// dear imgui test engine // (core) // This is the interface that your initial setup (app init, main loop) will mostly be using. // Actual tests will mostly use the interface of imgui_te_context.h #if defined(_MSC_VER) && !defined(_CRT_SECURE_NO_WARNINGS) #define _CRT_SECURE_NO_WARNINGS #endif #define IMGUI_DEFINE_MATH_OPERATORS #include "imgui_te_engine.h" #include "imgui.h" #include "imgui_internal.h" #include "imgui_te_utils.h" #include "imgui_te_context.h" #include "imgui_te_internal.h" #include "imgui_te_perftool.h" #include "imgui_te_exporters.h" #include "thirdparty/Str/Str.h" #if _WIN32 #ifndef WIN32_LEAN_AND_MEAN #define WIN32_LEAN_AND_MEAN #endif #include // SetUnhandledExceptionFilter() #undef Yield // Undo some of the damage done by #else #include // signal() #include // sleep() #endif // Warnings #ifdef _MSC_VER #pragma warning (disable: 4127) // conditional expression is constant #endif /* Index of this file: // [SECTION] TODO // [SECTION] FORWARD DECLARATIONS // [SECTION] DATA STRUCTURES // [SECTION] TEST ENGINE FUNCTIONS // [SECTION] CRASH HANDLING // [SECTION] HOOKS FOR CORE LIBRARY // [SECTION] CHECK/ERROR FUNCTIONS FOR TESTS // [SECTION] SETTINGS // [SECTION] ImGuiTestLog // [SECTION] ImGuiTest */ //------------------------------------------------------------------------- // [SECTION] DATA //------------------------------------------------------------------------- static ImGuiTestEngine* GImGuiTestEngine = NULL; //------------------------------------------------------------------------- // [SECTION] FORWARD DECLARATIONS //------------------------------------------------------------------------- // Private functions static void ImGuiTestEngine_BindImGuiContext(ImGuiTestEngine* engine, ImGuiContext* ui_ctx); static void ImGuiTestEngine_UnbindImGuiContext(ImGuiTestEngine* engine, ImGuiContext* ui_ctx); static void ImGuiTestEngine_CoroutineStopAndJoin(ImGuiTestEngine* engine); static void ImGuiTestEngine_StartCalcSourceLineEnds(ImGuiTestEngine* engine); static void ImGuiTestEngine_ClearInput(ImGuiTestEngine* engine); static void ImGuiTestEngine_ApplyInputToImGuiContext(ImGuiTestEngine* engine); static void ImGuiTestEngine_ProcessTestQueue(ImGuiTestEngine* engine); static void ImGuiTestEngine_ClearTests(ImGuiTestEngine* engine); static void ImGuiTestEngine_PreNewFrame(ImGuiTestEngine* engine, ImGuiContext* ui_ctx); static void ImGuiTestEngine_PostNewFrame(ImGuiTestEngine* engine, ImGuiContext* ui_ctx); static void ImGuiTestEngine_PreRender(ImGuiTestEngine* engine, ImGuiContext* ui_ctx); static void ImGuiTestEngine_PostRender(ImGuiTestEngine* engine, ImGuiContext* ui_ctx); static void ImGuiTestEngine_UpdateHooks(ImGuiTestEngine* engine); static void ImGuiTestEngine_RunGuiFunc(ImGuiTestEngine* engine); static void ImGuiTestEngine_TestQueueCoroutineMain(void* engine_opaque); // Settings static void* ImGuiTestEngine_SettingsReadOpen(ImGuiContext*, ImGuiSettingsHandler*, const char* name); static void ImGuiTestEngine_SettingsReadLine(ImGuiContext*, ImGuiSettingsHandler*, void* entry, const char* line); static void ImGuiTestEngine_SettingsWriteAll(ImGuiContext* imgui_ctx, ImGuiSettingsHandler* handler, ImGuiTextBuffer* buf); //------------------------------------------------------------------------- // [SECTION] TEST ENGINE FUNCTIONS //------------------------------------------------------------------------- // Public // - ImGuiTestEngine_CreateContext() // - ImGuiTestEngine_DestroyContext() // - ImGuiTestEngine_BindImGuiContext() // - ImGuiTestEngine_UnbindImGuiContext() // - ImGuiTestEngine_GetIO() // - ImGuiTestEngine_Abort() // - ImGuiTestEngine_QueueAllTests() //------------------------------------------------------------------------- // - ImGuiTestEngine_FindItemInfo() // - ImGuiTestEngine_ClearTests() // - ImGuiTestEngine_ApplyInputToImGuiContext() // - ImGuiTestEngine_PreNewFrame() // - ImGuiTestEngine_PostNewFrame() // - ImGuiTestEngine_Yield() // - ImGuiTestEngine_ProcessTestQueue() // - ImGuiTestEngine_QueueTest() // - ImGuiTestEngine_RunTest() //------------------------------------------------------------------------- ImGuiTestEngine::ImGuiTestEngine() { PerfRefDeltaTime = 0.0f; PerfDeltaTime100.Init(100); PerfDeltaTime500.Init(500); PerfTool = IM_NEW(ImGuiPerfTool); UiFilterTests = IM_NEW(Str256); // We bite the bullet of adding an extra alloc/indirection in order to avoid including Str.h in our header UiFilterPerfs = IM_NEW(Str256); // Initialize std::thread based coroutine implementation if requested #if IMGUI_TEST_ENGINE_ENABLE_COROUTINE_STDTHREAD_IMPL IM_ASSERT(IO.CoroutineFuncs == NULL && "IO.CoroutineFuncs already setup elsewhere!"); IO.CoroutineFuncs = Coroutine_ImplStdThread_GetInterface(); #endif } ImGuiTestEngine::~ImGuiTestEngine() { IM_ASSERT(TestQueueCoroutine == NULL); IM_DELETE(PerfTool); IM_DELETE(UiFilterTests); IM_DELETE(UiFilterPerfs); } static void ImGuiTestEngine_BindImGuiContext(ImGuiTestEngine* engine, ImGuiContext* ui_ctx) { IM_ASSERT(engine->UiContextTarget == ui_ctx); // Add .ini handle for ImGuiWindow type if (engine->IO.ConfigSavedSettings) { ImGuiSettingsHandler ini_handler; ini_handler.TypeName = "TestEngine"; ini_handler.TypeHash = ImHashStr("TestEngine"); ini_handler.ReadOpenFn = ImGuiTestEngine_SettingsReadOpen; ini_handler.ReadLineFn = ImGuiTestEngine_SettingsReadLine; ini_handler.WriteAllFn = ImGuiTestEngine_SettingsWriteAll; ui_ctx->SettingsHandlers.push_back(ini_handler); engine->PerfTool->_AddSettingsHandler(); } // Install generic context hooks facility ImGuiContextHook hook; hook.Type = ImGuiContextHookType_Shutdown; hook.Callback = [](ImGuiContext* ui_ctx, ImGuiContextHook* hook) { ImGuiTestEngine_UnbindImGuiContext((ImGuiTestEngine*)hook->UserData, ui_ctx); }; hook.UserData = (void*)engine; ImGui::AddContextHook(ui_ctx, &hook); hook.Type = ImGuiContextHookType_NewFramePre; hook.Callback = [](ImGuiContext* ui_ctx, ImGuiContextHook* hook) { ImGuiTestEngine_PreNewFrame((ImGuiTestEngine*)hook->UserData, ui_ctx); }; hook.UserData = (void*)engine; ImGui::AddContextHook(ui_ctx, &hook); hook.Type = ImGuiContextHookType_NewFramePost; hook.Callback = [](ImGuiContext* ui_ctx, ImGuiContextHook* hook) { ImGuiTestEngine_PostNewFrame((ImGuiTestEngine*)hook->UserData, ui_ctx); }; hook.UserData = (void*)engine; ImGui::AddContextHook(ui_ctx, &hook); hook.Type = ImGuiContextHookType_RenderPre; hook.Callback = [](ImGuiContext* ui_ctx, ImGuiContextHook* hook) { ImGuiTestEngine_PreRender((ImGuiTestEngine*)hook->UserData, ui_ctx); }; hook.UserData = (void*)engine; ImGui::AddContextHook(ui_ctx, &hook); hook.Type = ImGuiContextHookType_RenderPost; hook.Callback = [](ImGuiContext* ui_ctx, ImGuiContextHook* hook) { ImGuiTestEngine_PostRender((ImGuiTestEngine*)hook->UserData, ui_ctx); }; hook.UserData = (void*)engine; ImGui::AddContextHook(ui_ctx, &hook); // Install custom test engine hook data if (GImGuiTestEngine == NULL) GImGuiTestEngine = engine; IM_ASSERT(ui_ctx->TestEngine == NULL); ui_ctx->TestEngine = engine; } static void ImGuiTestEngine_UnbindImGuiContext(ImGuiTestEngine* engine, ImGuiContext* ui_ctx) { IM_ASSERT(engine->UiContextTarget == ui_ctx); // FIXME: Could use ImGui::RemoveContextHook() if we stored our hook ids for (int hook_n = 0; hook_n < ui_ctx->Hooks.Size; hook_n++) if (ui_ctx->Hooks[hook_n].UserData == engine) ImGui::RemoveContextHook(ui_ctx, ui_ctx->Hooks[hook_n].HookId); ImGuiTestEngine_CoroutineStopAndJoin(engine); IM_ASSERT(ui_ctx->TestEngine == engine); ui_ctx->TestEngine = NULL; // Remove .ini handler IM_ASSERT(GImGui == ui_ctx); if (engine->IO.ConfigSavedSettings) { ImGui::RemoveSettingsHandler("TestEngine"); ImGui::RemoveSettingsHandler("TestEnginePerfTool"); } // Remove hook if (GImGuiTestEngine == engine) GImGuiTestEngine = NULL; engine->UiContextTarget = engine->UiContextActive = NULL; } // Create test context (not bound to any dear imgui context yet) ImGuiTestEngine* ImGuiTestEngine_CreateContext() { ImGuiTestEngine* engine = IM_NEW(ImGuiTestEngine)(); return engine; } void ImGuiTestEngine_DestroyContext(ImGuiTestEngine* engine) { // We require user to call DestroyContext() before ImGuiTestEngine_DestroyContext() in order to preserve ini data... // In case of e.g. dynamically creating a TestEngine as runtime and not caring about its settings, you may set io.ConfigSavedSettings to false // in order to allow earlier destruction of the context. if (engine->IO.ConfigSavedSettings) IM_ASSERT(engine->UiContextTarget == NULL && "You need to call ImGui::DestroyContext() BEFORE ImGuiTestEngine_DestroyContext()"); // Shutdown coroutine ImGuiTestEngine_CoroutineStopAndJoin(engine); if (engine->UiContextTarget != NULL) ImGuiTestEngine_UnbindImGuiContext(engine, engine->UiContextTarget); ImGuiTestEngine_ClearTests(engine); for (int n = 0; n < engine->InfoTasks.Size; n++) IM_DELETE(engine->InfoTasks[n]); engine->InfoTasks.clear(); IM_DELETE(engine); // Release hook if (GImGuiTestEngine == engine) GImGuiTestEngine = NULL; } void ImGuiTestEngine_Start(ImGuiTestEngine* engine, ImGuiContext* ui_ctx) { IM_ASSERT(engine->Started == false); IM_ASSERT(engine->UiContextTarget == NULL); engine->UiContextTarget = ui_ctx; ImGuiTestEngine_BindImGuiContext(engine, engine->UiContextTarget); ImGuiTestEngine_StartCalcSourceLineEnds(engine); // Create our coroutine // (we include the word "Main" in the name to facilitate filtering for both this thread and the "Main Thread" in debuggers) if (!engine->TestQueueCoroutine) { IM_ASSERT(engine->IO.CoroutineFuncs && "Missing CoroutineFuncs! Use '#define IMGUI_TEST_ENGINE_ENABLE_COROUTINE_STDTHREAD_IMPL 1' or define your own implementation!"); engine->TestQueueCoroutine = engine->IO.CoroutineFuncs->CreateFunc(ImGuiTestEngine_TestQueueCoroutineMain, "Main Dear ImGui Test Thread", engine); } engine->Started = true; } void ImGuiTestEngine_Stop(ImGuiTestEngine* engine) { IM_ASSERT(engine->Started); engine->Abort = true; ImGuiTestEngine_CoroutineStopAndJoin(engine); ImGuiTestEngine_Export(engine); engine->Started = false; } static void ImGuiTestEngine_CoroutineStopRequest(ImGuiTestEngine* engine) { if (engine->TestQueueCoroutine != NULL) engine->TestQueueCoroutineShouldExit = true; } static void ImGuiTestEngine_CoroutineStopAndJoin(ImGuiTestEngine* engine) { if (engine->TestQueueCoroutine != NULL) { // Run until the coroutine exits engine->TestQueueCoroutineShouldExit = true; while (true) { if (!engine->IO.CoroutineFuncs->RunFunc(engine->TestQueueCoroutine)) break; } engine->IO.CoroutineFuncs->DestroyFunc(engine->TestQueueCoroutine); engine->TestQueueCoroutine = NULL; } } // [EXPERIMENTAL] Destroy and recreate ImGui context // This potentially allow us to test issues related to handling new windows, restoring settings etc. // This also gets us once inch closer to more dynamic management of context (e.g. jail tests in their own context) // FIXME: This is currently called by ImGuiTestEngine_PreNewFrame() in hook but may end up needing to be called // by main application loop in order to facilitate letting app know of the new pointers. For now none of our backends // preserve the pointer so may be fine. void ImGuiTestEngine_RebootUiContext(ImGuiTestEngine* engine) { IM_ASSERT(engine->Started); ImGuiContext* ctx = engine->UiContextTarget; ImGuiTestEngine_Stop(engine); ImGuiTestEngine_UnbindImGuiContext(engine, ctx); // Backup bool backup_atlas_owned_by_context = ctx->FontAtlasOwnedByContext; ImFontAtlas* backup_atlas = ctx->IO.Fonts; ImGuiIO backup_io = ctx->IO; #ifdef IMGUI_HAS_VIEWPORT // FIXME: Break with multi-viewports as we don't preserve user windowing data properly. // Backend tend to store e.g. HWND data in viewport 0. if (ctx->IO.ConfigFlags & ImGuiConfigFlags_ViewportsEnable) IM_ASSERT(0); //ImGuiViewport backup_viewport0 = *(ImGuiViewport*)ctx->Viewports[0]; //ImGuiPlatformIO backup_platform_io = ctx->PlatformIO; //ImGui::DestroyPlatformWindows(); #endif // Recreate ctx->FontAtlasOwnedByContext = false; #if 1 ImGui::DestroyContext(); ImGui::CreateContext(backup_atlas); #else // Preserve same context pointer, which is probably misleading and not even necessary. ImGui::Shutdown(ctx); ctx->~ImGuiContext(); IM_PLACEMENT_NEW(ctx) ImGuiContext(backup_atlas); ImGui::Initialize(ctx); #endif // Restore ctx->FontAtlasOwnedByContext = backup_atlas_owned_by_context; ctx->IO = backup_io; #ifdef IMGUI_HAS_VIEWPORT //backup_platform_io.Viewports.swap(ctx->PlatformIO.Viewports); //ctx->PlatformIO = backup_platform_io; //ctx->Viewports[0]->RendererUserData = backup_viewport0.RendererUserData; //ctx->Viewports[0]->PlatformUserData = backup_viewport0.PlatformUserData; //ctx->Viewports[0]->PlatformHandle = backup_viewport0.PlatformHandle; //ctx->Viewports[0]->PlatformHandleRaw = backup_viewport0.PlatformHandleRaw; //memset(&backup_viewport0, 0, sizeof(backup_viewport0)); #endif ImGuiTestEngine_Start(engine, ctx); } void ImGuiTestEngine_PostSwap(ImGuiTestEngine* engine) { engine->PostSwapCalled = true; if (engine->IO.ConfigFixedDeltaTime != 0.0f) ImGuiTestEngine_SetDeltaTime(engine, engine->IO.ConfigFixedDeltaTime); // Sync capture tool configurations from engine IO. engine->CaptureContext.ScreenCaptureFunc = engine->IO.ScreenCaptureFunc; engine->CaptureContext.ScreenCaptureUserData = engine->IO.ScreenCaptureUserData; engine->CaptureContext.VideoCaptureEncoderPath = engine->IO.VideoCaptureEncoderPath; engine->CaptureContext.VideoCaptureEncoderPathSize = IM_ARRAYSIZE(engine->IO.VideoCaptureEncoderPath); engine->CaptureContext.VideoCaptureEncoderParams = engine->IO.VideoCaptureEncoderParams; engine->CaptureContext.VideoCaptureEncoderParamsSize = IM_ARRAYSIZE(engine->IO.VideoCaptureEncoderParams); engine->CaptureContext.GifCaptureEncoderParams = engine->IO.GifCaptureEncoderParams; engine->CaptureContext.GifCaptureEncoderParamsSize = IM_ARRAYSIZE(engine->IO.GifCaptureEncoderParams); engine->CaptureTool.VideoCaptureExtension = engine->IO.VideoCaptureExtension; engine->CaptureTool.VideoCaptureExtensionSize = IM_ARRAYSIZE(engine->IO.VideoCaptureExtension); // Capture a screenshot from main thread while coroutine waits if (engine->CaptureCurrentArgs != NULL) { ImGuiCaptureStatus status = engine->CaptureContext.CaptureUpdate(engine->CaptureCurrentArgs); if (status != ImGuiCaptureStatus_InProgress) { if (status == ImGuiCaptureStatus_Done) ImStrncpy(engine->CaptureTool.OutputLastFilename, engine->CaptureCurrentArgs->InOutputFile, IM_ARRAYSIZE(engine->CaptureTool.OutputLastFilename)); engine->CaptureCurrentArgs = NULL; } } } ImGuiTestEngineIO& ImGuiTestEngine_GetIO(ImGuiTestEngine* engine) { return engine->IO; } void ImGuiTestEngine_AbortCurrentTest(ImGuiTestEngine* engine) { engine->Abort = true; if (ImGuiTestContext* test_context = engine->TestContext) test_context->Abort = true; } bool ImGuiTestEngine_TryAbortEngine(ImGuiTestEngine* engine) { ImGuiTestEngine_AbortCurrentTest(engine); ImGuiTestEngine_CoroutineStopRequest(engine); if (ImGuiTestEngine_IsTestQueueEmpty(engine)) return true; return false; // Still running coroutine } // FIXME-OPT ImGuiTest* ImGuiTestEngine_FindTestByName(ImGuiTestEngine* engine, const char* category, const char* name) { IM_ASSERT(category != NULL || name != NULL); for (int n = 0; n < engine->TestsAll.Size; n++) { ImGuiTest* test = engine->TestsAll[n]; if (name != NULL && strcmp(test->Name, name) != 0) continue; if (category != NULL && strcmp(test->Category, category) != 0) continue; return test; } return NULL; } // FIXME-OPT static ImGuiTestInfoTask* ImGuiTestEngine_FindInfoTask(ImGuiTestEngine* engine, ImGuiID id) { for (int task_n = 0; task_n < engine->InfoTasks.Size; task_n++) { ImGuiTestInfoTask* task = engine->InfoTasks[task_n]; if (task->ID == id) return task; } return NULL; } // Request information about one item. // Will push a request for the test engine to process. // Will return NULL when results are not ready (or not available). ImGuiTestItemInfo* ImGuiTestEngine_FindItemInfo(ImGuiTestEngine* engine, ImGuiID id, const char* debug_id) { IM_ASSERT(id != 0); if (ImGuiTestInfoTask* task = ImGuiTestEngine_FindInfoTask(engine, id)) { if (task->Result.TimestampMain + 2 >= engine->FrameCount) { task->FrameCount = engine->FrameCount; // Renew task return &task->Result; } return NULL; } // Create task ImGuiTestInfoTask* task = IM_NEW(ImGuiTestInfoTask)(); task->ID = id; task->FrameCount = engine->FrameCount; if (debug_id) { size_t debug_id_sz = strlen(debug_id); if (debug_id_sz < IM_ARRAYSIZE(task->DebugName) - 1) { memcpy(task->DebugName, debug_id, debug_id_sz + 1); } else { size_t header_sz = (size_t)(IM_ARRAYSIZE(task->DebugName) * 0.30f); size_t footer_sz = IM_ARRAYSIZE(task->DebugName) - 2 - header_sz; IM_ASSERT(header_sz > 0 && footer_sz > 0); ImFormatString(task->DebugName, IM_ARRAYSIZE(task->DebugName), "%.*s..%.*s", (int)header_sz, debug_id, (int)footer_sz, debug_id + debug_id_sz - footer_sz); } } engine->InfoTasks.push_back(task); return NULL; } static void ImGuiTestEngine_ClearTests(ImGuiTestEngine* engine) { for (int n = 0; n < engine->TestsAll.Size; n++) IM_DELETE(engine->TestsAll[n]); engine->TestsAll.clear(); engine->TestsQueue.clear(); } // Called at the beginning of a test to ensure no previous inputs leak into the new test // FIXME-TESTS: Would make sense to reset mouse position as well? void ImGuiTestEngine_ClearInput(ImGuiTestEngine* engine) { IM_ASSERT(engine->UiContextTarget != NULL); ImGuiContext& g = *engine->UiContextTarget; engine->Inputs.MouseButtonsValue = 0; engine->Inputs.Queue.clear(); engine->Inputs.MouseWheel = ImVec2(0, 0); // FIXME: Necessary? #if IMGUI_VERSION_NUM >= 18972 g.IO.ClearEventsQueue(); #else g.InputEventsQueue.resize(0); g.IO.ClearInputCharacters(); #endif g.IO.ClearInputKeys(); ImGuiTestEngine_ApplyInputToImGuiContext(engine); } bool ImGuiTestEngine_IsUsingSimulatedInputs(ImGuiTestEngine* engine) { if (engine->UiContextActive) if (!ImGuiTestEngine_IsTestQueueEmpty(engine)) if (!(engine->TestContext->RunFlags & ImGuiTestRunFlags_GuiFuncOnly)) return true; return false; } // Setup inputs in the tested Dear ImGui context. Essentially we override the work of the backend here. void ImGuiTestEngine_ApplyInputToImGuiContext(ImGuiTestEngine* engine) { IM_ASSERT(engine->UiContextTarget != NULL); ImGuiContext& g = *engine->UiContextTarget; ImGuiIO& io = g.IO; const bool use_simulated_inputs = ImGuiTestEngine_IsUsingSimulatedInputs(engine); if (!use_simulated_inputs) return; // Erase events submitted by backend for (int n = 0; n < g.InputEventsQueue.Size; n++) if (g.InputEventsQueue[n].AddedByTestEngine == false) g.InputEventsQueue.erase(&g.InputEventsQueue[n--]); // Special flags to stop submitting events if (engine->TestContext->RunFlags & ImGuiTestRunFlags_EnableRawInputs) return; // To support using ImGuiKey_NavXXXX shortcuts pointing to gamepad actions // FIXME-TEST-ENGINE: Should restore g.IO.ConfigFlags |= ImGuiConfigFlags_NavEnableGamepad; g.IO.BackendFlags |= ImGuiBackendFlags_HasGamepad; const int input_event_count_prev = g.InputEventsQueue.Size; // Apply mouse viewport #ifdef IMGUI_HAS_VIEWPORT ImGuiPlatformIO& platform_io = g.PlatformIO; ImGuiViewport* mouse_hovered_viewport; if (engine->Inputs.MouseHoveredViewport != 0) mouse_hovered_viewport = ImGui::FindViewportByID(engine->Inputs.MouseHoveredViewport); // Common case else mouse_hovered_viewport = ImGui::FindHoveredViewportFromPlatformWindowStack(engine->Inputs.MousePosValue); // Rarely used, some tests rely on this (e.g. "docking_dockspace_passthru_hover") may make it a opt-in feature instead? if (mouse_hovered_viewport && (mouse_hovered_viewport->Flags & ImGuiViewportFlags_NoInputs)) mouse_hovered_viewport = NULL; //if (io.ConfigFlags & ImGuiConfigFlags_ViewportsEnable) if (io.BackendFlags & ImGuiBackendFlags_HasMouseHoveredViewport) io.AddMouseViewportEvent(mouse_hovered_viewport ? mouse_hovered_viewport->ID : 0); bool mouse_hovered_viewport_focused = mouse_hovered_viewport && (mouse_hovered_viewport->Flags & ImGuiViewportFlags_IsFocused) != 0; #endif // Apply mouse io.AddMousePosEvent(engine->Inputs.MousePosValue.x, engine->Inputs.MousePosValue.y); for (int n = 0; n < ImGuiMouseButton_COUNT; n++) { bool down = (engine->Inputs.MouseButtonsValue & (1 << n)) != 0; io.AddMouseButtonEvent(n, down); // A click simulate platform focus on the viewport. #ifdef IMGUI_HAS_VIEWPORT