ref: 71d013a435a6801e82279acb0678a30b526d91ad
dir: /setup/joystick.c/
// Emacs style mode select -*- C++ -*- //----------------------------------------------------------------------------- // // Copyright(C) 2007 Simon Howard // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License // as published by the Free Software Foundation; either version 2 // of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA // 02111-1307, USA. // #include <stdio.h> #include <stdlib.h> #include "doomtype.h" #include "textscreen.h" #include "txt_joybinput.h" #include "joystick.h" typedef enum { CALIBRATE_CENTER, CALIBRATE_LEFT, CALIBRATE_UP, } calibration_stage_t; // SDL joystick successfully initialised? static int joystick_initted = 0; // Joystick enable/disable int usejoystick = 0; // Button mappings int joybfire = 0; int joybstrafe = 1; int joybuse = 2; int joybspeed = 3; int joybstrafeleft = -1; int joybstraferight = -1; // Joystick to use, as an SDL joystick index: int joystick_index = -1; // Which joystick axis to use for horizontal movement, and whether to // invert the direction: int joystick_x_axis = 0; int joystick_x_invert = 0; // Which joystick axis to use for vertical movement, and whether to // invert the direction: int joystick_y_axis = 1; int joystick_y_invert = 0; static txt_button_t *joystick_button; static int *all_joystick_buttons[] = { &joybstraferight, &joybstrafeleft, &joybfire, &joybspeed, &joybuse, &joybstrafe, }; // // Calibration // static txt_window_t *calibration_window; static txt_label_t *calibration_label; static calibration_stage_t calibrate_stage; static SDL_Joystick **all_joysticks = NULL; // Set the label showing the name of the currently selected joystick static void SetJoystickButtonLabel(void) { char *name; name = "None set"; if (joystick_initted && joystick_index >= 0 && joystick_index < SDL_NumJoysticks()) { name = (char *) SDL_JoystickName(joystick_index); } TXT_SetButtonLabel(joystick_button, name); } // Try to open all joysticks visible to SDL. static int OpenAllJoysticks(void) { int i; int num_joysticks; int result; if (!joystick_initted) { return 0; } // SDL_JoystickOpen() all joysticks. num_joysticks = SDL_NumJoysticks(); all_joysticks = malloc(sizeof(SDL_Joystick *) * num_joysticks); result = 0; for (i=0; i<num_joysticks; ++i) { all_joysticks[i] = SDL_JoystickOpen(i); // If any joystick is successfully opened, return true. if (all_joysticks[i] != NULL) { result = 1; } } // Success? Turn on joystick events. if (result) { SDL_JoystickEventState(SDL_ENABLE); } else { free(all_joysticks); all_joysticks = NULL; } return result; } // Close all the joysticks opened with OpenAllJoysticks() static void CloseAllJoysticks(void) { int i; int num_joysticks; num_joysticks = SDL_NumJoysticks(); for (i=0; i<num_joysticks; ++i) { if (all_joysticks[i] != NULL) { SDL_JoystickClose(all_joysticks[i]); } } SDL_JoystickEventState(SDL_DISABLE); free(all_joysticks); all_joysticks = NULL; } static void SetCalibrationLabel(void) { char *message = "???"; switch (calibrate_stage) { case CALIBRATE_CENTER: message = "Move the joystick to the\n" "center, and press a button."; break; case CALIBRATE_UP: message = "Move the joystick up,\n" "and press a button."; break; case CALIBRATE_LEFT: message = "Move the joystick to the\n" "left, and press a button."; break; } TXT_SetLabel(calibration_label, message); } static void CalibrateAxis(int *axis_index, int *axis_invert) { SDL_Joystick *joystick; int best_axis; int best_value; int best_invert; Sint16 axis_value; int i; joystick = all_joysticks[joystick_index]; // Check all axes to find which axis has the largest value. We test // for one axis at a time, so eg. when we prompt to push the joystick // left, whichever axis has the largest value is the left axis. best_axis = 0; best_value = 0; best_invert = 0; for (i=0; i<SDL_JoystickNumAxes(joystick); ++i) { axis_value = SDL_JoystickGetAxis(joystick, i); if (abs(axis_value) > best_value) { best_value = abs(axis_value); best_invert = axis_value > 0; best_axis = i; } } // Save the best values we have found *axis_index = best_axis; *axis_invert = best_invert; } static int CalibrationEventCallback(SDL_Event *event, void *user_data) { if (event->type == SDL_JOYBUTTONDOWN && (joystick_index == -1 || event->jbutton.which == joystick_index)) { switch (calibrate_stage) { case CALIBRATE_CENTER: // Centering stage selects which joystick to use. joystick_index = event->jbutton.which; break; case CALIBRATE_LEFT: CalibrateAxis(&joystick_x_axis, &joystick_x_invert); break; case CALIBRATE_UP: CalibrateAxis(&joystick_y_axis, &joystick_y_invert); break; } if (calibrate_stage == CALIBRATE_UP) { // Final stage; close the window TXT_CloseWindow(calibration_window); } else { // Advance to the next calibration stage ++calibrate_stage; SetCalibrationLabel(); } return 1; } return 0; } static void NoJoystick(void) { txt_window_t *window; window = TXT_NewWindow(NULL); TXT_AddWidget(window, TXT_NewLabel("No joysticks could be opened.