//
// FrameHostObject.m
// VisionCamera
//
// Created by Marc Rousavy on 22.03.21.
// Copyright © 2021 mrousavy. All rights reserved.
//
#import "FrameHostObject.h"
#import "MutableRawBuffer.h"
#import "UIImageOrientation+descriptor.h"
#import "WKTJsiHostObject.h"
#import <Foundation/Foundation.h>
#import <jsi/jsi.h>
std::vector<jsi::PropNameID> FrameHostObject::getPropertyNames(jsi::Runtime& rt) {
std::vector<jsi::PropNameID> result;
// Ref Management
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("isValid")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("incrementRefCount")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("decrementRefCount")));
if (frame != nil && frame.isValid) {
// Frame Properties
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("width")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("height")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("bytesPerRow")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("planesCount")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("orientation")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("isMirrored")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("timestamp")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("pixelFormat")));
// Conversion
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("toString")));
result.push_back(jsi::PropNameID::forUtf8(rt, std::string("toArrayBuffer")));
}
return result;
}
Frame* FrameHostObject::getFrame() {
Frame* frame = this->frame;
if (frame == nil || !frame.isValid) {
throw std::runtime_error("Frame is already closed! "
"Are you trying to access the Image data outside of a Frame Processor's lifetime?\n"
"- If you want to use `console.log(frame)`, use `console.log(frame.toString())` instead.\n"
"- If you want to do async processing, use `runAsync(...)` instead.\n"
"- If you want to use runOnJS, increment it's ref-count: `frame.incrementRefCount()`");
}
return frame;
}
#define JSI_FUNC [=](jsi::Runtime & runtime, const jsi::Value& thisValue, const jsi::Value* arguments, size_t count) -> jsi::Value
jsi::Value FrameHostObject::get(jsi::Runtime& runtime, const jsi::PropNameID& propName) {
auto name = propName.utf8(runtime);
if (name == "toString") {
auto toString = JSI_FUNC {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
// Print debug description (width, height)
Frame* frame = this->getFrame();
NSMutableString* string = [NSMutableString stringWithFormat:@"%lu x %lu %@ Frame", frame.width, frame.height, frame.pixelFormat];
return jsi::String::createFromUtf8(runtime, string.UTF8String);
};
return jsi::Function::createFromHostFunction(runtime, jsi::PropNameID::forUtf8(runtime, "toString"), 0, toString);
}
if (name == "incrementRefCount") {
auto incrementRefCount = JSI_FUNC {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
// Increment our self-counted ref count by one.
_refCount++;
return jsi::Value::undefined();
};
return jsi::Function::createFromHostFunction(runtime, jsi::PropNameID::forUtf8(runtime, "incrementRefCount"), 0, incrementRefCount);
}
if (name == "decrementRefCount") {
auto decrementRefCount = JSI_FUNC {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
// Decrement our self-counted ref count by one.
_refCount--;
if (_refCount < 1) {
// ARC will then delete the Frame and the underlying Frame Buffer.
this->frame = nil;
}
return jsi::Value::undefined();
};
return jsi::Function::createFromHostFunction(runtime, jsi::PropNameID::forUtf8(runtime, "decrementRefCount"), 0, decrementRefCount);
}
if (name == "toArrayBuffer") {
auto toArrayBuffer = JSI_FUNC {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
// Get CPU readable Pixel Buffer from Frame and write it to a jsi::ArrayBuffer
Frame* frame = this->getFrame();
auto pixelBuffer = CMSampleBufferGetImageBuffer(frame.buffer);
auto bytesPerRow = CVPixelBufferGetBytesPerRow(pixelBuffer);
auto height = CVPixelBufferGetHeight(pixelBuffer);
auto arraySize = bytesPerRow * height;
static constexpr auto ARRAYBUFFER_CACHE_PROP_NAME = "__frameArrayBufferCache";
if (!runtime.global().hasProperty(runtime, ARRAYBUFFER_CACHE_PROP_NAME)) {
auto mutableBuffer = std::make_shared<vision::MutableRawBuffer>(arraySize);
jsi::ArrayBuffer arrayBuffer(runtime, mutableBuffer);
runtime.global().setProperty(runtime, ARRAYBUFFER_CACHE_PROP_NAME, std::move(arrayBuffer));
}
auto arrayBufferCache = runtime.global().getPropertyAsObject(runtime, ARRAYBUFFER_CACHE_PROP_NAME);
auto arrayBuffer = arrayBufferCache.getArrayBuffer(runtime);
if (arrayBuffer.size(runtime) != arraySize) {
auto mutableBuffer = std::make_shared<vision::MutableRawBuffer>(arraySize);
arrayBuffer = jsi::ArrayBuffer(runtime, mutableBuffer);
runtime.global().setProperty(runtime, ARRAYBUFFER_CACHE_PROP_NAME, arrayBuffer);
}
CVPixelBufferLockBaseAddress(pixelBuffer, kCVPixelBufferLock_ReadOnly);
auto buffer = (uint8_t*)CVPixelBufferGetBaseAddress(pixelBuffer);
memcpy(arrayBuffer.data(runtime), buffer, arraySize);
CVPixelBufferUnlockBaseAddress(pixelBuffer, kCVPixelBufferLock_ReadOnly);
return arrayBuffer;
};
return jsi::Function::createFromHostFunction(runtime, jsi::PropNameID::forUtf8(runtime, "toArrayBuffer"), 0, toArrayBuffer);
}
if (name == "isValid") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
// unsafely access the Frame and try to see if it's valid
Frame* frame = this->frame;
return jsi::Value(frame != nil && frame.isValid);
}
if (name == "width") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
Frame* frame = this->getFrame();
return jsi::Value((double)frame.width);
}
if (name == "height") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
Frame* frame = this->getFrame();
return jsi::Value((double)frame.height);
}
if (name == "orientation") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
Frame* frame = this->getFrame();
NSString* orientation = [NSString stringWithParsed:frame.orientation];
return jsi::String::createFromUtf8(runtime, orientation.UTF8String);
}
if (name == "isMirrored") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
Frame* frame = this->getFrame();
return jsi::Value(frame.isMirrored);
}
if (name == "timestamp") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
Frame* frame = this->getFrame();
return jsi::Value(frame.timestamp);
}
if (name == "pixelFormat") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
Frame* frame = this->getFrame();
return jsi::String::createFromUtf8(runtime, frame.pixelFormat.UTF8String);
}
if (name == "bytesPerRow") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
Frame* frame = this->getFrame();
return jsi::Value((double)frame.bytesPerRow);
}
if (name == "planesCount") {
// Lock Frame so it cannot be deallocated while we access it
std::lock_guard lock(this->_mutex);
Frame* frame = this->getFrame();
return jsi::Value((double)frame.planesCount);
}
// fallback to base implementation
return HostObject::get(runtime, propName);
}
#undef JSI_FUNC