File size: 9,413 Bytes
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* 语义搜索控制器
* 负责执行语义分析(整段 / 分块模式)
*/
import * as d3 from 'd3';
import type { TextAnalysisAPI } from '../api/GLTR_API';
import { isSemanticFromCache } from '../api/GLTR_API';
import type { AppStateManager } from '../utils/appStateManager';
import type { VisualizationUpdater } from '../utils/visualizationUpdater';
import type { GLTR_Text_Box } from '../vis/GLTR_Text_Box';
import { SEMANTIC_CHUNK_BYTES } from '../constants';
import { getSemanticMatchThreshold } from '../utils/semanticThresholdManager';
import { getDigitsMergeEnabled } from '../utils/digitsMergeManager';
import {
getAttentionRawScore,
mergeAttentionTokensFullyForRendering,
normalizeTokenScores,
splitTextToChunks,
} from '../utils/semanticUtils';
import type { signalFitResult } from '../utils/signalThresholdDetector';
export interface SemanticSearchControllerDeps {
getQuery: () => string;
getText: () => string;
getSubmode: () => string | undefined;
isChunkedMode: () => boolean;
api: TextAnalysisAPI;
appStateManager: AppStateManager;
visualizationUpdater: VisualizationUpdater;
lmf: GLTR_Text_Box;
showToast: (message: string, type: 'success' | 'error') => void;
showSemanticError: (message?: string) => void;
onSearchStart: (query: string) => void;
finishSemanticSearch: (query: string, matchDegree: number | null, fromCache: boolean) => void;
tr: (key: string) => string;
extractErrorMessage: (err: unknown, fallback: string) => string;
}
export class SemanticSearchController {
private deps: SemanticSearchControllerDeps;
private abortController: AbortController | null = null;
constructor(deps: SemanticSearchControllerDeps) {
this.deps = deps;
}
abort(): void {
this.abortController?.abort();
}
run(): void {
void this.runSemanticSearchBase(async ({ query, text, submode, signal }) => {
if (this.deps.isChunkedMode()) {
await this.runChunked({ query, text, submode, signal });
} else {
await this.runWhole({ query, text, submode, signal });
}
});
}
private async runSemanticSearchBase(
execute: (params: { query: string; text: string; submode: string | undefined; signal: AbortSignal }) => Promise<void>
): Promise<void> {
const query = this.deps.getQuery();
if (!query) return;
const text = this.deps.getText();
if (!text) {
this.deps.showToast(this.deps.tr('Please enter text first'), 'error');
return;
}
this.abortController = new AbortController();
const signal = this.abortController.signal;
this.deps.onSearchStart(query);
try {
this.deps.appStateManager.setSemanticSearching(true);
d3.select('#semantic_match_degree').style('display', 'none');
d3.select('#semantic_search_loader').style('visibility', 'visible');
d3.select('#all_result').style('opacity', 1).style('display', null);
this.deps.lmf.setTextOnly(text);
this.deps.visualizationUpdater.updateHistogramVisibilityForPending('semantic', text, this.deps.isChunkedMode());
await execute({ query, text, submode: this.deps.getSubmode(), signal });
} catch (err) {
if (err instanceof Error && err.name === 'AbortError') {
this.deps.lmf.hideLoading();
this.deps.visualizationUpdater.rerenderHistograms();
return;
}
this.deps.showToast(
this.deps.extractErrorMessage(err, this.deps.tr('Semantic analysis failed')),
'error'
);
this.deps.lmf.hideLoading();
this.deps.visualizationUpdater.rerenderHistograms();
} finally {
this.abortController = null;
this.deps.appStateManager.setSemanticSearching(false);
d3.select('#semantic_search_loader').style('visibility', 'hidden');
}
}
private async runWhole(params: { query: string; text: string; submode: string | undefined; signal: AbortSignal }): Promise<void> {
const { query, text, submode, signal } = params;
const onProgress = (step: number, totalSteps: number, stage: string, percentage?: number) => {
