Add auto scoped memory regions

2017-06-17 17:57:06 +10:00 · 2017-06-17 17:57:06 +10:00 · 64fb913239
parent 35bdbb65de
commit 64fb913239
5 changed files with 342 additions and 242 deletions
--- a/src/DTRenderer.cpp
+++ b/src/DTRenderer.cpp
@ -929,145 +929,159 @@ extern "C" void DTR_Update(PlatformRenderBuffer *const platformRenderBuffer,
 		if (DTR_DEBUG)
 		{
 			DTRDebug_TestMeshFaceAndVertexParser(&state->mesh);
-
+			auto memRegion = DqnMemStackTempRegionScoped(&memory->tempStack);
-			DqnTempMemStack tmp = DqnMemStack_BeginTempRegion(&memory->tempStack);
+			if (memRegion.isInit)
-			DTRBitmap test      = {};
+			{
-			DTRAsset_LoadBitmap(input->api, assetStack, &memory->tempStack, &test, "byte_read_check.bmp");
+				DTRBitmap test = {};
-			DqnMemStack_EndTempRegion(tmp);
+				DTRAsset_LoadBitmap(input->api, assetStack, &memory->tempStack, &test,
-
+				                    "byte_read_check.bmp");
 			}
 		}
 	}
-	DqnTempMemStack tempStackMemRegion = DqnMemStack_BeginTempRegion(&memory->tempStack);
+	auto tempMemRegion = DqnMemStackTempRegionScoped(&memory->tempStack);
 	if (tempMemRegion.isInit)
 	{
 		size_t debugSize = DQN_MEGABYTE(1);
 		u8 *debugMemory  = (u8 *)DqnMemStack_Push(&memory->tempStack, debugSize);
 		DqnMemStack_InitWithFixedMem(&globalDebug.memStack, debugMemory, debugSize);
 		DTRDebug_BeginCycleCount("DTR_Update", DTRDebugCycleCount_DTR_Update);
-	size_t debugSize = DQN_MEGABYTE(1);
+		DTRRenderBuffer renderBuffer = {};
-	u8 *debugMemory  = (u8 *)DqnMemStack_Push(&memory->tempStack, debugSize);
+		renderBuffer.width           = platformRenderBuffer->width;
-	DqnMemStack_InitWithFixedMem(&globalDebug.memStack, debugMemory, debugSize);
+		renderBuffer.height          = platformRenderBuffer->height;
-	DTRDebug_BeginCycleCount("DTR_Update", DTRDebugCycleCount_DTR_Update);
+		renderBuffer.bytesPerPixel   = platformRenderBuffer->bytesPerPixel;
 		renderBuffer.memory          = (u8 *)platformRenderBuffer->memory;
-	DTRRenderBuffer renderBuffer = {};
+		u32 zBufferSize      = platformRenderBuffer->width * platformRenderBuffer->height;
-	renderBuffer.width           = platformRenderBuffer->width;
+		renderBuffer.zBuffer = (f32 *)DqnMemStack_Push(&memory->tempStack,
-	renderBuffer.height          = platformRenderBuffer->height;
+		                                               zBufferSize * sizeof(*renderBuffer.zBuffer));
 	renderBuffer.bytesPerPixel   = platformRenderBuffer->bytesPerPixel;
 	renderBuffer.memory          = (u8 *)platformRenderBuffer->memory;
-	u32 zBufferSize = platformRenderBuffer->width * platformRenderBuffer->height;
+		for (u32 i                  = 0; i < zBufferSize; i++)
-	renderBuffer.zBuffer = (f32 *)DqnMemStack_Push(&memory->tempStack,
+			renderBuffer.zBuffer[i] = DQN_F32_MIN;
-	                                               zBufferSize * sizeof(*renderBuffer.zBuffer));
+		////////////////////////////////////////////////////////////////////////////
-
+		// Update and Render
-	for (u32 i = 0; i < zBufferSize; i++) renderBuffer.zBuffer[i] = DQN_F32_MIN;
+		////////////////////////////////////////////////////////////////////////////
-	////////////////////////////////////////////////////////////////////////////
+		DTRRender_Clear(&renderBuffer, DqnV3_3f(0.5f, 0.0f, 1.0f));
 	// Update and Render
 	////////////////////////////////////////////////////////////////////////////
 	DTRRender_Clear(&renderBuffer, DqnV3_3f(0.5f, 0.0f, 1.0f));
 #if 1
-	DqnV4 colorRed    = DqnV4_4f(0.8f, 0, 0, 1);
+		DqnV4 colorRed    = DqnV4_4f(0.8f, 0, 0, 1);
-	DqnV2i bufferMidP = DqnV2i_2f(renderBuffer.width * 0.5f, renderBuffer.height * 0.5f);
+		DqnV2i bufferMidP = DqnV2i_2f(renderBuffer.width * 0.5f, renderBuffer.height * 0.5f);
-	f32 rotation      = (f32)input->timeNowInS * 0.25f;
+		f32 rotation      = (f32)input->timeNowInS * 0.25f;
-	// Triangle Drawing
+		// Triangle Drawing
 	{
 		DqnV4 redTransparent = DqnV4_4f(1, 0, 0, 0.5f);
 		i32 boundsOffset = 100;
 		DqnV3 t0[3] = {DqnV3_3i(10, 70, 0), DqnV3_3i(50, 160, 0), DqnV3_3i(70, 80, 0)};
 		DqnV3 t1[3] = {DqnV3_3i(180, 50, 0), DqnV3_3i(150, 1, 0), DqnV3_3i(70, 180, 0)};
 		DqnV3 t2[3] = {DqnV3_3i(180, 150, 0), DqnV3_3i(120, 160, 0), DqnV3_3i(130, 180, 0)};
 		DqnV3 t3[3] = {DqnV3_3i(boundsOffset, boundsOffset, 0),
 		               DqnV3_3i(bufferMidP.w, renderBuffer.height - boundsOffset, 0),
 		               DqnV3_3i(renderBuffer.width - boundsOffset, boundsOffset, 0)};
 		DqnV3 t4[3] = {DqnV3_3i(100, 150, 0), DqnV3_3i(200, 150, 0), DqnV3_3i(200, 250, 0)};
 		DqnV3 t5[3] = {DqnV3_3i(300, 150, 0), DqnV3_3i(201, 150, 0), DqnV3_3i(200, 250, 0)};
 		DTRRenderTransform rotatingXform = DTRRender_DefaultTriangleTransform();
 		rotatingXform.rotation           = rotation;
 		if (1)
 		{
-			DTRDebug_BeginCycleCount("DTR_Update_RenderPrimitiveTriangles",
+			DqnV4 redTransparent = DqnV4_4f(1, 0, 0, 0.5f);
 			                         DTRDebugCycleCount_DTR_Update_RenderPrimitiveTriangles);
-			DTRRender_Triangle(&renderBuffer, t0[0], t0[1], t0[2], colorRed);
+			i32 boundsOffset = 100;
-			DTRRender_Triangle(&renderBuffer, t1[0], t1[1], t1[2], colorRed);
+			DqnV3 t0[3]      = {DqnV3_3i(10, 70, 0), DqnV3_3i(50, 160, 0), DqnV3_3i(70, 80, 0)};
-			DTRRender_Triangle(&renderBuffer, t3[0], t3[1], t3[2], colorRed, rotatingXform);
+			DqnV3 t1[3]      = {DqnV3_3i(180, 50, 0), DqnV3_3i(150, 1, 0), DqnV3_3i(70, 180, 0)};
-			DTRRender_Triangle(&renderBuffer, t2[0], t2[1], t2[2], colorRed);
+			DqnV3 t2[3] = {DqnV3_3i(180, 150, 0), DqnV3_3i(120, 160, 0), DqnV3_3i(130, 180, 0)};
-			DTRRender_Triangle(&renderBuffer, t4[0], t4[1], t4[2], colorRed);
+			DqnV3 t3[3] = {DqnV3_3i(boundsOffset, boundsOffset, 0),
-			DTRRender_Triangle(&renderBuffer, t5[0], t5[1], t5[2], colorRed);
+			               DqnV3_3i(bufferMidP.w, renderBuffer.height - boundsOffset, 0),
-			DTRDebug_EndCycleCount(DTRDebugCycleCount_DTR_Update_RenderPrimitiveTriangles);
+			               DqnV3_3i(renderBuffer.width - boundsOffset, boundsOffset, 0)};
-		}
+			DqnV3 t4[3] = {DqnV3_3i(100, 150, 0), DqnV3_3i(200, 150, 0), DqnV3_3i(200, 250, 0)};
 			DqnV3 t5[3] = {DqnV3_3i(300, 150, 0), DqnV3_3i(201, 150, 0), DqnV3_3i(200, 250, 0)};
