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gateway/modules/services/serviceAi/mainServiceAi.py

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import json
import logging
import time
from typing import Dict, Any, List, Optional, Tuple, Union
from modules.datamodels.datamodelChat import PromptPlaceholder, ChatDocument
from modules.services.serviceExtraction.mainServiceExtraction import ExtractionService
from modules.datamodels.datamodelAi import AiCallRequest, AiCallOptions, OperationTypeEnum, PriorityEnum, ProcessingModeEnum
from modules.interfaces.interfaceAiObjects import AiObjects
from modules.shared.jsonUtils import (
extractJsonString,
repairBrokenJson,
extractSectionsFromDocument,
buildContinuationContext
)
logger = logging.getLogger(__name__)
# Rebuild the model to resolve forward references
AiCallRequest.model_rebuild()
class AiService:
"""AI service with core operations integrated."""
def __init__(self, serviceCenter=None) -> None:
"""Initialize AI service with service center access.
Args:
serviceCenter: Service center instance for accessing other services
"""
self.services = serviceCenter
# Only depend on interfaces
self.aiObjects = None # Will be initialized in create() or _ensureAiObjectsInitialized()
# Submodules initialized as None - will be set in _initializeSubmodules() after aiObjects is ready
self.extractionService = None
def _initializeSubmodules(self):
"""Initialize all submodules after aiObjects is ready."""
if self.aiObjects is None:
raise RuntimeError("aiObjects must be initialized before initializing submodules")
if self.extractionService is None:
logger.info("Initializing ExtractionService...")
self.extractionService = ExtractionService(self.services)
async def _ensureAiObjectsInitialized(self):
"""Ensure aiObjects is initialized and submodules are ready."""
if self.aiObjects is None:
logger.info("Lazy initializing AiObjects...")
self.aiObjects = await AiObjects.create()
logger.info("AiObjects initialization completed")
# Initialize submodules after aiObjects is ready
self._initializeSubmodules()
@classmethod
async def create(cls, serviceCenter=None) -> "AiService":
"""Create AiService instance with all connectors and submodules initialized."""
logger.info("AiService.create() called")
instance = cls(serviceCenter)
logger.info("AiService created, about to call AiObjects.create()...")
instance.aiObjects = await AiObjects.create()
logger.info("AiObjects.create() completed")
# Initialize all submodules after aiObjects is ready
instance._initializeSubmodules()
logger.info("AiService submodules initialized")
return instance
# Helper methods
def _buildPromptWithPlaceholders(self, prompt: str, placeholders: Optional[Dict[str, str]]) -> str:
"""
Build full prompt by replacing placeholders with their content.
Uses the new {{KEY:placeholder}} format.
Args:
prompt: The base prompt template
placeholders: Dictionary of placeholder key-value pairs
Returns:
Prompt with placeholders replaced
"""
if not placeholders:
return prompt
full_prompt = prompt
for placeholder, content in placeholders.items():
# Skip if content is None or empty
if content is None:
continue
# Replace {{KEY:placeholder}}
full_prompt = full_prompt.replace(f"{{{{KEY:{placeholder}}}}}", str(content))
return full_prompt
async def _analyzePromptAndCreateOptions(self, prompt: str) -> AiCallOptions:
"""Analyze prompt to determine appropriate AiCallOptions parameters."""
try:
# Get dynamic enum values from Pydantic models
operationTypes = [e.value for e in OperationTypeEnum]
priorities = [e.value for e in PriorityEnum]
processingModes = [e.value for e in ProcessingModeEnum]
# Create analysis prompt for AI to determine operation type and parameters
analysisPrompt = f"""
You are an AI operation analyzer. Analyze the following prompt and determine the most appropriate operation type and parameters.
