/* Automatically generated from Vulkan xr.xml; DO NOT EDIT! * * This file is generated from Vulkan xr.xml file covered * by the following copyright and permission notice: * * Copyright (c) 2017-2025 The Khronos Group Inc. * * SPDX-License-Identifier: Apache-2.0 OR MIT * * ------------------------------------------------------------------------ * * This file, xr.xml, is the OpenXR API Registry. It is a critically important * and normative part of the OpenXR Specification, including a canonical * machine-readable definition of the API, parameter and member validation * language incorporated into the Specification and reference pages, and other * material which is registered by Khronos, such as tags used by extension and * layer authors. The only authoritative version of xr.xml is the one * maintained in the default branch of the Khronos OpenXR GitHub project. * */ #include "openxr_loader.h" WINE_DEFAULT_DEBUG_CHANNEL(openxr); XrResult WINAPI xrAcquireEnvironmentDepthImageMETA(XrEnvironmentDepthProviderMETA environmentDepthProvider, const XrEnvironmentDepthImageAcquireInfoMETA *acquireInfo, XrEnvironmentDepthImageMETA *environmentDepthImage) { struct xrAcquireEnvironmentDepthImageMETA_params params; NTSTATUS _status; params.environmentDepthProvider = environmentDepthProvider; params.acquireInfo = acquireInfo; params.environmentDepthImage = environmentDepthImage; _status = UNIX_CALL(xrAcquireEnvironmentDepthImageMETA, ¶ms); assert(!_status && "xrAcquireEnvironmentDepthImageMETA"); return params.result; } XrResult WINAPI xrAllocateWorldMeshBufferML(XrWorldMeshDetectorML detector, const XrWorldMeshBufferSizeML *size, XrWorldMeshBufferML *buffer) { struct xrAllocateWorldMeshBufferML_params params; NTSTATUS _status; params.detector = detector; params.size = size; params.buffer = buffer; _status = UNIX_CALL(xrAllocateWorldMeshBufferML, ¶ms); assert(!_status && "xrAllocateWorldMeshBufferML"); return params.result; } XrResult WINAPI xrApplyForceFeedbackCurlMNDX(XrHandTrackerEXT handTracker, const XrForceFeedbackCurlApplyLocationsMNDX *locations) { struct xrApplyForceFeedbackCurlMNDX_params params; NTSTATUS _status; params.handTracker = handTracker; params.locations = locations; _status = UNIX_CALL(xrApplyForceFeedbackCurlMNDX, ¶ms); assert(!_status && "xrApplyForceFeedbackCurlMNDX"); return params.result; } XrResult WINAPI xrApplyHapticFeedback(XrSession session, const XrHapticActionInfo *hapticActionInfo, const XrHapticBaseHeader *hapticFeedback) { struct xrApplyHapticFeedback_params params; NTSTATUS _status; params.session = session; params.hapticActionInfo = hapticActionInfo; params.hapticFeedback = hapticFeedback; _status = UNIX_CALL(xrApplyHapticFeedback, ¶ms); assert(!_status && "xrApplyHapticFeedback"); return params.result; } XrResult WINAPI xrAttachSessionActionSets(XrSession session, const XrSessionActionSetsAttachInfo *attachInfo) { struct xrAttachSessionActionSets_params params; NTSTATUS _status; params.session = session; params.attachInfo = attachInfo; _status = UNIX_CALL(xrAttachSessionActionSets, ¶ms); assert(!_status && "xrAttachSessionActionSets"); return params.result; } XrResult WINAPI xrBeginPlaneDetectionEXT(XrPlaneDetectorEXT planeDetector, const XrPlaneDetectorBeginInfoEXT *beginInfo) { struct xrBeginPlaneDetectionEXT_params params; NTSTATUS _status; params.planeDetector = planeDetector; params.beginInfo = beginInfo; _status = UNIX_CALL(xrBeginPlaneDetectionEXT, ¶ms); assert(!_status && "xrBeginPlaneDetectionEXT"); return params.result; } XrResult WINAPI xrBeginSession(XrSession session, const XrSessionBeginInfo *beginInfo) { struct xrBeginSession_params params; NTSTATUS _status; params.session = session; params.beginInfo = beginInfo; _status = UNIX_CALL(xrBeginSession, ¶ms); assert(!_status && "xrBeginSession"); return params.result; } XrResult WINAPI xrCancelFutureEXT(XrInstance instance, const XrFutureCancelInfoEXT *cancelInfo) { struct xrCancelFutureEXT_params params; NTSTATUS _status; params.instance = instance; params.cancelInfo = cancelInfo; _status = UNIX_CALL(xrCancelFutureEXT, ¶ms); assert(!_status && "xrCancelFutureEXT"); return params.result; } XrResult WINAPI xrCaptureSceneAsyncBD(XrSenseDataProviderBD provider, const XrSceneCaptureInfoBD *info, XrFutureEXT *future) { struct xrCaptureSceneAsyncBD_params params; NTSTATUS _status; params.provider = provider; params.info = info; params.future = future; _status = UNIX_CALL(xrCaptureSceneAsyncBD, ¶ms); assert(!_status && "xrCaptureSceneAsyncBD"); return params.result; } XrResult WINAPI xrCaptureSceneCompleteBD(XrSenseDataProviderBD provider, XrFutureEXT future, XrFutureCompletionEXT *completion) { struct xrCaptureSceneCompleteBD_params params; NTSTATUS _status; params.provider = provider; params.future = future; params.completion = completion; _status = UNIX_CALL(xrCaptureSceneCompleteBD, ¶ms); assert(!_status && "xrCaptureSceneCompleteBD"); return params.result; } XrResult WINAPI xrChangeVirtualKeyboardTextContextMETA(XrVirtualKeyboardMETA keyboard, const XrVirtualKeyboardTextContextChangeInfoMETA *changeInfo) { struct xrChangeVirtualKeyboardTextContextMETA_params params; NTSTATUS _status; params.keyboard = keyboard; params.changeInfo = changeInfo; _status = UNIX_CALL(xrChangeVirtualKeyboardTextContextMETA, ¶ms); assert(!_status && "xrChangeVirtualKeyboardTextContextMETA"); return params.result; } XrResult WINAPI xrClearSpatialAnchorStoreMSFT(XrSpatialAnchorStoreConnectionMSFT spatialAnchorStore) { struct xrClearSpatialAnchorStoreMSFT_params params; NTSTATUS _status; params.spatialAnchorStore = spatialAnchorStore; _status = UNIX_CALL(xrClearSpatialAnchorStoreMSFT, ¶ms); assert(!_status && "xrClearSpatialAnchorStoreMSFT"); return params.result; } XrResult WINAPI xrComputeNewSceneMSFT(XrSceneObserverMSFT sceneObserver, const XrNewSceneComputeInfoMSFT *computeInfo) { struct xrComputeNewSceneMSFT_params params; NTSTATUS _status; params.sceneObserver = sceneObserver; params.computeInfo = computeInfo; _status = UNIX_CALL(xrComputeNewSceneMSFT, ¶ms); assert(!_status && "xrComputeNewSceneMSFT"); return params.result; } XrResult WINAPI xrCreateAction(XrActionSet actionSet, const XrActionCreateInfo *createInfo, XrAction *action) { struct xrCreateAction_params params; NTSTATUS _status; params.actionSet = actionSet; params.createInfo = createInfo; params.action = action; _status = UNIX_CALL(xrCreateAction, ¶ms); assert(!_status && "xrCreateAction"); return params.result; } XrResult WINAPI xrCreateActionSet(XrInstance instance, const XrActionSetCreateInfo *createInfo, XrActionSet *actionSet) { struct xrCreateActionSet_params params; NTSTATUS _status; params.instance = instance; params.createInfo = createInfo; params.actionSet = actionSet; _status = UNIX_CALL(xrCreateActionSet, ¶ms); assert(!_status && "xrCreateActionSet"); return params.result; } XrResult WINAPI xrCreateActionSpace(XrSession session, const XrActionSpaceCreateInfo *createInfo, XrSpace *space) { struct xrCreateActionSpace_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.space = space; _status = UNIX_CALL(xrCreateActionSpace, ¶ms); assert(!_status && "xrCreateActionSpace"); return params.result; } XrResult WINAPI xrCreateAnchorSpaceBD(XrSession session, const XrAnchorSpaceCreateInfoBD *createInfo, XrSpace *space) { struct xrCreateAnchorSpaceBD_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.space = space; _status = UNIX_CALL(xrCreateAnchorSpaceBD, ¶ms); assert(!_status && "xrCreateAnchorSpaceBD"); return params.result; } XrResult WINAPI xrCreateBodyTrackerBD(XrSession session, const XrBodyTrackerCreateInfoBD *createInfo, XrBodyTrackerBD *bodyTracker) { struct xrCreateBodyTrackerBD_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.bodyTracker = bodyTracker; _status = UNIX_CALL(xrCreateBodyTrackerBD, ¶ms); assert(!_status && "xrCreateBodyTrackerBD"); return params.result; } XrResult WINAPI xrCreateBodyTrackerFB(XrSession session, const XrBodyTrackerCreateInfoFB *createInfo, XrBodyTrackerFB *bodyTracker) { struct xrCreateBodyTrackerFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.bodyTracker = bodyTracker; _status = UNIX_CALL(xrCreateBodyTrackerFB, ¶ms); assert(!_status && "xrCreateBodyTrackerFB"); return params.result; } XrResult WINAPI xrCreateBodyTrackerHTC(XrSession session, const XrBodyTrackerCreateInfoHTC *createInfo, XrBodyTrackerHTC *bodyTracker) { struct xrCreateBodyTrackerHTC_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.bodyTracker = bodyTracker; _status = UNIX_CALL(xrCreateBodyTrackerHTC, ¶ms); assert(!_status && "xrCreateBodyTrackerHTC"); return params.result; } XrResult WINAPI xrCreateEnvironmentDepthProviderMETA(XrSession session, const XrEnvironmentDepthProviderCreateInfoMETA *createInfo, XrEnvironmentDepthProviderMETA *environmentDepthProvider) { struct xrCreateEnvironmentDepthProviderMETA_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.environmentDepthProvider = environmentDepthProvider; _status = UNIX_CALL(xrCreateEnvironmentDepthProviderMETA, ¶ms); assert(!_status && "xrCreateEnvironmentDepthProviderMETA"); return params.result; } XrResult WINAPI xrCreateEnvironmentDepthSwapchainMETA(XrEnvironmentDepthProviderMETA environmentDepthProvider, const XrEnvironmentDepthSwapchainCreateInfoMETA *createInfo, XrEnvironmentDepthSwapchainMETA *swapchain) { struct xrCreateEnvironmentDepthSwapchainMETA_params params; NTSTATUS _status; params.environmentDepthProvider = environmentDepthProvider; params.createInfo = createInfo; params.swapchain = swapchain; _status = UNIX_CALL(xrCreateEnvironmentDepthSwapchainMETA, ¶ms); assert(!_status && "xrCreateEnvironmentDepthSwapchainMETA"); return params.result; } XrResult WINAPI xrCreateExportedLocalizationMapML(XrSession session, const XrUuidEXT *mapUuid, XrExportedLocalizationMapML *map) { struct xrCreateExportedLocalizationMapML_params params; NTSTATUS _status; params.session = session; params.mapUuid = mapUuid; params.map = map; _status = UNIX_CALL(xrCreateExportedLocalizationMapML, ¶ms); assert(!_status && "xrCreateExportedLocalizationMapML"); return params.result; } XrResult WINAPI xrCreateEyeTrackerFB(XrSession session, const XrEyeTrackerCreateInfoFB *createInfo, XrEyeTrackerFB *eyeTracker) { struct xrCreateEyeTrackerFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.eyeTracker = eyeTracker; _status = UNIX_CALL(xrCreateEyeTrackerFB, ¶ms); assert(!_status && "xrCreateEyeTrackerFB"); return params.result; } XrResult WINAPI xrCreateFaceTracker2FB(XrSession session, const XrFaceTrackerCreateInfo2FB *createInfo, XrFaceTracker2FB *faceTracker) { struct xrCreateFaceTracker2FB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.faceTracker = faceTracker; _status = UNIX_CALL(xrCreateFaceTracker2FB, ¶ms); assert(!_status && "xrCreateFaceTracker2FB"); return params.result; } XrResult WINAPI xrCreateFaceTrackerFB(XrSession session, const XrFaceTrackerCreateInfoFB *createInfo, XrFaceTrackerFB *faceTracker) { struct xrCreateFaceTrackerFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.faceTracker = faceTracker; _status = UNIX_CALL(xrCreateFaceTrackerFB, ¶ms); assert(!_status && "xrCreateFaceTrackerFB"); return params.result; } XrResult WINAPI xrCreateFacialExpressionClientML(XrSession session, const XrFacialExpressionClientCreateInfoML *createInfo, XrFacialExpressionClientML *facialExpressionClient) { struct xrCreateFacialExpressionClientML_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.facialExpressionClient = facialExpressionClient; _status = UNIX_CALL(xrCreateFacialExpressionClientML, ¶ms); assert(!_status && "xrCreateFacialExpressionClientML"); return params.result; } XrResult WINAPI xrCreateFacialTrackerHTC(XrSession session, const XrFacialTrackerCreateInfoHTC *createInfo, XrFacialTrackerHTC *facialTracker) { struct xrCreateFacialTrackerHTC_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.facialTracker = facialTracker; _status = UNIX_CALL(xrCreateFacialTrackerHTC, ¶ms); assert(!_status && "xrCreateFacialTrackerHTC"); return params.result; } XrResult WINAPI xrCreateFoveationProfileFB(XrSession session, const XrFoveationProfileCreateInfoFB *createInfo, XrFoveationProfileFB *profile) { struct xrCreateFoveationProfileFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.profile = profile; _status = UNIX_CALL(xrCreateFoveationProfileFB, ¶ms); assert(!_status && "xrCreateFoveationProfileFB"); return params.result; } XrResult WINAPI xrCreateGeometryInstanceFB(XrSession session, const XrGeometryInstanceCreateInfoFB *createInfo, XrGeometryInstanceFB *outGeometryInstance) { struct xrCreateGeometryInstanceFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.outGeometryInstance = outGeometryInstance; _status = UNIX_CALL(xrCreateGeometryInstanceFB, ¶ms); assert(!_status && "xrCreateGeometryInstanceFB"); return params.result; } XrResult WINAPI xrCreateHandMeshSpaceMSFT(XrHandTrackerEXT handTracker, const XrHandMeshSpaceCreateInfoMSFT *createInfo, XrSpace *space) { struct xrCreateHandMeshSpaceMSFT_params params; NTSTATUS _status; params.handTracker = handTracker; params.createInfo = createInfo; params.space = space; _status = UNIX_CALL(xrCreateHandMeshSpaceMSFT, ¶ms); assert(!_status && "xrCreateHandMeshSpaceMSFT"); return params.result; } XrResult WINAPI xrCreateHandTrackerEXT(XrSession session, const XrHandTrackerCreateInfoEXT *createInfo, XrHandTrackerEXT *handTracker) { struct xrCreateHandTrackerEXT_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.handTracker = handTracker; _status = UNIX_CALL(xrCreateHandTrackerEXT, ¶ms); assert(!_status && "xrCreateHandTrackerEXT"); return params.result; } XrResult WINAPI xrCreateKeyboardSpaceFB(XrSession session, const XrKeyboardSpaceCreateInfoFB *createInfo, XrSpace *keyboardSpace) { struct xrCreateKeyboardSpaceFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.keyboardSpace = keyboardSpace; _status = UNIX_CALL(xrCreateKeyboardSpaceFB, ¶ms); assert(!_status && "xrCreateKeyboardSpaceFB"); return params.result; } XrResult WINAPI xrCreateMarkerDetectorML(XrSession session, const XrMarkerDetectorCreateInfoML *createInfo, XrMarkerDetectorML *markerDetector) { struct xrCreateMarkerDetectorML_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.markerDetector = markerDetector; _status = UNIX_CALL(xrCreateMarkerDetectorML, ¶ms); assert(!_status && "xrCreateMarkerDetectorML"); return params.result; } XrResult WINAPI xrCreateMarkerSpaceML(XrSession session, const XrMarkerSpaceCreateInfoML *createInfo, XrSpace *space) { struct xrCreateMarkerSpaceML_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.space = space; _status = UNIX_CALL(xrCreateMarkerSpaceML, ¶ms); assert(!_status && "xrCreateMarkerSpaceML"); return params.result; } XrResult WINAPI xrCreateMarkerSpaceVARJO(XrSession session, const XrMarkerSpaceCreateInfoVARJO *createInfo, XrSpace *space) { struct xrCreateMarkerSpaceVARJO_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.space = space; _status = UNIX_CALL(xrCreateMarkerSpaceVARJO, ¶ms); assert(!_status && "xrCreateMarkerSpaceVARJO"); return params.result; } XrResult WINAPI xrCreatePassthroughColorLutMETA(XrPassthroughFB passthrough, const XrPassthroughColorLutCreateInfoMETA *createInfo, XrPassthroughColorLutMETA *colorLut) { struct xrCreatePassthroughColorLutMETA_params params; NTSTATUS _status; params.passthrough = passthrough; params.createInfo = createInfo; params.colorLut = colorLut; _status = UNIX_CALL(xrCreatePassthroughColorLutMETA, ¶ms); assert(!_status && "xrCreatePassthroughColorLutMETA"); return params.result; } XrResult WINAPI xrCreatePassthroughFB(XrSession session, const XrPassthroughCreateInfoFB *createInfo, XrPassthroughFB *outPassthrough) { struct xrCreatePassthroughFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.outPassthrough = outPassthrough; _status = UNIX_CALL(xrCreatePassthroughFB, ¶ms); assert(!_status && "xrCreatePassthroughFB"); return params.result; } XrResult WINAPI xrCreatePassthroughHTC(XrSession session, const XrPassthroughCreateInfoHTC *createInfo, XrPassthroughHTC *passthrough) { struct xrCreatePassthroughHTC_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.passthrough = passthrough; _status = UNIX_CALL(xrCreatePassthroughHTC, ¶ms); assert(!_status && "xrCreatePassthroughHTC"); return params.result; } XrResult WINAPI xrCreatePassthroughLayerFB(XrSession session, const XrPassthroughLayerCreateInfoFB *createInfo, XrPassthroughLayerFB *outLayer) { struct xrCreatePassthroughLayerFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.outLayer = outLayer; _status = UNIX_CALL(xrCreatePassthroughLayerFB, ¶ms); assert(!_status && "xrCreatePassthroughLayerFB"); return params.result; } XrResult WINAPI xrCreatePlaneDetectorEXT(XrSession session, const XrPlaneDetectorCreateInfoEXT *createInfo, XrPlaneDetectorEXT *planeDetector) { struct xrCreatePlaneDetectorEXT_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.planeDetector = planeDetector; _status = UNIX_CALL(xrCreatePlaneDetectorEXT, ¶ms); assert(!_status && "xrCreatePlaneDetectorEXT"); return params.result; } XrResult WINAPI xrCreateReferenceSpace(XrSession session, const XrReferenceSpaceCreateInfo *createInfo, XrSpace *space) { struct xrCreateReferenceSpace_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.space = space; _status = UNIX_CALL(xrCreateReferenceSpace, ¶ms); assert(!_status && "xrCreateReferenceSpace"); return params.result; } XrResult WINAPI xrCreateSceneMSFT(XrSceneObserverMSFT sceneObserver, const XrSceneCreateInfoMSFT *createInfo, XrSceneMSFT *scene) { struct xrCreateSceneMSFT_params params; NTSTATUS _status; params.sceneObserver = sceneObserver; params.createInfo = createInfo; params.scene = scene; _status = UNIX_CALL(xrCreateSceneMSFT, ¶ms); assert(!_status && "xrCreateSceneMSFT"); return params.result; } XrResult WINAPI xrCreateSceneObserverMSFT(XrSession session, const XrSceneObserverCreateInfoMSFT *createInfo, XrSceneObserverMSFT *sceneObserver) { struct xrCreateSceneObserverMSFT_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.sceneObserver = sceneObserver; _status = UNIX_CALL(xrCreateSceneObserverMSFT, ¶ms); assert(!_status && "xrCreateSceneObserverMSFT"); return params.result; } XrResult WINAPI xrCreateSenseDataProviderBD(XrSession session, const XrSenseDataProviderCreateInfoBD *createInfo, XrSenseDataProviderBD *provider) { struct xrCreateSenseDataProviderBD_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.provider = provider; _status = UNIX_CALL(xrCreateSenseDataProviderBD, ¶ms); assert(!