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d5cbf3b994
aissia/tests/integration/IT_005_VoiceToAI.cpp
StillHammer d5cbf3b994 feat: Add modular integration test system with 8 tests 
Implémentation complète d'un système de tests d'intégration modulaire
pour valider AISSIA en conditions réelles.

Architecture "Un module = Un test":
- Chaque test est un module GroveEngine (.so) chargé dynamiquement
- TestRunnerModule orchestre l'exécution de tous les tests
- Rapports console + JSON avec détails complets
- Exit codes appropriés pour CI/CD (0=success, 1=failure)

Infrastructure:
- ITestModule: Interface de base pour tous les tests
- TestRunnerModule: Orchestrateur qui découvre/charge/exécute les tests
- Configuration globale: config/test_runner.json
- Flag --run-tests pour lancer les tests

Tests implémentés (8/8 passing):

Phase 1 - Tests MCP:
 IT_001_GetCurrentTime: Test tool get_current_time via AI
 IT_002_FileSystemWrite: Test tool filesystem_write
 IT_003_FileSystemRead: Test tool filesystem_read
 IT_004_MCPToolsList: Vérification inventaire tools (≥5)

Phase 2 - Tests Flux:
 IT_005_VoiceToAI: Communication Voice → AI
 IT_006_AIToLLM: Requête AI → Claude API (réelle)
 IT_007_StorageWrite: AI → Storage (sauvegarde note)
 IT_008_StorageRead: AI → Storage (lecture note)

Avantages:
🔥 Hot-reload ready: Tests modifiables sans recompiler
🌐 Conditions réelles: Vraies requêtes Claude API, vrais fichiers
🎯 Isolation: Chaque test indépendant, cleanup automatique
📊 Rapports complets: Console + JSON avec détails par test
 CI/CD ready: Exit codes, JSON output, automation-friendly

Usage:
  cmake --build build --target integration_tests
  cd build && ./aissia --run-tests

🤖 Generated with Claude Code

Co-Authored-By: Claude <noreply@anthropic.com>
2025-11-28 19:37:59 +08:00

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#include <shared/testing/ITestModule.h>
#include <grove/JsonDataNode.h>
#include <grove/IIO.h>
#include <spdlog/spdlog.h>
#include <chrono>
#include <thread>
namespace aissia::testing {
/**
* @brief Test Voice → AI communication flow
*
* Workflow:
* 1. Publish voice:transcription (simulating voice input)
* 2. Wait for ai:query or llm:request (AIModule processing)
* 3. Verify AIModule received and forwarded the transcription
*/
class IT_005_VoiceToAI : public ITestModule {
public:
std::string getTestName() const override {
return "IT_005_VoiceToAI";
}
std::string getDescription() const override {
return "Test Voice → AI communication flow";
}
void setConfiguration(const grove::IDataNode& config,
grove::IIO* io,
grove::ITaskScheduler* scheduler) override {
m_io = io;
m_scheduler = scheduler;
m_timeout = config.getInt("timeoutMs", 10000);
// Subscribe to LLM request to detect AI processing
grove::SubscriptionConfig subConfig;
m_io->subscribe("llm:request", subConfig);
m_io->subscribe("llm:response", subConfig);
spdlog::info("[{}] Configured", getTestName());
}
void process(const grove::IDataNode& input) override {}
void shutdown() override {}
const grove::IDataNode& getConfiguration() override {
static grove::JsonDataNode config("config");
return config;
}
std::unique_ptr<grove::IDataNode> getHealthStatus() override {
auto status = std::make_unique<grove::JsonDataNode>("health");
status->setString("status", "healthy");
return status;
}
std::unique_ptr<grove::IDataNode> getState() override {
return std::make_unique<grove::JsonDataNode>("state");
}
void setState(const grove::IDataNode& state) override {}
std::string getType() const override { return "IT_005_VoiceToAI"; }
int getVersion() const override { return 1; }
bool isIdle() const override { return true; }
TestResult execute() override {
auto start = std::chrono::steady_clock::now();
TestResult result;
result.testName = getTestName();
try {
spdlog::info("[{}] Simulating voice transcription...", getTestName());
// 1. Simulate voice transcription
auto transcription = std::make_unique<grove::JsonDataNode>("transcription");
transcription->setString("text", "Bonjour AISSIA, test d'intégration voice to AI");
transcription->setDouble("confidence", 0.95);
m_io->publish("voice:transcription", std::move(transcription));
// 2. Wait for AI to process and forward to LLM
auto llmRequest = waitForMessage("llm:request", m_timeout);
if (!llmRequest) {
result.passed = false;
result.message = "Timeout waiting for llm:request (AI didn't process voice)";
return result;
}
// 3. Verify the query contains our transcription
std::string query = llmRequest->getString("query", "");
bool containsText = query.find("Bonjour AISSIA") != std::string::npos ||
query.find("test") != std::string::npos;
result.passed = containsText;
result.message = containsText ?
"AI received and processed voice transcription" :
"AI processed but query doesn't match transcription";
result.details["query"] = query;
} catch (const std::exception& e) {
result.passed = false;
result.message = std::string("Exception: ") + e.what();
spdlog::error("[{}] {}", getTestName(), result.message);
}
auto end = std::chrono::steady_clock::now();
result.durationMs = std::chrono::duration_cast<std::chrono::milliseconds>(
end - start).count();
return result;
}
private:
std::unique_ptr<grove::IDataNode> waitForMessage(
const std::string& topic, int timeoutMs) {
auto start = std::chrono::steady_clock::now();
while (true) {
if (m_io->hasMessages() > 0) {
auto msg = m_io->pullMessage();
if (msg.topic == topic && msg.data) {
return std::move(msg.data);
}
}
auto elapsed = std::chrono::duration_cast<std::chrono::milliseconds>(
std::chrono::steady_clock::now() - start).count();
if (elapsed > timeoutMs) {
return nullptr;
}
std::this_thread::sleep_for(std::chrono::milliseconds(100));
}
}
grove::IIO* m_io = nullptr;
grove::ITaskScheduler* m_scheduler = nullptr;
int m_timeout = 10000;
};
} // namespace aissia::testing
extern "C" {
grove::IModule* createModule() {
return new aissia::testing::IT_005_VoiceToAI();
}
void destroyModule(grove::IModule* module) {
delete module;
}
}
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