if (down && mouse_hovered_viewport && !mouse_hovered_viewport_focused) if (io.ConfigFlags & ImGuiConfigFlags_ViewportsEnable) { mouse_hovered_viewport_focused = true; engine->Inputs.Queue.push_back(ImGuiTestInput::ForViewportFocus(mouse_hovered_viewport->ID)); } #endif } // Apply mouse wheel // [OSX] Simulate OSX behavior of automatically swapping mouse wheel axis when SHIFT is held. // This is working in conjonction with the fact that ImGuiTestContext::MouseWheel() assume Windows-style behavior. ImVec2 wheel = engine->Inputs.MouseWheel; if (io.ConfigMacOSXBehaviors && (io.KeyMods & ImGuiMod_Shift)) // FIXME!! ImSwap(wheel.x, wheel.y); if (wheel.x != 0.0f || wheel.y != 0.0f) io.AddMouseWheelEvent(wheel.x, wheel.y); engine->Inputs.MouseWheel = ImVec2(0, 0); // Process input requests/queues if (engine->Inputs.Queue.Size > 0) { for (int n = 0; n < engine->Inputs.Queue.Size; n++) { const ImGuiTestInput& input = engine->Inputs.Queue[n]; switch (input.Type) { case ImGuiTestInputType_Key: { ImGuiKeyChord key_chord = input.KeyChord; #if IMGUI_VERSION_NUM >= 19016 key_chord = ImGui::FixupKeyChord(&g, key_chord); // This will add ImGuiMod_Alt when pressing ImGuiKey_LeftAlt or ImGuiKey_LeftRight #endif ImGuiKey key = (ImGuiKey)(key_chord & ~ImGuiMod_Mask_); ImGuiKeyChord mods = (key_chord & ImGuiMod_Mask_); if (mods != 0x00) { // OSX conversion #if IMGUI_VERSION_NUM >= 18912 if (mods & ImGuiMod_Shortcut) mods = (mods & ~ImGuiMod_Shortcut) | (g.IO.ConfigMacOSXBehaviors ? ImGuiMod_Super : ImGuiMod_Ctrl); #endif // Submitting a ImGuiMod_XXX without associated key needs to add at least one of the key. if (mods & ImGuiMod_Ctrl) { io.AddKeyEvent(ImGuiMod_Ctrl, input.Down); if (key != ImGuiKey_LeftCtrl && key != ImGuiKey_RightCtrl) io.AddKeyEvent(ImGuiKey_LeftCtrl, input.Down); } if (mods & ImGuiMod_Shift) { io.AddKeyEvent(ImGuiMod_Shift, input.Down); if (key != ImGuiKey_LeftShift && key != ImGuiKey_RightShift) io.AddKeyEvent(ImGuiKey_LeftShift, input.Down); } if (mods & ImGuiMod_Alt) { io.AddKeyEvent(ImGuiMod_Alt, input.Down); if (key != ImGuiKey_LeftAlt && key != ImGuiKey_RightAlt) io.AddKeyEvent(ImGuiKey_LeftAlt, input.Down); } if (mods & ImGuiMod_Super) { io.AddKeyEvent(ImGuiMod_Super, input.Down); if (key != ImGuiKey_LeftSuper && key != ImGuiKey_RightSuper) io.AddKeyEvent(ImGuiKey_LeftSuper, input.Down); } } if (key != ImGuiKey_None) io.AddKeyEvent(key, input.Down); break; } case ImGuiTestInputType_Char: { IM_ASSERT(input.Char != 0); io.AddInputCharacter(input.Char); break; } case ImGuiTestInputType_ViewportFocus: { #ifdef IMGUI_HAS_VIEWPORT if (io.ConfigFlags & ImGuiConfigFlags_ViewportsEnable) { IM_ASSERT(engine->TestContext != NULL); ImGuiViewport* viewport = ImGui::FindViewportByID(input.ViewportId); if (viewport == NULL) engine->TestContext->LogError("ViewportPlatform_SetWindowFocus(%08X): cannot find viewport anymore!", input.ViewportId); else if (platform_io.Platform_SetWindowSize == NULL) engine->TestContext->LogError("ViewportPlatform_SetWindowFocus(%08X): backend's Platform_SetWindowSize() is not set", input.ViewportId); else platform_io.Platform_SetWindowFocus(viewport); } #endif break; } case ImGuiTestInputType_ViewportClose: { #ifdef IMGUI_HAS_VIEWPORT if (io.ConfigFlags & ImGuiConfigFlags_ViewportsEnable) { IM_ASSERT(engine->TestContext != NULL); ImGuiViewport* viewport = ImGui::FindViewportByID(input.ViewportId); if (viewport == NULL) engine->TestContext->LogError("ViewportPlatform_CloseWindow(%08X): cannot find viewport anymore!", input.ViewportId); else viewport->PlatformRequestClose = true; // FIXME: doesn't apply to actual backend } #endif break; } case ImGuiTestInputType_None: default: break; } } engine->Inputs.Queue.resize(0); } const int input_event_count_curr = g.InputEventsQueue.Size; for (int n = input_event_count_prev; n < input_event_count_curr; n++) g.InputEventsQueue[n].AddedByTestEngine = true; } // FIXME: Trying to abort a running GUI test won't kill the app immediately. static void ImGuiTestEngine_UpdateWatchdog(ImGuiTestEngine* engine, ImGuiContext* ui_ctx, double t0, double t1) { IM_UNUSED(ui_ctx); ImGuiTestContext* test_ctx = engine->TestContext; if (engine->IO.ConfigRunSpeed != ImGuiTestRunSpeed_Fast || ImOsIsDebuggerPresent()) return; if (test_ctx->RunFlags & ImGuiTestRunFlags_RunFromGui) return; const float timer_warn = engine->IO.ConfigWatchdogWarning; const float timer_kill_test = engine->IO.ConfigWatchdogKillTest; const float timer_kill_app = engine->IO.ConfigWatchdogKillApp; // Emit a warning and then fail the test after a given time. if (t0 < timer_warn && t1 >= timer_warn) { test_ctx->LogWarning("[Watchdog] Running time for '%s' is >%.f seconds, may be excessive.", test_ctx->Test->Name, timer_warn); } if (t0 < timer_kill_test && t1 >= timer_kill_test) { test_ctx->LogError("[Watchdog] Running time for '%s' is >%.f seconds, aborting.", test_ctx->Test->Name, timer_kill_test); IM_CHECK(false); } // Final safety watchdog in case the TestFunc is calling Yield() but never returning. // Note that we are not catching infinite loop cases where the TestFunc may be running but not yielding.. if (t0 < timer_kill_app + 5.0f && t1 >= timer_kill_app + 5.0f) { test_ctx->LogError("[Watchdog] Emergency process exit as the test didn't return."); exit(1); } } static void ImGuiTestEngine_PreNewFrame(ImGuiTestEngine* engine, ImGuiContext* ui_ctx) { if (engine->UiContextTarget != ui_ctx) return; IM_ASSERT(ui_ctx == GImGui); ImGuiContext& g = *ui_ctx; engine->CaptureContext.PreNewFrame(); if (engine->ToolDebugRebootUiContext) { ImGuiTestEngine_RebootUiContext(engine); ui_ctx = engine->UiContextTarget; engine->ToolDebugRebootUiContext = false; } // Inject extra time into the Dear ImGui context if (engine->OverrideDeltaTime >= 0.0f) { ui_ctx->IO.DeltaTime = engine->OverrideDeltaTime; engine->OverrideDeltaTime = -1.0f; } // NewFrame() will increase this so we are +1 ahead at the time of calling this engine->FrameCount = g.FrameCount + 1; if (ImGuiTestContext* test_ctx = engine->TestContext) { double t0 = test_ctx->RunningTime; double t1 = t0 + ui_ctx->IO.DeltaTime; test_ctx->FrameCount++; test_ctx->RunningTime = t1; ImGuiTestEngine_UpdateWatchdog(engine, ui_ctx, t0, t1); } engine->PerfDeltaTime100.AddSample(g.IO.DeltaTime); engine->PerfDeltaTime500.AddSample(g.IO.DeltaTime); if (!ImGuiTestEngine_IsTestQueueEmpty(engine) && !engine->Abort) { // Abort testing by holding ESC // When running GuiFunc only main_io == simulated_io we test for a long hold. ImGuiIO& main_io = g.IO; for (auto& e : g.InputEventsQueue) if (e.Type == ImGuiInputEventType_Key && e.Key.Key == ImGuiKey_Escape) engine->Inputs.HostEscDown = e.Key.Down; engine->Inputs.HostEscDownDuration = engine->Inputs.HostEscDown ? (ImMax(engine->Inputs.HostEscDownDuration, 0.0f) + main_io.DeltaTime) : -1.0f; const bool abort = engine->Inputs.HostEscDownDuration >= 0.20f; if (abort) { if (engine->TestContext) engine->TestContext->LogWarning("User aborted (pressed ESC)"); ImGuiTestEngine_AbortCurrentTest(engine); } } else { engine->Inputs.HostEscDown = false; engine->Inputs.HostEscDownDuration = -1.0f; } ImGuiTestEngine_ApplyInputToImGuiContext(engine); ImGuiTestEngine_UpdateHooks(engine); } static void ImGuiTestEngine_PostNewFrame(ImGuiTestEngine* engine, ImGuiContext* ui_ctx) { if (engine->UiContextTarget != ui_ctx) return; IM_ASSERT(ui_ctx == GImGui); // Set initial mouse position to a decent value on startup if (engine->FrameCount == 1) engine->Inputs.MousePosValue = ImGui::GetMainViewport()->Pos; engine->IO.IsCapturing = engine->CaptureContext.IsCapturing(); // Garbage collect unused tasks const int LOCATION_TASK_ELAPSE_FRAMES = 20; for (int task_n = 0; task_n < engine->InfoTasks.Size; task_n++) { ImGuiTestInfoTask* task = engine->InfoTasks[task_n]; if (task->FrameCount < engine->FrameCount - LOCATION_TASK_ELAPSE_FRAMES && task->Result.RefCount == 0) { IM_DELETE(task); engine->InfoTasks.erase(engine->InfoTasks.Data + task_n); task_n--; } } // Slow down whole app if (engine->ToolSlowDown) ImThreadSleepInMilliseconds(engine->ToolSlowDownMs); // Call user GUI function ImGuiTestEngine_RunGuiFunc(engine); // Process on-going queues in a coroutine // Run the test coroutine. This will resume the test queue from either the last point the test called YieldFromCoroutine(), // or the loop in ImGuiTestEngine_TestQueueCoroutineMain that does so if no test is running. // If you want to breakpoint the point execution continues in the test code, breakpoint the exit condition in YieldFromCoroutine() const int input_queue_size_before = ui_ctx->InputEventsQueue.Size; engine->IO.CoroutineFuncs->RunFunc(engine->TestQueueCoroutine); // Events added by TestFunc() marked automaticaly to not be deleted if (engine->TestContext && (engine->TestContext->RunFlags & ImGuiTestRunFlags_EnableRawInputs)) for (int n = input_queue_size_before; n < ui_ctx->InputEventsQueue.Size; n++) ui_ctx->InputEventsQueue[n].AddedByTestEngine = true; // Update hooks and output flags ImGuiTestEngine_UpdateHooks(engine); // Disable vsync engine->IO.IsRequestingMaxAppSpeed = engine->IO.ConfigNoThrottle; if (engine->IO.ConfigRunSpeed == ImGuiTestRunSpeed_Fast && engine->IO.IsRunningTests) if (engine->TestContext && (engine->TestContext->RunFlags & ImGuiTestRunFlags_GuiFuncOnly) == 0) engine->IO.IsRequestingMaxAppSpeed = true; } static void ImGuiTestEngine_PreRender(ImGuiTestEngine* engine, ImGuiContext* ui_ctx) { if (engine->UiContextTarget != ui_ctx) return; IM_ASSERT(ui_ctx == GImGui); engine->CaptureContext.PreRender(); } static void ImGuiTestEngine_PostRender(ImGuiTestEngine* engine, ImGuiContext* ui_ctx) { if (engine->UiContextTarget != ui_ctx) return; IM_ASSERT(ui_ctx == GImGui); // When test are running make sure real backend doesn't pick mouse cursor shape from tests. // (If were to instead set io.ConfigFlags |= ImGuiConfigFlags_NoMouseCursorChange in ImGuiTestEngine_RunTest() that would get us 99% of the way, // but unfortunately backend wouldn't restore normal shape after modified by OS decoration such as resize, so not enough..) ImGuiContext& g = *ui_ctx; if (!engine->IO.ConfigMouseDrawCursor && !g.IO.MouseDrawCursor && ImGuiTestEngine_IsUsingSimulatedInputs(engine)) g.MouseCursor = ImGuiMouseCursor_Arrow; // Check ImDrawData integrity // This is currently a very cheap operation but may later become slower we if e.g. check idx boundaries. #ifdef IMGUI_HAS_DOCK if (engine->IO.CheckDrawDataIntegrity) for (ImGuiViewport* viewport : ImGui::GetPlatformIO().Viewports) DrawDataVerifyMatchingBufferCount(viewport->DrawData); #else if (engine->IO.CheckDrawDataIntegrity) DrawDataVerifyMatchingBufferCount(ImGui::GetDrawData()); #endif engine->CaptureContext.PostRender(); } static void ImGuiTestEngine_RunGuiFunc(ImGuiTestEngine* engine) { ImGuiTestContext* ctx = engine->TestContext; if (ctx && ctx->Test->GuiFunc) { if (!