_status && "xrCreateSenseDataProviderBD"); return params.result; } XrResult WINAPI xrCreateSpaceUserFB(XrSession session, const XrSpaceUserCreateInfoFB *info, XrSpaceUserFB *user) { struct xrCreateSpaceUserFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.user = user; _status = UNIX_CALL(xrCreateSpaceUserFB, ¶ms); assert(!_status && "xrCreateSpaceUserFB"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorAsyncBD(XrSenseDataProviderBD provider, const XrSpatialAnchorCreateInfoBD *info, XrFutureEXT *future) { struct xrCreateSpatialAnchorAsyncBD_params params; NTSTATUS _status; params.provider = provider; params.info = info; params.future = future; _status = UNIX_CALL(xrCreateSpatialAnchorAsyncBD, ¶ms); assert(!_status && "xrCreateSpatialAnchorAsyncBD"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorCompleteBD(XrSenseDataProviderBD provider, XrFutureEXT future, XrSpatialAnchorCreateCompletionBD *completion) { struct xrCreateSpatialAnchorCompleteBD_params params; NTSTATUS _status; params.provider = provider; params.future = future; params.completion = completion; _status = UNIX_CALL(xrCreateSpatialAnchorCompleteBD, ¶ms); assert(!_status && "xrCreateSpatialAnchorCompleteBD"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorFB(XrSession session, const XrSpatialAnchorCreateInfoFB *info, XrAsyncRequestIdFB *requestId) { struct xrCreateSpatialAnchorFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrCreateSpatialAnchorFB, ¶ms); assert(!_status && "xrCreateSpatialAnchorFB"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorFromPersistedNameMSFT(XrSession session, const XrSpatialAnchorFromPersistedAnchorCreateInfoMSFT *spatialAnchorCreateInfo, XrSpatialAnchorMSFT *spatialAnchor) { struct xrCreateSpatialAnchorFromPersistedNameMSFT_params params; NTSTATUS _status; params.session = session; params.spatialAnchorCreateInfo = spatialAnchorCreateInfo; params.spatialAnchor = spatialAnchor; _status = UNIX_CALL(xrCreateSpatialAnchorFromPersistedNameMSFT, ¶ms); assert(!_status && "xrCreateSpatialAnchorFromPersistedNameMSFT"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorHTC(XrSession session, const XrSpatialAnchorCreateInfoHTC *createInfo, XrSpace *anchor) { struct xrCreateSpatialAnchorHTC_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.anchor = anchor; _status = UNIX_CALL(xrCreateSpatialAnchorHTC, ¶ms); assert(!_status && "xrCreateSpatialAnchorHTC"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorMSFT(XrSession session, const XrSpatialAnchorCreateInfoMSFT *createInfo, XrSpatialAnchorMSFT *anchor) { struct xrCreateSpatialAnchorMSFT_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.anchor = anchor; _status = UNIX_CALL(xrCreateSpatialAnchorMSFT, ¶ms); assert(!_status && "xrCreateSpatialAnchorMSFT"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorSpaceMSFT(XrSession session, const XrSpatialAnchorSpaceCreateInfoMSFT *createInfo, XrSpace *space) { struct xrCreateSpatialAnchorSpaceMSFT_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.space = space; _status = UNIX_CALL(xrCreateSpatialAnchorSpaceMSFT, ¶ms); assert(!_status && "xrCreateSpatialAnchorSpaceMSFT"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorStoreConnectionMSFT(XrSession session, XrSpatialAnchorStoreConnectionMSFT *spatialAnchorStore) { struct xrCreateSpatialAnchorStoreConnectionMSFT_params params; NTSTATUS _status; params.session = session; params.spatialAnchorStore = spatialAnchorStore; _status = UNIX_CALL(xrCreateSpatialAnchorStoreConnectionMSFT, ¶ms); assert(!_status && "xrCreateSpatialAnchorStoreConnectionMSFT"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorsAsyncML(XrSession session, const XrSpatialAnchorsCreateInfoBaseHeaderML *createInfo, XrFutureEXT *future) { struct xrCreateSpatialAnchorsAsyncML_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.future = future; _status = UNIX_CALL(xrCreateSpatialAnchorsAsyncML, ¶ms); assert(!_status && "xrCreateSpatialAnchorsAsyncML"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorsCompleteML(XrSession session, XrFutureEXT future, XrCreateSpatialAnchorsCompletionML *completion) { struct xrCreateSpatialAnchorsCompleteML_params params; NTSTATUS _status; params.session = session; params.future = future; params.completion = completion; _status = UNIX_CALL(xrCreateSpatialAnchorsCompleteML, ¶ms); assert(!_status && "xrCreateSpatialAnchorsCompleteML"); return params.result; } XrResult WINAPI xrCreateSpatialAnchorsStorageML(XrSession session, const XrSpatialAnchorsCreateStorageInfoML *createInfo, XrSpatialAnchorsStorageML *storage) { struct xrCreateSpatialAnchorsStorageML_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.storage = storage; _status = UNIX_CALL(xrCreateSpatialAnchorsStorageML, ¶ms); assert(!_status && "xrCreateSpatialAnchorsStorageML"); return params.result; } XrResult WINAPI xrCreateSpatialEntityAnchorBD(XrSenseDataProviderBD provider, const XrSpatialEntityAnchorCreateInfoBD *createInfo, XrAnchorBD *anchor) { struct xrCreateSpatialEntityAnchorBD_params params; NTSTATUS _status; params.provider = provider; params.createInfo = createInfo; params.anchor = anchor; _status = UNIX_CALL(xrCreateSpatialEntityAnchorBD, ¶ms); assert(!_status && "xrCreateSpatialEntityAnchorBD"); return params.result; } XrResult WINAPI xrCreateSpatialGraphNodeSpaceMSFT(XrSession session, const XrSpatialGraphNodeSpaceCreateInfoMSFT *createInfo, XrSpace *space) { struct xrCreateSpatialGraphNodeSpaceMSFT_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.space = space; _status = UNIX_CALL(xrCreateSpatialGraphNodeSpaceMSFT, ¶ms); assert(!_status && "xrCreateSpatialGraphNodeSpaceMSFT"); return params.result; } XrResult WINAPI xrCreateTriangleMeshFB(XrSession session, const XrTriangleMeshCreateInfoFB *createInfo, XrTriangleMeshFB *outTriangleMesh) { struct xrCreateTriangleMeshFB_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.outTriangleMesh = outTriangleMesh; _status = UNIX_CALL(xrCreateTriangleMeshFB, ¶ms); assert(!_status && "xrCreateTriangleMeshFB"); return params.result; } XrResult WINAPI xrCreateVirtualKeyboardMETA(XrSession session, const XrVirtualKeyboardCreateInfoMETA *createInfo, XrVirtualKeyboardMETA *keyboard) { struct xrCreateVirtualKeyboardMETA_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.keyboard = keyboard; _status = UNIX_CALL(xrCreateVirtualKeyboardMETA, ¶ms); assert(!_status && "xrCreateVirtualKeyboardMETA"); return params.result; } XrResult WINAPI xrCreateVirtualKeyboardSpaceMETA(XrSession session, XrVirtualKeyboardMETA keyboard, const XrVirtualKeyboardSpaceCreateInfoMETA *createInfo, XrSpace *keyboardSpace) { struct xrCreateVirtualKeyboardSpaceMETA_params params; NTSTATUS _status; params.session = session; params.keyboard = keyboard; params.createInfo = createInfo; params.keyboardSpace = keyboardSpace; _status = UNIX_CALL(xrCreateVirtualKeyboardSpaceMETA, ¶ms); assert(!_status && "xrCreateVirtualKeyboardSpaceMETA"); return params.result; } XrResult WINAPI xrCreateWorldMeshDetectorML(XrSession session, const XrWorldMeshDetectorCreateInfoML *createInfo, XrWorldMeshDetectorML *detector) { struct xrCreateWorldMeshDetectorML_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.detector = detector; _status = UNIX_CALL(xrCreateWorldMeshDetectorML, ¶ms); assert(!_status && "xrCreateWorldMeshDetectorML"); return params.result; } XrResult WINAPI xrDeleteSpatialAnchorsAsyncML(XrSpatialAnchorsStorageML storage, const XrSpatialAnchorsDeleteInfoML *deleteInfo, XrFutureEXT *future) { struct xrDeleteSpatialAnchorsAsyncML_params params; NTSTATUS _status; params.storage = storage; params.deleteInfo = deleteInfo; params.future = future; _status = UNIX_CALL(xrDeleteSpatialAnchorsAsyncML, ¶ms); assert(!_status && "xrDeleteSpatialAnchorsAsyncML"); return params.result; } XrResult WINAPI xrDeleteSpatialAnchorsCompleteML(XrSpatialAnchorsStorageML storage, XrFutureEXT future, XrSpatialAnchorsDeleteCompletionML *completion) { struct xrDeleteSpatialAnchorsCompleteML_params params; NTSTATUS _status; params.storage = storage; params.future = future; params.completion = completion; _status = UNIX_CALL(xrDeleteSpatialAnchorsCompleteML, ¶ms); assert(!_status && "xrDeleteSpatialAnchorsCompleteML"); return params.result; } XrResult WINAPI xrDeserializeSceneMSFT(XrSceneObserverMSFT sceneObserver, const XrSceneDeserializeInfoMSFT *deserializeInfo) { struct xrDeserializeSceneMSFT_params params; NTSTATUS _status; params.sceneObserver = sceneObserver; params.deserializeInfo = deserializeInfo; _status = UNIX_CALL(xrDeserializeSceneMSFT, ¶ms); assert(!_status && "xrDeserializeSceneMSFT"); return params.result; } XrResult WINAPI xrDestroyAction(XrAction action) { struct xrDestroyAction_params params; NTSTATUS _status; params.action = action; _status = UNIX_CALL(xrDestroyAction, ¶ms); assert(!_status && "xrDestroyAction"); return params.result; } XrResult WINAPI xrDestroyActionSet(XrActionSet actionSet) { struct xrDestroyActionSet_params params; NTSTATUS _status; params.actionSet = actionSet; _status = UNIX_CALL(xrDestroyActionSet, ¶ms); assert(!_status && "xrDestroyActionSet"); return params.result; } XrResult WINAPI xrDestroyAnchorBD(XrAnchorBD anchor) { struct xrDestroyAnchorBD_params params; NTSTATUS _status; params.anchor = anchor; _status = UNIX_CALL(xrDestroyAnchorBD, ¶ms); assert(!_status && "xrDestroyAnchorBD"); return params.result; } XrResult WINAPI xrDestroyBodyTrackerBD(XrBodyTrackerBD bodyTracker) { struct xrDestroyBodyTrackerBD_params params; NTSTATUS _status; params.bodyTracker = bodyTracker; _status = UNIX_CALL(xrDestroyBodyTrackerBD, ¶ms); assert(!_status && "xrDestroyBodyTrackerBD"); return params.result; } XrResult WINAPI xrDestroyBodyTrackerFB(XrBodyTrackerFB bodyTracker) { struct xrDestroyBodyTrackerFB_params params; NTSTATUS _status; params.bodyTracker = bodyTracker; _status = UNIX_CALL(xrDestroyBodyTrackerFB, ¶ms); assert(!_status && "xrDestroyBodyTrackerFB"); return params.result; } XrResult WINAPI xrDestroyBodyTrackerHTC(XrBodyTrackerHTC bodyTracker) { struct xrDestroyBodyTrackerHTC_params params; NTSTATUS _status; params.bodyTracker = bodyTracker; _status = UNIX_CALL(xrDestroyBodyTrackerHTC, ¶ms); assert(!_status && "xrDestroyBodyTrackerHTC"); return params.result; } XrResult WINAPI xrDestroyEnvironmentDepthProviderMETA(XrEnvironmentDepthProviderMETA environmentDepthProvider) { struct xrDestroyEnvironmentDepthProviderMETA_params params; NTSTATUS _status; params.environmentDepthProvider = environmentDepthProvider; _status = UNIX_CALL(xrDestroyEnvironmentDepthProviderMETA, ¶ms); assert(!_status && "xrDestroyEnvironmentDepthProviderMETA"); return params.result; } XrResult WINAPI xrDestroyEnvironmentDepthSwapchainMETA(XrEnvironmentDepthSwapchainMETA swapchain) { struct xrDestroyEnvironmentDepthSwapchainMETA_params params; NTSTATUS _status; params.swapchain = swapchain; _status = UNIX_CALL(xrDestroyEnvironmentDepthSwapchainMETA, ¶ms); assert(!_status && "xrDestroyEnvironmentDepthSwapchainMETA"); return params.result; } XrResult WINAPI xrDestroyExportedLocalizationMapML(XrExportedLocalizationMapML map) { struct xrDestroyExportedLocalizationMapML_params params; NTSTATUS _status; params.map = map; _status = UNIX_CALL(xrDestroyExportedLocalizationMapML, ¶ms); assert(!_status && "xrDestroyExportedLocalizationMapML"); return params.result; } XrResult WINAPI xrDestroyEyeTrackerFB(XrEyeTrackerFB eyeTracker) { struct xrDestroyEyeTrackerFB_params params; NTSTATUS _status; params.eyeTracker = eyeTracker; _status = UNIX_CALL(xrDestroyEyeTrackerFB, ¶ms); assert(!_status && "xrDestroyEyeTrackerFB"); return params.result; } XrResult WINAPI xrDestroyFaceTracker2FB(XrFaceTracker2FB faceTracker) { struct xrDestroyFaceTracker2FB_params params; NTSTATUS _status; params.faceTracker = faceTracker; _status = UNIX_CALL(xrDestroyFaceTracker2FB, ¶ms); assert(!_status && "xrDestroyFaceTracker2FB"); return params.result; } XrResult WINAPI xrDestroyFaceTrackerFB(XrFaceTrackerFB faceTracker) { struct xrDestroyFaceTrackerFB_params params; NTSTATUS _status; params.faceTracker = faceTracker; _status = UNIX_CALL(xrDestroyFaceTrackerFB, ¶ms); assert(!_status && "xrDestroyFaceTrackerFB"); return params.result; } XrResult WINAPI xrDestroyFacialExpressionClientML(XrFacialExpressionClientML facialExpressionClient) { struct xrDestroyFacialExpressionClientML_params params; NTSTATUS _status; params.facialExpressionClient = facialExpressionClient; _status = UNIX_CALL(xrDestroyFacialExpressionClientML, ¶ms); assert(!_status && "xrDestroyFacialExpressionClientML"); return params.result; } XrResult WINAPI xrDestroyFacialTrackerHTC(XrFacialTrackerHTC facialTracker) { struct xrDestroyFacialTrackerHTC_params params; NTSTATUS _status; params.facialTracker = facialTracker; _status = UNIX_CALL(xrDestroyFacialTrackerHTC, ¶ms); assert(!_status && "xrDestroyFacialTrackerHTC"); return params.result; } XrResult WINAPI xrDestroyFoveationProfileFB(XrFoveationProfileFB profile) { struct xrDestroyFoveationProfileFB_params params; NTSTATUS _status; params.profile = profile; _status = UNIX_CALL(xrDestroyFoveationProfileFB, ¶ms); assert(!_status && "xrDestroyFoveationProfileFB"); return params.result; } XrResult WINAPI xrDestroyGeometryInstanceFB(XrGeometryInstanceFB instance) { struct xrDestroyGeometryInstanceFB_params params; NTSTATUS _status; params.instance = instance; _status = UNIX_CALL(xrDestroyGeometryInstanceFB, ¶ms); assert(!_status && "xrDestroyGeometryInstanceFB"); return params.result; } XrResult WINAPI xrDestroyHandTrackerEXT(XrHandTrackerEXT handTracker) { struct xrDestroyHandTrackerEXT_params params; NTSTATUS _status; params.handTracker = handTracker; _status = UNIX_CALL(xrDestroyHandTrackerEXT, ¶ms); assert(!_status && "xrDestroyHandTrackerEXT"); return params.result; } XrResult WINAPI xrDestroyMarkerDetectorML(XrMarkerDetectorML markerDetector) { struct xrDestroyMarkerDetectorML_params params; NTSTATUS _status; params.markerDetector = markerDetector; _status = UNIX_CALL(xrDestroyMarkerDetectorML, ¶ms); assert(!_status && "xrDestroyMarkerDetectorML"); return params.result; } XrResult WINAPI xrDestroyPassthroughColorLutMETA(XrPassthroughColorLutMETA colorLut) { struct xrDestroyPassthroughColorLutMETA_params params; NTSTATUS _status; params.colorLut = colorLut; _status = UNIX_CALL(xrDestroyPassthroughColorLutMETA, ¶ms); assert(!_status && "xrDestroyPassthroughColorLutMETA"); return params.result; } XrResult WINAPI xrDestroyPassthroughFB(XrPassthroughFB passthrough) { struct xrDestroyPassthroughFB_params params; NTSTATUS _status; params.passthrough = passthrough; _status = UNIX_CALL(xrDestroyPassthroughFB, ¶ms); assert(!_status && "xrDestroyPassthroughFB"); return params.result; } XrResult WINAPI xrDestroyPassthroughHTC(XrPassthroughHTC passthrough) { struct xrDestroyPassthroughHTC_params params; NTSTATUS _status; params.passthrough = passthrough; _status = UNIX_CALL(xrDestroyPassthroughHTC, ¶ms); assert(!_status && "xrDestroyPassthroughHTC"); return params.result; } XrResult WINAPI xrDestroyPassthroughLayerFB(XrPassthroughLayerFB layer) { struct xrDestroyPassthroughLayerFB_params params; NTSTATUS _status; params.layer = layer; _status = UNIX_CALL(xrDestroyPassthroughLayerFB, ¶ms); assert(!_status && "xrDestroyPassthroughLayerFB"); return params.result; } XrResult WINAPI xrDestroyPlaneDetectorEXT(XrPlaneDetectorEXT planeDetector) { struct xrDestroyPlaneDetectorEXT_params params; NTSTATUS _status; params.planeDetector = planeDetector; _status = UNIX_CALL(xrDestroyPlaneDetectorEXT, ¶ms); assert(!_status && "xrDestroyPlaneDetectorEXT"); return params.result; } XrResult WINAPI xrDestroySceneMSFT(XrSceneMSFT scene) { struct xrDestroySceneMSFT_params params; NTSTATUS _status; params.scene = scene; _status = UNIX_CALL(xrDestroySceneMSFT, ¶ms); assert(!_status && "xrDestroySceneMSFT"); return params.result; } XrResult WINAPI xrDestroySceneObserverMSFT(XrSceneObserverMSFT sceneObserver) { struct xrDestroySceneObserverMSFT_params params; NTSTATUS _status; params.sceneObserver = sceneObserver; _status = UNIX_CALL(xrDestroySceneObserverMSFT, ¶ms); assert(!_status && "xrDestroySceneObserverMSFT"); return params.result; } XrResult WINAPI xrDestroySenseDataProviderBD(XrSenseDataProviderBD provider) { struct xrDestroySenseDataProviderBD_params params; NTSTATUS _status; params.provider = provider; _status = UNIX_CALL(xrDestroySenseDataProviderBD, ¶ms); assert(!_status && "xrDestroySenseDataProviderBD"); return params.result; } XrResult WINAPI xrDestroySenseDataSnapshotBD(XrSenseDataSnapshotBD snapshot) { struct xrDestroySenseDataSnapshotBD_params params; NTSTATUS _status; params.snapshot = snapshot; _status = UNIX_CALL(xrDestroySenseDataSnapshotBD, ¶ms); assert(!_status && "xrDestroySenseDataSnapshotBD"); return params.result; } XrResult WINAPI xrDestroySpace(XrSpace space) { struct xrDestroySpace_params params; NTSTATUS _status; params.space = space; _status = UNIX_CALL(xrDestroySpace, ¶ms); assert(!_status && "xrDestroySpace"); return params.result; } XrResult WINAPI xrDestroySpaceUserFB(XrSpaceUserFB user) { struct xrDestroySpaceUserFB_params params; NTSTATUS _status; params.user = user; _status = UNIX_CALL(xrDestroySpaceUserFB, ¶ms); assert(!_status && "xrDestroySpaceUserFB"); return params.result; } XrResult WINAPI xrDestroySpatialAnchorMSFT(XrSpatialAnchorMSFT anchor) { struct xrDestroySpatialAnchorMSFT_params params; NTSTATUS _status; params.anchor = anchor; _status = UNIX_CALL(xrDestroySpatialAnchorMSFT, ¶ms); assert(!_status && "xrDestroySpatialAnchorMSFT"); return params.result; } XrResult WINAPI xrDestroySpatialAnchorStoreConnectionMSFT(XrSpatialAnchorStoreConnectionMSFT spatialAnchorStore) { struct xrDestroySpatialAnchorStoreConnectionMSFT_params params; NTSTATUS _status; params.spatialAnchorStore = spatialAnchorStore; _status = UNIX_CALL(xrDestroySpatialAnchorStoreConnectionMSFT, ¶ms); assert(!_status && "xrDestroySpatialAnchorStoreConnectionMSFT"); return params.result; } XrResult WINAPI xrDestroySpatialAnchorsStorageML(XrSpatialAnchorsStorageML storage) { struct xrDestroySpatialAnchorsStorageML_params params; NTSTATUS _status; params.storage = storage; _status = UNIX_CALL(xrDestroySpatialAnchorsStorageML, ¶ms); assert(!_status && "xrDestroySpatialAnchorsStorageML"); return params.result; } XrResult WINAPI xrDestroySpatialGraphNodeBindingMSFT(XrSpatialGraphNodeBindingMSFT nodeBinding) { struct xrDestroySpatialGraphNodeBindingMSFT_params params; NTSTATUS _status; params.nodeBinding = nodeBinding; _status = UNIX_CALL(xrDestroySpatialGraphNodeBindingMSFT, ¶ms); assert(!