nuclear@0: #ifdef WIN32
nuclear@0: #define OVR_OS_WIN32
nuclear@24: #elif defined(__APPLE__)
nuclear@9: #define OVR_OS_MAC
nuclear@24: #else
nuclear@24: #define OVR_OS_LINUX
nuclear@9: #endif
nuclear@0: 
nuclear@0: #include "vr_impl.h"
nuclear@0: 
nuclear@0: #ifdef USE_LIBOVR
nuclear@0: #include <stdio.h>
nuclear@0: #include <stdlib.h>
nuclear@9: #include <string.h>
nuclear@0: #include <assert.h>
nuclear@0: #include "opt.h"
nuclear@0: 
nuclear@0: #include <OVR_CAPI.h>
nuclear@0: #include <OVR_CAPI_GL.h>
nuclear@0: 
nuclear@24: #ifdef OVR_OS_LINUX
nuclear@24: #include <GL/glx.h>
nuclear@24: #endif
nuclear@24: 
nuclear@19: /* undef this if you want the retarded health and safety warning screen */
nuclear@28: #undef DISABLE_RETARDED_HEALTH_WARNING
nuclear@0: 
nuclear@0: /* just dropping the prototype here to avoid including CAPI_HSWDisplay.h */
nuclear@0: OVR_EXPORT void ovrhmd_EnableHSWDisplaySDKRender(ovrHmd hmd, ovrBool enabled);
nuclear@0: 
nuclear@0: static ovrHmd hmd;
nuclear@0: static void *optdb;
nuclear@0: static ovrEyeRenderDesc eye_render_desc[2];
nuclear@0: static ovrSizei eye_res[2];
nuclear@0: static ovrGLTexture eye_tex[2];
nuclear@0: static ovrFovPort eye_fov[2];
nuclear@19: static ovrPosef pose[2] = {
nuclear@19: 		{ {0, 0, 0, 1}, {0, 0, 0} },
nuclear@19: 		{ {0, 0, 0, 1}, {0, 0, 0} }
nuclear@19: };
nuclear@0: static int deferred_init_done;
nuclear@0: 
nuclear@19: static int inside_begin_end;
nuclear@19: 
nuclear@0: static int init(void)
nuclear@0: {
nuclear@0: 	int i, num_hmds;
nuclear@9: 	int use_fake = 0;
nuclear@14: 	ovrTrackingCaps tracking;
nuclear@0: 
nuclear@28: 	if(!ovr_Initialize(0)) {
nuclear@0: 		return -1;
nuclear@0: 	}
nuclear@0: 	printf("initialized LibOVR %s\n", ovr_GetVersionString());
nuclear@0: 
nuclear@0: 	if(!(num_hmds = ovrHmd_Detect())) {
nuclear@9: 		if(getenv("VR_LIBOVR_FAKE")) {
nuclear@9: 			use_fake = 1;
nuclear@9: 			num_hmds = 1;
nuclear@9: 		} else {
nuclear@9: 			ovr_Shutdown();
nuclear@9: 			return -1;
nuclear@9: 		}
nuclear@0: 	}
nuclear@0: 	printf("%d Oculus HMD(s) found\n", num_hmds);
nuclear@0: 
nuclear@0: 	hmd = 0;
nuclear@0: 	for(i=0; i<num_hmds; i++) {
nuclear@9: 		ovrHmd h = use_fake ? ovrHmd_CreateDebug(ovrHmd_DK2) : ovrHmd_Create(i);
nuclear@9: 		if(!h) {
nuclear@0: 			break;
nuclear@0: 		}
nuclear@0: 		printf(" [%d]: %s - %s\n", i, h->Manufacturer, h->ProductName);
nuclear@0: 
nuclear@0: 		if(!hmd) {
nuclear@0: 			hmd = h;
nuclear@0: 		} else {
nuclear@0: 			ovrHmd_Destroy(h);
nuclear@0: 		}
nuclear@0: 	}
nuclear@0: 
nuclear@0: 	if(!hmd) {
nuclear@0: 		fprintf(stderr, "failed to initialize any Oculus HMDs\n");
nuclear@0: 		return -1;
nuclear@0: 	}
nuclear@0: 
nuclear@14: 	tracking = ovrTrackingCap_Orientation | ovrTrackingCap_Position |
nuclear@14: 		ovrTrackingCap_MagYawCorrection;
