跳到主要内容
新架构实战课 实操 + 基建 + 原理全维度包揽,抢先掌握 React Native 新架构精髓 立即查看 >Version: Next

Supporting Custom C++ Types

注意

这个文档仍然是实验性的,随着我们的迭代,细节会有变化。欢迎在工作小组内的讨论中分享你的反馈。

此外,它还包含几个手动步骤。请注意新架构尚未稳定下来,最终的开发者体验会继续迭代改善。我们正在努力开发工具、模板和库,以帮助你在新架构上快速入门,而不需要经历整个设置过程。

By default C++ Turbo Native Modules support bridging functionality for most std:: standard types.

If you want to add support for new / custom types in your app / library, you only need to provide the necessary bridging header file.

This guide continues the previous C++ Turbo Native Modules section.

示例:Int64

C++ Turbo Native Modules don't support int64_t numbers yet - because JavaScript doesn't support numbers greater 2^53.

We can't represent numbers > 2^53 as JavaScript number's - but we can represent them as JavaScript string's and automatically convert (aka. bridge) them to C++ int64_t's by creating a custom Bridging header file called Int64.h in the tm folder:

#pragma once

#include <react/bridging/Bridging.h>

namespace facebook::react {

template <>
struct Bridging<int64_t> {
static int64_t fromJs(jsi::Runtime &rt, const jsi::String &value) {
try {
size_t pos;
auto str = value.utf8(rt);
auto num = std::stoll(str, &pos);
if (pos != str.size()) {
throw std::invalid_argument("Invalid number"); // don't support alphanumeric strings
}
return num;
} catch (const std::logic_error &e) {
throw jsi::JSError(rt, e.what());
}
}

static jsi::String toJs(jsi::Runtime &rt, int64_t value) {
return bridging::toJs(rt, std::to_string(value));
}
};

} // namespace facebook::react

The key components for your custom bridging header are:

  • Explicit specialization of the Bridging struct for your custom type, int64_t in this case
  • A fromJs function to convert from jsi:: types to your custom type
  • A toJS function to convert from your custom type to jsi: types

Omitting either fromJS or toJS would make you bridging header either readonly or writeonly.

Now you can add the following function to your JavaScript spec:

NativeSampleModule.ts
   // ...
readonly cubicRoot: (input: string) => number;
// ..

Declare it in your NativeSampleModule.h file and include the Int64.h header file:

//...
#include "Int64.h"
//...
int32_t cubicRoot(jsi::Runtime& rt, int64_t input);

And implement it in NativeSampleModule.cpp:

//...
#include <cmath>
//...
int32_t NativeSampleModule::cubicRoot(jsi::Runtime& rt, int64_t input) {
return std::cbrt(input);
}

In your app you can call this new native function via:

<Section title="Cxx TurboModule">
NativeSampleModule.cubicRoot(...) ={' '}
{JSON.stringify(
NativeSampleModule.cubicRoot('9223372036854775807'),
)}
</Section>

which should return 2097152.

任意自定义类型

Similar to the example above you can now write custom bridging functionality for any custom C++ type you want to expose to react-native. E.g., you can add support for folly::StringPiece, QString, boost::filesystem::path, absl::optional or any other type you need to support in your C++ Turbo Native Modules.

Path.h
#pragma once

#include <react/bridging/Bridging.h>
#include <boost/filesystem.hpp>

namespace facebook::react {

template<>
struct Bridging<boost::filesystem::path> {
static boost::filesystem::path fromJs(jsi::Runtime& rt, const std::string& value) { // auto-bridge from jsi::String to std::string
return boost::filesystem::path(value);
}

static jsi::String toJs(jsi::Runtime& rt, boost::filesystem::path value) {
return bridging::toJs(rt, value.string());
}
};

} // namespace facebook::react

Custom structs

You can use the same approach for you custom types in JavaScript such as this one:

export type CustomType = {
key: string,
enabled: boolean,
time?: number,
};

which can be exposed to your C++ Turbo Native Module via

NativeSampleModule.ts
   // ...
readonly passCustomType: (input: CustomType) => CustomType;
// ..

Manually typed

To use this custom type in C++, you need to define your custom Struct and bridging function e.g., directly in NativeSampleModule.h:

struct CustomType {
std::string key;
bool enabled;
std::optional<int32_t> time;
};

template <>
struct Bridging<CustomType> {
static CustomType fromJs(
jsi::Runtime &rt,
const jsi::Object &value,
const std::shared_ptr<CallInvoker> &jsInvoker) {
return CustomType{
bridging::fromJs<std::string>(
rt, value.getProperty(rt, "key"), jsInvoker),
bridging::fromJs<bool>(
rt, value.getProperty(rt, "enabled"), jsInvoker),
bridging::fromJs<std::optional<int32_t>>(
rt, value.getProperty(rt, "time"), jsInvoker)};
}

static jsi::Object toJs(jsi::Runtime &rt, const CustomType &value) {
auto result = facebook::jsi::Object(rt);
result.setProperty(rt, "key", bridging::toJs(rt, value.key));
result.setProperty(rt, "enabled", bridging::toJs(rt, value.enabled));
if (value.time) {
result.setProperty(rt, "time", bridging::toJs(rt, value.time.value()));
}
return result;
}
};

Declare it in your NativeSampleModule.h file:

  CustomType passCustomType(jsi::Runtime& rt, CustomType input);

Implement it in NativeSampleModule.cpp:

CustomType NativeSampleModule::passCustomType(jsi::Runtime& rt, CustomType input) {
input.key = "1909";
input.enabled = !input.enabled;
input.time = 42;
return input;
}

In your app you can call this new native function via:

<Section title="Cxx TurboModule">
NativeSampleModule.passCustomType(...) ={' '}
{JSON.stringify(
NativeSampleModule.passCustomType({
key: '123',
enabled: true,
time: undefined,
}),
)}
</Section>

which should return {"key":"1909","enabled":false","time":42}.

This works - but is quite complex.

Struct generator

Codegen for C++ Turbo Native Modules does support struct generators, so you can simplify the code above in NativeSampleModule.h to:

using CustomType = NativeSampleModuleBaseCustomType<std::string, bool, std::optional<int32_t>>;
template <>
struct Bridging<CustomType>
: NativeSampleModuleBaseCustomTypeBridging<std::string, bool, std::optional<int32_t>> {};

With using CustomType you declare a name for your concrete struct.

Member types

With std::string, bool, std::optional<int32_t> you define the property types of the struct members in the order they were defined in your JavaScript spec. The order matters. The 1st template argument refers to the 1st data type of the struct, and so forth.

Without any custom conversion functions:

Base class

NativeSampleModuleBaseCustomType is an auto-generated template in your AppSpecsJSI.h which name is generated by:

  • NativeSampleModule (name of C++ Turbo Native Module in the JavaScript spec) +
  • Base (constant) +
  • CustomType (name of type in the JavaScript spec)

The same naming schema applies to the necessary Bridging struct which is defined via struct Bridging<CustomType>.