-		if (0)
+			DTRRenderTransform rotatingXform = DTRRender_DefaultTriangleTransform();
-		{
+			rotatingXform.rotation           = rotation;
-			LOCAL_PERSIST bool runTinyRendererOnce = false;
+
-			if (1 && runTinyRendererOnce)
+			if (1)
 			{
-				DTRDebug_RunTinyRenderer();
+				DTRDebug_BeginCycleCount("DTR_Update_RenderPrimitiveTriangles",
-				runTinyRendererOnce = false;
+				                         DTRDebugCycleCount_DTR_Update_RenderPrimitiveTriangles);
 				DTRRender_Triangle(&renderBuffer, t0[0], t0[1], t0[2], colorRed);
 				DTRRender_Triangle(&renderBuffer, t1[0], t1[1], t1[2], colorRed);
 				DTRRender_Triangle(&renderBuffer, t3[0], t3[1], t3[2], colorRed, rotatingXform);
 				DTRRender_Triangle(&renderBuffer, t2[0], t2[1], t2[2], colorRed);
 				DTRRender_Triangle(&renderBuffer, t4[0], t4[1], t4[2], colorRed);
 				DTRRender_Triangle(&renderBuffer, t5[0], t5[1], t5[2], colorRed);
 				DTRDebug_EndCycleCount(DTRDebugCycleCount_DTR_Update_RenderPrimitiveTriangles);
 			}
-			DTRDebug_BeginCycleCount("DTR_Update_RenderModel", DTRDebugCycleCount_DTR_Update_RenderModel);
+			if (0)
-			////////////////////////////////////////////////////////////////////////
+			{
-			// Draw Loaded Model
+				LOCAL_PERSIST bool runTinyRendererOnce = false;
-			////////////////////////////////////////////////////////////////////////
+				if (1 && runTinyRendererOnce)
-			const DqnV3 LIGHT     = DqnV3_Normalise(DqnV3_3f(1, -1, 1.0f));
+				{
-			const f32 MODEL_SCALE = 1;
+					DTRDebug_RunTinyRenderer();
-			DTRMesh *const mesh   = &state->mesh;
+					runTinyRendererOnce = false;
-			DqnV3 modelP          = DqnV3_3f(0, 0, 0);
+				}
-			LOCAL_PERSIST f32 modelRotation = 0;
+				DTRDebug_BeginCycleCount("DTR_Update_RenderModel",
-			modelRotation += (input->deltaForFrame * 20.0f);
+				                         DTRDebugCycleCount_DTR_Update_RenderModel);
-			DqnV3 axis = DqnV3_3f(0, 1, 0);
+				////////////////////////////////////////////////////////////////////////
 				// Draw Loaded Model
 				////////////////////////////////////////////////////////////////////////
 				const DqnV3 LIGHT     = DqnV3_Normalise(DqnV3_3f(1, -1, 1.0f));
 				const f32 MODEL_SCALE = 1;
 				DTRMesh *const mesh   = &state->mesh;
 				DqnV3 modelP          = DqnV3_3f(0, 0, 0);
-			DTRRenderTransform transform = DTRRender_DefaultTransform();
+				LOCAL_PERSIST f32 modelRotation = 0;
-			transform.scale              = DqnV3_1f(MODEL_SCALE);
+				modelRotation += (input->deltaForFrame * 20.0f);
-			transform.rotation           = modelRotation;
+				DqnV3 axis = DqnV3_3f(0, 1, 0);
 			transform.anchor             = axis;
-			DTRRenderLight lighting      = {};
+				DTRRenderTransform transform = DTRRender_DefaultTransform();
-			lighting.mode                = DTRRenderShadingMode_Gouraud;
+				transform.scale              = DqnV3_1f(MODEL_SCALE);
-			lighting.vector              = LIGHT;
+				transform.rotation           = modelRotation;
-			lighting.color               = DqnV4_4f(1, 1, 1, 1);
+				transform.anchor             = axis;
-			DTRRender_Mesh(&renderBuffer, mesh, lighting, modelP, transform);
+				DTRRenderLight lighting = {};
-			DTRDebug_EndCycleCount(DTRDebugCycleCount_DTR_Update_RenderModel);
+				lighting.mode           = DTRRenderShadingMode_Gouraud;
 				lighting.vector         = LIGHT;
 				lighting.color          = DqnV4_4f(1, 1, 1, 1);
 				DTRRender_Mesh(&renderBuffer, mesh, lighting, modelP, transform);
 				DTRDebug_EndCycleCount(DTRDebugCycleCount_DTR_Update_RenderModel);
 			}
 		}
 	}
-	// Rect drawing
+		// Rect drawing
-	if (0)
+		if (0)
-	{
+		{
-		DTRRenderTransform transform = DTRRender_DefaultTransform();
+			DTRRenderTransform transform = DTRRender_DefaultTransform();
-		transform.rotation           = rotation + 45;
+			transform.rotation           = rotation + 45;
-		DTRRender_Rectangle(&renderBuffer, DqnV2_1f(300.0f), DqnV2_1f(300 + 100.0f),
+			DTRRender_Rectangle(&renderBuffer, DqnV2_1f(300.0f), DqnV2_1f(300 + 100.0f),
-		                    DqnV4_4f(0, 1.0f, 1.0f, 1.0f), transform);
+			                    DqnV4_4f(0, 1.0f, 1.0f, 1.0f), transform);
-	}
+		}
-	// Bitmap drawing
+		// Bitmap drawing
-	if (0)
+		if (0)
-	{
+		{
-		DTRRenderTransform transform = DTRRender_DefaultTransform();
+			DTRRenderTransform transform = DTRRender_DefaultTransform();
-		transform.scale              = DqnV3_1f(2.0f);
+			transform.scale              = DqnV3_1f(2.0f);
-		LOCAL_PERSIST DqnV2 bitmapP = DqnV2_2f(500, 250);
+			LOCAL_PERSIST DqnV2 bitmapP = DqnV2_2f(500, 250);
-		bitmapP.x += 2.0f * sinf((f32)input->timeNowInS * 0.5f);
+			bitmapP.x += 2.0f * sinf((f32)input->timeNowInS * 0.5f);
-		f32 cAngle  = (f32)input->timeNowInS;
+			f32 cAngle  = (f32)input->timeNowInS;
-		DqnV4 color = DqnV4_4f(0.5f + 0.5f * sinf(cAngle), 0.5f + 0.5f * sinf(2.9f * cAngle),
+			DqnV4 color = DqnV4_4f(0.5f + 0.5f * sinf(cAngle), 0.5f + 0.5f * sinf(2.9f * cAngle),
-		                       0.5f + 0.5f * cosf(10.0f * cAngle), 1.0f);
+			                       0.5f + 0.5f * cosf(10.0f * cAngle), 1.0f);
-		DTRRender_Bitmap(&renderBuffer, &state->bitmap, bitmapP, transform, color);
+			DTRRender_Bitmap(&renderBuffer, &state->bitmap, bitmapP, transform, color);
-	}
+		}
 #else
-	// CompAssignment(renderBuffer, input, memory);
+		// CompAssignment(renderBuffer, input, memory);
 #endif
-	DTRDebug_EndCycleCount(DTRDebugCycleCount_DTR_Update);
+		DTRDebug_EndCycleCount(DTRDebugCycleCount_DTR_Update);
-	DTRDebug_Update(state, &renderBuffer, input, memory);
+		DTRDebug_Update(state, &renderBuffer, input, memory);
-	DqnMemStack_EndTempRegion(tempStackMemRegion);
+	}
 	////////////////////////////////////////////////////////////////////////////
 	// End Update
 	////////////////////////////////////////////////////////////////////////////
-	for (i32 i = 0; i < DQN_ARRAY_COUNT(memory->stacks); i++)
+	if (DTR_DEBUG)
-		DQN_ASSERT(memory->stacks[i].tempStackCount == 0);
+	{
 		// NOTE: We should have one temp region, that is the scoped region for the
 		// main loop which will remove itself when we leave scope.
