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#pragma once
#include <forstio/common.hpp>
#include <forstio/error.hpp>
#include <forstio/templates.hpp>
#include <cassert>
#include <algorithm>
#include <array>
#include <concepts>
#include <map>
#include <variant>
#include <vector>
#include "schema.hpp"
#include "schema_meta.hpp"
namespace saw {
namespace storage {
struct Default {};
}
namespace encode {
struct Native {
static constexpr string_literal name = "encode::Native";
};
}
template<typename Schema, typename Encode, typename Storage = storage::Default>
class codec;
/*
* Helper for the basic message container, so the class doesn't have to be
* specialized 10 times.
*/
template <class T> struct native_data_type;
template <>
struct native_data_type<schema::Primitive<schema::SignedInteger, 1>> {
using type = int8_t;
};
template <>
struct native_data_type<schema::Primitive<schema::SignedInteger, 2>> {
using type = int16_t;
};
template <>
struct native_data_type<schema::Primitive<schema::SignedInteger, 4>> {
using type = int32_t;
};
template <>
struct native_data_type<schema::Primitive<schema::SignedInteger, 8>> {
using type = int64_t;
};
template <>
struct native_data_type<schema::Primitive<schema::UnsignedInteger, 1>> {
using type = uint8_t;
};
template <>
struct native_data_type<schema::Primitive<schema::UnsignedInteger, 2>> {
using type = uint16_t;
};
template <>
struct native_data_type<schema::Primitive<schema::UnsignedInteger, 4>> {
using type = uint32_t;
};
template <>
struct native_data_type<schema::Primitive<schema::UnsignedInteger, 8>> {
using type = uint64_t;
};
template <>
struct native_data_type<schema::Primitive<schema::FloatingPoint, 4>> {
using type = float;
};
template <>
struct native_data_type<schema::Primitive<schema::FloatingPoint, 8>> {
using type = double;
};
template<typename T, typename Encoding = encode::Native, typename Storage = storage::Default>
class data {
private:
static_assert(always_false<T>, "Type not supported.");
};
template<>
class data<schema::Void, encode::Native> {
public:
using Schema = schema::Void;
using MetaSchema = schema::Void;
};
template<>
class data<schema::Bool, encode::Native> {
public:
using Schema = schema::Bool;
using MetaSchema = schema::Void;
private:
bool value_;
public:
data():value_{false}{}
data(data<MetaSchema, encode::Native>):value_{false}{}
SAW_DEFAULT_COPY(data);
SAW_DEFAULT_MOVE(data);
void set(bool val){
value_ = val;
}
bool get() const {
return value_;
}
};
template<typename T, size_t N, typename Storage>
class data<schema::Primitive<T,N>, encode::Native, Storage> {
public:
using Schema = schema::Primitive<T,N>;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
typename native_data_type<Schema>::type value_;
public:
data():value_{}{}
data(data<MetaSchema, encode::Native>):value_{}{}
SAW_DEFAULT_COPY(data);
SAW_DEFAULT_MOVE(data);
data(typename native_data_type<Schema>::type value__):
value_{std::move(value__)}{}
void set(typename native_data_type<Schema>::type val){
value_ = val;
}
typename native_data_type<Schema>::type get() const {return value_;}
data<Schema, encode::Native, Storage> operator*(const data<Schema, encode::Native, Storage>& rhs)const{
return {get() * rhs.get()};
}
data<Schema, encode::Native, Storage> operator/(const data<Schema, encode::Native, Storage>& rhs)const{
return {get() / rhs.get()};
}
data<Schema, encode::Native, Storage> operator+(const data<Schema, encode::Native, Storage>& rhs)const{
return {get() + rhs.get()};
}
data<Schema, encode::Native, Storage>& operator+=(const data<Schema, encode::Native, Storage>& rhs)const{
value_ += rhs.get();
return *this;
}
data<Schema, encode::Native, Storage>& operator-=(const data<Schema, encode::Native, Storage>& rhs)const{
value_ -= rhs.get();
return *this;
}
data<Schema, encode::Native, Storage> operator-(const data<Schema, encode::Native, Storage>& rhs)const{
return {get() - rhs.get()};
}
template<typename Enc>
bool operator==(const data<Schema, Enc>& rhs)const{
return get() == rhs.get();
}
template<typename Enc>
bool operator<(const data<Schema, Enc>& rhs) const {
