/*************************************************************************/ /* */ /* Objective Caml LablTk library */ /* */ /* Francois Rouaix, Francois Pessaux and Jun Furuse */ /* projet Cristal, INRIA Rocquencourt */ /* Jacques Garrigue, Kyoto University RIMS */ /* */ /* Copyright 1999 Institut National de Recherche en Informatique et */ /* en Automatique and Kyoto University. All rights reserved. */ /* This file is distributed under the terms of the GNU Library */ /* General Public License, with the special exception on linking */ /* described in file ../../../LICENSE. */ /* */ /*************************************************************************/ /* $Id$ */ #include #include #include #include #include "gc.h" #include "exec.h" #include "sys.h" #include "fail.h" #include "io.h" #include "mlvalues.h" #include "memory.h" #include "camltk.h" #ifndef O_BINARY #define O_BINARY 0 #endif /* * Dealing with signals: when a signal handler is defined in Caml, * the actual execution of the signal handler upon reception of the * signal is delayed until we are sure we are out of the GC. * If a signal occurs during the MainLoop, we would have to wait * the next event for the handler to be invoked. * The following function will invoke a pending signal handler if any, * and we put in on a regular timer. */ #define SIGNAL_INTERVAL 300 int signal_events = 0; /* do we have a pending timer */ void invoke_pending_caml_signals (clientdata) ClientData clientdata; { signal_events = 0; enter_blocking_section(); /* triggers signal handling */ /* Rearm timer */ Tk_CreateTimerHandler(SIGNAL_INTERVAL, invoke_pending_caml_signals, NULL); signal_events = 1; leave_blocking_section(); } /* The following is taken from byterun/startup.c */ header_t atom_table[256]; code_t start_code; asize_t code_size; static void init_atoms() { int i; for(i = 0; i < 256; i++) atom_table[i] = Make_header(0, i, White); } static unsigned long read_size(p) unsigned char * p; { return ((unsigned long) p[0] << 24) + ((unsigned long) p[1] << 16) + ((unsigned long) p[2] << 8) + p[3]; } #define FILE_NOT_FOUND (-1) #define TRUNCATED_FILE (-2) #define BAD_MAGIC_NUM (-3) static int read_trailer(fd, trail) int fd; struct exec_trailer * trail; { char buffer[TRAILER_SIZE]; lseek(fd, (long) -TRAILER_SIZE, 2); if (read(fd, buffer, TRAILER_SIZE) < TRAILER_SIZE) return TRUNCATED_FILE; trail->code_size = read_size(buffer); trail->data_size = read_size(buffer+4); trail->symbol_size = read_size(buffer+8); trail->debug_size = read_size(buffer+12); if (strncmp(buffer + 16, EXEC_MAGIC, 12) == 0) return 0; else return BAD_MAGIC_NUM; } int attempt_open(name, trail, do_open_script) char ** name; struct exec_trailer * trail; int do_open_script; { char * truename; int fd; int err; char buf [2]; truename = searchpath(*name); if (truename == 0) truename = *name; else *name = truename; fd = open(truename, O_RDONLY | O_BINARY); if (fd == -1) return FILE_NOT_FOUND; if (!do_open_script){ err = read (fd, buf, 2); if (err < 2) { close(fd); return TRUNCATED_FILE; } if (buf [0] == '#' && buf [1] == '!') { close(fd); return BAD_MAGIC_NUM; } } err = read_trailer(fd, trail); if (err != 0) { close(fd); return err; } return fd; } /* Command for loading the bytecode file */ int CamlRunCmd(dummy, interp, argc, argv) ClientData dummy; /* Not used. */ Tcl_Interp *interp; /* Current interpreter. */ int argc; /* Number of arguments. */ char **argv; /* Argument strings. */ { int fd; struct exec_trailer trail; struct longjmp_buffer raise_buf; struct channel * chan; if (argc < 2) { Tcl_AppendResult(interp, "wrong # args: should be \"", argv[0], " foo.cmo args\"", (char *) NULL); return TCL_ERROR; } fd = attempt_open(&argv[1], &trail, 1); switch(fd) { case FILE_NOT_FOUND: fatal_error_arg("Fatal error: cannot find file %s\n", argv[1]); break; case TRUNCATED_FILE: case BAD_MAGIC_NUM: fatal_error_arg( "Fatal error: the file %s is not a bytecode executable file\n", argv[1]); break; } if (sigsetjmp(raise_buf.buf, 1) == 0) { external_raise = &raise_buf; lseek(fd, - (long) (TRAILER_SIZE + trail.code_size + trail.data_size + trail.symbol_size + trail.debug_size), 2); code_size = trail.code_size; start_code = (code_t) stat_alloc(code_size); if (read(fd, (char *) start_code, code_size) != code_size) fatal_error("Fatal error: truncated bytecode file.\n"); #ifdef ARCH_BIG_ENDIAN fixup_endianness(start_code, code_size); #endif chan = open_descr(fd); global_data = input_value(chan); close_channel(chan); /* Ensure that the globals are in the major heap. */ oldify(global_data, &global_data); sys_init(argv + 1); interprete(start_code, code_size); return TCL_OK; } else { Tcl_AppendResult(interp, "Caml program", argv[1], " raised exception \"", String_val(Field(Field(exn_bucket, 0), 0))); return TCL_ERROR; } } int CamlInvokeCmd(dummy /* Now the real Tk stuff */ Tk_Window cltk_mainWindow; #define RCNAME ".camltkrc" #define CAMLCB "camlcb" /* Initialisation of the dynamically loaded module */ int Caml_Init(interp) Tcl_Interp *interp; { cltclinterp = interp; /* Create the camlcallback command */ Tcl_CreateCommand(cltclinterp, CAMLCB, CamlCBCmd, (ClientData)NULL,(Tcl_CmdDeleteProc *)NULL); /* This is required by "unknown" and thus autoload */ Tcl_SetVar(cltclinterp, "tcl_interactive", "0", TCL_GLOBAL_ONLY); /* Our hack for implementing break in callbacks */ Tcl_SetVar(cltclinterp, "BreakBindingsSequence", "0", TCL_GLOBAL_ONLY); /* Load the traditional rc file */ { char *home = getenv("HOME"); if (home != NULL) { char *f = stat_alloc(strlen(home)+strlen(RCNAME)+2); f[0]='\0'; strcat(f, home); strcat(f, "/"); strcat(f, RCNAME); if (0 == access(f,R_OK)) if (TCL_OK != Tcl_EvalFile(cltclinterp,f)) { stat_free(f); tk_error(cltclinterp->result); }; stat_free(f); } } /* Initialisations from caml_main */ { int verbose_init = 0, percent_free_init = Percent_free_def; long minor_heap_init = Minor_heap_def, heap_chunk_init = Heap_chunk_def; /* Machine-dependent initialization of the floating-point hardware so that it behaves as much as possible as specified in IEEE */ init_ieee_floats(); init_gc (minor_heap_init, heap_chunk_init, percent_free_init, verbose_init); init_stack(); init_atoms(); } }