maszyna/vr/openvr_imp.cpp

#include "stdafx.h"
#include "openvr_imp.h"
#include "Logs.h"
#include "Globals.h"
#include "renderer.h"

vr_openvr::vr_openvr()
{
    vr::EVRInitError vr_error;
    vr_system = vr::VR_Init(&vr_error, vr::VRApplication_Scene);
    if (vr_error != vr::VRInitError_None) {
        ErrorLog("failed to init openvr!");
        return;
    }

    vr::VRCompositor()->SetTrackingSpace(vr::TrackingUniverseSeated);
    vr::VRInput()->GetInputSourceHandle("/user/hand/left", &inputhandle_left);
    vr::VRInput()->GetInputSourceHandle("/user/hand/right", &inputhandle_right);

    std::string action_path = std::filesystem::current_path().string() + "/openvr_actions.json";
    vr::VRInput()->SetActionManifestPath(action_path.c_str());

    vr::VRInput()->GetActionSetHandle("/actions/main", &actionset);
    vr::VRInput()->GetActionHandle("/actions/main/in/PrimaryAction", &primary_action);
}

glm::ivec2 vr_openvr::get_target_size()
{
    uint32_t vr_w, vr_h;
    vr_system->GetRecommendedRenderTargetSize(&vr_w, &vr_h);
    return glm::ivec2(vr_w, vr_h);
}

viewport_proj_config vr_openvr::get_proj_config(eye_e e)
{
    vr::EVREye eye = (e == vr_interface::eye_left) ? vr::Eye_Left : vr::Eye_Right;

    float left, right, top, bottom; // tangents of half-angles from center view axis
    vr_system->GetProjectionRaw(eye, &left, &right, &top, &bottom);

    float ipd = vr_system->GetEyeToHeadTransform(eye).m[0][3];

    viewport_proj_config proj;

    proj.pe = glm::vec3(ipd, 0.0f, 0.0f);

    proj.pa = glm::vec3(ipd + left, top, -1.0f);
    proj.pc = glm::vec3(ipd + left, bottom, -1.0f);

    proj.pb = glm::vec3(ipd + right, top, -1.0f);

    return proj;
}

glm::mat4 vr_openvr::get_matrix(vr::HmdMatrix34_t &src)
{
    return glm::mat4(glm::transpose(glm::make_mat3x4((float*)(src.m))));
}

void vr_openvr::begin_frame()
{
    vr::TrackedDevicePose_t devicePose[MAX_DEVICES];
    vr::VRCompositor()->WaitGetPoses(devicePose, MAX_DEVICES, nullptr, 0);

    for (size_t i = 0; i < MAX_DEVICES; i++) {
        if (!vr_system->IsTrackedDeviceConnected(i)) {
            if (controllers[i])
                controllers[i].reset();

            continue;
        }

        glm::mat4 device_pose = get_matrix(devicePose[i].mDeviceToAbsoluteTracking);

        vr::ETrackedDeviceClass device_class = vr_system->GetTrackedDeviceClass(i);

        if (device_class == vr::TrackedDeviceClass_HMD) {
            Global.viewport_move = glm::vec3(device_pose[3]);
            Global.viewport_rotate = glm::mat3(device_pose);
        }

        if (device_class == vr::TrackedDeviceClass_Controller) {
            if (!controllers[i]) {
                controllers[i] = std::make_shared<controller_info>();

                vr::ETrackedControllerRole role = (vr::ETrackedControllerRole)vr_system->GetInt32TrackedDeviceProperty(i, vr::Prop_ControllerRoleHint_Int32);
                if (role == vr::TrackedControllerRole_LeftHand)
                    controllers[i]->inputhandle = inputhandle_left;
                else if (role == vr::TrackedControllerRole_RightHand)
                    controllers[i]->inputhandle = inputhandle_right;

                char model_name[128];
                size_t ret = vr_system->GetStringTrackedDeviceProperty(i, vr::Prop_RenderModelName_String, model_name, sizeof(model_name));

                if (ret != 0) {
                    controllers[i]->rendermodel = std::string(model_name);

