diff --git a/web/ui/module/codemirror-promql/src/complete/hybrid.test.ts b/web/ui/module/codemirror-promql/src/complete/hybrid.test.ts index 02d2e99f5..4728f1822 100644 --- a/web/ui/module/codemirror-promql/src/complete/hybrid.test.ts +++ b/web/ui/module/codemirror-promql/src/complete/hybrid.test.ts @@ -583,12 +583,30 @@ describe('analyzeCompletion test', () => { pos: 5, expectedContext: [{ kind: ContextKind.AtModifiers }], }, + { + title: 'autocomplete topk params', + expr: 'topk()', + pos: 5, + expectedContext: [{ kind: ContextKind.Number }], + }, + { + title: 'autocomplete topk params 2', + expr: 'topk(inf,)', + pos: 9, + expectedContext: [{ kind: ContextKind.MetricName, metricName: '' }, { kind: ContextKind.Function }, { kind: ContextKind.Aggregation }], + }, + { + title: 'autocomplete topk params 3', + expr: 'topk(inf,r)', + pos: 10, + expectedContext: [{ kind: ContextKind.MetricName, metricName: 'r' }, { kind: ContextKind.Function }, { kind: ContextKind.Aggregation }], + }, ]; testCases.forEach((value) => { it(value.title, () => { const state = createEditorState(value.expr); const node = syntaxTree(state).resolve(value.pos, -1); - const result = analyzeCompletion(state, node); + const result = analyzeCompletion(state, node, value.pos); expect(value.expectedContext).toEqual(result); }); }); diff --git a/web/ui/module/codemirror-promql/src/complete/hybrid.ts b/web/ui/module/codemirror-promql/src/complete/hybrid.ts index 28fef816d..6018b5874 100644 --- a/web/ui/module/codemirror-promql/src/complete/hybrid.ts +++ b/web/ui/module/codemirror-promql/src/complete/hybrid.ts @@ -54,6 +54,12 @@ import { QuotedLabelName, NumberDurationLiteralInDurationContext, NumberDurationLiteral, + AggregateOp, + Topk, + Bottomk, + LimitK, + LimitRatio, + CountValues, } from '@prometheus-io/lezer-promql'; import { Completion, CompletionContext, CompletionResult } from '@codemirror/autocomplete'; import { EditorState } from '@codemirror/state'; @@ -185,7 +191,7 @@ export function computeStartCompletePosition(state: EditorState, node: SyntaxNod if (node.type.id === LabelMatchers || node.type.id === GroupingLabels) { start = computeStartCompleteLabelPositionInLabelMatcherOrInGroupingLabel(node, pos); } else if ( - node.type.id === FunctionCallBody || + (node.type.id === FunctionCallBody && node.firstChild === null) || (node.type.id === StringLiteral && (node.parent?.type.id === UnquotedLabelMatcher || node.parent?.type.id === QuotedLabelMatcher)) ) { // When the cursor is between bracket, quote, we need to increment the starting position to avoid to consider the open bracket/ first string. @@ -198,6 +204,7 @@ export function computeStartCompletePosition(state: EditorState, node: SyntaxNod // So we have to analyze the string about the current node to see if the duration unit is already present or not. (node.type.id === NumberDurationLiteralInDurationContext && !durationTerms.map((v) => v.label).includes(currentText[currentText.length - 1])) || (node.type.id === NumberDurationLiteral && node.parent?.type.id === 0 && node.parent.parent?.type.id === SubqueryExpr) || + (node.type.id === FunctionCallBody && isItATopKLikeAggregationFunc(node) && node.firstChild !== null) || (node.type.id === 0 && (node.parent?.type.id === OffsetExpr || node.parent?.type.id === MatrixSelector || @@ -208,10 +215,28 @@ export function computeStartCompletePosition(state: EditorState, node: SyntaxNod return start; } +function isItATopKLikeAggregationFunc(functionCallBody: SyntaxNode): boolean { + const prevSibling = functionCallBody.prevSibling; + if (prevSibling !== null && prevSibling.type.id === AggregateOp) { + const aggregationOpType = prevSibling.firstChild; + if ( + aggregationOpType !== null && + (aggregationOpType.type.id == Topk || + aggregationOpType.type.id === Bottomk || + aggregationOpType.type.id === LimitK || + aggregationOpType.type.id === LimitRatio || + aggregationOpType.type.id === CountValues) + ) { + return true; + } + } + return false; +} + // analyzeCompletion is going to determinate what should be autocompleted. // The value of the autocompletion is then calculate by the function buildCompletion. // Note: this method is exported for testing purpose only. Do not use it directly. -export function analyzeCompletion(state: EditorState, node: SyntaxNode): Context[] { +export function analyzeCompletion(state: EditorState, node: SyntaxNode, pos: number): Context[] { const result: Context[] = []; switch (node.type.id) { case 0: // 0 is the id of the error node @@ -330,7 +355,7 @@ export function analyzeCompletion(state: EditorState, node: SyntaxNode): Context } // now we have to know if we have two Expr in the direct children of the `parent` const containExprTwice = containsChild(parent, 'Expr', 'Expr'); - if (containExprTwice) { + if (containExprTwice && parent.type.id !== FunctionCallBody) { if (parent.type.id === BinaryExpr && !containsAtLeastOneChild(parent, 0)) { // We are likely in the case 1 or 5 result.push( @@ -460,7 +485,23 @@ export function analyzeCompletion(state: EditorState, node: SyntaxNode): Context result.push({ kind: ContextKind.Duration }); break; case FunctionCallBody: - // In this case we are in the given situation: + // For aggregation function such as Topk, the first parameter is a number. + // The second one is an expression. + // When moving to the second parameter, the node is an error node. + // Unfortunately, as a current node, codemirror doesn't give us the error node but instead the FunctionCallBody + // The tree looks like that: PromQL(AggregateExpr(AggregateOp(Topk),FunctionCallBody(NumberDurationLiteral,⚠))) + // So, we need to figure out if the cursor is on the first parameter or in the second. + if (isItATopKLikeAggregationFunc(node)) { + if (node.firstChild === null || (node.firstChild.from <= pos && node.firstChild.to >= pos)) { + // it means the FunctionCallBody has no child, which means we are autocompleting the first parameter + result.push({ kind: ContextKind.Number }); + break; + } + // at this point we are necessary autocompleting the second parameter + result.push({ kind: ContextKind.MetricName, metricName: '' }, { kind: ContextKind.Function }, { kind: ContextKind.Aggregation }); + break; + } + // In all other cases, we are in the given situation: // sum() or in rate() // with the cursor between the bracket. So we can autocomplete the metric, the function and the aggregation. result.push({ kind: ContextKind.MetricName, metricName: '' }, { kind: ContextKind.Function }, { kind: ContextKind.Aggregation }); @@ -516,7 +557,11 @@ export class HybridComplete implements CompleteStrategy { promQL(context: CompletionContext): Promise | CompletionResult | null { const { state, pos } = context; const tree = syntaxTree(state).resolve(pos, -1); - const contexts = analyzeCompletion(state, tree); + // The lines above can help you to print the current lezer tree. + // It's useful when you are trying to understand why it doesn't autocomplete. + // console.log(syntaxTree(state).topNode.toString()); + // console.log(`current node: ${tree.type.name}`); + const contexts = analyzeCompletion(state, tree, pos); let asyncResult: Promise = Promise.resolve([]); let completeSnippet = false; let span = true;