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scene_vr_controllers.py
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scene_vr_controllers.py
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# Display a scene in VR with VR controllers
import harfang as hg
import sys
hg.InputInit()
hg.WindowSystemInit()
res_x, res_y = 1280, 720
win = hg.RenderInit("Harfang - OpenVR Scene", res_x, res_y, hg.RF_VSync | hg.RF_MSAA4X)
hg.AddAssetsFolder("resources_compiled")
pipeline = hg.CreateForwardPipeline()
res = hg.PipelineResources()
render_data = hg.SceneForwardPipelineRenderData() # this object is used by the low-level scene rendering API to share view-independent data with both eyes
# OpenVR initialization
if not hg.OpenVRInit():
sys.exit()
vr_left_fb = hg.OpenVRCreateEyeFrameBuffer(hg.OVRAA_MSAA4x)
vr_right_fb = hg.OpenVRCreateEyeFrameBuffer(hg.OVRAA_MSAA4x)
# Create models
vtx_layout = hg.VertexLayoutPosFloatNormUInt8()
cube_mdl = hg.CreateCubeModel(vtx_layout, 1, 1, 1)
cube_ref = res.AddModel('cube', cube_mdl)
controller_mdl = hg.CreateCubeModel(vtx_layout, 0.1, 0.1, 0.1)
controller_ref = res.AddModel('controller', controller_mdl)
ground_mdl = hg.CreateCubeModel(vtx_layout, 50, 0.01, 50)
ground_ref = res.AddModel('ground', ground_mdl)
# Load shader
prg_ref = hg.LoadPipelineProgramRefFromAssets('core/shader/pbr.hps', res, hg.GetForwardPipelineInfo())
# Create materials
def create_material(ubc, orm):
mat = hg.Material()
hg.SetMaterialProgram(mat, prg_ref)
hg.SetMaterialValue(mat, "uBaseOpacityColor", ubc)
hg.SetMaterialValue(mat, "uOcclusionRoughnessMetalnessColor", orm)
return mat
# Create scene
scene = hg.Scene()
scene.canvas.color = hg.Color(255 / 255, 255 / 255, 217 / 255, 1)
scene.environment.ambient = hg.Color(15 / 255, 12 / 255, 9 / 255, 1)
lgt = hg.CreateSpotLight(scene, hg.TransformationMat4(hg.Vec3(-8, 4, -5), hg.Vec3(hg.Deg(19), hg.Deg(59), 0)), 0, hg.Deg(5), hg.Deg(30), hg.Color.White, hg.Color.White, 10, hg.LST_Map, 0.0001)
back_lgt = hg.CreatePointLight(scene, hg.TranslationMat4(hg.Vec3(2.4, 1, 0.5)), 10, hg.Color(94 / 255, 255 / 255, 228 / 255, 1), hg.Color(94 / 255, 1, 228 / 255, 1), 0)
mat_cube = create_material(hg.Vec4(255 / 255, 230 / 255, 20 / 255, 1), hg.Vec4(1, 0.658, 0., 1))
hg.CreateObject(scene, hg.TransformationMat4(hg.Vec3(0, 0.5, 0), hg.Vec3(0, hg.Deg(70), 0)), cube_ref, [mat_cube])
mat_ground = create_material(hg.Vec4(255 / 255, 120 / 255, 147 / 255, 1), hg.Vec4(1, 1, 0.1, 1))
hg.CreateObject(scene, hg.TranslationMat4(hg.Vec3(0, 0, 0)), ground_ref, [mat_ground])
# Setup 2D rendering to display eyes textures
quad_layout = hg.VertexLayout()
quad_layout.Begin().Add(hg.A_Position, 3, hg.AT_Float).Add(hg.A_TexCoord0, 3, hg.AT_Float).End()
quad_model = hg.CreatePlaneModel(quad_layout, 1, 1, 1, 1)
quad_render_state = hg.ComputeRenderState(hg.BM_Alpha, hg.DT_Disabled, hg.FC_Disabled)
eye_t_size = res_x / 2.5
eye_t_x = (res_x - 2 * eye_t_size) / 6 + eye_t_size / 2
quad_matrix = hg.TransformationMat4(hg.Vec3(0, 0, 0), hg.Vec3(hg.Deg(90), hg.Deg(0), hg.Deg(0)), hg.Vec3(eye_t_size, 1, eye_t_size))
tex0_program = hg.LoadProgramFromAssets("shaders/sprite")
quad_uniform_set_value_list = hg.UniformSetValueList()
quad_uniform_set_value_list.clear()
quad_uniform_set_value_list.push_back(hg.MakeUniformSetValue("color", hg.Vec4(1, 1, 1, 1)))
quad_uniform_set_texture_list = hg.UniformSetTextureList()
# VR controllers handler
controllers = {}
def update_controllers():
global controllers
