GraphQL-JS is a very well written runtime implementation of the latest GraphQL spec. However, by compiling to JS, V8 is able to create optimized
code which yields much better performance. graphql-jit
leverages this behaviour of V8 optimization by compiling the queries into functions to significantly improve performance (See benchmarks below)
GraphQL-JS 16 on Node 16.13.0
$ yarn benchmark skip-json
Starting introspection
graphql-js x 1,941 ops/sec ±2.50% (225 runs sampled)
graphql-jit x 6,158 ops/sec ±2.38% (222 runs sampled)
Starting fewResolvers
graphql-js x 26,620 ops/sec ±2.41% (225 runs sampled)
graphql-jit x 339,223 ops/sec ±2.94% (215 runs sampled)
Starting manyResolvers
graphql-js x 16,415 ops/sec ±2.36% (220 runs sampled)
graphql-jit x 178,331 ops/sec ±2.73% (221 runs sampled)
Starting nestedArrays
graphql-js x 127 ops/sec ±1.43% (220 runs sampled)
graphql-jit x 1,316 ops/sec ±2.58% (219 runs sampled)
Done in 141.25s.
The goal is to support the June 2018 version of the GraphQL spec.
In order to achieve better performance, the graphql-jit
compiler introduces some limitations.
The primary limitation is that all computed properties must have a resolver and only these can return a Promise
.
More details here - GraphQL-JS.md
yarn add graphql-jit
For complete working examples, check the examples/ directory
const typeDefs = `
type Query {
hello: String
}
`;
const resolvers = {
Query: {
hello() {
return new Promise((resolve) => setTimeout(() => resolve("World!"), 200));
}
}
};
const { makeExecutableSchema } = require("@graphql-tools/schema");
const schema = makeExecutableSchema({ typeDefs, resolvers });
const query = `
{
hello
}
`;
const { parse } = require("graphql");
const document = parse(query);
const { compileQuery, isCompiledQuery } = require("graphql-jit");
const compiledQuery = compileQuery(schema, document);
// check if the compilation is successful
if (!isCompiledQuery(compiledQuery)) {
console.error(compiledQuery);
throw new Error("Error compiling query");
}
const executionResult = await compiledQuery.query(root, context, variables);
console.log(executionResult);
const result = await compiledQuery.subscribe(root, context, variables);
for await (const value of result) {
console.log(value);
}
Compiles the document
AST, using an optional operationName and compiler options.
-
schema
{GraphQLSchema} -graphql
schema object -
document
{DocumentNode} - document query AST ,can be obtained byparse
fromgraphql
-
operationName
{string} - optional operation name in case the document contains multiple operations(queries/mutations/subscription). -
compilerOptions
{Object} - Configurable options for the compiler-
disableLeafSerialization
{boolean, default: false} - disables leaf node serializers. The serializers validate the content of the field at runtime so this option should only be set to true if there are strong assurances that the values are valid. -
customSerializers
{Object as Map, default: {}} - Replace serializer functions for specific types. Can be used as a safer alternative for overly expensive serializers -
customJSONSerializer
{boolean, default: false} - Whether to produce also a JSON serializer function usingfast-json-stringify
. The default stringifier function isJSON.stringify
-
the compiled function that can be called with a root value, a context and the required variables.
(available for GraphQL Subscription only) the compiled function that can be called with a root value, a context and the required variables to produce either an AsyncIterator (if successful) or an ExecutionResult (error).
the compiled function for producing a JSON string. It will be JSON.stringify
unless compilerOptions.customJSONSerializer
is true.
The value argument should be the return of the compiled GraphQL function.
MIT