                    uint32_t component_count = vr::VRRenderModels()->GetComponentCount(model_name);
                    if (component_count == 0 || !controllers[i]->inputhandle) {
                        controllers[i]->pending_components.push_back(-1);
                    } else {
                        for (size_t c = 0; c < component_count; c++)
                            controllers[i]->pending_components.push_back(c);
                    }

                    controllers[i]->model = std::make_unique<TModel3d>();
                    controllers[i]->model->AppendChildFromGeometry("__root", "none", gfx::vertex_array());
                }
            }

            for (size_t c = controllers[i]->pending_components.size(); c-- != 0;) {
                uint32_t component = controllers[i]->pending_components[c];
                const char *rendermodel = controllers[i]->rendermodel.c_str();

                char rendermodel_name[256];
                char component_name[128];

                gfx::vertex_array data;
                std::string submodel_name;
                vr::RenderModel_t *model;
                vr::EVRRenderModelError ret;
                TSubModel *sm;

                if (component == -1) {
                    const char *name = controllers[i]->rendermodel.c_str();
                    strncpy(rendermodel_name, name, sizeof(rendermodel_name) - 1);
                    rendermodel_name[255] = 0;
                }
                else {
                    vr::VRRenderModels()->GetComponentName(rendermodel, component, component_name, sizeof(component_name));
                    if (!vr::VRRenderModels()->GetComponentRenderModelName(rendermodel, component_name, rendermodel_name, sizeof(rendermodel_name)))
                        goto component_done;
                }

                ret = vr::VRRenderModels()->LoadRenderModel_Async(rendermodel_name, &model);

                if (ret == vr::VRRenderModelError_Loading)
                    continue;
                else if (ret != vr::VRRenderModelError_None)
                    goto component_done;

                data.resize(model->unTriangleCount * 3);

                for (size_t v = 0; v < model->unTriangleCount * 3; v++) {
                    const vr::RenderModel_Vertex_t *vertex = &model->rVertexData[model->rIndexData[v]];
                    data[v] = gfx::basic_vertex(
                                glm::vec3(vertex->vPosition.v[0], vertex->vPosition.v[1], vertex->vPosition.v[2]),
                                glm::vec3(vertex->vNormal.v[0], vertex->vNormal.v[1], vertex->vNormal.v[2]),
                                glm::vec2(vertex->rfTextureCoord[0], vertex->rfTextureCoord[1]));
                }

                submodel_name = std::string(component == -1 ? rendermodel_name : component_name);
                sm = controllers[i]->model->AppendChildFromGeometry(submodel_name, "__root", data);

                if (model->diffuseTextureId >= 0)
                    controllers[i]->pending_textures.push_back(std::make_pair(sm, model->diffuseTextureId));

                vr::VRRenderModels()->FreeRenderModel(model);

                if (component != -1 && update_component(controllers[i]->rendermodel, controllers[i]->inputhandle, sm))
                    controllers[i]->active_components.push_back(sm);

component_done:
                controllers[i]->pending_components.erase(controllers[i]->pending_components.begin() + c);

                if (controllers[i]->pending_components.empty())
                    controllers[i]->model->Init();
            }

            for (size_t t = controllers[i]->pending_textures.size(); t-- != 0;) {
                TSubModel *sm = controllers[i]->pending_textures[t].first;
                const vr::TextureID_t texture_id = controllers[i]->pending_textures[t].second;

                if (GfxRenderer->Material(sm->GetMaterial()).textures[0] == null_handle)
                    sm->ReplaceMaterial("internal_src:OPENVR" + std::to_string(texture_id));
                opengl_texture &tex = GfxRenderer->Texture(GfxRenderer->Material(sm->GetMaterial()).textures[0]);

                if (tex.is_stub()) {
                    vr::RenderModel_TextureMap_t *texturemap;
                    auto ret = vr::VRRenderModels()->LoadTexture_Async(texture_id, &texturemap);

                    if (ret == vr::VRRenderModelError_Loading)
                        continue;
                    else if (ret != vr::VRRenderModelError_None)
                        goto texture_done;

