Mercurial > sdl-ios-xcode
view src/video/fbcon/SDL_fbelo.c @ 4135:cd98d1dc385c SDL-1.2
Damien Carbery fixed bug #542
In SDL 1.2.13 sdl.m4 the AM_PATH_SDL function looks for sdl-config.
It sets the PATH:
PATH="$prefix/bin:$prefix/usr/bin:$PATH"
but does not save the current PATH or restore the current PATH at the end.
This breaks the build on Solaris because we have GNU tools in another dir
(listed at the top of PATH) but non-GNU tools with the same names in
$prefix/bin. Later configure tests finds the non-GNU tools and quits in error
author | Sam Lantinga <slouken@libsdl.org> |
---|---|
date | Thu, 24 Jan 2008 15:50:20 +0000 |
parents | d910939febfa |
children | 782fd950bd46 c121d94672cb a1b03ba2fcd0 |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2006 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" #include <unistd.h> #include <sys/time.h> #include <ctype.h> #include "SDL_stdinc.h" #include "SDL_fbvideo.h" #include "SDL_fbelo.h" /* calibration default values values are read from the following environment variables: SDL_ELO_MIN_X SDL_ELO_MAX_X SDL_ELO_MIN_Y SDL_ELO_MAX_Y */ static int ELO_MIN_X = 400; static int ELO_MAX_X = 3670; static int ELO_MIN_Y = 500; static int ELO_MAX_Y = 3540; #define ELO_SNAP_SIZE 6 #define ELO_TOUCH_BYTE 'T' #define ELO_ID 'I' #define ELO_MODE 'M' #define ELO_PARAMETER 'P' #define ELO_REPORT 'B' #define ELO_ACK 'A' #define ELO_INIT_CHECKSUM 0xAA #define ELO_BTN_PRESS 0x01 #define ELO_STREAM 0x02 #define ELO_BTN_RELEASE 0x04 #define ELO_TOUCH_MODE 0x01 #define ELO_STREAM_MODE 0x02 #define ELO_UNTOUCH_MODE 0x04 #define ELO_RANGE_CHECK_MODE 0x40 #define ELO_TRIM_MODE 0x02 #define ELO_CALIB_MODE 0x04 #define ELO_SCALING_MODE 0x08 #define ELO_TRACKING_MODE 0x40 #define ELO_SERIAL_MASK 0xF8 #define ELO_SERIAL_IO '0' #define ELO_MAX_TRIALS 3 #define ELO_MAX_WAIT 100000 #define ELO_UNTOUCH_DELAY 5 #define ELO_REPORT_DELAY 1 /* eloParsePacket */ int eloParsePacket(unsigned char* mousebuf, int* dx, int* dy, int* button_state) { static int elo_button = 0; static int last_x = 0; static int last_y = 0; int x,y; /* Check if we have a touch packet */ if (mousebuf[1] != ELO_TOUCH_BYTE) { return 0; } x = ((mousebuf[4] << 8) | mousebuf[3]); y = ((mousebuf[6] << 8) | mousebuf[5]); if((SDL_abs(x - last_x) > ELO_SNAP_SIZE) || (SDL_abs(y - last_y) > ELO_SNAP_SIZE)) { *dx = ((mousebuf[4] << 8) | mousebuf[3]); *dy = ((mousebuf[6] << 8) | mousebuf[5]); } else { *dx = last_x; *dy = last_y; } last_x = *dx; last_y = *dy; if ( (mousebuf[2] & 0x07) == ELO_BTN_PRESS ) { elo_button = 1; } if ( (mousebuf[2] & 0x07) == ELO_BTN_RELEASE ) { elo_button = 0; } *button_state = elo_button; return 1; } /* Convert the raw coordinates from the ELO controller to a screen position. */ void eloConvertXY(_THIS, int *dx, int *dy) { int input_x = *dx; int input_y = *dy; int width = ELO_MAX_X - ELO_MIN_X; int