void Update() { timeTillNPCEvent -= Time.deltaTime; timeTillContinuePrompt -= Time.deltaTime; allStatFade -= Time.deltaTime / textFadeTime; playerStatFade[0] -= Time.deltaTime / textFadeTime; playerStatFade[1] -= Time.deltaTime / textFadeTime; if (timeTillNPCEvent <= 0f) { DoNPCEvent(); timeTillNPCEvent = Random.Range(2f, 5f); } if (win && timeTillContinuePrompt <= 0 && !continuePrompt.gameObject.activeSelf) { continuePrompt.gameObject.SetActive(true); } if (win && InputHelper.AnyButton() && timeTillContinuePrompt <= 0f) { Application.LoadLevel("start"); } if (win) { Vector3 cpos = endGameCam.transform.position; Vector3 diff = winQuad.position - cpos; if (diff.magnitude > 0.01f) { endGameCam.transform.position = cpos + diff * 0.2f; } } SetTextAlpha(allStatus, allStatFade); SetTextAlpha(playerStatus[0], playerStatFade[0]); SetTextAlpha(playerStatus[1], playerStatFade[1]); FlashText(continuePrompt); }
// Update is called once per frame void Update() { switch (state) { case MainMenuState.Start: { Vector2 j = InputHelper.AnyDir(); inputTimeout -= Time.deltaTime; if (inputTimeout <= 0f && j.y != 0f) { screenButtons[buttonSelected].Selected = false; buttonSelected = (buttonSelected + (int)j.y) % screenButtons.Length; if (buttonSelected < 0f) { buttonSelected += screenButtons.Length; } print(buttonSelected); screenButtons[buttonSelected].Selected = true; inputTimeout = 0.2f; } if (InputHelper.AnyButton()) { ButtonDown(screenButtons[buttonSelected].buttonName); } break; } case MainMenuState.Instructions: instructionTimeout -= Time.deltaTime; if (instructionTimeout <= 0f && InputHelper.AnyButton()) { state = MainMenuState.Start; } break; case MainMenuState.PlayerJoin: { if (numPlayersDetected == 2) { // state = MainMenuState.CharacterSelect; //StartGame(); pgs.invertAxes[0] = ControlMode.None; pgs.invertAxes[1] = ControlMode.None; playerReady[0] = false; playerReady[1] = false; state = MainMenuState.InvertAxis; return; } PlayerInputMethod im = InputHelper.DetectInput(); if (im == PlayerInputMethod.None) { break; } if (!inputMethodsUsed[(int)im]) { inputMethodsUsed[(int)im] = true; pgs.inputMethods[numPlayersDetected] = im; pim[numPlayersDetected].text = im.ToString(); numPlayersDetected++; print("PlayerJoin im: " + im.ToString()); } break; } case MainMenuState.InvertAxis: { Vector2[] axes = new Vector2[2]; axes[0] = InputHelper.DetectAxes(pgs.inputMethods[0]); axes[1] = InputHelper.DetectAxes(pgs.inputMethods[1]); for (int pid = 0; pid < 2; pid++) { if (axes[pid].x != 0f) { if (axes[pid].x > 0f) { pgs.invertAxes[pid] = ControlMode.Inverted; } else { pgs.invertAxes[pid] = ControlMode.Standard; } } if (!playerReady[pid]) { switch (pgs.invertAxes[pid]) { case ControlMode.None: pia[pid].text = "Choose"; break; case ControlMode.Standard: pia[pid].text = "Standard"; break; case ControlMode.Inverted: pia[pid].text = "Inverted"; break; } } else { pia[pid].text = "Ready"; } if (InputHelper.DetectAny(pgs.inputMethods[pid]) && axes[pid].x == 0f && pgs.invertAxes[pid] != ControlMode.None) { playerReady[pid] = true; } } if (playerReady[0] && playerReady[1]) { startgameCountdown -= Time.deltaTime; countdownText.text = Mathf.Floor(startgameCountdown + 0.5f).ToString(); if (startgameCountdown <= 0f) { StartGame(); } } break; } case MainMenuState.CharacterSelect: StartGame(); break; } Vector3 cpos = Camera.main.transform.position; Vector3 diff = screens[(int)state].transform.position - cpos; if (diff.magnitude > 0.01f) { Camera.main.transform.position = cpos + diff * 0.1f; } }