2 * Copyright (c) 2009, Wei Mingzhi <whistler@openoffice.org>.
5 * This program is free software; you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation; either version 2 of the License, or
8 * (at your option) any later version.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this program; if not, see <http://www.gnu.org/licenses>.
22 g.PadState[0].AnalogStatus[ANALOG_LEFT][0] = 127;
23 g.PadState[0].AnalogStatus[ANALOG_LEFT][1] = 127;
24 g.PadState[0].AnalogStatus[ANALOG_RIGHT][0] = 127;
25 g.PadState[0].AnalogStatus[ANALOG_RIGHT][1] = 127;
26 g.PadState[1].AnalogStatus[ANALOG_LEFT][0] = 127;
27 g.PadState[1].AnalogStatus[ANALOG_LEFT][1] = 127;
28 g.PadState[1].AnalogStatus[ANALOG_RIGHT][0] = 127;
29 g.PadState[1].AnalogStatus[ANALOG_RIGHT][1] = 127;
31 memset(g.PadState[0].AnalogKeyStatus, 0, sizeof(g.PadState[0].AnalogKeyStatus));
32 memset(g.PadState[1].AnalogKeyStatus, 0, sizeof(g.PadState[1].AnalogKeyStatus));
39 for (i = 0; i < 2; i++) {
40 if (g.cfg.PadDef[i].Type != PSE_PAD_TYPE_ANALOGPAD) {
44 for (j = 0; j < ANALOG_TOTAL; j++) {
45 for (k = 0; k < 4; k++) {
46 if (g.PadState[i].AnalogKeyStatus[j][k]) {
48 case ANALOG_XP: g.PadState[i].AnalogStatus[j][0] = 255; k++; break;
49 case ANALOG_XM: g.PadState[i].AnalogStatus[j][0] = 0; break;
50 case ANALOG_YP: g.PadState[i].AnalogStatus[j][1] = 255; k++; break;
51 case ANALOG_YM: g.PadState[i].AnalogStatus[j][1] = 0; break;
56 switch (g.cfg.PadDef[i].AnalogDef[j][k].JoyEvType) {
58 n = abs(g.cfg.PadDef[i].AnalogDef[j][k].J.Axis) - 1;
60 if (g.cfg.PadDef[i].AnalogDef[j][k].J.Axis > 0) {
61 val = SDL_JoystickGetAxis(g.PadState[i].JoyDev, n);
67 case ANALOG_XP: g.PadState[i].AnalogStatus[j][0] = val; break;
68 case ANALOG_XM: g.PadState[i].AnalogStatus[j][0] = 255 - val; break;
69 case ANALOG_YP: g.PadState[i].AnalogStatus[j][1] = val; break;
70 case ANALOG_YM: g.PadState[i].AnalogStatus[j][1] = 255 - val; break;
73 } else if (g.cfg.PadDef[i].AnalogDef[j][k].J.Axis < 0) {
74 val = SDL_JoystickGetAxis(g.PadState[i].JoyDev, n);
80 case ANALOG_XP: g.PadState[i].AnalogStatus[j][0] = 255 - val; break;
81 case ANALOG_XM: g.PadState[i].AnalogStatus[j][0] = val; break;
82 case ANALOG_YP: g.PadState[i].AnalogStatus[j][1] = 255 - val; break;
83 case ANALOG_YM: g.PadState[i].AnalogStatus[j][1] = val; break;
90 n = (g.cfg.PadDef[i].AnalogDef[j][k].J.Hat >> 8);
92 g.PadState[i].AnalogStatus[j][0] = 0;
94 if (SDL_JoystickGetHat(g.PadState[i].JoyDev, n) & (g.cfg.PadDef[i].AnalogDef[j][k].J.Hat & 0xFF)) {
96 case ANALOG_XP: g.PadState[i].AnalogStatus[j][0] = 255; k++; break;
97 case ANALOG_XM: g.PadState[i].AnalogStatus[j][0] = 0; break;
98 case ANALOG_YP: g.PadState[i].AnalogStatus[j][1] = 255; k++; break;
99 case ANALOG_YM: g.PadState[i].AnalogStatus[j][1] = 0; break;
103 case ANALOG_XP: g.PadState[i].AnalogStatus[j][0] = 127; break;
104 case ANALOG_XM: g.PadState[i].AnalogStatus[j][0] = 127; break;
105 case ANALOG_YP: g.PadState[i].AnalogStatus[j][1] = 127; break;
106 case ANALOG_YM: g.PadState[i].AnalogStatus[j][1] = 127; break;
112 if (SDL_JoystickGetButton(g.PadState[i].JoyDev, g.cfg.PadDef[i].AnalogDef[j][k].J.Button)) {
114 case ANALOG_XP: g.PadState[i].AnalogStatus[j][0] = 255; k++; break;
115 case ANALOG_XM: g.PadState[i].AnalogStatus[j][0] = 0; break;
116 case ANALOG_YP: g.PadState[i].AnalogStatus[j][1] = 255; k++; break;
117 case ANALOG_YM: g.PadState[i].AnalogStatus[j][1] = 0; break;
121 case ANALOG_XP: g.PadState[i].AnalogStatus[j][0] = 127; break;
122 case ANALOG_XM: g.PadState[i].AnalogStatus[j][0] = 127; break;
123 case ANALOG_YP: g.PadState[i].AnalogStatus[j][1] = 127; break;
124 case ANALOG_YM: g.PadState[i].AnalogStatus[j][1] = 127; break;
131 case ANALOG_XP: g.PadState[i].AnalogStatus[j][0] = 127; break;
132 case ANALOG_XM: g.PadState[i].AnalogStatus[j][0] = 127; break;
133 case ANALOG_YP: g.PadState[i].AnalogStatus[j][1] = 127; break;
134 case ANALOG_YM: g.PadState[i].AnalogStatus[j][1] = 127; break;
143 int AnalogKeyPressed(uint16_t Key) {
146 for (i = 0; i < 2; i++) {
147 if (g.cfg.PadDef[i].Type != PSE_PAD_TYPE_ANALOGPAD) {
151 for (j = 0; j < ANALOG_TOTAL; j++) {
152 for (k = 0; k < 4; k++) {
153 if (g.cfg.PadDef[i].AnalogDef[j][k].Key == Key) {
154 g.PadState[i].AnalogKeyStatus[j][k] = 1;
164 int AnalogKeyReleased(uint16_t Key) {
167 for (i = 0; i < 2; i++) {
168 if (g.cfg.PadDef[i].Type != PSE_PAD_TYPE_ANALOGPAD) {
172 for (j = 0; j < ANALOG_TOTAL; j++) {
173 for (k = 0; k < 4; k++) {
174 if (g.cfg.PadDef[i].AnalogDef[j][k].Key == Key) {
175 g.PadState[i].AnalogKeyStatus[j][k] = 0;