#include #include "config.h" #include "misc.h" #ifdef HAS_UI #include "ui.h" #endif #ifdef DEBUG void failed_assert (expr, file, line) char *expr, *file; int line; { fprintf (stderr, "Assertion failed: %s; file %s; line %d\n", expr, file, line); exit (100); } static unsigned long seed = 0x12345; unsigned long not_random () { seed = seed * 65537 + 12345; return seed; } #endif int verb_gc; int Volatile something_to_do = 0; int Volatile force_minor_flag = 0; void force_minor_gc () { force_minor_flag = 1; something_to_do = 1; } void gc_message (msg, arg) char *msg; unsigned long arg; { if (verb_gc){ #ifdef HAS_UI ui_gc_message(msg, arg); #else fprintf (stderr, msg, arg); fflush (stderr); #endif } } void fatal_error (msg) char * msg; { #ifdef HAS_UI ui_fatal_error("%s", msg); #else fprintf (stderr, "%s", msg); exit(2); #endif } void fatal_error_arg (fmt, arg) char * fmt, * arg; { #ifdef HAS_UI ui_fatal_error(fmt, arg); #else fprintf (stderr, fmt, arg); exit(2); #endif } #ifdef USING_MEMMOV /* This should work on 64-bit machines as well as 32-bit machines. It assumes a long is the natural size for memory reads and writes. */ void memmov (dst, src, length) char *dst, *src; unsigned long length; { unsigned long i; if ((unsigned long) dst <= (unsigned long) src){ /* Copy in ascending order. */ if (((unsigned long) src - (unsigned long) dst) % sizeof (long) != 0){ /* The pointers are not equal modulo sizeof (long). Copy byte by byte. */ for (; length != 0; length--){ *dst++ = *src++; } }else{ /* Copy the first few bytes. */ i = (unsigned long) dst % sizeof (long); if (i != 0){ i = sizeof (long) - i; /* Number of bytes to copy. */ if (i > length) i = length; /* Never copy more than length.*/ for (; i != 0; i--){ *dst++ = *src++; --length; } } Assert ((unsigned long) dst % sizeof (long) == 0); Assert ((unsigned long) src % sizeof (long) == 0); /* Then copy as many entire words as possible. */ for (i = length / sizeof (long); i > 0; i--){ *(long *) dst = *(long *) src; dst += sizeof (long); src += sizeof (long); } /* Then copy the last few bytes. */ for (i = length % sizeof (long); i > 0; i--){ *dst++ = *src++; } } }else{ /* Copy in descending order. */ src += length; dst += length; if (((unsigned long) dst - (unsigned long) src) % sizeof (long) != 0){ /* The pointers are not equal modulo sizeof (long). Copy byte by byte. */ for (; length > 0; length--){ *--dst = *--src; } }else{ /* Copy the first few bytes. */ i = (unsigned long) dst % sizeof (long); if (i > length) i = length; /* Never copy more than length. */ for (; i > 0; i--){ *--dst = *--src; --length; } /* Then copy as many entire words as possible. */ for (i = length / sizeof (long); i > 0; i--){ dst -= sizeof (long); src -= sizeof (long); *(long *) dst = *(long *) src; } /* Then copy the last few bytes. */ for (i = length % sizeof (long); i > 0; i--){ *--dst = *--src; } } } } #endif /* USING_MEMMOV */ char *aligned_malloc (size, modulo) asize_t size; int modulo; { char *raw_mem; unsigned long aligned_mem; Assert (modulo < Page_size); raw_mem = (char *) malloc (size + Page_size); if (raw_mem == NULL) return NULL; raw_mem += modulo; /* Address to be aligned */ aligned_mem = (((unsigned long) raw_mem / Page_size + 1) * Page_size); return (char *) (aligned_mem - modulo); }