PROMPT TO ANALYZE:
{self.services.utils.sanitizePromptContent(prompt, 'userinput')}
Based on the prompt content, determine:
1. operationType: Choose the most appropriate from: {', '.join(operationTypes)}
2. priority: Choose from: {', '.join(priorities)}
3. processingMode: Choose from: {', '.join(processingModes)}
4. compressPrompt: true/false (true for story-like prompts, false for structured prompts with JSON/schemas)
5. compressContext: true/false (true to summarize context, false to process fully)
Respond with ONLY a JSON object in this exact format:
{{
"operationType": "dataAnalyse",
"priority": "balanced",
"processingMode": "basic",
"compressPrompt": true,
"compressContext": true
}}
"""
# Use AI to analyze the prompt
request = AiCallRequest(
prompt=analysisPrompt,
options=AiCallOptions(
operationType=OperationTypeEnum.DATA_ANALYSE,
priority=PriorityEnum.SPEED,
processingMode=ProcessingModeEnum.BASIC,
compressPrompt=True,
compressContext=False
)
)
response = await self.aiObjects.call(request)
# Parse AI response
try:
jsonStart = response.content.find('{')
jsonEnd = response.content.rfind('}') + 1
if jsonStart != -1 and jsonEnd > jsonStart:
analysis = json.loads(response.content[jsonStart:jsonEnd])
# Map string values to enums
operationType = OperationTypeEnum(analysis.get('operationType', 'dataAnalyse'))
priority = PriorityEnum(analysis.get('priority', 'balanced'))
processingMode = ProcessingModeEnum(analysis.get('processingMode', 'basic'))
return AiCallOptions(
operationType=operationType,
priority=priority,
processingMode=processingMode,
compressPrompt=analysis.get('compressPrompt', True),
compressContext=analysis.get('compressContext', True)
)
except Exception as e:
logger.warning(f"Failed to parse AI analysis response: {e}")
except Exception as e:
logger.warning(f"Prompt analysis failed: {e}")
# Fallback to default options
return AiCallOptions(
operationType=OperationTypeEnum.DATA_ANALYSE,
priority=PriorityEnum.BALANCED,
processingMode=ProcessingModeEnum.BASIC
)
async def _callAiWithLooping(
self,
prompt: str,
options: AiCallOptions,
debugPrefix: str = "ai_call",
promptBuilder: Optional[callable] = None,
promptArgs: Optional[Dict[str, Any]] = None,
operationId: Optional[str] = None
) -> str:
"""
Shared core function for AI calls with repair-based looping system.
Automatically repairs broken JSON and continues generation seamlessly.
Args:
prompt: The prompt to send to AI
options: AI call configuration options
debugPrefix: Prefix for debug file names
promptBuilder: Optional function to rebuild prompts for continuation
promptArgs: Optional arguments for prompt builder
operationId: Optional operation ID for progress tracking
Returns:
Complete AI response after all iterations
"""
maxIterations = 50 # Prevent infinite loops
iteration = 0
allSections = [] # Accumulate all sections across iterations
lastRawResponse = None # Store last raw JSON response for continuation
documentMetadata = None # Store document metadata (title, filename) from first iteration
while iteration < maxIterations:
iteration += 1
# Update progress for iteration start
if operationId:
if iteration == 1:
self.services.chat.progressLogUpdate(operationId, 0.5, f"Starting AI call iteration {iteration}")
else:
# For continuation iterations, show progress incrementally
baseProgress = 0.5 + (min(iteration - 1, maxIterations) / maxIterations * 0.4) # Progress from 0.5 to 0.9 over maxIterations iterations
self.services.chat.progressLogUpdate(operationId, baseProgress, f"Continuing generation (iteration {iteration})")
# Build iteration prompt
if len(allSections) > 0 and promptBuilder and promptArgs:
# This is a continuation - build continuation context with raw JSON and rebuild prompt
continuationContext = buildContinuationContext(allSections, lastRawResponse)
if not lastRawResponse:
logger.warning(f"Iteration {iteration}: No previous response available for continuation!")