vr_controller_names = hg.GetVRControllerNames()
for n in vr_controller_names:
if n not in controllers:
controller = hg.VRController(n)
controllers[n] = {"input": controller, "world": hg.Mat4()}
controller = controllers[n]["input"]
controller.Update()
if controller.IsConnected():
controller_mat = controller.World()
controllers[n]["world"] = controller_mat
if "node" not in controllers[n]:
pos = hg.GetT(controller_mat)
mat_cube_controller = create_material(hg.Vec4(0, 1, 0, 1), hg.Vec4(1, 0.658, 0., 1))
controllers[n]["node"] = hg.CreateObject(scene, hg.TransformationMat4(pos, hg.Vec3(0, 0, 0)), controller_ref, [mat_cube_controller])
if not controllers[n]["node"].IsEnabled():
controllers[n]["node"].Enable()
controllers[n]["node"].GetTransform().SetWorld(controllers[n]["world"])
if controller.Down(hg.VRCB_Axis1):
hg.SetMaterialValue(controllers[n]["node"].GetObject().GetMaterial(0), "uBaseOpacityColor", hg.Vec4(1,0,0,1))
else:
hg.SetMaterialValue(controllers[n]["node"].GetObject().GetMaterial(0), "uBaseOpacityColor", hg.Vec4(0,1,0,1))
else:
if "node" in controllers[n]:
if controllers[n]["node"].IsEnabled():
controllers[n]["node"].Disable()
# Main loop
while not hg.ReadKeyboard().Key(hg.K_Escape):
dt = hg.TickClock()
update_controllers()
scene.Update(dt)
actor_body_mtx = hg.TransformationMat4(hg.Vec3(-1.3, .45, -2), hg.Vec3(0, 0, 0))
vr_state = hg.OpenVRGetState(actor_body_mtx, 0.01, 1000)
left, right = hg.OpenVRStateToViewState(vr_state)
vid = 0 # keep track of the next free view id
passId = hg.SceneForwardPipelinePassViewId()
# Prepare view-independent render data once
vid, passId = hg.PrepareSceneForwardPipelineCommonRenderData(vid, scene, render_data, pipeline, res, passId)
vr_eye_rect = hg.IntRect(0, 0, vr_state.width, vr_state.height)
# Prepare the left eye render data then draw to its framebuffer
vid, passId = hg.PrepareSceneForwardPipelineViewDependentRenderData(vid, left, scene, render_data, pipeline, res, passId)
vid, passId = hg.SubmitSceneToForwardPipeline(vid, scene, vr_eye_rect, left, pipeline, render_data, res, vr_left_fb.GetHandle())
# Prepare the right eye render data then draw to its framebuffer
vid, passId = hg.PrepareSceneForwardPipelineViewDependentRenderData(vid, right, scene, render_data, pipeline, res, passId)
vid, passId = hg.SubmitSceneToForwardPipeline(vid, scene, vr_eye_rect, right, pipeline, render_data, res, vr_right_fb.GetHandle())
# Display the VR eyes texture to the backbuffer
hg.SetViewRect(vid, 0, 0, res_x, res_y)
vs = hg.ComputeOrthographicViewState(hg.TranslationMat4(hg.Vec3(0, 0, 0)), res_y, 0.1, 100, hg.ComputeAspectRatioX(res_x, res_y))
hg.SetViewTransform(vid, vs.view, vs.proj)
quad_uniform_set_texture_list.clear()
quad_uniform_set_texture_list.push_back(hg.MakeUniformSetTexture("s_tex", hg.OpenVRGetColorTexture(vr_left_fb), 0))
hg.SetT(quad_matrix, hg.Vec3(eye_t_x, 0, 1))
hg.DrawModel(vid, quad_model, tex0_program, quad_uniform_set_value_list, quad_uniform_set_texture_list, quad_matrix, quad_render_state)
quad_uniform_set_texture_list.clear()
quad_uniform_set_texture_list.push_back(hg.MakeUniformSetTexture("s_tex", hg.OpenVRGetColorTexture(vr_right_fb), 0))
hg.SetT(quad_matrix, hg.Vec3(-eye_t_x, 0, 1))
hg.DrawModel(vid, quad_model, tex0_program, quad_uniform_set_value_list, quad_uniform_set_texture_list, quad_matrix, quad_render_state)
hg.Frame()
hg.OpenVRSubmitFrame(vr_left_fb, vr_right_fb)
hg.UpdateWindow(win)
hg.DestroyForwardPipeline(pipeline)
hg.RenderShutdown()
hg.DestroyWindow(win)