 		DQN_ASSERT(memory->tempStack.tempRegionCount == 1);
 		for (i32 i = 0; i < DQN_ARRAY_COUNT(memory->stacks); i++)
 		{
 			if (&memory->stacks[i] == &memory->tempStack) continue;
 			DQN_ASSERT(memory->stacks[i].tempRegionCount == 0);
 		}
 	}
 }
--- a/src/DTRendererAsset.cpp
+++ b/src/DTRendererAsset.cpp
@ -196,16 +196,26 @@ bool DTRAsset_LoadWavefrontObj(const PlatformAPI api, DqnMemStack *const memStac
 	if (!api.FileOpen(path, &file, PlatformFilePermissionFlag_Read, PlatformFileAction_OpenOnly))
 		return false; // TODO(doyle): Logging
-	bool result                    = false;
+	WavefModel dummy_ = {};
-	DqnTempMemStack tmpAssetRegion = DqnMemStack_BeginTempRegion(memStack);
+	WavefModel *obj   = &dummy_;
 	u8 *rawBytes                   = (u8 *)DqnMemStack_Push(memStack, file.size);
 	size_t bytesRead               = api.FileRead(&file, rawBytes, file.size);
 	size_t fileSize                = file.size;
 	DqnMemAPI memAPI   = {};
 	memAPI.callback    = DumbDynamicArrayMemAPICallback;
 	memAPI.userContext = memStack;
 	bool result = false;
 	DqnMemStackTempRegion tmpAssetRegion;
 	if (!DqnMemStackTempRegion_Begin(&tmpAssetRegion, memStack))
 	{
 		// TODO(doyle): Logging
 		DQN_ASSERT(DQN_INVALID_CODE_PATH);
 		goto cleanup;
 	}
 	u8 *rawBytes                         = (u8 *)DqnMemStack_Push(memStack, file.size);
 	size_t bytesRead                     = api.FileRead(&file, rawBytes, file.size);
 	size_t fileSize                      = file.size;
 	enum WavefVertexType {
 		WavefVertexType_Invalid,
 		WavefVertexType_Geometric,
@ -230,9 +240,6 @@ bool DTRAsset_LoadWavefrontObj(const PlatformAPI api, DqnMemStack *const memStac
 	// to a new memstack block such that all the data is compacted together in
 	// memory for locality. Then just throw away the intermediate
 	// representation.
 	WavefModel dummy_ = {};
 	WavefModel *obj   = &dummy_;
 	if (bytesRead != file.size)       goto cleanup;
 	if (!WavefModelInit(obj, memAPI)) goto cleanup;
@ -586,7 +593,7 @@ bool DTRAsset_LoadWavefrontObj(const PlatformAPI api, DqnMemStack *const memStac
 		DQN_ASSERT(DQN_INVALID_CODE_PATH);
 	}
-	DqnMemStack_EndTempRegion(tmpAssetRegion);
+	DqnMemStackTempRegion_End(tmpAssetRegion);
 	if (modelBlock)
 	{
 		result = true;
@ -599,7 +606,7 @@ bool DTRAsset_LoadWavefrontObj(const PlatformAPI api, DqnMemStack *const memStac
 cleanup:
 	api.FileClose(&file);
-	if(!result) DqnMemStack_EndTempRegion(tmpAssetRegion);
+	if(!result) DqnMemStackTempRegion_End(tmpAssetRegion);
 	return result;
 }
@ -623,14 +630,21 @@ bool DTRAsset_LoadFontToBitmap(const PlatformAPI api, DqnMemStack *const memStac
 	if (!api.FileOpen(path, &file, PlatformFilePermissionFlag_Read, PlatformFileAction_OpenOnly))
 		return false; // TODO(doyle): Logging
 	bool result = false;
 	DqnTempMemStack tmpMemRegion = DqnMemStack_BeginTempRegion(tmpMemStack);
 	u8 *rawBytes                 = (u8 *)DqnMemStack_Push(tmpMemStack, file.size);
 	size_t bytesRead             = api.FileRead(&file, rawBytes, file.size);
 	stbtt_fontinfo fontInfo            = {};
 	stbtt_pack_context fontPackContext = {};
 	bool result       = false;
 	auto tmpMemRegion = DqnMemStackTempRegionScoped(tmpMemStack);
 	if (!tmpMemRegion.isInit)
 	{
 		// TODO(doyle): Logging
 		DQN_ASSERT(DQN_INVALID_CODE_PATH);
 		goto cleanup;
 	}
 	u8 *rawBytes                 = (u8 *)DqnMemStack_Push(tmpMemStack, file.size);
 	size_t bytesRead             = api.FileRead(&file, rawBytes, file.size);
 	if (bytesRead != file.size || stbtt_InitFont(&fontInfo, rawBytes, 0) == 0)
 	{
 		DQN_ASSERT(DQN_INVALID_CODE_PATH);
@ -692,7 +706,6 @@ bool DTRAsset_LoadFontToBitmap(const PlatformAPI api, DqnMemStack *const memStac
 	*font = loadedFont;
 cleanup:
 	DqnMemStack_EndTempRegion(tmpMemRegion);
 	api.FileClose(&file);
 	return result;
@ -753,9 +766,16 @@ bool DTRAsset_LoadBitmap(const PlatformAPI api, DqnMemStack *const memStack,
 	if (!api.FileOpen(path, &file, PlatformFilePermissionFlag_Read, PlatformFileAction_OpenOnly))
 		return result;
-	DqnTempMemStack tmpMemRegion = DqnMemStack_BeginTempRegion(tempStack);
+	auto tmpMemRegion = DqnMemStackTempRegionScoped(tempStack);
-	u8 *const rawData            = (u8 *)DqnMemStack_Push     (tempStack, file.size);
+	if (!tmpMemRegion.isInit)
-	size_t bytesRead             = api.FileRead               (&file, rawData, file.size);
+	{
 		// TODO(doyle): Logging
 		DQN_ASSERT(DQN_INVALID_CODE_PATH);
 		goto cleanup;
 	}
 	u8 *const rawData = (u8 *)DqnMemStack_Push(tempStack, file.size);
 	size_t bytesRead  = api.FileRead(&file, rawData, file.size);
 	if (bytesRead != file.size) goto cleanup;
@ -830,7 +850,6 @@ bool DTRAsset_LoadBitmap(const PlatformAPI api, DqnMemStack *const memStack,
 cleanup:
 	globalSTBImageAllocator = NULL;
 	DqnMemStack_EndTempRegion(tmpMemRegion);
 	api.FileClose(&file);
 	return result;
--- a/src/DTRendererDebug.cpp
+++ b/src/DTRendererDebug.cpp
@ -77,31 +77,31 @@ void DTRDebug_DumpZBuffer(DTRRenderBuffer *const renderBuffer, DqnMemStack *cons
 			}
 		}
-		DqnTempMemStack tmpMemRegion = DqnMemStack_BeginTempRegion(tempStack);
+		auto memRegion = DqnMemStackTempRegionScoped(tempStack);
-
+		if (memRegion.isInit)
 		size_t bufSize = DQN_MEGABYTE(16);
 		char *bufString = (char *)DqnMemStack_Push(tempStack, bufSize);
 		char *bufPtr    = bufString;
 		for (i32 i = 0; i < renderBuffer->width * renderBuffer->height; i++)
 		{
-
+			size_t bufSize  = DQN_MEGABYTE(16);
-			f32 zValue = renderBuffer->zBuffer[i];
+			char *bufString = (char *)DqnMemStack_Push(tempStack, bufSize);
-			if (zValue == DQN_F32_MIN) continue;