# Rebuild prompt with continuation context using the provided prompt builder
iterationPrompt = await promptBuilder(**promptArgs, continuationContext=continuationContext)
else:
# First iteration - use original prompt
iterationPrompt = prompt
# Make AI call
try:
if operationId and iteration == 1:
self.services.chat.progressLogUpdate(operationId, 0.51, "Calling AI model")
request = AiCallRequest(
prompt=iterationPrompt,
context="",
options=options
)
# Write the ACTUAL prompt sent to AI
if iteration == 1:
self.services.utils.writeDebugFile(iterationPrompt, f"{debugPrefix}_prompt")
else:
self.services.utils.writeDebugFile(iterationPrompt, f"{debugPrefix}_prompt_iteration_{iteration}")
response = await self.aiObjects.call(request)
result = response.content
# Update progress after AI call
if operationId:
if iteration == 1:
self.services.chat.progressLogUpdate(operationId, 0.6, f"AI response received (iteration {iteration})")
else:
progress = 0.6 + (min(iteration - 1, 10) * 0.03)
self.services.chat.progressLogUpdate(operationId, progress, f"Processing response (iteration {iteration})")
# Write raw AI response to debug file
if iteration == 1:
self.services.utils.writeDebugFile(result, f"{debugPrefix}_response")
else:
self.services.utils.writeDebugFile(result, f"{debugPrefix}_response_iteration_{iteration}")
# Emit stats for this iteration
self.services.chat.storeWorkflowStat(
self.services.workflow,
response,
f"ai.call.{debugPrefix}.iteration_{iteration}"
)
if not result or not result.strip():
logger.warning(f"Iteration {iteration}: Empty response, stopping")
break
# Store raw response for continuation (even if broken)
lastRawResponse = result
# Check for complete_response flag in raw response (before parsing)
import re
if re.search(r'"complete_response"\s*:\s*true', result, re.IGNORECASE):
pass # Flag detected, will stop in _shouldContinueGeneration
# Extract sections from response (handles both valid and broken JSON)
extractedSections, wasJsonComplete, parsedResult = self._extractSectionsFromResponse(result, iteration, debugPrefix)
# Extract document metadata from first iteration if available
if iteration == 1 and parsedResult and not documentMetadata:
documentMetadata = self._extractDocumentMetadata(parsedResult)
# Update progress after parsing
if operationId:
if extractedSections:
self.services.chat.progressLogUpdate(operationId, 0.65 + (min(iteration - 1, 10) * 0.025), f"Extracted {len(extractedSections)} sections (iteration {iteration})")
if not extractedSections:
# If we're in continuation mode and JSON was incomplete, don't stop - continue to allow retry
if iteration > 1 and not wasJsonComplete:
logger.warning(f"Iteration {iteration}: No sections extracted from continuation fragment, continuing for another attempt")
continue
# Otherwise, stop if no sections
logger.warning(f"Iteration {iteration}: No sections extracted, stopping")
break
# Add new sections to accumulator
allSections.extend(extractedSections)
# Check if we should continue (completion detection)
if self._shouldContinueGeneration(allSections, iteration, wasJsonComplete, result):
continue
else:
# Done - build final result
if operationId:
self.services.chat.progressLogUpdate(operationId, 0.95, f"Generation complete ({iteration} iterations, {len(allSections)} sections)")
logger.info(f"Generation complete after {iteration} iterations: {len(allSections)} sections")
break
except Exception as e:
logger.error(f"Error in AI call iteration {iteration}: {str(e)}")
break
if iteration >= maxIterations:
logger.warning(f"AI call stopped after maximum iterations ({maxIterations})")
# Build final result from accumulated sections
final_result = self._buildFinalResultFromSections(allSections, documentMetadata)
# Write final result to debug file
self.services.utils.writeDebugFile(final_result, f"{debugPrefix}_final_result")
return final_result
def _extractSectionsFromResponse(
self,
result: str,
iteration: int,
debugPrefix: str
) -> Tuple[List[Dict[str, Any]], bool, Optional[Dict[str, Any]]]:
"""
Extract sections from AI response, handling both valid and broken JSON.
Uses repair mechanism for broken JSON.
Checks for "complete_response": true flag to determine completion.
Returns (sections, wasJsonComplete, parsedResult)
"""
# First, try to parse as valid JSON
try:
extracted = extractJsonString(result)
parsed_result = json.loads(extracted)
# Check if AI marked response as complete
isComplete = parsed_result.get("complete_response", False) == True
# Extract sections from parsed JSON
sections = extractSectionsFromDocument(parsed_result)
# If AI marked as complete, always return as complete
if isComplete:
return sections, True, parsed_result
# If in continuation mode (iteration > 1), continuation responses are expected to be fragments
# A fragment with 0 extractable sections means JSON is incomplete - need another iteration
if len(sections) == 0 and iteration > 1:
return sections, False, parsed_result # Mark as incomplete so loop continues
# First iteration with 0 sections means empty response - stop
if len(sections) == 0:
return sections, True, parsed_result # Complete but empty
return sections, True, parsed_result # JSON was complete with sections
except json.JSONDecodeError as e:
# Broken JSON - try repair mechanism (normal in iterative generation)
self.services.utils.writeDebugFile(result, f"{debugPrefix}_broken_json_iteration_{iteration}")
# Try to repair
repaired_json = repairBrokenJson(result)
if repaired_json:
# Extract sections from repaired JSON
sections = extractSectionsFromDocument(repaired_json)
return sections, False, repaired_json # JSON was broken but repaired
else:
# Repair failed - log error
logger.error(f"Iteration {iteration}: All repair strategies failed")
return [], False, None
except Exception as e:
logger.error(f"Iteration {iteration}: Unexpected error during parsing: {str(e)}")
return [], False, None
def _shouldContinueGeneration(
self,
allSections: List[Dict[str, Any]],
iteration: int,
wasJsonComplete: bool,
rawResponse: str = None
) -> bool:
"""
Determine if generation should continue based on JSON completeness, complete_response flag, and task completion.