_status && "xrDestroySpatialGraphNodeBindingMSFT"); return params.result; } XrResult WINAPI xrDestroyTriangleMeshFB(XrTriangleMeshFB mesh) { struct xrDestroyTriangleMeshFB_params params; NTSTATUS _status; params.mesh = mesh; _status = UNIX_CALL(xrDestroyTriangleMeshFB, ¶ms); assert(!_status && "xrDestroyTriangleMeshFB"); return params.result; } XrResult WINAPI xrDestroyVirtualKeyboardMETA(XrVirtualKeyboardMETA keyboard) { struct xrDestroyVirtualKeyboardMETA_params params; NTSTATUS _status; params.keyboard = keyboard; _status = UNIX_CALL(xrDestroyVirtualKeyboardMETA, ¶ms); assert(!_status && "xrDestroyVirtualKeyboardMETA"); return params.result; } XrResult WINAPI xrDestroyWorldMeshDetectorML(XrWorldMeshDetectorML detector) { struct xrDestroyWorldMeshDetectorML_params params; NTSTATUS _status; params.detector = detector; _status = UNIX_CALL(xrDestroyWorldMeshDetectorML, ¶ms); assert(!_status && "xrDestroyWorldMeshDetectorML"); return params.result; } XrResult WINAPI xrDownloadSharedSpatialAnchorAsyncBD(XrSenseDataProviderBD provider, const XrSharedSpatialAnchorDownloadInfoBD *info, XrFutureEXT *future) { struct xrDownloadSharedSpatialAnchorAsyncBD_params params; NTSTATUS _status; params.provider = provider; params.info = info; params.future = future; _status = UNIX_CALL(xrDownloadSharedSpatialAnchorAsyncBD, ¶ms); assert(!_status && "xrDownloadSharedSpatialAnchorAsyncBD"); return params.result; } XrResult WINAPI xrDownloadSharedSpatialAnchorCompleteBD(XrSenseDataProviderBD provider, XrFutureEXT future, XrFutureCompletionEXT *completion) { struct xrDownloadSharedSpatialAnchorCompleteBD_params params; NTSTATUS _status; params.provider = provider; params.future = future; params.completion = completion; _status = UNIX_CALL(xrDownloadSharedSpatialAnchorCompleteBD, ¶ms); assert(!_status && "xrDownloadSharedSpatialAnchorCompleteBD"); return params.result; } XrResult WINAPI xrEnableLocalizationEventsML(XrSession session, const XrLocalizationEnableEventsInfoML *info) { struct xrEnableLocalizationEventsML_params params; NTSTATUS _status; params.session = session; params.info = info; _status = UNIX_CALL(xrEnableLocalizationEventsML, ¶ms); assert(!_status && "xrEnableLocalizationEventsML"); return params.result; } XrResult WINAPI xrEnableUserCalibrationEventsML(XrInstance instance, const XrUserCalibrationEnableEventsInfoML *enableInfo) { struct xrEnableUserCalibrationEventsML_params params; NTSTATUS _status; params.instance = instance; params.enableInfo = enableInfo; _status = UNIX_CALL(xrEnableUserCalibrationEventsML, ¶ms); assert(!_status && "xrEnableUserCalibrationEventsML"); return params.result; } XrResult WINAPI xrEndSession(XrSession session) { struct xrEndSession_params params; NTSTATUS _status; params.session = session; _status = UNIX_CALL(xrEndSession, ¶ms); assert(!_status && "xrEndSession"); return params.result; } XrResult WINAPI xrEnumerateApiLayerProperties(uint32_t propertyCapacityInput, uint32_t *propertyCountOutput, XrApiLayerProperties *properties) { struct xrEnumerateApiLayerProperties_params params; NTSTATUS _status; params.propertyCapacityInput = propertyCapacityInput; params.propertyCountOutput = propertyCountOutput; params.properties = properties; _status = UNIX_CALL(xrEnumerateApiLayerProperties, ¶ms); assert(!_status && "xrEnumerateApiLayerProperties"); return params.result; } XrResult WINAPI xrEnumerateBoundSourcesForAction(XrSession session, const XrBoundSourcesForActionEnumerateInfo *enumerateInfo, uint32_t sourceCapacityInput, uint32_t *sourceCountOutput, XrPath *sources) { struct xrEnumerateBoundSourcesForAction_params params; NTSTATUS _status; params.session = session; params.enumerateInfo = enumerateInfo; params.sourceCapacityInput = sourceCapacityInput; params.sourceCountOutput = sourceCountOutput; params.sources = sources; _status = UNIX_CALL(xrEnumerateBoundSourcesForAction, ¶ms); assert(!_status && "xrEnumerateBoundSourcesForAction"); return params.result; } XrResult WINAPI xrEnumerateColorSpacesFB(XrSession session, uint32_t colorSpaceCapacityInput, uint32_t *colorSpaceCountOutput, XrColorSpaceFB *colorSpaces) { struct xrEnumerateColorSpacesFB_params params; NTSTATUS _status; params.session = session; params.colorSpaceCapacityInput = colorSpaceCapacityInput; params.colorSpaceCountOutput = colorSpaceCountOutput; params.colorSpaces = colorSpaces; _status = UNIX_CALL(xrEnumerateColorSpacesFB, ¶ms); assert(!_status && "xrEnumerateColorSpacesFB"); return params.result; } XrResult WINAPI xrEnumerateDisplayRefreshRatesFB(XrSession session, uint32_t displayRefreshRateCapacityInput, uint32_t *displayRefreshRateCountOutput, float *displayRefreshRates) { struct xrEnumerateDisplayRefreshRatesFB_params params; NTSTATUS _status; params.session = session; params.displayRefreshRateCapacityInput = displayRefreshRateCapacityInput; params.displayRefreshRateCountOutput = displayRefreshRateCountOutput; params.displayRefreshRates = displayRefreshRates; _status = UNIX_CALL(xrEnumerateDisplayRefreshRatesFB, ¶ms); assert(!_status && "xrEnumerateDisplayRefreshRatesFB"); return params.result; } XrResult WINAPI xrEnumerateEnvironmentBlendModes(XrInstance instance, XrSystemId systemId, XrViewConfigurationType viewConfigurationType, uint32_t environmentBlendModeCapacityInput, uint32_t *environmentBlendModeCountOutput, XrEnvironmentBlendMode *environmentBlendModes) { struct xrEnumerateEnvironmentBlendModes_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.viewConfigurationType = viewConfigurationType; params.environmentBlendModeCapacityInput = environmentBlendModeCapacityInput; params.environmentBlendModeCountOutput = environmentBlendModeCountOutput; params.environmentBlendModes = environmentBlendModes; _status = UNIX_CALL(xrEnumerateEnvironmentBlendModes, ¶ms); assert(!_status && "xrEnumerateEnvironmentBlendModes"); return params.result; } XrResult WINAPI xrEnumerateEnvironmentDepthSwapchainImagesMETA(XrEnvironmentDepthSwapchainMETA swapchain, uint32_t imageCapacityInput, uint32_t *imageCountOutput, XrSwapchainImageBaseHeader *images) { struct xrEnumerateEnvironmentDepthSwapchainImagesMETA_params params; NTSTATUS _status; params.swapchain = swapchain; params.imageCapacityInput = imageCapacityInput; params.imageCountOutput = imageCountOutput; params.images = images; _status = UNIX_CALL(xrEnumerateEnvironmentDepthSwapchainImagesMETA, ¶ms); assert(!_status && "xrEnumerateEnvironmentDepthSwapchainImagesMETA"); return params.result; } XrResult WINAPI xrEnumerateExternalCamerasOCULUS(XrSession session, uint32_t cameraCapacityInput, uint32_t *cameraCountOutput, XrExternalCameraOCULUS *cameras) { struct xrEnumerateExternalCamerasOCULUS_params params; NTSTATUS _status; params.session = session; params.cameraCapacityInput = cameraCapacityInput; params.cameraCountOutput = cameraCountOutput; params.cameras = cameras; _status = UNIX_CALL(xrEnumerateExternalCamerasOCULUS, ¶ms); assert(!_status && "xrEnumerateExternalCamerasOCULUS"); return params.result; } XrResult WINAPI xrEnumerateInstanceExtensionProperties(const char *layerName, uint32_t propertyCapacityInput, uint32_t *propertyCountOutput, XrExtensionProperties *properties) { struct xrEnumerateInstanceExtensionProperties_params params; NTSTATUS _status; params.layerName = layerName; params.propertyCapacityInput = propertyCapacityInput; params.propertyCountOutput = propertyCountOutput; params.properties = properties; _status = UNIX_CALL(xrEnumerateInstanceExtensionProperties, ¶ms); assert(!_status && "xrEnumerateInstanceExtensionProperties"); return params.result; } XrResult WINAPI xrEnumeratePerformanceMetricsCounterPathsMETA(XrInstance instance, uint32_t counterPathCapacityInput, uint32_t *counterPathCountOutput, XrPath *counterPaths) { struct xrEnumeratePerformanceMetricsCounterPathsMETA_params params; NTSTATUS _status; params.instance = instance; params.counterPathCapacityInput = counterPathCapacityInput; params.counterPathCountOutput = counterPathCountOutput; params.counterPaths = counterPaths; _status = UNIX_CALL(xrEnumeratePerformanceMetricsCounterPathsMETA, ¶ms); assert(!_status && "xrEnumeratePerformanceMetricsCounterPathsMETA"); return params.result; } XrResult WINAPI xrEnumeratePersistedSpatialAnchorNamesMSFT(XrSpatialAnchorStoreConnectionMSFT spatialAnchorStore, uint32_t spatialAnchorNameCapacityInput, uint32_t *spatialAnchorNameCountOutput, XrSpatialAnchorPersistenceNameMSFT *spatialAnchorNames) { struct xrEnumeratePersistedSpatialAnchorNamesMSFT_params params; NTSTATUS _status; params.spatialAnchorStore = spatialAnchorStore; params.spatialAnchorNameCapacityInput = spatialAnchorNameCapacityInput; params.spatialAnchorNameCountOutput = spatialAnchorNameCountOutput; params.spatialAnchorNames = spatialAnchorNames; _status = UNIX_CALL(xrEnumeratePersistedSpatialAnchorNamesMSFT, ¶ms); assert(!_status && "xrEnumeratePersistedSpatialAnchorNamesMSFT"); return params.result; } XrResult WINAPI xrEnumerateReferenceSpaces(XrSession session, uint32_t spaceCapacityInput, uint32_t *spaceCountOutput, XrReferenceSpaceType *spaces) { struct xrEnumerateReferenceSpaces_params params; NTSTATUS _status; params.session = session; params.spaceCapacityInput = spaceCapacityInput; params.spaceCountOutput = spaceCountOutput; params.spaces = spaces; _status = UNIX_CALL(xrEnumerateReferenceSpaces, ¶ms); assert(!_status && "xrEnumerateReferenceSpaces"); return params.result; } XrResult WINAPI xrEnumerateRenderModelPathsFB(XrSession session, uint32_t pathCapacityInput, uint32_t *pathCountOutput, XrRenderModelPathInfoFB *paths) { struct xrEnumerateRenderModelPathsFB_params params; NTSTATUS _status; params.session = session; params.pathCapacityInput = pathCapacityInput; params.pathCountOutput = pathCountOutput; params.paths = paths; _status = UNIX_CALL(xrEnumerateRenderModelPathsFB, ¶ms); assert(!_status && "xrEnumerateRenderModelPathsFB"); return params.result; } XrResult WINAPI xrEnumerateReprojectionModesMSFT(XrInstance instance, XrSystemId systemId, XrViewConfigurationType viewConfigurationType, uint32_t modeCapacityInput, uint32_t *modeCountOutput, XrReprojectionModeMSFT *modes) { struct xrEnumerateReprojectionModesMSFT_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.viewConfigurationType = viewConfigurationType; params.modeCapacityInput = modeCapacityInput; params.modeCountOutput = modeCountOutput; params.modes = modes; _status = UNIX_CALL(xrEnumerateReprojectionModesMSFT, ¶ms); assert(!_status && "xrEnumerateReprojectionModesMSFT"); return params.result; } XrResult WINAPI xrEnumerateSceneComputeFeaturesMSFT(XrInstance instance, XrSystemId systemId, uint32_t featureCapacityInput, uint32_t *featureCountOutput, XrSceneComputeFeatureMSFT *features) { struct xrEnumerateSceneComputeFeaturesMSFT_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.featureCapacityInput = featureCapacityInput; params.featureCountOutput = featureCountOutput; params.features = features; _status = UNIX_CALL(xrEnumerateSceneComputeFeaturesMSFT, ¶ms); assert(!_status && "xrEnumerateSceneComputeFeaturesMSFT"); return params.result; } XrResult WINAPI xrEnumerateSpaceSupportedComponentsFB(XrSpace space, uint32_t componentTypeCapacityInput, uint32_t *componentTypeCountOutput, XrSpaceComponentTypeFB *componentTypes) { struct xrEnumerateSpaceSupportedComponentsFB_params params; NTSTATUS _status; params.space = space; params.componentTypeCapacityInput = componentTypeCapacityInput; params.componentTypeCountOutput = componentTypeCountOutput; params.componentTypes = componentTypes; _status = UNIX_CALL(xrEnumerateSpaceSupportedComponentsFB, ¶ms); assert(!_status && "xrEnumerateSpaceSupportedComponentsFB"); return params.result; } XrResult WINAPI xrEnumerateSpatialEntityComponentTypesBD(XrSenseDataSnapshotBD snapshot, XrSpatialEntityIdBD entityId, uint32_t componentTypeCapacityInput, uint32_t *componentTypeCountOutput, XrSpatialEntityComponentTypeBD *componentTypes) { struct xrEnumerateSpatialEntityComponentTypesBD_params params; NTSTATUS _status; params.snapshot = snapshot; params.entityId = entityId; params.componentTypeCapacityInput = componentTypeCapacityInput; params.componentTypeCountOutput = componentTypeCountOutput; params.componentTypes = componentTypes; _status = UNIX_CALL(xrEnumerateSpatialEntityComponentTypesBD, ¶ms); assert(!_status && "xrEnumerateSpatialEntityComponentTypesBD"); return params.result; } XrResult WINAPI xrEnumerateViewConfigurationViews(XrInstance instance, XrSystemId systemId, XrViewConfigurationType viewConfigurationType, uint32_t viewCapacityInput, uint32_t *viewCountOutput, XrViewConfigurationView *views) { struct xrEnumerateViewConfigurationViews_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.viewConfigurationType = viewConfigurationType; params.viewCapacityInput = viewCapacityInput; params.viewCountOutput = viewCountOutput; params.views = views; _status = UNIX_CALL(xrEnumerateViewConfigurationViews, ¶ms); assert(!_status && "xrEnumerateViewConfigurationViews"); return params.result; } XrResult WINAPI xrEnumerateViewConfigurations(XrInstance instance, XrSystemId systemId, uint32_t viewConfigurationTypeCapacityInput, uint32_t *viewConfigurationTypeCountOutput, XrViewConfigurationType *viewConfigurationTypes) { struct xrEnumerateViewConfigurations_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.viewConfigurationTypeCapacityInput = viewConfigurationTypeCapacityInput; params.viewConfigurationTypeCountOutput = viewConfigurationTypeCountOutput; params.viewConfigurationTypes = viewConfigurationTypes; _status = UNIX_CALL(xrEnumerateViewConfigurations, ¶ms); assert(!_status && "xrEnumerateViewConfigurations"); return params.result; } XrResult WINAPI xrEnumerateViveTrackerPathsHTCX(XrInstance instance, uint32_t pathCapacityInput, uint32_t *pathCountOutput, XrViveTrackerPathsHTCX *paths) { struct xrEnumerateViveTrackerPathsHTCX_params params; NTSTATUS _status; params.instance = instance; params.pathCapacityInput = pathCapacityInput; params.pathCountOutput = pathCountOutput; params.paths = paths; _status = UNIX_CALL(xrEnumerateViveTrackerPathsHTCX, ¶ms); assert(!_status && "xrEnumerateViveTrackerPathsHTCX"); return params.result; } XrResult WINAPI xrEraseSpaceFB(XrSession session, const XrSpaceEraseInfoFB *info, XrAsyncRequestIdFB *requestId) { struct xrEraseSpaceFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrEraseSpaceFB, ¶ms); assert(!_status && "xrEraseSpaceFB"); return params.result; } XrResult WINAPI xrFreeWorldMeshBufferML(XrWorldMeshDetectorML detector, const XrWorldMeshBufferML *buffer) { struct xrFreeWorldMeshBufferML_params params; NTSTATUS _status; params.detector = detector; params.buffer = buffer; _status = UNIX_CALL(xrFreeWorldMeshBufferML, ¶ms); assert(!_status && "xrFreeWorldMeshBufferML"); return params.result; } XrResult WINAPI xrGeometryInstanceSetTransformFB(XrGeometryInstanceFB instance, const XrGeometryInstanceTransformFB *transformation) { struct xrGeometryInstanceSetTransformFB_params params; NTSTATUS _status; params.instance = instance; params.transformation = transformation; _status = UNIX_CALL(xrGeometryInstanceSetTransformFB, ¶ms); assert(!_status && "xrGeometryInstanceSetTransformFB"); return params.result; } XrResult WINAPI xrGetActionStateBoolean(XrSession session, const XrActionStateGetInfo *getInfo, XrActionStateBoolean *state) { struct xrGetActionStateBoolean_params params; NTSTATUS _status; params.session = session; params.getInfo = getInfo; params.state = state; _status = UNIX_CALL(xrGetActionStateBoolean, ¶ms); assert(!_status && "xrGetActionStateBoolean"); return params.result; } XrResult WINAPI xrGetActionStateFloat(XrSession session, const XrActionStateGetInfo *getInfo, XrActionStateFloat *state) { struct xrGetActionStateFloat_params params; NTSTATUS _status; params.session = session; params.getInfo = getInfo; params.state = state; _status = UNIX_CALL(xrGetActionStateFloat, ¶ms); assert(!_status && "xrGetActionStateFloat"); return params.result; } XrResult WINAPI xrGetActionStatePose(XrSession session, const XrActionStateGetInfo *getInfo, XrActionStatePose *state) { struct xrGetActionStatePose_params params; NTSTATUS _status; params.session = session; params.getInfo = getInfo; params.state = state; _status = UNIX_CALL(xrGetActionStatePose, ¶ms); assert(!_status && "xrGetActionStatePose"); return params.result; } XrResult WINAPI xrGetActionStateVector2f(XrSession session, const XrActionStateGetInfo *getInfo, XrActionStateVector2f *state) { struct xrGetActionStateVector2f_params params; NTSTATUS _status; params.session = session; params.getInfo = getInfo; params.state = state; _status = UNIX_CALL(xrGetActionStateVector2f, ¶ms); assert(!_status && "xrGetActionStateVector2f"); return params.result; } XrResult WINAPI xrGetAnchorUuidBD(XrAnchorBD anchor, XrUuidEXT *uuid) { struct xrGetAnchorUuidBD_params params; NTSTATUS _status; params.anchor = anchor; params.uuid = uuid; _status = UNIX_CALL(xrGetAnchorUuidBD, ¶ms); assert(!_status && "xrGetAnchorUuidBD"); return params.result; } XrResult WINAPI xrGetAudioInputDeviceGuidOculus(XrInstance instance, wchar_t buffer[]) { struct xrGetAudioInputDeviceGuidOculus_params params; NTSTATUS _status; params.instance = instance; params.buffer = buffer; _status = UNIX_CALL(xrGetAudioInputDeviceGuidOculus, ¶ms); assert(!_status && "xrGetAudioInputDeviceGuidOculus"); return params.result; } XrResult WINAPI xrGetAudioOutputDeviceGuidOculus(XrInstance instance, wchar_t buffer[]) { struct xrGetAudioOutputDeviceGuidOculus_params params; NTSTATUS _status; params.instance = instance; params.buffer = buffer; _status = UNIX_CALL(xrGetAudioOutputDeviceGuidOculus, ¶ms); assert(!_status && "xrGetAudioOutputDeviceGuidOculus"); return params.result; } XrResult WINAPI xrGetBodySkeletonFB(XrBodyTrackerFB bodyTracker, XrBodySkeletonFB *skeleton) { struct xrGetBodySkeletonFB_params params; NTSTATUS _status; params.bodyTracker = bodyTracker; params.skeleton = skeleton; _status = UNIX_CALL(xrGetBodySkeletonFB, ¶ms); assert(!_status && "xrGetBodySkeletonFB"); return params.result; } XrResult WINAPI xrGetBodySkeletonHTC(XrBodyTrackerHTC bodyTracker, XrSpace baseSpace, uint32_t skeletonGenerationId, XrBodySkeletonHTC *skeleton) { struct xrGetBodySkeletonHTC_params params; NTSTATUS _status; params.bodyTracker = bodyTracker; params.baseSpace = baseSpace; params.skeletonGenerationId = skeletonGenerationId; params.skeleton = skeleton; _status = UNIX_CALL(xrGetBodySkeletonHTC, ¶ms); assert(!_status && "xrGetBodySkeletonHTC"); return params.result; } XrResult WINAPI xrGetControllerModelKeyMSFT(XrSession session, XrPath topLevelUserPath, XrControllerModelKeyStateMSFT *controllerModelKeyState) { struct xrGetControllerModelKeyMSFT_params params; NTSTATUS _status; params.session = session; params.topLevelUserPath = topLevelUserPath; params.controllerModelKeyState = controllerModelKeyState; _status = UNIX_CALL(xrGetControllerModelKeyMSFT, ¶ms); assert(!