(ctx->RunFlags & ImGuiTestRunFlags_GuiFuncDisable)) { ImGuiTestActiveFunc backup_active_func = ctx->ActiveFunc; ctx->ActiveFunc = ImGuiTestActiveFunc_GuiFunc; engine->TestContext->Test->GuiFunc(engine->TestContext); ctx->ActiveFunc = backup_active_func; } // Safety net //if (ctx->Test->Status == ImGuiTestStatus_Error) ctx->RecoverFromUiContextErrors(); } if (ctx) ctx->FirstGuiFrame = false; } // Main function for the test coroutine static void ImGuiTestEngine_TestQueueCoroutineMain(void* engine_opaque) { ImGuiTestEngine* engine = (ImGuiTestEngine*)engine_opaque; while (!engine->TestQueueCoroutineShouldExit) { ImGuiTestEngine_ProcessTestQueue(engine); engine->IO.CoroutineFuncs->YieldFunc(); } } static void ImGuiTestEngine_DisableWindowInputs(ImGuiWindow* window) { window->DisableInputsFrames = 1; for (ImGuiWindow* child_window : window->DC.ChildWindows) ImGuiTestEngine_DisableWindowInputs(child_window); } // Yield control back from the TestFunc to the main update + GuiFunc, for one frame. void ImGuiTestEngine_Yield(ImGuiTestEngine* engine) { ImGuiTestContext* ctx = engine->TestContext; // Can only yield in the test func! if (ctx) { IM_ASSERT(ctx->ActiveFunc == ImGuiTestActiveFunc_TestFunc && "Can only yield inside TestFunc()!"); for (ImGuiWindow* window : ctx->ForeignWindowsToHide) { window->HiddenFramesForRenderOnly = 2; // Hide root window ImGuiTestEngine_DisableWindowInputs(window); // Disable inputs for root window and all it's children recursively } } engine->IO.CoroutineFuncs->YieldFunc(); } void ImGuiTestEngine_SetDeltaTime(ImGuiTestEngine* engine, float delta_time) { IM_ASSERT(delta_time >= 0.0f); engine->OverrideDeltaTime = delta_time; } int ImGuiTestEngine_GetFrameCount(ImGuiTestEngine* engine) { return engine->FrameCount; } const char* ImGuiTestEngine_GetStatusName(ImGuiTestStatus v) { static const char* names[ImGuiTestStatus_COUNT] = { "Success", "Queued", "Running", "Error", "Suspended" }; IM_STATIC_ASSERT(IM_ARRAYSIZE(names) == ImGuiTestStatus_COUNT); if (v >= 0 && v < IM_ARRAYSIZE(names)) return names[v]; return "N/A"; } const char* ImGuiTestEngine_GetRunSpeedName(ImGuiTestRunSpeed v) { static const char* names[ImGuiTestRunSpeed_COUNT] = { "Fast", "Normal", "Cinematic" }; IM_STATIC_ASSERT(IM_ARRAYSIZE(names) == ImGuiTestRunSpeed_COUNT); if (v >= 0 && v < IM_ARRAYSIZE(names)) return names[v]; return "N/A"; } const char* ImGuiTestEngine_GetVerboseLevelName(ImGuiTestVerboseLevel v) { static const char* names[ImGuiTestVerboseLevel_COUNT] = { "Silent", "Error", "Warning", "Info", "Debug", "Trace" }; IM_STATIC_ASSERT(IM_ARRAYSIZE(names) == ImGuiTestVerboseLevel_COUNT); if (v >= 0 && v < IM_ARRAYSIZE(names)) return names[v]; return "N/A"; } bool ImGuiTestEngine_CaptureScreenshot(ImGuiTestEngine* engine, ImGuiCaptureArgs* args) { if (engine->IO.ScreenCaptureFunc == NULL) { IM_ASSERT(0); return false; } IM_ASSERT(engine->CaptureCurrentArgs == NULL && "Nested captures are not supported."); // Graphics API must render a window so it can be captured // FIXME: This should work without this, as long as Present vs Vsync are separated (we need a Present, we don't need Vsync) const ImGuiTestRunSpeed backup_run_speed = engine->IO.ConfigRunSpeed; engine->IO.ConfigRunSpeed = ImGuiTestRunSpeed_Fast; const int frame_count = engine->FrameCount; // Because we rely on window->ContentSize for stitching, let 1 extra frame elapse to make sure any // windows which contents have changed in the last frame get a correct window->ContentSize value. // FIXME: Can remove this yield if not stitching if ((args->InFlags & ImGuiCaptureFlags_Instant) == 0) ImGuiTestEngine_Yield(engine); // This will yield until ImGuiTestEngine_PostSwap() -> ImGuiCaptureContext::CaptureUpdate() return false. // - CaptureUpdate() will call user provided test_io.ScreenCaptureFunc() function // - Capturing is likely to take multiple frames depending on settings. int frames_yielded = 0; engine->CaptureCurrentArgs = args; engine->PostSwapCalled = false; while (engine->CaptureCurrentArgs != NULL) { ImGuiTestEngine_Yield(engine); frames_yielded++; if (frames_yielded > 4) IM_ASSERT(engine->PostSwapCalled && "ImGuiTestEngine_PostSwap() is not being called by application! Must be called in order."); } // Verify that the ImGuiCaptureFlags_Instant flag got honored if (args->InFlags & ImGuiCaptureFlags_Instant) IM_ASSERT(frame_count + 1 == engine->FrameCount); engine->IO.ConfigRunSpeed = backup_run_speed; return true; } bool ImGuiTestEngine_CaptureBeginVideo(ImGuiTestEngine* engine, ImGuiCaptureArgs* args) { if (engine->IO.ScreenCaptureFunc == NULL) { IM_ASSERT(0); return false; } IM_ASSERT(engine->CaptureCurrentArgs == NULL && "Nested captures are not supported."); // RunSpeed set to Fast -> Switch to Cinematic, no throttle // RunSpeed set to Normal -> No change // RunSpeed set to Cinematic -> No change engine->BackupConfigRunSpeed = engine->IO.ConfigRunSpeed; engine->BackupConfigNoThrottle = engine->IO.ConfigNoThrottle; if (engine->IO.ConfigRunSpeed == ImGuiTestRunSpeed_Fast) { engine->IO.ConfigRunSpeed = ImGuiTestRunSpeed_Cinematic; engine->IO.ConfigNoThrottle = true; engine->IO.ConfigFixedDeltaTime = 1.0f / 60.0f; } engine->CaptureCurrentArgs = args; engine->CaptureContext.BeginVideoCapture(args); return true; } bool ImGuiTestEngine_CaptureEndVideo(ImGuiTestEngine* engine, ImGuiCaptureArgs* args) { IM_UNUSED(args); IM_ASSERT(engine->CaptureContext.IsCapturingVideo() && "No video capture is in progress."); engine->CaptureContext.EndVideoCapture(); while (engine->CaptureCurrentArgs != NULL) // Wait until last frame is captured and gif is saved. ImGuiTestEngine_Yield(engine); engine->IO.ConfigRunSpeed = engine->BackupConfigRunSpeed; engine->IO.ConfigNoThrottle = engine->BackupConfigNoThrottle; engine->IO.ConfigFixedDeltaTime = 0; engine->CaptureCurrentArgs = NULL; return true; } static void ImGuiTestEngine_ProcessTestQueue(ImGuiTestEngine* engine) { // Avoid tracking scrolling in UI when running a single test const bool track_scrolling = (engine->TestsQueue.Size > 1) || (engine->TestsQueue.Size == 1 && (engine->TestsQueue[0].RunFlags & ImGuiTestRunFlags_RunFromCommandLine)); // Backup some state ImGuiIO& io = ImGui::GetIO(); const char* backup_ini_filename = io.IniFilename; ImGuiWindow* backup_nav_window = engine->UiContextTarget->NavWindow; io.IniFilename = NULL; int ran_tests = 0; engine->BatchStartTime = ImTimeGetInMicroseconds(); engine->IO.IsRunningTests = true; for (int n = 0; n < engine->TestsQueue.Size; n++) { ImGuiTestRunTask* run_task = &engine->TestsQueue[n]; IM_ASSERT(run_task->Test->Output.Status == ImGuiTestStatus_Queued); // FIXME-TESTS: Blind mode not supported IM_ASSERT(engine->UiContextTarget != NULL); IM_ASSERT(engine->UiContextActive == NULL); engine->UiContextActive = engine->UiContextTarget; engine->UiSelectedTest = run_task->Test; if (track_scrolling) engine->UiSelectAndScrollToTest = run_task->Test; // Run test ImGuiTestEngine_RunTest(engine, NULL, run_task->Test, run_task->RunFlags); // Cleanup IM_ASSERT(engine->TestContext == NULL); IM_ASSERT(engine->UiContextActive == engine->UiContextTarget); engine->UiContextActive = NULL; // Auto select the first error test //if (test->Status == ImGuiTestStatus_Error) // if (engine->UiSelectedTest == NULL || engine->UiSelectedTest->Status != ImGuiTestStatus_Error) // engine->UiSelectedTest = test; ran_tests++; } engine->IO.IsRunningTests = false; engine->BatchEndTime = ImTimeGetInMicroseconds(); engine->Abort = false; engine->TestsQueue.clear(); // Restore UI state (done after all ImGuiTestEngine_RunTest() are done) if (ran_tests) { if (engine->IO.ConfigRestoreFocusAfterTests) ImGui::FocusWindow(backup_nav_window); } io.IniFilename = backup_ini_filename; } bool ImGuiTestEngine_IsTestQueueEmpty(ImGuiTestEngine* engine) { return engine->TestsQueue.Size == 0; } static bool ImGuiTestEngine_IsRunningTest(ImGuiTestEngine* engine, ImGuiTest* test) { for (ImGuiTestRunTask& t : engine->TestsQueue) if (t.Test == test) return true; return false; } void ImGuiTestEngine_QueueTest(ImGuiTestEngine* engine, ImGuiTest* test, ImGuiTestRunFlags run_flags) { if (ImGuiTestEngine_IsRunningTest(engine, test)) return; // Detect lack of signal from imgui context, most likely not compiled with IMGUI_ENABLE_TEST_ENGINE=1 // FIXME: Why is in this function? if (engine->UiContextTarget && engine->FrameCount < engine->UiContextTarget->FrameCount - 2) { ImGuiTestEngine_AbortCurrentTest(engine); IM_ASSERT(0 && "Not receiving signal from core library. Did you call ImGuiTestEngine_CreateContext() with the correct context? Did you compile imgui/ with IMGUI_ENABLE_TEST_ENGINE=1?"); test->Output.Status = ImGuiTestStatus_Error; return; } test->Output.Status = ImGuiTestStatus_Queued; ImGuiTestRunTask run_task; run_task.Test = test; run_task.RunFlags = run_flags; engine->TestsQueue.push_back(run_task); } // Called by IM_REGISTER_TEST(). Prefer calling IM_REGISTER_TEST() in your code so src_file/src_line are automatically passed. ImGuiTest* ImGuiTestEngine_RegisterTest(ImGuiTestEngine* engine, const char* category, const char* name, const char* src_file, int src_line) { ImGuiTestGroup group = ImGuiTestGroup_Tests; if (strcmp(category, "perf") == 0) group = ImGuiTestGroup_Perfs; ImGuiTest* t = IM_NEW(ImGuiTest)(); t->Group = group; t->Category = category; t->Name = name; t->SourceFile = src_file; t->SourceLine = t->SourceLineEnd = src_line; engine->TestsAll.push_back(t); return