nuclear@14: 	ovrHmd_ConfigureTracking(hmd, tracking, 0);
nuclear@0: 
nuclear@0: 	eye_fov[0] = hmd->DefaultEyeFov[0];
nuclear@0: 	eye_fov[1] = hmd->DefaultEyeFov[1];
nuclear@0: 
nuclear@0: 	eye_res[0] = ovrHmd_GetFovTextureSize(hmd, ovrEye_Left, eye_fov[0], 1.0);
nuclear@0: 	eye_res[1] = ovrHmd_GetFovTextureSize(hmd, ovrEye_Right, eye_fov[1], 1.0);
nuclear@0: 
nuclear@0: 	/* create the options database */
nuclear@0: 	if((optdb = create_options())) {
nuclear@11: 		set_option_int(optdb, VR_DISPLAY_WIDTH, hmd->Resolution.w);
nuclear@11: 		set_option_int(optdb, VR_DISPLAY_HEIGHT, hmd->Resolution.h);
nuclear@11: 		set_option_int(optdb, VR_LEYE_XRES, eye_res[0].w);
nuclear@11: 		set_option_int(optdb, VR_LEYE_YRES, eye_res[0].h);
nuclear@11: 		set_option_int(optdb, VR_REYE_XRES, eye_res[1].w);
nuclear@11: 		set_option_int(optdb, VR_REYE_YRES, eye_res[1].h);
nuclear@16: 		set_option_float(optdb, VR_RENDER_RES_SCALE, 1.0);
nuclear@11: 		set_option_float(optdb, VR_EYE_HEIGHT, ovrHmd_GetFloat(hmd, OVR_KEY_EYE_HEIGHT, OVR_DEFAULT_EYE_HEIGHT));
nuclear@11: 		set_option_float(optdb, VR_IPD, ovrHmd_GetFloat(hmd, OVR_KEY_IPD, OVR_DEFAULT_IPD));
nuclear@11: 		set_option_int(optdb, VR_WIN_XOFFS, hmd->WindowsPos.x);
nuclear@11: 		set_option_int(optdb, VR_WIN_YOFFS, hmd->WindowsPos.y);
nuclear@0: 	}
nuclear@0: 
nuclear@0: 	deferred_init_done = 0;
nuclear@0: 	return 0;
nuclear@0: }
nuclear@0: 
nuclear@0: static void deferred_init(void)
nuclear@0: {
nuclear@0: 	union ovrGLConfig glcfg;
nuclear@0: 	unsigned int dcaps;
nuclear@0: 	void *win = 0;
nuclear@19: 	float leye_offs[3], reye_offs[3];
nuclear@0: 
nuclear@0: 	deferred_init_done = 1;
nuclear@0: 
nuclear@0: 	memset(&glcfg, 0, sizeof glcfg);
nuclear@0: 	glcfg.OGL.Header.API = ovrRenderAPI_OpenGL;
nuclear@21: 	glcfg.OGL.Header.BackBufferSize = hmd->Resolution;
nuclear@0: 	glcfg.OGL.Header.Multisample = 1;
nuclear@0: #ifdef WIN32
nuclear@0: 	win = GetActiveWindow();
nuclear@24: 	glcfg.OGL.Window = win;
nuclear@0: 	glcfg.OGL.DC = wglGetCurrentDC();
nuclear@24: #else
nuclear@24: 	glcfg.OGL.Disp = glXGetCurrentDisplay();
nuclear@24: 	win = (void*)glXGetCurrentDrawable();
nuclear@24: 
nuclear@24: 	/* on linux the Oculus SDK docs are instructing users to leave the DK2 screen in
nuclear@24: 	 * portrait mode. So we'll have to flip width and height
nuclear@24: 	 */
nuclear@24: 	glcfg.OGL.Header.BackBufferSize.w = hmd->Resolution.h;
nuclear@24: 	glcfg.OGL.Header.BackBufferSize.h = hmd->Resolution.w;
nuclear@0: #endif
nuclear@0: 
nuclear@0: 	if(!(hmd->HmdCaps & ovrHmdCap_ExtendDesktop)) {
nuclear@0: 		ovrHmd_AttachToWindow(hmd, win, 0, 0);
nuclear@0: 		printf("running in \"direct-to-rift\" mode\n");
nuclear@0: 	} else {
nuclear@0: 		printf("running in \"extended desktop\" mode\n");
nuclear@0: 	}
nuclear@0: 	ovrHmd_SetEnabledCaps(hmd, ovrHmdCap_LowPersistence | ovrHmdCap_DynamicPrediction);
