diff --git a/doc/api/_toc.md b/doc/api/_toc.md index a0a3b9cc2651af..32c7c7fa27948a 100644 --- a/doc/api/_toc.md +++ b/doc/api/_toc.md @@ -8,6 +8,7 @@ * [Assertion Testing](assert.html) * [Buffer](buffer.html) * [C/C++ Addons](addons.html) +* [C/C++ Addons - N-API](n-api.html) * [Child Processes](child_process.html) * [Cluster](cluster.html) * [Command Line Options](cli.html) diff --git a/doc/api/addons.md b/doc/api/addons.md index 58f029fb20e98b..bdd7c34f4de306 100644 --- a/doc/api/addons.md +++ b/doc/api/addons.md @@ -213,6 +213,26 @@ Addon developers are recommended to use to keep compatibility between past and future releases of V8 and Node.js. See the `nan` [examples][] for an illustration of how it can be used. + +## N-API + +> Stability: 1 - Experimental + +N-API is an API for building native Addons. It is independent from +the underlying JavaScript runtime (ex V8) and is maintained as part of +Node.js itself. This API will be Application Binary Interface (ABI) stable +across version of Node.js. It is intended to insulate Addons from +changes in the underlying JavaScript engine and allow modules +compiled for one version to run on later versions of Node.js without +recompilation. Addons are built/packaged with the same approach/tools +outlined in this document (node-gyp, etc.). The only difference is the +set of APIs that are used by the native code. Instead of using the V8 +or [Native Abstractions for Node.js][] APIs, the functions available +in the N-API are used. + +The functions available and how to use them are documented in the +section titled [C/C++ Addons - N-API](n-api.html). + ## Addon examples Following are some example Addons intended to help developers get started. The diff --git a/doc/api/n-api.md b/doc/api/n-api.md new file mode 100644 index 00000000000000..f9e47a7b8d32a0 --- /dev/null +++ b/doc/api/n-api.md @@ -0,0 +1,2998 @@ +# N-API + +> Stability: 1 - Experimental + +N-API (pronounced N as in the letter, followed by API) +is an API for building native Addons. It is independent from +the underlying JavaScript runtime (ex V8) and is maintained as part of +Node.js itself. This API will be Application Binary Interface (ABI) stable +across versions of Node.js. It is intended to insulate Addons from +changes in the underlying JavaScript engine and allow modules +compiled for one version to run on later versions of Node.js without +recompilation. + +Addons are built/packaged with the same approach/tools +outlined in the section titled [C/C++ Addons](addons.html). +The only difference is the set of APIs that are used by the native code. +Instead of using the V8 or [Native Abstractions for Node.js][] APIs, +the functions available in the N-API are used. + +APIs exposed by N-API are generally used to create and manipulate +JavaScript values. Concepts and operations generally map to ideas specified +in the ECMA262 Language Specification. The APIs have the following +properties: +- All N-API calls return a status code of type `napi_status`. This + status indicates whether the API call succeeded or failed. +- The API's return value is passed via an out parameter. +- All JavaScript values are abstracted behind an opaque type named + `napi_value`. +- In case of an error status code, additional information can be obtained + using `napi_get_last_error_info`. More information can be found in the error + handling section [Error Handling][]. + +The documentation for N-API is structured as follows: + +* [Basic N-API Data Types][] +* [Error Handling][] +* [Object Lifetime Management][] +* [Module Registration][] +* [Working with JavaScript Values][] +* [Working with JavaScript Values - Abstract Operations][] +* [Working with JavaScript Properties][] +* [Working with JavaScript Functions][] +* [Object Wrap][] +* [Aynchronous Operations][] + +The N-API is a C API that ensures ABI stability across Node.js versions +and different compiler levels. However, we also understand that a C++ +API can be easier to use in many cases. To support these cases we expect +there to be one or more C++ wrapper modules that provide an inlineable C++ +API. Binaries built with these wrapper modules will depend on the symbols +for the N-API C based functions exported by Node.js. These wrappers are not +part of N-API, nor will they be maintained as part of Node.js. One such +example is: [node-api](https://github.com/nodejs/node-api). + +## Basic N-API Data Types + +N-API exposes the following fundamental datatypes as abstractions that are +consumed by the various APIs. These APIs should be treated as opaque, +introspectable only with other N-API calls. + +### *napi_status* +Integral status code indicating the success or failure of a N-API call. +Currently, the following status codes are supported. +```C +typedef enum { + napi_ok, + napi_invalid_arg, + napi_object_expected, + napi_string_expected, + napi_name_expected, + napi_function_expected, + napi_number_expected, + napi_boolean_expected, + napi_array_expected, + napi_generic_failure, + napi_pending_exception, + napi_cancelled, + napi_status_last +} napi_status; +``` +If additional information is required upon an API returning a failed status, +it can be obtained by calling `napi_get_last_error_info`. + +### *napi_extended_error_info* +```C +typedef struct { + const char* error_message; + void* engine_reserved; + uint32_t engine_error_code; + napi_status error_code; +} napi_extended_error_info; +``` + +- `error_message`: UTF8-encoded string containing a VM-neutral description of + the error. +- `engine_reserved`: Reserved for VM-specific error details. This is currently + not implemented for any VM. +- `engine_error_code`: VM-specific error code. This is currently + not implemented for any VM. +- `error_code`: The N-API status code that originated with the last error. + +See the [Error Handling][] section for additional information. + +### *napi_env* +`napi_env` is used to represent a context that the underlying N-API +implementation can use to persist VM-specific state. This structure is passed +to native functions when they're invoked, and it must be passed back when +making N-API calls. Specifically, the same `napi_env` that was passed in when +the initial native function was called must be passed to any subsequent +nested N-API calls. Caching the `napi_env` for the purpose of general reuse is +not allowed. + +### *napi_value* +This is an opaque pointer that is used to represent a JavaScript value. + +### N-API Memory Management types +#### *napi_handle_scope* +This is an abstraction used to control and modify the lifetime of objects +created within a particular scope. In general, N-API values are created within +the context of a handle scope. When a native method is called from +JavaScript, a default handle scope will exist. If the user does not explicitly +create a new handle scope, N-API values will be created in the default handle +scope. For any invocations of code outside the execution of a native method +(for instance, during a libuv callback invocation), the module is required to +create a scope before invoking any functions that can result in the creation +of JavaScript values. + +Handle scopes are created using [`napi_open_handle_scope`][] and are destroyed +using [`napi_close_handle_scope`][]. Closing the scope can indicate to the GC that +all `napi_value`s created during the lifetime of the handle scope are no longer +referenced from the current stack frame. + +For more details, review the [Object Lifetime Management][]. + +#### *napi_escapable_handle_scope* +Escapable handle scopes are a special type of handle scope to return values +created within a particular handle scope to a parent scope. + +#### *napi_ref* +This is the abstraction to use to reference a `napi_value`. This allows for +users to manage the lifetimes of JavaScript values, including defining their +minimum lifetimes explicitly. + +For more details, review the [Object Lifetime Management][]. + +### N-API Callback types +#### *napi_callback_info* +Opaque datatype that is passed to a callback function. It can be used for two +purposes: +- Get additional information about the context in which the callback was + invoked. +- Set the return value of the callback. + +#### *napi_callback* +Function pointer type for user-provided native functions which are to be +exposed to JavaScript via N-API. Callback functions should satisfy the +following signature: +```C +typedef void (*napi_callback)(napi_env, napi_callback_info); +``` + +#### *napi_finalize* +Function pointer type for add-on provided functions that allow the user to be +notified when externally-owned data is ready to be cleaned up because the +object with which it was associated with, has been garbage-collected. The user +must provide a function satisfying the following signature which would get +called upon the object's collection. Currently, `napi_finalize` can be used for +finding out when objects that have external data are collected. + + +#### napi_async_execute_callback +Function pointer used with functions that support asynchronous +operations. Callback functions must statisfy the following signature: + +```C +typedef void (*napi_async_execute_callback)(napi_env env, void* data); +``` + +#### napi_async_complete_callback +Function pointer used with functions that support asynchronous +operations. Callback functions must statisfy the following signature: + +```C +typedef void (*napi_async_complete_callback)(napi_env env, + napi_status status, + void* data); +``` + +## Error Handling +N-API uses both return values and Javascript exceptions for error handling. +The following sections explain the approach for each case. + +### Return values +All of the N-API functions share the same error handling pattern. The +return type of all API functions is `napi_status`. + +The return value will be `napi_ok` if the request was successful and +no uncaught JavaScript exception was thrown. If an error occurred AND +an exception was thrown, the `napi_status` value for the error +will be returned. If an exception was thrown, and no error occurred, +`napi_pending_exception` will be returned. + +In cases where a return value other than `napi_ok` or +`napi_pending_exception` is returned, [`napi_is_exception_pending`][] +must be called to check if an exception is pending. +See the section on exceptions for more details. + +The full set of possible napi_status values is defined +in `napi_api_types.h`. + +The `napi_status` return value provides a VM-independent representation of +the error which occurred. In some cases it is useful to be able to get +more detailed information, including a string representing the error as well as +VM (engine)-specific information. + +In order to retrieve this information [`napi_get_last_error_info`][] +is provided which returns a `napi_extended_error_info` structure. +The format of the `napi_extended_error_info` structure is as follows: + +```C +typedef struct napi_extended_error_info { + const char* error_message; + void* engine_reserved; + uint32_t engine_error_code; + napi_status error_code; +}; +``` +- `error_message`: Textual representation of the error that occured. +- `engine_reserved`: Opaque handle reserved for engine use only. +- `engine_error_code`: VM specific error code. +- `error_code`: n-api status code for the last error. + +[`napi_get_last_error_info`][] returns the information for the last +N-API call that was made. + +**Note:** Do not rely on the content or format of any of the extended +information as it is not subject to SemVer and may change at any time. +It is intended only for logging purposes. + +#### napi_get_last_error_info + +```C +NAPI_EXTERN napi_status +napi_get_last_error_info(napi_env env, + const napi_extended_error_info** result); +``` +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: The `napi_extended_error_info` structure with more +information about the error. + +Returns `napi_ok` if the API succeeded. + +This API retrieves a `napi_extended_error_info` structure with information +about the last error that occured. + +**Note:** Do not rely on the content or format of any of the extended +information as it is not subject to SemVer and may change at any time. +It is