(P p) { return unchecked_unpacker<P>(p, p).get32le(); }
template<typename P>
static uint64_t get64le(P p) { return unchecked_unpacker<P>(p, p).get64le(); }
template<typename P>
static uint16_t get16be(P p) { return unchecked_unpacker<P>(p, p).get16be(); }
template<typename P>
static uint32_t get24be(P p) { return unchecked_unpacker<P>(p, p).get24be(); }
template<typename P>
static uint32_t get32be(P p) { return unchecked_unpacker<P>(p, p).get32be(); }
template<typename P>
static uint64_t get64be(P p) { return unchecked_unpacker<P>(p, p).get64be(); }
template<typename P>
static std::string getstr(P p, size_t n) { return unchecked_unpacker<P>(p, p).getstr(n); }
template<typename P>
static std::string getzstr(P p) { return unchecked_unpacker<P>(p, p).getzstr(); }
template<typename P>
static std::vector<uint8_t> getbytes(P p, size_t n) { return unchecked_unpacker<P>(p, p).getbytes(n); }
template<typename P>
static void set8(P p, uint8_t x) { unchecked_packer<P>(p, p).set8(x); }
template<typename P>
static void set16le(P p, uint16_t x) { unchecked_packer<P>(p, p).set16le(x); }
template<typename P>
static void set24le(P p, uint32_t x) { unchecked_packer<P>(p, p).set24le(x); }
template<typename P>
static void set32le(P p, uint32_t x) { unchecked_packer<P>(p, p).set32le(x); }
template<typename P>
static void set64le(P p, uint64_t x) { unchecked_packer<P>(p, p).set64le(x); }
template<typename P>
static void set16be(P p, uint16_t x) { unchecked_packer<P>(p, p).set16be(x); }
template<typename P>
static void set24be(P p, uint32_t x) { unchecked_packer<P>(p, p).set24be(x); }
template<typename P>
static void set32be(P p, uint32_t x) { unchecked_packer<P>(p, p).set32be(x); }
template<typename P>
static void set64be(P p, uint64_t x) { unchecked_packer<P>(p, p).set64be(x); }
template<typename P>
static void setstr(P p, const std::string& txt) { unchecked_packer<P>(p, p).setstr(txt); }
template<typename P>
static void setzstr(P p, const std::string& txt) { unchecked_packer<P>(p, p).setzstr(txt); }
template<typename P, typename CONTAINER, typename dummy = std::enable_if_t<is_container_v<CONTAINER> > >
static void setbytes(P p, const CONTAINER& data) { unchecked_packer<P>(p, p).setbytes(data); }
};