const progressText = percentage !== undefined && percentage !== null
? `Step ${step}/${totalSteps}:\t ${stage} ${percentage}%`
: `Step ${step}/${totalSteps}:\t ${stage}`;
d3.select('#semantic_progress').text(progressText).style('display', 'inline-block');
};
const res = await this.deps.api.analyzeSemantic(query, text, { onProgress, submode, debug_info: true, signal });
if (res?.success && res?.token_attention) {
this.deps.visualizationUpdater.handleSemanticResponse(res, text);
const md = res?.full_match_degree;
this.deps.finishSemanticSearch(query, md != null && typeof md === 'number' ? md : null, isSemanticFromCache(res));
} else {
this.deps.showSemanticError(res?.message);
}
}
private async runChunked(params: { query: string; text: string; submode: string | undefined; signal: AbortSignal }): Promise<void> {
const { query, text, submode, signal } = params;
const chunks = splitTextToChunks(text, SEMANTIC_CHUNK_BYTES);
if (chunks.length === 0) {
this.deps.visualizationUpdater.handleSemanticResponse({ token_attention: [] }, text, undefined);
this.deps.finishSemanticSearch(query, null, true);
return;
}
/** 各 chunk 内已 overlap+digit+normalize,仅做 offset 平移后拼接,全文不再合并/归一化 */
const allChunkProcessedTokens: Array<{
offset: [number, number];
raw: string;
score: number;
rawScore?: number;
}> = [];
const chunkInfos: Array<{ startOffset: number; endOffset: number; chunkIndex: number; chunkMatchDegree: number; thresholdResult?: signalFitResult }> = [];
let maxMatchDegree = 0;
let allFromCache = true;
let aborted = false;
let lastChunkFromCache = false;
for (let i = 0; i < chunks.length; i++) {
if (signal.aborted) break;
d3.select('#semantic_progress').text(`Chunk ${i + 1}/${chunks.length}`).style('display', 'inline-block');
const res = await this.deps.api.analyzeSemantic(query, chunks[i].text, { submode, signal });
// NOTE:
// Whether a chunk is served from semantic cache can only be determined after
// this request returns (frontend can't pre-check cache hit before `res`).
// Therefore, chunk-related UI rendering (histogram / chunkLines / semantic token coloring)
// is intentionally gated and starts from the first non-cached chunk.
if (signal.aborted) {
aborted = true;
break;
}
if (!res?.success) {
this.deps.showSemanticError(res?.message);
aborted = true;
break;
}
lastChunkFromCache = isSemanticFromCache(res);
if (!lastChunkFromCache) allFromCache = false;
const matchDegree = res.full_match_degree ?? 0;
maxMatchDegree = Math.max(maxMatchDegree, matchDegree);
const matched = matchDegree >= getSemanticMatchThreshold();
const merged = mergeAttentionTokensFullyForRendering(res.token_attention ?? [], chunks[i].text, {
digitMerge: getDigitsMergeEnabled(),
});
const normalized = normalizeTokenScores(merged);
const tokens = matched
? normalized
: normalized.map((t) => ({ ...t, rawScore: getAttentionRawScore(t), score: 0 }));
chunkInfos.push({
startOffset: chunks[i].startOffset,
endOffset: chunks[i].startOffset + chunks[i].text.length,
chunkIndex: i,
chunkMatchDegree: matchDegree,
});
const tokensOffsetAdjusted = tokens.map(t => ({
...t,
offset: [t.offset[0] + chunks[i].startOffset, t.offset[1] + chunks[i].startOffset] as [number, number],
}));
allChunkProcessedTokens.push(...tokensOffsetAdjusted);
if (!lastChunkFromCache) {
if (!this.deps.visualizationUpdater.handleSemanticResponse(
{ token_attention: allChunkProcessedTokens, chunkInfos, debug_info: undefined },
text,
undefined
)) {
aborted = true;
this.deps.showSemanticError();
break;
}
}
}
if (!aborted) {
if (lastChunkFromCache) {
this.deps.visualizationUpdater.handleSemanticResponse(
{ token_attention: allChunkProcessedTokens, chunkInfos, debug_info: undefined },
text,
undefined
);
}
this.deps.finishSemanticSearch(query, maxMatchDegree, allFromCache);
}
}
}
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