Returns True if we should continue, False if done.
"""
if len(allSections) == 0:
return True # No sections yet, continue
# Check for complete_response flag in raw response
if rawResponse:
import re
if re.search(r'"complete_response"\s*:\s*true', rawResponse, re.IGNORECASE):
logger.info(f"Iteration {iteration}: AI marked response as complete (complete_response flag detected)")
return False
# If JSON was complete, stop (AI should have set complete_response if task is done)
# For continuation iterations (iteration > 1), if JSON is complete but no flag was set,
# stop to prevent infinite loops - AI had a chance to set the flag
if wasJsonComplete:
if iteration > 1:
# Continuation mode: JSON complete without flag means we're likely done
# Stop to prevent infinite loops
logger.info(f"Iteration {iteration}: JSON complete without complete_response flag - stopping")
return False
# First iteration with complete JSON - done
return False
else:
# JSON was incomplete/broken - continue
return True
def _extractDocumentMetadata(
self,
parsedResult: Dict[str, Any]
) -> Optional[Dict[str, Any]]:
"""
Extract document metadata (title, filename) from parsed AI response.
Returns dict with 'title' and 'filename' keys if found, None otherwise.
"""
if not isinstance(parsedResult, dict):
return None
# Try to get from documents array (preferred structure)
if "documents" in parsedResult and isinstance(parsedResult["documents"], list) and len(parsedResult["documents"]) > 0:
firstDoc = parsedResult["documents"][0]
if isinstance(firstDoc, dict):
title = firstDoc.get("title")
filename = firstDoc.get("filename")
if title or filename:
return {
"title": title,
"filename": filename
}
return None
def _buildFinalResultFromSections(
self,
allSections: List[Dict[str, Any]],
documentMetadata: Optional[Dict[str, Any]] = None
) -> str:
"""
Build final JSON result from accumulated sections.
Uses AI-provided metadata (title, filename) if available.
"""
if not allSections:
return ""
# Extract metadata from AI response if available
title = "Generated Document"
filename = "document.json"
if documentMetadata:
if documentMetadata.get("title"):
title = documentMetadata["title"]
if documentMetadata.get("filename"):
filename = documentMetadata["filename"]
# Build documents structure
# Assuming single document for now
documents = [{
"id": "doc_1",
"title": title,
"filename": filename,
"sections": allSections
}]
result = {
"metadata": {
"split_strategy": "single_document",
"source_documents": [],
"extraction_method": "ai_generation"
},
"documents": documents
}
return json.dumps(result, indent=2)
# Public API Methods
# Planning AI Call
async def callAiPlanning(
self,
prompt: str,
placeholders: Optional[List[PromptPlaceholder]] = None,
debugType: Optional[str] = None
) -> str:
"""
Planning AI call for task planning, action planning, action selection, etc.
Always uses static parameters optimized for planning tasks.
Args:
prompt: The planning prompt
placeholders: Optional list of placeholder replacements
debugType: Optional debug file type identifier (e.g., 'taskplan', 'actionplan', 'intentanalysis')
If not provided, defaults to 'plan'
Returns:
Planning JSON response
"""
await self._ensureAiObjectsInitialized()
# Planning calls always use static parameters
options = AiCallOptions(
operationType=OperationTypeEnum.PLAN,
priority=PriorityEnum.QUALITY,
processingMode=ProcessingModeEnum.DETAILED,
compressPrompt=False,
compressContext=False
)
# Build full prompt with placeholders
if placeholders:
placeholdersDict = {p.label: p.content for p in placeholders}
fullPrompt = self._buildPromptWithPlaceholders(prompt, placeholdersDict)
else:
fullPrompt = prompt
# Root-cause fix: planning must return raw single-shot JSON, not section-based output
request = AiCallRequest(
prompt=fullPrompt,
context="",
options=options
)
# Debug: persist prompt/response for analysis with context-specific naming
debugPrefix = debugType if debugType else "plan"
self.services.utils.writeDebugFile(fullPrompt, f"{debugPrefix}_prompt")
response = await self.aiObjects.call(request)
result = response.content or ""
self.services.utils.writeDebugFile(result, f"{debugPrefix}_response")
return result
# Document Generation AI Call
async def callAiDocuments(
self,
prompt: str,
documents: Optional[List[ChatDocument]] = None,
options: Optional[AiCallOptions] = None,
outputFormat: Optional[str] = None,
title: Optional[str] = None
) -> Union[str, Dict[str, Any]]:
"""
Document generation AI call for all non-planning calls.
