/************************************************************************************ Filename : VrInputWeaponAlign.c Content : Handles default controller input Created : August 2019 Authors : Simon Brown *************************************************************************************/ #include "VrInput.h" #include "VrCvars.h" #include "client/client.h" cvar_t *sv_cheats; void CG_CenterPrint( const char *str, int y, int charWidth, int delayOverride ); void HandleInput_WeaponAlign( ovrInputStateTrackedRemote *pDominantTrackedRemoteNew, ovrInputStateTrackedRemote *pDominantTrackedRemoteOld, ovrTrackedController* pDominantTracking, ovrInputStateTrackedRemote *pOffTrackedRemoteNew, ovrInputStateTrackedRemote *pOffTrackedRemoteOld, ovrTrackedController* pOffTracking, int domButton1, int domButton2, int offButton1, int offButton2 ) { //always right handed for this vr.right_handed = true; static bool dominantGripPushed = false; /* char cvar_name[64]; Com_sprintf(cvar_name, sizeof(cvar_name), "vr_weapon_adjustment_%i", cl.frame.ps.weapon); char weapon_adjustment[256]; Cvar_VariableStringBuffer(cvar_name, weapon_adjustment, 256); sscanf(weapon_adjustment, "%f,%f,%f,%f,%f,%f,%f", &vr.test_scale, &(vr.test_offset[0]), &(vr.test_offset[1]), &(vr.test_offset[2]), &(vr.test_angles[PITCH]), &(vr.test_angles[YAW]), &(vr.test_angles[ROLL])); VectorScale(vr.test_offset, vr.test_scale, vr.test_offset); */ //Set controller angles - We need to calculate all those we might need (including adjustments) for the client to then take its pick { vec3_t rotation = {0}; QuatToYawPitchRoll(pDominantTracking->Pose.orientation, rotation, vr.weaponangles[ANGLES_DEFAULT]); QuatToYawPitchRoll(pOffTracking->Pose.orientation, rotation, vr.offhandangles[ANGLES_DEFAULT]); //if we are in saber block debounce, don't update the saber angles if (vr.saberBlockDebounce < cl.serverTime) { rotation[PITCH] = 45; QuatToYawPitchRoll(pDominantTracking->Pose.orientation, rotation, vr.weaponangles[ANGLES_SABER]); QuatToYawPitchRoll(pOffTracking->Pose.orientation, rotation, vr.offhandangles[ANGLES_SABER]); } rotation[PITCH] = vr_weapon_pitchadjust->value; QuatToYawPitchRoll(pDominantTracking->Pose.orientation, rotation, vr.weaponangles[ANGLES_ADJUSTED]); QuatToYawPitchRoll(pOffTracking->Pose.orientation, rotation, vr.offhandangles[ANGLES_ADJUSTED]); for (int anglesIndex = 0; anglesIndex <= ANGLES_SABER; ++anglesIndex) { VectorSubtract(vr.weaponangles_last[anglesIndex], vr.weaponangles[anglesIndex], vr.weaponangles_delta[anglesIndex]); VectorCopy(vr.weaponangles[anglesIndex], vr.weaponangles_last[anglesIndex]); VectorSubtract(vr.offhandangles_last[anglesIndex], vr.offhandangles[anglesIndex], vr.offhandangles_delta[anglesIndex]); VectorCopy(vr.offhandangles[anglesIndex], vr.offhandangles_last[anglesIndex]); } } //Menu button handleTrackedControllerButton(&leftTrackedRemoteState_new, &leftTrackedRemoteState_old, xrButton_Enter, A_ESCAPE); static float menuYaw = 0; static bool switchedMenuControls = qfalse; if (VR_UseScreenLayer() ) { bool controlsLeftHanded = vr_control_scheme->integer >= 10; if ((controlsLeftHanded && !switchedMenuControls) || (!controlsLeftHanded && switchedMenuControls)) { interactWithTouchScreen(menuYaw, vr.offhandangles[ANGLES_DEFAULT]); handleTrackedControllerButton(pOffTrackedRemoteNew, pOffTrackedRemoteOld, offButton1, A_MOUSE1); handleTrackedControllerButton(pOffTrackedRemoteNew, pOffTrackedRemoteOld, xrButton_Trigger, A_MOUSE1); handleTrackedControllerButton(pOffTrackedRemoteNew, pOffTrackedRemoteOld, offButton2, A_ESCAPE); if ((pDominantTrackedRemoteNew->Buttons & xrButton_Trigger) != (pDominantTrackedRemoteOld->Buttons & xrButton_Trigger) && (pDominantTrackedRemoteNew->Buttons & xrButton_Trigger)) { switchedMenuControls = !switchedMenuControls; } } else { interactWithTouchScreen(menuYaw, vr.weaponangles[ANGLES_DEFAULT]); handleTrackedControllerButton(pDominantTrackedRemoteNew, pDominantTrackedRemoteOld, domButton1, A_MOUSE1); handleTrackedControllerButton(pDominantTrackedRemoteNew, pDominantTrackedRemoteOld, xrButton_Trigger, A_MOUSE1); handleTrackedControllerButton(pDominantTrackedRemoteNew, pDominantTrackedRemoteOld, domButton2, A_ESCAPE); if ((pOffTrackedRemoteNew->Buttons & xrButton_Trigger) != (pOffTrackedRemoteOld->Buttons & xrButton_Trigger) && (pOffTrackedRemoteNew->Buttons & xrButton_Trigger)) { switchedMenuControls = !switchedMenuControls; } } } else { menuYaw = vr.hmdorientation[YAW]; //dominant hand stuff first { vr.weaponposition[0] = pDominantTracking->Pose.position.x; vr.weaponposition[1] = pDominantTracking->Pose.position.y; vr.weaponposition[2] = pDominantTracking->Pose.position.z; ///Weapon location relative to view vr.weaponoffset[0] = pDominantTracking->Pose.position.x - vr.hmdposition[0]; vr.weaponoffset[1] = pDominantTracking->Pose.position.y - vr.hmdposition[1]; vr.weaponoffset[2] = pDominantTracking->Pose.position.z - vr.hmdposition[2]; vr.weaponoffset_timestamp = Sys_Milliseconds( ); } float controllerYawHeading = 0.0f; //off-hand stuff { vr.offhandposition[0][0] = pOffTracking->Pose.position.x; vr.offhandposition[0][1] = pOffTracking->Pose.position.y; vr.offhandposition[0][2] = pOffTracking->Pose.position.z; vr.offhandoffset[0] = pOffTracking->Pose.position.x - vr.hmdposition[0]; vr.offhandoffset[1] = pOffTracking->Pose.position.y - vr.hmdposition[1]; vr.offhandoffset[2] = pOffTracking->Pose.position.z - vr.hmdposition[2]; } ALOGV(" Right-Controller-Position: %f, %f, %f", pDominantTracking->Pose.position.x, pDominantTracking->Pose.position.y, pDominantTracking->Pose.position.z); //This section corrects for the fact that the controller actually controls direction of movement, but we want to move relative to the direction the //player is facing for positional tracking vec2_t v; rotateAboutOrigin(-vr.hmdposition_delta[0] * vr_positional_factor->value, vr.hmdposition_delta[2] * vr_positional_factor->value, - vr.hmdorientation[YAW], v); positional_movementSideways = v[0]; positional_movementForward = v[1]; ALOGV(" positional_movementSideways: %f, positional_movementForward: %f", positional_movementSideways, positional_movementForward); dominantGripPushed = (pDominantTrackedRemoteNew->Buttons & xrButton_GripTrigger) != 0; //We need to record if we have started firing primary so that releasing trigger will stop firing, if user has pushed grip //in meantime, then it wouldn't stop the gun firing and it would get stuck if (dominantGripPushed) { //Fire Secondary if (((pDominantTrackedRemoteNew->Buttons & xrButton_Trigger) != (pDominantTrackedRemoteOld->Buttons & xrButton_Trigger)) && (pDominantTrackedRemoteNew->Buttons & xrButton_Trigger)) { sendButtonActionSimple("weapalt"); } } else { //Fire Primary if (!vr.velocitytriggered && // Don't fire velocity triggered weapons (pDominantTrackedRemoteNew->Buttons & xrButton_Trigger) != (pDominantTrackedRemoteOld->Buttons & xrButton_Trigger)) { sendButtonAction("+attack", (pDominantTrackedRemoteNew->Buttons & xrButton_Trigger)); } } { bool offhandX = (pOffTrackedRemoteNew->Buttons & xrButton_X); if ((offhandX != (pOffTrackedRemoteOld->Buttons & xrButton_X)) && offhandX) Cvar_Set("vr_control_scheme", "0"); } //Next Weapon with A if (((pDominantTrackedRemoteNew->Buttons & domButton1) != (pDominantTrackedRemoteOld->Buttons & domButton1)) && (pDominantTrackedRemoteOld->Buttons & domButton1)){ sendButtonActionSimple("weapnext"); } //Prev Weapon with B if (((pDominantTrackedRemoteNew->Buttons & domButton2) != (pDominantTrackedRemoteOld->Buttons & domButton2)) && (pDominantTrackedRemoteOld->Buttons & domButton2)){ sendButtonActionSimple("weapprev"); } vr_weapon_adjustment_t *adjustment = &vr.weaponadjustment[cl.frame.ps.weapon]; if (!adjustment->loaded) { return; // will be loaded "next frame" } static int item_index = 0; float* items[7] = {&adjustment->scale, &(adjustment->offset[0]), &(adjustment->offset[1]), &(adjustment->offset[2]), &(adjustment->angles[PITCH]), &(adjustment->angles[YAW]), &(adjustment->angles[ROLL])}; char* item_names[7] = {"scale", "right", "up", "forward", "pitch", "yaw", "roll"}; float item_inc[7] = {0.005, 0.02, 0.02, 0.02, 0.1, 0.1, 0.1}; #define JOYX_SAMPLE_COUNT 4 static float joyx[JOYX_SAMPLE_COUNT] = {0}; for (int j = JOYX_SAMPLE_COUNT-1; j > 0; --j) joyx[j] = joyx[j-1]; joyx[0] = pDominantTrackedRemoteNew->Joystick.x; float sum = 0.0f; for (int j = 0; j < JOYX_SAMPLE_COUNT; ++j) sum += joyx[j]; float primaryJoystickX = sum / 4.0f; //Weapon/Inventory Chooser static bool itemSwitched = false; if (between(-0.2f, pDominantTrackedRemoteNew->Joystick.y, 0.2f) && (between(0.8f, primaryJoystickX, 1.0f) || between(-1.0f, primaryJoystickX, -0.8f))) { if (!itemSwitched) { if (between(0.8f, primaryJoystickX, 1.0f)) { item_index++; if (item_index == 7) item_index = 0; } else { item_index--; if (item_index < 0) item_index = 6; } itemSwitched = true; } } else { itemSwitched = false; } if (((pDominantTrackedRemoteNew->Buttons & xrButton_Joystick) != (pDominantTrackedRemoteOld->Buttons & xrButton_Joystick)) && (pDominantTrackedRemoteOld->Buttons & xrButton_Joystick)) { *(items[item_index]) = 0.0; } //Left-hand specific stuff { if (between(-0.2f, primaryJoystickX, 0.2f)) { if (pDominantTrackedRemoteNew->Joystick.y > 0.6f) { *(items[item_index]) += item_inc[item_index]; } if (pDominantTrackedRemoteNew->Joystick.y < -0.6f) { *(items[item_index]) -= item_inc[item_index]; } } } Com_sprintf(vr.weaponadjustment_info, sizeof(vr.weaponadjustment_info), "%s: %.3f", item_names[item_index], *(items[item_index])); char cvar_name[64]; Com_sprintf(cvar_name, sizeof(cvar_name), "vr_weapon_adjustment_%i", cl.frame.ps.weapon); char buffer[256]; Com_sprintf(buffer, sizeof(buffer), "%.3f,%.3f,%.3f,%.3f,%.3f,%.3f,%.3f", adjustment->scale, adjustment->offset[0], adjustment->offset[1], adjustment->offset[2], adjustment->angles[PITCH], adjustment->angles[YAW], adjustment->angles[ROLL]); Cvar_Set(cvar_name, buffer ); } //Save state rightTrackedRemoteState_old = rightTrackedRemoteState_new; leftTrackedRemoteState_old = leftTrackedRemoteState_new; }