t; } ImGuiPerfTool* ImGuiTestEngine_GetPerfTool(ImGuiTestEngine* engine) { return engine->PerfTool; } // Filter tests by a specified query. Query is composed of one or more comma-separated filter terms optionally prefixed/suffixed with modifiers. // Available modifiers: // - '-' prefix excludes tests matched by the term. // - '^' prefix anchors term matching to the start of the string. // - '$' suffix anchors term matching to the end of the string. // Special keywords: // - "all" : all tests, no matter what group they are in. // - "tests" : tests in ImGuiTestGroup_Tests group. // - "perfs" : tests in ImGuiTestGroup_Perfs group. // Example queries: // - "" : empty query matches no tests. // - "^nav_" : all tests with name starting with "nav_". // - "_nav$" : all tests with name ending with "_nav". // - "-xxx" : all tests and perfs that do not contain "xxx". // - "tests,-scroll,-^nav_" : all tests (but no perfs) that do not contain "scroll" in their name and does not start with "nav_". // Note: while we borrowed ^ and $ from regex conventions, we do not support actual regex syntax except for behavior of these two modifiers. bool ImGuiTestEngine_PassFilter(ImGuiTest* test, const char* filter_specs) { IM_ASSERT(filter_specs != NULL); auto str_iequal = [](const char* s1, const char* s2, const char* s2_end) { size_t s2_len = (size_t)(s2_end - s2); if (strlen(s1) != s2_len) return false; return ImStrnicmp(s1, s2, s2_len) == 0; }; auto str_iendswith = [&str_iequal](const char* s1, const char* s2, const char* s2_end) { size_t s1_len = strlen(s1); size_t s2_len = (size_t)(s2_end - s2); if (s1_len < s2_len) return false; s1 = s1 + s1_len - s2_len; return str_iequal(s1, s2, s2_end); }; bool include = false; const char* prefixes = "^-"; // When filter starts with exclude condition, we assume we have included all tests from the start. This enables // writing "-window" instead of "all,-window". for (int i = 0; filter_specs[i]; i++) if (filter_specs[i] == '-') include = true; // First filter is exclusion else if (strchr(prefixes, filter_specs[i]) == NULL) break; // End of prefixes for (const char* filter_start = filter_specs; filter_start[0];) { // Filter modifiers bool is_exclude = false; bool is_anchor_to_start = false; bool is_anchor_to_end = false; for (;;) { if (filter_start[0] == '-') is_exclude = true; else if (filter_start[0] == '^') is_anchor_to_start = true; else break; filter_start++; } const char* filter_end = strstr(filter_start, ","); filter_end = filter_end ? filter_end : filter_start + strlen(filter_start); is_anchor_to_end = filter_end[-1] == '$'; if (is_anchor_to_end) filter_end--; if (str_iequal("all", filter_start, filter_end)) include = !is_exclude; else if (str_iequal("tests", filter_start, filter_end)) include = (test->Group == ImGuiTestGroup_Tests) ? !is_exclude : include; else if (str_iequal("perfs", filter_start, filter_end)) include = (test->Group == ImGuiTestGroup_Perfs) ? !is_exclude : include; else { // General filtering for (int n = 0; n < 2; n++) { const char* name = (n == 0) ? test->Name : test->Category; bool match = true; // "foo" - match a substring. if (!is_anchor_to_start && !is_anchor_to_end) match = ImStristr(name, NULL, filter_start, filter_end) != NULL; // "^foo" - match start of the string. // "foo$" - match end of the string. // FIXME: (minor) '^aaa$' will incorrectly match 'aaabbbaaa'. if (is_anchor_to_start) match &= ImStrnicmp(name, filter_start, filter_end - filter_start) == 0; if (is_anchor_to_end) match &= str_iendswith(name, filter_start, filter_end); if (match) { include = is_exclude ? false : true; break; } } } while (filter_end[0] == ',' || filter_end[0] == '$') filter_end++; filter_start = filter_end; } return include; } void ImGuiTestEngine_QueueTests(ImGuiTestEngine* engine, ImGuiTestGroup group, const char* filter_str, ImGuiTestRunFlags run_flags) { IM_ASSERT(group >= ImGuiTestGroup_Unknown && group < ImGuiTestGroup_COUNT); for (int n = 0; n < engine->TestsAll.Size; n++) { ImGuiTest* test = engine->TestsAll[n]; if (group != ImGuiTestGroup_Unknown && test->Group != group) continue; if (!ImGuiTestEngine_PassFilter(test, filter_str)) continue; ImGuiTestEngine_QueueTest(engine, test, run_flags); } } static void ImGuiTestEngine_StartCalcSourceLineEnds(ImGuiTestEngine* engine) { if (engine->TestsAll.empty()) return; ImVector line_starts; line_starts.reserve(engine->TestsAll.Size); for (int n = 0; n < engine->TestsAll.Size; n++) line_starts.push_back(engine->TestsAll[n]->SourceLine); ImQsort(line_starts.Data, (size_t)line_starts.Size, sizeof(int), [](const void* lhs, const void* rhs) { return (*(const int*)lhs) - *(const int*)rhs; }); for (int n = 0; n < engine->TestsAll.Size; n++) { ImGuiTest* test = engine->TestsAll[n]; for (int m = 0; m < line_starts.Size - 1; m++) // FIXME-OPT if (line_starts[m] == test->SourceLine) test->SourceLineEnd = ImMax(test->SourceLine, line_starts[m + 1]); } } void ImGuiTestEngine_GetResult(ImGuiTestEngine* engine, int& count_tested, int& count_success) { count_tested = 0; count_success = 0; for (int n = 0; n < engine->TestsAll.Size; n++) { ImGuiTest* test = engine->TestsAll[n]; if (test->Output.Status == ImGuiTestStatus_Unknown) continue; IM_ASSERT(test->Output.Status != ImGuiTestStatus_Queued); IM_ASSERT(test->Output.Status != ImGuiTestStatus_Running); count_tested++; if (test->Output.Status == ImGuiTestStatus_Success) count_success++; } } // Get a copy of the test list void ImGuiTestEngine_GetTestList(ImGuiTestEngine* engine, ImVector* out_tests) { *out_tests = engine->TestsAll; } // Get a copy of the test queue void ImGuiTestEngine_GetTestQueue(ImGuiTestEngine* engine, ImVector* out_tests) { *out_tests = engine->TestsQueue; } static void ImGuiTestEngine_UpdateHooks(ImGuiTestEngine* engine) { ImGuiContext* ui_ctx = engine->UiContextTarget; IM_ASSERT(ui_ctx->TestEngine == engine); bool want_hooking = false; //if (engine->TestContext != NULL) // want_hooking = true; if (engine->InfoTasks.Size > 0) want_hooking = true; if (engine->FindByLabelTask.InSuffix != NULL) want_hooking = true; if (engine->GatherTask.InParentID != 0) want_hooking = true; // Update test engine specific hooks ui_ctx->TestEngineHookItems = want_hooking; } struct ImGuiTestContextUiContextBackup { ImGuiIO IO; ImGuiStyle Style; ImGuiDebugLogFlags DebugLogFlags; ImGuiKeyChord ConfigNavWindowingKeyNext; ImGuiKeyChord ConfigNavWindowingKeyPrev; void Backup(ImGuiContext& g) { IO = g.IO; Style = g.Style; DebugLogFlags = g.DebugLogFlags; ConfigNavWindowingKeyNext = g.ConfigNavWindowingKeyNext; ConfigNavWindowingKeyPrev = g.ConfigNavWindowingKeyPrev; memset(IO.MouseDown, 0, sizeof(IO.MouseDown)); for (int n = 0; n < IM_ARRAYSIZE(IO.KeysData); n++) IO.KeysData[n].Down = false; } void Restore(ImGuiContext& g) { #if IMGUI_VERSION_NUM < 18993 IO.MetricsActiveAllocations = g.IO.MetricsActiveAllocations; #endif g.IO = IO; g.Style = Style; g.DebugLogFlags = DebugLogFlags; g.ConfigNavWindowingKeyNext = ConfigNavWindowingKeyNext; g.ConfigNavWindowingKeyPrev = ConfigNavWindowingKeyPrev; } void RestoreClipboardFuncs(ImGuiContext& g) { g.IO.GetClipboardTextFn = IO.GetClipboardTextFn; g.IO.SetClipboardTextFn = IO.SetClipboardTextFn; g.IO.ClipboardUserData = IO.ClipboardUserData; } }; // FIXME: Work toward simplifying this function? void ImGuiTestEngine_RunTest(ImGuiTestEngine* engine, ImGuiTestContext* parent_ctx, ImGuiTest* test, ImGuiTestRunFlags run_flags) { ImGuiTestContext stack_ctx; ImGuiCaptureArgs stack_capture_args; ImGuiTestContext* ctx; if (run_flags & ImGuiTestRunFlags_ShareTestContext) { // Reuse existing test context IM_ASSERT(parent_ctx != NULL); ctx = parent_ctx; } else { // Create a test context ctx = &stack_ctx; ctx->Engine = engine; ctx->EngineIO = &engine->IO; ctx->Inputs = &engine->Inputs; ctx->CaptureArgs = &stack_capture_args; ctx->UserVars = NULL; ctx->PerfStressAmount = engine->IO.PerfStressAmount; #ifdef IMGUI_HAS_DOCK ctx->HasDock = true; #else ctx->HasDock = false; #endif } ImGuiTestOutput* test_output; if (parent_ctx == NULL) { ctx->Test = test; test_output = ctx->TestOutput = &test->Output; test_output->StartTime = ImTimeGetInMicroseconds(); } else { ctx->Test = parent_ctx->Test; test_output = ctx->TestOutput = parent_ctx->TestOutput; } if (engine->Abort) { test_output->Status = ImGuiTestStatus_Unknown; if (parent_ctx == NULL) test_output->EndTime = test_output->StartTime; ctx->Test = NULL; ctx->TestOutput = NULL; return; } test_output->Status = ImGuiTestStatus_Running; ctx->RunFlags = run_flags; ctx->UiContext = engine->UiContextActive; engine->TestContext = ctx; ImGuiTestEngine_UpdateHooks(engine); void* backup_user_vars = NULL; ImGuiTestGenericVars backup_generic_vars; if (run_flags & ImGuiTestRunFlags_ShareVars) { // Share user vars and generic vars IM_CHECK_SILENT(parent_ctx != NULL); IM_CHECK_SILENT(test->VarsSize == parent_ctx->Test->VarsSize); IM_CHECK_SILENT(test->VarsConstructor == parent_ctx->Test->VarsConstructor); IM_CHECK_SILENT(test->VarsPostConstructor == parent_ctx->Test->VarsPostConstructor); IM_CHECK_SILENT(test->VarsPostConstructorUserFn == parent_ctx->Test->VarsPostConstructorUserFn); IM_CHECK_SILENT(test->VarsDestructor == parent_ctx->Test->VarsDestructor); if ((run_flags & ImGuiTestRunFlags_ShareTestContext) == 0) { ctx->GenericVars = parent_ctx->GenericVars; ctx->UserVars = parent_ctx->UserVars; } } else { // Create user vars if (run_flags & ImGuiTestRunFlags_ShareTestContext) { backup_user_vars = parent_ctx->UserVars; backup_generic_vars = parent_ctx->GenericVars; } ctx->GenericVars.Clear(); if (test->VarsConstructor != NULL) { ctx->UserVars = IM_ALLOC(test->VarsSize); test->VarsConstructor(ctx->UserVars); if (test->VarsPostConstructor != NULL && test->VarsPostConstructorUserFn != NULL) test->VarsPostConstructor(ctx, ctx->UserVars, test->VarsPostConstructorUserFn); } } // Log header if (parent_ctx == NULL) { ctx->LogEx(ImGuiTestVerboseLevel_Info, ImGuiTestLogFlags_NoHeader, "----------------------------------------------------------------------"); // Intentionally TTY only (just before clear: make it a flag?) test_output->Log.Clear(); ctx->LogWarning("Test: '%s' '%s'..", test->Category, test->Name); } else { ctx->LogWarning("Child Test: '%s' '%s'..", test->Category, test->Name); ctx->LogWarning("(ShareVars=%d ShareTestContext=%d)", (run_flags & ImGuiTestRunFlags_ShareVars) ? 