intended only for logging purposes. + + +### Exceptions +Any N-API function call may result in a pending JavaScript exception. This is +obviously the case for any function that may cause the execution of +JavaScript, but N-API specifies that an exception may be pending +on return from any of the API functions. + +If the `napi_status` returned by a function is `napi_ok` then no +exception is pending and no additional action is required. If the +`napi_status` returned is anything other than `napi_ok` or +`napi_pending_exception`, in order to try to recover and continue +instead of simply returning immediately, [`napi_is_exception_pending`][] +must be called in order to determine if an exception is pending or not. + +When an exception is pending one of two approaches can be employed. + +The first appoach is to do any appropriate cleanup and then return so that +execution will return to JavaScript. As part of the transition back to +JavaScript the exception will be thrown at the point in the JavaScript +code where the native method was invoked. The behavior of most N-API calls +is unspecified while an exception is pending, and many will simply return +`napi_pending_exception`, so it is important to do as little as possible +and then return to JavaScript where the exception can be handled. + +The second approach is to try to handle the exception. There will be cases +where the native code can catch the exception, take the appropriate action, +and then continue. This is only recommended in specific cases +where it is known that the exception can be safely handled. In these +cases [`napi_get_and_clear_last_exception`][] can be used to get and +clear the exception. On success, result will contain the handle to +the last JavaScript Object thrown. If it is determined, after +retrieving the exception, the exception cannot be handled after all +it can be re-thrown it with [`napi_throw`][] where error is the +JavaScript Error object to be thrown. + +The following utility functions are also available in case native code +needs to throw an exception or determine if a `napi_value` is an instance +of a JavaScript `Error` object: [`napi_throw_error`][], +[`napi_throw_type_error`][], [`napi_throw_range_error`][] and +[`napi_is_error`][]. + +The following utility functions are also available in case native +code needs to create an Error object: [`napi_create_error`][], +[`napi_create_type_error`][], and [`napi_create_range_error`][]. +where result is the napi_value that refers to the newly created +JavaScript Error object. + +#### napi_throw + +```C +NODE_EXTERN napi_status napi_throw(napi_env env, napi_value error); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] error`: The `napi_value` for the Error to be thrown. + +Returns `napi_ok` if the API succeeded. + +This API throws the JavaScript Error provided. + + +#### napi_throw_error + +```C +NODE_EXTERN napi_status napi_throw_error(napi_env env, const char* msg); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] msg`: C string representing the text to be associated with +the error. + +Returns `napi_ok` if the API succeeded. + +This API throws a JavaScript Error with the text provided. + +#### napi_throw_type_error + +```C +NODE_EXTERN napi_status napi_throw_type_error(napi_env env, const char* msg); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] msg`: C string representing the text to be associated with +the error. + +Returns `napi_ok` if the API succeeded. + +This API throws a JavaScript TypeError with the text provided. + +#### napi_throw_range_error + +```C +NODE_EXTERN napi_status napi_throw_range_error(napi_env env, const char* msg); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] msg`: C string representing the text to be associated with +the error. + +Returns `napi_ok` if the API succeeded. + +This API throws a JavaScript RangeError with the text provided. + + +#### napi_is_error + +```C +NODE_EXTERN napi_status napi_is_error(napi_env env, + napi_value value, + bool* result); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] msg`: The `napi_value` to be checked. +- `[out] result`: Boolean value that is set to true if `napi_value` represents +an error, false otherwise. + +Returns `napi_ok` if the API succeeded. + +This API queries a `napi_value` to check if it represents an error object. + + +#### napi_create_error + +```C +NODE_EXTERN napi_status napi_create_error(napi_env env, const char* msg); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] msg`: C string representing the text to be associated with. +- `[out] result`: `napi_value` representing the error created. + +Returns `napi_ok` if the API succeeded. + +This API returns a JavaScript Error with the text provided. + +#### napi_create_type_error + +```C +NODE_EXTERN napi_status napi_create_type_error(napi_env env, const char* msg); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] msg`: C string representing the text to be associated with. +- `[out] result`: `napi_value` representing the error created. + +Returns `napi_ok` if the API succeeded. + +This API returns a JavaScript TypeError with the text provided. + + +#### napi_create_range_error + +```C +NODE_EXTERN napi_status napi_create_range_error(napi_env env, const char* msg); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] msg`: C string representing the text to be associated with. +- `[out] result`: `napi_value` representing the error created. + +Returns `napi_ok` if the API succeeded. + +This API returns a JavaScript RangeError with the text provided. + + +#### napi_get_and_clear_last_exception + +```C +NAPI_EXTERN napi_status napi_get_and_clear_last_exception(napi_env env, + napi_value* result); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: The exception if one is pending, NULL otherwise. + +Returns `napi_ok` if the API succeeded. + +This API returns true if an exception is pending. + +#### napi_is_exception_pending + +```C +NAPI_EXTERN napi_status napi_is_exception_pending(napi_env env, bool* result); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: Boolean value that is set to true if an exception is pending. + +Returns `napi_ok` if the API succeeded. + +This API returns true if an exception is pending. + + +## Object Lifetime management + +As N-API calls are made, handles to objects in the heap for the underlying +VM may be returned as `napi_values`. These handles must hold the +objects 'live' until they are no longer required by the native code, +otherwise the objects could be collected before the native code was +finished using them. + +As object handles are returned they are associated with a +'scope'. The lifespan for the default scope is tied to the lifespan +of the native method call. The result is that, by default, handles +remain valid and the objects associated with these handles will be +held live for the lifespan of the native method call. + +In many cases, however, it is necessary that the handles remain valid for +either a shorter or longer lifespan than that of the native method. +The sections which follow describe the N-API functions than can be used +to change the handle lifespan from the default. + +### Making handle lifespan shorter than that of the native method +It is often necessary to make the lifespan of handles shorter than +the lifespan of a native method. For example, consider a native method +that has a loop which iterates through the elements in a large array: + +```C +for (int i = 0; i < 1000000; i++) { + napi_value result; + napi_status status = napi_get_element(e object, i, &result); + if (status != napi_ok) { + break; + } + // do something with element +} +``` + +This would result in a large number of handles being created, consuming +substantial resources. In addition, even though the native code could only +use the most recent handle, all of the associated objects would also be +kept alive since they all share the same scope. + +To handle this case, N-API provides the ability to establish a new 'scope' to +which newly created handles will be associated. Once those handles +are no longer required, the scope can be 'closed' and any handles associated +with the scope are invalidated. The methods available to open/close scopes are +[`napi_open_handle_scope`][] and [`napi_close_handle_scope`][]. + +N-API only supports a single nested hiearchy of scopes. There is only one +active scope at any time, and all new handles will be associated with that +scope while it is active. Scopes must be closed in the reverse order from +which they are opened. In addition, all scopes created within a native method +must be closed before returning from that method. + +Taking the earlier example, adding calls to [`napi_open_handle_scope`][] and +[`napi_close_handle_scope`][] would ensure that at most a single handle +is valid throughout the execution of the loop: + +```C +for (int i = 0; i < 1000000; i++) {napi_ + napi_handle_scope scope; + napi_status status = napi_open_handle_scope(env, &scope); + if (status != napi_ok) { + break; + } + napi_value result; + status = napi_get_element(e object, i, &result); + if (status != napi_ok) { + break; + } + // do something with element + status = napi_close_handle_scope(env, scope); + if (status != napi_ok) { + break; + } +} +``` + +When nesting scopes, there are cases where a handle from an +inner scope needs to live beyond the lifespan of that scope. N-API supports an +'escapable scope' in order to support this case. An escapable scope +allows one or more handles to be 'promoted' so that they 'escape' the +current scope and the lifespan of the handle(s) changes from the current +scope to that of the outer scope. + +The methods available to open/close escapable scopes are +[`napi_open_escapable_handle_scope`][] and [`napi_close_escapable_handle_scope`][]. + +The request to promote a handle is made through the [`napi_escape_handle`][]. + +#### napi_open_handle_scope + +```C +NODE_EXTERN napi_status napi_open_handle_scope(napi_env env, + napi_handle_scope* result); +``` +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: `napi_value` representing the new scope. + +Returns `napi_ok` if the API succeeded. + +This API open a new scope. + +#### napi_close_handle_scope + +```C +NODE_EXTERN napi_status napi_close_handle_scope(napi_env env, + napi_handle_scope scope); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] scope`: `napi_value` representing the scope to be closed. + +Returns `napi_ok` if the API succeeded. + +This API closes the scope passed in. Scopes must be closed in the +reverse order from which they were created. + +#### napi_open_escapable_handle_scope + +```C +NODE_EXTERN napi_status + napi_open_escapable_handle_scope(napi_env env, + napi_handle_scope* result); +``` +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: `napi_value` representing the new scope. + +Returns `napi_ok` if the API succeeded. + +This API open a new scope from which objects can be promoted +to the outer scope. + +#### napi_close_escapable_handle_scope + +```C +NODE_EXTERN napi_status + napi_close_escapable_handle_scope(napi_env env, + napi_handle_scope scope); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] scope`: `napi_value` representing the scope to be closed. + +Returns `napi_ok` if the API succeeded. + +This API closes the scope passed in. Scopes must be closed in the +reverse order from which they were created. + +#### napi_escape_handle + +```C +NAPI_EXTERN napi_status napi_escape_handle(napi_env env, + napi_escapable_handle_scope scope, + napi_value escapee, + napi_value* result); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] scope`: `napi_value` representing the current scope. +- `[in] escapee`: `napi_value` representing the JavaScript Object to be escaped. +- `[out] result`: `napi_value` representing the handle to the escaped +Object in the outer scope. + +Returns `napi_ok` if the API succeeded. + +This API promotes the handle to the JavaScript object so that it valid +for the lifetime of the outer scope. + + +### References to objects with a lifespan longer than that of the native method +In some cases an addon will need to be able to create and reference objects +with a lifespan longer than that of a