_status && "xrGetControllerModelKeyMSFT"); return params.result; } XrResult WINAPI xrGetControllerModelPropertiesMSFT(XrSession session, XrControllerModelKeyMSFT modelKey, XrControllerModelPropertiesMSFT *properties) { struct xrGetControllerModelPropertiesMSFT_params params; NTSTATUS _status; params.session = session; params.modelKey = modelKey; params.properties = properties; _status = UNIX_CALL(xrGetControllerModelPropertiesMSFT, ¶ms); assert(!_status && "xrGetControllerModelPropertiesMSFT"); return params.result; } XrResult WINAPI xrGetControllerModelStateMSFT(XrSession session, XrControllerModelKeyMSFT modelKey, XrControllerModelStateMSFT *state) { struct xrGetControllerModelStateMSFT_params params; NTSTATUS _status; params.session = session; params.modelKey = modelKey; params.state = state; _status = UNIX_CALL(xrGetControllerModelStateMSFT, ¶ms); assert(!_status && "xrGetControllerModelStateMSFT"); return params.result; } XrResult WINAPI xrGetCurrentInteractionProfile(XrSession session, XrPath topLevelUserPath, XrInteractionProfileState *interactionProfile) { struct xrGetCurrentInteractionProfile_params params; NTSTATUS _status; params.session = session; params.topLevelUserPath = topLevelUserPath; params.interactionProfile = interactionProfile; _status = UNIX_CALL(xrGetCurrentInteractionProfile, ¶ms); assert(!_status && "xrGetCurrentInteractionProfile"); return params.result; } XrResult WINAPI xrGetDeviceSampleRateFB(XrSession session, const XrHapticActionInfo *hapticActionInfo, XrDevicePcmSampleRateGetInfoFB *deviceSampleRate) { struct xrGetDeviceSampleRateFB_params params; NTSTATUS _status; params.session = session; params.hapticActionInfo = hapticActionInfo; params.deviceSampleRate = deviceSampleRate; _status = UNIX_CALL(xrGetDeviceSampleRateFB, ¶ms); assert(!_status && "xrGetDeviceSampleRateFB"); return params.result; } XrResult WINAPI xrGetDisplayRefreshRateFB(XrSession session, float *displayRefreshRate) { struct xrGetDisplayRefreshRateFB_params params; NTSTATUS _status; params.session = session; params.displayRefreshRate = displayRefreshRate; _status = UNIX_CALL(xrGetDisplayRefreshRateFB, ¶ms); assert(!_status && "xrGetDisplayRefreshRateFB"); return params.result; } XrResult WINAPI xrGetEnvironmentDepthSwapchainStateMETA(XrEnvironmentDepthSwapchainMETA swapchain, XrEnvironmentDepthSwapchainStateMETA *state) { struct xrGetEnvironmentDepthSwapchainStateMETA_params params; NTSTATUS _status; params.swapchain = swapchain; params.state = state; _status = UNIX_CALL(xrGetEnvironmentDepthSwapchainStateMETA, ¶ms); assert(!_status && "xrGetEnvironmentDepthSwapchainStateMETA"); return params.result; } XrResult WINAPI xrGetExportedLocalizationMapDataML(XrExportedLocalizationMapML map, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, char *buffer) { struct xrGetExportedLocalizationMapDataML_params params; NTSTATUS _status; params.map = map; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrGetExportedLocalizationMapDataML, ¶ms); assert(!_status && "xrGetExportedLocalizationMapDataML"); return params.result; } XrResult WINAPI xrGetEyeGazesFB(XrEyeTrackerFB eyeTracker, const XrEyeGazesInfoFB *gazeInfo, XrEyeGazesFB *eyeGazes) { struct xrGetEyeGazesFB_params params; NTSTATUS _status; params.eyeTracker = eyeTracker; params.gazeInfo = gazeInfo; params.eyeGazes = eyeGazes; _status = UNIX_CALL(xrGetEyeGazesFB, ¶ms); assert(!_status && "xrGetEyeGazesFB"); return params.result; } XrResult WINAPI xrGetFaceExpressionWeights2FB(XrFaceTracker2FB faceTracker, const XrFaceExpressionInfo2FB *expressionInfo, XrFaceExpressionWeights2FB *expressionWeights) { struct xrGetFaceExpressionWeights2FB_params params; NTSTATUS _status; params.faceTracker = faceTracker; params.expressionInfo = expressionInfo; params.expressionWeights = expressionWeights; _status = UNIX_CALL(xrGetFaceExpressionWeights2FB, ¶ms); assert(!_status && "xrGetFaceExpressionWeights2FB"); return params.result; } XrResult WINAPI xrGetFaceExpressionWeightsFB(XrFaceTrackerFB faceTracker, const XrFaceExpressionInfoFB *expressionInfo, XrFaceExpressionWeightsFB *expressionWeights) { struct xrGetFaceExpressionWeightsFB_params params; NTSTATUS _status; params.faceTracker = faceTracker; params.expressionInfo = expressionInfo; params.expressionWeights = expressionWeights; _status = UNIX_CALL(xrGetFaceExpressionWeightsFB, ¶ms); assert(!_status && "xrGetFaceExpressionWeightsFB"); return params.result; } XrResult WINAPI xrGetFacialExpressionBlendShapePropertiesML(XrFacialExpressionClientML facialExpressionClient, const XrFacialExpressionBlendShapeGetInfoML *blendShapeGetInfo, uint32_t blendShapeCount, XrFacialExpressionBlendShapePropertiesML *blendShapes) { struct xrGetFacialExpressionBlendShapePropertiesML_params params; NTSTATUS _status; params.facialExpressionClient = facialExpressionClient; params.blendShapeGetInfo = blendShapeGetInfo; params.blendShapeCount = blendShapeCount; params.blendShapes = blendShapes; _status = UNIX_CALL(xrGetFacialExpressionBlendShapePropertiesML, ¶ms); assert(!_status && "xrGetFacialExpressionBlendShapePropertiesML"); return params.result; } XrResult WINAPI xrGetFacialExpressionsHTC(XrFacialTrackerHTC facialTracker, XrFacialExpressionsHTC *facialExpressions) { struct xrGetFacialExpressionsHTC_params params; NTSTATUS _status; params.facialTracker = facialTracker; params.facialExpressions = facialExpressions; _status = UNIX_CALL(xrGetFacialExpressionsHTC, ¶ms); assert(!_status && "xrGetFacialExpressionsHTC"); return params.result; } XrResult WINAPI xrGetFoveationEyeTrackedStateMETA(XrSession session, XrFoveationEyeTrackedStateMETA *foveationState) { struct xrGetFoveationEyeTrackedStateMETA_params params; NTSTATUS _status; params.session = session; params.foveationState = foveationState; _status = UNIX_CALL(xrGetFoveationEyeTrackedStateMETA, ¶ms); assert(!_status && "xrGetFoveationEyeTrackedStateMETA"); return params.result; } XrResult WINAPI xrGetHandMeshFB(XrHandTrackerEXT handTracker, XrHandTrackingMeshFB *mesh) { struct xrGetHandMeshFB_params params; NTSTATUS _status; params.handTracker = handTracker; params.mesh = mesh; _status = UNIX_CALL(xrGetHandMeshFB, ¶ms); assert(!_status && "xrGetHandMeshFB"); return params.result; } XrResult WINAPI xrGetInputSourceLocalizedName(XrSession session, const XrInputSourceLocalizedNameGetInfo *getInfo, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, char *buffer) { struct xrGetInputSourceLocalizedName_params params; NTSTATUS _status; params.session = session; params.getInfo = getInfo; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrGetInputSourceLocalizedName, ¶ms); assert(!_status && "xrGetInputSourceLocalizedName"); return params.result; } XrResult WINAPI xrGetInstanceProperties(XrInstance instance, XrInstanceProperties *instanceProperties) { struct xrGetInstanceProperties_params params; NTSTATUS _status; params.instance = instance; params.instanceProperties = instanceProperties; _status = UNIX_CALL(xrGetInstanceProperties, ¶ms); assert(!_status && "xrGetInstanceProperties"); return params.result; } XrResult WINAPI xrGetMarkerDetectorStateML(XrMarkerDetectorML markerDetector, XrMarkerDetectorStateML *state) { struct xrGetMarkerDetectorStateML_params params; NTSTATUS _status; params.markerDetector = markerDetector; params.state = state; _status = UNIX_CALL(xrGetMarkerDetectorStateML, ¶ms); assert(!_status && "xrGetMarkerDetectorStateML"); return params.result; } XrResult WINAPI xrGetMarkerLengthML(XrMarkerDetectorML markerDetector, XrMarkerML marker, float *meters) { struct xrGetMarkerLengthML_params params; NTSTATUS _status; params.markerDetector = markerDetector; params.marker = marker; params.meters = meters; _status = UNIX_CALL(xrGetMarkerLengthML, ¶ms); assert(!_status && "xrGetMarkerLengthML"); return params.result; } XrResult WINAPI xrGetMarkerNumberML(XrMarkerDetectorML markerDetector, XrMarkerML marker, uint64_t *number) { struct xrGetMarkerNumberML_params params; NTSTATUS _status; params.markerDetector = markerDetector; params.marker = marker; params.number = number; _status = UNIX_CALL(xrGetMarkerNumberML, ¶ms); assert(!_status && "xrGetMarkerNumberML"); return params.result; } XrResult WINAPI xrGetMarkerReprojectionErrorML(XrMarkerDetectorML markerDetector, XrMarkerML marker, float *reprojectionErrorMeters) { struct xrGetMarkerReprojectionErrorML_params params; NTSTATUS _status; params.markerDetector = markerDetector; params.marker = marker; params.reprojectionErrorMeters = reprojectionErrorMeters; _status = UNIX_CALL(xrGetMarkerReprojectionErrorML, ¶ms); assert(!_status && "xrGetMarkerReprojectionErrorML"); return params.result; } XrResult WINAPI xrGetMarkerSizeVARJO(XrSession session, uint64_t markerId, XrExtent2Df *size) { struct xrGetMarkerSizeVARJO_params params; NTSTATUS _status; params.session = session; params.markerId = markerId; params.size = size; _status = UNIX_CALL(xrGetMarkerSizeVARJO, ¶ms); assert(!_status && "xrGetMarkerSizeVARJO"); return params.result; } XrResult WINAPI xrGetMarkerStringML(XrMarkerDetectorML markerDetector, XrMarkerML marker, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, char *buffer) { struct xrGetMarkerStringML_params params; NTSTATUS _status; params.markerDetector = markerDetector; params.marker = marker; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrGetMarkerStringML, ¶ms); assert(!_status && "xrGetMarkerStringML"); return params.result; } XrResult WINAPI xrGetMarkersML(XrMarkerDetectorML markerDetector, uint32_t markerCapacityInput, uint32_t *markerCountOutput, XrMarkerML *markers) { struct xrGetMarkersML_params params; NTSTATUS _status; params.markerDetector = markerDetector; params.markerCapacityInput = markerCapacityInput; params.markerCountOutput = markerCountOutput; params.markers = markers; _status = UNIX_CALL(xrGetMarkersML, ¶ms); assert(!_status && "xrGetMarkersML"); return params.result; } XrResult WINAPI xrGetOpenGLGraphicsRequirementsKHR(XrInstance instance, XrSystemId systemId, XrGraphicsRequirementsOpenGLKHR *graphicsRequirements) { struct xrGetOpenGLGraphicsRequirementsKHR_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.graphicsRequirements = graphicsRequirements; _status = UNIX_CALL(xrGetOpenGLGraphicsRequirementsKHR, ¶ms); assert(!_status && "xrGetOpenGLGraphicsRequirementsKHR"); return params.result; } XrResult WINAPI xrGetPassthroughPreferencesMETA(XrSession session, XrPassthroughPreferencesMETA *preferences) { struct xrGetPassthroughPreferencesMETA_params params; NTSTATUS _status; params.session = session; params.preferences = preferences; _status = UNIX_CALL(xrGetPassthroughPreferencesMETA, ¶ms); assert(!_status && "xrGetPassthroughPreferencesMETA"); return params.result; } XrResult WINAPI xrGetPerformanceMetricsStateMETA(XrSession session, XrPerformanceMetricsStateMETA *state) { struct xrGetPerformanceMetricsStateMETA_params params; NTSTATUS _status; params.session = session; params.state = state; _status = UNIX_CALL(xrGetPerformanceMetricsStateMETA, ¶ms); assert(!_status && "xrGetPerformanceMetricsStateMETA"); return params.result; } XrResult WINAPI xrGetPlaneDetectionStateEXT(XrPlaneDetectorEXT planeDetector, XrPlaneDetectionStateEXT *state) { struct xrGetPlaneDetectionStateEXT_params params; NTSTATUS _status; params.planeDetector = planeDetector; params.state = state; _status = UNIX_CALL(xrGetPlaneDetectionStateEXT, ¶ms); assert(!_status && "xrGetPlaneDetectionStateEXT"); return params.result; } XrResult WINAPI xrGetPlaneDetectionsEXT(XrPlaneDetectorEXT planeDetector, const XrPlaneDetectorGetInfoEXT *info, XrPlaneDetectorLocationsEXT *locations) { struct xrGetPlaneDetectionsEXT_params params; NTSTATUS _status; params.planeDetector = planeDetector; params.info = info; params.locations = locations; _status = UNIX_CALL(xrGetPlaneDetectionsEXT, ¶ms); assert(!_status && "xrGetPlaneDetectionsEXT"); return params.result; } XrResult WINAPI xrGetPlanePolygonBufferEXT(XrPlaneDetectorEXT planeDetector, uint64_t planeId, uint32_t polygonBufferIndex, XrPlaneDetectorPolygonBufferEXT *polygonBuffer) { struct xrGetPlanePolygonBufferEXT_params params; NTSTATUS _status; params.planeDetector = planeDetector; params.planeId = planeId; params.polygonBufferIndex = polygonBufferIndex; params.polygonBuffer = polygonBuffer; _status = UNIX_CALL(xrGetPlanePolygonBufferEXT, ¶ms); assert(!_status && "xrGetPlanePolygonBufferEXT"); return params.result; } XrResult WINAPI xrGetQueriedSenseDataBD(XrSenseDataSnapshotBD snapshot, XrQueriedSenseDataGetInfoBD *getInfo, XrQueriedSenseDataBD *queriedSenseData) { struct xrGetQueriedSenseDataBD_params params; NTSTATUS _status; params.snapshot = snapshot; params.getInfo = getInfo; params.queriedSenseData = queriedSenseData; _status = UNIX_CALL(xrGetQueriedSenseDataBD, ¶ms); assert(!_status && "xrGetQueriedSenseDataBD"); return params.result; } XrResult WINAPI xrGetRecommendedLayerResolutionMETA(XrSession session, const XrRecommendedLayerResolutionGetInfoMETA *info, XrRecommendedLayerResolutionMETA *resolution) { struct xrGetRecommendedLayerResolutionMETA_params params; NTSTATUS _status; params.session = session; params.info = info; params.resolution = resolution; _status = UNIX_CALL(xrGetRecommendedLayerResolutionMETA, ¶ms); assert(!_status && "xrGetRecommendedLayerResolutionMETA"); return params.result; } XrResult WINAPI xrGetReferenceSpaceBoundsRect(XrSession session, XrReferenceSpaceType referenceSpaceType, XrExtent2Df *bounds) { struct xrGetReferenceSpaceBoundsRect_params params; NTSTATUS _status; params.session = session; params.referenceSpaceType = referenceSpaceType; params.bounds = bounds; _status = UNIX_CALL(xrGetReferenceSpaceBoundsRect, ¶ms); assert(!_status && "xrGetReferenceSpaceBoundsRect"); return params.result; } XrResult WINAPI xrGetRenderModelPropertiesFB(XrSession session, XrPath path, XrRenderModelPropertiesFB *properties) { struct xrGetRenderModelPropertiesFB_params params; NTSTATUS _status; params.session = session; params.path = path; params.properties = properties; _status = UNIX_CALL(xrGetRenderModelPropertiesFB, ¶ms); assert(!_status && "xrGetRenderModelPropertiesFB"); return params.result; } XrResult WINAPI xrGetSceneComponentsMSFT(XrSceneMSFT scene, const XrSceneComponentsGetInfoMSFT *getInfo, XrSceneComponentsMSFT *components) { struct xrGetSceneComponentsMSFT_params params; NTSTATUS _status; params.scene = scene; params.getInfo = getInfo; params.components = components; _status = UNIX_CALL(xrGetSceneComponentsMSFT, ¶ms); assert(!_status && "xrGetSceneComponentsMSFT"); return params.result; } XrResult WINAPI xrGetSceneComputeStateMSFT(XrSceneObserverMSFT sceneObserver, XrSceneComputeStateMSFT *state) { struct xrGetSceneComputeStateMSFT_params params; NTSTATUS _status; params.sceneObserver = sceneObserver; params.state = state; _status = UNIX_CALL(xrGetSceneComputeStateMSFT, ¶ms); assert(!_status && "xrGetSceneComputeStateMSFT"); return params.result; } XrResult WINAPI xrGetSceneMarkerDecodedStringMSFT(XrSceneMSFT scene, const XrUuidMSFT *markerId, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, char *buffer) { struct xrGetSceneMarkerDecodedStringMSFT_params params; NTSTATUS _status; params.scene = scene; params.markerId = markerId; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrGetSceneMarkerDecodedStringMSFT, ¶ms); assert(!_status && "xrGetSceneMarkerDecodedStringMSFT"); return params.result; } XrResult WINAPI xrGetSceneMarkerRawDataMSFT(XrSceneMSFT scene, const XrUuidMSFT *markerId, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, uint8_t *buffer) { struct xrGetSceneMarkerRawDataMSFT_params params; NTSTATUS _status; params.scene = scene; params.markerId = markerId; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrGetSceneMarkerRawDataMSFT, ¶ms); assert(!_status && "xrGetSceneMarkerRawDataMSFT"); return params.result; } XrResult WINAPI xrGetSceneMeshBuffersMSFT(XrSceneMSFT scene, const XrSceneMeshBuffersGetInfoMSFT *getInfo, XrSceneMeshBuffersMSFT *buffers) { struct xrGetSceneMeshBuffersMSFT_params params; NTSTATUS _status; params.scene = scene; params.getInfo = getInfo; params.buffers = buffers; _status = UNIX_CALL(xrGetSceneMeshBuffersMSFT, ¶ms); assert(!_status && "xrGetSceneMeshBuffersMSFT"); return params.result; } XrResult WINAPI xrGetSenseDataProviderStateBD(XrSenseDataProviderBD provider, XrSenseDataProviderStateBD *state) { struct xrGetSenseDataProviderStateBD_params params; NTSTATUS _status; params.provider = provider; params.state = state; _status = UNIX_CALL(xrGetSenseDataProviderStateBD, ¶ms); assert(!_status && "xrGetSenseDataProviderStateBD"); return params.result; } XrResult WINAPI xrGetSerializedSceneFragmentDataMSFT(XrSceneMSFT scene, const XrSerializedSceneFragmentDataGetInfoMSFT *getInfo, uint32_t countInput, uint32_t *readOutput, uint8_t *buffer) { struct xrGetSerializedSceneFragmentDataMSFT_params params; NTSTATUS _status; params.scene = scene; params.getInfo = getInfo; params.countInput = countInput; params.readOutput = readOutput; params.buffer = buffer; _status = UNIX_CALL(xrGetSerializedSceneFragmentDataMSFT, ¶ms); assert(!_status && "xrGetSerializedSceneFragmentDataMSFT"); return params.result; } XrResult WINAPI xrGetSpaceBoundary2DFB(XrSession session, XrSpace space, XrBoundary2DFB *boundary2DOutput) { struct xrGetSpaceBoundary2DFB_params params; NTSTATUS _status; params.session = session; params.space = space; params.boundary2DOutput = boundary2DOutput; _status = UNIX_CALL(xrGetSpaceBoundary2DFB, ¶ms); assert(!_status && "xrGetSpaceBoundary2DFB"); return params.result; } XrResult WINAPI xrGetSpaceBoundingBox2DFB(XrSession session, XrSpace space, XrRect2Df *boundingBox2DOutput) { struct xrGetSpaceBoundingBox2DFB_params params; NTSTATUS _status; params.session = session; params.space = space; params.boundingBox2DOutput = boundingBox2DOutput; _status = UNIX_CALL(xrGetSpaceBoundingBox2DFB, ¶ms); assert(!_status && "xrGetSpaceBoundingBox2DFB"); return params.result; } XrResult WINAPI xrGetSpaceBoundingBox3DFB(XrSession session, XrSpace space, XrRect3DfFB *boundingBox3DOutput) { struct xrGetSpaceBoundingBox3DFB_params params; NTSTATUS _status; params.session = session; params.space = space; params.boundingBox3DOutput = boundingBox3DOutput; _status = UNIX_CALL(xrGetSpaceBoundingBox3DFB, ¶ms); assert(!