                    if (texturemap->format == vr::VRRenderModelTextureFormat_RGBA8_SRGB)
                        tex.make_from_memory(texturemap->unWidth, texturemap->unHeight, texturemap->rubTextureMapData);
                    else
                        ErrorLog("openvr texture format " + std::to_string(texturemap->format) + " not supported");

                    vr::VRRenderModels()->FreeTexture(texturemap);
                }

texture_done:
                controllers[i]->pending_textures.erase(controllers[i]->pending_textures.begin() + t);
            }

            if (controllers[i]->model) {
                glm::vec3 trans = glm::vec3(device_pose[3]);
                glm::mat3 rot = glm::mat3(device_pose);
                trans -= Global.viewport_move;

                controllers[i]->model->GetSMRoot()->ReplaceMatrix(glm::translate(glm::mat4(), trans) * glm::mat4(rot));

                for (TSubModel *component : controllers[i]->active_components)
                    update_component(controllers[i]->rendermodel, controllers[i]->inputhandle, component);
            }
        }
    }

    vr::VRActiveActionSet_t active_actionset;
    active_actionset.ulActionSet = actionset;
    active_actionset.ulRestrictedToDevice = vr::k_ulInvalidInputValueHandle;
    active_actionset.nPriority = 0;

    vr::VRInput()->UpdateActionState(&active_actionset, sizeof(active_actionset), 1);

    vr::InputDigitalActionData_t actiondata;
    vr::VRInput()->GetDigitalActionData(primary_action, &actiondata, sizeof(actiondata), vr::k_ulInvalidInputValueHandle);
    if (actiondata.bChanged && actiondata.bState) {
        WriteLog("VR click!");
    }

    bool prev_should_pause = should_pause;
    should_pause = vr_system->ShouldApplicationPause();
    if (prev_should_pause != should_pause)
        relay.post(user_command::focuspauseset, should_pause ? 1.0 : 0.0, 0.0, GLFW_PRESS, 0);

    draw_controllers = !vr_system->IsSteamVRDrawingControllers();
}

bool vr_openvr::update_component(const std::string &rendermodel, vr::VRInputValueHandle_t handle, TSubModel *component)
{
    vr::RenderModel_ControllerMode_State_t state;
    state.bScrollWheelVisible = false;

    vr::RenderModel_ComponentState_t component_state;

    vr::VRRenderModels()->GetComponentStateForDevicePath(rendermodel.c_str(), component->pName.c_str(), handle, &state, &component_state);

    glm::mat4 component_pose = get_matrix(component_state.mTrackingToComponentRenderModel);
    bool visible = (component_state.uProperties & vr::VRComponentProperty_IsVisible);

    component->ReplaceMatrix(component_pose);
    component->iVisible = (visible ? 1 : 0);

    return !(component_state.uProperties & vr::VRComponentProperty_IsStatic);
}

void vr_openvr::submit(vr_openvr::eye_e eye, opengl_texture* tex)
{
    vr::Texture_t hmd_tex =
        { (void*)(uint64_t)tex->id,
          vr::TextureType_OpenGL,
          Global.gfx_shadergamma ? vr::ColorSpace_Linear : vr::ColorSpace_Gamma };

    vr::VRCompositor()->Submit(eye == vr_interface::eye_left ? vr::Eye_Left : vr::Eye_Right, &hmd_tex);
}

std::vector<TModel3d*> vr_openvr::get_render_models()
{
    std::vector<TModel3d*> list;

    if (!draw_controllers)
        return list;

    for (auto entry : controllers)
    {
        if (entry && entry->model && entry->pending_components.empty())
            list.push_back(entry->model.get());
    }

    return list;
}

void vr_openvr::finish_frame()
{
    vr::VRCompositor()->PostPresentHandoff();
}

vr_openvr::~vr_openvr()
{
    vr::VR_Shutdown();
}

std::unique_ptr<vr_interface> vr_openvr::create_func()
{
    return std::unique_ptr<vr_interface>(new vr_openvr());
}

bool vr_openvr::backend_register = vr_interface_factory::get_instance()->register_backend("openvr", vr_openvr::create_func);