\n\n" "Try configuring your joystick from within\n" "your OS first.")); TXT_SetWindowAction(window, TXT_HORIZ_LEFT, NULL); TXT_SetWindowAction(window, TXT_HORIZ_CENTER, TXT_NewWindowEscapeAction(window)); TXT_SetWindowAction(window, TXT_HORIZ_RIGHT, NULL); joystick_index = -1; SetJoystickButtonLabel(); } static void CalibrateWindowClosed(TXT_UNCAST_ARG(widget), TXT_UNCAST_ARG(unused)) { CloseAllJoysticks(); TXT_SDL_SetEventCallback(NULL, NULL); SetJoystickButtonLabel(); } static void CalibrateJoystick(TXT_UNCAST_ARG(widget), TXT_UNCAST_ARG(unused)) { calibrate_stage = CALIBRATE_CENTER; // Try to open all available joysticks. If none are opened successfully, // bomb out with an error. if (!OpenAllJoysticks()) { NoJoystick(); return; } calibration_window = TXT_NewWindow("Joystick calibration"); TXT_AddWidgets(calibration_window, TXT_NewLabel("Please follow the following instructions\n" "in order to calibrate your joystick."), TXT_NewStrut(0, 1), calibration_label = TXT_NewLabel("zzz"), TXT_NewStrut(0, 1), NULL); TXT_SetWindowAction(calibration_window, TXT_HORIZ_LEFT, NULL); TXT_SetWindowAction(calibration_window, TXT_HORIZ_CENTER, TXT_NewWindowAbortAction(calibration_window)); TXT_SetWindowAction(calibration_window, TXT_HORIZ_RIGHT, NULL); TXT_SetWidgetAlign(calibration_label, TXT_HORIZ_CENTER); TXT_SDL_SetEventCallback(CalibrationEventCallback, NULL); TXT_SignalConnect(calibration_window, "closed", CalibrateWindowClosed, NULL); // Start calibration joystick_index = -1; calibrate_stage = CALIBRATE_CENTER; SetCalibrationLabel(); } void JoyButtonSetCallback(TXT_UNCAST_ARG(widget), TXT_UNCAST_ARG(variable)) { TXT_CAST_ARG(int, variable); unsigned int i; // Only allow a button to be bound to one action at a time. If // we assign a key that another action is using, set that other action // to -1. for (i=0; i<arrlen(all_joystick_buttons); ++i) { if (variable != all_joystick_buttons[i] && *variable == *all_joystick_buttons[i]) { *all_joystick_buttons[i] = -1; } } } // // GUI // static void JoystickWindowClosed(TXT_UNCAST_ARG(window), TXT_UNCAST_ARG(unused)) { if (joystick_initted) { SDL_QuitSubSystem(SDL_INIT_JOYSTICK); joystick_initted = 0; } } static void AddJoystickControl(txt_table_t *table, char *label, int *var) { txt_joystick_input_t *joy_input; joy_input = TXT_NewJoystickInput(var); TXT_AddWidget(table, TXT_NewLabel(label)); TXT_AddWidget(table, joy_input); TXT_SignalConnect(joy_input, "set", JoyButtonSetCallback, var); } void ConfigJoystick(void) { txt_window_t *window; txt_table_t *button_table; txt_table_t *joystick_table; if (!joystick_initted) { joystick_initted = SDL_Init(SDL_INIT_JOYSTICK) >= 0; } window = TXT_NewWindow("Joystick configuration"); TXT_AddWidgets(window, TXT_NewCheckBox("Enable joystick", &usejoystick), joystick_table = TXT_NewTable(2), TXT_NewSeparator("Joystick buttons"), button_table = TXT_NewTable(2), NULL); TXT_SetColumnWidths(joystick_table, 20, 15); TXT_AddWidgets(joystick_table, TXT_NewLabel("Current joystick"), joystick_button = TXT_NewButton("zzzz"), NULL); TXT_SetColumnWidths(button_table, 20, 15); AddJoystickControl(button_table, "Fire", &joybfire); AddJoystickControl(button_table, "Use", &joybuse); // High values of joybspeed are used to activate the "always run mode" // trick in Vanilla Doom. If this has been enabled, not only is the // joybspeed value meaningless, but the control itself is useless. if (joybspeed < 20) { AddJoystickControl(button_table, "Speed", &joybspeed); } AddJoystickControl(button_table, "Strafe", &joybstrafe); AddJoystickControl(button_table, "Strafe Left", &joybstrafeleft); AddJoystickControl(button_table, "Strafe Right", &joybstraferight); TXT_SignalConnect(joystick_button, "pressed", CalibrateJoystick, NULL); TXT_SignalConnect(window, "closed", JoystickWindowClosed, NULL); SetJoystickButtonLabel(); }