single native method invocation. For +example, to create a constructor and later use that constructor +in a request to creates instances, it must be possible to reference +the constructor object across many different instance creation requests. This +would not be possible with a normal handle returned as a `napi_value` as +described in the earlier section. The lifespan of a normal handle is +managed by scopes and all scopes must be closed before the end of a native +method. + +N-API provides methods to create persistent references to an object. +Each persistent reference has an associated count with a value of 0 +or higher. The count determines if the reference will keep +the corresponding object live. References with a count of 0 do not +prevent the object from being collected and are often called 'weak' +references. Any count greater than 0 will prevent the object +from being collected. + +References can be created with an initial reference count. The count can +then be modified through [`napi_reference_ref`][] and +[`napi_reference_unref`][]. If an object is collected while the count +for a reference is 0, all subsequent calls to +get the object associated with the reference [`napi_get_reference_value`][] +will return NULL for the returned `napi_value`. An attempt to call +[`napi_reference_ref`][] for a reference whose object has been collected +will result in an error. + +References must be deleted once they are no longer required by the addon. When +a reference is deleted it will no longer prevent the corresponding object from +being collected. Failure to delete a persistent reference will result in +a 'memory leak' with both the native memory for the persistent reference and +the corresponding object on the heap being retained forever. + +There can be multiple persistent references created which refer to the same +object, each of which will either keep the object live or not based on its +individual count. + +#### napi_create_reference + +```C +NODE_EXTERN napi_status napi_create_reference(napi_env env, + napi_value value, + int initial_refcount, + ndapi_ref* result); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing the Object to which we want +a reference to. +- `[in] initial_refcount`: Initial reference count for the new reference. +- `[out] result`: `napi_ref` pointing to the new reference. + +Returns `napi_ok` if the API succeeded. + +This API create a new reference with the specified reference count +to the Object passed in. + +#### napi_delete_reference + +```C +NODE_EXTERN napi_status napi_delete_reference(napi_env env, napi_ref ref); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] ref`: `napi_ref` to be deleted. + +Returns `napi_ok` if the API succeeded. + +This API deletes the reference passed in. + +#### napi_reference_ref + +```C +NODE_EXTERN napi_status napi_reference_ref(napi_env env, + napi_ref ref, + int* result); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] ref`: `napi_ref` for which the reference count will be incremented. +- `[out] result`: The new reference count. + +Returns `napi_ok` if the API succeeded. + +This API increments the reference count for the reference +passed in and returns the resulting reference count. + + +#### napi_reference_unref + +```C +NODE_EXTERN napi_status napi_reference_unref(napi_env env, + napi_ref ref, + int* result); +``` +- `[in] env`: The environment that the API is invoked under. +- `[in] ref`: `napi_ref` for which the reference count will be decremented. +- `[out] result`: The new reference count. + +Returns `napi_ok` if the API succeeded. + +This API decrements the reference count for the reference +passed in and returns the resulting reference count. + + +#### napi_get_reference_value + +```C +NODE_EXTERN napi_status napi_get_reference_value(napi_env env, + napi_ref ref, + napi_value* result); +``` + +the `napi_value passed` in or out of these methods is a handle to the +object to which the reference is related. +- `[in] env`: The environment that the API is invoked under. +- `[in] ref`: `napi_ref` for which we requesting the corresponding Object. +- `[out] result`: The `napi_value` for the Object referenced by the +`napi_ref`. + +Returns `napi_ok` if the API succeeded. + +If still valid, this API returns the `napi_value` representing the +JavaScript Object associated with the `napi_ref`. Otherise, result +will be NULL. + +## Module registration +N-API modules are registered in the same manner as other modules +except that instead of using the `NODE_MODULE` macro the following +is used: + +```C +NAPI_MODULE(addon, Init) +``` + +The next difference is the signature for the `Init` method. For a N-API +module it is as follows: + +```C +void Init(napi_env env, napi_value exports, napi_value module, void* priv); +``` + +As with any other module, functions are exported by either adding them to +the `exports` or `module` objects passed to the `Init` method. + +For example, to add the method `hello` as a function so that it can be called +as a method provided by the addon: + +```C +void Init(napi_env env, napi_value exports, napi_value module, void* priv) { + napi_status status; + napi_property_descriptor desc = + {"hello", Method, 0, 0, 0, napi_default, 0}; + status = napi_define_properties(env, exports, 1, &desc); +} +``` + +For example, to set a function to be returned by the `require()` for the addon: + +```C +void Init(napi_env env, napi_value exports, napi_value module, void* priv) { + napi_status status; + napi_property_descriptor desc = + {"exports", Method, 0, 0, 0, napi_default, 0}; + status = napi_define_properties(env, module, 1, &desc); +} +``` + +For example, to define a class so that new instances can be created +(often used with [Object Wrap][]): + +```C +// NOTE: partial example, not all referenced code is included + +napi_status status; +napi_property_descriptor properties[] = { + { "value", nullptr, GetValue, SetValue, 0, napi_default, 0 }, + DECLARE_NAPI_METHOD("plusOne", PlusOne), + DECLARE_NAPI_METHOD("multiply", Multiply), +}; + +napi_value cons; +status = + napi_define_class(env, "MyObject", New, nullptr, 3, properties, &cons); +if (status != napi_ok) return; + +status = napi_create_reference(env, cons, 1, &constructor); +if (status != napi_ok) return; + +status = napi_set_named_property(env, exports, "MyObject", cons); +if (status != napi_ok) return; +``` + +For more details on setting properties on either the `exports` or `module` +objects, see the section on +[Working with JavaScript Properties][]. + +For more details on building addon modules in general, refer to the existing API + +## Working with JavaScript Values +N-API exposes a set of APIs to create all types of JavaScript values. +Some of these types are documented under +[Section 6](https://tc39.github.io/ecma262/#sec-ecmascript-data-types-and-values) +of the [ECMAScript Language Specification][]. + +Fundamentally, these APIs are used to do one of the following: +1. Create a new JavaScript object +2. Convert from a primitive C type to an N-API value +3. Convert from N-API value to a primitive C type +4. Get global instances including `undefined` and `null` + +N-API values are represented by the type `napi_value`. +Any N-API call that requires a JavaScript value takes in a `napi_value`. +In some cases, the API does check the type of the `napi_value` up-front. +However, for better performance, it's better for the caller to make sure that +the `napi_value` in question is of the JavaScript type expected by the API. + +### Enum types +#### *napi_valuetype* +```C +typedef enum { + // ES6 types (corresponds to typeof) + napi_undefined, + napi_null, + napi_boolean, + napi_number, + napi_string, + napi_symbol, + napi_object, + napi_function, + napi_external, +} napi_valuetype; +``` + +Describes the type of a `napi_value`. This generally corresponds to the types +described in +[Section 6.1](https://tc39.github.io/ecma262/#sec-ecmascript-language-types) of +the ECMAScript Language Specification. +In addition to types in that section, `napi_valuetype` can also represent +Functions and Objects with external data. + +#### *napi_typedarray_type* +```C +typedef enum { + napi_int8_array, + napi_uint8_array, + napi_uint8_clamped_array, + napi_int16_array, + napi_uint16_array, + napi_int32_array, + napi_uint32_array, + napi_float32_array, + napi_float64_array, +} napi_typedarray_type; +``` + +This represents the underlying binary scalar datatype of the TypedArray. +Elements of this enum correspond to +[Section 22.2](https://tc39.github.io/ecma262/#sec-typedarray-objects) +of the [ECMAScript Language Specification][]. + +### Object Creation Functions +#### *napi_create_array* + +```C +napi_status napi_create_array(napi_env env, napi_value* result) +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[out] result`: A `napi_value` representing a JavaScript Array. + +Returns `napi_ok` if the API succeeded. + +This API returns an N-API value corresponding to a JavaScript Array type. +JavaScript arrays are described in +[Section 22.1](https://tc39.github.io/ecma262/#sec-array-objects) of the +ECMAScript Language Specification. + +#### *napi_create_array_with_length* + +```C +napi_status napi_create_array_with_length(napi_env env, + size_t length, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] length`: The initial length of the Array. +- `[out] result`: A `napi_value` representing a JavaScript Array. + +Returns `napi_ok` if the API succeeded. + +This API returns an N-API value corresponding to a JavaScript Array type. +The Array's length property is set to the passed-in length parameter. +However, the underlying buffer is not guaranteed to be pre-allocated by the VM +when the array is created - that behavior is left to the underlying VM +implementation. +if the buffer must be a contiguous block of memory that can be +directly read and/or written via C, consider using +[`napi_create_external_arraybuffer`][]. + +JavaScript arrays are described in +[Section 22.1](https://tc39.github.io/ecma262/#sec-array-objects) of the +ECMAScript Language Specification. + +#### *napi_create_arraybuffer* + +```C +napi_status napi_create_arraybuffer(napi_env env, + size_t byte_length, + void** data, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] length`: The length in bytes of the array buffer to create. +- `[out] data`: Pointer to the underlying byte buffer of the ArrayBuffer. +- `[out] result`: A `napi_value` representing a JavaScript ArrayBuffer. + +Returns `napi_ok` if the API succeeded. + +This API returns an N-API value corresponding to a JavaScript ArrayBuffer. +ArrayBuffers are used to represent fixed-length binary data buffers. They are +normally used as a backing-buffer for TypedArray objects. +The ArrayBuffer allocated will have an underlying byte buffer whose size is +determined by the `length` parameter that's passed in. +The underlying buffer is optionally returned back to the caller in case the +caller wants to directly manipulate the buffer. This buffer can only be +written to directly from native code. To write to this buffer from JavaScript, +a typed array or DataView object would need to be created. + +JavaScript ArrayBuffer objects are described in +[Section 24.1](https://tc39.github.io/ecma262/#sec-arraybuffer-objects) +of the ECMAScript Language Specification. + +#### *napi_create_buffer* + +```C +napi_status napi_create_buffer(napi_env env, + size_t size, + void** data, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] size`: Size in bytes of the underlying buffer. +- `[out] data`: Raw pointer to the underlying buffer. +- `[out] result`: A `napi_value` representing a `node::Buffer`. + +Returns `napi_ok` if the API succeeded. + +This API allocates a `node::Buffer` object. While this is still a +fully-supported data structure, in most cases using a TypedArray will suffice. + +#### *napi_create_buffer_copy* + +```C +napi_status napi_create_buffer_copy(napi_env env, + size_t length, + const void* data, + void** result_data, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] size`: Size in bytes of the input buffer (should be the same as the + size of the new buffer). +- `[in] data`: Raw pointer to the underlying buffer to copy