--- gforth/prim	2008/05/04 17:04:58	1.226
+++ gforth/prim	2012/03/17 22:18:59	1.268
@@ -1,6 +1,6 @@
 \ Gforth primitives
 
-\ Copyright (C) 1995,1996,1997,1998,2000,2003,2004,2005,2006,2007 Free Software Foundation, Inc.
+\ Copyright (C) 1995,1996,1997,1998,2000,2003,2004,2005,2006,2007,2008,2009,2010,2011 Free Software Foundation, Inc.
 
 \ This file is part of Gforth.
 
@@ -229,9 +229,28 @@ fprintf(stderr, "dodoes to %x, push %x\n
 SET_IP(DOES_CODE1(CFA));
 #endif /* !defined(NO_IP) */
 
-(does-handler) ( -- )	gforth-internal	paren_does_handler
-""just a slot to have an encoding for the DOESJUMP, 
-which is no longer used anyway (!! eliminate this)""
+(doabicode) ( ... -- ...)	gforth-internal	paren_doabicode
+""run-time routine for @code{ABI-code} definitions""
+abifunc *f = (abifunc *)PFA(CFA);
+Float *fp_mem = fp;
+sp = (*f)(sp, &fp_mem);
+fp = fp_mem;
+#ifdef NO_IP
+INST_TAIL;
+goto *next_code;
+#endif /* defined(NO_IP) */
+
+(do;abicode) ( ... -- ... ) gforth-internal paren_do_semicolon_abi_code
+""run-time routine for @code{;abi-code}-defined words""
+Float *fp_mem = fp;
+Address body = (Address)PFA(CFA);
+semiabifunc *f = (semiabifunc *)DOES_CODE1(CFA);
+sp = (*f)(sp, &fp_mem, body);
+fp = fp_mem;
+#ifdef NO_IP
+INST_TAIL;
+goto *next_code;
+#endif /* defined(NO_IP) */
 
 \F [endif]
 
@@ -593,6 +612,24 @@ SET_IP((Xt *)a_target);
      cell+
  THEN  >r ;
 
+(try1)	( ... a_oldhandler a_recovery -- R:a_recovery R:a_sp R:f_fp R:c_lp R:a_oldhandler a_newhandler ) gforth paren_try1
+a_sp = sp-1;
+f_fp = fp;
+c_lp = lp;
+a_newhandler = rp-5;
+
+(throw1) ( ... wball a_handler -- ... wball ) gforth paren_throw1
+rp = a_handler;
+lp = (Address)rp[1];
+fp = (Float *)rp[2];
+sp = (Cell *)rp[3];
+#ifndef NO_IP
+ip=IP;
+#endif
+SUPER_END;
+VM_JUMP(EXEC1(*(Xt *)rp[4]));
+  
+
 \+
 
 \ don't make any assumptions where the return stack is!!
@@ -1066,6 +1103,22 @@ lshift	( u1 n -- u2 )		core	l_shift
 :
     0 ?DO 2* LOOP ;
 
+umax	( u1 u2 -- u )	core
+if (u1<u2)
+  u = u2;
+else
+  u = u1;
+:
+ 2dup u< IF swap THEN drop ;
+
+umin	( u1 u2 -- u )	core
+if (u1<u2)
+  u = u1;
+else
+  u = u2;
+:
+ 2dup u> IF swap THEN drop ;
+
 \g compare
 
 \ comparisons(prefix, args, prefix, arg1, arg2, wordsets...)
@@ -1662,7 +1715,11 @@ ucols=cols;
 
 wcwidth	( u -- n )	gforth
 ""The number of fixed-width characters per unicode character u""
+#ifdef HAVE_WCWIDTH
 n = wcwidth(u);
+#else
+n = 1;
+#endif
 
 flush-icache	( c_addr u -- )	gforth	flush_icache
 ""Make sure that the instruction cache of the processor (if there is
@@ -1674,7 +1731,7 @@ supported on your machine (take a look a
 your machine has a separate instruction cache. In such cases,
 @code{flush-icache} does nothing instead of flushing the instruction
 cache.""
-FLUSH_ICACHE(c_addr,u);
+FLUSH_ICACHE((caddr_t)c_addr,u);
 
 (bye)	( n -- )	gforth	paren_bye
 SUPER_END;
@@ -1690,12 +1747,17 @@ is the host operating system's expansion
 environment variable does not exist, @i{c-addr2 u2} specifies a string 0 characters
 in length.""
 /* close ' to keep fontify happy */
-c_addr2 = (Char *)getenv(cstr(c_addr1,u1,1));
+char * string = cstr(c_addr1,u1);
+c_addr2 = (Char *)getenv(string);
 u2 = (c_addr2 == NULL ? 0 : strlen((char *)c_addr2));
+free(string);
 
 open-pipe	( c_addr u wfam -- wfileid wior )	gforth	open_pipe
-wfileid=(Cell)popen(cstr(c_addr,u,1),pfileattr[wfam]); /* ~ expansion of 1st arg? */
+char * string = cstr(c_addr,u);
+fflush(stdout);
+wfileid=(Cell)popen(string,pfileattr[wfam]); /* ~ expansion of 1st arg? */
 wior = IOR(wfileid==0); /* !! the man page says that errno is not set reliably */
+free(string);
 
