inferers.js

import * as t from "@babel/types";

export { default as Identifier } from "./inferer-reference";

export function VariableDeclarator() {
  const id = this.get("id");

  if (!id.isIdentifier()) return;
  const init = this.get("init");

  let type = init.getTypeAnnotation();

  if (type && type.type === "AnyTypeAnnotation") {
    // Detect "var foo = Array()" calls so we can optimize for arrays vs iterables.
    if (
      init.isCallExpression() &&
      init.get("callee").isIdentifier({ name: "Array" }) &&
      !init.scope.hasBinding("Array", true /* noGlobals */)
    ) {
      type = ArrayExpression();
    }
  }

  return type;
}

export function TypeCastExpression(node) {
  return node.typeAnnotation;
}

TypeCastExpression.validParent = true;

export function NewExpression(node) {
  if (this.get("callee").isIdentifier()) {
    // only resolve identifier callee
    return t.genericTypeAnnotation(node.callee);
  }
}

export function TemplateLiteral() {
  return t.stringTypeAnnotation();
}

export function UnaryExpression(node) {
  const operator = node.operator;

  if (operator === "void") {
    return t.voidTypeAnnotation();
  } else if (t.NUMBER_UNARY_OPERATORS.indexOf(operator) >= 0) {
    return t.numberTypeAnnotation();
  } else if (t.STRING_UNARY_OPERATORS.indexOf(operator) >= 0) {
    return t.stringTypeAnnotation();
  } else if (t.BOOLEAN_UNARY_OPERATORS.indexOf(operator) >= 0) {
    return t.booleanTypeAnnotation();
  }
}

export function BinaryExpression(node) {
  const operator = node.operator;

  if (t.NUMBER_BINARY_OPERATORS.indexOf(operator) >= 0) {
    return t.numberTypeAnnotation();
  } else if (t.BOOLEAN_BINARY_OPERATORS.indexOf(operator) >= 0) {
    return t.booleanTypeAnnotation();
  } else if (operator === "+") {
    const right = this.get("right");
    const left = this.get("left");

    if (left.isBaseType("number") && right.isBaseType("number")) {
      // both numbers so this will be a number
      return t.numberTypeAnnotation();
    } else if (left.isBaseType("string") || right.isBaseType("string")) {
      // one is a string so the result will be a string
      return t.stringTypeAnnotation();
    }

    // unsure if left and right are strings or numbers so stay on the safe side
    return t.unionTypeAnnotation([
      t.stringTypeAnnotation(),
      t.numberTypeAnnotation(),
    ]);
  }
}

export function LogicalExpression() {
  const argumentTypes = [
    this.get("left").getTypeAnnotation(),
    this.get("right").getTypeAnnotation(),
  ];

  if (t.isTSTypeAnnotation(argumentTypes[0]) && t.createTSUnionType) {
    return t.createTSUnionType(argumentTypes);
  }

  if (t.createFlowUnionType) {
    return t.createFlowUnionType(argumentTypes);
  }

  return t.createUnionTypeAnnotation(argumentTypes);
}

export function ConditionalExpression() {
  const argumentTypes = [
    this.get("consequent").getTypeAnnotation(),
    this.get("alternate").getTypeAnnotation(),
  ];

  if (t.isTSTypeAnnotation(argumentTypes[0]) && t.createTSUnionType) {
    return t.createTSUnionType(argumentTypes);
  }

  if (t.createFlowUnionType) {
    return t.createFlowUnionType(argumentTypes);
  }

  return t.createUnionTypeAnnotation(argumentTypes);
}

export function SequenceExpression() {
  return this.get("expressions")
    .pop()
    .getTypeAnnotation();
}

export function ParenthesizedExpression() {
  return this.get("expression").getTypeAnnotation();
}

export function AssignmentExpression() {
  return this.get("right").getTypeAnnotation();
}

export function UpdateExpression(node) {
  const operator = node.operator;
  if (operator === "++" || operator === "--") {
    return t.numberTypeAnnotation();
  }
}

export function StringLiteral() {
  return t.stringTypeAnnotation();
}

export function NumericLiteral() {
  return t.numberTypeAnnotation();
}

export function BooleanLiteral() {
  return t.booleanTypeAnnotation();
}

export function NullLiteral() {
  return t.nullLiteralTypeAnnotation();
}

export function RegExpLiteral() {
  return t.genericTypeAnnotation(t.identifier("RegExp"));
}

export function ObjectExpression() {
  return t.genericTypeAnnotation(t.identifier("Object"));
}

export function ArrayExpression() {
  return t.genericTypeAnnotation(t.identifier("Array"));
}

export function RestElement() {
  return ArrayExpression();
}

RestElement.validParent = true;

function Func() {
  return t.genericTypeAnnotation(t.identifier("Function"));
}

export {
  Func as FunctionExpression,
  Func as ArrowFunctionExpression,
  Func as FunctionDeclaration,
  Func as ClassExpression,
  Func as ClassDeclaration,
};

const isArrayFrom = t.buildMatchMemberExpression("Array.from");
const isObjectKeys = t.buildMatchMemberExpression("Object.keys");
const isObjectValues = t.buildMatchMemberExpression("Object.values");
const isObjectEntries = t.buildMatchMemberExpression("Object.entries");
export function CallExpression() {
  const { callee } = this.node;
  if (isObjectKeys(callee)) {
    return t.arrayTypeAnnotation(t.stringTypeAnnotation());
  } else if (isArrayFrom(callee) || isObjectValues(callee)) {
    return t.arrayTypeAnnotation(t.anyTypeAnnotation());
  } else if (isObjectEntries(callee)) {
    return t.arrayTypeAnnotation(
      t.tupleTypeAnnotation([t.stringTypeAnnotation(), t.anyTypeAnnotation()]),
    );
  }

  return resolveCall(this.get("callee"));
}

export function TaggedTemplateExpression() {
  return resolveCall(this.get("tag"));
}

function resolveCall(callee) {
  callee = callee.resolve();

  if (callee.isFunction()) {
    if (callee.is("async")) {
      if (callee.is("generator")) {
        return t.genericTypeAnnotation(t.identifier("AsyncIterator"));
      } else {
        return t.genericTypeAnnotation(t.identifier("Promise"));
      }
    } else {
      if (callee.node.returnType) {
        return callee.node.returnType;
      } else {
        // todo: get union type of all return arguments
      }
    }
  }
}