from. +- `[out] result_data`: Pointer to the new Buffer's underlying data buffer. +- `[out] result`: A `napi_value` representing a `node::Buffer`. + +Returns `napi_ok` if the API succeeded. + +This API allocates a `node::Buffer` object and initializes it with data copied +from the passed-in buffer. While this is still a fully-supported data +structure, in most cases using a TypedArray will suffice. + +#### *napi_create_external* + +```C +napi_status napi_create_external(napi_env env, + void* data, + napi_finalize finalize_cb, + void* finalize_hint, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] data`: Raw pointer to the external data being wrapped. +- `[in] finalize_cb`: Optional callback to call when the wrapped object +is being collected. +- `[in] finalize_hint`: Optional hint to pass to the finalize callback +during collection. +- `[out] result`: A `napi_value` representing an external object. + +Returns `napi_ok` if the API succeeded. + +This API allocates a JavaScript object with external data attached to it. +This is used to wrap native objects and project them into JavaScript. +The API allows the caller to pass in a finalize callback, in case the +underlying native resource needs to be cleaned up when the wrapper +JavaScript object gets collected. + +#### napi_create_external_arraybuffer + +```C +napi_status +napi_create_external_arraybuffer(napi_env env, + void* external_data, + size_t byte_length, + napi_finalize finalize_cb, + void* finalize_hint, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] external_data`: Pointer to the underlying byte buffer of the +ArrayBuffer. +- `[in] byte_length`: The length in bytes of the underlying buffer. +- `[in] finalize_cb`: Optional callback to call when the ArrayBuffer is +being collected. +- `[in] finalize_hint`: Optional hint to pass to the finalize callback +during collection. +- `[out] result`: A `napi_value` representing a JavaScript ArrayBuffer. + +Returns `napi_ok` if the API succeeded. + +This API returns an N-API value corresponding to a JavaScript ArrayBuffer. +The underlying byte buffer of the ArrayBuffer is externally allocated and +managed. The caller must ensure that the byte buffer remains valid until the +finalize callback is called. + +JavaScript ArrayBuffers are described in +[Section 24.1](https://tc39.github.io/ecma262/#sec-arraybuffer-objects) +of the ECMAScript Language Specification. + +#### *napi_create_external_buffer* + +```C +napi_status napi_create_external_buffer(napi_env env, + size_t length, + void* data, + napi_finalize finalize_cb, + void* finalize_hint, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] length`: Size in bytes of the input buffer (should be the same as +the size of the new buffer). +- `[in] data`: Raw pointer to the underlying buffer to copy from. +- `[in] finalize_cb`: Optional callback to call when the ArrayBuffer is +being collected. +- `[in] finalize_hint`: Optional hint to pass to the finalize callback +during collection. +- `[out] result`: A `napi_value` representing a `node::Buffer`. + +Returns `napi_ok` if the API succeeded. + +This API allocates a `node::Buffer` object and initializes it with data +backed by the passed in buffer. While this is still a fully-supported data +structure, in most cases using a TypedArray will suffice. + +**Note:** For Node.js >=4 `Buffers` are Uint8Arrays. + +#### *napi_create_function* + +```C +napi_status napi_create_function(napi_env env, + const char* utf8name, + napi_callback cb, + void* data, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] utf8name`: A string representing the name of the function encoded as +UTF8. +- `[in] cb`: A function pointer to the native function to be invoked when the +created function is invoked from JavaScript. +- `[in] data`: Optional arbitrary context data to be passed into the native +function when it is invoked. +- `[out] result`: A `napi_value` representing a JavaScript function. + +Returns `napi_ok` if the API succeeded. + +This API returns an N-API value corresponding to a JavaScript Function object. +It's used to wrap native functions so that they can be invoked from JavaScript. + +JavaScript Functions are described in +[Section 19.2](https://tc39.github.io/ecma262/#sec-function-objects) +of the ECMAScript Language Specification. + +#### *napi_create_object* + +```C +napi_status napi_create_object(napi_env env, napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: A `napi_value` representing a JavaScript Object. + +Returns `napi_ok` if the API succeeded. + +This API allocates a default JavaScript Object. +It is the equivalent of doing `new Object()` in JavaScript. + +The JavaScript Object type is described in +[Section 6.1.7](https://tc39.github.io/ecma262/#sec-object-type) of the +ECMAScript Language Specification. + +#### *napi_create_symbol* + +```C +napi_status napi_create_symbol(napi_env env, + const char* description, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] description`: Null-terminated character buffer representing a +UTF8-encoded string to describe the symbol. +- `[out] result`: A `napi_value` representing a JavaScript Symbol. + +Returns `napi_ok` if the API succeeded. + +This API creates a JavaScript Symbol object from a UTF8-encoded C string + +The JavaScript Symbol type is described in +[Section 19.4](https://tc39.github.io/ecma262/#sec-symbol-objects) +of the ECMAScript Language Specification. + +#### *napi_create_typedarray* + +```C +napi_status napi_create_typedarray(napi_env env, + napi_typedarray_type type, + size_t length, + napi_value arraybuffer, + size_t byte_offset, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] type`: Scalar datatype of the elements within the TypedArray. +- `[in] length`: Number of elements in the TypedArray. +- `[in] arraybuffer`: ArrayBuffer underlying the typed array. +- `[in] byte_offset`: The byte offset within the ArrayBuffer from which to +start projecting the TypedArray. +- `[out] result`: A `napi_value` representing a JavaScript TypedArray. + +Returns `napi_ok` if the API succeeded. + +This API creates a JavaScript TypedArray object over an existing ArrayBuffer. +TypedArray objects provide an array-like view over an underlying data buffer +where each element has the same underlying binary scalar datatype. + +It's required that (length * size_of_element) + byte_offset should +be <= the size in bytes of the array passed in. If not, a RangeError exception is +raised. + +JavaScript TypedArray Objects are described in +[Section 22.2](https://tc39.github.io/ecma262/#sec-typedarray-objects) +of the ECMAScript Language Specification. + +### Functions to convert from C types to N-API +#### *napi_create_number* + +```C +napi_status napi_create_number(napi_env env, double value, napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: Double-precision value to be represented in JavaScript. +- `[out] result`: A `napi_value` representing a JavaScript Number. + +Returns `napi_ok` if the API succeeded. + +This API is used to convert from the C double type to the JavaScript +Number type. + +The JavaScript Number type is described in +[Section 6.1.6](https://tc39.github.io/ecma262/#sec-ecmascript-language-types-number-type) +of the ECMAScript Language Specification. + +#### *napi_create_string_utf16* + +```C +napi_status napi_create_string_utf16(napi_env env, + const char16_t* str, + size_t length, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] str`: Character buffer representing a UTF16-LE-encoded string. +- `[in] length`: The length of the string in characters, or -1 if it is +null-terminated. +- `[out] result`: A `napi_value` representing a JavaScript String. + +Returns `napi_ok` if the API succeeded. + +This API creates a JavaScript String object from a UTF16-LE-encoded C string + +The JavaScript String type is described in +[Section 6.1.4](https://tc39.github.io/ecma262/#sec-ecmascript-language-types-string-type) +of the ECMAScript Language Specification. + +#### *napi_create_string_utf8* + +```C +napi_status napi_create_string_utf8(napi_env env, + const char* str, + size_t length, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] s`: Character buffer representing a UTF8-encoded string. +- `[in] length`: The length of the string in characters, or -1 if it is +null-terminated. +- `[out] result`: A `napi_value` representing a JavaScript String. + +Returns `napi_ok` if the API succeeded. + +This API creates a JavaScript String object from a UTF8-encoded C string + +The JavaScript String type is described in +[Section 6.1.4](https://tc39.github.io/ecma262/#sec-ecmascript-language-types-string-type) +of the ECMAScript Language Specification. + +### Functions to convert from N-API to C types +#### *napi_get_array_length* + +```C +napi_status napi_get_array_length(napi_env env, + napi_value value, + uint32_t* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing the JavaScript Array whose length is +being queried. +- `[out] result`: `uint32` representing length of the array. + +Returns `napi_ok` if the API succeeded. + +This API returns the length of an array. + +Array length is described in +[Section 22.1.4.1](https://tc39.github.io/ecma262/#sec-properties-of-array-instances-length) +of the ECMAScript Language Specification. + +#### *napi_get_arraybuffer_info* + +```C +napi_status napi_get_arraybuffer_info(napi_env env, + napi_value arraybuffer, + void** data, + size_t* byte_length) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] arraybuffer`: `napi_value` representing the ArrayBuffer being queried. +- `[out] data`: The underlying data buffer of the ArrayBuffer. +- `[out] byte_length`: Length in bytes of the underlying data buffer. + +Returns `napi_ok` if the API succeeded. + +This API is used to retrieve the underlying data buffer of an ArrayBuffer and +its length. +WARNING: Use caution while using this API. The lifetime of the underlying data +buffer is managed by the ArrayBuffer even after it's returned. A +possible safe way to use this API is in conjunction with [`napi_create_reference`][], +which can be used to guarantee control over the lifetime of the +ArrayBuffer. It's also safe to use the returned data buffer within the same +callback as long as there are no calls to other APIs that might trigger a GC. + +#### *napi_get_buffer_info* + +```C +napi_status napi_get_buffer_info(napi_env env, + napi_value value, + void** data, + size_t* length) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing the `node::Buffer` being queried. +- `[out] data`: The underlying data buffer of the `node::Buffer`. +- `[out] length`: Length in bytes of the underlying data buffer. + +Returns `napi_ok` if the API succeeded. + +This API is used to retrieve the underlying data buffer of a `node::Buffer` +and it's length. +Warning: Use caution while using this API since the underlying data buffer's +lifetime is not guaranteed if it's managed by the VM. + +#### *napi_get_prototype* + +```C +napi_status napi_get_prototype(napi_env env, + napi_value object, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] object`: `napi_value` representing JavaScript Object whose prototype +to return. This returns the equivalent of `Object.getPrototypeOf` (which is +not the same as the function's `prototype` property). +- `[out] result`: `napi_value` representing prototype of the given object. + +Returns `napi_ok` if the API succeeded. + +#### *napi_get_typedarray_info* + +```C +napi_status napi_get_typedarray_info(napi_env env, + napi_value typedarray, + napi_typedarray_type* type, + size_t* length, + void** data, + napi_value* arraybuffer, + size_t* byte_offset) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] typedarray`: `napi_value` representing the TypedArray whose +properties to query. +- `[out] type`: Scalar datatype of the elements within the TypedArray. +- `[out] length`: Number of elements in the TypedArray. +- `[out] data`: The data buffer underlying the typed array. +- `[out] byte_offset`: The byte offset within the data buffer from which +to start projecting the TypedArray. + +Returns `napi_ok` if the API succeeded. + +This API returns various properties of a typed array. +Warning: Use caution while using this API since the underlying