Uses the current unified path with extraction and generation.
Args:
prompt: The main prompt for the AI call
documents: Optional list of documents to process
options: AI call configuration options
outputFormat: Optional output format for document generation
title: Optional title for generated documents
Returns:
AI response as string, or dict with documents if outputFormat is specified
"""
await self._ensureAiObjectsInitialized()
# Create separate operationId for detailed progress tracking
workflowId = self.services.workflow.id if self.services.workflow else f"no-workflow-{int(time.time())}"
aiOperationId = f"ai_documents_{workflowId}_{int(time.time())}"
# Start progress tracking for this operation
self.services.chat.progressLogStart(
aiOperationId,
"AI call with documents",
"Document Generation",
f"Format: {outputFormat or 'text'}"
)
try:
if options is None or (hasattr(options, 'operationType') and options.operationType is None):
# Use AI to determine parameters ONLY when truly needed (options=None OR operationType=None)
self.services.chat.progressLogUpdate(aiOperationId, 0.1, "Analyzing prompt parameters")
options = await self._analyzePromptAndCreateOptions(prompt)
# Check operationType FIRST - some operations need direct routing (before document generation checks)
opType = getattr(options, "operationType", None)
# Handle image generation requests directly via generic path
isImageRequest = (opType == OperationTypeEnum.IMAGE_GENERATE)
if isImageRequest:
# Image generation uses generic call path but bypasses document generation pipeline
self.services.chat.progressLogUpdate(aiOperationId, 0.4, "Calling AI for image generation")
# Call via generic path (no looping for images)
request = AiCallRequest(
prompt=prompt,
context="",
options=options
)
response = await self.aiObjects.call(request)
# Extract image data from response
if response.content:
# For base64 format, return in expected format
if outputFormat == "base64":
result = {
"success": True,
"image_data": response.content,
"documents": [{
"documentName": "generated_image.png",
"documentData": response.content,
"mimeType": "image/png",
"title": title or "Generated Image"
}]
}
else:
# Return raw content for other formats
result = response.content
# Emit stats for image generation
self.services.chat.storeWorkflowStat(
self.services.workflow,
response,
f"ai.generate.image"
)
self.services.chat.progressLogUpdate(aiOperationId, 0.9, "Image generated")
self.services.chat.progressLogFinish(aiOperationId, True)
return result
else:
errorMsg = f"No image data returned: {response.content}"
logger.error(f"Error in AI image generation: {errorMsg}")
self.services.chat.progressLogFinish(aiOperationId, False)
return {"success": False, "error": errorMsg}
# Handle WEB_SEARCH and WEB_CRAWL operations - route directly to connectors
# These operations require raw JSON prompts that connectors parse directly
# Must check BEFORE document generation to avoid wrapping the prompt
isWebOperation = (opType == OperationTypeEnum.WEB_SEARCH or opType == OperationTypeEnum.WEB_CRAWL)
if isWebOperation:
# Web operations: prompt is already structured JSON (AiCallPromptWebSearch/WebCrawl)
# Route directly through centralized AI call - model selector chooses appropriate connector
# Connector parses the JSON prompt and executes the operation
self.services.chat.progressLogUpdate(aiOperationId, 0.4, f"Calling AI for {opType.name}")
request = AiCallRequest(
prompt=prompt, # Pass raw JSON prompt unchanged - connector will parse it
context="",
options=options
)
response = await self.aiObjects.call(request)
# Extract result from response
if response.content:
# Emit stats for web operation
self.services.chat.storeWorkflowStat(
self.services.workflow,
response,
f"ai.{opType.name.lower()}"
)
self.services.chat.progressLogUpdate(aiOperationId, 0.9, f"{opType.name} completed")
self.services.chat.progressLogFinish(aiOperationId, True)
return response.content
else:
errorMsg = f"No content returned from {opType.name}: {response.content}"
logger.error(f"Error in {opType.name}: {errorMsg}")
self.services.chat.progressLogFinish(aiOperationId, False)
return {"success": False, "error": errorMsg}
# CRITICAL: For document generation with JSON templates, NEVER compress the prompt
# Compressing would truncate the template structure and confuse the AI
if outputFormat: # Document generation with structured output
if not options:
options = AiCallOptions()
options.compressPrompt = False # JSON templates must NOT be truncated