1 : 0, (run_flags & ImGuiTestRunFlags_ShareTestContext) ? 1 : 0); } // Clear ImGui inputs to avoid key/mouse leaks from one test to another ImGuiTestEngine_ClearInput(engine); ctx->FrameCount = parent_ctx ? parent_ctx->FrameCount : 0; ctx->ErrorCounter = 0; ctx->SetRef(""); ctx->SetInputMode(ImGuiInputSource_Mouse); ctx->UiContext->NavInputSource = ImGuiInputSource_Keyboard; ctx->Clipboard.clear(); // Backup entire IO and style. Allows tests modifying them and not caring about restoring state. ImGuiTestContextUiContextBackup backup_ui_context; backup_ui_context.Backup(*ctx->UiContext); // Setup IO: software mouse cursor, viewport support ImGuiIO& io = ctx->UiContext->IO; if (engine->IO.ConfigMouseDrawCursor) io.MouseDrawCursor = true; #ifdef IMGUI_HAS_VIEWPORT // We always fill io.MouseHoveredViewport manually (maintained in ImGuiTestInputs::SimulatedIO) // so ensure we don't leave a chance to Dear ImGui to interpret things differently. // FIXME: As written, this would prevent tests from toggling ImGuiConfigFlags_ViewportsEnable and have correct value for ImGuiBackendFlags_HasMouseHoveredViewport if (io.ConfigFlags & ImGuiConfigFlags_ViewportsEnable) io.BackendFlags |= ImGuiBackendFlags_HasMouseHoveredViewport; else io.BackendFlags &= ~ImGuiBackendFlags_HasMouseHoveredViewport; #endif // Setup IO: override clipboard if ((ctx->RunFlags & ImGuiTestRunFlags_GuiFuncOnly) == 0) { io.GetClipboardTextFn = [](void* user_data) -> const char* { ImGuiTestContext* ctx = (ImGuiTestContext*)user_data; return ctx->Clipboard.empty() ? "" : ctx->Clipboard.Data; }; io.SetClipboardTextFn = [](void* user_data, const char* text) { ImGuiTestContext* ctx = (ImGuiTestContext*)user_data; ctx->Clipboard.resize((int)strlen(text) + 1); strcpy(ctx->Clipboard.Data, text); }; io.ClipboardUserData = ctx; } // Mark as currently running the TestFunc (this is the only time when we are allowed to yield) IM_ASSERT(ctx->ActiveFunc == ImGuiTestActiveFunc_None || ctx->ActiveFunc == ImGuiTestActiveFunc_TestFunc); ImGuiTestActiveFunc backup_active_func = ctx->ActiveFunc; ctx->ActiveFunc = ImGuiTestActiveFunc_TestFunc; ctx->FirstGuiFrame = (test->GuiFunc != NULL) ? true : false; // Warm up GUI // - We need one mandatory frame running GuiFunc before running TestFunc // - We add a second frame, to avoid running tests while e.g. windows are typically appearing for the first time, hidden, // measuring their initial size. Most tests are going to be more meaningful with this stabilized base. if (!(test->Flags & ImGuiTestFlags_NoGuiWarmUp)) { ctx->FrameCount -= 2; ctx->Yield(); if (test_output->Status == ImGuiTestStatus_Running) // To allow GuiFunc calling Finish() in first frame ctx->Yield(); } ctx->FirstTestFrameCount = ctx->FrameCount; // Call user test function (optional) if (ctx->RunFlags & ImGuiTestRunFlags_GuiFuncOnly) { // No test function while (!engine->Abort && test_output->Status == ImGuiTestStatus_Running) ctx->Yield(); } else { if (test->TestFunc) { // Test function test->TestFunc(ctx); // In case test failed without finishing gif capture - finish it here. This may trigger due to user error or // due to IM_SUSPEND_TESTFUNC() terminating TestFunc() early. if (engine->CaptureContext.IsCapturingVideo()) { ImGuiCaptureArgs* args = engine->CaptureCurrentArgs; ImGuiTestEngine_CaptureEndVideo(engine, args); //ImFileDelete(args->OutSavedFileName); ctx->LogWarning("Recovered from missing CaptureEndVideo()"); } } else { // No test function if (test->Flags & ImGuiTestFlags_NoAutoFinish) while (!engine->Abort && test_output->Status == ImGuiTestStatus_Running) ctx->Yield(); } // Capture failure screenshot. if (ctx->IsError() && engine->IO.ConfigCaptureOnError) { // FIXME-VIEWPORT: Tested windows may be in their own viewport. This only captures everything in main viewport. Capture tool may be extended to capture viewport windows as well. This would leave out OS windows which may be a cause of failure. ImGuiCaptureArgs args; args.InFlags = ImGuiCaptureFlags_Instant; args.InCaptureRect.Min = ImGui::GetMainViewport()->Pos; args.InCaptureRect.Max = args.InCaptureRect.Min + ImGui::GetMainViewport()->Size; ImFormatString(args.InOutputFile, IM_ARRAYSIZE(args.InOutputFile), "output/failures/%s_%04d.png", ctx->Test->Name, ctx->ErrorCounter); if (ImGuiTestEngine_CaptureScreenshot(engine, &args)) ctx->LogDebug("Saved '%s' (%d*%d pixels)", args.InOutputFile, (int)args.OutImageSize.x, (int)args.OutImageSize.y); } // Recover missing End*/Pop* calls. ctx->RecoverFromUiContextErrors(); if (engine->IO.ConfigRunSpeed != ImGuiTestRunSpeed_Fast) ctx->SleepStandard(); // Stop in GuiFunc mode if (engine->IO.ConfigKeepGuiFunc && ctx->IsError()) { // Position mouse cursor ctx->UiContext->IO.WantSetMousePos = true; ctx->UiContext->IO.MousePos = engine->Inputs.MousePosValue; // Restore backend clipboard functions backup_ui_context.RestoreClipboardFuncs(*ctx->UiContext); // Unhide foreign windows (may be useful sometimes to inspect GuiFunc state... sometimes not) //ctx->ForeignWindowsUnhideAll(); } // Keep GuiFunc spinning // FIXME-TESTS: after an error, this is not visible in the UI because status is not _Running anymore... if (engine->IO.ConfigKeepGuiFunc) { if (engine->TestsQueue.Size == 1 || test_output->Status == ImGuiTestStatus_Error) { #if IMGUI_VERSION_NUM >= 18992 ImGui::TeleportMousePos(engine->Inputs.MousePosValue); #endif while (engine->IO.ConfigKeepGuiFunc && !engine->Abort) { ctx->RunFlags |= ImGuiTestRunFlags_GuiFuncOnly; ctx->Yield(); } } } } IM_ASSERT(engine->CaptureCurrentArgs == NULL && "Active capture was not terminated in the test code."); // Process and display result/status test_output->EndTime = ImTimeGetInMicroseconds(); if (test_output->Status == ImGuiTestStatus_Running) test_output->Status = ImGuiTestStatus_Success; if (engine->Abort && test_output->Status != ImGuiTestStatus_Error) test_output->Status = ImGuiTestStatus_Unknown; // Log result if (test_output->Status == ImGuiTestStatus_Success) { if ((ctx->RunFlags & ImGuiTestRunFlags_NoSuccessMsg) == 0) ctx->LogInfo("Success."); } else if (engine->Abort) ctx->LogWarning("Aborted."); else if (test_output->Status == ImGuiTestStatus_Error) ctx->LogError("%s test failed.", test->Name); else ctx->LogWarning("Unknown status."); // Additional yields to avoid consecutive tests who may share identifiers from missing their window/item activation. ctx->RunFlags |= ImGuiTestRunFlags_GuiFuncDisable; ctx->Yield(2); // Restore active func ctx->ActiveFunc = backup_active_func; if (parent_ctx) parent_ctx->FrameCount = ctx->FrameCount; // Restore backed up IO and style backup_ui_context.Restore(*ctx->UiContext); if (run_flags & ImGuiTestRunFlags_ShareVars) { // Share generic vars? if ((run_flags & ImGuiTestRunFlags_ShareTestContext) == 0) parent_ctx->GenericVars = ctx->GenericVars; } else { // Destruct user vars if (test->VarsConstructor != NULL) { test->VarsDestructor(ctx->UserVars); if (ctx->UserVars) IM_FREE(ctx->UserVars); ctx->UserVars = NULL; } if (run_flags & ImGuiTestRunFlags_ShareTestContext) { parent_ctx->UserVars = backup_user_vars; parent_ctx->GenericVars = backup_generic_vars; } } IM_ASSERT(engine->TestContext == ctx); engine->TestContext = parent_ctx; } //------------------------------------------------------------------------- // [SECTION] CRASH HANDLING //------------------------------------------------------------------------- // - ImGuiTestEngine_CrashHandler() // - ImGuiTestEngine_InstallDefaultCrashHandler() //------------------------------------------------------------------------- void ImGuiTestEngine_CrashHandler() { static bool handled = false; if (handled) return; handled = true; ImGuiContext& g = *GImGui; ImGuiTestEngine* engine = (ImGuiTestEngine*)g.TestEngine; // Write stop times, because thread executing tests will no longer run. engine->BatchEndTime = ImTimeGetInMicroseconds(); for (int i = 0; i < engine->TestsAll.Size; i++) { if (engine->TestContext) if (ImGuiTest* test = engine->TestContext->Test) if (test->Output.Status == ImGuiTestStatus_Running) { test->Output.Status = ImGuiTestStatus_Error; test->Output.EndTime = engine->BatchEndTime; break; } } // Export test run results. ImGuiTestEngine_Export(engine); } #ifdef _WIN32 static LONG WINAPI ImGuiTestEngine_CrashHandlerWin32(LPEXCEPTION_POINTERS) { ImGuiTestEngine_CrashHandler(); return EXCEPTION_EXECUTE_HANDLER; } #else static void ImGuiTestEngine_CrashHandlerUnix(int signal) { IM_UNUSED(signal); ImGuiTestEngine_CrashHandler(); abort(); } #endif void ImGuiTestEngine_InstallDefaultCrashHandler() { #ifdef _WIN32 SetUnhandledExceptionFilter(&ImGuiTestEngine_CrashHandlerWin32); #else // Install a crash handler to relevant signals. struct sigaction action = {}; action.sa_handler = ImGuiTestEngine_CrashHandlerUnix; action.sa_flags = SA_SIGINFO; sigaction(SIGILL, &action, NULL); sigaction(SIGABRT, &action, NULL); sigaction(SIGFPE, &action, NULL); sigaction(SIGSEGV, &action, NULL); sigaction(SIGPIPE, &action, NULL); sigaction(SIGBUS, &action, NULL); #endif } //------------------------------------------------------------------------- // [SECTION] HOOKS FOR CORE LIBRARY //------------------------------------------------------------------------- // - ImGuiTestEngineHook_ItemAdd() // - ImGuiTestEngineHook_ItemAdd_GatherTask() // - ImGuiTestEngineHook_ItemInfo() // - ImGuiTestEngineHook_ItemInfo_ResolveFindByLabel() // - ImGuiTestEngineHook_Log() // - ImGuiTestEngineHook_AssertFunc() //------------------------------------------------------------------------- // This is rather slow at it runs on all items but only during a GatherItems() operations. static void ImGuiTestEngineHook_ItemAdd_GatherTask(ImGuiContext* ui_ctx, ImGuiTestEngine* engine, ImGuiID id, const ImRect& bb, const ImGuiLastItemData* item_data) { ImGuiContext& g = *ui_ctx; ImGuiWindow* window = g.CurrentWindow; ImGuiTestGatherTask* task = &engine->GatherTask; if ((task->InLayerMask & (1 << window->DC.NavLayerCurrent)) == 0) return; const ImGuiID parent_id = window->IDStack.Size ? window->IDStack.back() : 0; const ImGuiID gather_parent_id = task->InParentID; int result_depth = -1; if (gather_parent_id == parent_id) { result_depth = 0; } else { const int max_depth = task->InMaxDepth; // When using a 'PushID(label); Widget(""); PopID();` pattern flatten as 1 deep instead of 2 for simplicity. // We do this by offsetting our depth level. int curr_depth = (id == parent_id) ? -1 : 0; ImGuiWindow* curr_window = window; while (result_depth == -1 && curr_window != NULL) { const int id_stack_size = curr_window->IDStack.Size; for (ImGuiID* p_id_stack = curr_window->IDStack.Data + id_stack_size - 1; p_id_stack >= curr_window->IDStack.Data; p_id_stack--, curr_depth++) { if (curr_depth >= max_depth) break; if (*p_id_stack == gather_parent_id) { result_depth = curr_depth; break; } } // Recurse in child (could be policy/option in GatherTask) if (curr_window->Flags & ImGuiWindowFlags_ChildWindow) curr_window = curr_window->ParentWindow; else curr_window = NULL; } } if (result_depth != -1) { ImGuiTestItemInfo* item = task->OutList->Pool.GetOrAddByKey(id); // Add item->TimestampMain = engine->FrameCount; item->ID = id; item->ParentID = parent_id; item->Window = window; item->RectFull = item->RectClipped = bb; item->RectClipped.ClipWithFull(window->ClipRect); // This two step clipping is important, we want RectClipped to stays within RectFull item->RectClipped.ClipWithFull(item->RectFull); item->NavLayer = window->DC.NavLayerCurrent; item->Depth = result_depth; item->InFlags = item_data ? item_data->InFlags : ImGuiItemFlags_None; item->StatusFlags = item_data ? item_data->StatusFlags : ImGuiItemStatusFlags_None; task->LastItemInfo = item; } } void ImGuiTestEngineHook_ItemAdd(ImGuiContext* ui_ctx, ImGuiID id, const ImRect& bb, const ImGuiLastItemData* item_data) { ImGuiTestEngine* engine = (ImGuiTestEngine*)ui_ctx->TestEngine; IM_ASSERT(id != 0); ImGuiContext& g = *ui_ctx; ImGuiWindow* window = g.CurrentWindow; // FIXME-OPT: Early out if there are no active Info/Gather tasks. // Info Tasks if (ImGuiTestInfoTask* task = ImGuiTestEngine_FindInfoTask(engine, id)) { ImGuiTestItemInfo* item = &task->Result; item->TimestampMain = engine->FrameCount; item->ID = id; item->ParentID = window->IDStack.Size ? window->IDStack.back() : 0; item->Window = window; item->RectFull = item->RectClipped = bb; item->RectClipped.ClipWithFull(window->ClipRect); // This two step clipping is important, we want RectClipped to stays within RectFull item->RectClipped.ClipWithFull(item->RectFull); item->NavLayer = window->DC.NavLayerCurrent; item->Depth = 0; item->InFlags = item_data ? item_data->InFlags : ImGuiItemFlags_None; item->StatusFlags = item_data ? item_data->StatusFlags : ImGuiItemStatusFlags_None; } // Gather Task (only 1 can be active) if (engine->GatherTask.InParentID != 0) ImGuiTestEngineHook_ItemAdd_GatherTask(ui_ctx, engine, id, bb, item_data); } #if IMGUI_VERSION_NUM < 18934 void ImGuiTestEngineHook_ItemAdd(ImGuiContext* ui_ctx, const ImRect& bb, ImGuiID id) { ImGuiTestEngineHook_ItemAdd(ui_ctx, id, bb, NULL); } #endif // Task is submitted in TestFunc by ItemInfo() -> ItemInfoHandleWildcardSearch() #ifdef IMGUI_HAS_IMSTR static void ImGuiTestEngineHook_ItemInfo_ResolveFindByLabel(ImGuiContext* ui_ctx, ImGuiID id, const ImStrv label, ImGuiItemStatusFlags flags) #else static void ImGuiTestEngineHook_ItemInfo_ResolveFindByLabel(ImGuiContext* ui_ctx, ImGuiID id, const char* label, ImGuiItemStatusFlags flags) #endif { // At this point "label" is a match for the right-most name in user wildcard (e.g. the "bar" of "**/foo/bar" ImGuiContext& g = *ui_ctx; ImGuiTestEngine* engine = (ImGuiTestEngine*)ui_ctx->TestEngine; IM_UNUSED(label); // Match ABI of caller function (faster call) // Test for matching status flags ImGuiTestFindByLabelTask* label_task = &engine->FindByLabelTask; if (ImGuiItemStatusFlags filter_flags = label_task->InFilterItemStatusFlags) if (!(filter_flags & flags)) return; // Test for matching PREFIX (the "window" of "window/**/foo/bar" or the "" of "/**/foo/bar") // FIXME-TESTS: Stack depth limit? // FIXME-TESTS: Recurse back into parent window limit? bool match_prefix = false; if (label_task->InPrefixId == 0) { match_prefix = true; } else { // Recurse back into parent, so from "WindowA" with SetRef("WindowA") it is possible to use "**/Button" to reach "WindowA/ChildXXXX/Button" for (ImGuiWindow* window = g.CurrentWindow; window != NULL && !match_prefix; window = window->ParentWindow) { const int id_stack_size = window->IDStack.Size; for (ImGuiID* p_id_stack = window->IDStack.Data + id_stack_size - 1; p_id_stack >= window->IDStack.Data; p_id_stack--) if (*p_id_stack == label_task->InPrefixId) { match_prefix = true; break; } } } if (!match_prefix) return; // Test for full matching SUFFIX (the "foo/bar" or "window/**/foo/bar") // Because at this point we have only compared the prefix and the right-most label (the "window" and "bar" or "window/**/foo/bar") // FIXME-TESTS: The entire suffix must be inside the final window: // - In theory, someone could craft a suffix that contains sub-window, e.g. "SomeWindow/**/SomeChild_XXXX/SomeItem" and this will fail. // - Once we make child path easier to access we can fix that. if (label_task->InSuffixDepth > 1) // This is merely an early out: for Depth==1 the compare has already been done in ImGuiTestEngineHook_ItemInfo() { ImGuiWindow* window = g.CurrentWindow; const int id_stack_size = window->IDStack.Size; int id_stack_pos = id_stack_size - label_task->InSuffixDepth; // At this point, IN MOST CASES (BUT NOT ALL) this should be the case: // ImHashStr(label, 0, g.CurrentWindow->IDStack.back()) == id // It's not always the case as we have situations where we call IMGUI_TEST_ENGINE_ITEM_INFO() outside of the right stack location: // e.g. Begin(), or items using the PushID(label); SubItem(""); PopID(); idiom. // If you are curious or need to understand this more in depth, uncomment this assert to detect them: // ImGuiID tmp_id = ImHashStr(label, 0, g.CurrentWindow->IDStack.back()); // IM_ASSERT(tmp_id == id); // The "Try with parent" case is designed to handle that. May need further tuning. ImGuiID base_id = id_stack_pos >= 0 ? window->IDStack.Data[id_stack_pos] : 0; // base_id correspond to the "**" ImGuiID find_id = ImHashDecoratedPath(label_task->InSuffix, NULL, base_id); // hash the whole suffix e.g. "foo/bar" over our base if (id != find_id) { // Try with parent base_id = id_stack_pos > 0 ? window->IDStack.Data[id_stack_pos - 1] : 0; find_id = ImHashDecoratedPath(label_task->InSuffix, NULL, base_id); if (id != find_id) return; } } // Success label_task->OutItemId = id; } // label is optional #ifdef IMGUI_HAS_IMSTR void ImGuiTestEngineHook_ItemInfo(ImGuiContext* ui_ctx, ImGuiID id, ImStrv label, ImGuiItemStatusFlags flags) #else void ImGuiTestEngineHook_ItemInfo(ImGuiContext* ui_ctx, ImGuiID id, const char* label, ImGuiItemStatusFlags flags) #endif { ImGuiTestEngine* engine = (ImGuiTestEngine*)ui_ctx->TestEngine; IM_ASSERT(id != 0); ImGuiContext& g = *ui_ctx; //ImGuiWindow* window = g.CurrentWindow; //IM_ASSERT(window->DC.LastItemId == id || window->DC.LastItemId == 0); // Need _ItemAdd() to be submitted before _ItemInfo() // Update Info Task status flags if (ImGuiTestInfoTask* task = ImGuiTestEngine_FindInfoTask(engine, id)) { ImGuiTestItemInfo* item = &task->Result; item->TimestampStatus = g.FrameCount; item->StatusFlags = flags; if (label) ImStrncpy(item->DebugLabel, label, IM_ARRAYSIZE(item->DebugLabel)); } // Update Gather Task status flags if (engine->GatherTask.LastItemInfo && engine->GatherTask.LastItemInfo->ID == id) { ImGuiTestItemInfo* item = engine->GatherTask.LastItemInfo; item->TimestampStatus = g.FrameCount; item->StatusFlags = flags; if (label) ImStrncpy(item->DebugLabel, label, IM_ARRAYSIZE(item->DebugLabel)); } // Update Find by Label Task // FIXME-TESTS FIXME-OPT: Compare by hashes instead of strcmp to support "###" operator. // Perhaps we could use strcmp() if we detect that ### is not used, that would be faster. ImGuiTestFindByLabelTask* label_task = &engine->FindByLabelTask; if (label && label_task->InSuffixLastItem && label_task->OutItemId == 0) #ifdef IMGUI_HAS_IMSTR if (label_task->InSuffixLastItemHash == ImHashStr(label)) #else if (label_task->InSuffixLastItemHash == ImHashStr(label, 0)) #endif ImGuiTestEngineHook_ItemInfo_ResolveFindByLabel(ui_ctx, id, label, flags); } // Forward core/user-land text to test log // This is called via the user-land IMGUI_TEST_ENGINE_LOG() macro. void ImGuiTestEngineHook_Log(ImGuiContext* ui_ctx, const char* fmt, ...) { ImGuiTestEngine* engine = (ImGuiTestEngine*)ui_ctx->TestEngine; va_list args; va_start(args, fmt); engine->TestContext->LogExV(ImGuiTestVerboseLevel_Debug, ImGuiTestLogFlags_None, fmt, args); va_end(args); } // Helper to output extra information (e.g. current test) during an assert. // Your custom assert code may optionally want to call this. void ImGuiTestEngine_AssertLog(const char* expr, const char* file, const char* function, int line) { ImGuiTestEngine* engine = GImGuiTestEngine; if (ImGuiTestContext* ctx = engine->TestContext) { ctx->LogError("Assert: '%s'", expr); ctx->LogWarning("In %s:%d, function %s()", file, line, function); if (ImGuiTest* test = ctx->Test) ctx->LogWarning("While running test: %s %s", test->Category, test->Name); } } // Used by IM_CHECK_OP() macros ImGuiTextBuffer* ImGuiTestEngine_GetTempStringBuilder() { static ImGuiTextBuffer builder; builder.Buf.resize(1); builder.Buf[0] = 0; return &builder; } // Out of convenience for main library we allow this to be called before TestEngine is initialized. const char* ImGuiTestEngine_FindItemDebugLabel(ImGuiContext* ui_ctx, ImGuiID id) { if (ui_ctx->TestEngine == NULL || id == 0) return NULL; if (ImGuiTestItemInfo* id_info = ImGuiTestEngine_FindItemInfo((ImGuiTestEngine*)ui_ctx->TestEngine, id, "")) return id_info->DebugLabel; return NULL; } //------------------------------------------------------------------------- // [SECTION] CHECK/ERROR FUNCTIONS FOR TESTS //------------------------------------------------------------------------- // - ImGuiTestEngine_Check() // - ImGuiTestEngine_Error() //------------------------------------------------------------------------- // Return true to request a debugger break bool ImGuiTestEngine_Check(const char* file, const char* func, int line, ImGuiTestCheckFlags flags, bool result, const char* expr) { ImGuiTestEngine* engine = GImGuiTestEngine; (void)func; // Removed absolute path from output so we have deterministic output (otherwise __FILE__ gives us machine dending output) const char* file_without_path = file ? ImPathFindFilename(file) : ""; if (ImGuiTestContext* ctx = engine->TestContext) { ImGuiTest* test = ctx->Test; //ctx->LogDebug("IM_CHECK(%s)", expr); if (!result) { if (!