_status && "xrGetSpaceBoundingBox3DFB"); return params.result; } XrResult WINAPI xrGetSpaceComponentStatusFB(XrSpace space, XrSpaceComponentTypeFB componentType, XrSpaceComponentStatusFB *status) { struct xrGetSpaceComponentStatusFB_params params; NTSTATUS _status; params.space = space; params.componentType = componentType; params.status = status; _status = UNIX_CALL(xrGetSpaceComponentStatusFB, ¶ms); assert(!_status && "xrGetSpaceComponentStatusFB"); return params.result; } XrResult WINAPI xrGetSpaceContainerFB(XrSession session, XrSpace space, XrSpaceContainerFB *spaceContainerOutput) { struct xrGetSpaceContainerFB_params params; NTSTATUS _status; params.session = session; params.space = space; params.spaceContainerOutput = spaceContainerOutput; _status = UNIX_CALL(xrGetSpaceContainerFB, ¶ms); assert(!_status && "xrGetSpaceContainerFB"); return params.result; } XrResult WINAPI xrGetSpaceRoomLayoutFB(XrSession session, XrSpace space, XrRoomLayoutFB *roomLayoutOutput) { struct xrGetSpaceRoomLayoutFB_params params; NTSTATUS _status; params.session = session; params.space = space; params.roomLayoutOutput = roomLayoutOutput; _status = UNIX_CALL(xrGetSpaceRoomLayoutFB, ¶ms); assert(!_status && "xrGetSpaceRoomLayoutFB"); return params.result; } XrResult WINAPI xrGetSpaceSemanticLabelsFB(XrSession session, XrSpace space, XrSemanticLabelsFB *semanticLabelsOutput) { struct xrGetSpaceSemanticLabelsFB_params params; NTSTATUS _status; params.session = session; params.space = space; params.semanticLabelsOutput = semanticLabelsOutput; _status = UNIX_CALL(xrGetSpaceSemanticLabelsFB, ¶ms); assert(!_status && "xrGetSpaceSemanticLabelsFB"); return params.result; } XrResult WINAPI xrGetSpaceTriangleMeshMETA(XrSpace space, const XrSpaceTriangleMeshGetInfoMETA *getInfo, XrSpaceTriangleMeshMETA *triangleMeshOutput) { struct xrGetSpaceTriangleMeshMETA_params params; NTSTATUS _status; params.space = space; params.getInfo = getInfo; params.triangleMeshOutput = triangleMeshOutput; _status = UNIX_CALL(xrGetSpaceTriangleMeshMETA, ¶ms); assert(!_status && "xrGetSpaceTriangleMeshMETA"); return params.result; } XrResult WINAPI xrGetSpaceUserIdFB(XrSpaceUserFB user, XrSpaceUserIdFB *userId) { struct xrGetSpaceUserIdFB_params params; NTSTATUS _status; params.user = user; params.userId = userId; _status = UNIX_CALL(xrGetSpaceUserIdFB, ¶ms); assert(!_status && "xrGetSpaceUserIdFB"); return params.result; } XrResult WINAPI xrGetSpaceUuidFB(XrSpace space, XrUuidEXT *uuid) { struct xrGetSpaceUuidFB_params params; NTSTATUS _status; params.space = space; params.uuid = uuid; _status = UNIX_CALL(xrGetSpaceUuidFB, ¶ms); assert(!_status && "xrGetSpaceUuidFB"); return params.result; } XrResult WINAPI xrGetSpatialAnchorNameHTC(XrSpace anchor, XrSpatialAnchorNameHTC *name) { struct xrGetSpatialAnchorNameHTC_params params; NTSTATUS _status; params.anchor = anchor; params.name = name; _status = UNIX_CALL(xrGetSpatialAnchorNameHTC, ¶ms); assert(!_status && "xrGetSpatialAnchorNameHTC"); return params.result; } XrResult WINAPI xrGetSpatialAnchorStateML(XrSpace anchor, XrSpatialAnchorStateML *state) { struct xrGetSpatialAnchorStateML_params params; NTSTATUS _status; params.anchor = anchor; params.state = state; _status = UNIX_CALL(xrGetSpatialAnchorStateML, ¶ms); assert(!_status && "xrGetSpatialAnchorStateML"); return params.result; } XrResult WINAPI xrGetSpatialEntityComponentDataBD(XrSenseDataSnapshotBD snapshot, const XrSpatialEntityComponentGetInfoBD *getInfo, XrSpatialEntityComponentDataBaseHeaderBD *componentData) { struct xrGetSpatialEntityComponentDataBD_params params; NTSTATUS _status; params.snapshot = snapshot; params.getInfo = getInfo; params.componentData = componentData; _status = UNIX_CALL(xrGetSpatialEntityComponentDataBD, ¶ms); assert(!_status && "xrGetSpatialEntityComponentDataBD"); return params.result; } XrResult WINAPI xrGetSpatialEntityUuidBD(XrSenseDataSnapshotBD snapshot, XrSpatialEntityIdBD entityId, XrUuidEXT *uuid) { struct xrGetSpatialEntityUuidBD_params params; NTSTATUS _status; params.snapshot = snapshot; params.entityId = entityId; params.uuid = uuid; _status = UNIX_CALL(xrGetSpatialEntityUuidBD, ¶ms); assert(!_status && "xrGetSpatialEntityUuidBD"); return params.result; } XrResult WINAPI xrGetSpatialGraphNodeBindingPropertiesMSFT(XrSpatialGraphNodeBindingMSFT nodeBinding, const XrSpatialGraphNodeBindingPropertiesGetInfoMSFT *getInfo, XrSpatialGraphNodeBindingPropertiesMSFT *properties) { struct xrGetSpatialGraphNodeBindingPropertiesMSFT_params params; NTSTATUS _status; params.nodeBinding = nodeBinding; params.getInfo = getInfo; params.properties = properties; _status = UNIX_CALL(xrGetSpatialGraphNodeBindingPropertiesMSFT, ¶ms); assert(!_status && "xrGetSpatialGraphNodeBindingPropertiesMSFT"); return params.result; } XrResult WINAPI xrGetSwapchainStateFB(XrSwapchain swapchain, XrSwapchainStateBaseHeaderFB *state) { struct xrGetSwapchainStateFB_params params; NTSTATUS _status; params.swapchain = swapchain; params.state = state; _status = UNIX_CALL(xrGetSwapchainStateFB, ¶ms); assert(!_status && "xrGetSwapchainStateFB"); return params.result; } XrResult WINAPI xrGetSystemProperties(XrInstance instance, XrSystemId systemId, XrSystemProperties *properties) { struct xrGetSystemProperties_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.properties = properties; _status = UNIX_CALL(xrGetSystemProperties, ¶ms); assert(!_status && "xrGetSystemProperties"); return params.result; } XrResult WINAPI xrGetViewConfigurationProperties(XrInstance instance, XrSystemId systemId, XrViewConfigurationType viewConfigurationType, XrViewConfigurationProperties *configurationProperties) { struct xrGetViewConfigurationProperties_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.viewConfigurationType = viewConfigurationType; params.configurationProperties = configurationProperties; _status = UNIX_CALL(xrGetViewConfigurationProperties, ¶ms); assert(!_status && "xrGetViewConfigurationProperties"); return params.result; } XrResult WINAPI xrGetVirtualKeyboardDirtyTexturesMETA(XrVirtualKeyboardMETA keyboard, uint32_t textureIdCapacityInput, uint32_t *textureIdCountOutput, uint64_t *textureIds) { struct xrGetVirtualKeyboardDirtyTexturesMETA_params params; NTSTATUS _status; params.keyboard = keyboard; params.textureIdCapacityInput = textureIdCapacityInput; params.textureIdCountOutput = textureIdCountOutput; params.textureIds = textureIds; _status = UNIX_CALL(xrGetVirtualKeyboardDirtyTexturesMETA, ¶ms); assert(!_status && "xrGetVirtualKeyboardDirtyTexturesMETA"); return params.result; } XrResult WINAPI xrGetVirtualKeyboardModelAnimationStatesMETA(XrVirtualKeyboardMETA keyboard, XrVirtualKeyboardModelAnimationStatesMETA *animationStates) { struct xrGetVirtualKeyboardModelAnimationStatesMETA_params params; NTSTATUS _status; params.keyboard = keyboard; params.animationStates = animationStates; _status = UNIX_CALL(xrGetVirtualKeyboardModelAnimationStatesMETA, ¶ms); assert(!_status && "xrGetVirtualKeyboardModelAnimationStatesMETA"); return params.result; } XrResult WINAPI xrGetVirtualKeyboardScaleMETA(XrVirtualKeyboardMETA keyboard, float *scale) { struct xrGetVirtualKeyboardScaleMETA_params params; NTSTATUS _status; params.keyboard = keyboard; params.scale = scale; _status = UNIX_CALL(xrGetVirtualKeyboardScaleMETA, ¶ms); assert(!_status && "xrGetVirtualKeyboardScaleMETA"); return params.result; } XrResult WINAPI xrGetVirtualKeyboardTextureDataMETA(XrVirtualKeyboardMETA keyboard, uint64_t textureId, XrVirtualKeyboardTextureDataMETA *textureData) { struct xrGetVirtualKeyboardTextureDataMETA_params params; NTSTATUS _status; params.keyboard = keyboard; params.textureId = textureId; params.textureData = textureData; _status = UNIX_CALL(xrGetVirtualKeyboardTextureDataMETA, ¶ms); assert(!_status && "xrGetVirtualKeyboardTextureDataMETA"); return params.result; } XrResult WINAPI xrGetVisibilityMaskKHR(XrSession session, XrViewConfigurationType viewConfigurationType, uint32_t viewIndex, XrVisibilityMaskTypeKHR visibilityMaskType, XrVisibilityMaskKHR *visibilityMask) { struct xrGetVisibilityMaskKHR_params params; NTSTATUS _status; params.session = session; params.viewConfigurationType = viewConfigurationType; params.viewIndex = viewIndex; params.visibilityMaskType = visibilityMaskType; params.visibilityMask = visibilityMask; _status = UNIX_CALL(xrGetVisibilityMaskKHR, ¶ms); assert(!_status && "xrGetVisibilityMaskKHR"); return params.result; } XrResult WINAPI xrGetVulkanDeviceExtensionsKHR(XrInstance instance, XrSystemId systemId, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, char *buffer) { struct xrGetVulkanDeviceExtensionsKHR_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrGetVulkanDeviceExtensionsKHR, ¶ms); assert(!_status && "xrGetVulkanDeviceExtensionsKHR"); return params.result; } XrResult WINAPI xrGetVulkanGraphicsDevice2KHR(XrInstance instance, const XrVulkanGraphicsDeviceGetInfoKHR *getInfo, VkPhysicalDevice *vulkanPhysicalDevice) { struct xrGetVulkanGraphicsDevice2KHR_params params; NTSTATUS _status; params.instance = instance; params.getInfo = getInfo; params.vulkanPhysicalDevice = vulkanPhysicalDevice; _status = UNIX_CALL(xrGetVulkanGraphicsDevice2KHR, ¶ms); assert(!_status && "xrGetVulkanGraphicsDevice2KHR"); return params.result; } XrResult WINAPI xrGetVulkanGraphicsDeviceKHR(XrInstance instance, XrSystemId systemId, VkInstance vkInstance, VkPhysicalDevice *vkPhysicalDevice) { struct xrGetVulkanGraphicsDeviceKHR_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.vkInstance = vkInstance; params.vkPhysicalDevice = vkPhysicalDevice; _status = UNIX_CALL(xrGetVulkanGraphicsDeviceKHR, ¶ms); assert(!_status && "xrGetVulkanGraphicsDeviceKHR"); return params.result; } XrResult WINAPI xrGetVulkanGraphicsRequirements2KHR(XrInstance instance, XrSystemId systemId, XrGraphicsRequirementsVulkanKHR *graphicsRequirements) { struct xrGetVulkanGraphicsRequirements2KHR_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.graphicsRequirements = graphicsRequirements; _status = UNIX_CALL(xrGetVulkanGraphicsRequirements2KHR, ¶ms); assert(!_status && "xrGetVulkanGraphicsRequirements2KHR"); return params.result; } XrResult WINAPI xrGetVulkanGraphicsRequirementsKHR(XrInstance instance, XrSystemId systemId, XrGraphicsRequirementsVulkanKHR *graphicsRequirements) { struct xrGetVulkanGraphicsRequirementsKHR_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.graphicsRequirements = graphicsRequirements; _status = UNIX_CALL(xrGetVulkanGraphicsRequirementsKHR, ¶ms); assert(!_status && "xrGetVulkanGraphicsRequirementsKHR"); return params.result; } XrResult WINAPI xrGetVulkanInstanceExtensionsKHR(XrInstance instance, XrSystemId systemId, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, char *buffer) { struct xrGetVulkanInstanceExtensionsKHR_params params; NTSTATUS _status; params.instance = instance; params.systemId = systemId; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrGetVulkanInstanceExtensionsKHR, ¶ms); assert(!_status && "xrGetVulkanInstanceExtensionsKHR"); return params.result; } XrResult WINAPI xrGetWorldMeshBufferRecommendSizeML(XrWorldMeshDetectorML detector, const XrWorldMeshBufferRecommendedSizeInfoML *sizeInfo, XrWorldMeshBufferSizeML *size) { struct xrGetWorldMeshBufferRecommendSizeML_params params; NTSTATUS _status; params.detector = detector; params.sizeInfo = sizeInfo; params.size = size; _status = UNIX_CALL(xrGetWorldMeshBufferRecommendSizeML, ¶ms); assert(!_status && "xrGetWorldMeshBufferRecommendSizeML"); return params.result; } XrResult WINAPI xrImportLocalizationMapML(XrSession session, const XrLocalizationMapImportInfoML *importInfo, XrUuidEXT *mapUuid) { struct xrImportLocalizationMapML_params params; NTSTATUS _status; params.session = session; params.importInfo = importInfo; params.mapUuid = mapUuid; _status = UNIX_CALL(xrImportLocalizationMapML, ¶ms); assert(!_status && "xrImportLocalizationMapML"); return params.result; } XrResult WINAPI xrLoadControllerModelMSFT(XrSession session, XrControllerModelKeyMSFT modelKey, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, uint8_t *buffer) { struct xrLoadControllerModelMSFT_params params; NTSTATUS _status; params.session = session; params.modelKey = modelKey; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrLoadControllerModelMSFT, ¶ms); assert(!_status && "xrLoadControllerModelMSFT"); return params.result; } XrResult WINAPI xrLoadRenderModelFB(XrSession session, const XrRenderModelLoadInfoFB *info, XrRenderModelBufferFB *buffer) { struct xrLoadRenderModelFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.buffer = buffer; _status = UNIX_CALL(xrLoadRenderModelFB, ¶ms); assert(!_status && "xrLoadRenderModelFB"); return params.result; } XrResult WINAPI xrLocateBodyJointsBD(XrBodyTrackerBD bodyTracker, const XrBodyJointsLocateInfoBD *locateInfo, XrBodyJointLocationsBD *locations) { struct xrLocateBodyJointsBD_params params; NTSTATUS _status; params.bodyTracker = bodyTracker; params.locateInfo = locateInfo; params.locations = locations; _status = UNIX_CALL(xrLocateBodyJointsBD, ¶ms); assert(!_status && "xrLocateBodyJointsBD"); return params.result; } XrResult WINAPI xrLocateBodyJointsFB(XrBodyTrackerFB bodyTracker, const XrBodyJointsLocateInfoFB *locateInfo, XrBodyJointLocationsFB *locations) { struct xrLocateBodyJointsFB_params params; NTSTATUS _status; params.bodyTracker = bodyTracker; params.locateInfo = locateInfo; params.locations = locations; _status = UNIX_CALL(xrLocateBodyJointsFB, ¶ms); assert(!_status && "xrLocateBodyJointsFB"); return params.result; } XrResult WINAPI xrLocateBodyJointsHTC(XrBodyTrackerHTC bodyTracker, const XrBodyJointsLocateInfoHTC *locateInfo, XrBodyJointLocationsHTC *locations) { struct xrLocateBodyJointsHTC_params params; NTSTATUS _status; params.bodyTracker = bodyTracker; params.locateInfo = locateInfo; params.locations = locations; _status = UNIX_CALL(xrLocateBodyJointsHTC, ¶ms); assert(!_status && "xrLocateBodyJointsHTC"); return params.result; } XrResult WINAPI xrLocateHandJointsEXT(XrHandTrackerEXT handTracker, const XrHandJointsLocateInfoEXT *locateInfo, XrHandJointLocationsEXT *locations) { struct xrLocateHandJointsEXT_params params; NTSTATUS _status; params.handTracker = handTracker; params.locateInfo = locateInfo; params.locations = locations; _status = UNIX_CALL(xrLocateHandJointsEXT, ¶ms); assert(!_status && "xrLocateHandJointsEXT"); return params.result; } XrResult WINAPI xrLocateSceneComponentsMSFT(XrSceneMSFT scene, const XrSceneComponentsLocateInfoMSFT *locateInfo, XrSceneComponentLocationsMSFT *locations) { struct xrLocateSceneComponentsMSFT_params params; NTSTATUS _status; params.scene = scene; params.locateInfo = locateInfo; params.locations = locations; _status = UNIX_CALL(xrLocateSceneComponentsMSFT, ¶ms); assert(!_status && "xrLocateSceneComponentsMSFT"); return params.result; } XrResult WINAPI xrLocateSpace(XrSpace space, XrSpace baseSpace, XrTime time, XrSpaceLocation *location) { struct xrLocateSpace_params params; NTSTATUS _status; params.space = space; params.baseSpace = baseSpace; params.time = time; params.location = location; _status = UNIX_CALL(xrLocateSpace, ¶ms); assert(!_status && "xrLocateSpace"); return params.result; } XrResult WINAPI xrLocateSpaces(XrSession session, const XrSpacesLocateInfo *locateInfo, XrSpaceLocations *spaceLocations) { struct xrLocateSpaces_params params; NTSTATUS _status; params.session = session; params.locateInfo = locateInfo; params.spaceLocations = spaceLocations; _status = UNIX_CALL(xrLocateSpaces, ¶ms); assert(!_status && "xrLocateSpaces"); return params.result; } XrResult WINAPI xrLocateSpacesKHR(XrSession session, const XrSpacesLocateInfo *locateInfo, XrSpaceLocations *spaceLocations) { struct xrLocateSpacesKHR_params params; NTSTATUS _status; params.session = session; params.locateInfo = locateInfo; params.spaceLocations = spaceLocations; _status = UNIX_CALL(xrLocateSpacesKHR, ¶ms); assert(!_status && "xrLocateSpacesKHR"); return params.result; } XrResult WINAPI xrLocateViews(XrSession session, const XrViewLocateInfo *viewLocateInfo, XrViewState *viewState, uint32_t viewCapacityInput, uint32_t *viewCountOutput, XrView *views) { struct xrLocateViews_params params; NTSTATUS _status; params.session = session; params.viewLocateInfo = viewLocateInfo; params.viewState = viewState; params.viewCapacityInput = viewCapacityInput; params.viewCountOutput = viewCountOutput; params.views = views; _status = UNIX_CALL(xrLocateViews, ¶ms); assert(!_status && "xrLocateViews"); return params.result; } XrResult WINAPI xrPassthroughLayerPauseFB(XrPassthroughLayerFB layer) { struct xrPassthroughLayerPauseFB_params params; NTSTATUS _status; params.layer = layer; _status = UNIX_CALL(xrPassthroughLayerPauseFB, ¶ms); assert(!_status && "xrPassthroughLayerPauseFB"); return params.result; } XrResult WINAPI xrPassthroughLayerResumeFB(XrPassthroughLayerFB layer) { struct xrPassthroughLayerResumeFB_params params; NTSTATUS _status; params.layer = layer; _status = UNIX_CALL(xrPassthroughLayerResumeFB, ¶ms); assert(!_status && "xrPassthroughLayerResumeFB"); return params.result; } XrResult WINAPI xrPassthroughLayerSetKeyboardHandsIntensityFB(XrPassthroughLayerFB layer, const XrPassthroughKeyboardHandsIntensityFB *intensity) { struct xrPassthroughLayerSetKeyboardHandsIntensityFB_params params; NTSTATUS _status; params.layer = layer; params.intensity = intensity; _status = UNIX_CALL(xrPassthroughLayerSetKeyboardHandsIntensityFB, ¶ms); assert(!_status && "xrPassthroughLayerSetKeyboardHandsIntensityFB"); return params.result; } XrResult WINAPI xrPassthroughLayerSetStyleFB(XrPassthroughLayerFB layer, const XrPassthroughStyleFB *style) { struct xrPassthroughLayerSetStyleFB_params params; NTSTATUS _status; params.layer = layer; params.style = style; _status = UNIX_CALL(xrPassthroughLayerSetStyleFB, ¶ms); assert(!_status && "xrPassthroughLayerSetStyleFB"); return params.result; } XrResult WINAPI xrPassthroughPauseFB(XrPassthroughFB passthrough) { struct xrPassthroughPauseFB_params params; NTSTATUS _status; params.passthrough = passthrough; _status = UNIX_CALL(xrPassthroughPauseFB, ¶ms); assert(!_status && "xrPassthroughPauseFB"); return params.result; } XrResult WINAPI xrPassthroughStartFB(XrPassthroughFB passthrough) { struct xrPassthroughStartFB_params params; NTSTATUS _status; params.passthrough = passthrough; _status = UNIX_CALL(xrPassthroughStartFB, ¶ms); assert(!