This set of helpers facilitates the use of GraphQL and Apollo, it allows you to define schemas splits based on domain elements (queries, mutations, resolvers)
This package allows for modular definition of GraphQL schema. Modular definition can reflect the strucutre of your Domain Elements. The advantage of this approach is that you can keep your queries and mutations close to your domain element. A graphQL module contains following properties:
declare interface ApolloModule {
// definition of types
schema: string;
// definition of queries
queryText?: string;
// implementation of queries
queries?: Object;
// implementation of type resolvers
resolvers?: Object;
// definition of mutations
mutationText?: string;
// implmentation of mutations
mutations?: Object;
// allows you to modify apollo Options (e.g. context) based on current request
modifyOptions?: (req: any, apolloOptions: ApolloOptions) => void
}Please see the section Examples examples on how to use the domain element schema and also how to use server helpers:
To use modules in your code you need to do following:
import { addModules } from 'apollo-modules';
import { makeExecutableSchema } from 'graphql-tools';
import myModule from './my_module';
// import all your modules
const modules = addModules([
myModule,
...
];
// build your schema
const schema = makeExecutableSchema({ typeDefs: modules.schema, resolvers: modules.resolvers, allowUndefinedInResolve: true });
// init your apollo server as usual
...Following are the available methods from this package.
addModules(definition: IApolloQueryDefinition[]): void: compiles schema of several domain elements (Example: Generating schemas)createServer(apolloOptions?: ApolloOptions, executableSchema?: any): (req: any) => IApolloOptionsprovides easy initialisation of the Apollo server.ioSchema: generates your defined schema type as both input and ouput type. This is used, when you want to be sending whole documents to GraphQL server and probably is not the best practice. When defining the IO type all you need to do is to append the $Input after the type name. (Example: Advanced Schema)
List of examples of common uses of our helpers
In this example we load several modules and initialise a new server instance
import dateModule from 'apollo-modules-date';
import myModule from './myApolloModule';
import { createServer, addModules } from 'apollo-modules';
const modules = addModules([ dateModule, myModule ]);
const schema = makeExecutableSchema({ typeDefs: modules.schema, resolvers: modules.resolvers });
const graphqlOptions = {
context,
modules, // this needs to be there if you use options
schema
};
// init express
const app = ....
app.use('/graphql', apollo.apolloExpress(createServer(graphqlOptions)));In this example we initialise a simple schema that modifies the context upon each request.
import { Mongo } from 'meteor/mongo';
import { Exercises } from './exercise_schema';
export const Practicals = new Mongo.Collection<Cs.Collections.IPracticalDAO>('practicals');
const schema = `
type Practical {
_id: String
name: String
description: String
exercises: [Exercise]
}
`;
const queryText = `
practical(id: String, userId: String): Practical
`;
const modifyOptions = (req: any, apolloOptions: ApolloOptions) {
// modify context
apolloOptions.context.myValue = "NewValue";
}
const queries = {
practical(root: any, { id }: any, { userId }: Apollo.IApolloContext): Cs.Collections.IPracticalDAO {
if (!userId) {
return;
}
return Practicals.findOne({ _id: id });
}
};
const resolvers = {
Practical: {
exercises(practical: Cs.Collections.IPracticalDAO) {
return Exercises.find({ _id: { $in: practical.exercises } }).fetch();
}
}
};
const definition: IApolloDefinition = {
schema,
resolvers,
queries,
queryText,
modifyOptions
};
export default definition;import { Mongo } from 'meteor/mongo';
import { Random } from 'meteor/random';
import { ioSchema } from 'apollo-mantra/server';
declare global {
export const Exercises = new Mongo.Collection<Cs.Collections.IExerciseDAO>('exercises');