+			char *bufPtr    = bufString;
-			i32 chWritten = Dqn_sprintf(bufPtr, "index %06d: %05.5f\n", i, zValue);
+			for (i32 i = 0; i < renderBuffer->width * renderBuffer->height; i++)
 			if ((bufPtr + chWritten) > (bufString + bufSize))
 			{
-				size_t bufPtrAddr    = (size_t)(bufPtr + chWritten);
+
-				size_t bufStringAddr = (size_t)(bufString + bufSize);
+				f32 zValue = renderBuffer->zBuffer[i];
-				DQN_ASSERT(DQN_INVALID_CODE_PATH);
+				if (zValue == DQN_F32_MIN) continue;
 				i32 chWritten = Dqn_sprintf(bufPtr, "index %06d: %05.5f\n", i, zValue);
 				if ((bufPtr + chWritten) > (bufString + bufSize))
 				{
 					size_t bufPtrAddr    = (size_t)(bufPtr + chWritten);
 					size_t bufStringAddr = (size_t)(bufString + bufSize);
 					DQN_ASSERT(DQN_INVALID_CODE_PATH);
 				}
 				bufPtr += chWritten;
 			}
-			bufPtr += chWritten;
+
 			size_t writeSize    = (size_t)bufPtr - (size_t)bufString;
 			size_t bytesWritten = api->FileWrite(&file, (u8 *)bufString, writeSize);
 			api->FileClose(&file);
 		}
 		size_t writeSize    = (size_t)bufPtr - (size_t)bufString;
 		size_t bytesWritten = api->FileWrite(&file, (u8 *)bufString, writeSize);
 		api->FileClose(&file);
 		DqnMemStack_EndTempRegion(tmpMemRegion);
 	}
 }
--- a/src/Win32DTRenderer.cpp
+++ b/src/Win32DTRenderer.cpp
@ -441,6 +441,18 @@ i32 Win32GetModuleDirectory(char *const buf, const u32 bufLen)
 	return lastSlashIndex;
 }
 typedef struct ThreadJob
 {
 	int numberToPrint;
 } ThreadJob;
 typedef struct ThreadJobQueue {
 	ThreadJob *queue;
 	int        queueSize;
 } ThreadJobQueue;
 FILE_SCOPE ThreadJobQueue jobQueue[16];
 DWORD WINAPI Win32ThreadCallback(void *lpParameter)
 {
 	OutputDebugString("Threaded Hello World!\n");
@ -571,12 +583,12 @@ int WINAPI wWinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPWSTR lpCmdLi
 	// Threading
 	{
-		const i32 USE_DEFAULT_STACK_SIZE = 0;
+		DqnMemStackTempRegion memRegion;
-		void *threadParam                = NULL;
+		if (!DqnMemStackTempRegion_Begin(&memRegion, &globalPlatformMemory.tempStack))
-		DWORD threadId;
+		{
-
+			DQN_WIN32_ERROR_BOX("DqnMemStackTempRegion_Begin() failed", NULL);
-		HANDLE threadHandle = CreateThread(NULL, USE_DEFAULT_STACK_SIZE, Win32ThreadCallback,
+			DQN_ASSERT(DQN_INVALID_CODE_PATH);
-		                                   threadParam, 0, &threadId);
+		}
 		////////////////////////////////////////////////////////////////////////
 		// Query CPU Cores
@ -637,8 +649,17 @@ int WINAPI wWinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPWSTR lpCmdLi
 			DQN_WIN32_ERROR_BOX("DqnMemStack_Push() failed", NULL);
 		}
-		DqnMemStack_Pop(&globalPlatformMemory.tempStack, rawProcInfoArray,
+		////////////////////////////////////////////////////////////////////////
-		                logicalProcInfoRequiredSize);
+		// Threading
 		////////////////////////////////////////////////////////////////////////
 		const i32 USE_DEFAULT_STACK_SIZE = 0;
 		void *threadParam                = NULL;
 		DWORD threadId;
 		HANDLE threadHandle = CreateThread(NULL, USE_DEFAULT_STACK_SIZE, Win32ThreadCallback,
 		                                   threadParam, 0, &threadId);
 		DqnMemStackTempRegion_End(memRegion);
 	}
 	////////////////////////////////////////////////////////////////////////////
--- a/src/dqn.h
+++ b/src/dqn.h
@ -19,6 +19,10 @@
 	#define DQN_FILE_SCOPE
 #endif
 #ifdef __cplusplus
 	#define DQN_CPP_MODE
 #endif
 #include <stdint.h> // For standard types
 #include <float.h>
 #define LOCAL_PERSIST static
@ -110,18 +114,10 @@ typedef struct DqnMemStack
 	struct DqnMemStackBlock *block;
 	u32 flags;
-	i32 tempStackCount;
+	i32 tempRegionCount;
 	u32 byteAlign;
 } DqnMemStack;
 typedef struct DqnTempMemStack
 {
 	DqnMemStack             *stack;
 	struct DqnMemStackBlock *startingBlock;
 	size_t used;
 } DqnTempMemStack;
 DQN_FILE_SCOPE bool DqnMemStack_InitWithFixedMem (DqnMemStack *const stack, u8 *const mem, const size_t memSize, const u32 byteAlign = 4); // Use preallocated memory, no further allocations, returns NULL on allocate if out of space
 DQN_FILE_SCOPE bool DqnMemStack_InitWithFixedSize(DqnMemStack *const stack, size_t size, const bool zeroClear, const u32 byteAlign = 4); // Single allocation from platform, no further allocations, returns NULL of allocate if out of space
 DQN_FILE_SCOPE bool DqnMemStack_Init             (DqnMemStack *const stack, size_t size, const bool zeroClear, const u32 byteAlign = 4); // Allocates from platform dynamically as space runs out
@ -133,13 +129,32 @@ DQN_FILE_SCOPE bool  DqnMemStack_FreeStackBlock(DqnMemStack *const stack, DqnMem
 DQN_FILE_SCOPE bool  DqnMemStack_FreeLastBlock (DqnMemStack *const stack);                          // Frees the last-most memory block. If last block, free that block, next allocate will attach a block.
 DQN_FILE_SCOPE void  DqnMemStack_ClearCurrBlock(DqnMemStack *const stack, const bool zeroClear);    // Reset the current memory block usage to 0.
-// TempMemStack is only required for the function. Once BeginTempRegion() is called, subsequent allocation calls can be made using the original stack.
+// TempMemRegion is only required for the function. Once BeginTempRegion() is called, subsequent allocation calls can be made using the original stack.
 // Upon EndTempRegion() the original stack will free any additional blocks it allocated during the temp region and revert to the original
 // state before BeginTempRegion() was called.
 // WARNING: Any calls to Free/Clear functions in a TempRegion will invalidate and trash the stack structure.