nuclear@0: 
nuclear@28: 	dcaps = ovrDistortionCap_TimeWarp |	ovrDistortionCap_Overdrive;
nuclear@24: #ifdef OVR_OS_LINUX
nuclear@24: 	dcaps |= ovrDistortionCap_LinuxDevFullscreen;
nuclear@24: #endif
nuclear@0: 
nuclear@0: 	if(!ovrHmd_ConfigureRendering(hmd, &glcfg.Config, dcaps, eye_fov, eye_render_desc)) {
nuclear@0: 		fprintf(stderr, "failed to configure LibOVR distortion renderer\n");
nuclear@0: 	}
nuclear@0: 
nuclear@19: 	/* set the eye offset options */
nuclear@21: 	leye_offs[0] = eye_render_desc[ovrEye_Left].HmdToEyeViewOffset.x;
nuclear@21: 	leye_offs[1] = eye_render_desc[ovrEye_Left].HmdToEyeViewOffset.y;
nuclear@21: 	leye_offs[2] = eye_render_desc[ovrEye_Left].HmdToEyeViewOffset.z;
nuclear@21: 	reye_offs[0] = eye_render_desc[ovrEye_Right].HmdToEyeViewOffset.x;
nuclear@21: 	reye_offs[1] = eye_render_desc[ovrEye_Right].HmdToEyeViewOffset.y;
nuclear@21: 	reye_offs[2] = eye_render_desc[ovrEye_Right].HmdToEyeViewOffset.z;
nuclear@24: 
nuclear@24: 	/* sanity check ... on linux it seems I'm getting the eye offsets reversed for some reason */
nuclear@24: 	if(leye_offs[0] > reye_offs[0]) {
nuclear@24: 		fprintf(stderr, "BUG %s:%d: eye offset reversed?! fixing but wtf...\n", __FILE__, __LINE__);
nuclear@24: 		set_option_vec(optdb, VR_LEYE_OFFSET, reye_offs);
nuclear@24: 		set_option_vec(optdb, VR_REYE_OFFSET, leye_offs);
nuclear@24: 	} else {
nuclear@24: 		set_option_vec(optdb, VR_LEYE_OFFSET, leye_offs);
nuclear@24: 		set_option_vec(optdb, VR_REYE_OFFSET, reye_offs);
nuclear@24: 	}
nuclear@24: 
nuclear@19: 
nuclear@0: #ifdef DISABLE_RETARDED_HEALTH_WARNING
nuclear@0: 	ovrhmd_EnableHSWDisplaySDKRender(hmd, 0);
nuclear@0: #endif
nuclear@0: }
nuclear@0: 
nuclear@0: static void cleanup(void)
nuclear@0: {
nuclear@0: 	if(hmd) {
nuclear@0: 		ovrHmd_Destroy(hmd);
nuclear@0: 		ovr_Shutdown();
nuclear@0: 	}
nuclear@5: 	destroy_options(optdb);
nuclear@0: }
nuclear@0: 
nuclear@0: static int set_option(const char *opt, enum opt_type type, void *valp)
nuclear@0: {
nuclear@15: 	float fval;
nuclear@15: 
nuclear@0: 	switch(type) {
nuclear@0: 	case OTYPE_INT:
nuclear@15: 		fval = (float)*(int*)valp;
nuclear@0: 		set_option_int(optdb, opt, *(int*)valp);
nuclear@0: 		break;
nuclear@0: 
nuclear@0: 	case OTYPE_FLOAT:
nuclear@15: 		fval = *(float*)valp;
nuclear@15: 		set_option_float(optdb, opt, fval);
nuclear@0: 		break;
nuclear@24: 
nuclear@24: 	case OTYPE_VEC:
nuclear@24: 		set_option_vec(optdb, opt, valp);
nuclear@24: 		break;
nuclear@0: 	}
nuclear@15: 
nuclear@16: 	if(hmd && strcmp(opt, VR_RENDER_RES_SCALE) == 0) {
nuclear@15: 		eye_res[0] = ovrHmd_GetFovTextureSize(hmd, ovrEye_Left, eye_fov[0], fval);
nuclear@15: 		eye_res[1] = ovrHmd_GetFovTextureSize(hmd, ovrEye_Right, eye_fov[1], fval);
nuclear@15: 
nuclear@15: 		set_option_int(optdb, VR_LEYE_XRES, eye_res[0].w);