return get() < rhs.get();
}
/**
* Casts
*/
template<typename Target>
data<Target, encode::Native, Storage> cast_to() const {
auto raw_to = static_cast<typename saw::native_data_type<Target>::type>(value_);
return {raw_to};
}
};
/**
* Mixed precision class for native formats
*/
template<typename TA, uint64_t NA, typename TB, uint64_t NB, typename Storage>
class data<schema::MixedPrecision<schema::Primitive<TA,NA>, schema::Primitive<TB,NB>>, encode::Native, Storage>{
public:
using Schema = schema::MixedPrecision<schema::Primitive<TA,NA>, schema::Primitive<TB,NB>>;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
data<typename Schema::StorageSchema, encode::Native, Storage> value_;
public:
data():value_{}{}
data(data<MetaSchema, encode::Native>):value_{}{}
data(typename saw::native_data_type<typename Schema::InterfaceSchema>::type val__):value_{static_cast<typename saw::native_data_type<typename Schema::StorageSchema>::type>(val__)}{}
typename saw::native_data_type<typename Schema::InterfaceSchema>::type get() const {
return value_.template cast_to<typename Schema::InterfaceSchema>().get();
}
data(const saw::data<typename Schema::InterfaceSchema, encode::Native, Storage>& val){
value_ = val.template cast_to<typename Schema::StorageSchema>();
}
void set(typename saw::native_data_type<typename Schema::InterfaceSchema>::type val){
value_.set(static_cast<typename Schema::StorageSchema>(val));
}
data<Schema, encode::Native, Storage> operator*(const data<Schema, encode::Native, Storage>& rhs) const {
using CalcType = typename native_data_type<typename Schema::InterfaceSchema>::type;
CalcType left = static_cast<CalcType>(value_.get());
CalcType right = static_cast<CalcType>(rhs.get());
return {left * right};
}
data<typename Schema::InterfaceSchema, encode::Native, Storage> operator*(const data<typename Schema::InterfaceSchema, encode::Native, Storage>& rhs) const {
using CalcType = typename native_data_type<typename Schema::InterfaceSchema>::type;
CalcType left = static_cast<CalcType>(value_.get());
CalcType right = rhs.get();
return {left * right};
}
data<typename Schema::InterfaceSchema, encode::Native, Storage> operator/(const data<Schema, encode::Native, Storage>& rhs)const{
using CalcType = typename native_data_type<typename Schema::InterfaceSchema>::type;
CalcType left = static_cast<CalcType>(value_.get());
CalcType right = static_cast<CalcType>(rhs.get());
return {left / right};
}
data<typename Schema::InterfaceSchema, encode::Native, Storage> operator+(const data<Schema, encode::Native, Storage>& rhs)const{
using CalcType = typename native_data_type<typename Schema::InterfaceSchema>::type;
CalcType left = static_cast<CalcType>(value_.get());
CalcType right = static_cast<CalcType>(rhs.get());
return {left + right};
}
data<Schema, encode::Native, Storage>& operator+=(const data<Schema, encode::Native, Storage>& rhs)const{
*this = *this + rhs.get();
return *this;
}
data<typename Schema::InterfaceSchema, encode::Native, Storage> operator-(const data<Schema, encode::Native, Storage>& rhs)const{
using CalcType = typename native_data_type<typename Schema::InterfaceSchema>::type;
CalcType left = static_cast<CalcType>(value_.get());
CalcType right = static_cast<CalcType>(rhs.get());
return {left - right};
}
data<Schema, encode::Native, Storage>& operator-=(const data<Schema, encode::Native, Storage>& rhs) const {
*this = *this - rhs.get();
return *this;
}
template<typename Enc>
bool operator==(const data<Schema, Enc, Storage>& rhs)const{
return get() == rhs.get();
}
template<typename Enc>
bool operator<(const data<Schema, Enc, Storage>& rhs) const {
return get() < rhs.get();
}
};
/*
template<typename T, typename N>
class data<schema::Ref<schema::Primitive<T,N>>, encode::Native, storage::Default {
public:
using Schema = schema::Ref<schema::Primitive<T,N>>;
private:
ref<typename native_data_type<schema::Primitive<T,N>>::type> orig_;
public:
data(ref<typename native_data_type<schema::Primitive<T,N>>::type> orig__):
orig_{orig__}
{}
/// @TODO what do we really want to return?