 // TODO(doyle): Look into a way of disallowing calls to free/clear in temp regions
-DQN_FILE_SCOPE DqnTempMemStack DqnMemStack_BeginTempRegion(DqnMemStack *const stack);
+typedef struct DqnMemStackTempRegion
-DQN_FILE_SCOPE void            DqnMemStack_EndTempRegion  (DqnTempMemStack tempstack);
+{
 	DqnMemStack             *stack;
 	struct DqnMemStackBlock *startingBlock;
 	size_t used;
 } DqnMemStackTempRegion;
 DQN_FILE_SCOPE bool DqnMemStackTempRegion_Begin(DqnMemStackTempRegion *region, DqnMemStack *const stack);
 DQN_FILE_SCOPE void DqnMemStackTempRegion_End  (DqnMemStackTempRegion region);
 #ifdef DQN_CPP_MODE
 struct DqnMemStackTempRegionScoped
 {
 	bool isInit;
 	DqnMemStackTempRegionScoped(DqnMemStack *const stack);
 	~DqnMemStackTempRegionScoped();
 private:
 	DqnMemStackTempRegion tempMemStack;
 };
 #endif
 ////////////////////////////////////////////////////////////////////////////////
 // (OPTIONAL) DqnMemStack Advanced API
@ -193,8 +208,8 @@ enum DqnMemAPICallbackType
 typedef struct DqnMemAPICallbackInfo
 {
 	enum DqnMemAPICallbackType type;
 	void *userContext;
 	enum DqnMemAPICallbackType type;
 	union {
 		struct { size_t requestSize; }; // DqnMemAPICallbackType_Alloc
@ -218,8 +233,8 @@ typedef struct DqnMemAPICallbackInfo
 typedef struct DqnMemAPICallbackResult
 {
 	// NOTE: CallbackResult on free has nothing to fill out for result.
 	enum DqnMemAPICallbackType type;
 	void *newMemPtr;
 	enum DqnMemAPICallbackType type;
 } DqnMemAPICallbackResult;
 typedef void DqnMemAPI_Callback(DqnMemAPICallbackInfo info, DqnMemAPICallbackResult *result);
@ -230,11 +245,13 @@ typedef struct DqnMemAPI
 } DqnMemAPI;
 DQN_FILE_SCOPE DqnMemAPI DqnMemAPI_DefaultUseCalloc();
 ////////////////////////////////////////////////////////////////////////////////
 // DArray - Dynamic Array
 ////////////////////////////////////////////////////////////////////////////////
-// REMINDER: Dynamic Array can be used as a stack. Don't need to create one.
+// Cplusplus mode only since it uses templates
-#if 1
+
 #ifdef DQN_CPP_MODE
 template <typename T>
 struct DqnArray
 {
@ -290,7 +307,7 @@ bool DqnArray_Init(DqnArray<T> *array, size_t capacity,
 	array->memAPI       = memAPI;
 	size_t allocateSize = (size_t)capacity * sizeof(T);
-	DqnMemAPICallbackResult memResult = {};
+	DqnMemAPICallbackResult memResult = {0};
 	DqnMemAPICallbackInfo info = DqnMemAPICallback_InfoAskAllocInternal(array->memAPI, allocateSize);
 	array->memAPI.callback(info, &memResult);
 	DQN_ASSERT(memResult.type == DqnMemAPICallbackType_Alloc);
@ -315,7 +332,7 @@ bool DqnArray_Grow(DqnArray<T> *array)
 	size_t oldSize = (size_t)array->capacity * sizeof(T);
 	size_t newSize = (size_t)newCapacity * sizeof(T);
-	DqnMemAPICallbackResult memResult = {};
+	DqnMemAPICallbackResult memResult = {0};
 	DqnMemAPICallbackInfo info = DqnMemAPICallback_InfoAskReallocInternal(
 	    array->memAPI, array->data, oldSize, newSize);
@ -426,7 +443,7 @@ bool DqnArray_RemoveStable(DqnArray<T> *array, u64 index)
 	array->count--;
 	return true;
 }
-#endif
+#endif // DQN_CPP_MODE
 ////////////////////////////////////////////////////////////////////////////////
 // Math
@ -474,6 +491,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_Perpendicular(DqnV2 a);
 DQN_FILE_SCOPE DqnV2 DqnV2_ConstrainToRatio(DqnV2 dim, DqnV2 ratio); // Resize the dimension to fit the aspect ratio provided. Downscale only.
 #ifdef DQN_CPP_MODE
 DQN_FILE_SCOPE inline DqnV2  operator- (DqnV2  a, DqnV2 b) { return      DqnV2_Sub     (a, b);  }
 DQN_FILE_SCOPE inline DqnV2  operator+ (DqnV2  a, DqnV2 b) { return      DqnV2_Add     (a, b);  }
 DQN_FILE_SCOPE inline DqnV2  operator* (DqnV2  a, DqnV2 b) { return      DqnV2_Hadamard(a, b);  }
@ -485,6 +503,7 @@ DQN_FILE_SCOPE inline DqnV2 &operator*=(DqnV2 &a, i32   b) { return (a = DqnV2_S
 DQN_FILE_SCOPE inline DqnV2 &operator-=(DqnV2 &a, DqnV2 b) { return (a = DqnV2_Sub     (a, b)); }
 DQN_FILE_SCOPE inline DqnV2 &operator+=(DqnV2 &a, DqnV2 b) { return (a = DqnV2_Add     (a, b)); }
 DQN_FILE_SCOPE inline bool   operator==(DqnV2  a, DqnV2 b) { return      DqnV2_Equals  (a, b);  }
 #endif
 // DqnV2i
 DQN_FILE_SCOPE DqnV2i DqnV2i_2i(i32 x, i32 y);
@ -499,6 +518,7 @@ DQN_FILE_SCOPE DqnV2i DqnV2i_Hadamard(DqnV2i a, DqnV2i b);
 DQN_FILE_SCOPE f32    DqnV2i_Dot     (DqnV2i a, DqnV2i b);
 DQN_FILE_SCOPE bool   DqnV2i_Equals  (DqnV2i a, DqnV2i b);
 #ifdef DQN_CPP_MODE
 DQN_FILE_SCOPE inline DqnV2i  operator- (DqnV2i  a, DqnV2i b) { return      DqnV2i_Sub     (a, b);  }
 DQN_FILE_SCOPE inline DqnV2i  operator+ (DqnV2i  a, DqnV2i b) { return      DqnV2i_Add     (a, b);  }
 DQN_FILE_SCOPE inline DqnV2i  operator* (DqnV2i  a, DqnV2i b) { return      DqnV2i_Hadamard(a, b);  }
@ -508,6 +528,7 @@ DQN_FILE_SCOPE inline DqnV2i &operator*=(DqnV2i &a, DqnV2i b) { return (a = DqnV
 DQN_FILE_SCOPE inline DqnV2i &operator-=(DqnV2i &a, DqnV2i b) { return (a = DqnV2i_Sub     (a, b)); }
 DQN_FILE_SCOPE inline DqnV2i &operator+=(DqnV2i &a, DqnV2i b) { return (a = DqnV2i_Add     (a, b)); }
 DQN_FILE_SCOPE inline bool    operator==(DqnV2i  a, DqnV2i b) { return      DqnV2i_Equals  (a, b);  }
 #endif
 ////////////////////////////////////////////////////////////////////////////////
 // Vec3
@ -546,6 +567,7 @@ DQN_FILE_SCOPE DqnV3 DqnV3_Normalise    (DqnV3 a);
 DQN_FILE_SCOPE f32   DqnV3_Length       (DqnV3 a, DqnV3 b);
 DQN_FILE_SCOPE f32   DqnV3_LengthSquared(DqnV3 a, DqnV3 b);
 #ifdef DQN_CPP_MODE
 DQN_FILE_SCOPE inline DqnV3  operator- (DqnV3  a, DqnV3 b) { return      DqnV3_Sub     (a, b);           }
 DQN_FILE_SCOPE inline DqnV3  operator+ (DqnV3  a, DqnV3 b) { return      DqnV3_Add     (a, b);           }
 DQN_FILE_SCOPE inline DqnV3  operator+ (DqnV3  a, f32   b) { return      DqnV3_Add     (a, DqnV3_1f(b)); }