 close-pipe	( wfileid -- wretval wior )		gforth	close_pipe
 wretval = pclose((FILE *)wfileid);
@@ -1762,6 +1824,8 @@ if (a_addr1==NULL)
 else
   a_addr2 = (Cell *)realloc(a_addr1, u);
 wior = IOR(a_addr2==NULL);	/* !! Define a return code */
+if (a_addr2==NULL)
+  a_addr2 = a_addr1;
 
 strerror	( n -- c_addr u )	gforth
 c_addr = (Char *)strerror(n);
@@ -1777,11 +1841,21 @@ access the stack itself. The stack point
 variables @code{gforth_SP} and @code{gforth_FP}.""
 /* This is a first attempt at support for calls to C. This may change in
    the future */
+IF_fpTOS(fp[0]=fpTOS);
 gforth_FP=fp;
 gforth_SP=sp;
+gforth_RP=rp;
+gforth_LP=lp;
+#ifdef HAS_LINKBACK
 ((void (*)())w)();
+#else
+((void (*)(void *))w)(&gforth_pointers);
+#endif
 sp=gforth_SP;
 fp=gforth_FP;
+rp=gforth_RP;
+lp=gforth_LP;
+IF_fpTOS(fpTOS=fp[0]);
 
 \+
 \+file
@@ -1790,13 +1864,19 @@ close-file	( wfileid -- wior )		file	clo
 wior = IOR(fclose((FILE *)wfileid)==EOF);
 
 open-file	( c_addr u wfam -- wfileid wior )	file	open_file
-wfileid = opencreate_file(tilde_cstr(c_addr,u,1), wfam, 0, &wior);
+char * string = tilde_cstr(c_addr,u);
+wfileid = opencreate_file(string, wfam, 0, &wior);
+free(string);
 
 create-file	( c_addr u wfam -- wfileid wior )	file	create_file
-wfileid = opencreate_file(tilde_cstr(c_addr,u,1), wfam, O_CREAT|O_TRUNC, &wior);
+char * string = tilde_cstr(c_addr,u);
+wfileid = opencreate_file(string, wfam, O_CREAT|O_TRUNC, &wior);
+free(string);
 
 delete-file	( c_addr u -- wior )		file	delete_file
-wior = IOR(unlink(tilde_cstr(c_addr, u, 1))==-1);
+char * string = tilde_cstr(c_addr,u);
+wior = IOR(unlink(string)==-1);
+free(string);
 
 rename-file	( c_addr1 u1 c_addr2 u2 -- wior )	file-ext	rename_file
 ""Rename file @i{c_addr1 u1} to new name @i{c_addr2 u2}""
@@ -1821,13 +1901,15 @@ wior = IOR(ftruncate(fileno((FILE *)wfil
 read-file	( c_addr u1 wfileid -- u2 wior )	file	read_file
 /* !! fread does not guarantee enough */
 u2 = fread(c_addr, sizeof(Char), u1, (FILE *)wfileid);
+if (u2>0)
+   gf_regetc((FILE *)wfileid);
 wior = FILEIO(u2<u1 && ferror((FILE *)wfileid));
 /* !! is the value of ferror errno-compatible? */
 if (wior)
   clearerr((FILE *)wfileid);
 
 (read-line)	( c_addr u1 wfileid -- u2 flag u3 wior ) file	paren_read_line
-struct Cellquad r = read_line(c_addr, u1, wfileid);
+struct Cellquad r = read_line(c_addr, u1, (FILE *)wfileid);
 u2   = r.n1;
 flag = r.n2;
 u3   = r.n3;
@@ -1873,8 +1955,10 @@ flag = FLAG(feof((FILE *) wfileid));
 open-dir	( c_addr u -- wdirid wior )	gforth	open_dir
 ""Open the directory specified by @i{c-addr, u}
 and return @i{dir-id} for futher access to it.""
-wdirid = (Cell)opendir(tilde_cstr(c_addr, u, 1));
+char * string = tilde_cstr(c_addr,u);
+wdirid = (Cell)opendir(string);
 wior =  IOR(wdirid == 0);
+free(string);
 
 read-dir	( c_addr u1 wdirid -- u2 flag wior )	gforth	read_dir
 ""Attempt to read the next entry from the directory specified
@@ -1909,17 +1993,21 @@ close-dir	( wdirid -- wior )	gforth	clos
 wior = IOR(closedir((DIR *)wdirid));
 
 filename-match	( c_addr1 u1 c_addr2 u2 -- flag )	gforth	match_file
-char * string = cstr(c_addr1, u1, 1);
-char * pattern = cstr(c_addr2, u2, 0);
+char * string = cstr(c_addr1, u1);
+char * pattern = cstr(c_addr2, u2);
 flag = FLAG(!fnmatch(pattern, string, 0));
+free(string);
+free(pattern);
 