data<schema::Primitive<T,N>, encode::Native> operator+(const data<Schema, encode::Native>& rhs) const {
data<schema::Primitive<T,N>> prim;
return prim;
}
};
*/
/**
* Union type for native data classes
*/
template<typename... T, string_literal... literals>
class data<schema::Union<schema::Member<T, literals>...>, encode::Native, storage::Default> {
public:
using Schema = schema::Union<schema::Member<T,literals>...>;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
std::variant<data<T,encode::Native, storage::Default>...> value_;
template<uint64_t i = 0u>
struct init_helper {
static void apply(std::variant<data<T,encode::Native,storage::Default>...>& val, data<MetaSchema, encode::Native>&& init){
if( init.index() == i ){
auto& val_i = val.template init<i>();
val_i = {std::move(init.template get<i>())};
return;
}
if constexpr ( (i+1u) < sizeof...(T) ){
init_helper<i+1u>::apply(val, init);
}
}
};
public:
data() = default;
data(data<MetaSchema, encode::Native> init){
if constexpr ( 0u < sizeof...(T) ){
init_helper<0u>::apply(value_, std::move(init));
}
}
SAW_DEFAULT_COPY(data);
SAW_DEFAULT_MOVE(data);
template<string_literal lit>
void set(data<typename parameter_pack_type<parameter_key_pack_index<lit, literals...>::value, T...>::type, encode::Native, storage::Default> val){
value_ = std::move(val);
}
template<string_literal lit>
data<typename parameter_pack_type<parameter_key_pack_index<lit, literals...>::value, T...>::type, encode::Native, storage::Default>& init(){
value_.template emplace<parameter_key_pack_index<lit, literals...>::value>();
return get<lit>();
}
template<string_literal lit>
bool holds_alternative() const {
return (parameter_key_pack_index<lit, literals...>::value == value_.index());
}
template<string_literal lit>
data<typename parameter_pack_type<parameter_key_pack_index<lit, literals...>::value, T...>::type, encode::Native, storage::Default>& get(){
return std::get<parameter_key_pack_index<lit, literals...>::value>(value_);
}
template<string_literal lit>
const data<typename parameter_pack_type<parameter_key_pack_index<lit, literals...>::value, T...>::type, encode::Native, storage::Default>& get() const{
return std::get<parameter_key_pack_index<lit, literals...>::value>(value_);
}
};
/**
* Data class which represents a struct in the native format.
*/
template<typename... T, string_literal... literals>
class data<schema::Struct<schema::Member<T, literals>...>, encode::Native, storage::Default> {
public:
using Schema = schema::Struct<schema::Member<T,literals>...>;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
/**
* Tuple storing the member values.
*/
std::tuple<data<T,encode::Native, storage::Default>...> value_;
template<uint64_t i = 0u>
struct init_helper {
static void apply(std::tuple<data<T,encode::Native,storage::Default>...>& val, data<Schema, encode::Native>&& init){
auto& val_i = val.template get<i>();
auto& init_i = init.template get<i>();
val_i = {std::move(init_i)};
if constexpr ( (i+1u) < sizeof...(T) ){
init_helper<i+1u>::apply(val, init);
}
}
};
public:
/**
* Default constructor.