@ -559,6 +581,7 @@ DQN_FILE_SCOPE inline DqnV3 &operator*=(DqnV3 &a, i32   b) { return (a = DqnV3_S
 DQN_FILE_SCOPE inline DqnV3 &operator-=(DqnV3 &a, DqnV3 b) { return (a = DqnV3_Sub     (a, b));          }
 DQN_FILE_SCOPE inline DqnV3 &operator+=(DqnV3 &a, DqnV3 b) { return (a = DqnV3_Add     (a, b));          }
 DQN_FILE_SCOPE inline bool   operator==(DqnV3  a, DqnV3 b) { return      DqnV3_Equals  (a, b);           }
 #endif
 // DqnV3i
 DQN_FILE_SCOPE DqnV3i DqnV3i_3i(i32 x, i32 y, i32 z);
@ -596,6 +619,7 @@ DQN_FILE_SCOPE DqnV4 DqnV4_Hadamard(DqnV4 a, DqnV4 b);
 DQN_FILE_SCOPE f32   DqnV4_Dot     (DqnV4 a, DqnV4 b);
 DQN_FILE_SCOPE bool  DqnV4_Equals  (DqnV4 a, DqnV4 b);
 #ifdef DQN_CPP_MODE
 DQN_FILE_SCOPE inline DqnV4  operator- (DqnV4  a, DqnV4 b) { return      DqnV4_Sub     (a, b);            }
 DQN_FILE_SCOPE inline DqnV4  operator+ (DqnV4  a, DqnV4 b) { return      DqnV4_Add     (a, b);            }
 DQN_FILE_SCOPE inline DqnV4  operator+ (DqnV4  a, f32   b) { return      DqnV4_Add     (a, DqnV4_1f(b));  }
@ -608,6 +632,7 @@ DQN_FILE_SCOPE inline DqnV4 &operator*=(DqnV4 &a, i32   b) { return (a = DqnV4_S
 DQN_FILE_SCOPE inline DqnV4 &operator-=(DqnV4 &a, DqnV4 b) { return (a = DqnV4_Sub     (a, b));           }
 DQN_FILE_SCOPE inline DqnV4 &operator+=(DqnV4 &a, DqnV4 b) { return (a = DqnV4_Add     (a, b));           }
 DQN_FILE_SCOPE inline bool   operator==(DqnV4  a, DqnV4 b) { return      DqnV4_Equals  (a, b);            }
 #endif
 ////////////////////////////////////////////////////////////////////////////////
 // 4D Matrix Mat4
@ -1466,7 +1491,7 @@ DQN_FILE_SCOPE bool DqnMemStack_InitWithFixedMem(DqnMemStack *const stack,
 	stack->flags = (DqnMemStackFlag_IsFixedMemoryFromUser | DqnMemStackFlag_IsNotExpandable);
 	const u32 DEFAULT_ALIGNMENT = 4;
-	stack->tempStackCount     = 0;
+	stack->tempRegionCount     = 0;
 	stack->byteAlign = (byteAlign == 0) ? DEFAULT_ALIGNMENT : byteAlign;
 	return true;
 }
@ -1481,7 +1506,7 @@ DQN_FILE_SCOPE bool DqnMemStack_Init(DqnMemStack *const stack, size_t size,
 	stack->block = DqnMemStack_AllocateBlockInternal(byteAlign, size);
 	if (!stack->block) return false;
-	stack->tempStackCount = 0;
+	stack->tempRegionCount = 0;
 	stack->byteAlign       = byteAlign;
 	stack->flags           = 0;
 	return true;
@ -1589,7 +1614,7 @@ DQN_FILE_SCOPE bool DqnMemStack_FreeStackBlock(DqnMemStack *const stack, DqnMemS
 		DqnMem_Free(blockToFree);
 		// No more blocks, then last block has been freed
-		if (!stack->block) DQN_ASSERT(stack->tempStackCount == 0);
+		if (!stack->block) DQN_ASSERT(stack->tempRegionCount == 0);
 		return true;
 	}
@ -1638,33 +1663,54 @@ DQN_FILE_SCOPE void DqnMemStack_ClearCurrBlock(DqnMemStack *const stack,
 	}
 }
-DQN_FILE_SCOPE DqnTempMemStack
+DQN_FILE_SCOPE bool DqnMemStackTempRegion_Begin(DqnMemStackTempRegion *region,
-DqnMemStack_BeginTempRegion(DqnMemStack *const stack)
+                                                DqnMemStack *const stack)
 {
-	DqnTempMemStack result = {};
+	if (!region || !stack) return false;
 	result.stack           = stack;
 	result.startingBlock   = stack->block;
 	result.used            = stack->block->used;
-	stack->tempStackCount++;
+	region->stack           = stack;
-	return result;
+	region->startingBlock   = stack->block;
 	region->used            = stack->block->used;
 	stack->tempRegionCount++;
 	return true;
 }
-DQN_FILE_SCOPE void DqnMemStack_EndTempRegion(DqnTempMemStack tempStack)
+DQN_FILE_SCOPE void DqnMemStackTempRegion_End(DqnMemStackTempRegion region)
 {
-	DqnMemStack *stack = tempStack.stack;
+	DqnMemStack *stack = region.stack;
-	while (stack->block != tempStack.startingBlock)
+	while (stack->block != region.startingBlock)
 		DqnMemStack_FreeLastBlock(stack);
 	if (stack->block)
 	{
-		DQN_ASSERT(stack->block->used >= tempStack.used);
+		DQN_ASSERT(stack->block->used >= region.used);
-		stack->block->used = tempStack.used;
+		stack->block->used = region.used;
-		DQN_ASSERT(stack->tempStackCount >= 0);
+		DQN_ASSERT(stack->tempRegionCount >= 0);
 	}
-	stack->tempStackCount--;
+	stack->tempRegionCount--;
 }
 #ifdef DQN_CPP_MODE
 DqnMemStackTempRegionScoped::DqnMemStackTempRegionScoped(DqnMemStack *const stack)
 {
 	this->isInit = DqnMemStackTempRegion_Begin(&this->tempMemStack, stack);
 	DQN_ASSERT(this->isInit);
 }
 DqnMemStackTempRegionScoped::~DqnMemStackTempRegionScoped()
 {
 	if (this->isInit)
 	{
 		DqnMemStackTempRegion_End(this->tempMemStack);
 	}
 	else
 	{
 		// TODO(doyle): Report error
 		DQN_ASSERT(DQN_INVALID_CODE_PATH);
 	}
 }
 #endif
 ////////////////////////////////////////////////////////////////////////////////
 // DqnMemAPI - Memory API, For using custom allocators
 ////////////////////////////////////////////////////////////////////////////////
@ -1674,7 +1720,7 @@ DqnMemAPICallback_InfoAskReallocInternal(const DqnMemAPI memAPI,
                                         const size_t oldSize,
                                         const size_t newSize)
 {
-	DqnMemAPICallbackInfo info = {};
+	DqnMemAPICallbackInfo info = {0};
 	info.type           = DqnMemAPICallbackType_Realloc;
 	info.userContext    = memAPI.userContext;
 	info.newRequestSize = newSize;
@ -1687,7 +1733,7 @@ FILE_SCOPE inline DqnMemAPICallbackInfo
 DqnMemAPICallback_InfoAskAllocInternal(const DqnMemAPI memAPI,
                                       const size_t size)
 {
-	DqnMemAPICallbackInfo info = {};
+	DqnMemAPICallbackInfo info = {0};
 	info.type        = DqnMemAPICallbackType_Alloc;
 	info.userContext = memAPI.userContext;
 	info.requestSize = size;
@ -1697,7 +1743,7 @@ DqnMemAPICallback_InfoAskAllocInternal(const DqnMemAPI memAPI,