 set-dir	( c_addr u -- wior )	gforth set_dir
 ""Change the current directory to @i{c-addr, u}.
 Return an error if this is not possible""
-wior = IOR(chdir(tilde_cstr(c_addr, u, 1)));
+char * string = tilde_cstr(c_addr, u);
+wior = IOR(chdir(string));
+free(string);
 
 get-dir	( c_addr1 u1 -- c_addr2 u2 )	gforth get_dir
-""Store the current directory in the buffer specified by @{c-addr1, u1}.
+""Store the current directory in the buffer specified by @i{c-addr1, u1}.
 If the buffer size is not sufficient, return 0 0""
 c_addr2 = (Char *)getcwd((char *)c_addr1, u1);
 if(c_addr2 != NULL) {
@@ -1928,6 +2016,12 @@ if(c_addr2 != NULL) {
   u2 = 0;
 }
 
+=mkdir ( c_addr u wmode -- wior )        gforth equals_mkdir
+""Create directory @i{c-addr u} with mode @i{wmode}.""
+char * string = tilde_cstr(c_addr,u);
+wior = IOR(mkdir(string,wmode));
+free(string);
+
 \+
 
 newline	( -- c_addr u )	gforth
@@ -1973,6 +2067,19 @@ duser = timeval2us(&time1);
 dsystem = DZERO;
 #endif
 
+ntime	( -- dtime )	gforth
+""Report the current time in nanoseconds since some epoch.""
+struct timespec time1;
+#ifdef HAVE_CLOCK_GETTIME
+clock_gettime(CLOCK_REALTIME,&time1);
+#else
+struct timeval time2;
+gettimeofday(&time2,NULL);
+time1.tv_sec = time2.tv_sec;1
+time1.tv_nsec = time2.tv_usec*1000;
+#endif
+dtime = timespec2ns(&time1);
+
 \+
 
 \+floating
@@ -2064,7 +2171,9 @@ r3 = r1/r2;
 
 f**	( r1 r2 -- r3 )	float-ext	f_star_star
 ""@i{r3} is @i{r1} raised to the @i{r2}th power.""
+CLOBBER_TOS_WORKAROUND_START;
 r3 = pow(r1,r2);
+CLOBBER_TOS_WORKAROUND_END;
 
 fm*	( r1 n -- r2 )	gforth	fm_star
 r2 = r1*n;
@@ -2106,7 +2215,9 @@ n2 = n1*sizeof(Float);
 floor	( r1 -- r2 )	float
 ""Round towards the next smaller integral value, i.e., round toward negative infinity.""
 /* !! unclear wording */
+CLOBBER_TOS_WORKAROUND_START;
 r2 = floor(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 fround	( r1 -- r2 )	float	f_round
 ""Round to the nearest integral value.""
@@ -2131,6 +2242,7 @@ int flag;
 int decpt;
 sig=ecvt(r, u, &decpt, &flag);
 n=(r==0. ? 1 : decpt);
+flag=signbit(r); /* not all ecvt()s do this as desired */
 f1=FLAG(flag!=0);
 f2=FLAG(isdigit((unsigned)(sig[0]))!=0);
 siglen=strlen((char *)sig);
@@ -2160,10 +2272,14 @@ fabs	( r1 -- r2 )	float-ext	f_abs
 r2 = fabs(r1);
 
 facos	( r1 -- r2 )	float-ext	f_a_cos
+CLOBBER_TOS_WORKAROUND_START;
 r2 = acos(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 fasin	( r1 -- r2 )	float-ext	f_a_sine
+CLOBBER_TOS_WORKAROUND_START;
 r2 = asin(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 fatan	( r1 -- r2 )	float-ext	f_a_tan
 r2 = atan(r1);
@@ -2171,13 +2287,19 @@ r2 = atan(r1);
 fatan2	( r1 r2 -- r3 )	float-ext	f_a_tan_two
 ""@i{r1/r2}=tan(@i{r3}). ANS Forth does not require, but probably
 intends this to be the inverse of @code{fsincos}. In gforth it is.""
+CLOBBER_TOS_WORKAROUND_START;
 r3 = atan2(r1,r2);
+CLOBBER_TOS_WORKAROUND_END;
 
 fcos	( r1 -- r2 )	float-ext	f_cos
+CLOBBER_TOS_WORKAROUND_START;
 r2 = cos(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 fexp	( r1 -- r2 )	float-ext	f_e_x_p
+CLOBBER_TOS_WORKAROUND_START;
 r2 = exp(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 fexpm1	( r1 -- r2 )	float-ext	f_e_x_p_m_one
 ""@i{r2}=@i{e}**@i{r1}@minus{}1""
@@ -2187,13 +2309,19 @@ extern double
               const
 #endif
                     expm1(double);
+CLOBBER_TOS_WORKAROUND_START;
 r2 = expm1(r1);
+CLOBBER_TOS_WORKAROUND_END;
 #else
+CLOBBER_TOS_WORKAROUND_START;
 r2 = exp(r1)-1.;
+CLOBBER_TOS_WORKAROUND_END;
 #endif
 