options.compressContext = False # Context also should not be compressed
# Handle document generation with specific output format using unified approach
if outputFormat:
# Use unified generation method for all document generation
if documents and len(documents) > 0:
self.services.chat.progressLogUpdate(aiOperationId, 0.2, f"Extracting content from {len(documents)} documents")
extracted_content = await self.callAiText(prompt, documents, options, aiOperationId)
else:
self.services.chat.progressLogUpdate(aiOperationId, 0.2, "Preparing for direct generation")
extracted_content = None
self.services.chat.progressLogUpdate(aiOperationId, 0.3, "Building generation prompt")
from modules.services.serviceGeneration.subPromptBuilderGeneration import buildGenerationPrompt
# First call without continuation context
generation_prompt = await buildGenerationPrompt(outputFormat, prompt, title, extracted_content, None)
# Prepare prompt builder arguments for continuation
promptArgs = {
"outputFormat": outputFormat,
"userPrompt": prompt,
"title": title,
"extracted_content": extracted_content
}
self.services.chat.progressLogUpdate(aiOperationId, 0.4, "Calling AI for content generation")
generated_json = await self._callAiWithLooping(
generation_prompt,
options,
"document_generation",
buildGenerationPrompt,
promptArgs,
aiOperationId
)
self.services.chat.progressLogUpdate(aiOperationId, 0.7, "Parsing generated JSON")
# Parse the generated JSON (extract fenced/embedded JSON first)
try:
extracted_json = self.services.utils.jsonExtractString(generated_json)
generated_data = json.loads(extracted_json)
except json.JSONDecodeError as e:
logger.error(f"Failed to parse generated JSON: {str(e)}")
logger.error(f"JSON content length: {len(generated_json)}")
logger.error(f"JSON content preview (last 200 chars): ...{generated_json[-200:]}")
logger.error(f"JSON content around error position: {generated_json[max(0, e.pos-50):e.pos+50]}")
# Write the problematic JSON to debug file
self.services.utils.writeDebugFile(generated_json, "failed_json_parsing")
self.services.chat.progressLogFinish(aiOperationId, False)
return {"success": False, "error": f"Generated content is not valid JSON: {str(e)}"}
self.services.chat.progressLogUpdate(aiOperationId, 0.8, f"Rendering to {outputFormat} format")
# Render to final format using the existing renderer
try:
from modules.services.serviceGeneration.mainServiceGeneration import GenerationService
generationService = GenerationService(self.services)
rendered_content, mime_type = await generationService.renderReport(
generated_data, outputFormat, title or "Generated Document", prompt, self
)
# Build result in the expected format
result = {
"success": True,
"content": generated_data,
"documents": [{
"documentName": f"generated.{outputFormat}",
"documentData": rendered_content,
"mimeType": mime_type,
"title": title or "Generated Document"
}],
"is_multi_file": False,
"format": outputFormat,
"title": title,
"split_strategy": "single",
"total_documents": 1,
"processed_documents": 1
}
# Log AI response for debugging
self.services.utils.writeDebugFile(str(result), "document_generation_response", documents)
self.services.chat.progressLogFinish(aiOperationId, True)
return result
except Exception as e:
logger.error(f"Error rendering document: {str(e)}")
self.services.chat.progressLogFinish(aiOperationId, False)
return {"success": False, "error": f"Rendering failed: {str(e)}"}
# Handle text calls (no output format specified)
self.services.chat.progressLogUpdate(aiOperationId, 0.5, "Processing text call")
if documents:
# Use document processing for text calls with documents
result = await self.callAiText(prompt, documents, options, aiOperationId)
else:
# Use shared core function for direct text calls
result = await self._callAiWithLooping(prompt, options, "text", None, None, aiOperationId)
self.services.chat.progressLogFinish(aiOperationId, True)
return result
except Exception as e:
logger.error(f"Error in callAiDocuments: {str(e)}")
self.services.chat.progressLogFinish(aiOperationId, False)
raise
async def callAiText(
self,
prompt: str,
documents: Optional[List[ChatDocument]],
options: AiCallOptions,
operationId: Optional[str] = None
) -> str:
"""
Handle text calls with document processing through ExtractionService.
UNIFIED PROCESSING: Always use per-chunk processing for consistency.
"""
await self._ensureAiObjectsInitialized()
return await self.extractionService.processDocumentsPerChunk(documents, prompt, self.aiObjects, options, operationId)
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