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5141704e23e1e41ec484a1efdd2e4cdb827fdcf2
DiceCloud/app/imports/parser/parseTree/call.ts
Thaum Rystra 5141704e23 Fixed failing tests and action engine props
2024-02-22 09:11:00 +02:00

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console.log('call.ts imports')
import error from '/imports/parser/parseTree/error';
import constant from '/imports/parser/parseTree/constant';
import functions, { ParserFunction } from '/imports/parser/functions';
import Context from '../types/Context';
import ResolvedResult from '../types/ResolvedResult';
import ParseNode from '/imports/parser/parseTree/ParseNode';
import { serialMap } from '/imports/api/utility/asyncMap';
import ResolveFunction from '/imports/parser/types/ResolveFunction';
import ResolveLevel from '/imports/parser/types/ResolveLevel';
import TraverseFunction from '/imports/parser/types/TraverseFunction';
import MapFunction from '/imports/parser/types/MapFunction';
import ToStringFunction from '/imports/parser/types/ToStringFunction';
export type CallNode = {
parseType: 'call';
functionName: string;
args: ParseNode[];
}
type CallFactory = {
create(node: Partial<CallNode>): CallNode;
resolve: ResolveFunction<CallNode>;
toString: ToStringFunction<CallNode>;
traverse: TraverseFunction<CallNode>;
map: MapFunction<CallNode>;
checkArguments(node: CallNode, fn: ResolveLevel, func: ParserFunction,
resolvedArgs: ParseNode[], context: Context): boolean;
}
const call: CallFactory = {
create({ functionName, args = [] }: { functionName: string, args: ParseNode[] }): CallNode {
return {
parseType: 'call',
functionName,
args,
}
},
async resolve(fn, node, scope, context, inputProvider, resolveOthers): Promise<ResolvedResult> {
const func = functions[node.functionName];
// Check that the function exists
if (!func) {
context.error(`${node.functionName} is not a supported function`);
return {
result: error.create({
node: node,
error: `${node.functionName} is not a supported function`,
}),
context,
};
}
// Resolve a given node to a maximum depth of resolution
const resolveToLevel = (node, maxResolveFn = 'reduce'): Promise<ResolvedResult> => {
// Determine the actual depth to resolve to
let resolveFn: ResolveLevel = 'reduce';
if (fn === 'compile' || maxResolveFn === 'compile') {
resolveFn = 'compile';
} else if (fn === 'roll' || maxResolveFn === 'roll') {
resolveFn = 'roll';
}
// Resolve
return resolveOthers(resolveFn, node, scope, context, inputProvider);
}
// Resolve the arguments
const resolvedArgs: ParseNode[] = [];
for (const [i, arg] of node.args.entries()) {
const { result } = await resolveToLevel(arg, func.maxResolveLevels?.[i]);
resolvedArgs.push(result);
}
// Check that the arguments match what is expected
const checkFailed = call.checkArguments(node, fn, func, resolvedArgs, context);
if (checkFailed) {
if (fn === 'reduce') {
context.error(`Invalid arguments to ${node.functionName} function`);
return {
result: error.create({
node: node,
error: `Invalid arguments to ${node.functionName} function`,
}),
context,
};
} else {
return {
result: call.create({
functionName: node.functionName,
args: resolvedArgs,
}),
context,
};
}
}
// Map constant nodes to constants before attempting to run the function
const mappedArgs = resolvedArgs.map((arg, index) => {
if (
arg.parseType === 'constant' &&
func.arguments[index] !== 'parseNode'
) {
return arg.value;
} else {
return arg;
}
});
try {
// Run the function
const value = await func.fn.apply({
scope,
context,
}, mappedArgs);
const valueType = typeof value;
if (valueType === 'number' || valueType === 'string' || valueType === 'boolean') {
// Convert constant results into constant nodes
return {
result: constant.create({ value }),
context,
};
} else {
// Resolve the return value
return resolveOthers(fn, value, scope, context, inputProvider);
}
} catch (err) {
context.error(`Internal error: ${err.message || err}`);
return {
result: error.create({
node: node,
error: `Internal error: ${err.message || err}`,
}),
context,
}
}
},
toString(node, toStringOthers) {
return `${node.functionName}(${node.args.map(arg => toStringOthers(arg)).join(', ')})`;
},
traverse(node, fn, traverseOthers) {
fn(node);
node.args.forEach(arg => traverseOthers(arg, fn));
},
async map(node, fn, mapOthers) {
const resultingNode = await fn(node);
if (resultingNode === node) {
node.args = await serialMap(node.args, async arg => mapOthers(arg, fn));
}
return resultingNode;
},
checkArguments(callNode, fn, func, resolvedArgs, context) {
const argumentsExpected = func.arguments as any;
// Check that the number of arguments matches the number expected
if (
!argumentsExpected.anyLength &&
resolvedArgs.length > (func.maxArguments ?? argumentsExpected.length) ||
resolvedArgs.length < (func.minArguments ?? argumentsExpected.length)
) {
context.error('Incorrect number of arguments ' +
`to ${callNode.functionName} function, ` +
`expected ${argumentsExpected.length} got ${resolvedArgs.length}`);
return true;
}
let failed = false;
// Check that each argument is of the correct type
resolvedArgs.forEach((node, index) => {
let expectedType;
if (argumentsExpected.anyLength) {
expectedType = argumentsExpected[0];
} else {
expectedType = argumentsExpected[index];
}
if (expectedType === 'parseNode') return;
failed = !(
node.parseType === expectedType
|| (node.parseType === 'constant' && node.valueType === expectedType)
);
if (failed && fn === 'reduce') {
const typeName = typeof expectedType === 'string' ? expectedType : expectedType.constructor.name;
const nodeName = node.parseType === 'constant' ? node.valueType : node.parseType;
context.error(`Incorrect arguments to ${callNode.functionName} function` +
`expected ${typeName} got ${nodeName}`);
}
});
return failed;
}
}
export default call;
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