 fln	( r1 -- r2 )	float-ext	f_l_n
+CLOBBER_TOS_WORKAROUND_START;
 r2 = log(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 flnp1	( r1 -- r2 )	float-ext	f_l_n_p_one
 ""@i{r2}=ln(@i{r1}+1)""
@@ -2210,56 +2338,78 @@ r2 = log(r1+1.);
 
 flog	( r1 -- r2 )	float-ext	f_log
 ""The decimal logarithm.""
+CLOBBER_TOS_WORKAROUND_START;
 r2 = log10(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 falog	( r1 -- r2 )	float-ext	f_a_log
 ""@i{r2}=10**@i{r1}""
 extern double pow10(double);
+CLOBBER_TOS_WORKAROUND_START;
 r2 = pow10(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 fsin	( r1 -- r2 )	float-ext	f_sine
+CLOBBER_TOS_WORKAROUND_START;
 r2 = sin(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 fsincos	( r1 -- r2 r3 )	float-ext	f_sine_cos
 ""@i{r2}=sin(@i{r1}), @i{r3}=cos(@i{r1})""
+CLOBBER_TOS_WORKAROUND_START;
 r2 = sin(r1);
 r3 = cos(r1);
+CLOBBER_TOS_WORKAROUND_END;
 
 fsqrt	( r1 -- r2 )	float-ext	f_square_root
 r2 = sqrt(r1);
 
 ftan	( r1 -- r2 )	float-ext	f_tan
+CLOBBER_TOS_WORKAROUND_START;
 r2 = tan(r1);
+CLOBBER_TOS_WORKAROUND_END;
 :
  fsincos f/ ;
 
 fsinh	( r1 -- r2 )	float-ext	f_cinch
+CLOBBER_TOS_WORKAROUND_START;
 r2 = sinh(r1);
+CLOBBER_TOS_WORKAROUND_END;
 :
  fexpm1 fdup fdup 1. d>f f+ f/ f+ f2/ ;
 
 fcosh	( r1 -- r2 )	float-ext	f_cosh
+CLOBBER_TOS_WORKAROUND_START;
 r2 = cosh(r1);
+CLOBBER_TOS_WORKAROUND_END;
 :
  fexp fdup 1/f f+ f2/ ;
 
 ftanh	( r1 -- r2 )	float-ext	f_tan_h
+CLOBBER_TOS_WORKAROUND_START;
 r2 = tanh(r1);
+CLOBBER_TOS_WORKAROUND_END;
 :
  f2* fexpm1 fdup 2. d>f f+ f/ ;
 
 fasinh	( r1 -- r2 )	float-ext	f_a_cinch
+CLOBBER_TOS_WORKAROUND_START;
 r2 = asinh(r1);
+CLOBBER_TOS_WORKAROUND_END;
 :
  fdup fdup f* 1. d>f f+ fsqrt f/ fatanh ;
 
 facosh	( r1 -- r2 )	float-ext	f_a_cosh
+CLOBBER_TOS_WORKAROUND_START;
 r2 = acosh(r1);
+CLOBBER_TOS_WORKAROUND_END;
 :
  fdup fdup f* 1. d>f f- fsqrt f+ fln ;
 
 fatanh	( r1 -- r2 )	float-ext	f_a_tan_h
+CLOBBER_TOS_WORKAROUND_START;
 r2 = atanh(r1);
+CLOBBER_TOS_WORKAROUND_END;
 :
  fdup f0< >r fabs 1. d>f fover f- f/  f2* flnp1 f2/
  r> IF  fnegate  THEN ;
@@ -2393,35 +2543,23 @@ r = fp[u];
 \g syslib
 
 open-lib	( c_addr1 u1 -- u2 )	gforth	open_lib
-#if 1
-u2 = (UCell)lt_dlopen(cstr(c_addr1, u1, 1));
-#elif defined(HAVE_LIBDL) || defined(HAVE_DLOPEN)
-#ifndef RTLD_GLOBAL
-#define RTLD_GLOBAL 0
-#endif
-u2=(UCell) dlopen(cstr(c_addr1, u1, 1), RTLD_GLOBAL | RTLD_LAZY);
-#else
-#  ifdef _WIN32
-u2 = (Cell) GetModuleHandle(cstr(c_addr1, u1, 1));
-#  else
-#warning Define open-lib!
-u2 = 0;
-#  endif
-#endif
+u2 = gforth_dlopen(c_addr1, u1);
 
 lib-sym	( c_addr1 u1 u2 -- u3 )	gforth	lib_sym
-#if 1
-u3 = (UCell) lt_dlsym((lt_dlhandle)u2, cstr(c_addr1, u1, 1));
+char * string = cstr(c_addr1, u1);
+#ifdef HAVE_LIBLTDL
+u3 = (UCell) lt_dlsym((lt_dlhandle)u2, string);
 #elif defined(HAVE_LIBDL) || defined(HAVE_DLOPEN)
-u3 = (UCell) dlsym((void*)u2,cstr(c_addr1, u1, 1));
+u3 = (UCell) dlsym((void*)u2,string);
 #else
 #  ifdef _WIN32
-u3 = (Cell) GetProcAddress((HMODULE)u2, cstr(c_addr1, u1, 1));
+u3 = (Cell) GetProcAddress((HMODULE)u2, string);
 #  else
 #warning Define lib-sym!
 u3 = 0;
 #  endif
 #endif
+free(string);
 
 wcall	( ... u -- ... )	gforth
 gforth_FP=fp;
@@ -2452,341 +2590,118 @@ l! ( w c_addr -- )	gforth l_store
 ""Store the bottom 32 bits of @i{w} at @i{c_addr}.""
 *(Tetrabyte*)(c_addr) = w;
 