data buffer +is managed by the VM + +#### *napi_get_value_bool* + +```C +napi_status napi_get_value_bool(napi_env env, napi_value value, bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript Boolean. +- `[out] result`: C boolean primitive equivalent of the given JavaScript +Boolean. + +Returns `napi_ok` if the API succeeded. If a non-boolean `napi_value` is +passed in it returns `napi_boolean_expected`. + +This API returns C boolean primitive equivalent of the given JavaScript +Boolea + +#### *napi_get_value_double* + +```C +napi_status napi_get_value_double(napi_env env, + napi_value value, + double* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript Number. +- `[out] result`: C double primitive equivalent of the given JavaScript +Number. + +Returns `napi_ok` if the API succeeded. If a non-number `napi_value` is passed +in it returns `napi_number_expected`. + +This API returns the C double primitive equivalent of the given JavaScript +Number. + + +#### *napi_get_value_external* + +```C +napi_status napi_get_value_external(napi_env env, + napi_value value, + void** result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript External value. +- `[out] result`: Pointer to the data wrapped by the JavaScript External value. + +Returns `napi_ok` if the API succeeded. If a non-external `napi_value` is +passed in it returns `napi_invalid_arg`. + +This API returns the pointer to the data wrapped by the JavaScript +External value + +#### *napi_get_value_int32* + +```C +napi_status napi_get_value_int32(napi_env env, + napi_value value, + int32_t* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript Number. +- `[out] result`: C int32 primitive equivalent of the given JavaScript Number. + +Returns `napi_ok` if the API succeeded. If a non-number `napi_value` +is passed in `napi_number_expected . + +This API returns the C int32 primitive equivalent +of the given JavaScript Number. If the number exceeds the range of the +32 bit integer, then the result is truncated to the equivalent of the +bottom 32 bits. This can result in a large positive number becoming +a negative number if the the value is > 2^31 -1. + +#### *napi_get_value_int64* + +```C +napi_status napi_get_value_int64(napi_env env, + napi_value value, + int64_t* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript Number. +- `[out] result`: C int64 primitive equivalent of the given JavaScript Number. + +Returns `napi_ok` if the API succeeded. If a non-number `napi_value` +is passed in it returns `napi_number_expected`. + +This API returns the C int64 primitive equivalent of the given +JavaScript Number + +#### *napi_get_value_string_length* + +```C +napi_status napi_get_value_string_length(napi_env env, + napi_value value, + int* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript string. +- `[out] result`: Number of characters in the given JavaScript string. + +Returns `napi_ok` if the API succeeded. If a non-String `napi_value` +is passed in it returns `napi_string_expected`. + +This API returns the number of characters in the given JavaScript string. + +#### *napi_get_value_string_utf8* + +```C +napi_status napi_get_value_string_utf8(napi_env env, + napi_value value, + char* buf, + size_t bufsize, + size_t* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript string. +- `[in] buf`: Buffer to write the UTF8-encoded string into. If NULL is passed + in, the length of the string (in bytes) is returned. +- `[in] bufsize`: Size of the destination buffer. +- `[out] result`: Number of bytes copied into the buffer including the null. +terminator. If the buffer size is insufficient, the string will be truncated +including a null terminator. + +Returns `napi_ok` if the API succeeded. Ifa non-String `napi_value` +x is passed in it returns `napi_string_expected`. + +This API returns the UTF8-encoded string corresponding the value passed in. + +#### *napi_get_value_string_utf16_length* + +```C +napi_status napi_get_value_string_utf16(napi_env env, + napi_value value, + char16_t* buf, + size_t bufsize, + size_t* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript string. +- `[in] buf`: Buffer to write the UTF16-LE-encoded string into. If NULL is +passed in, the length of the string (in 2-byte code units) is returned. +- `[in] bufsize`: Size of the destination buffer. +- `[out] result`: Number of 2-byte code units copied into the buffer including +the null terminateor. If the buffer size is insufficient, the string will be +truncated including a null terminator. + +Returns `napi_ok` if the API succeeded. If a non-String `napi_value` +is passed in it returns `napi_string_expected`. + +This API returns the UTF16-encoded string corresponding the value passed in. + +#### *napi_get_value_uint32* + +```C +napi_status napi_get_value_uint32(napi_env env, + napi_value value, + uint32_t* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: `napi_value` representing JavaScript Number. +- `[out] result`: C primitive equivalent of the given `napi_value` as a +`uint32_t`. + +Returns `napi_ok` if the API succeeded. If a non-number `napi_value` +is passed in it returns `napi_number_expected`. + +This API returns the C primitive equivalent of the given `napi_value` as a +`uint32_t`. + +### Functions to get global instances +#### *napi_get_boolean* + +```C +napi_status napi_get_boolean(napi_env env, bool value, napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The value of the boolean to retrieve. +- `[out] result`: `napi_value` representing JavaScript Boolean singleton to +retrieve. + +Returns `napi_ok` if the API succeeded. + +This API is used to return the JavaScript singleton object that is used to +represent the given boolean value + +#### *napi_get_global* + +```C +napi_status napi_get_global(napi_env env, napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: `napi_value` representing JavaScript Global Object. + +Returns `napi_ok` if the API succeeded. + +This API returns the global Object. + +#### *napi_get_null* + +```C +napi_status napi_get_null(napi_env env, napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: `napi_value` representing JavaScript Null Object. + +Returns `napi_ok` if the API succeeded. + +This API returns the null Object. + +#### *napi_get_undefined* + +```C +napi_status napi_get_undefined(napi_env env, napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[out] result`: `napi_value` representing JavaScript Undefined value. + +Returns `napi_ok` if the API succeeded. + +This API returns the Undefined object. + +## Working with JavaScript Values - Abstract Operations + +N-API exposes a set of APIs to perform some abstract operations on JavaScript +values. Some of these operations are documented under +[Section 7](https://tc39.github.io/ecma262/#sec-abstract-operations) +of the [ECMAScript Language Specification](https://tc39.github.io/ecma262/). + +These APIs support doing one of the following: +1. Coerce JavaScript values to specific JavaScript types (such as Number or + String) +2. Check the type of a JavaScript value +3. Check for equality between two JavaScript values + +### *napi_coerce_to_bool* + +```C +napi_status napi_coerce_to_bool(napi_env env, + napi_value value, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to coerce. +- `[out] result`: `napi_value` representing the coerced JavaScript Boolean. + +Returns `napi_ok` if the API succeeded. + +This API implements the abstract operation ToBoolean as defined in +[Section 7.1.2](https://tc39.github.io/ecma262/#sec-toboolean) +of the ECMAScript Language Specification. +This API can be re-entrant if getters are defined on the passed-in Object. + +### *napi_coerce_to_number* + +```C +napi_status napi_coerce_to_number(napi_env env, + napi_value value, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to coerce. +- `[out] result`: `napi_value` representing the coerced JavaScript Number. + +Returns `napi_ok` if the API succeeded. + +This API implements the abstract operation ToNumber as defined in +[Section 7.1.3](https://tc39.github.io/ecma262/#sec-tonumber) +of the ECMAScript Language Specification. +This API can be re-entrant if getters are defined on the passed-in Object. + +### *napi_coerce_to_object* + +```C +napi_status napi_coerce_to_object(napi_env env, + napi_value value, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to coerce. +- `[out] result`: `napi_value` representing the coerced JavaScript Object. + +Returns `napi_ok` if the API succeeded. + +This API implements the abstract operation ToObject as defined in +[Section 7.1.13](https://tc39.github.io/ecma262/#sec-toobject) +of the ECMAScript Language Specification. +This API can be re-entrant if getters are defined on the passed-in Object. + +### *napi_coerce_to_string* + +```C +napi_status napi_coerce_to_string(napi_env env, + napi_value value, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to coerce. +- `[out] result`: `napi_value` representing the coerced JavaScript String. + +Returns `napi_ok` if the API succeeded. + +This API implements the abstract operation ToString as defined in +[Section 7.1.13](https://tc39.github.io/ecma262/#sec-tostring) +of the ECMAScript Language Specification. +This API can be re-entrant if getters are defined on the passed-in Object. + +### *napi_typeof* + +```C +napi_status napi_typeof(napi_env env, napi_value value, napi_valuetype* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value whose type to query. +- `[out] result`: The type of the JavaScript value. + +Returns `napi_ok` if the API succeeded. +- `napi_invalid_arg` if the type of `value` is not a known ECMAScript type and + `value` is not an External value. + +This API represents behavior similar to invoking the `typeof` Operator on +the object as defined in [Section 12.5.5][] of the ECMAScript Language +Specification. However, it has support for detecting an External value. +If `value` has a type that is invalid, an error is returned. + +### *napi_instanceof* + +```C +napi_status napi_instanceof(napi_env env, + napi_value object, + napi_value constructor, + bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] object`: The JavaScript value to check. +- `[in] constructor`: The JavaScript function object of the constructor +function to check against. +- `[out] result`: Boolean that is set to true if `object instanceof constructor` +is true. + +Returns `napi_ok` if the API succeeded. + +This API represents invoking the `instanceof` Operator on the object as +defined in +[Section 12.10.4](https://tc39.github.io/ecma262/#sec-instanceofoperator) +of the ECMAScript Language Specification. + +### *napi_is_array* + +```C +napi_status napi_is_array(napi_env env, napi_value value, bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to check. +- `[out] result`: Whether the given object is an array. + +Returns `napi_ok` if the API succeeded. + +This API represents invoking the `IsArray` operation on the object +as defined in [Section 7.2.2](https://tc39.github.io/ecma262/#sec-isarray) +of the ECMAScript Language Specification. + +### *napi_is_arraybuffer* + +```C +napi_status napi_is_arraybuffer(napi_env env, napi_value value, bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to check. +- `[out] result`: Whether the given object is an ArrayBuffer. + +Returns `napi_ok` if the API succeeded. + +This API checks if the Object passsed in is an array buffer. + +### *napi_is_buffer* + +```C +napi_status napi_is_buffer(napi_env env, napi_value value, bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to check. +- `[out] result`: Whether the given `napi_value` represents a `node::Buffer` +object. + +Returns `napi_ok` if the API succeeded. + +This API checks if the Object passsed in is a buffer. + +### *napi_is_error* + +```C +napi_status napi_is_error(napi_env env, napi_value value, bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to check. +- `[out] result`: Whether the given `napi_value` represents an Error object. + +Returns `napi_ok` if the API succeeded. + +This API checks if the Object passsed in is an Error. + +### *napi_is_typedarray* + +```C +napi_status napi_is_typedarray(napi_env env, napi_value value, bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] value`: The JavaScript value to check. +- `[out] result`: Whether the given `napi_value` represents a TypedArray. + +Returns `napi_ok` if the API succeeded. + +This API checks if the Object passsed in is a typed array. + +### *napi_strict_equals* + +```C +napi_status napi_strict_equals(napi_env env, + napi_value lhs, + napi_value rhs, + bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] lhs`: The JavaScript value to check. +- `[in] rhs`: The JavaScript value to check against. +- `[out] result`: Whether the two `napi_value` objects are equal. + +Returns `napi_ok` if the API succeeded. + +This API represents the invocation of the Strict Equality algorithm as +defined in +[Section 7.2.14](https://tc39.github.io/ecma262/#sec-strict-equality-comparison) +of the ECMAScript Language Specification. + +## Working with JavaScript Properties + +N-API exposes a set of APIs to get and set properties on JavaScript +objects. Some of these types are documented under +[Section 7](https://tc39.github.io/ecma262/#sec-operations-on-objects) of the +[ECMAScript Language Specification](https://tc39.github.io/ecma262/). + +Properties in JavaScript are represented as a tuple of a key and a value. +Fundamentally, all property keys in N-API can be represented in one of the +following forms: +- Named: a simple UTF8-encoded string +- Integer-Indexed: an index value represented by `uint32_t` +- JavaScript value: these are represented in N-API by `napi_value`. This can +be a `napi_value` representing a String, Number or Symbol. + +N-API values are represented by the type `napi_value`. +Any N-API call that requires a JavaScript value takes in a `napi_value`. +However, it's the caller's responsibility to make sure that the +`napi_value` in question is of the JavaScript type expected by the API. + +The APIs documented in this section provide a simple interface to +get and set properties on arbitrary JavaScript objects represented by +`napi_value`. + +For instance, consider the following JavaScript code snippet: +```js +const obj = {}; +obj.myProp = 123; +``` +The equivalent can be done using N-API values with the following snippet: +```C +napi_status status = napi_generic_failure; + +// const obj = {} +napi_value obj, value; +status = napi_create_object(env, &obj); +if (status != napi_ok) return status; + +// Create a napi_value for 123 +status = napi_create_number(env, 123, &value); +if (status != napi_ok) return status; + +// obj.myProp = 123 +status = napi_set_named_property(env, obj, "myProp", value); +if (status != napi_ok) return status; +``` + +Indexed properties can be set in a similar manner. Consider the following +JavaScript snippet: +```js +const arr = []; +arr[123] = 'hello'; +``` +The equivalent can be done using N-API values with the following snippet: +```C +napi_status status = napi_generic_failure; + +// const arr = []; +napi_value arr, value; +status = napi_create_array(env, &arr); +if (status != napi_ok) return status; + +// Create a napi_value for 'hello' +status = napi_create_string_utf8(env, "hello", -1, &value); +if (status != napi_ok) return status; + +// arr[123] = 'hello'; +status = napi_set_element(env, arr, 123, value); +if (status != napi_ok) return status; +``` + +Properties can be retrieved using the APIs described in this section. +Consider the following JavaScript snippet: +```js +const arr = []; +const value = arr[123]; +``` + +The following is the approximate equivalent of the N-API counterpart: +```C +napi_status status = napi_generic_failure; + +// const arr = [] +napi_value arr, value; +status = napi_create_array(env, &arr); +if (status != napi_ok) return status; + +// const value = arr[123] +status = napi_get_element(env, arr, 123, &value); +if (status != napi_ok) return status; +``` + +Finally, multiple properties can also be defined on an object for performance +reasons. Consider the following JavaScript: +```js +const obj = {}; +Object.defineProperties(obj, { + 'foo': { value: 123, writable: true, configurable: true, enumerable: true }, + 'bar': { value: 456, writable: true, configurable: true, enumerable: true } +}); +``` + +The following is the approximate equivalent of the N-API counterpart: +```C +napi_status status = napi_status_generic_failure; + +// const obj = {}; +napi_value obj; +status = napi_create_obj(env, &obj); +if (status != napi_ok) return status; + +// Create napi_values for 123 and 456 +napi_value fooValue, barValue; +status = napi_create_number(env, 123, &fooValue); +if (status != napi_ok) return status; +status = napi_create_number(env, 456, &barValue); +if (status != napi_ok) return status; + +// Set the properties +napi_property_descriptors descriptors[] = { + { "foo", fooValue, 0, 0, 0, napi_default, 0 }, + { "bar", barValue, 0, 0, 0, napi_default, 0 } +} +status = napi_define_properties(env, + obj, + sizeof(descriptors) / sizeof(descriptors[0]), + descriptors); +if (status != napi_ok) return status; +``` + +### Structures +#### *napi_property_attributes* +```C +typedef enum { + napi_default = 0, + napi_read_only = 1 << 0, + napi_dont_enum = 1 << 1, + napi_dont_delete = 1 << 2, + napi_static_property = 1 << 10, +} napi_property_attributes; +``` + +`napi_property_attributes` are flags used to control the behavior of properties +set on a JavaScript object. They roughly correspond to the attributes listed in +[Section 6.1.7.1](https://tc39.github.io/ecma262/#table-2) of the +[ECMAScript Language Specification](https://tc39.github.io/ecma262/). They can +be one or more of the following bitflags: + +- `napi_default` - Used to indicate that no explicit attributes are set on the +given property. By default, a property is Writable, Enumerable, and + Configurable. This is a deviation from the ECMAScript specification, + where generally the values for a property descriptor attribute default to + false if they're not provided. +- `napi_read_only` - Used to indicate that a given property is not Writable. +- `napi_dont_enum` - Used to indicate that a given property is not Enumerable. +- `napi_dont_delete` - Used to indicate that a given property is not. +Configurable, as defined in +[Section 6.1.7.1](https://tc39.github.io/ecma262/#table-2) of the +[ECMAScript Language Specification](https://tc39.github.io/ecma262/). +- `napi_static_property` - Used to indicate that the property will be defined as +a static property on a class as opposed to an instance property, which is the +default. This is used only by [`napi_define_class`][]. It is ignored by +`napi_define_properties`. + +#### *napi_property_descriptor* +```C +typedef struct { + const char* utf8name; + + napi_callback method; + napi_callback getter; + napi_callback setter; + napi_value value; + + napi_property_attributes attributes; + void* data; +} napi_property_descriptor; +``` + +- `utf8name`: String describing the key for the property, encoded as UTF8. +- `value`: The value that's retrieved by a get access of the property if the + property is a data property. If this is passed in, set `getter`, `setter`, + `method` and `data` to `NULL` (since these members won't be used). +- `getter`: A function to call when a get access of the property is performed. +If this is passed in, set `value` and `method` to `NULL` (since these members +won't be used). The given function is called implicitly by the runtime when the +property is accessed from JavaScript code (or if a get on the property is +performed using a N-API call). +- `setter`: A function to call when a set access of the property is performed. +If this is passed in, set `value` and `method` to `NULL` (since these members +won't be used). The given function is called implicitly by the runtime when the +property is set from JavaScript code (or if a set on the property is +performed using a N-API call). +- `method`: Set this to make the property descriptor object's `value` +property to be a JavaScript function represented by `method`. If this is +passed in, set `value`, `getter` and `setter` to `NULL` (since these members +won't be used). +- `data`: The callback data passed into `method`, `getter` and `setter` if +this function is invoked. +- `attributes`: The attributes associated with the particular property. +See [`napi_property_attributes`](#napi_property_attributes). + +### Functions +#### *napi_get_property_names* + +```C +napi_status napi_get_property_names(napi_env env, + napi_value object, + napi_value* result); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object from which to retrieve the properties. +- `[out] result`: A `napi_value` representing an array of JavaScript values +that represent the property names of the object. The API can be used to +iterate over `result` using [`napi_get_array_length`][] +and [`napi_get_element`][]. + +Returns `napi_ok` if the API succeeded. + +This API returns the array of propertys for the Object passed in + +#### *napi_set_property* + +```C +napi_status napi_set_property(napi_env env, + napi_value object, + napi_value key, + napi_value value); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object on which to set the property. +- `[in] key`: The name of the property to set. +- `[in] value`: The property value. + +Returns `napi_ok` if the API succeeded. + +This API set a property on the Object passed in. + +#### *napi_get_property* + +```C +napi_status napi_get_property(napi_env env, + napi_value object, + napi_value key, + napi_value* result); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object from which to retrieve the property. +- `[in] key`: The name of the property to retrieve. +- `[out] result`: The value of the property. + +Returns `napi_ok` if the API succeeded. + +This API gets the requested property from the Object passed in. + + +#### *napi_has_property* + +```C +napi_status napi_has_property(napi_env env, + napi_value object, + napi_value key, + bool* result); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object to query. +- `[in] key`: The name of the property whose existence to check. +- `[out] result`: Whether the property exists on the object or not. + +Returns `napi_ok` if the API succeeded. + +This API checks if the Object passed in has the named property. + + +#### *napi_set_named_property* + +```C +napi_status napi_set_named_property(napi_env env, + napi_value object, + const char* utf8Name, + napi_value value); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object on which to set the property. +- `[in] utf8Name`: The name of the property to set. +- `[in] value`: The property value. + +Returns `napi_ok` if the API succeeded. + +This method is equivalent to calling [`napi_set_property`][] with a `napi_value` +created from the string passed in as `utf8Name` + +#### *napi_get_named_property* + +```C +napi_status napi_get_named_property(napi_env env, + napi_value object, + const char* utf8Name, + napi_value* result); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object from which to retrieve the property. +- `[in] utf8Name`: The name of the property to get. +- `[out] result`: The value of the property. + +Returns `napi_ok` if the API succeeded. + +This method is equivalent to calling [`napi_get_property`][] with a `napi_value` +created from the string passed in as `utf8Name` + +#### *napi_has_named_property* + +```C +napi_status napi_has_named_property(napi_env env, + napi_value object, + const char* utf8Name, + bool* result); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object to query. +- `[in] utf8Name`: The name of the property whose existence to check. +- `[out] result`: Whether the property exists on the object or not. + +Returns `napi_ok` if the API succeeded. + +This method is equivalent to calling [`napi_has_property`][] with a `napi_value` +created from the string passed in as `utf8Name` + +#### *napi_set_element* + +```C +napi_status napi_set_element(napi_env env, + napi_value object, + uint32_t index, + napi_value value); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object from which to set the properties. +- `[in] index`: The index of the property to set. +- `[in] value`: The property value. + +Returns `napi_ok` if the API succeeded. + +This API sets and element on the Object passed in. + +#### *napi_get_element* + +```C +napi_status