_status && "xrPassthroughStartFB"); return params.result; } XrResult WINAPI xrPathToString(XrInstance instance, XrPath path, uint32_t bufferCapacityInput, uint32_t *bufferCountOutput, char *buffer) { struct xrPathToString_params params; NTSTATUS _status; params.instance = instance; params.path = path; params.bufferCapacityInput = bufferCapacityInput; params.bufferCountOutput = bufferCountOutput; params.buffer = buffer; _status = UNIX_CALL(xrPathToString, ¶ms); assert(!_status && "xrPathToString"); return params.result; } XrResult WINAPI xrPerfSettingsSetPerformanceLevelEXT(XrSession session, XrPerfSettingsDomainEXT domain, XrPerfSettingsLevelEXT level) { struct xrPerfSettingsSetPerformanceLevelEXT_params params; NTSTATUS _status; params.session = session; params.domain = domain; params.level = level; _status = UNIX_CALL(xrPerfSettingsSetPerformanceLevelEXT, ¶ms); assert(!_status && "xrPerfSettingsSetPerformanceLevelEXT"); return params.result; } XrResult WINAPI xrPersistSpatialAnchorAsyncBD(XrSenseDataProviderBD provider, const XrSpatialAnchorPersistInfoBD *info, XrFutureEXT *future) { struct xrPersistSpatialAnchorAsyncBD_params params; NTSTATUS _status; params.provider = provider; params.info = info; params.future = future; _status = UNIX_CALL(xrPersistSpatialAnchorAsyncBD, ¶ms); assert(!_status && "xrPersistSpatialAnchorAsyncBD"); return params.result; } XrResult WINAPI xrPersistSpatialAnchorCompleteBD(XrSenseDataProviderBD provider, XrFutureEXT future, XrFutureCompletionEXT *completion) { struct xrPersistSpatialAnchorCompleteBD_params params; NTSTATUS _status; params.provider = provider; params.future = future; params.completion = completion; _status = UNIX_CALL(xrPersistSpatialAnchorCompleteBD, ¶ms); assert(!_status && "xrPersistSpatialAnchorCompleteBD"); return params.result; } XrResult WINAPI xrPersistSpatialAnchorMSFT(XrSpatialAnchorStoreConnectionMSFT spatialAnchorStore, const XrSpatialAnchorPersistenceInfoMSFT *spatialAnchorPersistenceInfo) { struct xrPersistSpatialAnchorMSFT_params params; NTSTATUS _status; params.spatialAnchorStore = spatialAnchorStore; params.spatialAnchorPersistenceInfo = spatialAnchorPersistenceInfo; _status = UNIX_CALL(xrPersistSpatialAnchorMSFT, ¶ms); assert(!_status && "xrPersistSpatialAnchorMSFT"); return params.result; } XrResult WINAPI xrPollFutureEXT(XrInstance instance, const XrFuturePollInfoEXT *pollInfo, XrFuturePollResultEXT *pollResult) { struct xrPollFutureEXT_params params; NTSTATUS _status; params.instance = instance; params.pollInfo = pollInfo; params.pollResult = pollResult; _status = UNIX_CALL(xrPollFutureEXT, ¶ms); assert(!_status && "xrPollFutureEXT"); return params.result; } XrResult WINAPI xrPublishSpatialAnchorsAsyncML(XrSpatialAnchorsStorageML storage, const XrSpatialAnchorsPublishInfoML *publishInfo, XrFutureEXT *future) { struct xrPublishSpatialAnchorsAsyncML_params params; NTSTATUS _status; params.storage = storage; params.publishInfo = publishInfo; params.future = future; _status = UNIX_CALL(xrPublishSpatialAnchorsAsyncML, ¶ms); assert(!_status && "xrPublishSpatialAnchorsAsyncML"); return params.result; } XrResult WINAPI xrPublishSpatialAnchorsCompleteML(XrSpatialAnchorsStorageML storage, XrFutureEXT future, XrSpatialAnchorsPublishCompletionML *completion) { struct xrPublishSpatialAnchorsCompleteML_params params; NTSTATUS _status; params.storage = storage; params.future = future; params.completion = completion; _status = UNIX_CALL(xrPublishSpatialAnchorsCompleteML, ¶ms); assert(!_status && "xrPublishSpatialAnchorsCompleteML"); return params.result; } XrResult WINAPI xrQueryLocalizationMapsML(XrSession session, const XrLocalizationMapQueryInfoBaseHeaderML *queryInfo, uint32_t mapCapacityInput, uint32_t *mapCountOutput, XrLocalizationMapML *maps) { struct xrQueryLocalizationMapsML_params params; NTSTATUS _status; params.session = session; params.queryInfo = queryInfo; params.mapCapacityInput = mapCapacityInput; params.mapCountOutput = mapCountOutput; params.maps = maps; _status = UNIX_CALL(xrQueryLocalizationMapsML, ¶ms); assert(!_status && "xrQueryLocalizationMapsML"); return params.result; } XrResult WINAPI xrQueryPerformanceMetricsCounterMETA(XrSession session, XrPath counterPath, XrPerformanceMetricsCounterMETA *counter) { struct xrQueryPerformanceMetricsCounterMETA_params params; NTSTATUS _status; params.session = session; params.counterPath = counterPath; params.counter = counter; _status = UNIX_CALL(xrQueryPerformanceMetricsCounterMETA, ¶ms); assert(!_status && "xrQueryPerformanceMetricsCounterMETA"); return params.result; } XrResult WINAPI xrQuerySenseDataAsyncBD(XrSenseDataProviderBD provider, const XrSenseDataQueryInfoBD *queryInfo, XrFutureEXT *future) { struct xrQuerySenseDataAsyncBD_params params; NTSTATUS _status; params.provider = provider; params.queryInfo = queryInfo; params.future = future; _status = UNIX_CALL(xrQuerySenseDataAsyncBD, ¶ms); assert(!_status && "xrQuerySenseDataAsyncBD"); return params.result; } XrResult WINAPI xrQuerySenseDataCompleteBD(XrSenseDataProviderBD provider, XrFutureEXT future, XrSenseDataQueryCompletionBD *completion) { struct xrQuerySenseDataCompleteBD_params params; NTSTATUS _status; params.provider = provider; params.future = future; params.completion = completion; _status = UNIX_CALL(xrQuerySenseDataCompleteBD, ¶ms); assert(!_status && "xrQuerySenseDataCompleteBD"); return params.result; } XrResult WINAPI xrQuerySpacesFB(XrSession session, const XrSpaceQueryInfoBaseHeaderFB *info, XrAsyncRequestIdFB *requestId) { struct xrQuerySpacesFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrQuerySpacesFB, ¶ms); assert(!_status && "xrQuerySpacesFB"); return params.result; } XrResult WINAPI xrQuerySpatialAnchorsAsyncML(XrSpatialAnchorsStorageML storage, const XrSpatialAnchorsQueryInfoBaseHeaderML *queryInfo, XrFutureEXT *future) { struct xrQuerySpatialAnchorsAsyncML_params params; NTSTATUS _status; params.storage = storage; params.queryInfo = queryInfo; params.future = future; _status = UNIX_CALL(xrQuerySpatialAnchorsAsyncML, ¶ms); assert(!_status && "xrQuerySpatialAnchorsAsyncML"); return params.result; } XrResult WINAPI xrQuerySpatialAnchorsCompleteML(XrSpatialAnchorsStorageML storage, XrFutureEXT future, XrSpatialAnchorsQueryCompletionML *completion) { struct xrQuerySpatialAnchorsCompleteML_params params; NTSTATUS _status; params.storage = storage; params.future = future; params.completion = completion; _status = UNIX_CALL(xrQuerySpatialAnchorsCompleteML, ¶ms); assert(!_status && "xrQuerySpatialAnchorsCompleteML"); return params.result; } XrResult WINAPI xrQuerySystemTrackedKeyboardFB(XrSession session, const XrKeyboardTrackingQueryFB *queryInfo, XrKeyboardTrackingDescriptionFB *keyboard) { struct xrQuerySystemTrackedKeyboardFB_params params; NTSTATUS _status; params.session = session; params.queryInfo = queryInfo; params.keyboard = keyboard; _status = UNIX_CALL(xrQuerySystemTrackedKeyboardFB, ¶ms); assert(!_status && "xrQuerySystemTrackedKeyboardFB"); return params.result; } XrResult WINAPI xrRequestDisplayRefreshRateFB(XrSession session, float displayRefreshRate) { struct xrRequestDisplayRefreshRateFB_params params; NTSTATUS _status; params.session = session; params.displayRefreshRate = displayRefreshRate; _status = UNIX_CALL(xrRequestDisplayRefreshRateFB, ¶ms); assert(!_status && "xrRequestDisplayRefreshRateFB"); return params.result; } XrResult WINAPI xrRequestExitSession(XrSession session) { struct xrRequestExitSession_params params; NTSTATUS _status; params.session = session; _status = UNIX_CALL(xrRequestExitSession, ¶ms); assert(!_status && "xrRequestExitSession"); return params.result; } XrResult WINAPI xrRequestMapLocalizationML(XrSession session, const XrMapLocalizationRequestInfoML *requestInfo) { struct xrRequestMapLocalizationML_params params; NTSTATUS _status; params.session = session; params.requestInfo = requestInfo; _status = UNIX_CALL(xrRequestMapLocalizationML, ¶ms); assert(!_status && "xrRequestMapLocalizationML"); return params.result; } XrResult WINAPI xrRequestSceneCaptureFB(XrSession session, const XrSceneCaptureRequestInfoFB *info, XrAsyncRequestIdFB *requestId) { struct xrRequestSceneCaptureFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrRequestSceneCaptureFB, ¶ms); assert(!_status && "xrRequestSceneCaptureFB"); return params.result; } XrResult WINAPI xrRequestWorldMeshAsyncML(XrWorldMeshDetectorML detector, const XrWorldMeshGetInfoML *getInfo, XrWorldMeshBufferML *buffer, XrFutureEXT *future) { struct xrRequestWorldMeshAsyncML_params params; NTSTATUS _status; params.detector = detector; params.getInfo = getInfo; params.buffer = buffer; params.future = future; _status = UNIX_CALL(xrRequestWorldMeshAsyncML, ¶ms); assert(!_status && "xrRequestWorldMeshAsyncML"); return params.result; } XrResult WINAPI xrRequestWorldMeshCompleteML(XrWorldMeshDetectorML detector, const XrWorldMeshRequestCompletionInfoML *completionInfo, XrFutureEXT future, XrWorldMeshRequestCompletionML *completion) { struct xrRequestWorldMeshCompleteML_params params; NTSTATUS _status; params.detector = detector; params.completionInfo = completionInfo; params.future = future; params.completion = completion; _status = UNIX_CALL(xrRequestWorldMeshCompleteML, ¶ms); assert(!_status && "xrRequestWorldMeshCompleteML"); return params.result; } XrResult WINAPI xrRequestWorldMeshStateAsyncML(XrWorldMeshDetectorML detector, const XrWorldMeshStateRequestInfoML *stateRequest, XrFutureEXT *future) { struct xrRequestWorldMeshStateAsyncML_params params; NTSTATUS _status; params.detector = detector; params.stateRequest = stateRequest; params.future = future; _status = UNIX_CALL(xrRequestWorldMeshStateAsyncML, ¶ms); assert(!_status && "xrRequestWorldMeshStateAsyncML"); return params.result; } XrResult WINAPI xrRequestWorldMeshStateCompleteML(XrWorldMeshDetectorML detector, XrFutureEXT future, XrWorldMeshStateRequestCompletionML *completion) { struct xrRequestWorldMeshStateCompleteML_params params; NTSTATUS _status; params.detector = detector; params.future = future; params.completion = completion; _status = UNIX_CALL(xrRequestWorldMeshStateCompleteML, ¶ms); assert(!_status && "xrRequestWorldMeshStateCompleteML"); return params.result; } XrResult WINAPI xrResultToString(XrInstance instance, XrResult value, char buffer[]) { struct xrResultToString_params params; NTSTATUS _status; params.instance = instance; params.value = value; params.buffer = buffer; _status = UNIX_CALL(xrResultToString, ¶ms); assert(!_status && "xrResultToString"); return params.result; } XrResult WINAPI xrRetrieveSpaceQueryResultsFB(XrSession session, XrAsyncRequestIdFB requestId, XrSpaceQueryResultsFB *results) { struct xrRetrieveSpaceQueryResultsFB_params params; NTSTATUS _status; params.session = session; params.requestId = requestId; params.results = results; _status = UNIX_CALL(xrRetrieveSpaceQueryResultsFB, ¶ms); assert(!_status && "xrRetrieveSpaceQueryResultsFB"); return params.result; } XrResult WINAPI xrSaveSpaceFB(XrSession session, const XrSpaceSaveInfoFB *info, XrAsyncRequestIdFB *requestId) { struct xrSaveSpaceFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrSaveSpaceFB, ¶ms); assert(!_status && "xrSaveSpaceFB"); return params.result; } XrResult WINAPI xrSaveSpaceListFB(XrSession session, const XrSpaceListSaveInfoFB *info, XrAsyncRequestIdFB *requestId) { struct xrSaveSpaceListFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrSaveSpaceListFB, ¶ms); assert(!_status && "xrSaveSpaceListFB"); return params.result; } XrResult WINAPI xrSendVirtualKeyboardInputMETA(XrVirtualKeyboardMETA keyboard, const XrVirtualKeyboardInputInfoMETA *info, XrPosef *interactorRootPose) { struct xrSendVirtualKeyboardInputMETA_params params; NTSTATUS _status; params.keyboard = keyboard; params.info = info; params.interactorRootPose = interactorRootPose; _status = UNIX_CALL(xrSendVirtualKeyboardInputMETA, ¶ms); assert(!_status && "xrSendVirtualKeyboardInputMETA"); return params.result; } XrResult WINAPI xrSetColorSpaceFB(XrSession session, const XrColorSpaceFB colorSpace) { struct xrSetColorSpaceFB_params params; NTSTATUS _status; params.session = session; params.colorSpace = colorSpace; _status = UNIX_CALL(xrSetColorSpaceFB, ¶ms); assert(!_status && "xrSetColorSpaceFB"); return params.result; } XrResult WINAPI xrSetDigitalLensControlALMALENCE(XrSession session, const XrDigitalLensControlALMALENCE *digitalLensControl) { struct xrSetDigitalLensControlALMALENCE_params params; NTSTATUS _status; params.session = session; params.digitalLensControl = digitalLensControl; _status = UNIX_CALL(xrSetDigitalLensControlALMALENCE, ¶ms); assert(!_status && "xrSetDigitalLensControlALMALENCE"); return params.result; } XrResult WINAPI xrSetEnvironmentDepthEstimationVARJO(XrSession session, XrBool32 enabled) { struct xrSetEnvironmentDepthEstimationVARJO_params params; NTSTATUS _status; params.session = session; params.enabled = enabled; _status = UNIX_CALL(xrSetEnvironmentDepthEstimationVARJO, ¶ms); assert(!_status && "xrSetEnvironmentDepthEstimationVARJO"); return params.result; } XrResult WINAPI xrSetEnvironmentDepthHandRemovalMETA(XrEnvironmentDepthProviderMETA environmentDepthProvider, const XrEnvironmentDepthHandRemovalSetInfoMETA *setInfo) { struct xrSetEnvironmentDepthHandRemovalMETA_params params; NTSTATUS _status; params.environmentDepthProvider = environmentDepthProvider; params.setInfo = setInfo; _status = UNIX_CALL(xrSetEnvironmentDepthHandRemovalMETA, ¶ms); assert(!_status && "xrSetEnvironmentDepthHandRemovalMETA"); return params.result; } XrResult WINAPI xrSetInputDeviceActiveEXT(XrSession session, XrPath interactionProfile, XrPath topLevelPath, XrBool32 isActive) { struct xrSetInputDeviceActiveEXT_params params; NTSTATUS _status; params.session = session; params.interactionProfile = interactionProfile; params.topLevelPath = topLevelPath; params.isActive = isActive; _status = UNIX_CALL(xrSetInputDeviceActiveEXT, ¶ms); assert(!_status && "xrSetInputDeviceActiveEXT"); return params.result; } XrResult WINAPI xrSetInputDeviceLocationEXT(XrSession session, XrPath topLevelPath, XrPath inputSourcePath, XrSpace space, XrPosef pose) { struct xrSetInputDeviceLocationEXT_params params; NTSTATUS _status; params.session = session; params.topLevelPath = topLevelPath; params.inputSourcePath = inputSourcePath; params.space = space; params.pose = pose; _status = UNIX_CALL(xrSetInputDeviceLocationEXT, ¶ms); assert(!_status && "xrSetInputDeviceLocationEXT"); return params.result; } XrResult WINAPI xrSetInputDeviceStateBoolEXT(XrSession session, XrPath topLevelPath, XrPath inputSourcePath, XrBool32 state) { struct xrSetInputDeviceStateBoolEXT_params params; NTSTATUS _status; params.session = session; params.topLevelPath = topLevelPath; params.inputSourcePath = inputSourcePath; params.state = state; _status = UNIX_CALL(xrSetInputDeviceStateBoolEXT, ¶ms); assert(!_status && "xrSetInputDeviceStateBoolEXT"); return params.result; } XrResult WINAPI xrSetInputDeviceStateFloatEXT(XrSession session, XrPath topLevelPath, XrPath inputSourcePath, float state) { struct xrSetInputDeviceStateFloatEXT_params params; NTSTATUS _status; params.session = session; params.topLevelPath = topLevelPath; params.inputSourcePath = inputSourcePath; params.state = state; _status = UNIX_CALL(xrSetInputDeviceStateFloatEXT, ¶ms); assert(!_status && "xrSetInputDeviceStateFloatEXT"); return params.result; } XrResult WINAPI xrSetInputDeviceStateVector2fEXT(XrSession session, XrPath topLevelPath, XrPath inputSourcePath, XrVector2f state) { struct xrSetInputDeviceStateVector2fEXT_params params; NTSTATUS _status; params.session = session; params.topLevelPath = topLevelPath; params.inputSourcePath = inputSourcePath; params.state = state; _status = UNIX_CALL(xrSetInputDeviceStateVector2fEXT, ¶ms); assert(!_status && "xrSetInputDeviceStateVector2fEXT"); return params.result; } XrResult WINAPI xrSetMarkerTrackingPredictionVARJO(XrSession session, uint64_t markerId, XrBool32 enable) { struct xrSetMarkerTrackingPredictionVARJO_params params; NTSTATUS _status; params.session = session; params.markerId = markerId; params.enable = enable; _status = UNIX_CALL(xrSetMarkerTrackingPredictionVARJO, ¶ms); assert(!_status && "xrSetMarkerTrackingPredictionVARJO"); return params.result; } XrResult WINAPI xrSetMarkerTrackingTimeoutVARJO(XrSession session, uint64_t markerId, XrDuration timeout) { struct xrSetMarkerTrackingTimeoutVARJO_params params; NTSTATUS _status; params.session = session; params.markerId = markerId; params.timeout = timeout; _status = UNIX_CALL(xrSetMarkerTrackingTimeoutVARJO, ¶ms); assert(!_status && "xrSetMarkerTrackingTimeoutVARJO"); return params.result; } XrResult WINAPI xrSetMarkerTrackingVARJO(XrSession session, XrBool32 enabled) { struct xrSetMarkerTrackingVARJO_params params; NTSTATUS _status; params.session = session; params.enabled = enabled; _status = UNIX_CALL(xrSetMarkerTrackingVARJO, ¶ms); assert(!_status && "xrSetMarkerTrackingVARJO"); return params.result; } XrResult WINAPI xrSetPerformanceMetricsStateMETA(XrSession session, const XrPerformanceMetricsStateMETA *state) { struct xrSetPerformanceMetricsStateMETA_params params; NTSTATUS _status; params.session = session; params.state = state; _status = UNIX_CALL(xrSetPerformanceMetricsStateMETA, ¶ms); assert(!_status && "xrSetPerformanceMetricsStateMETA"); return params.result; } XrResult WINAPI xrSetSpaceComponentStatusFB(XrSpace space, const XrSpaceComponentStatusSetInfoFB *info, XrAsyncRequestIdFB *requestId) { struct xrSetSpaceComponentStatusFB_params params; NTSTATUS _status; params.space = space; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrSetSpaceComponentStatusFB, ¶ms); assert(!_status && "xrSetSpaceComponentStatusFB"); return params.result; } XrResult WINAPI xrSetSystemNotificationsML(XrInstance instance, const XrSystemNotificationsSetInfoML *info) { struct xrSetSystemNotificationsML_params params; NTSTATUS _status; params.instance = instance; params.info = info; _status = UNIX_CALL(xrSetSystemNotificationsML, ¶ms); assert(!_status && "xrSetSystemNotificationsML"); return params.result; } XrResult WINAPI xrSetTrackingOptimizationSettingsHintQCOM(XrSession session, XrTrackingOptimizationSettingsDomainQCOM domain, XrTrackingOptimizationSettingsHintQCOM hint) { struct xrSetTrackingOptimizationSettingsHintQCOM_params params; NTSTATUS _status; params.session = session; params.domain = domain; params.hint = hint; _status = UNIX_CALL(xrSetTrackingOptimizationSettingsHintQCOM, ¶ms); assert(!_status && "xrSetTrackingOptimizationSettingsHintQCOM"); return params.result; } XrResult WINAPI xrSetViewOffsetVARJO(XrSession session, float offset) { struct xrSetViewOffsetVARJO_params params; NTSTATUS _status; params.session = session; params.offset = offset; _status = UNIX_CALL(xrSetViewOffsetVARJO, ¶ms); assert(!