-\+FFCALL
-
-av-start-void	( c_addr -- )	gforth  av_start_void
-av_start_void(alist, c_addr);
-
-av-start-int	( c_addr -- )	gforth  av_start_int
-av_start_int(alist, c_addr, &irv);
-
-av-start-float	( c_addr -- )	gforth  av_start_float
-av_start_float(alist, c_addr, &frv);
-
-av-start-double	( c_addr -- )	gforth  av_start_double
-av_start_double(alist, c_addr, &drv);
-
-av-start-longlong	( c_addr -- )	gforth  av_start_longlong
-av_start_longlong(alist, c_addr, &llrv);
-
-av-start-ptr	( c_addr -- )	gforth  av_start_ptr
-av_start_ptr(alist, c_addr, void*, &prv);
-
-av-int  ( w -- )  gforth  av_int
-av_int(alist, w);
-
-av-float	( r -- )	gforth  av_float
-av_float(alist, r);
-
-av-double	( r -- )	gforth  av_double
-av_double(alist, r);
-
-av-longlong	( d -- )	gforth  av_longlong
-#ifdef BUGGY_LL_SIZE
-av_longlong(alist, DLO(d));
-#else
-av_longlong(alist, d);
-#endif
-
-av-ptr	( c_addr -- )	gforth  av_ptr
-av_ptr(alist, void*, c_addr);
-
-av-int-r  ( R:w -- )  gforth  av_int_r
-av_int(alist, w);
-
-av-float-r	( -- )	gforth  av_float_r
-float r = *(Float*)lp;
-lp += sizeof(Float);
-av_float(alist, r);
-
-av-double-r	( -- )	gforth  av_double_r
-double r = *(Float*)lp;
-lp += sizeof(Float);
-av_double(alist, r);
-
-av-longlong-r	( R:d -- )	gforth  av_longlong_r
-#ifdef BUGGY_LL_SIZE
-av_longlong(alist, DLO(d));
-#else
-av_longlong(alist, d);
-#endif
-
-av-ptr-r	( R:c_addr -- )	gforth  av_ptr_r
-av_ptr(alist, void*, c_addr);
-
-av-call-void	( ... -- ... )	gforth  av_call_void
-SAVE_REGS
-av_call(alist);
-REST_REGS
-
-av-call-int	( ... -- ... w )	gforth  av_call_int
-SAVE_REGS
-av_call(alist);
-REST_REGS
-w = irv;
-
-av-call-float	( ... -- ... r )	gforth  av_call_float
-SAVE_REGS
-av_call(alist);
-REST_REGS
-r = frv;
-
-av-call-double	( ... -- ... r )	gforth  av_call_double
-SAVE_REGS
-av_call(alist);
-REST_REGS
-r = drv;
-
-av-call-longlong	( ... -- ... d )	gforth  av_call_longlong
-SAVE_REGS
-av_call(alist);
-REST_REGS
-#ifdef BUGGY_LONG_LONG
-DLO_IS(d, llrv);
-DHI_IS(d, 0);
-#else
-d = llrv;
-#endif
-
-av-call-ptr	( ... -- ... c_addr )	gforth  av_call_ptr
-SAVE_REGS
-av_call(alist);
-REST_REGS
-c_addr = prv;
-
-alloc-callback	( a_ip -- c_addr )	gforth	alloc_callback
-c_addr = (char *)alloc_callback(gforth_callback, (Xt *)a_ip);
-
-va-start-void	( -- )	gforth	va_start_void
-va_start_void(gforth_clist);
-
-va-start-int	( -- )	gforth	va_start_int
-va_start_int(gforth_clist);
-
-va-start-longlong	( -- )	gforth	va_start_longlong
-va_start_longlong(gforth_clist);
-
-va-start-ptr	( -- )	gforth	va_start_ptr
-va_start_ptr(gforth_clist, (char *));
-
-va-start-float	( -- )	gforth	va_start_float
-va_start_float(gforth_clist);
-
-va-start-double	( -- )	gforth	va_start_double
-va_start_double(gforth_clist);
-
-va-arg-int	( -- w )	gforth	va_arg_int
-w = va_arg_int(gforth_clist);
-
-va-arg-longlong	( -- d )	gforth	va_arg_longlong
-#ifdef BUGGY_LONG_LONG
-DLO_IS(d, va_arg_longlong(gforth_clist));
-DHI_IS(d, 0);
-#else
-d = va_arg_longlong(gforth_clist);
-#endif
-
-va-arg-ptr	( -- c_addr )	gforth	va_arg_ptr
-c_addr = (char *)va_arg_ptr(gforth_clist,char*);
-
-va-arg-float	( -- r )	gforth	va_arg_float
-r = va_arg_float(gforth_clist);
-
-va-arg-double	( -- r )	gforth	va_arg_double
-r = va_arg_double(gforth_clist);
-
-va-return-void ( -- )	gforth va_return_void
-va_return_void(gforth_clist);
-return 0;
-
-va-return-int ( w -- )	gforth va_return_int
-va_return_int(gforth_clist, w);
-return 0;
-
-va-return-ptr ( c_addr -- )	gforth va_return_ptr
-va_return_ptr(gforth_clist, void *, c_addr);
-return 0;
-
-va-return-longlong ( d -- )	gforth va_return_longlong
-#ifdef BUGGY_LONG_LONG
-va_return_longlong(gforth_clist, d.lo);
-#else
-va_return_longlong(gforth_clist, d);
-#endif
-return 0;
-
-va-return-float ( r -- )	gforth va_return_float
-va_return_float(gforth_clist, r);
-return 0;
-
-va-return-double ( r -- )	gforth va_return_double
-va_return_double(gforth_clist, r);
-return 0;
-
-\+
-
-\+LIBFFI
-
-ffi-type ( n -- a_type )	gforth ffi_type
-static void* ffi_types[] =
-    { &ffi_type_void,
-      &ffi_type_uint8, &ffi_type_sint8,
-      &ffi_type_uint16, &ffi_type_sint16,
-      &ffi_type_uint32, &ffi_type_sint32,
-      &ffi_type_uint64, &ffi_type_sint64,
-      &ffi_type_float, &ffi_type_double, &ffi_type_longdouble,
-      &ffi_type_pointer };
-a_type = ffi_types[n];
-
-ffi-size ( n1 -- n2 )	gforth ffi_size
-static int ffi_sizes[] =
-    { sizeof(ffi_cif), sizeof(ffi_closure) };
-n2 = ffi_sizes[n1];
-
-ffi-prep-cif ( a_atypes n a_rtype a_cif -- w )	gforth ffi_prep_cif
-w = ffi_prep_cif((ffi_cif *)a_cif, FFI_DEFAULT_ABI, n,
-	 (ffi_type *)a_rtype, (ffi_type **)a_atypes);
-
-ffi-call ( a_avalues a_rvalue a_ip a_cif -- )	gforth ffi_call
-SAVE_REGS
-ffi_call((ffi_cif *)a_cif, (void(*)())a_ip, (void *)a_rvalue, (void **)a_avalues);
-REST_REGS
-
-ffi-prep-closure ( a_ip a_cif a_closure -- w )	gforth ffi_prep_closure
-w = ffi_prep_closure((ffi_closure *)a_closure, (ffi_cif *)a_cif, gforth_callback, (void *)a_ip);
-
-ffi-2@ ( a_addr -- d )	gforth ffi_2fetch
-#ifdef BUGGY_LONG_LONG
-DLO_IS(d, *(Cell*)(*a_addr));
-DHI_IS(d, 0);
-#else
-d = *(DCell*)(a_addr);
-#endif
-
-ffi-2! ( d a_addr -- )	gforth ffi_2store
-#ifdef BUGGY_LONG_LONG
-*(Cell*)(a_addr) = DLO(d);
-#else
-*(DCell*)(a_addr) = d;
-#endif
-
-ffi-arg-int ( -- w )	gforth ffi_arg_int
-w = *(int *)(*gforth_clist++);
-
-ffi-arg-long ( -- w )	gforth ffi_arg_long
-w = *(long *)(*gforth_clist++);
-
-ffi-arg-longlong ( -- d )	gforth ffi_arg_longlong
-#ifdef BUGGY_LONG_LONG
-DLO_IS(d, *(Cell*)(*gforth_clist++));
-DHI_IS(d, -(*(Cell*)(*gforth_clist++)<0));
-#else
-d = *(DCell*)(*gforth_clist++);
-#endif
-
-ffi-arg-dlong ( -- d )	gforth ffi_arg_dlong
-#ifdef BUGGY_LONG_LONG
-DLO_IS(d, *(Cell*)(*gforth_clist++));
-DHI_IS(d, -(*(Cell*)(*gforth_clist++)<0));
-#else
-d = *(Cell*)(*gforth_clist++);
-#endif
-
-ffi-arg-ptr ( -- c_addr )	gforth ffi_arg_ptr
-c_addr = *(Char **)(*gforth_clist++);
-
-ffi-arg-float ( -- r )	gforth ffi_arg_float
-r = *(float*)(*gforth_clist++);
-
-ffi-arg-double ( -- r )	gforth ffi_arg_double
-r = *(double*)(*gforth_clist++);
-
-ffi-ret-void ( -- )	gforth ffi_ret_void
-return 0;
-
-ffi-ret-int ( w -- )	gforth ffi_ret_int
-*(int*)(gforth_ritem) = w;
-return 0;
-
-ffi-ret-longlong ( d -- )	gforth ffi_ret_longlong
-#ifdef BUGGY_LONG_LONG
-*(Cell*)(gforth_ritem) = DLO(d);
-#else
-*(DCell*)(gforth_ritem) = d;
-#endif
-return 0;
-
-ffi-ret-dlong ( d -- )	gforth ffi_ret_dlong
-#ifdef BUGGY_LONG_LONG
-*(Cell*)(gforth_ritem) = DLO(d);
+lib-error ( -- c_addr u )       gforth  lib_error
+""Error message for last failed @code{open-lib} or @code{lib-sym}.""
+#ifdef HAVE_LIBLTDL
+c_addr = (Char *)lt_dlerror();
+u = (c_addr == NULL) ? 0 : strlen((char *)c_addr);
+#elif defined(HAVE_LIBDL) || defined(HAVE_DLOPEN)
+c_addr = dlerror();
+u = strlen(c_addr);
 #else
-*(Cell*)(gforth_ritem) = d;
+c_addr = "libltdl is not configured";
+u = strlen(c_addr);
 #endif
-return 0;
-
-ffi-ret-long ( n -- )	gforth ffi_ret_long
-*(Cell*)(gforth_ritem) = n;
-return 0;
 
