Mercurial > hg > octave-nkf
view src/toplev.cc @ 8924:3c3cbe8f18e0 ss-3-1-54
bump version info for snapshot
author | John W. Eaton <jwe@octave.org> |
---|---|
date | Sat, 07 Mar 2009 13:28:03 -0500 |
parents | eb63fbe60fab |
children | 57649dcecb55 |
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/* Copyright (C) 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009 John W. Eaton This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave 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 General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <cassert> #include <cerrno> #include <cstdlib> #include <cstring> #include <new> #include <fstream> #include <iostream> #include <sstream> #include <string> #ifdef HAVE_UNISTD_H #ifdef HAVE_SYS_TYPES_H #include <sys/types.h> #endif #include <unistd.h> #endif #include "cmd-edit.h" #include "file-ops.h" #include "lo-error.h" #include "lo-mappers.h" #include "oct-env.h" #include "quit.h" #include "str-vec.h" #include "oct-locbuf.h" #include <defaults.h> #include "defun.h" #include "error.h" #include "file-io.h" #include "input.h" #include "lex.h" #include <oct-conf.h> #include "oct-hist.h" #include "oct-map.h" #include "oct-obj.h" #include "pager.h" #include "parse.h" #include "pathsearch.h" #include "procstream.h" #include "ov.h" #include "pt-eval.h" #include "pt-jump.h" #include "pt-stmt.h" #include "sighandlers.h" #include "sysdep.h" #include "syswait.h" #include "toplev.h" #include "unwind-prot.h" #include "utils.h" #include "variables.h" #include <version.h> // TRUE means we are exiting via the builtin exit or quit functions. static bool quitting_gracefully = false; // TRUE means we are ready to interpret commands, but not everything // is ready for interactive use. bool octave_interpreter_ready = false; // TRUE means we've processed all the init code and we are good to go. bool octave_initialized = false; // Current command to execute. tree_statement_list *global_command = 0; octave_call_stack *octave_call_stack::instance = 0; int octave_call_stack::do_current_line (void) const { tree_statement *stmt = do_top_statement (); return stmt ? stmt->line () : -1; } int octave_call_stack::do_current_column (void) const { tree_statement *stmt = do_top_statement (); return stmt ? stmt->column () : -1; } int octave_call_stack::do_caller_user_code_line (void) const { int retval = -1; const_iterator p = cs.end (); while (p != cs.begin ()) { const call_stack_elt& elt = *(--p); octave_function *f = elt.fcn; if (f && f->is_user_code ()) { tree_statement *stmt = elt.stmt; if (stmt) { retval = stmt->line (); break; } } } return retval; } int octave_call_stack::do_caller_user_code_column (void) const { int retval = -1; const_iterator p = cs.end (); while (p != cs.begin ()) { const call_stack_elt& elt = *(--p); octave_function *f = elt.fcn; if (f && f->is_user_code ()) { tree_statement *stmt = elt.stmt; if (stmt) { retval = stmt->column (); break; } } } return retval; } size_t octave_call_stack::do_num_user_code_frames (octave_idx_type& curr_user_frame) const { size_t retval = 0; curr_user_frame = 0; // Look for the caller of dbstack. size_t frame = cs[curr_frame].prev; bool found = false; size_t k = cs.size (); for (const_reverse_iterator p = cs.rbegin (); p != cs.rend (); p++) { octave_function *f = (*p).fcn; if (--k == frame) found = true; if (f && f->is_user_code ()) { if (! found) curr_user_frame++; retval++; } } // We counted how many user frames were not the one, in reverse. // Now set curr_user_frame to be the index in the other direction. curr_user_frame = retval - curr_user_frame - 1; return retval; } octave_user_code * octave_call_stack::do_caller_user_code (size_t nskip) const { octave_user_code *retval = 0; const_iterator p = cs.end (); while (p != cs.begin ()) { const call_stack_elt& elt = *(--p); octave_function *f = elt.fcn; if (f && f->is_user_code ()) { if (nskip > 0) nskip--; else { retval = dynamic_cast<octave_user_code *> (f); break; } } } return retval; } Octave_map octave_call_stack::do_backtrace (size_t nskip, octave_idx_type& curr_user_frame) const { Octave_map retval; size_t user_code_frames = do_num_user_code_frames (curr_user_frame); size_t