_status && "xrSetViewOffsetVARJO"); return params.result; } XrResult WINAPI xrSetVirtualKeyboardModelVisibilityMETA(XrVirtualKeyboardMETA keyboard, const XrVirtualKeyboardModelVisibilitySetInfoMETA *modelVisibility) { struct xrSetVirtualKeyboardModelVisibilityMETA_params params; NTSTATUS _status; params.keyboard = keyboard; params.modelVisibility = modelVisibility; _status = UNIX_CALL(xrSetVirtualKeyboardModelVisibilityMETA, ¶ms); assert(!_status && "xrSetVirtualKeyboardModelVisibilityMETA"); return params.result; } XrResult WINAPI xrShareSpacesFB(XrSession session, const XrSpaceShareInfoFB *info, XrAsyncRequestIdFB *requestId) { struct xrShareSpacesFB_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrShareSpacesFB, ¶ms); assert(!_status && "xrShareSpacesFB"); return params.result; } XrResult WINAPI xrShareSpacesMETA(XrSession session, const XrShareSpacesInfoMETA *info, XrAsyncRequestIdFB *requestId) { struct xrShareSpacesMETA_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrShareSpacesMETA, ¶ms); assert(!_status && "xrShareSpacesMETA"); return params.result; } XrResult WINAPI xrShareSpatialAnchorAsyncBD(XrSenseDataProviderBD provider, const XrSpatialAnchorShareInfoBD *info, XrFutureEXT *future) { struct xrShareSpatialAnchorAsyncBD_params params; NTSTATUS _status; params.provider = provider; params.info = info; params.future = future; _status = UNIX_CALL(xrShareSpatialAnchorAsyncBD, ¶ms); assert(!_status && "xrShareSpatialAnchorAsyncBD"); return params.result; } XrResult WINAPI xrShareSpatialAnchorCompleteBD(XrSenseDataProviderBD provider, XrFutureEXT future, XrFutureCompletionEXT *completion) { struct xrShareSpatialAnchorCompleteBD_params params; NTSTATUS _status; params.provider = provider; params.future = future; params.completion = completion; _status = UNIX_CALL(xrShareSpatialAnchorCompleteBD, ¶ms); assert(!_status && "xrShareSpatialAnchorCompleteBD"); return params.result; } XrResult WINAPI xrSnapshotMarkerDetectorML(XrMarkerDetectorML markerDetector, XrMarkerDetectorSnapshotInfoML *snapshotInfo) { struct xrSnapshotMarkerDetectorML_params params; NTSTATUS _status; params.markerDetector = markerDetector; params.snapshotInfo = snapshotInfo; _status = UNIX_CALL(xrSnapshotMarkerDetectorML, ¶ms); assert(!_status && "xrSnapshotMarkerDetectorML"); return params.result; } XrResult WINAPI xrStartColocationAdvertisementMETA(XrSession session, const XrColocationAdvertisementStartInfoMETA *info, XrAsyncRequestIdFB *advertisementRequestId) { struct xrStartColocationAdvertisementMETA_params params; NTSTATUS _status; params.session = session; params.info = info; params.advertisementRequestId = advertisementRequestId; _status = UNIX_CALL(xrStartColocationAdvertisementMETA, ¶ms); assert(!_status && "xrStartColocationAdvertisementMETA"); return params.result; } XrResult WINAPI xrStartColocationDiscoveryMETA(XrSession session, const XrColocationDiscoveryStartInfoMETA *info, XrAsyncRequestIdFB *discoveryRequestId) { struct xrStartColocationDiscoveryMETA_params params; NTSTATUS _status; params.session = session; params.info = info; params.discoveryRequestId = discoveryRequestId; _status = UNIX_CALL(xrStartColocationDiscoveryMETA, ¶ms); assert(!_status && "xrStartColocationDiscoveryMETA"); return params.result; } XrResult WINAPI xrStartEnvironmentDepthProviderMETA(XrEnvironmentDepthProviderMETA environmentDepthProvider) { struct xrStartEnvironmentDepthProviderMETA_params params; NTSTATUS _status; params.environmentDepthProvider = environmentDepthProvider; _status = UNIX_CALL(xrStartEnvironmentDepthProviderMETA, ¶ms); assert(!_status && "xrStartEnvironmentDepthProviderMETA"); return params.result; } XrResult WINAPI xrStartSenseDataProviderAsyncBD(XrSenseDataProviderBD provider, const XrSenseDataProviderStartInfoBD *startInfo, XrFutureEXT *future) { struct xrStartSenseDataProviderAsyncBD_params params; NTSTATUS _status; params.provider = provider; params.startInfo = startInfo; params.future = future; _status = UNIX_CALL(xrStartSenseDataProviderAsyncBD, ¶ms); assert(!_status && "xrStartSenseDataProviderAsyncBD"); return params.result; } XrResult WINAPI xrStartSenseDataProviderCompleteBD(XrSession session, XrFutureEXT future, XrFutureCompletionEXT *completion) { struct xrStartSenseDataProviderCompleteBD_params params; NTSTATUS _status; params.session = session; params.future = future; params.completion = completion; _status = UNIX_CALL(xrStartSenseDataProviderCompleteBD, ¶ms); assert(!_status && "xrStartSenseDataProviderCompleteBD"); return params.result; } XrResult WINAPI xrStopColocationAdvertisementMETA(XrSession session, const XrColocationAdvertisementStopInfoMETA *info, XrAsyncRequestIdFB *requestId) { struct xrStopColocationAdvertisementMETA_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrStopColocationAdvertisementMETA, ¶ms); assert(!_status && "xrStopColocationAdvertisementMETA"); return params.result; } XrResult WINAPI xrStopColocationDiscoveryMETA(XrSession session, const XrColocationDiscoveryStopInfoMETA *info, XrAsyncRequestIdFB *requestId) { struct xrStopColocationDiscoveryMETA_params params; NTSTATUS _status; params.session = session; params.info = info; params.requestId = requestId; _status = UNIX_CALL(xrStopColocationDiscoveryMETA, ¶ms); assert(!_status && "xrStopColocationDiscoveryMETA"); return params.result; } XrResult WINAPI xrStopEnvironmentDepthProviderMETA(XrEnvironmentDepthProviderMETA environmentDepthProvider) { struct xrStopEnvironmentDepthProviderMETA_params params; NTSTATUS _status; params.environmentDepthProvider = environmentDepthProvider; _status = UNIX_CALL(xrStopEnvironmentDepthProviderMETA, ¶ms); assert(!_status && "xrStopEnvironmentDepthProviderMETA"); return params.result; } XrResult WINAPI xrStopHapticFeedback(XrSession session, const XrHapticActionInfo *hapticActionInfo) { struct xrStopHapticFeedback_params params; NTSTATUS _status; params.session = session; params.hapticActionInfo = hapticActionInfo; _status = UNIX_CALL(xrStopHapticFeedback, ¶ms); assert(!_status && "xrStopHapticFeedback"); return params.result; } XrResult WINAPI xrStopSenseDataProviderBD(XrSenseDataProviderBD provider) { struct xrStopSenseDataProviderBD_params params; NTSTATUS _status; params.provider = provider; _status = UNIX_CALL(xrStopSenseDataProviderBD, ¶ms); assert(!_status && "xrStopSenseDataProviderBD"); return params.result; } XrResult WINAPI xrStringToPath(XrInstance instance, const char *pathString, XrPath *path) { struct xrStringToPath_params params; NTSTATUS _status; params.instance = instance; params.pathString = pathString; params.path = path; _status = UNIX_CALL(xrStringToPath, ¶ms); assert(!_status && "xrStringToPath"); return params.result; } XrResult WINAPI xrStructureTypeToString(XrInstance instance, XrStructureType value, char buffer[]) { struct xrStructureTypeToString_params params; NTSTATUS _status; params.instance = instance; params.value = value; params.buffer = buffer; _status = UNIX_CALL(xrStructureTypeToString, ¶ms); assert(!_status && "xrStructureTypeToString"); return params.result; } XrResult WINAPI xrStructureTypeToString2KHR(XrInstance instance, XrStructureType value, char buffer[]) { struct xrStructureTypeToString2KHR_params params; NTSTATUS _status; params.instance = instance; params.value = value; params.buffer = buffer; _status = UNIX_CALL(xrStructureTypeToString2KHR, ¶ms); assert(!_status && "xrStructureTypeToString2KHR"); return params.result; } XrResult WINAPI xrSuggestInteractionProfileBindings(XrInstance instance, const XrInteractionProfileSuggestedBinding *suggestedBindings) { struct xrSuggestInteractionProfileBindings_params params; NTSTATUS _status; params.instance = instance; params.suggestedBindings = suggestedBindings; _status = UNIX_CALL(xrSuggestInteractionProfileBindings, ¶ms); assert(!_status && "xrSuggestInteractionProfileBindings"); return params.result; } XrResult WINAPI xrSuggestVirtualKeyboardLocationMETA(XrVirtualKeyboardMETA keyboard, const XrVirtualKeyboardLocationInfoMETA *locationInfo) { struct xrSuggestVirtualKeyboardLocationMETA_params params; NTSTATUS _status; params.keyboard = keyboard; params.locationInfo = locationInfo; _status = UNIX_CALL(xrSuggestVirtualKeyboardLocationMETA, ¶ms); assert(!_status && "xrSuggestVirtualKeyboardLocationMETA"); return params.result; } XrResult WINAPI xrSyncActions(XrSession session, const XrActionsSyncInfo *syncInfo) { struct xrSyncActions_params params; NTSTATUS _status; params.session = session; params.syncInfo = syncInfo; _status = UNIX_CALL(xrSyncActions, ¶ms); assert(!_status && "xrSyncActions"); return params.result; } XrResult WINAPI xrThermalGetTemperatureTrendEXT(XrSession session, XrPerfSettingsDomainEXT domain, XrPerfSettingsNotificationLevelEXT *notificationLevel, float *tempHeadroom, float *tempSlope) { struct xrThermalGetTemperatureTrendEXT_params params; NTSTATUS _status; params.session = session; params.domain = domain; params.notificationLevel = notificationLevel; params.tempHeadroom = tempHeadroom; params.tempSlope = tempSlope; _status = UNIX_CALL(xrThermalGetTemperatureTrendEXT, ¶ms); assert(!_status && "xrThermalGetTemperatureTrendEXT"); return params.result; } XrResult WINAPI xrTriangleMeshBeginUpdateFB(XrTriangleMeshFB mesh) { struct xrTriangleMeshBeginUpdateFB_params params; NTSTATUS _status; params.mesh = mesh; _status = UNIX_CALL(xrTriangleMeshBeginUpdateFB, ¶ms); assert(!_status && "xrTriangleMeshBeginUpdateFB"); return params.result; } XrResult WINAPI xrTriangleMeshBeginVertexBufferUpdateFB(XrTriangleMeshFB mesh, uint32_t *outVertexCount) { struct xrTriangleMeshBeginVertexBufferUpdateFB_params params; NTSTATUS _status; params.mesh = mesh; params.outVertexCount = outVertexCount; _status = UNIX_CALL(xrTriangleMeshBeginVertexBufferUpdateFB, ¶ms); assert(!_status && "xrTriangleMeshBeginVertexBufferUpdateFB"); return params.result; } XrResult WINAPI xrTriangleMeshEndUpdateFB(XrTriangleMeshFB mesh, uint32_t vertexCount, uint32_t triangleCount) { struct xrTriangleMeshEndUpdateFB_params params; NTSTATUS _status; params.mesh = mesh; params.vertexCount = vertexCount; params.triangleCount = triangleCount; _status = UNIX_CALL(xrTriangleMeshEndUpdateFB, ¶ms); assert(!_status && "xrTriangleMeshEndUpdateFB"); return params.result; } XrResult WINAPI xrTriangleMeshEndVertexBufferUpdateFB(XrTriangleMeshFB mesh) { struct xrTriangleMeshEndVertexBufferUpdateFB_params params; NTSTATUS _status; params.mesh = mesh; _status = UNIX_CALL(xrTriangleMeshEndVertexBufferUpdateFB, ¶ms); assert(!_status && "xrTriangleMeshEndVertexBufferUpdateFB"); return params.result; } XrResult WINAPI xrTriangleMeshGetIndexBufferFB(XrTriangleMeshFB mesh, uint32_t **outIndexBuffer) { struct xrTriangleMeshGetIndexBufferFB_params params; NTSTATUS _status; params.mesh = mesh; params.outIndexBuffer = outIndexBuffer; _status = UNIX_CALL(xrTriangleMeshGetIndexBufferFB, ¶ms); assert(!_status && "xrTriangleMeshGetIndexBufferFB"); return params.result; } XrResult WINAPI xrTriangleMeshGetVertexBufferFB(XrTriangleMeshFB mesh, XrVector3f **outVertexBuffer) { struct xrTriangleMeshGetVertexBufferFB_params params; NTSTATUS _status; params.mesh = mesh; params.outVertexBuffer = outVertexBuffer; _status = UNIX_CALL(xrTriangleMeshGetVertexBufferFB, ¶ms); assert(!_status && "xrTriangleMeshGetVertexBufferFB"); return params.result; } XrResult WINAPI xrTryCreateSpatialGraphStaticNodeBindingMSFT(XrSession session, const XrSpatialGraphStaticNodeBindingCreateInfoMSFT *createInfo, XrSpatialGraphNodeBindingMSFT *nodeBinding) { struct xrTryCreateSpatialGraphStaticNodeBindingMSFT_params params; NTSTATUS _status; params.session = session; params.createInfo = createInfo; params.nodeBinding = nodeBinding; _status = UNIX_CALL(xrTryCreateSpatialGraphStaticNodeBindingMSFT, ¶ms); assert(!_status && "xrTryCreateSpatialGraphStaticNodeBindingMSFT"); return params.result; } XrResult WINAPI xrUnpersistSpatialAnchorAsyncBD(XrSenseDataProviderBD provider, const XrSpatialAnchorUnpersistInfoBD *info, XrFutureEXT *future) { struct xrUnpersistSpatialAnchorAsyncBD_params params; NTSTATUS _status; params.provider = provider; params.info = info; params.future = future; _status = UNIX_CALL(xrUnpersistSpatialAnchorAsyncBD, ¶ms); assert(!_status && "xrUnpersistSpatialAnchorAsyncBD"); return params.result; } XrResult WINAPI xrUnpersistSpatialAnchorCompleteBD(XrSenseDataProviderBD provider, XrFutureEXT future, XrFutureCompletionEXT *completion) { struct xrUnpersistSpatialAnchorCompleteBD_params params; NTSTATUS _status; params.provider = provider; params.future = future; params.completion = completion; _status = UNIX_CALL(xrUnpersistSpatialAnchorCompleteBD, ¶ms); assert(!_status && "xrUnpersistSpatialAnchorCompleteBD"); return params.result; } XrResult WINAPI xrUnpersistSpatialAnchorMSFT(XrSpatialAnchorStoreConnectionMSFT spatialAnchorStore, const XrSpatialAnchorPersistenceNameMSFT *spatialAnchorPersistenceName) { struct xrUnpersistSpatialAnchorMSFT_params params; NTSTATUS _status; params.spatialAnchorStore = spatialAnchorStore; params.spatialAnchorPersistenceName = spatialAnchorPersistenceName; _status = UNIX_CALL(xrUnpersistSpatialAnchorMSFT, ¶ms); assert(!_status && "xrUnpersistSpatialAnchorMSFT"); return params.result; } XrResult WINAPI xrUpdateHandMeshMSFT(XrHandTrackerEXT handTracker, const XrHandMeshUpdateInfoMSFT *updateInfo, XrHandMeshMSFT *handMesh) { struct xrUpdateHandMeshMSFT_params params; NTSTATUS _status; params.handTracker = handTracker; params.updateInfo = updateInfo; params.handMesh = handMesh; _status = UNIX_CALL(xrUpdateHandMeshMSFT, ¶ms); assert(!_status && "xrUpdateHandMeshMSFT"); return params.result; } XrResult WINAPI xrUpdatePassthroughColorLutMETA(XrPassthroughColorLutMETA colorLut, const XrPassthroughColorLutUpdateInfoMETA *updateInfo) { struct xrUpdatePassthroughColorLutMETA_params params; NTSTATUS _status; params.colorLut = colorLut; params.updateInfo = updateInfo; _status = UNIX_CALL(xrUpdatePassthroughColorLutMETA, ¶ms); assert(!_status && "xrUpdatePassthroughColorLutMETA"); return params.result; } XrResult WINAPI xrUpdateSpatialAnchorsExpirationAsyncML(XrSpatialAnchorsStorageML storage, const XrSpatialAnchorsUpdateExpirationInfoML *updateInfo, XrFutureEXT *future) { struct xrUpdateSpatialAnchorsExpirationAsyncML_params params; NTSTATUS _status; params.storage = storage; params.updateInfo = updateInfo; params.future = future; _status = UNIX_CALL(xrUpdateSpatialAnchorsExpirationAsyncML, ¶ms); assert(!_status && "xrUpdateSpatialAnchorsExpirationAsyncML"); return params.result; } XrResult WINAPI xrUpdateSpatialAnchorsExpirationCompleteML(XrSpatialAnchorsStorageML storage, XrFutureEXT future, XrSpatialAnchorsUpdateExpirationCompletionML *completion) { struct xrUpdateSpatialAnchorsExpirationCompleteML_params params; NTSTATUS _status; params.storage = storage; params.future = future; params.completion = completion; _status = UNIX_CALL(xrUpdateSpatialAnchorsExpirationCompleteML, ¶ms); assert(!_status && "xrUpdateSpatialAnchorsExpirationCompleteML"); return params.result; } XrResult WINAPI xrUpdateSwapchainFB(XrSwapchain swapchain, const XrSwapchainStateBaseHeaderFB *state) { struct xrUpdateSwapchainFB_params params; NTSTATUS _status; params.swapchain = swapchain; params.state = state; _status = UNIX_CALL(xrUpdateSwapchainFB, ¶ms); assert(!_status && "xrUpdateSwapchainFB"); return params.result; } XrResult WINAPI xrWaitFrame(XrSession session, const XrFrameWaitInfo *frameWaitInfo, XrFrameState *frameState) { struct xrWaitFrame_params params; NTSTATUS _status; params.session = session; params.frameWaitInfo = frameWaitInfo; params.frameState = frameState; _status = UNIX_CALL(xrWaitFrame, ¶ms); assert(!_status && "xrWaitFrame"); return params.result; } XrResult WINAPI xrWaitSwapchainImage(XrSwapchain swapchain, const XrSwapchainImageWaitInfo *waitInfo) { struct xrWaitSwapchainImage_params params; NTSTATUS _status; params.swapchain = swapchain; params.waitInfo = waitInfo; _status = UNIX_CALL(xrWaitSwapchainImage, ¶ms); assert(!