 FILE_SCOPE DqnMemAPICallbackInfo DqnMemAPICallback_InfoAskFreeInternal(
    const DqnMemAPI memAPI, void *const ptrToFree, const size_t sizeToFree)
 {
-	DqnMemAPICallbackInfo info = {};
+	DqnMemAPICallbackInfo info = {0};
 	info.type        = DqnMemAPICallbackType_Free;
 	info.userContext = memAPI.userContext;
 	info.ptrToFree   = ptrToFree;
@ -1770,7 +1816,7 @@ DqnMemAPI_DefaultUseCallocCallbackInternal(DqnMemAPICallbackInfo info,
 DQN_FILE_SCOPE DqnMemAPI DqnMemAPI_DefaultUseCalloc()
 {
-	DqnMemAPI result   = {};
+	DqnMemAPI result   = {0};
 	result.callback    = DqnMemAPI_DefaultUseCallocCallbackInternal;
 	result.userContext = NULL;
 	return result;
@ -1815,7 +1861,7 @@ DQN_FILE_SCOPE f32 DqnMath_Clampf(f32 val, f32 min, f32 max)
 ////////////////////////////////////////////////////////////////////////////////
 DQN_FILE_SCOPE DqnV2 DqnV2_2f(f32 x, f32 y)
 {
-	DqnV2 result = {};
+	DqnV2 result = {0};
 	result.x  = x;
 	result.y  = y;
@ -1824,7 +1870,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_2f(f32 x, f32 y)
 DQN_FILE_SCOPE DqnV2 DqnV2_1f(f32 xy)
 {
-	DqnV2 result = {};
+	DqnV2 result = {0};
 	result.x  = xy;
 	result.y  = xy;
@ -1839,7 +1885,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_2i(i32 x, i32 y)
 DQN_FILE_SCOPE DqnV2 DqnV2_V2i(DqnV2i a)
 {
-	DqnV2 result = {};
+	DqnV2 result = {0};
 	result.x = (f32)a.x;
 	result.y = (f32)a.y;
 	return result;
@ -1847,7 +1893,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_V2i(DqnV2i a)
 DQN_FILE_SCOPE DqnV2 DqnV2_Add(DqnV2 a, DqnV2 b)
 {
-	DqnV2 result = {};
+	DqnV2 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] + b.e[i];
@ -1856,7 +1902,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_Add(DqnV2 a, DqnV2 b)
 DQN_FILE_SCOPE DqnV2 DqnV2_Sub(DqnV2 a, DqnV2 b)
 {
-	DqnV2 result = {};
+	DqnV2 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] - b.e[i];
@ -1865,7 +1911,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_Sub(DqnV2 a, DqnV2 b)
 DQN_FILE_SCOPE DqnV2 DqnV2_Scalei(DqnV2 a, i32 b)
 {
-	DqnV2 result = {};
+	DqnV2 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b;
@ -1874,7 +1920,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_Scalei(DqnV2 a, i32 b)
 DQN_FILE_SCOPE DqnV2 DqnV2_Scalef(DqnV2 a, f32 b)
 {
-	DqnV2 result = {};
+	DqnV2 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b;
@ -1883,7 +1929,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_Scalef(DqnV2 a, f32 b)
 DQN_FILE_SCOPE DqnV2 DqnV2_Hadamard(DqnV2 a, DqnV2 b)
 {
-	DqnV2 result = {};
+	DqnV2 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b.e[i];
@ -1973,7 +2019,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_Perpendicular(DqnV2 a)
 DQN_FILE_SCOPE DqnV2 DqnV2_ConstrainToRatio(DqnV2 dim, DqnV2 ratio)
 {
-	DqnV2 result                  = {};
+	DqnV2 result                  = {0};
 	f32 numRatioIncrementsToWidth  = (f32)(dim.w / ratio.w);
 	f32 numRatioIncrementsToHeight = (f32)(dim.h / ratio.h);
@ -1987,7 +2033,7 @@ DQN_FILE_SCOPE DqnV2 DqnV2_ConstrainToRatio(DqnV2 dim, DqnV2 ratio)
 DQN_FILE_SCOPE DqnV2i DqnV2i_2i(i32 x, i32 y)
 {
-	DqnV2i result = {};
+	DqnV2i result = {0};
 	result.x      = x;
 	result.y      = y;
 	return result;
@ -2001,7 +2047,7 @@ DQN_FILE_SCOPE DqnV2i DqnV2i_2f(f32 x, f32 y)
 DQN_FILE_SCOPE DqnV2i DqnV2i_V2(DqnV2 a)
 {
-	DqnV2i result = {};
+	DqnV2i result = {0};
 	result.x      = (i32)a.x;
 	result.y      = (i32)a.y;
 	return result;
@ -2009,7 +2055,7 @@ DQN_FILE_SCOPE DqnV2i DqnV2i_V2(DqnV2 a)
 DQN_FILE_SCOPE DqnV2i DqnV2i_Add(DqnV2i a, DqnV2i b)
 {
-	DqnV2i result = {};
+	DqnV2i result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] + b.e[i];
@ -2018,7 +2064,7 @@ DQN_FILE_SCOPE DqnV2i DqnV2i_Add(DqnV2i a, DqnV2i b)
 DQN_FILE_SCOPE DqnV2i DqnV2i_Sub(DqnV2i a, DqnV2i b)
 {
-	DqnV2i result = {};
+	DqnV2i result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] - b.e[i];
@ -2027,7 +2073,7 @@ DQN_FILE_SCOPE DqnV2i DqnV2i_Sub(DqnV2i a, DqnV2i b)
 DQN_FILE_SCOPE DqnV2i DqnV2i_Scalef(DqnV2i a, f32 b)
 {
-	DqnV2i result = {};
+	DqnV2i result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = (i32)(a.e[i] * b);
@ -2036,7 +2082,7 @@ DQN_FILE_SCOPE DqnV2i DqnV2i_Scalef(DqnV2i a, f32 b)
 DQN_FILE_SCOPE DqnV2i DqnV2i_Scalei(DqnV2i a, i32 b)
 {
-	DqnV2i result = {};
+	DqnV2i result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b;
@ -2045,7 +2091,7 @@ DQN_FILE_SCOPE DqnV2i DqnV2i_Scalei(DqnV2i a, i32 b)
 DQN_FILE_SCOPE DqnV2i DqnV2i_Hadamard(DqnV2i a, DqnV2i b)
 {
-	DqnV2i result = {};
+	DqnV2i result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b.e[i];
@ -2099,7 +2145,7 @@ DQN_FILE_SCOPE DqnV3 DqnV3_3i(i32 x, i32 y, i32 z)
 DQN_FILE_SCOPE DqnV3 DqnV3_Add(DqnV3 a, DqnV3 b)
 {
-	DqnV3 result = {};
+	DqnV3 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] + b.e[i];
@ -2108,7 +2154,7 @@ DQN_FILE_SCOPE DqnV3 DqnV3_Add(DqnV3 a, DqnV3 b)
 DQN_FILE_SCOPE DqnV3 DqnV3_Sub(DqnV3 a, DqnV3 b)
 {
-	DqnV3 result = {};
+	DqnV3 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] - b.e[i];
@ -2117,7 +2163,7 @@ DQN_FILE_SCOPE DqnV3 DqnV3_Sub(DqnV3 a, DqnV3 b)
 DQN_FILE_SCOPE DqnV3 DqnV3_Scalei(DqnV3 a, i32 b)
 {
-	DqnV3 result = {};
+	DqnV3 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b;
@ -2126,7 +2172,7 @@ DQN_FILE_SCOPE DqnV3 DqnV3_Scalei(DqnV3 a, i32 b)
 DQN_FILE_SCOPE DqnV3 DqnV3_Scalef(DqnV3 a, f32 b)
 {
-	DqnV3 result = {};
+	DqnV3 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b;
@ -2135,7 +2181,7 @@ DQN_FILE_SCOPE DqnV3 DqnV3_Scalef(DqnV3 a, f32 b)
 DQN_FILE_SCOPE DqnV3 DqnV3_Hadamard(DqnV3 a, DqnV3 b)
 {
-	DqnV3 result = {};
+	DqnV3 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b.e[i];
@ -2175,7 +2221,7 @@ DQN_FILE_SCOPE DqnV3 DqnV3_Cross(DqnV3 a, DqnV3 b)
 	   |b| x |e| = |cd - af|