-ffi-ret-ptr ( c_addr -- )	gforth ffi_ret_ptr
-*(Char **)(gforth_ritem) = c_addr;
-return 0;
-
-ffi-ret-float ( r -- )	gforth ffi_ret_float
-*(float*)(gforth_ritem) = r;
-return 0;
-
-ffi-ret-double ( r -- )	gforth ffi_ret_double
-*(double*)(gforth_ritem) = r;
-return 0;
+be-w! ( w c_addr -- )	gforth w_store_be
+""Store the bottom 16 bits of @i{w} at @i{c_addr} in big endian format.""
+c_addr[0] = w >> 8;
+c_addr[1] = w;
+
+be-l! ( w c_addr -- )	gforth l_store_be
+""Store the bottom 32 bits of @i{w} at @i{c_addr} in big endian format.""
+c_addr[0] = w >> 24;
+c_addr[1] = w >> 16;
+c_addr[2] = w >> 8;
+c_addr[3] = w;
+
+le-w! ( w c_addr -- )	gforth w_store_le
+""Store the bottom 16 bits of @i{w} at @i{c_addr} in big endian format.""
+c_addr[1] = w >> 8;
+c_addr[0] = w;
+
+le-l! ( w c_addr -- )	gforth l_store_le
+""Store the bottom 32 bits of @i{w} at @i{c_addr} in big endian format.""
+c_addr[3] = w >> 24;
+c_addr[2] = w >> 16;
+c_addr[1] = w >> 8;
+c_addr[0] = w;
+
+be-uw@ ( c_addr -- u )	gforth w_fetch_be
+""@i{u} is the zero-extended 16-bit big endian value stored at @i{c_addr}.""
+u = (c_addr[0] << 8) | (c_addr[1]);
+
+be-ul@ ( c_addr -- u )	gforth l_fetch_be
+""@i{u} is the zero-extended 32-bit big endian value stored at @i{c_addr}.""
+u = ((Cell)c_addr[0] << 24) | (c_addr[1] << 16) | (c_addr[2] << 8) | (c_addr[3]);
+
+le-uw@ ( c_addr -- u )	gforth w_fetch_le
+""@i{u} is the zero-extended 16-bit little endian value stored at @i{c_addr}.""
+u = (c_addr[1] << 8) | (c_addr[0]);
+
+le-ul@ ( c_addr -- u )	gforth l_fetch_le
+""@i{u} is the zero-extended 32-bit little endian value stored at @i{c_addr}.""
+u = ((Cell)c_addr[3] << 24) | (c_addr[2] << 16) | (c_addr[1] << 8) | (c_addr[0]);
+
+\+64bit
+
+x! ( w c_addr -- )	gforth x_store
+""Store the bottom 64 bits of @i{w} at 64-bit-aligned @i{c_addr}.""
+*(UOctabyte *)c_addr = w;
+
+ux@ ( c_addr -- u )	gforth u_x_fetch
+""@i{u} is the zero-extended 64-bit value stored at 64-bit-aligned @i{c_addr}.""
+u = *(UOctabyte *)c_addr;
+
+sx@ ( c_addr -- n )	gforth s_x_fetch
+""@i{u} is the sign-extended 64-bit value stored at 64-bit-aligned @i{c_addr}.""
+n = *(Octabyte *)c_addr;
+
+be-x! ( w c_addr -- )	gforth b_e_x_store
+""Store the bottom 64 bits of @i{w} at @i{c_addr} in big endian format.""
+c_addr[0] = w >> 56;
+c_addr[1] = w >> 48;
+c_addr[2] = w >> 40;
+c_addr[3] = w >> 32;
+c_addr[4] = w >> 24;
+c_addr[5] = w >> 16;
+c_addr[6] = w >> 8;
+c_addr[7] = w;
+
+le-x! ( w c_addr -- )	gforth l_e_x_store
+""Store the bottom 64 bits of @i{w} at @i{c_addr} in big endian format.""
+c_addr[7] = w >> 56;
+c_addr[6] = w >> 48;
+c_addr[5] = w >> 40;
+c_addr[4] = w >> 32;
+c_addr[3] = w >> 24;
+c_addr[2] = w >> 16;
+c_addr[1] = w >> 8;
+c_addr[0] = w;
+
+be-ux@ ( c_addr -- u )	gforth b_e_u_x_fetch
+""@i{u} is the zero-extended 64-bit big endian value stored at @i{c_addr}.""
+u = (((Cell)(c_addr[0]) << 56) |
+     ((Cell)(c_addr[1]) << 48) |
+     ((Cell)(c_addr[2]) << 40) |
+     ((Cell)(c_addr[3]) << 32) |
+     ((Cell)(c_addr[4]) << 24) |
+     ((Cell)(c_addr[5]) << 16) |
+     ((Cell)(c_addr[6]) << 8) |
+     ((Cell)(c_addr[7])));
+
+le-ux@ ( c_addr -- u )	gforth l_e_u_x_fetch
+""@i{u} is the zero-extended 64-bit little endian value stored at @i{c_addr}.""
+u = (((Cell)(c_addr[7]) << 56) |
+     ((Cell)(c_addr[6]) << 48) |
+     ((Cell)(c_addr[5]) << 40) |
+     ((Cell)(c_addr[4]) << 32) |
+     ((Cell)(c_addr[3]) << 24) |
+     ((Cell)(c_addr[2]) << 16) |
+     ((Cell)(c_addr[1]) << 8) |
+     ((Cell)(c_addr[0])));
 