nuclear@15: 		set_option_int(optdb, VR_LEYE_YRES, eye_res[0].h);
nuclear@15: 		set_option_int(optdb, VR_REYE_XRES, eye_res[1].w);
nuclear@15: 		set_option_int(optdb, VR_REYE_YRES, eye_res[1].h);
nuclear@15: 	}
nuclear@15: 
nuclear@0: 	return 0;
nuclear@0: }
nuclear@0: 
nuclear@0: static int get_option(const char *opt, enum opt_type type, void *valp)
nuclear@0: {
nuclear@0: 	switch(type) {
nuclear@0: 	case OTYPE_INT:
nuclear@0: 		return get_option_int(optdb, opt, valp);
nuclear@0: 	case OTYPE_FLOAT:
nuclear@0: 		return get_option_float(optdb, opt, valp);
nuclear@24: 	case OTYPE_VEC:
nuclear@24: 		return get_option_vec(optdb, opt, valp);
nuclear@0: 	}
nuclear@0: 	return -1;
nuclear@0: }
nuclear@0: 
nuclear@7: static void translation(int eye, float *vec)
nuclear@0: {
nuclear@0: 	if(!hmd) {
nuclear@0: 		vec[0] = vec[1] = vec[2] = 0;
nuclear@9: 		return;
nuclear@0: 	}
nuclear@0: 
nuclear@19: 	/* if we're inside the begin-end block we can get a fresh pose, otherwise we'll just
nuclear@19: 	 * reuse the one we got last frame.
nuclear@19: 	 */
nuclear@19: 	if(inside_begin_end) {
nuclear@21: 		pose[eye] = ovrHmd_GetHmdPosePerEye(hmd, eye == VR_EYE_LEFT ? ovrEye_Left : ovrEye_Right);
nuclear@19: 	}
nuclear@19: 
nuclear@19: 	vec[0] = pose[eye].Position.x;
nuclear@19: 	vec[1] = pose[eye].Position.y;
nuclear@19: 	vec[2] = pose[eye].Position.z;
nuclear@0: }
nuclear@0: 
nuclear@7: static void rotation(int eye, float *quat)
nuclear@0: {
nuclear@0: 	if(!hmd) {
nuclear@0: 		quat[0] = quat[1] = quat[2] = 0.0f;
nuclear@0: 		quat[3] = 1.0f;
nuclear@9: 		return;
nuclear@0: 	}
nuclear@0: 
nuclear@19: 	/* same as above (translation) */
nuclear@19: 	if(inside_begin_end) {
nuclear@21: 		pose[eye] = ovrHmd_GetHmdPosePerEye(hmd, eye == VR_EYE_LEFT ? ovrEye_Left : ovrEye_Right);
nuclear@19: 	}
nuclear@19: 
nuclear@0: 	quat[0] = pose[eye].Orientation.x;
nuclear@0: 	quat[1] = pose[eye].Orientation.y;
nuclear@0: 	quat[2] = pose[eye].Orientation.z;
nuclear@0: 	quat[3] = pose[eye].Orientation.w;
nuclear@0: }
nuclear@0: 
nuclear@0: static const float idmat[] = {1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1};
nuclear@0: 
nuclear@0: static void proj_matrix(int eye, float znear, float zfar, float *mat)
nuclear@0: {
nuclear@0: 	int i, j;
nuclear@0: 	ovrMatrix4f vmat;
nuclear@0: 
nuclear@0: 	if(!hmd) {
nuclear@0: 		memcpy(mat, idmat, sizeof idmat);
nuclear@0: 		return;
nuclear@0: 	}
nuclear@0: 
nuclear@0: 	vmat = ovrMatrix4f_Projection(eye_render_desc[eye].Fov, znear, zfar, 1);
nuclear@0: 
nuclear@0: 	for(i=0; i<4; i++) {
nuclear@0: 		for(j=0; j<4; j++) {
nuclear@0: 			*mat++ = vmat.M[j][i];
nuclear@0: 		}
nuclear@0: 	}
nuclear@0: }
nuclear@0: 
nuclear@0: static void begin(int eye)
nuclear@0: {
nuclear@0: 	if(!hmd) return;
nuclear@0: 
nuclear@0: 	if(!deferred_init_done) {