 	   |c|   |f|   |ae - be|
 	 */
-	DqnV3 result = {};
+	DqnV3 result = {0};
 	result.e[0] = (a.e[1] * b.e[2]) - (a.e[2] * b.e[1]);
 	result.e[1] = (a.e[2] * b.e[0]) - (a.e[0] * b.e[2]);
 	result.e[2] = (a.e[0] * b.e[1]) - (a.e[1] * b.e[0]);
@ -2252,7 +2298,7 @@ DQN_FILE_SCOPE DqnV4 DqnV4_1f(f32 xyzw)
 DQN_FILE_SCOPE DqnV4 DqnV4_Add(DqnV4 a, DqnV4 b)
 {
-	DqnV4 result = {};
+	DqnV4 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] + b.e[i];
@ -2261,7 +2307,7 @@ DQN_FILE_SCOPE DqnV4 DqnV4_Add(DqnV4 a, DqnV4 b)
 DQN_FILE_SCOPE DqnV4 DqnV4_Sub(DqnV4 a, DqnV4 b)
 {
-	DqnV4 result = {};
+	DqnV4 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] - b.e[i];
@ -2270,7 +2316,7 @@ DQN_FILE_SCOPE DqnV4 DqnV4_Sub(DqnV4 a, DqnV4 b)
 DQN_FILE_SCOPE DqnV4 DqnV4_Scalei(DqnV4 a, i32 b)
 {
-	DqnV4 result = {};
+	DqnV4 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b;
@ -2279,7 +2325,7 @@ DQN_FILE_SCOPE DqnV4 DqnV4_Scalei(DqnV4 a, i32 b)
 DQN_FILE_SCOPE DqnV4 DqnV4_Scalef(DqnV4 a, f32 b)
 {
-	DqnV4 result = {};
+	DqnV4 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b;
@ -2288,7 +2334,7 @@ DQN_FILE_SCOPE DqnV4 DqnV4_Scalef(DqnV4 a, f32 b)
 DQN_FILE_SCOPE DqnV4 DqnV4_Hadamard(DqnV4 a, DqnV4 b)
 {
-	DqnV4 result = {};
+	DqnV4 result = {0};
 	for (i32 i = 0; i < DQN_ARRAY_COUNT(a.e); i++)
 		result.e[i] = a.e[i] * b.e[i];
@ -2475,7 +2521,7 @@ DQN_FILE_SCOPE DqnV4 DqnMat4_MulV4(DqnMat4 a, DqnV4 b)
 ////////////////////////////////////////////////////////////////////////////////
 DQN_FILE_SCOPE DqnRect DqnRect_4f(f32 minX, f32 minY, f32 maxX, f32 maxY)
 {
-	DqnRect result = {};
+	DqnRect result = {0};
 	result.min     = DqnV2_2f(minX, minY);
 	result.max     = DqnV2_2f(maxX, maxY);
@ -2484,7 +2530,7 @@ DQN_FILE_SCOPE DqnRect DqnRect_4f(f32 minX, f32 minY, f32 maxX, f32 maxY)
 DQN_FILE_SCOPE DqnRect DqnRect_4i(i32 minX, i32 minY, i32 maxX, i32 maxY)
 {
-	DqnRect result = {};
+	DqnRect result = {0};
 	result.min     = DqnV2_2i(minX, minY);
 	result.max     = DqnV2_2i(maxX, maxY);
@ -2493,7 +2539,7 @@ DQN_FILE_SCOPE DqnRect DqnRect_4i(i32 minX, i32 minY, i32 maxX, i32 maxY)
 DQN_FILE_SCOPE DqnRect DqnRect_Init(DqnV2 origin, DqnV2 size)
 {
-	DqnRect result = {};
+	DqnRect result = {0};
 	result.min      = origin;
 	result.max      = DqnV2_Add(origin, size);
@ -2530,7 +2576,7 @@ DQN_FILE_SCOPE DqnV2 DqnRect_GetCentre(DqnRect rect)
 DQN_FILE_SCOPE DqnRect DqnRect_ClipRect(DqnRect rect, DqnRect clip)
 {
-	DqnRect result = {};
+	DqnRect result = {0};
 	DqnV2 clipSize = DqnRect_GetSizeV2(clip);
 	result.max.x = DQN_MIN(rect.max.x, clipSize.w);
@ -3253,29 +3299,29 @@ DQN_FILE_SCOPE void DqnWin32_GetRectDim(RECT rect, LONG *width, LONG *height)
 DQN_FILE_SCOPE void DqnWin32_DisplayLastError(const char *const errorPrefix)
 {
 	DWORD error         = GetLastError();
-	char errorMsg[1024] = {};
+	char errorMsg[1024] = {0};
 	FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS,
 	               NULL, error, 0, errorMsg, DQN_ARRAY_COUNT(errorMsg), NULL);
-	char formattedError[2048] = {};
+	char formattedError[2048] = {0};
 	Dqn_sprintf(formattedError, "%s: %s", errorPrefix, errorMsg);
 	DQN_WIN32_ERROR_BOX(formattedError, NULL);
 }
 DQN_FILE_SCOPE void DqnWin32_DisplayErrorCode(const DWORD error, const char *const errorPrefix)
 {
-	char errorMsg[1024] = {};
+	char errorMsg[1024] = {0};
 	FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS,
 	               NULL, error, 0, errorMsg, DQN_ARRAY_COUNT(errorMsg), NULL);
-	char formattedError[2048] = {};
+	char formattedError[2048] = {0};
 	Dqn_sprintf(formattedError, "%s: %s", errorPrefix, errorMsg);
 	DQN_WIN32_ERROR_BOX(formattedError, NULL);
 }
 DQN_FILE_SCOPE void DqnWin32_OutputDebugString(const char *const formatStr, ...)
 {
-	LOCAL_PERSIST char str[1024] = {};
+	LOCAL_PERSIST char str[1024] = {0};
 	va_list argList;
 	va_start(argList, formatStr);
@ -3359,7 +3405,7 @@ bool DqnFile_Open(const char *const path, DqnFile *const file,
 	if (!file || !path) return false;
 #ifdef DQN_WIN32_IMPLEMENTATION
-	wchar_t widePath[MAX_PATH] = {};
+	wchar_t widePath[MAX_PATH] = {0};
 	DqnWin32_UTF8ToWChar(path, widePath, DQN_ARRAY_COUNT(widePath));
 	return DqnFile_OpenInternal(widePath, file, permissionFlags, action);
 #else
@ -3446,12 +3492,12 @@ DQN_FILE_SCOPE char **DqnDir_Read(char *dir, u32 *numFiles)
 #ifdef DQN_WIN32_IMPLEMENTATION
 	u32 currNumFiles = 0;
-	wchar_t wideDir[MAX_PATH] = {};
+	wchar_t wideDir[MAX_PATH] = {0};
 	DqnWin32_UTF8ToWChar(dir, wideDir, DQN_ARRAY_COUNT(wideDir));
 	// Enumerate number of files first
 	{
-		WIN32_FIND_DATAW findData = {};
+		WIN32_FIND_DATAW findData = {0};
 		HANDLE findHandle = FindFirstFileW(wideDir, &findData);
 		if (findHandle == INVALID_HANDLE_VALUE)
 		{
@ -3489,7 +3535,7 @@ DQN_FILE_SCOPE char **DqnDir_Read(char *dir, u32 *numFiles)
 	}
 	{
-		WIN32_FIND_DATAW initFind = {};
+		WIN32_FIND_DATAW initFind = {0};
 		HANDLE findHandle = FindFirstFileW(wideDir, &initFind);
 		if (findHandle == INVALID_HANDLE_VALUE)
 		{
@ -3522,7 +3568,7 @@ DQN_FILE_SCOPE char **DqnDir_Read(char *dir, u32 *numFiles)
 		}
 		i32 listIndex = 0;
-		WIN32_FIND_DATAW findData = {};
+		WIN32_FIND_DATAW findData = {0};
 		while (FindNextFileW(findHandle, &findData) != 0)
 		{
 			DqnWin32_WCharToUTF8(findData.cFileName, list[listIndex++],
@ -3559,7 +3605,7 @@ DQN_FILE_SCOPE void DqnDir_ReadFree(char **fileList, u32 numFiles)
 #ifdef DQN_WIN32_IMPLEMENTATION
 FILE_SCOPE f64 DqnWin32_QueryPerfCounterTimeInSInternal()
 {
-	LOCAL_PERSIST LARGE_INTEGER queryPerformanceFrequency = {};
+	LOCAL_PERSIST LARGE_INTEGER queryPerformanceFrequency = {0};
 	if (queryPerformanceFrequency.QuadPart == 0)
 	{
 		QueryPerformanceFrequency(&queryPerformanceFrequency);