export const Questions = new Mongo.Collection<Cs.Collections.IQuestionDAO>('questions');
export const Possibilities = new Mongo.Collection<Cs.Collections.IQuestionPossibilitiesDAO>('possibilities');
export const Solutions = new Mongo.Collection<Cs.Collections.ISolutionDAO>('solutions');
const schema = `
${ioSchema(`Exercise$Input {
_id: String
name: String
instructions: String
group: String
questions: [Question$Input]
}`)}
${ioSchema(`Question$Input {
_id: String
description: String
question: String
expectedAnswer: String
validation: String
control: String
possibilities: [Possibility$Input]
points: Float
}`)}
${ioSchema(`Possibility$Input {
question: String
answer: String
}`)}
type Solution {
_id: String
userId: String
user: String
semesterId: String
practicalId: String
exerciseId: String
questionId: String
userQuestion: String
expectedAnswer: String
userAnswer: String
mark: Float
created: Date
modified: Date
finished: Boolean
tutorComment: String
}
`;
const queryText = `
exercise(id: String, userId: String): Exercise
practicalSolutions(semesterId: String, practicalId: String, userId: String): [Solution]
markingSolutions(semesterId: String, practicalId: String, lastModification: Date, userId: String): [Solution]
`;
const queries = {
exercise(root: any, { id }: any, { user, userId }: Apollo.IApolloContext): Cs.Collections.IExerciseDAO {
if (!user) {
return null;
}
return Exercises.findOne({ _id: id });
},
markingSolutions(root: any, { semesterId, practicalId, lastModification }: any, { user }: Apollo.IApolloContext): Cs.Collections.ISolutionDAO[] {
if (!user || user.roles.indexOf('tutor') === -1) {
return [];
}
console.log(lastModification);
return Solutions.find({ semesterId, practicalId, modified: { $gt: lastModification } }).fetch();
},
practicalSolutions(root: any, { semesterId, practicalId }: any, { userId, user }: Apollo.IApolloContext): Cs.Collections.ISolutionDAO[] {
const options = { fields: { expectedAnswer: 0 } };
return Solutions.find({ userId, semesterId, practicalId }, options).fetch();
}
};
const mutationText = `
mark(solutionIds: [String]!, comments: [String]!, marks: [Float]!): Boolean
save(exercise: ExerciseInput): Boolean
`;
interface IActionAnswer {
solutionIds: string[];
userAnswers: string[];
finished: boolean;
}
interface IActionMark {
solutionIds: string[];
comments: string[];
marks: number[];
}
interface IActionSave {
exercise: Cs.Entities.IExercise;
}
const mutations = {
mark(root: any, { solutionIds, comments, marks }: IActionMark, { user, userId }: Apollo.IApolloContext) {
// check for tutor
if (!user.roles.find((r) => r === 'tutor')) {
return;
}
let total = 0;
for (let i = 0; i < solutionIds.length; i++) {
let cm = marks[i] ? marks[i] : 0;
Solutions.update({ _id: solutionIds[i] }, {
$set: {
mark: cm,
tutorComment: comments[i]
}
});
}
},
save(root: any, { exercise }: IActionSave, { user }: Apollo.IApolloContext) {
if (!user.roles.find((r) => r === 'tutor')) {
return;
}
// first update the exercise
Exercises.update({ _id: exercise._id }, {
$set: {
name: exercise.name,
instructions: exercise.instructions,
group: exercise.group,
questions: exercise.questions.map((e) => e._id)
}
});
// then update all questions
for (let question of exercise.questions) {
Questions.upsert({ _id: question._id }, { $set: question });
}
}
};
const resolvers = {
Exercise: {
questions(exercise: Cs.Collections.IExerciseDAO, params: any, { user }: Apollo.IApolloContext): Cs.Collections.IQuestionDAO[] {
let options = {};
if (!user.roles || user.roles.indexOf('tutor') === -1) {
options = { fields: { expectedAnswer: 0, validation: 0, possibilities: 0 } };
}
return Questions.find({ _id: { $in: exercise.questions } }, options).fetch();
}
},
Question: {
possibilities(question: Cs.Collections.IQuestionDAO): Cs.Collections.IQuestionPossibilityDAO[] {
if (question.possibilitiesGroupId) {
return Possibilities.findOne({ _id: question.possibilitiesGroupId }).possibilities;
} else {
return null;
}
}
}
};
const definition: IApolloDefinition = {
schema,
resolvers,
queries,
queryText,
mutationText,
mutations
};
export default definition;