 \+
-
-\+OLDCALL
-
-define(`uploop',
-       `pushdef(`$1', `$2')_uploop(`$1', `$2', `$3', `$4', `$5')`'popdef(`$1')')
-define(`_uploop',
-       `ifelse($1, `$3', `$5',
-	       `$4`'define(`$1', incr($1))_uploop(`$1', `$2', `$3', `$4', `$5')')')
-
-\ argflist(argnum): Forth argument list
-define(argflist,
-       `ifelse($1, 0, `',
-               `uploop(`_i', 1, $1, ``u''`_i ', ``u''`_i')')')
-\ argdlist(argnum): declare C's arguments
-define(argdlist,
-       `ifelse($1, 0, `',
-               `uploop(`_i', 1, $1, `Cell, ', `Cell')')')
-\ argclist(argnum): pass C's arguments
-define(argclist,
-       `ifelse($1, 0, `',
-               `uploop(`_i', 1, $1, ``u''`_i, ', ``u''`_i')')')
-\ icall(argnum)
-define(icall,
-`icall$1	( argflist($1) u -- uret )	gforth
-uret = (SYSCALL(Cell(*)(argdlist($1)))u)(argclist($1));
-
-')
-define(fcall,
-`fcall$1	( argflist($1) u -- rret )	gforth
-rret = (SYSCALL(Float(*)(argdlist($1)))u)(argclist($1));
-
-')
-
-\ close ' to keep fontify happy
-
-uploop(i, 0, 7, `icall(i)')
-icall(20)
-uploop(i, 0, 7, `fcall(i)')
-fcall(20)
-
-\+
-
-lib-error ( -- c_addr u )       gforth  lib_error
-c_addr = lt_dlerror();
-u = (c_addr == NULL) ? 0 : strlen(c_addr);
-
 \+
 \g peephole
 