*/
data() = default;
data(data<MetaSchema, encode::Native> init){
if constexpr ( 0u < sizeof...(T) ){
init_helper<0u>::apply(value_, std::move(init));
}
}
SAW_DEFAULT_COPY(data);
SAW_DEFAULT_MOVE(data);
/**
* Get the member value based on the string_literal.
*/
template<string_literal literal>
data<
typename parameter_pack_type<
parameter_key_pack_index<
literal, literals...
>::value
, T...>::type
, encode::Native, storage::Default>& get(){
return std::get<parameter_key_pack_index<literal, literals...>::value>(value_);
}
/**
* Get the member value based on the string_literal.
*/
template<string_literal literal>
const data<
typename parameter_pack_type<
parameter_key_pack_index<
literal, literals...
>::value
, T...>::type
, encode::Native, storage::Default>& get() const {
return std::get<parameter_key_pack_index<literal, literals...>::value>(value_);
}
/**
* Return the amount of members.
*/
constexpr size_t size() const {
return sizeof...(T);
}
};
template<typename... T>
class data<schema::Tuple<T...>, encode::Native, storage::Default> {
public:
using Schema = schema::Tuple<T...>;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
std::tuple<data<T,encode::Native, storage::Default>...> value_;
template<uint64_t i = 0u>
struct init_helper {
static void apply(std::tuple<data<T,encode::Native,storage::Default>...>& val, data<MetaSchema, encode::Native>&& init){
auto& val_i = val.template get<i>();
auto& init_i = init.template get<i>();
val_i = {std::move(init_i)};
if constexpr ( (i+1u) < sizeof...(T) ){
init_helper<i+1u>::apply(val, init);
}
}
};
public:
data() = default;
data(data<MetaSchema, encode::Native> init){
if constexpr ( 0u < sizeof...(T) ){
init_helper<0u>::apply(value_, std::move(init));
}
}
SAW_DEFAULT_COPY(data);
SAW_DEFAULT_MOVE(data);
template<size_t i>
data<typename parameter_pack_type<i,T...>::type, encode::Native, storage::Default>& get(){
return std::get<i>(value_);
}
template<size_t i>
const data<typename parameter_pack_type<i,T...>::type, encode::Native, storage::Default>& get() const{
return std::get<i>(value_);
}
constexpr size_t size() const {
return sizeof...(T);
}
};
template<typename Key, typename Value>
class data<schema::Map<Key,Value>, encode::Native> {
public:
using Schema = schema::Map<Key,Value>;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
std::map<data<Key,encode::Native>, data<Value, encode::Native>> vals_;
public:
data() = default;
SAW_DEFAULT_COPY(data);
SAW_DEFAULT_MOVE(data);
data(data<MetaSchema, encode::Native> init){}
error_or<void> emplace(ref<data<Key, encode::Native>> key, ref<data<Value,encode::Native>> value){
auto insert = vals_.emplace(std::make_pair(std::move(key()), std::move(value())));
if(!insert.second){
return make_error<err::already_exists>();
}
return make_void();
}
error_or<void> erase(ref<data<Key,encode::Native>> key){
auto erase = vals_.erase(key());
if(erase == 0u){
return make_error<err::not_found>();
}
return make_void();
}
error_or<ptr<data<Value,encode::Native>>> find(ref<data<Value,encode::Native>> key){
auto find = vals_.find(key());
if(find == vals_.end()){
return make_error<err::not_found>();
}
return ptr<data<Value,encode::Native>>{find->second};
}
};
template<typename T, size_t Dim>
class data<schema::Array<T,Dim>, encode::Native, storage::Default> {
public:
using Schema = schema::Array<T,Dim>;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
// data<schema::FixedArray<schema::UInt64, Dim>> dims_;
std::array<uint64_t, Dim> dims_;
std::vector<data<T, encode::Native, storage::Default>> value_;
uint64_t get_full_size() const {
uint64_t s = 1;
for(uint64_t iter = 0; iter < Dim; ++iter){
assert(dims_.at(iter) > 0);
s *= dims_.at(iter);
}
return s;
}
public:
data():
value_{}
{
for(auto& iter : dims_){
iter = 0u;
}
}
SAW_DEFAULT_COPY(data);
SAW_DEFAULT_MOVE(data);
data(const std::array<uint64_t, Dim>& i):
dims_{i},
value_{}
{
value_.resize(get_full_size());
}
data(data<MetaSchema, encode::Native> init)
{
for(uint64_t i = 0; i < Dim; ++i){
dims_.at(i) = init.at(i).get();
}
value_.resize(get_full_size());
}
template<size_t i = 0>
error_or<void> add(saw::data<T,encode::Native, storage::Default> data){
/** @todo
* Generally the last dimension can always accept a element so to say.