nuclear@0: 		deferred_init();
nuclear@0: 	}
nuclear@0: 
nuclear@19: 	if(!inside_begin_end) {
nuclear@0: 		ovrHmd_BeginFrame(hmd, 0);
nuclear@19: 		inside_begin_end = 1;
nuclear@0: 	}
nuclear@0: }
nuclear@0: 
nuclear@0: static int present(void)
nuclear@0: {
nuclear@24: 	int cur_prog;
nuclear@24: 
nuclear@0: 	if(!hmd) return 0;
nuclear@0: 
nuclear@24: 	glGetIntegerv(GL_CURRENT_PROGRAM, &cur_prog);
nuclear@24: 
nuclear@0: 	ovrHmd_EndFrame(hmd, pose, &eye_tex[0].Texture);
nuclear@19: 	inside_begin_end = 0;
nuclear@0: 
nuclear@24: 	if(cur_prog) {
nuclear@28: 		/*glUseProgram(0);*/
nuclear@24: 	}
nuclear@24: 
nuclear@0: 	return 1;
nuclear@0: }
nuclear@0: 
nuclear@0: static void set_eye_texture(int eye, unsigned int tex, float umin, float vmin, float umax, float vmax)
nuclear@0: {
nuclear@0: 	ovrSizei texsz;
nuclear@0: 	ovrRecti rect;
nuclear@0: 
nuclear@0: 	glBindTexture(GL_TEXTURE_2D, tex);
nuclear@0: 	glGetTexLevelParameteriv(GL_TEXTURE_2D, 0, GL_TEXTURE_WIDTH, &texsz.w);
nuclear@0: 	glGetTexLevelParameteriv(GL_TEXTURE_2D, 0, GL_TEXTURE_HEIGHT, &texsz.h);
nuclear@0: 
nuclear@0: 	rect.Pos.x = (int)(umin * texsz.w);
nuclear@21: 	rect.Pos.y = (int)(vmin * texsz.h);
nuclear@0: 	rect.Size.w = (int)((umax - umin) * texsz.w);
nuclear@0: 	rect.Size.h = (int)((vmax - vmin) * texsz.h);
nuclear@0: 
nuclear@0: 	eye_tex[eye].OGL.Header.API = ovrRenderAPI_OpenGL;
nuclear@0: 	eye_tex[eye].OGL.Header.TextureSize = texsz;
nuclear@0: 	eye_tex[eye].OGL.Header.RenderViewport = rect;
nuclear@0: 	eye_tex[eye].OGL.TexId = tex;
nuclear@0: }
nuclear@0: 
nuclear@0: static void recenter(void)
nuclear@0: {
nuclear@0: 	if(hmd) {
nuclear@0: 		ovrHmd_RecenterPose(hmd);
nuclear@0: 	}
nuclear@0: }
nuclear@0: 
nuclear@0: struct vr_module *vr_module_libovr(void)
nuclear@0: {
nuclear@0: 	static struct vr_module m;
nuclear@0: 
nuclear@0: 	if(!m.init) {
nuclear@0: 		m.name = "libovr";
nuclear@0: 		m.init = init;
nuclear@0: 		m.cleanup = cleanup;
nuclear@0: 		m.set_option = set_option;
nuclear@0: 		m.get_option = get_option;
nuclear@0: 		m.translation = translation;
nuclear@0: 		m.rotation = rotation;
nuclear@0: 		m.proj_matrix = proj_matrix;
nuclear@0: 		m.begin = begin;
nuclear@0: 		m.present = present;
nuclear@0: 		m.set_eye_texture = set_eye_texture;
nuclear@0: 		m.recenter = recenter;
nuclear@0: 	}
nuclear@0: 	return &m;
nuclear@0: }
nuclear@0: 
nuclear@0: #else	/* no libovr */
nuclear@0: 
nuclear@0: static int init(void)
nuclear@0: {
nuclear@0: 	return -1;
nuclear@0: }
nuclear@0: 
nuclear@0: struct vr_module *vr_module_libovr(void)
nuclear@0: {
nuclear@0: 	static struct vr_module m;
nuclear@0: 
nuclear@0: 	if(!m.init) {
nuclear@0: 		m.name = "libovr";
nuclear@0: 		m.init = init;
nuclear@0: 	}
nuclear@0: 	return &m;
nuclear@0: }
nuclear@0: 
nuclear@0: #endif	/* USE_LIBOVR */