@@ -2834,6 +2749,36 @@ a_addr = groups;
 
 \+
 
+\g primitive_centric
+
+\ primitives for primitive-centric code
+\ another one is does-exec
+
+abi-call	( #a_callee ... -- ... ) gforth-internal abi_call
+/* primitive for compiled ABI-CODE words */
+abifunc *f = (abifunc *)a_callee;
+Float *fp_mem = fp;
+sp = (*f)(sp, &fp_mem);
+fp = fp_mem;
+
+;abi-code-exec ( #a_cfa ... -- ... ) gforth-internal semi_abi_code_exec
+/* primitive for performing ;ABI-CODE words */
+Float *fp_mem = fp;
+semiabifunc *f = (semiabifunc *)DOES_CODE1(a_cfa);
+Address body = (Address)PFA(a_cfa);
+sp = (*f)(sp, &fp_mem, body);
+fp = fp_mem;
+
+lit-execute	( #a_addr -- )	new	lit_execute
+/* for ;code and code words; a static superinstruction would be more general, 
+   but VM_JUMP is currently not supported there */
+#ifndef NO_IP
+ip=IP;
+#endif
+SUPER_END;
+VM_JUMP(EXEC1((Xt)a_addr));
+
+
 \g static_super
 
 ifdef(`STACK_CACHE_FILE',