* Changing the others would require moving data due to the stride changing.
* Since the last dimension doesn't affect the stride, we don't need reordering there.
* But I want a quick solution for one dimension so here we are.
*
* I can always ignore strides and use a stacked std::vector
* std::vector<std::vector<...>> and so on.
* But for now I'm keeping the strides. Smaller chunks of memory aren't to bad either
* though.
* I'll probably change it to the smaller chunks
*/
static_assert(Dim == 1, "Currently can't deal with higher dims");
static_assert(i < Dim, "Can't add to dimension. Index i larger than dimension size");
try {
value_.emplace_back(std::move(data));
}catch(const std::exception& e){
(void) e;
return make_error<err::out_of_memory>();
}
++dims_.at(i);
return void_t{};
}
template<std::integral... Dims>
data(Dims... size_):
data{{static_cast<uint64_t>(size_)...}}
{
static_assert(sizeof...(Dims)==Dim, "Argument size must be equal to the Dimension");
}
data<T, encode::Native, storage::Default>& at(const std::array<uint64_t, Dim>& ind){
return value_.at(this->get_flat_index(ind));
}
const data<T, encode::Native, storage::Default>& at(const std::array<uint64_t, Dim>& ind) const {
return value_.at(this->get_flat_index(ind));
}
template<std::integral... Dims>
data<T, encode::Native, storage::Default>& at(Dims... i){
return value_.at(this->get_flat_index(std::array<uint64_t, Dim>{static_cast<uint64_t>(i)...}));
}
template<std::integral... Dims>
const data<T, encode::Native, storage::Default>& at(Dims... i) const {
return value_.at(this->get_flat_index(std::array<uint64_t, Dim>{static_cast<uint64_t>(i)...}));
}
data<T,encode::Native, storage::Default>& at(const data<schema::FixedArray<schema::UInt64,Dim>>& i){
return value_.at(this->get_flat_index(i));
}
const data<T,encode::Native, storage::Default>& at(const data<schema::FixedArray<schema::UInt64,Dim>>& i)const{
return value_.at(this->get_flat_index(i));
}
std::size_t get_dim_size(uint64_t i) const {
return dims_.at(i);
}
size_t size() const { return value_.size();}
data<schema::FixedArray<schema::UInt64, Dim>> get_dims() const {
return {dims_};
}
private:
template<typename U>
uint64_t get_flat_index(const U& i) const {
static_assert(
std::is_same_v<U,data<schema::FixedArray<schema::UInt64,Dim>>> or
std::is_same_v<U,std::array<uint64_t,Dim>>,
"Unsupported type"
);
assert(value_.size() == get_full_size());
uint64_t s = 0;
uint64_t stride = 1;
for(uint64_t iter = 0; iter < Dim; ++iter){
uint64_t ind = [](auto val) -> uint64_t {
using V = std::decay_t<decltype(val)>;
if constexpr (std::is_same_v<V,data<schema::UInt64>>){
return val.get();
}else if constexpr (std::is_same_v<V, uint64_t>){
return val;
}else{
static_assert(always_false<V>, "Cases exhausted");
}
}(i.at(iter));
assert(ind < dims_.at(iter));
s += ind * stride;
stride *= dims_.at(iter);
}
return s;
}
};
template<typename T, uint64_t... D>
class data<schema::FixedArray<T,D...>, encode::Native, storage::Default> {
public:
using Schema = schema::FixedArray<T,D...>;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
//using inner_type = std::array<data<T, encode::Native, storage::Default>, multiply_helper<Dims...>::value>;
//std::unique_ptr<inner_type> value_;