(ctx->RunFlags & ImGuiTestRunFlags_GuiFuncOnly)) test->Output.Status = ImGuiTestStatus_Error; if (file) ctx->LogError("Error %s:%d '%s'", file_without_path, line, expr); else ctx->LogError("Error '%s'", expr); ctx->ErrorCounter++; } else if (!(flags & ImGuiTestCheckFlags_SilentSuccess)) { if (file) ctx->LogInfo("OK %s:%d '%s'", file_without_path, line, expr); else ctx->LogInfo("OK '%s'", expr); } } else { IM_ASSERT(0 && "No active tests!"); } if (result == false && engine->IO.ConfigStopOnError && !engine->Abort) engine->Abort = true; //ImGuiTestEngine_Abort(engine); if (result == false && engine->IO.ConfigBreakOnError && !engine->Abort) return true; return false; } bool ImGuiTestEngine_CheckStrOp(const char* file, const char* func, int line, ImGuiTestCheckFlags flags, const char* op, const char* lhs_var, const char* lhs_value, const char* rhs_var, const char* rhs_value, bool* out_res) { int res_strcmp = strcmp(lhs_value, rhs_value); bool res = 0; if (strcmp(op, "==") == 0) res = (res_strcmp == 0); else if (strcmp(op, "!=") == 0) res = (res_strcmp != 0); else IM_ASSERT(0); *out_res = res; ImGuiTextBuffer buf; // FIXME-OPT: Now we can probably remove that allocation bool lhs_is_literal = lhs_var[0] == '\"'; bool rhs_is_literal = rhs_var[0] == '\"'; if (strchr(lhs_value, '\n') != NULL || strchr(rhs_value, '\n') != NULL) { // Multi line strings size_t lhs_value_len = strlen(lhs_value); size_t rhs_value_len = strlen(rhs_value); if (lhs_value_len > 0 && lhs_value[lhs_value_len - 1] == '\n') // Strip trailing carriage return as we are adding one ourselves lhs_value_len--; if (rhs_value_len > 0 && rhs_value[rhs_value_len - 1] == '\n') rhs_value_len--; buf.appendf( "\n" "---------------------------------------- // lhs: %s\n" "%.*s\n" "---------------------------------------- // rhs: %s, compare op: %s\n" "%.*s\n" "----------------------------------------\n", lhs_is_literal ? "literal" : lhs_var, (int)lhs_value_len, lhs_value, rhs_is_literal ? "literal" : rhs_var, op, (int)rhs_value_len, rhs_value); } else { // Single line strings buf.appendf( "%s [\"%s\"] %s %s [\"%s\"]", lhs_is_literal ? "" : lhs_var, lhs_value, op, rhs_is_literal ? "" : rhs_var, rhs_value); } return ImGuiTestEngine_Check(file, func, line, flags, res, buf.c_str()); } bool ImGuiTestEngine_Error(const char* file, const char* func, int line, ImGuiTestCheckFlags flags, const char* fmt, ...) { va_list args; va_start(args, fmt); Str256 buf; buf.setfv(fmt, args); bool ret = ImGuiTestEngine_Check(file, func, line, flags, false, buf.c_str()); va_end(args); ImGuiTestEngine* engine = GImGuiTestEngine; if (engine && engine->Abort) return false; return ret; } //------------------------------------------------------------------------- // [SECTION] SETTINGS //------------------------------------------------------------------------- // FIXME: In our wildest dreams we could provide a imgui_club/ serialization helper that would be // easy to use in both the ReadLine and WriteAll functions. //------------------------------------------------------------------------- static void* ImGuiTestEngine_SettingsReadOpen(ImGuiContext*, ImGuiSettingsHandler*, const char* name) { if (strcmp(name, "Data") != 0) return NULL; return (void*)1; } static bool SettingsTryReadString(const char* line, const char* prefix, char* out_buf, size_t out_buf_size) { // Could also use scanf() with "%[^\n]" but it won't bound check. size_t prefix_len = strlen(prefix); if (strncmp(line, prefix, prefix_len) != 0) return false; line += prefix_len; IM_ASSERT(out_buf_size >= strlen(line) + 1); ImFormatString(out_buf, out_buf_size, "%s", line); return true; } static bool SettingsTryReadString(const char* line, const char* prefix, Str* out_str) { // Could also use scanf() with "%[^\n]" but it won't bound check. size_t prefix_len = strlen(prefix); if (strncmp(line, prefix, prefix_len) != 0) return false; line += prefix_len; out_str->set(line); return true; } static void ImGuiTestEngine_SettingsReadLine(ImGuiContext* ui_ctx, ImGuiSettingsHandler*, void* entry, const char* line) { ImGuiTestEngine* e = (ImGuiTestEngine*)ui_ctx->TestEngine; IM_ASSERT(e != NULL); IM_ASSERT(e->UiContextTarget == ui_ctx); IM_UNUSED(entry); int n = 0; /**/ if (SettingsTryReadString(line, "FilterTests=", e->UiFilterTests)) { } else if (SettingsTryReadString(line, "FilterPerfs=", e->UiFilterPerfs)) { } else if (sscanf(line, "LogHeight=%f", &e->UiLogHeight) == 1) { } else if (sscanf(line, "CaptureTool=%d", &n) == 1) { e->UiCaptureToolOpen = (n != 0); } else if (sscanf(line, "PerfTool=%d", &n) == 1) { e->UiPerfToolOpen = (n != 0); } else if (sscanf(line, "StackTool=%d", &n) == 1) { e->UiStackToolOpen = (n != 0); } else if (sscanf(line, "CaptureEnabled=%d", &n) == 1) { e->IO.ConfigCaptureEnabled = (n != 0); } else if (sscanf(line, "CaptureOnError=%d", &n) == 1) { e->IO.ConfigCaptureOnError = (n != 0); } else if (SettingsTryReadString(line, "VideoCapturePathToEncoder=", e->IO.VideoCaptureEncoderPath, IM_ARRAYSIZE(e->IO.VideoCaptureEncoderPath))) { } else if (SettingsTryReadString(line, "VideoCaptureParamsToEncoder=", e->IO.VideoCaptureEncoderParams, IM_ARRAYSIZE(e->IO.VideoCaptureEncoderParams))) { } else if (SettingsTryReadString(line, "GifCaptureParamsToEncoder=", e->IO.GifCaptureEncoderParams, IM_ARRAYSIZE(e->IO.GifCaptureEncoderParams))) { } else if (SettingsTryReadString(line, "VideoCaptureExtension=", e->IO.VideoCaptureExtension, IM_ARRAYSIZE(e->IO.VideoCaptureExtension))) { } } static void ImGuiTestEngine_SettingsWriteAll(ImGuiContext* ui_ctx, ImGuiSettingsHandler* handler, ImGuiTextBuffer* buf) { ImGuiTestEngine* engine = (ImGuiTestEngine*)ui_ctx->TestEngine; IM_ASSERT(engine != NULL); IM_ASSERT(engine->UiContextTarget == ui_ctx); buf->appendf("[%s][Data]\n", handler->TypeName); buf->appendf("FilterTests=%s\n", engine->UiFilterTests->c_str()); buf->appendf("FilterPerfs=%s\n", engine->UiFilterPerfs->c_str()); buf->appendf("LogHeight=%.0f\n", engine->UiLogHeight); buf->appendf("CaptureTool=%d\n", engine->UiCaptureToolOpen); buf->appendf("PerfTool=%d\n", engine->UiPerfToolOpen); buf->appendf("StackTool=%d\n", engine->UiStackToolOpen); buf->appendf("CaptureEnabled=%d\n", engine->IO.ConfigCaptureEnabled); buf->appendf("CaptureOnError=%d\n", engine->IO.ConfigCaptureOnError); buf->appendf("VideoCapturePathToEncoder=%s\n", engine->IO.VideoCaptureEncoderPath); buf->appendf("VideoCaptureParamsToEncoder=%s\n", engine->IO.VideoCaptureEncoderParams); buf->appendf("GifCaptureParamsToEncoder=%s\n", engine->IO.GifCaptureEncoderParams); buf->appendf("VideoCaptureExtension=%s\n", engine->IO.VideoCaptureExtension); buf->appendf("\n"); } //------------------------------------------------------------------------- // [SECTION] ImGuiTestLog //------------------------------------------------------------------------- void ImGuiTestLog::Clear() { Buffer.clear(); LineInfo.clear(); memset(&CountPerLevel, 0, sizeof(CountPerLevel)); } // Output: // - If 'buffer != NULL': all extracted lines are appended to 'buffer'. Use 'buffer->c_str()' on your side to obtain the text. // - Return value: number of lines extracted (should be equivalent to number of '\n' inside buffer->c_str()). // - You may call the function with buffer == NULL to only obtain a count without getting the data. // Verbose levels are inclusive: // - To get ONLY Error: Use level_min == ImGuiTestVerboseLevel_Error, level_max = ImGuiTestVerboseLevel_Error // - To get ONLY Error and Warnings: Use level_min == ImGuiTestVerboseLevel_Error, level_max = ImGuiTestVerboseLevel_Warning // - To get All Errors, Warnings, Debug... Use level_min == ImGuiTestVerboseLevel_Error, level_max = ImGuiTestVerboseLevel_Trace int ImGuiTestLog::ExtractLinesForVerboseLevels(ImGuiTestVerboseLevel level_min, ImGuiTestVerboseLevel level_max, ImGuiTextBuffer* out_buffer) { IM_ASSERT(level_min <= level_max); // Return count int count = 0; if (out_buffer == NULL) { for (int n = level_min; n <= level_max; n++) count += CountPerLevel[n]; return count; } // Extract lines and return count for (auto& line_info : LineInfo) if (line_info.Level >= level_min && line_info.Level <= level_max) { const char* line_begin = Buffer.c_str() + line_info.LineOffset; const char* line_end = strchr(line_begin, '\n'); out_buffer->append(line_begin, line_end[0] == '\n' ? line_end + 1 : line_end); count++; } return count; } void ImGuiTestLog::UpdateLineOffsets(ImGuiTestEngineIO* engine_io, ImGuiTestVerboseLevel level, const char* start) { IM_UNUSED(engine_io); IM_ASSERT(Buffer.begin() <= start && start < Buffer.end()); const char* p_begin = start; const char* p_end = Buffer.end(); const char* p = p_begin; while (p < p_end) { const char* p_bol = p; const char* p_eol = strchr(p, '\n'); bool last_empty_line = (p_bol + 1 == p_end); if (!last_empty_line) { int offset = (int)(p_bol - Buffer.c_str()); LineInfo.push_back({level, offset}); CountPerLevel[level] += 1; } p = p_eol ? p_eol + 1 : NULL; } } //------------------------------------------------------------------------- // [SECTION] ImGuiTest //------------------------------------------------------------------------- ImGuiTest::~ImGuiTest() { if (NameOwned) ImGui::MemFree((char*)Name); } void ImGuiTest::SetOwnedName(const char* name) { IM_ASSERT(!NameOwned); NameOwned = true; Name = ImStrdup(name); } //-------------------------------------------------------------------------