napi_get_element(napi_env env, + napi_value object, + uint32_t index, + napi_value* result); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object from which to retrieve the property. +- `[in] index`: The index of the property to get. +- `[out] result`: The value of the property. + +Returns `napi_ok` if the API succeeded. + +This API gets the element at the requested index. + +#### *napi_has_element* + +```C +napi_status napi_has_element(napi_env env, + napi_value object, + uint32_t index, + bool* result); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object to query. +- `[in] index`: The index of the property whose existence to check. +- `[out] result`: Whether the property exists on the object or not. + +Returns `napi_ok` if the API succeeded. + +This API returns if the Object passed in has an element at the +requested index. + +#### *napi_define_properties* + +```C +napi_status napi_define_properties(napi_env env, + napi_value object, + size_t property_count, + const napi_property_descriptor* properties); +``` + +- `[in] env`: The environment that the N-API call is invoked under. +- `[in] object`: The object from which to retrieve the properties. +- `[in] property_count`: The number of elements in the `properties` array. +- `[in] properties`: The array of property descriptors. + +Returns `napi_ok` if the API succeeded. + +This method allows the efficient definition of multiple properties on a given +object. The properties are defined using property descriptors (See +[`napi_property_descriptor`][]). Given an array of such property descriptors, this +API will set the properties on the object one at a time, as defined by +DefineOwnProperty (described in [Section 9.1.6][] of the ECMA262 specification). + +## Working with JavaScript Functions + +N-API provides a set of APIs that allow JavaScript code to +call back into native code. N-API APIs that support calling back +into native code take in a callback functions represented by +the `napi_callback` type. When the JavaScript VM calls back to +native code, the `napi_callback` function provided is invoked. The APIs +documented in this section allow the callback function to do the +following: +- Get information about the context in which the callback was invoked. +- Get the arguments passed into the callback. +- Return a `napi_value` back from the callback. + +Additionally, N-API provides a set of functions which allow calling +JavaScript functions from native code. One can either call a function +like a regular JavaScript function call, or as a constructor +function. + + +### *napi_call_function* + +```C +napi_status napi_call_function(napi_env env, + napi_value recv, + napi_value func, + int argc, + const napi_value* argv, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] recv`: The `this` object passed to the called function. +- `[in] func`: `napi_value` representing the JavaScript function +to be invoked. +- `[in] argc`: The count of elements in the `argv` array. +- `[in] argv`: Array of `napi_values` representing JavaScript values passed +in as arguments to the function. +- `[out] result`: `napi_value` representing the JavaScript object returned. + +Returns `napi_ok` if the API succeeded. + +This method allows a JavaScript function object to be called from a native +add-on. This is an primary mechanism of calling back *from* the add-on's +native code *into* JavaScript. For special cases like calling into JavaScript +after an async operation, see [`napi_make_callback`][]. + +A sample use case might look as follows. Consider the following JavaScript +snippet: +```js +function AddTwo(num) { + return num + 2; +} +``` + +Then, the above function can be invoked from a native add-on using the +following code: +```C +// Get the function named "AddTwo" on the global object +napi_value global, add_two, arg; +napi_status status = napi_get_global(env, &global); +if (status != napi_ok) return; + +status = napi_get_named_property(env, global, "AddTwo", &add_two); +if (status != napi_ok) return; + +// const arg = 1337 +status = napi_create_number(env, 1337, &arg); +if (status != napi_ok) return; + +napi_value* argv = &arg; +size_t argc = 1; + +// AddTwo(arg); +napi_value return_val; +status = napi_call_function(env, global, add_two, argc, argv, &return_val); +if (status != napi_ok) return; + +// Convert the result back to a native type +int32_t result; +status = napi_get_value_int32(env, return_val, &result); +if (status != napi_ok) return; +``` + +### *napi_create_function* + +```C +napi_status napi_create_function(napi_env env, + const char* utf8name, + napi_callback cb, + void* data, + napi_value* result); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] utf8Name`: The name of the function encoded as UTF8. This is visible +within JavaScript as the new function object's `name` property. +- `[in] cb`: The native function which should be called when this function +object is invoked. +- `[in] data`: User-provided data context. This will be passed back into the +function when invoked later. +- `[out] result`: `napi_value` representing the JavaScript function object for +the newly created function. + +Returns `napi_ok` if the API succeeded. + +This API allows an add-on author to create a function object in native code. +This is the primary mechanism to allow calling *into* the add-on's native code +*from* Javascript. + +**Note:** The newly created function is not automatically visible from +script after this call. Instead, a property must be explicitly set on any +object that is visible to JavaScript, in order for the function to be accessible +from script. + +In order to expose a function as part of the +add-on's module exports, set the newly created function on the exports +object. A sample module might look as follows: +```C +void SayHello(napi_env env, napi_callback_info info) { + printf("Hello\n"); +} + +void Init(napi_env env, napi_value exports, napi_value module, void* priv) { + napi_status status; + + napi_value fn; + status = napi_create_function(env, NULL, SayHello, NULL, &fn); + if (status != napi_ok) return; + + status = napi_set_named_property(env, exports, "sayHello", fn); + if (status != napi_ok) return; +} + +NAPI_MODULE(addon, Init) +``` + +Given the above code, the add-on can be used from JavaScript as follows: +```js +const myaddon = require('./addon'); +myaddon.sayHello(); +``` + +**Note:** The string passed to require is not necessarily the name passed into +`NAPI_MODULE` in the earlier snippet but the name of the target in `binding.gyp` +responsible for creating the `.node` file. + +### *napi_get_cb_info* + +```C +napi_status napi_get_cb_info(napi_env env, + napi_callback_info cbinfo, + size_t* argc, + napi_value* argv, + napi_value* thisArg, + void** data) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] cbinfo`: The callback info passed into the callback function. +- `[in-out] argc`: Specifies the size of the provided `argv` array +and receives the actual count of arguments. +- `[out] argv`: Buffer to which the `napi_value` representing the +arguments are copied. If there are more arguments than the provided +count, only the requested number of arguments are copied. If there are fewer +arguments provided than claimed, the rest of `argv` is filled with `napi_value` +values that represent `undefined`. +- `[out] this`: Receives the JavaScript `this` argument for the call. +- `[out] data`: Receives the data pointer for the callback. + +Returns `napi_ok` if the API succeeded. + +This method is used within a callback function to retrieve details about the +call like the arguments and the `this` pointer from a given callback info. + +### *napi_is_construct_call* + +```C +napi_status napi_is_construct_call(napi_env env, + napi_callback_info cbinfo, + bool* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] cbinfo`: The callback info passed into the callback function. +- `[out] result`: Whether the native function is being invoked as +a constructor call. + +Returns `napi_ok` if the API succeeded. + +This API checks if the the current callback was due to a +consructor call. + +### *napi_new_instance* + +```C +napi_status napi_new_instance(napi_env env, + napi_value cons, + size_t argc, + napi_value* argv, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] cons`: `napi_value` representing the JavaScript function +to be invoked as a constructor. +- `[in] argc`: The count of elements in the `argv` array. +- `[in] argv`: Array of JavaScript values as `napi_value` +representing the arguments to the constructor. +- `[out] result`: `napi_value` representing the JavaScript object returned, +which in this case is the constructed object. + +This method is used to instantiate a new JavaScript value using a given +`napi_value` that represents the constructor for the object. For example, +consider the following snippet: +```js +function MyObject(param) { + this.param = param; +} + +const arg = 'hello'; +const value = new MyObject(arg); +``` + +The following can be approximated in N-API using the following snippet: +```C +// Get the constructor function MyObject +napi_value global, constructor, arg, value; +napi_status status = napi_get_global(env, &global); +if (status != napi_ok) return; + +status = napi_get_named_property(env, global, "MyObject", &constructor); +if (status != napi_ok) return; + +// const arg = "hello" +status = napi_create_string_utf8(env, "hello", -1, &arg); +if (status != napi_ok) return; + +napi_value* argv = &arg; +size_t argc = 1; + +// const value = new MyObject(arg) +status = napi_new_instance(env, constructor, argc, argv, &value); +``` + +Returns `napi_ok` if the API succeeded. + +### *napi_make_callback* + +```C +napi_status napi_make_callback(napi_env env, + napi_value recv, + napi_value func, + int argc, + const napi_value* argv, + napi_value* result) +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] recv`: The `this` object passed to the called function. +- `[in] func`: `napi_value` representing the JavaScript function +to be invoked. +- `[in] argc`: The count of elements in the `argv` array. +- `[in] argv`: Array of JavaScript values as `napi_value` +representing the arguments to the function. +- `[out] result`: `napi_value` representing the JavaScript object returned. + +Returns `napi_ok` if the API succeeded. + +This method allows a JavaScript function object to be called from a native +add-on. This API is similar to `napi_call_function`. However, it is used to call +*from* native code back *into* JavaScript *after* returning from an async +operation (when there is no other script on the stack). It is a fairly simple +wrapper around `node::MakeCallback`. + +For an example on how to use `napi_make_callback`, see the section on +[Asynchronous Operations][]. + +## Object Wrap + +N-API offers a way to "wrap" C++ classes and instances so that the class +constructor and methods can be called from JavaScript. + + 1. The [`napi_define_class`][] API defines a JavaScript class with constructor, + static properties and methods, and instance properties and methods that + correspond to the The C++ class. + 2. When JavaScript code invokes the constructor, the constructor callback + uses [`napi_wrap`][] to wrap a new C++ instance in a JavaScript object, + then returns the wrapper object. + 3. When JavaScript code invokes a method or property accessor on the class, + the corresponding `napi_callback` C++ function is invoked. For an instance + callback, [`napi_unwrap`][] obtains the C++ instance that is the target of + the call. + +### *napi_define_class* + +```C +napi_status napi_define_class(napi_env env, + const char* utf8name, + napi_callback constructor, + void* data, + size_t property_count, + const napi_property_descriptor* properties, + napi_value* result); +``` + + - `[in] env`: The environment that the API is invoked under. + - `[in] utf8name`: Name of the JavaScript constructor function; this is + not required to be the same as the C++ class name, though it is recommended + for clarity. + - `[in] constructor`: Callback function that handles constructing instances + of the class. (This should be a static method on the class, not an actual + C++ constructor function.) + - `[in] data`: Optional data to be passed to the constructor callback as + the `data` property of the callback info. + - `[in] property_count`: Number of items in the `properties` array argument. + - `[in] properties`: Array of property descriptors describing static and + instance data properties, accessors, and methods on the class + See `napi_property_descriptor`. + - `[out] result`: A `napi_value` representing the constructor function for + the class. + +Returns `napi_ok` if the API succeeded. + +Defines a JavaScript class that corresponds to a C++ class, including: + - A JavaScript constructor function that has the class name and invokes the + provided C++ constructor callback. + - Properties on the constructor function corresponding to _static_ data + properties, accessors, and methods of the C++ class (defined by + property descriptors with the `napi_static` attribute). + - Properties on the constructor function's `prototype` object corresponding to + _non-static_ data properties, accessors, and methods of the C++ class + (defined by property descriptors without the `napi_static` attribute). + +The C++ constructor callback should be a static method on the class that calls +the actual class constructor, then wraps the new C++ instance in a JavaScript +object, and returns the wrapper object. See `napi_wrap()` for details. + +The JavaScript constructor function returned from [`napi_define_class`][] is +often saved and used later, to construct new instances of the class from native +code, and/or check whether provided values are instances of the class. In that +case, to prevent the function value from being garbage-collected, create a +persistent reference to it using [`napi_create_reference`][] and ensure the +reference count is kept >= 1. + +### *napi_wrap* + +```C +napi_status napi_wrap(napi_env env, + napi_value js_object, + void* native_object, + napi_finalize finalize_cb, + void* finalize_hint, + napi_ref* result); +``` + + - `[in] env`: The environment that the API is invoked under. + - `[in] js_object`: The JavaScript object that will be the wrapper for the + native object. This object _must_ have been created from the `prototype` of + a constructor that was created using `napi_define_class()`. + - `[in] native_object`: The native instance that will be wrapped in the + JavaScript object. + - `[in] finalize_cb`: Optional native callback that can be used to free the + native instance when the JavaScript object is ready for garbage-collection. + - `[in] finalize_hint`: Optional contextual hint that is passed to the + finalize callback. + - `[out] result`: Optional reference to the wrapped object. + +Returns `napi_ok` if the API succeeded. + +Wraps a native instance in JavaScript object of the corresponding type. + +When JavaScript code invokes a constructor for a class that was defined using +`napi_define_class()`, the `napi_callback` for the constructor is invoked. +After constructing an instance of the native class, the callback must then call +`napi_wrap()` to wrap the newly constructed instance in the already-created +JavaScript object that is the `this` argument to the constructor callback. +(That `this` object was created from the constructor function's `prototype`, +so it already has definitions of all the instance properties and methods.) + +Typically when wrapping a class instance, a finalize callback should be +provided that simply deletes the native instance that is received as the `data` +argument to the finalize callback. + +The optional returned reference is initially a weak reference, meaning it +has a reference count of 0. Typically this reference count would be incremented +temporarily during async operations that require the instance to remain valid. + +Caution: The optional returned reference (if obtained) should be deleted via +[`napi_delete_reference`][] ONLY in response to the finalize callback invocation. +(If it is deleted before then, then the finalize callback may never be +invoked.) Therefore when obtaining a reference a finalize callback is also +required in order to enable correct proper of the reference. + +### *napi_unwrap* + +```C +napi_status napi_unwrap(napi_env env, + napi_value js_object, + void** result); +``` + + - `[in] env`: The environment that the API is invoked under. + - `[in] js_object`: The object associated with the C++ class instance. + - `[out] result`: Pointer to the wrapped C++ class instance. + +Returns `napi_ok` if the API succeeded. + +When JavaScript code invokes a method or property accessor on the class, the +corresponding `napi_callback` is invoked. If the callback is for an instance +method or accessor, then the `this` argument to the callback is the wrapper +object; the wrapped C++ instance that is the target of the call can be obtained +then by calling `napi_unwrap()` on the wrapper object. + +## Asynchronous Operations + +Addon modules often need to leverage async helpers from libuv as part of their +implementation. This allows them to schedule work to be executed asynchronously +so that their methods can return in advance of the work being completed. This +is important in order to allow them to avoid blocking overall execution +of the Node.js application. + +N-API provides an ABI-stable interface for these +supporting functions which covers the most common asynchronous use cases. + +N-API defines the `napi_work` structure which is used to manage +asynchronous workers. Instances are created/deleted with +[`napi_create_async_work`][] and [`napi_delete_async_work`][]. + +The `execute` and `complete` callbacks are functions that will be +invoked when the executor is ready to execute and when it completes its +task respectively. These functions implement the following interfaces: + +```C +typedef void (*napi_async_execute_callback)(napi_env env, + void* data); +typedef void (*napi_async_complete_callback)(napi_env env, + napi_status status, + void* data); +``` + + +When these methods are invoked, the `data` parameter passed will be the +addon-provided void* data that was passed into the +`napi_create_async_work` call. + +Once created the async worker can be queued +for execution using the [`napi_queue_async_work`][] function: + +```C +NAPI_EXTERN napi_status napi_queue_async_work(napi_env env, + napi_async_work work); +``` + +[`napi_cancel_async_work`][] can be used if the work needs +to be cancelled before the work has started execution. + +After calling [`napi_cancel_async_work`][], the `complete` callback +will be invoked with a status value of `napi_cancelled`. +The work should not be deleted before the `complete` +callback invocation, even when it was cancelled. + +**Note:** As mentioned in the section on memory management, if +the code to be run in the callbacks will create N-API values, then +N-API handle scope functions must be used to create/destroy a +`napi_handle_scope` such that the scope is active when +objects can be created. + + +### napi_create_async_work + +```C +NAPI_EXTERN +napi_status napi_create_async_work(napi_env env, + napi_async_execute_callback execute, + napi_async_complete_callback complete, + void* data, + napi_async_work* result); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] execute`: The native function which should be called to excute +the logic asynchronously. +- `[in] complete`: The native function which will be called when the +asynchronous logic is comple or is cancelled. +- `[in] data`: User-provided data context. This will be passed back into the +execute and complete functions. +- `[out] result`: `napi_async_work*` which is the handle to the newly created +async work. + +Returns `napi_ok` if the API succeeded. + +This API allocates a work object that is used to execute logic asynchronously. +It should be freed using [`napi_delete_async_work`][] once the work is no longer +required. + +### napi_delete_async_work + +```C +NAPI_EXTERN napi_status napi_delete_async_work(napi_env env, + napi_async_work work); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] work`: The handle returned by the call to `napi_create_async_work`. + +Returns `napi_ok` if the API succeeded. + +This API frees a previously allocated work object. + +### napi_queue_async_work + +```C +NAPI_EXTERN napi_status napi_queue_async_work(napi_env env, + napi_async_work work); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] work`: The handle returned by the call to `napi_create_async_work`. + +Returns `napi_ok` if the API succeeded. + +This API requests that the previously allocated work be scheduled +for execution. + +### napi_cancel_async_work + +```C +NAPI_EXTERN napi_status napi_cancel_async_work(napi_env env, + napi_async_work work); +``` + +- `[in] env`: The environment that the API is invoked under. +- `[in] work`: The handle returned by the call to `napi_create_async_work`. + +Returns `napi_ok` if the API succeeded. + +This API cancels a previously allocated work, provided +it has not yet been queued for execution. After this function is called +the `complete` callback will be invoked with a status value of +`napi_cancelled`. The work should not be deleted before the `complete` +callback invocation, even when it was cancelled. + + +[Aynchronous Operations]: #n_api_asynchronous_operations +[Basic N-API Data Types]: #n_api_basic_n_api_data_types +[ECMAScript Language Specification]: https://tc39.github.io/ecma262/ +[Error Handling]: #n_api_error_handling +[Module Registration]: #n_api_module_registration +[Native Abstractions for Node.js]: https://github.com/nodejs/nan +[Object Lifetime Management]: #n_api_object_lifetime_management +[Object Wrap]: #n_api_object_wrap +[Section 9.1.6]: https://tc39.github.io/ecma262/#sec-ordinary-object-internal-methods-and-internal-slots-defineownproperty-p-desc +[Section 12.5.5]: https://tc39.github.io/ecma262/#sec-typeof-operator +[Working with JavaScript Functions]: #n_api_working_with_javascript_functions +[Working with JavaScript Properties]: #n_api_working_with_javascript_properties +[Working with JavaScript Values]: #n_api_working_with_javascript_values +[Working with JavaScript Values - Abstract Operations]: #n_api_working_with_javascript_values_abstract_operations + +[`napi_cancel_async_work`]: #n_api_napi_cancel_async_work +[`napi_close_escapable_handle_scope`]: #n_api_napi_close_escapable_handle_scope +[`napi_close_handle_scope`]: #n_api_napi_close_handle_scope +[`napi_create_async_work`]: #n_api_napi_create_async_work +[`napi_create_error`]: #n_api_napi_create_error +[`napi_create_external_arraybuffer`][]: #n_api_napi_create_external_arraybuffer +[`napi_create_range_error`]: #n_api_napi_create_range_error +[`napi_create_reference`]: #n_api_napi_create_reference +[`napi_create_type_error`]: #n_api_napi_create_type_error +[`napi_define_class`]: #n_api_napi_define_class +[`napi_delete_async_work`]: #n_api_napi_delete_async_work +[`napi_define_class`][]: #n_api_napi_define_class +[`napi_delete_reference`]: #n_api_napi_delete_reference +[`napi_escape_handle`]: #n_api_napi_escape_handle +[`napi_get_array_length`]: #n_api_napi_get_array_length +[`napi_get_element`]: #n_api_napi_get_element +[`napi_get_property`]: #n_api_napi_get_property +[`napi_has_property`]: #n_api_napi_has_property +[`napi_set_property`]: #n_api_napi_set_property +[`napi_get_reference_value`]: #n_api_napi_get_reference_value +[`napi_is_error`]: #n_api_napi_is_error +[`napi_is_exception_pending`]: #n_api_napi_is_exception_pending +[`napi_get_last_error_info`]: #n_api_napi_get_last_error_info +[`napi_get_and_clear_last_exception`]: #n_api_napi_get_and_clear_last_exception +[`napi_make_callback`]: #n_api_napi_make_callback +[`napi_open_escapable_handle_scope`]: #n_api_napi_open_escapable_handle_scope +[`napi_open_handle_scope`]: #n_api_napi_open_handle_scope +[`napi_property_descriptor`]: #n_api_napi_property_descriptor +[`napi_queue_async_work`]: #n_api_napi_queue_async_work +[`napi_reference_ref`]: #n_api_napi_reference_ref +[`napi_reference_unref`]: #n_api_napi_reference_unref +[`napi_throw_error`]: #n_api_napi_throw_error +[`napi_throw_range_error`]: #n_api_napi_throw_range_error +[`napi_throw_type_error`]: #n_api_napi_throw_type_error +[`napi_unwrap`]: #n_api_napi_unwrap +[`napi_wrap`]: #n_api_napi_wrap