using ArrayT = std::array<data<T, encode::Native, storage::Default>, ct_multiply<uint64_t, D...>::value>;
ArrayT value_;
public:
data() = default;
data(data<MetaSchema, encode::Native>){}
data(const std::array<data<T, encode::Native>, ct_multiply<uint64_t,D...>::value>& value__):
value_{value__}
{}
data<T, encode::Native, storage::Default>& at(const std::array<uint64_t, sizeof...(D)>& ind){
return value_.at(this->get_flat_index(ind));
}
const data<T, encode::Native, storage::Default>& at(const std::array<uint64_t, sizeof...(D)>& ind) const {
return value_.at(this->get_flat_index(ind));
}
template<std::integral... Dims>
data<T, encode::Native, storage::Default>& at(Dims... i) {
return value_.at(this->get_flat_index({i...}));
}
template<std::integral... Dims>
const data<T, encode::Native, storage::Default>& at(Dims... i) const {
return value_.at(this->get_flat_index({i...}));
}
data<T, encode::Native, storage::Default>& at(const data<schema::FixedArray<schema::UInt64, sizeof...(D)>>& i){
return value_.at(this->get_flat_index(i));
}
const data<T, encode::Native, storage::Default>& at(const data<schema::FixedArray<schema::UInt64, sizeof...(D)>>& i)const{
return value_.at(this->get_flat_index(i));
}
template<uint64_t i>
uint64_t get_dim_size() const {
return parameter_pack_value<i, uint64_t, D...>::value;
}
data<schema::FixedArray<schema::UInt64, sizeof...(D)>> get_dims() const {
return {std::array<uint64_t, sizeof...(D)>{D...}};
}
private:
uint64_t get_flat_index(const std::array<uint64_t, sizeof...(D)>& i) const {
uint64_t s = 0;
uint64_t stride = 1;
constexpr static std::array<uint64_t, sizeof...(D)> dims_{D...};
for(uint64_t iter = 0; iter < sizeof...(D); ++iter){
assert(i.at(iter) < dims_.at(iter));
s += i.at(iter) * stride;
stride *= dims_.at(iter);
}
return s;
}
};
/**
* Data type representing string.
*/
template<>
class data<schema::String, encode::Native, storage::Default> {
public:
using Schema = schema::String;
using MetaSchema = typename meta_schema<Schema>::MetaSchema;
private:
/**
* The native way to represent strings.
*/
std::string value_;
public:
data() = default;
data(uint64_t size__){
value_.resize(size__);
}
data(data<MetaSchema, encode::Native> init){
value_.resize(init.get());
}
SAW_DEFAULT_COPY(data);
SAW_DEFAULT_MOVE(data);
data(std::string value__):value_{std::move(value__)}{}
/**
* Return the length of the string.
*/
std::size_t size() const {
return value_.size();
}
/**
* set the inner string to str.
*/
void set(std::string str){
value_ = std::move(str);
}
/**
* Get a char reference at position i.
*/
char& at(size_t i) {
return value_.at(i);
}
/**
* Get a char reference at position i.
*/
const char& at(size_t i) const {
return value_.at(i);
}
char get_at(size_t i) const{
return value_.at(i);
}
void set_at(size_t i, char val){
value_.at(i) = val;
}
std::string_view stl_view() {
return value_;
}
template<typename Enc2>
bool operator==(const data<schema::String, Enc2>& rhs){
if(size() != rhs.size()){
return false;
}
bool eq = true;
for(uint64_t i = 0; i < size(); ++i){
eq = eq && (get_at(i) == rhs.get_at(i));
}
return eq;
}
/**
* Check if a string_view is equal to this type.
*/
bool operator==(const std::string_view& val)const{
return value_ == val;
}
};
}
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