height = ELO_MAX_Y - ELO_MIN_Y; *dx = ((int)cache_vinfo.xres - ((int)cache_vinfo.xres * (input_x - ELO_MIN_X)) / width); *dy = (cache_vinfo.yres * (input_y - ELO_MIN_Y)) / height; } /* eloGetPacket */ int eloGetPacket(unsigned char* buffer, int* buffer_p, int* checksum, int fd) { int num_bytes; int ok; if(fd == 0) { num_bytes = ELO_PACKET_SIZE; } else { num_bytes = read(fd, (char *) (buffer + *buffer_p), ELO_PACKET_SIZE - *buffer_p); } if (num_bytes < 0) { #ifdef DEBUG_MOUSE fprintf(stderr, "System error while reading from Elographics touchscreen.\n"); #endif return 0; } while (num_bytes) { if ((*buffer_p == 0) && (buffer[0] != ELO_START_BYTE)) { SDL_memcpy(&buffer[0], &buffer[1], num_bytes-1); } else { if (*buffer_p < ELO_PACKET_SIZE-1) { *checksum = *checksum + buffer[*buffer_p]; *checksum = *checksum % 256; } (*buffer_p)++; } num_bytes--; } if (*buffer_p == ELO_PACKET_SIZE) { ok = (*checksum == buffer[ELO_PACKET_SIZE-1]); *checksum = ELO_INIT_CHECKSUM; *buffer_p = 0; if (!ok) { return 0; } return 1; } else { return 0; } } /* eloSendPacket */ int eloSendPacket(unsigned char* packet, int fd) { int i, result; int sum = ELO_INIT_CHECKSUM; packet[0] = ELO_START_BYTE; for (i = 0; i < ELO_PACKET_SIZE-1; i++) { sum += packet[i]; sum &= 0xFF; } packet[ELO_PACKET_SIZE-1] = sum; result = write(fd, packet, ELO_PACKET_SIZE); if (result != ELO_PACKET_SIZE) { #ifdef DEBUG_MOUSE printf("System error while sending to Elographics touchscreen.\n"); #endif return 0; } else { return 1; } } /* eloWaitForInput */ int eloWaitForInput(int fd, int timeout) { fd_set readfds; struct timeval to; int r; FD_ZERO(&readfds); FD_SET(fd, &readfds); to.tv_sec = 0; to.tv_usec = timeout; r = select(FD_SETSIZE, &readfds, NULL, NULL, &to); return r; } /* eloWaitReply */ int eloWaitReply(unsigned char type, unsigned char *reply, int fd) { int ok; int i, result; int reply_p = 0; int sum = ELO_INIT_CHECKSUM; i = ELO_MAX_TRIALS; do { ok = 0; result = eloWaitForInput(fd, ELO_MAX_WAIT); if (result > 0) { ok = eloGetPacket(reply, &reply_p, &sum, fd); if (ok && reply[1] != type && type != ELO_PARAMETER) { #ifdef DEBUG_MOUSE fprintf(stderr, "Wrong reply received\n"); #endif ok = 0; } } else { #ifdef DEBUG_MOUSE fprintf(stderr, "No input!\n"); #endif } if (result == 0) { i--; } } while(!ok && (i>0)); return ok; } /* eloWaitAck */ int eloWaitAck(int fd) { unsigned char packet[ELO_PACKET_SIZE]; int i, nb_errors; if (eloWaitReply(ELO_ACK, packet, fd)) { for (i = 0, nb_errors = 0; i < 4; i++) { if (packet[2 + i] != '0') { nb_errors++; } } if (nb_errors != 0) { #ifdef DEBUG_MOUSE fprintf(stderr, "Elographics acknowledge packet reports %d errors\n", nb_errors); #endif } return 1; } else { return 0; } } /* eloSendQuery -- */ int eloSendQuery(unsigned char *request, unsigned char* reply, int fd) { int ok; if (eloSendPacket(request, fd)) { ok = eloWaitReply(toupper(request[1]), reply, fd); if (ok) { ok = eloWaitAck(fd); } return ok; } else { return 0; } } /* eloSendControl */ int eloSendControl(unsigned char* control, int fd) { if (eloSendPacket(control, fd)) { return eloWaitAck(fd); } else { return 0; } } /* eloInitController */ int eloInitController(int fd) { unsigned char req[ELO_PACKET_SIZE]; unsigned char reply[ELO_PACKET_SIZE]; const char *buffer = NULL; int result = 0; struct termios mouse_termios; /* try to read the calibration values */ buffer = SDL_getenv("SDL_ELO_MIN_X"); if(buffer) { ELO_MIN_X = SDL_atoi(buffer); } buffer = SDL_getenv("SDL_ELO_MAX_X"); if(buffer) { ELO_MAX_X = SDL_atoi(buffer); } buffer = SDL_getenv("SDL_ELO_MIN_Y"); if(buffer) { ELO_MIN_Y = SDL_atoi(buffer); } buffer = SDL_getenv("SDL_ELO_MAX_Y"); if(buffer) { ELO_MAX_Y = SDL_atoi(buffer); } #ifdef DEBUG_MOUSE fprintf( stderr, "ELO calibration values:\nmin_x: %i\nmax_x: %i\nmin_y: %i\nmax_y: %i\n", ELO_MIN_X, ELO_MAX_X, ELO_MIN_Y, ELO_MAX_Y); #endif /* set comm params */ SDL_memset(&mouse_termios, 0, sizeof(mouse_termios)); mouse_termios.c_cflag = B9600 | CS8 | CREAD | CLOCAL; mouse_termios.c_cc[VMIN] = 1; result = tcsetattr(fd, TCSANOW, &mouse_termios); if (result < 0) { #ifdef DEBUG_MOUSE fprintf( stderr, "Unable to configure Elographics touchscreen port\n"); #endif return 0; } SDL_memset(req, 0, ELO_PACKET_SIZE); req[1] = tolower(ELO_PARAMETER); if (!eloSendQuery(req, reply, fd)) { #ifdef DEBUG_MOUSE fprintf( stderr, "Not at the specified rate or model 2310, will continue\n"); #endif } SDL_memset(req, 0, ELO_PACKET_SIZE); req[1] = tolower(ELO_ID); if (eloSendQuery(req, reply, fd)) { #ifdef DEBUG_MOUSE fprintf(stderr, "Ok, controller configured!\n"); #endif } else { #ifdef DEBUG_MOUSE fprintf( stderr, "Unable to ask Elographics touchscreen identification\n"); #endif return 0; } SDL_memset(req, 0, ELO_PACKET_SIZE); req[1] = ELO_MODE; req[3] = ELO_TOUCH_MODE | ELO_STREAM_MODE | ELO_UNTOUCH_MODE; req[4] = ELO_TRACKING_MODE; if (!eloSendControl(req, fd)) { #ifdef DEBUG_MOUSE fprintf( stderr, "Unable to change Elographics touchscreen operating mode\n"); #endif return 0; } SDL_memset(req, 0, ELO_PACKET_SIZE); req[1] = ELO_REPORT; req[2] = ELO_UNTOUCH_DELAY; req[3] = ELO_REPORT_DELAY; if (!eloSendControl(req, fd)) { #ifdef DEBUG_MOUSE fprintf( stderr, "Unable to change Elographics touchscreen reports timings\n"); #endif return 0; } return 1; } int eloReadPosition(_THIS, int fd, int* x, int* y, int* button_state, int* realx, int* realy) { unsigned char buffer[ELO_PACKET_SIZE]; int pointer = 0; int checksum = ELO_INIT_CHECKSUM; while(pointer < ELO_PACKET_SIZE) { if(eloGetPacket(buffer, &pointer, &checksum, fd)) { break; } } if(!eloParsePacket(buffer, realx, realy, button_state)) { return 0; } *x = *realx; *y = *realy; eloConvertXY(this, x, y); return 1; }