react-native-vision-camera/package/cpp/JSITypedArray.h
Marc Rousavy 036856aed5
chore: Move everything into package/ (#1745)
* Move everything into package

* Remove .DS_Store

* Move scripts and eslintrc to package

* Create CODE_OF_CONDUCT.md

* fix some links

* Update all links (I think)

* Update generated docs

* Update notice-yarn-changes.yml

* Update validate-android.yml

* Update validate-cpp.yml

* Delete notice-yarn-changes.yml

* Update validate-cpp.yml

* Update validate-cpp.yml

* Update validate-js.yml

* Update validate-cpp.yml

* Update validate-cpp.yml

* wrong c++ style

* Revert "wrong c++ style"

This reverts commit 55a3575589c6f13f8b05134d83384f55e0601ab2.
2023-09-01 18:15:28 +02:00

143 lines
4.6 KiB
C++

//
// JSITypedArray.h
// VisionCamera
//
// Created by Marc Rousavy on 21.02.23.
// Copyright © 2023 mrousavy. All rights reserved.
//
// Copied & Adapted from
// https://github.com/expo/expo/blob/main/packages/expo-gl/common/EXTypedArrayApi.h Credits to Expo
#pragma once
#include <jsi/jsi.h>
#include <utility>
#include <vector>
namespace jsi = facebook::jsi;
namespace vision {
enum class TypedArrayKind {
Int8Array,
Int16Array,
Int32Array,
Uint8Array,
Uint8ClampedArray,
Uint16Array,
Uint32Array,
Float32Array,
Float64Array,
};
template <TypedArrayKind T> class TypedArray;
template <TypedArrayKind T> struct typedArrayTypeMap;
template <> struct typedArrayTypeMap<TypedArrayKind::Int8Array> {
typedef int8_t type;
};
template <> struct typedArrayTypeMap<TypedArrayKind::Int16Array> {
typedef int16_t type;
};
template <> struct typedArrayTypeMap<TypedArrayKind::Int32Array> {
typedef int32_t type;
};
template <> struct typedArrayTypeMap<TypedArrayKind::Uint8Array> {
typedef uint8_t type;
};
template <> struct typedArrayTypeMap<TypedArrayKind::Uint8ClampedArray> {
typedef uint8_t type;
};
template <> struct typedArrayTypeMap<TypedArrayKind::Uint16Array> {
typedef uint16_t type;
};
template <> struct typedArrayTypeMap<TypedArrayKind::Uint32Array> {
typedef uint32_t type;
};
template <> struct typedArrayTypeMap<TypedArrayKind::Float32Array> {
typedef float type;
};
template <> struct typedArrayTypeMap<TypedArrayKind::Float64Array> {
typedef double type;
};
void invalidateArrayBufferCache(jsi::Runtime& runtime);
class TypedArrayBase : public jsi::Object {
public:
template <TypedArrayKind T> using ContentType = typename typedArrayTypeMap<T>::type;
TypedArrayBase(jsi::Runtime&, size_t, TypedArrayKind);
TypedArrayBase(jsi::Runtime&, const jsi::Object&);
TypedArrayBase(TypedArrayBase&&) = default;
TypedArrayBase& operator=(TypedArrayBase&&) = default;
TypedArrayKind getKind(jsi::Runtime& runtime) const;
template <TypedArrayKind T> TypedArray<T> get(jsi::Runtime& runtime) const&;
template <TypedArrayKind T> TypedArray<T> get(jsi::Runtime& runtime) &&;
template <TypedArrayKind T> TypedArray<T> as(jsi::Runtime& runtime) const&;
template <TypedArrayKind T> TypedArray<T> as(jsi::Runtime& runtime) &&;
size_t size(jsi::Runtime& runtime) const;
size_t length(jsi::Runtime& runtime) const;
size_t byteLength(jsi::Runtime& runtime) const;
size_t byteOffset(jsi::Runtime& runtime) const;
bool hasBuffer(jsi::Runtime& runtime) const;
std::vector<uint8_t> toVector(jsi::Runtime& runtime);
jsi::ArrayBuffer getBuffer(jsi::Runtime& runtime) const;
private:
template <TypedArrayKind> friend class TypedArray;
};
bool isTypedArray(jsi::Runtime& runtime, const jsi::Object& jsObj);
TypedArrayBase getTypedArray(jsi::Runtime& runtime, const jsi::Object& jsObj);
std::vector<uint8_t> arrayBufferToVector(jsi::Runtime& runtime, jsi::Object& jsObj);
void arrayBufferUpdate(jsi::Runtime& runtime, jsi::ArrayBuffer& buffer, std::vector<uint8_t> data,
size_t offset);
template <TypedArrayKind T> class TypedArray : public TypedArrayBase {
public:
explicit TypedArray(TypedArrayBase&& base);
TypedArray(jsi::Runtime& runtime, size_t size);
TypedArray(jsi::Runtime& runtime, std::vector<ContentType<T>> data);
TypedArray(TypedArray&&) = default;
TypedArray& operator=(TypedArray&&) = default;
std::vector<ContentType<T>> toVector(jsi::Runtime& runtime);
void update(jsi::Runtime& runtime, const std::vector<ContentType<T>>& data);
void updateUnsafe(jsi::Runtime& runtime, ContentType<T>* data, size_t length);
uint8_t* data(jsi::Runtime& runtime);
};
template <TypedArrayKind T> TypedArray<T> TypedArrayBase::get(jsi::Runtime& runtime) const& {
assert(getKind(runtime) == T);
(void)runtime; // when assert is disabled we need to mark this as used
return TypedArray<T>(jsi::Value(runtime, jsi::Value(runtime, *this).asObject(runtime)));
}
template <TypedArrayKind T> TypedArray<T> TypedArrayBase::get(jsi::Runtime& runtime) && {
assert(getKind(runtime) == T);
(void)runtime; // when assert is disabled we need to mark this as used
return TypedArray<T>(std::move(*this));
}
template <TypedArrayKind T> TypedArray<T> TypedArrayBase::as(jsi::Runtime& runtime) const& {
if (getKind(runtime) != T) {
throw jsi::JSError(runtime, "Object is not a TypedArray");
}
return get<T>(runtime);
}
template <TypedArrayKind T> TypedArray<T> TypedArrayBase::as(jsi::Runtime& runtime) && {
if (getKind(runtime) != T) {
throw jsi::JSError(runtime, "Object is not a TypedArray");
}
return std::move(*this).get<T>(runtime);
}
} // namespace vision