_status && "xrWaitSwapchainImage"); return params.result; } static const struct openxr_func xr_instance_dispatch_table[] = { {"xrAcquireEnvironmentDepthImageMETA", xrAcquireEnvironmentDepthImageMETA}, {"xrAcquireSwapchainImage", xrAcquireSwapchainImage}, {"xrAllocateWorldMeshBufferML", xrAllocateWorldMeshBufferML}, {"xrApplyForceFeedbackCurlMNDX", xrApplyForceFeedbackCurlMNDX}, {"xrApplyHapticFeedback", xrApplyHapticFeedback}, {"xrAttachSessionActionSets", xrAttachSessionActionSets}, {"xrBeginFrame", xrBeginFrame}, {"xrBeginPlaneDetectionEXT", xrBeginPlaneDetectionEXT}, {"xrBeginSession", xrBeginSession}, {"xrCancelFutureEXT", xrCancelFutureEXT}, {"xrCaptureSceneAsyncBD", xrCaptureSceneAsyncBD}, {"xrCaptureSceneCompleteBD", xrCaptureSceneCompleteBD}, {"xrChangeVirtualKeyboardTextContextMETA", xrChangeVirtualKeyboardTextContextMETA}, {"xrClearSpatialAnchorStoreMSFT", xrClearSpatialAnchorStoreMSFT}, {"xrComputeNewSceneMSFT", xrComputeNewSceneMSFT}, {"xrConvertTimeToWin32PerformanceCounterKHR", xrConvertTimeToWin32PerformanceCounterKHR}, {"xrConvertWin32PerformanceCounterToTimeKHR", xrConvertWin32PerformanceCounterToTimeKHR}, {"xrCreateAction", xrCreateAction}, {"xrCreateActionSet", xrCreateActionSet}, {"xrCreateActionSpace", xrCreateActionSpace}, {"xrCreateAnchorSpaceBD", xrCreateAnchorSpaceBD}, {"xrCreateApiLayerInstance", xrCreateApiLayerInstance}, {"xrCreateBodyTrackerBD", xrCreateBodyTrackerBD}, {"xrCreateBodyTrackerFB", xrCreateBodyTrackerFB}, {"xrCreateBodyTrackerHTC", xrCreateBodyTrackerHTC}, {"xrCreateEnvironmentDepthProviderMETA", xrCreateEnvironmentDepthProviderMETA}, {"xrCreateEnvironmentDepthSwapchainMETA", xrCreateEnvironmentDepthSwapchainMETA}, {"xrCreateExportedLocalizationMapML", xrCreateExportedLocalizationMapML}, {"xrCreateEyeTrackerFB", xrCreateEyeTrackerFB}, {"xrCreateFaceTracker2FB", xrCreateFaceTracker2FB}, {"xrCreateFaceTrackerFB", xrCreateFaceTrackerFB}, {"xrCreateFacialExpressionClientML", xrCreateFacialExpressionClientML}, {"xrCreateFacialTrackerHTC", xrCreateFacialTrackerHTC}, {"xrCreateFoveationProfileFB", xrCreateFoveationProfileFB}, {"xrCreateGeometryInstanceFB", xrCreateGeometryInstanceFB}, {"xrCreateHandMeshSpaceMSFT", xrCreateHandMeshSpaceMSFT}, {"xrCreateHandTrackerEXT", xrCreateHandTrackerEXT}, {"xrCreateInstance", xrCreateInstance}, {"xrCreateKeyboardSpaceFB", xrCreateKeyboardSpaceFB}, {"xrCreateMarkerDetectorML", xrCreateMarkerDetectorML}, {"xrCreateMarkerSpaceML", xrCreateMarkerSpaceML}, {"xrCreateMarkerSpaceVARJO", xrCreateMarkerSpaceVARJO}, {"xrCreatePassthroughColorLutMETA", xrCreatePassthroughColorLutMETA}, {"xrCreatePassthroughFB", xrCreatePassthroughFB}, {"xrCreatePassthroughHTC", xrCreatePassthroughHTC}, {"xrCreatePassthroughLayerFB", xrCreatePassthroughLayerFB}, {"xrCreatePlaneDetectorEXT", xrCreatePlaneDetectorEXT}, {"xrCreateReferenceSpace", xrCreateReferenceSpace}, {"xrCreateSceneMSFT", xrCreateSceneMSFT}, {"xrCreateSceneObserverMSFT", xrCreateSceneObserverMSFT}, {"xrCreateSenseDataProviderBD", xrCreateSenseDataProviderBD}, {"xrCreateSession", xrCreateSession}, {"xrCreateSpaceUserFB", xrCreateSpaceUserFB}, {"xrCreateSpatialAnchorAsyncBD", xrCreateSpatialAnchorAsyncBD}, {"xrCreateSpatialAnchorCompleteBD", xrCreateSpatialAnchorCompleteBD}, {"xrCreateSpatialAnchorFB", xrCreateSpatialAnchorFB}, {"xrCreateSpatialAnchorFromPersistedNameMSFT", xrCreateSpatialAnchorFromPersistedNameMSFT}, {"xrCreateSpatialAnchorHTC", xrCreateSpatialAnchorHTC}, {"xrCreateSpatialAnchorMSFT", xrCreateSpatialAnchorMSFT}, {"xrCreateSpatialAnchorSpaceMSFT", xrCreateSpatialAnchorSpaceMSFT}, {"xrCreateSpatialAnchorStoreConnectionMSFT", xrCreateSpatialAnchorStoreConnectionMSFT}, {"xrCreateSpatialAnchorsAsyncML", xrCreateSpatialAnchorsAsyncML}, {"xrCreateSpatialAnchorsCompleteML", xrCreateSpatialAnchorsCompleteML}, {"xrCreateSpatialAnchorsStorageML", xrCreateSpatialAnchorsStorageML}, {"xrCreateSpatialEntityAnchorBD", xrCreateSpatialEntityAnchorBD}, {"xrCreateSpatialGraphNodeSpaceMSFT", xrCreateSpatialGraphNodeSpaceMSFT}, {"xrCreateSwapchain", xrCreateSwapchain}, {"xrCreateTriangleMeshFB", xrCreateTriangleMeshFB}, {"xrCreateVirtualKeyboardMETA", xrCreateVirtualKeyboardMETA}, {"xrCreateVirtualKeyboardSpaceMETA", xrCreateVirtualKeyboardSpaceMETA}, {"xrCreateVulkanDeviceKHR", xrCreateVulkanDeviceKHR}, {"xrCreateVulkanInstanceKHR", xrCreateVulkanInstanceKHR}, {"xrCreateWorldMeshDetectorML", xrCreateWorldMeshDetectorML}, {"xrDeleteSpatialAnchorsAsyncML", xrDeleteSpatialAnchorsAsyncML}, {"xrDeleteSpatialAnchorsCompleteML", xrDeleteSpatialAnchorsCompleteML}, {"xrDeserializeSceneMSFT", xrDeserializeSceneMSFT}, {"xrDestroyAction", xrDestroyAction}, {"xrDestroyActionSet", xrDestroyActionSet}, {"xrDestroyAnchorBD", xrDestroyAnchorBD}, {"xrDestroyBodyTrackerBD", xrDestroyBodyTrackerBD}, {"xrDestroyBodyTrackerFB", xrDestroyBodyTrackerFB}, {"xrDestroyBodyTrackerHTC", xrDestroyBodyTrackerHTC}, {"xrDestroyEnvironmentDepthProviderMETA", xrDestroyEnvironmentDepthProviderMETA}, {"xrDestroyEnvironmentDepthSwapchainMETA", xrDestroyEnvironmentDepthSwapchainMETA}, {"xrDestroyExportedLocalizationMapML", xrDestroyExportedLocalizationMapML}, {"xrDestroyEyeTrackerFB", xrDestroyEyeTrackerFB}, {"xrDestroyFaceTracker2FB", xrDestroyFaceTracker2FB}, {"xrDestroyFaceTrackerFB", xrDestroyFaceTrackerFB}, {"xrDestroyFacialExpressionClientML", xrDestroyFacialExpressionClientML}, {"xrDestroyFacialTrackerHTC", xrDestroyFacialTrackerHTC}, {"xrDestroyFoveationProfileFB", xrDestroyFoveationProfileFB}, {"xrDestroyGeometryInstanceFB", xrDestroyGeometryInstanceFB}, {"xrDestroyHandTrackerEXT", xrDestroyHandTrackerEXT}, {"xrDestroyInstance", xrDestroyInstance}, {"xrDestroyMarkerDetectorML", xrDestroyMarkerDetectorML}, {"xrDestroyPassthroughColorLutMETA", xrDestroyPassthroughColorLutMETA}, {"xrDestroyPassthroughFB", xrDestroyPassthroughFB}, {"xrDestroyPassthroughHTC", xrDestroyPassthroughHTC}, {"xrDestroyPassthroughLayerFB", xrDestroyPassthroughLayerFB}, {"xrDestroyPlaneDetectorEXT", xrDestroyPlaneDetectorEXT}, {"xrDestroySceneMSFT", xrDestroySceneMSFT}, {"xrDestroySceneObserverMSFT", xrDestroySceneObserverMSFT}, {"xrDestroySenseDataProviderBD", xrDestroySenseDataProviderBD}, {"xrDestroySenseDataSnapshotBD", xrDestroySenseDataSnapshotBD}, {"xrDestroySession", xrDestroySession}, {"xrDestroySpace", xrDestroySpace}, {"xrDestroySpaceUserFB", xrDestroySpaceUserFB}, {"xrDestroySpatialAnchorMSFT", xrDestroySpatialAnchorMSFT}, {"xrDestroySpatialAnchorStoreConnectionMSFT", xrDestroySpatialAnchorStoreConnectionMSFT}, {"xrDestroySpatialAnchorsStorageML", xrDestroySpatialAnchorsStorageML}, {"xrDestroySpatialGraphNodeBindingMSFT", xrDestroySpatialGraphNodeBindingMSFT}, {"xrDestroySwapchain", xrDestroySwapchain}, {"xrDestroyTriangleMeshFB", xrDestroyTriangleMeshFB}, {"xrDestroyVirtualKeyboardMETA", xrDestroyVirtualKeyboardMETA}, {"xrDestroyWorldMeshDetectorML", xrDestroyWorldMeshDetectorML}, {"xrDownloadSharedSpatialAnchorAsyncBD", xrDownloadSharedSpatialAnchorAsyncBD}, {"xrDownloadSharedSpatialAnchorCompleteBD", xrDownloadSharedSpatialAnchorCompleteBD}, {"xrEnableLocalizationEventsML", xrEnableLocalizationEventsML}, {"xrEnableUserCalibrationEventsML", xrEnableUserCalibrationEventsML}, {"xrEndFrame", xrEndFrame}, {"xrEndSession", xrEndSession}, {"xrEnumerateApiLayerProperties", xrEnumerateApiLayerProperties}, {"xrEnumerateBoundSourcesForAction", xrEnumerateBoundSourcesForAction}, {"xrEnumerateColorSpacesFB", xrEnumerateColorSpacesFB}, {"xrEnumerateDisplayRefreshRatesFB", xrEnumerateDisplayRefreshRatesFB}, {"xrEnumerateEnvironmentBlendModes", xrEnumerateEnvironmentBlendModes}, {"xrEnumerateEnvironmentDepthSwapchainImagesMETA", xrEnumerateEnvironmentDepthSwapchainImagesMETA}, {"xrEnumerateExternalCamerasOCULUS", xrEnumerateExternalCamerasOCULUS}, {"xrEnumerateInstanceExtensionProperties", xrEnumerateInstanceExtensionProperties}, {"xrEnumeratePerformanceMetricsCounterPathsMETA", xrEnumeratePerformanceMetricsCounterPathsMETA}, {"xrEnumeratePersistedSpatialAnchorNamesMSFT", xrEnumeratePersistedSpatialAnchorNamesMSFT}, {"xrEnumerateReferenceSpaces", xrEnumerateReferenceSpaces}, {"xrEnumerateRenderModelPathsFB", xrEnumerateRenderModelPathsFB}, {"xrEnumerateReprojectionModesMSFT", xrEnumerateReprojectionModesMSFT}, {"xrEnumerateSceneComputeFeaturesMSFT", xrEnumerateSceneComputeFeaturesMSFT}, {"xrEnumerateSpaceSupportedComponentsFB", xrEnumerateSpaceSupportedComponentsFB}, {"xrEnumerateSpatialEntityComponentTypesBD", xrEnumerateSpatialEntityComponentTypesBD}, {"xrEnumerateSwapchainFormats", xrEnumerateSwapchainFormats}, {"xrEnumerateSwapchainImages", xrEnumerateSwapchainImages}, {"xrEnumerateViewConfigurationViews", xrEnumerateViewConfigurationViews}, {"xrEnumerateViewConfigurations", xrEnumerateViewConfigurations}, {"xrEnumerateViveTrackerPathsHTCX", xrEnumerateViveTrackerPathsHTCX}, {"xrEraseSpaceFB", xrEraseSpaceFB}, {"xrFreeWorldMeshBufferML", xrFreeWorldMeshBufferML}, {"xrGeometryInstanceSetTransformFB", xrGeometryInstanceSetTransformFB}, {"xrGetActionStateBoolean", xrGetActionStateBoolean}, {"xrGetActionStateFloat", xrGetActionStateFloat}, {"xrGetActionStatePose", xrGetActionStatePose}, {"xrGetActionStateVector2f", xrGetActionStateVector2f}, {"xrGetAnchorUuidBD", xrGetAnchorUuidBD}, {"xrGetAudioInputDeviceGuidOculus", xrGetAudioInputDeviceGuidOculus}, {"xrGetAudioOutputDeviceGuidOculus", xrGetAudioOutputDeviceGuidOculus}, {"xrGetBodySkeletonFB", xrGetBodySkeletonFB}, {"xrGetBodySkeletonHTC", xrGetBodySkeletonHTC}, {"xrGetControllerModelKeyMSFT", xrGetControllerModelKeyMSFT}, {"xrGetControllerModelPropertiesMSFT", xrGetControllerModelPropertiesMSFT}, {"xrGetControllerModelStateMSFT", xrGetControllerModelStateMSFT}, {"xrGetCurrentInteractionProfile", xrGetCurrentInteractionProfile}, {"xrGetD3D11GraphicsRequirementsKHR", xrGetD3D11GraphicsRequirementsKHR}, {"xrGetD3D12GraphicsRequirementsKHR", xrGetD3D12GraphicsRequirementsKHR}, {"xrGetDeviceSampleRateFB", xrGetDeviceSampleRateFB}, {"xrGetDisplayRefreshRateFB", xrGetDisplayRefreshRateFB}, {"xrGetEnvironmentDepthSwapchainStateMETA", xrGetEnvironmentDepthSwapchainStateMETA}, {"xrGetExportedLocalizationMapDataML", xrGetExportedLocalizationMapDataML}, {"xrGetEyeGazesFB", xrGetEyeGazesFB}, {"xrGetFaceExpressionWeights2FB", xrGetFaceExpressionWeights2FB}, {"xrGetFaceExpressionWeightsFB", xrGetFaceExpressionWeightsFB}, {"xrGetFacialExpressionBlendShapePropertiesML", xrGetFacialExpressionBlendShapePropertiesML}, {"xrGetFacialExpressionsHTC", xrGetFacialExpressionsHTC}, {"xrGetFoveationEyeTrackedStateMETA", xrGetFoveationEyeTrackedStateMETA}, {"xrGetHandMeshFB", xrGetHandMeshFB}, {"xrGetInputSourceLocalizedName", xrGetInputSourceLocalizedName}, {"xrGetInstanceProcAddr", xrGetInstanceProcAddr}, {"xrGetInstanceProperties", xrGetInstanceProperties}, {"xrGetMarkerDetectorStateML", xrGetMarkerDetectorStateML}, {"xrGetMarkerLengthML", xrGetMarkerLengthML}, {"xrGetMarkerNumberML", xrGetMarkerNumberML}, {"xrGetMarkerReprojectionErrorML", xrGetMarkerReprojectionErrorML}, {"xrGetMarkerSizeVARJO", xrGetMarkerSizeVARJO}, {"xrGetMarkerStringML", xrGetMarkerStringML}, {"xrGetMarkersML", xrGetMarkersML}, {"xrGetOpenGLGraphicsRequirementsKHR", xrGetOpenGLGraphicsRequirementsKHR}, {"xrGetPassthroughPreferencesMETA", xrGetPassthroughPreferencesMETA}, {"xrGetPerformanceMetricsStateMETA", xrGetPerformanceMetricsStateMETA}, {"xrGetPlaneDetectionStateEXT", xrGetPlaneDetectionStateEXT}, {"xrGetPlaneDetectionsEXT", xrGetPlaneDetectionsEXT}, {"xrGetPlanePolygonBufferEXT", xrGetPlanePolygonBufferEXT}, {"xrGetQueriedSenseDataBD", xrGetQueriedSenseDataBD}, {"xrGetRecommendedLayerResolutionMETA", xrGetRecommendedLayerResolutionMETA}, {"xrGetReferenceSpaceBoundsRect", xrGetReferenceSpaceBoundsRect}, {"xrGetRenderModelPropertiesFB", xrGetRenderModelPropertiesFB}, {"xrGetSceneComponentsMSFT", xrGetSceneComponentsMSFT}, {"xrGetSceneComputeStateMSFT", xrGetSceneComputeStateMSFT}, {"xrGetSceneMarkerDecodedStringMSFT", xrGetSceneMarkerDecodedStringMSFT}, {"xrGetSceneMarkerRawDataMSFT", xrGetSceneMarkerRawDataMSFT}, {"xrGetSceneMeshBuffersMSFT", xrGetSceneMeshBuffersMSFT}, {"xrGetSenseDataProviderStateBD", xrGetSenseDataProviderStateBD}, {"xrGetSerializedSceneFragmentDataMSFT", xrGetSerializedSceneFragmentDataMSFT}, {"xrGetSpaceBoundary2DFB", xrGetSpaceBoundary2DFB}, {"xrGetSpaceBoundingBox2DFB", xrGetSpaceBoundingBox2DFB}, {"xrGetSpaceBoundingBox3DFB", xrGetSpaceBoundingBox3DFB}, {"xrGetSpaceComponentStatusFB", xrGetSpaceComponentStatusFB}, {"xrGetSpaceContainerFB", xrGetSpaceContainerFB}, {"xrGetSpaceRoomLayoutFB", xrGetSpaceRoomLayoutFB}, {"xrGetSpaceSemanticLabelsFB", xrGetSpaceSemanticLabelsFB}, {"xrGetSpaceTriangleMeshMETA", xrGetSpaceTriangleMeshMETA}, {"xrGetSpaceUserIdFB", xrGetSpaceUserIdFB}, {"xrGetSpaceUuidFB", xrGetSpaceUuidFB}, {"xrGetSpatialAnchorNameHTC", xrGetSpatialAnchorNameHTC}, {"xrGetSpatialAnchorStateML", xrGetSpatialAnchorStateML}, {"xrGetSpatialEntityComponentDataBD", xrGetSpatialEntityComponentDataBD}, {"xrGetSpatialEntityUuidBD", xrGetSpatialEntityUuidBD}, {"xrGetSpatialGraphNodeBindingPropertiesMSFT", xrGetSpatialGraphNodeBindingPropertiesMSFT}, {"xrGetSwapchainStateFB", xrGetSwapchainStateFB}, {"xrGetSystem", xrGetSystem}, {"xrGetSystemProperties", xrGetSystemProperties}, {"xrGetViewConfigurationProperties", xrGetViewConfigurationProperties}, {"xrGetVirtualKeyboardDirtyTexturesMETA", xrGetVirtualKeyboardDirtyTexturesMETA}, {"xrGetVirtualKeyboardModelAnimationStatesMETA", xrGetVirtualKeyboardModelAnimationStatesMETA}, {"xrGetVirtualKeyboardScaleMETA", xrGetVirtualKeyboardScaleMETA}, {"xrGetVirtualKeyboardTextureDataMETA", xrGetVirtualKeyboardTextureDataMETA}, {"xrGetVisibilityMaskKHR", xrGetVisibilityMaskKHR}, {"xrGetVulkanDeviceExtensionsKHR", xrGetVulkanDeviceExtensionsKHR}, {"xrGetVulkanGraphicsDevice2KHR", xrGetVulkanGraphicsDevice2KHR}, {"xrGetVulkanGraphicsDeviceKHR", xrGetVulkanGraphicsDeviceKHR}, {"xrGetVulkanGraphicsRequirements2KHR", xrGetVulkanGraphicsRequirements2KHR}, {"xrGetVulkanGraphicsRequirementsKHR", xrGetVulkanGraphicsRequirementsKHR}, {"xrGetVulkanInstanceExtensionsKHR", xrGetVulkanInstanceExtensionsKHR}, {"xrGetWorldMeshBufferRecommendSizeML", xrGetWorldMeshBufferRecommendSizeML}, {"xrImportLocalizationMapML", xrImportLocalizationMapML}, {"xrLoadControllerModelMSFT", xrLoadControllerModelMSFT}, {"xrLoadRenderModelFB", xrLoadRenderModelFB}, {"xrLocateBodyJointsBD", xrLocateBodyJointsBD}, {"xrLocateBodyJointsFB", xrLocateBodyJointsFB}, {"xrLocateBodyJointsHTC", xrLocateBodyJointsHTC}, {"xrLocateHandJointsEXT", xrLocateHandJointsEXT}, {"xrLocateSceneComponentsMSFT", xrLocateSceneComponentsMSFT}, {"xrLocateSpace", xrLocateSpace}, {"xrLocateSpaces", xrLocateSpaces}, {"xrLocateSpacesKHR", xrLocateSpacesKHR}, {"xrLocateViews", xrLocateViews}, {"xrNegotiateLoaderRuntimeInterface", xrNegotiateLoaderRuntimeInterface}, {"xrPassthroughLayerPauseFB", xrPassthroughLayerPauseFB}, {"xrPassthroughLayerResumeFB", xrPassthroughLayerResumeFB}, {"xrPassthroughLayerSetKeyboardHandsIntensityFB", xrPassthroughLayerSetKeyboardHandsIntensityFB}, {"xrPassthroughLayerSetStyleFB", xrPassthroughLayerSetStyleFB}, {"xrPassthroughPauseFB", xrPassthroughPauseFB}, {"xrPassthroughStartFB", xrPassthroughStartFB}, {"xrPathToString", xrPathToString}, {"xrPerfSettingsSetPerformanceLevelEXT", xrPerfSettingsSetPerformanceLevelEXT}, {"xrPersistSpatialAnchorAsyncBD", xrPersistSpatialAnchorAsyncBD}, {"xrPersistSpatialAnchorCompleteBD", xrPersistSpatialAnchorCompleteBD}, {"xrPersistSpatialAnchorMSFT", xrPersistSpatialAnchorMSFT}, {"xrPollEvent", xrPollEvent}, {"xrPollFutureEXT", xrPollFutureEXT}, {"xrPublishSpatialAnchorsAsyncML", xrPublishSpatialAnchorsAsyncML}, {"xrPublishSpatialAnchorsCompleteML", xrPublishSpatialAnchorsCompleteML}, {"xrQueryLocalizationMapsML", xrQueryLocalizationMapsML}, {"xrQueryPerformanceMetricsCounterMETA", xrQueryPerformanceMetricsCounterMETA}, {"xrQuerySenseDataAsyncBD", xrQuerySenseDataAsyncBD}, {"xrQuerySenseDataCompleteBD", xrQuerySenseDataCompleteBD}, {"xrQuerySpacesFB", xrQuerySpacesFB}, {"xrQuerySpatialAnchorsAsyncML", xrQuerySpatialAnchorsAsyncML}, {"xrQuerySpatialAnchorsCompleteML", xrQuerySpatialAnchorsCompleteML}, {"xrQuerySystemTrackedKeyboardFB", xrQuerySystemTrackedKeyboardFB}, {"xrReleaseSwapchainImage", xrReleaseSwapchainImage}, {"xrRequestDisplayRefreshRateFB", xrRequestDisplayRefreshRateFB}, {"xrRequestExitSession", xrRequestExitSession}, {"xrRequestMapLocalizationML", xrRequestMapLocalizationML}, {"xrRequestSceneCaptureFB", xrRequestSceneCaptureFB}, {"xrRequestWorldMeshAsyncML", xrRequestWorldMeshAsyncML}, {"xrRequestWorldMeshCompleteML", xrRequestWorldMeshCompleteML}, {"xrRequestWorldMeshStateAsyncML", xrRequestWorldMeshStateAsyncML}, {"xrRequestWorldMeshStateCompleteML", xrRequestWorldMeshStateCompleteML}, {"xrResultToString", xrResultToString}, {"xrRetrieveSpaceQueryResultsFB", xrRetrieveSpaceQueryResultsFB}, {"xrSaveSpaceFB", xrSaveSpaceFB}, {"xrSaveSpaceListFB", xrSaveSpaceListFB}, {"xrSendVirtualKeyboardInputMETA", xrSendVirtualKeyboardInputMETA}, {"xrSetColorSpaceFB", xrSetColorSpaceFB}, {"xrSetDigitalLensControlALMALENCE", xrSetDigitalLensControlALMALENCE}, {"xrSetEnvironmentDepthEstimationVARJO", xrSetEnvironmentDepthEstimationVARJO}, {"xrSetEnvironmentDepthHandRemovalMETA", xrSetEnvironmentDepthHandRemovalMETA}, {"xrSetInputDeviceActiveEXT", xrSetInputDeviceActiveEXT}, {"xrSetInputDeviceLocationEXT", xrSetInputDeviceLocationEXT}, {"xrSetInputDeviceStateBoolEXT", xrSetInputDeviceStateBoolEXT}, {"xrSetInputDeviceStateFloatEXT", xrSetInputDeviceStateFloatEXT}, {"xrSetInputDeviceStateVector2fEXT", xrSetInputDeviceStateVector2fEXT}, {"xrSetMarkerTrackingPredictionVARJO", xrSetMarkerTrackingPredictionVARJO}, {"xrSetMarkerTrackingTimeoutVARJO", xrSetMarkerTrackingTimeoutVARJO}, {"xrSetMarkerTrackingVARJO", xrSetMarkerTrackingVARJO}, {"xrSetPerformanceMetricsStateMETA", xrSetPerformanceMetricsStateMETA}, {"xrSetSpaceComponentStatusFB", xrSetSpaceComponentStatusFB}, {"xrSetSystemNotificationsML", xrSetSystemNotificationsML}, {"xrSetTrackingOptimizationSettingsHintQCOM", xrSetTrackingOptimizationSettingsHintQCOM}, {"xrSetViewOffsetVARJO", xrSetViewOffsetVARJO}, {"xrSetVirtualKeyboardModelVisibilityMETA", xrSetVirtualKeyboardModelVisibilityMETA}, {"xrShareSpacesFB", xrShareSpacesFB}, {"xrShareSpacesMETA", xrShareSpacesMETA}, {"xrShareSpatialAnchorAsyncBD", xrShareSpatialAnchorAsyncBD}, {"xrShareSpatialAnchorCompleteBD", xrShareSpatialAnchorCompleteBD}, {"xrSnapshotMarkerDetectorML", xrSnapshotMarkerDetectorML}, {"xrStartColocationAdvertisementMETA", xrStartColocationAdvertisementMETA}, {"xrStartColocationDiscoveryMETA", xrStartColocationDiscoveryMETA}, {"xrStartEnvironmentDepthProviderMETA", xrStartEnvironmentDepthProviderMETA}, {"xrStartSenseDataProviderAsyncBD", xrStartSenseDataProviderAsyncBD}, {"xrStartSenseDataProviderCompleteBD", xrStartSenseDataProviderCompleteBD}, {"xrStopColocationAdvertisementMETA", xrStopColocationAdvertisementMETA}, {"xrStopColocationDiscoveryMETA", xrStopColocationDiscoveryMETA}, {"xrStopEnvironmentDepthProviderMETA", xrStopEnvironmentDepthProviderMETA}, {"xrStopHapticFeedback", xrStopHapticFeedback}, {"xrStopSenseDataProviderBD", xrStopSenseDataProviderBD}, {"xrStringToPath", xrStringToPath}, {"xrStructureTypeToString", xrStructureTypeToString}, {"xrStructureTypeToString2KHR", xrStructureTypeToString2KHR}, {"xrSuggestInteractionProfileBindings", xrSuggestInteractionProfileBindings}, {"xrSuggestVirtualKeyboardLocationMETA", xrSuggestVirtualKeyboardLocationMETA}, {"xrSyncActions", xrSyncActions}, {"xrThermalGetTemperatureTrendEXT", xrThermalGetTemperatureTrendEXT}, {"xrTriangleMeshBeginUpdateFB", xrTriangleMeshBeginUpdateFB}, {"xrTriangleMeshBeginVertexBufferUpdateFB", xrTriangleMeshBeginVertexBufferUpdateFB}, {"xrTriangleMeshEndUpdateFB", xrTriangleMeshEndUpdateFB}, {"xrTriangleMeshEndVertexBufferUpdateFB", xrTriangleMeshEndVertexBufferUpdateFB}, {"xrTriangleMeshGetIndexBufferFB", xrTriangleMeshGetIndexBufferFB}, {"xrTriangleMeshGetVertexBufferFB", xrTriangleMeshGetVertexBufferFB}, {"xrTryCreateSpatialGraphStaticNodeBindingMSFT", xrTryCreateSpatialGraphStaticNodeBindingMSFT}, {"xrUnpersistSpatialAnchorAsyncBD", xrUnpersistSpatialAnchorAsyncBD}, {"xrUnpersistSpatialAnchorCompleteBD", xrUnpersistSpatialAnchorCompleteBD}, {"xrUnpersistSpatialAnchorMSFT", xrUnpersistSpatialAnchorMSFT}, {"xrUpdateHandMeshMSFT", xrUpdateHandMeshMSFT}, {"xrUpdatePassthroughColorLutMETA", xrUpdatePassthroughColorLutMETA}, {"xrUpdateSpatialAnchorsExpirationAsyncML", xrUpdateSpatialAnchorsExpirationAsyncML}, {"xrUpdateSpatialAnchorsExpirationCompleteML", xrUpdateSpatialAnchorsExpirationCompleteML}, {"xrUpdateSwapchainFB", xrUpdateSwapchainFB}, {"xrWaitFrame", xrWaitFrame}, {"xrWaitSwapchainImage", xrWaitSwapchainImage}, }; void *wine_xr_get_instance_proc_addr(const char *name) { unsigned int i; for (i = 0; i < ARRAY_SIZE(xr_instance_dispatch_table); i++) { if (strcmp(xr_instance_dispatch_table[i].name, name) == 0) { TRACE("Found name=%s in instance table\n", debugstr_a(name)); return xr_instance_dispatch_table[i].func; } } return NULL; }