Skip to main content

Configuration (nitro.json)

Nitrogen requires a nitro.json file to be configured at the root of each Nitro Module.

{
  "cxxNamespace": ["<<cxxNamespace>>"],
  "ios": {
    "iosModulename": "<<iosModulename>>"
  },
  "android": {
    "androidNamespace": ["<<androidNamespace>>"],
    "androidCxxLibName": "<<androidCxxLibName>>"
  },
  "autolinking": {},
  "ignorePaths": ["node_modules"]
}

Nitrogen parses this file with Zod, see NitroUserConfig.ts for more information.

cxxNamespace

The cxxNamespace is the C++ namespace that all C++ specs will be generated in. It is always relative to margelo::nitro, and can also have multiple sub-namespaces:

{
  "cxxNamespace": ["math", "extra"]
}
namespace margelo::nitro::math::extra {
  // ...generated classes
}

ios

Settings specifically for the iOS platform.

iosModulename

The iosModulename represents the name of the clang module that will be emitted by the Swift compiler. When this Nitro Module is a CocoaPod, this is the same thing as the <<iosModulename>>.podspec's name:

{
  "ios": {
    "iosModulename": "NitroMath"
  }
}
NitroMath.podspec
Pod::Spec.new do |s|
  s.name         = "NitroMath"
  # ...

android

Settings specifically for the Android platform.

androidNamespace

The androidNamespace represents the package namespace in which all Java/Kotlin files are generated and written in. Similar to the cxxNamespace, this is always relative to margelo.nitro, and can also have multiple sub-namespaces.

In most cases, you should keep this in sync with the namespace specified in your build.gradle.

{
  "android": {
    "androidNamespace": ["math", "extra"]
  }
}
package com.margelo.nitro.image

// ...

androidCxxLibName

The androidCxxLibName represents the name of the native C++ library that JNI will load to connect Java/Kotlin to C++.

When this Nitro Module is using CMake, this is the same thing as the library defined in CMakeLists.txt. Nitro will load this library at runtime using System.loadLibrary.

{
  "android": {
    "androidCxxLibName": "NitroMath"
  }
}
project(NitroMath)
add_library(NitroMath SHARED
        src/main/cpp/cpp-adapter.cpp
        ../cpp/HybridMath.cpp
)

autolinking

Contains configuration for all Hybrid Objects that should be autolinked by Nitrogen.

All Hybrid Objects specified here must follow these requirements:

  • They must be default-constructible. That means they need a public constructor that takes zero arguments. If you have a Hybrid Object that is not default-constructible (e.g. Image needs a path or url argument), consider creating a factory Hybrid Object that can initialize instances of your Hybrid Object internally.
  • C++ Hybrid Objects must be declared in a file that has the same name as the Hybrid Object (for HybridMath, create HybridMath.hpp).
  • C++ Hybrid Objects must be scoped in the namespace specified in cxxNamespace.
  • Kotlin Hybrid Objects must be inside the package namespace specified in androidNamespace.
  • Kotlin Hybrid Objects should be annotated with @DoNotStrip to prevent them from being compiled out when using ProGuard.

Nitrogen will then generate the following code:

{
  "autolinking": {
    "Math": {
      "cpp": "HybridMath"
    }
  }
}
HybridObjectRegistry::registerHybridObjectConstructor(
  "Math",
  []() -> std::shared_ptr<HybridObject> {
    return std::make_shared<HybridMath>();
  }
);

Here, the Hybrid Object "Math" is autolinked to create an instance of HybridMath, a C++ class. Instead of cpp, you can also use swift or kotlin.

ignorePaths

Configures the TypeScript parser to ignore specific given paths when looking for *.nitro.ts specs.

By default, this is empty ([]), but it can be set to ignore paths like ["node_modules", "lib"].