/* Copyright (C) 2001-2006 Artifex Software, Inc. All Rights Reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of that license. Refer to licensing information at http://www.artifex.com/ or contact Artifex Software, Inc., 7 Mt. Lassen Drive - Suite A-134, San Rafael, CA 94903, U.S.A., +1(415)492-9861, for further information. */ /* $Id$ */ /* platform-specific routines for MacOS */ #ifndef __CARBON__ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #else #include #endif #include #include "math_.h" #include "string_.h" #include "time_.h" #include "memory_.h" #include "string_.h" #include "gx.h" #include "gp.h" #include "gsdll.h" #include "gpcheck.h" #include "gp_mac.h" #include "gdebug.h" /*#include "gpgetenv.h"*/ #include "gsexit.h" HWND hwndtext; /* used as identifier for the dll instance */ char * mygetenv(const char * env) { return (NULL); } void gp_init (void) { extern char *gs_lib_default_path; extern char *gs_init_file; #if 0 /*...Initialize Ghostscript's default library paths and initialization file...*/ { int i; char **p; for (i = iGSLibPathStr, p = &gs_lib_default_path; i <= iGSInitFileStr; i++, p = &gs_init_file) { GetIndString (string, MACSTRS_RES_ID, i); (void) PtoCstr (string); *p = malloc ((size_t) (strlen ((char *) string) + 1)); strcpy (*p, (char *) string); } } #endif } void gp_exit(int exit_status, int code) { } /* Exit the program. */ void gp_do_exit(int exit_status) { exit(exit_status); } /* gettimeofday */ #ifndef HZ # define HZ 100 /* see sys/param.h */ #endif int gettimeofday(struct timeval *tvp) { struct tm tms; static long offset = 0; long ticks; if (!offset) { time(&offset); offset -= (time((long *)&tms) / HZ); } ticks = time((long *)&tms); tvp->tv_sec = ticks / HZ + offset; tvp->tv_usec = (ticks % HZ) * (1000 * 1000 / HZ); return 0; } /* ------ Date and time ------ */ #define gettimeofday_no_timezone 0 /* Read the current time (in seconds since Jan. 1, 1970) */ /* and fraction (in nanoseconds). */ void gp_get_realtime(long *pdt) { struct timeval tp; if (gettimeofday(&tp) == -1) { lprintf("Ghostscript: gettimeofday failed!\n"); gs_abort(NULL); } /* tp.tv_sec is #secs since Jan 1, 1970 */ pdt[0] = tp.tv_sec; /* Some Unix systems (e.g., Interactive 3.2 r3.0) return garbage */ /* in tp.tv_usec. Try to filter out the worst of it here. */ pdt[1] = tp.tv_usec >= 0 && tp.tv_usec < 1000000 ? tp.tv_usec * 1000 : 0; #ifdef DEBUG_CLOCK printf("tp.tv_sec = %d tp.tv_usec = %d pdt[0] = %ld pdt[1] = %ld\n", tp.tv_sec, tp.tv_usec, pdt[0], pdt[1]); #endif } /* Read the current user CPU time (in seconds) */ /* and fraction (in nanoseconds). */ void gp_get_usertime(long *pdt) { gp_get_realtime(pdt); /* Use an approximation on other hosts. */ pdt[0] -= (char)rand(); // was needed, if used for random generator seed (g3 is too fast) } /* * Get the string corresponding to an OS error number. * If no string is available, return NULL. The caller may assume * the string is allocated statically and permanently. */ const char * gp_strerror(int) { return NULL; } /* ------ Date and time ------ */ /* Read the current date (in days since Jan. 1, 1980) */ /* and time (in milliseconds since midnight). */ void gp_get_clock (long *pdt) { gp_get_realtime(pdt); /* Use an approximation on other hosts. */ } void gpp_get_clock (long *pdt) { long secs; DateTimeRec dateRec; static DateTimeRec baseDateRec = {1980, 1, 1, 0, 0, 0, 1}; long pdtmp[2]; void do_get_clock (DateTimeRec *dateRec, long *pdt); GetDateTime ((unsigned long *) &secs); // SecsondsToDate (secs, &dateRec); do_get_clock (&dateRec , pdt); do_get_clock (&baseDateRec, pdtmp); /* If the date is reasonable, subtract the days since Jan. 1, 1980 */ if (pdtmp[0] < pdt[0]) pdt[0] -= pdtmp[0]; #ifdef DEBUG_CLOCK printf("pdt[0] = %ld pdt[1] = %ld\n", pdt[0], pdt[1]); #endif } UnsignedWide beginMicroTickCount={0,0}; /* Read the current date (in days since Jan. 1, 1980) */ /* and time (in nanoseconds since midnight). */ void gpp_get_realtime (long *pdt) { UnsignedWide microTickCount, nMicroTickCount; long idate; static const int mstart[12] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 }; long secs; DateTimeRec dateRec; static DateTimeRec baseDateRec = {1980, 1, 1, 0, 0, 0, 1}; void do_get_clock (DateTimeRec *dateRec, long *pdt); if ((beginMicroTickCount.lo == 0)&&(beginMicroTickCount.hi == 0) ) { Microseconds(&beginMicroTickCount); } Microseconds(µTickCount); nMicroTickCount.lo = microTickCount.lo - beginMicroTickCount.lo; nMicroTickCount.hi = microTickCount.hi - beginMicroTickCount.hi; GetDateTime ((unsigned long *) &secs); SecondsToDate (secs, &dateRec); /* If the date is reasonable, subtract the days since Jan. 1, 1980 */ idate = ((long) dateRec.year - 1980) * 365 + /* days per year */ (((long) dateRec.year - 1)/4 - 1979/4) + /* intervening leap days */ (1979/100 - ((long) dateRec.year - 1)/100) + (((long) dateRec.month - 1)/400 - 1979/400) + mstart[dateRec.month - 1] + /* month is 1-origin */ dateRec.day - 1; /* day of month is 1-origin */ idate += (2 < dateRec.month && (dateRec.year % 4 == 0 && (dateRec.year % 100 != 0 || dateRec.year % 400 == 0))); pdt[0] = ((idate*24 + dateRec.hour) * 60 + dateRec.minute) * 60 + dateRec.second; pdt[1] = nMicroTickCount.lo * 100; //#define DEBUG_CLOCK 1 #ifdef DEBUG_CLOCK fprintf(stderr,"pdt[0] = %ld pdt[1] = %ld\n", pdt[0], pdt[1]); fprintf(stderr,"b hi[0] = %ld lo[1] = %ld\n", beginMicroTickCount.hi, beginMicroTickCount.lo); fprintf(stderr,"m hi[0] = %ld lo[1] = %ld\n", microTickCount.hi, microTickCount.lo); #endif } static void do_get_clock (DateTimeRec *dateRec, long *pdt) { long idate; static const int mstart[12] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 }; /* This gets UTC, not local time */ /* We have no way of knowing the time zone correction */ idate = ((long) dateRec->year - 1980) * 365 + /* days per year */ (((long) dateRec->year - 1)/4 - 1979/4) + /* intervening leap days */ (1979/100 - ((long) dateRec->year - 1)/100) + (((long) dateRec->month - 1)/400 - 1979/400) + mstart[dateRec->month - 1] + /* month is 1-origin */ dateRec->day - 1; /* day of month is 1-origin */ idate += (2 < dateRec->month && (dateRec->year % 4 == 0 && (dateRec->year % 100 != 0 || dateRec->year % 400 == 0))); pdt[0] = ((idate*24 + dateRec->hour) * 60 + dateRec->minute) * 60 + dateRec->second; pdt[1] = 0; //dateRec->milisecond * 1000000; } void gpp_get_usertime(long *pdt) { gp_get_realtime(pdt); /* Use an approximation for now. */ } /* ------ Persistent data cache ------*/ /* insert a buffer under a (type, key) pair */ int gp_cache_insert(int type, byte *key, int keylen, void *buffer, int buflen) { /* not yet implemented */ return 0; } /* look up a (type, key) in the cache */ int gp_cache_query(int type, byte* key, int keylen, void **buffer, gp_cache_alloc alloc, void *userdata) { /* not yet implemented */ return -1; } /* ------ Screen management ------ */ /* Initialize the console. */ /* do nothing, we did it in gp_init()! */ void gp_init_console(void) { } /* Write a string to the console. */ void gp_console_puts (const char *str, uint size) { /* fwrite (str, 1, size, stdout);*/ return; } const char * gp_getenv_display(void) { return NULL; }