nframes = nskip <= user_code_frames ? user_code_frames - nskip : 0; // Our list is reversed. curr_user_frame = nframes - curr_user_frame - 1; Cell keys (6, 1); keys(0) = "file"; keys(1) = "name"; keys(2) = "line"; keys(3) = "column"; keys(4) = "scope"; keys(5) = "context"; Cell file (nframes, 1); Cell name (nframes, 1); Cell line (nframes, 1); Cell column (nframes, 1); Cell scope (nframes, 1); Cell context (nframes, 1); if (nframes > 0) { int k = 0; for (const_reverse_iterator p = cs.rbegin (); p != cs.rend (); p++) { const call_stack_elt& elt = *p; octave_function *f = elt.fcn; if (f && f->is_user_code ()) { if (nskip > 0) nskip--; else { scope(k) = elt.scope; context(k) = elt.context; file(k) = f->fcn_file_name (); std::string parent_fcn_name = f->parent_fcn_name (); if (parent_fcn_name == std::string ()) name(k) = f->name (); else name(k) = f->parent_fcn_name () + Vfilemarker + f->name (); tree_statement *stmt = elt.stmt; if (stmt) { line(k) = stmt->line (); column(k) = stmt->column (); } else { line(k) = -1; column(k) = -1; } k++; } } } retval.assign ("file", file); retval.assign ("name", name); retval.assign ("line", line); retval.assign ("column", column); retval.assign ("scope", scope); retval.assign ("context", context); } return retval; } bool octave_call_stack::do_goto_frame (size_t n, bool verbose) { bool retval = false; if (n < cs.size ()) { retval = true; curr_frame = n; const call_stack_elt& elt = cs[n]; symbol_table::set_scope_and_context (elt.scope, elt.context); if (verbose) { octave_function *f = elt.fcn; std::string nm = f ? f->name () : std::string ("<unknown>"); tree_statement *s = elt.stmt; int l = -1; int c = -1; if (s) { l = s->line (); c = s->column (); } octave_stdout << "stopped in " << nm << " at line " << l << " column " << c << " (" << elt.scope << "[" << elt.context << "])" << std::endl; } } return retval; } bool octave_call_stack::do_goto_frame_relative (int nskip, bool verbose) { bool retval = false; if (nskip == 0) retval = true; else { int incr = nskip < 0 ? -1 : 1; // Start looking with the caller of dbup/dbdown. size_t frame = cs[curr_frame].prev; while (true) { if ((incr < 0 && frame == 0) || (incr > 0 && frame == cs.size () - 1)) break; frame += incr; const call_stack_elt& elt = cs[frame]; octave_function *f = elt.fcn; if (f && f->is_user_code ()) { if (nskip > 0) nskip--; else if (nskip < 0) nskip++; if (nskip == 0) { curr_frame = frame; cs[cs.size () - 1].prev = curr_frame; if (verbose) { tree_statement *s = elt.stmt; int l = -1; int c = -1; if (s) { l = s->line (); c = s->column (); } std::ostringstream buf; buf << f->name () << ": " << " line " << l << ", column " << c << std::endl; octave_stdout << buf.str (); } retval = true; break; } } } // There is no need to set scope and context here. That will // happen when the dbup/dbdown frame is popped and we jump to // the new "prev" frame set above. } return retval; } void octave_call_stack::do_goto_caller_frame (void) { size_t frame = curr_frame; bool skipped = false; while (frame != 0) { frame = cs[frame].prev; const call_stack_elt& elt = cs[frame]; octave_function *f = elt.fcn; if (frame == 0 || (f && f->is_user_code ())) { if (! skipped) // We found the current user code frame, so skip it. skipped = true; else { // We found the caller user code frame. call_stack_elt tmp (elt); tmp.prev = curr_frame; curr_frame = cs.size (); cs.push_back (tmp); symbol_table::set_scope_and_context (tmp.scope, tmp.context); break; } } } } void octave_call_stack::do_goto_base_frame (void) { call_stack_elt tmp (cs[0]); tmp.prev = curr_frame; curr_frame = cs.size (); cs.push_back (tmp); symbol_table::set_scope_and_context (tmp.scope, tmp.context); } void octave_call_stack::do_backtrace_error_message (void) const { if (error_state > 0) { error_state = -1; error ("called from:"); } if (! cs.empty ()) { const call_stack_elt& elt = cs.back (); octave_function *fcn = elt.fcn; tree_statement *stmt = elt.stmt; std::string fcn_name = "?unknown?"; if (fcn) { fcn_name = fcn->fcn_file_name (); if (fcn_name.empty ()) fcn_name = fcn->name (); } int line = stmt ? stmt->line () : -1; int column = stmt ? stmt->column () : -1; error (" %s at line %d, column %d", fcn_name.c_str (), line, column); } } void recover_from_exception (void) { can_interrupt = true; octave_interrupt_immediately = 0; octave_interrupt_state = 0; octave_signal_caught = 0; octave_exception_state = octave_no_exception; octave_restore_signal_mask (); octave_catch_interrupts (); } int main_loop (void) { octave_save_signal_mask (); can_interrupt = true; octave_signal_hook = octave_signal_handler; octave_interrupt_hook = unwind_protect::run_all; octave_bad_alloc_hook = unwind_protect::run_all; octave_catch_interrupts (); octave_initialized = true; // The big loop. int retval = 0; do { try { symbol_table::reset_scope (); reset_error_handler (); reset_parser (); // This is the same as yyparse in parse.y. retval = octave_parse (); if (retval == 0) { if (global_command) { global_command->accept (*current_evaluator); delete global_command; global_command = 0; OCTAVE_QUIT; if (! (interactive || forced_interactive)) { bool quit = (tree_return_command::returning || tree_break_command::breaking); if (tree_return_command::returning) tree_return_command::returning = 0; if (tree_break_command::breaking) tree_break_command::breaking--; if (quit) break; } if (error_state) { if (! (interactive || forced_interactive)) { // We should exit with a non-zero status. retval = 1; break; } } else { if (octave_completion_matches_called) octave_completion_matches_called = false; else command_editor::increment_current_command_number (); } } else if (parser_end_of_input) break; } } catch (octave_interrupt_exception) { recover_from_exception (); octave_stdout << "\n"; } catch (octave_execution_exception) { recover_from_exception (); std::cerr << "error: unhandled execution exception -- trying to return to prompt" << std::endl; } catch (std::bad_alloc) { recover_from_exception (); std::cerr << "error: memory exhausted or requested size too large for range of Octave's index type -- trying to return to prompt" << std::endl; } } while (retval == 0); return retval; } // Fix up things before exiting. void clean_up_and_exit (int retval) { do_octave_atexit (); sysdep_cleanup (); exit (retval == EOF ? 0 : retval); } DEFUN (quit, args, nargout, "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} exit (@var{status})\n\ @deftypefnx {Built-in Function} {} quit (@var{status})\n\ Exit the current Octave session. If the optional integer value\n\ @var{status} is supplied, pass that value to the operating system as the\n\ Octave's exit status. The default value is zero.\n\ @end deftypefn") { octave_value_list retval; if (nargout == 0) { int exit_status = 0; quitting_gracefully = true; if (args.length () > 0) { int tmp = args(0).nint_value (); if (! error_state) exit_status = tmp; } clean_up_and_exit (exit_status); } else error ("quit: invalid number of output arguments"); return retval; } DEFALIAS (exit, quit); DEFUN (warranty, , , "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} warranty ()\n\ Describe the conditions for copying and distributing Octave.\n\ @end deftypefn") { octave_value_list retval; octave_stdout << "\n" \ OCTAVE_NAME_VERSION_AND_COPYRIGHT "\n\ \n\ This program is free software; you can redistribute it and/or modify\n\ it under the terms of the GNU General Public License as published by\n\ the Free Software Foundation; either version 3 of the License, or\n\ (at your option) any later version.\n\ \n\ This program is distributed in the hope that it will be useful,\n\ but WITHOUT ANY WARRANTY; without even the implied warranty of\n\ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n\ GNU General Public License for more details.\n\ \n\ You should have received a copy of the GNU General Public License\n\ along with this program. If not, see <http://www.gnu.org/licenses/>.\n\ \n"; return retval; } // Execute a shell command. static void cleanup_iprocstream (void *p) { iprocstream *cmd = static_cast<iprocstream *> (p); octave_child_list::remove (cmd->pid ()); delete cmd; } static int wait_for_input (int fid) { int retval = -1; #if defined (HAVE_SELECT) if (fid >= 0) { fd_set set; FD_ZERO (&set); FD_SET (fid, &set); retval = select (FD_SETSIZE, &set, 0, 0, 0); } #else retval = 1; #endif return retval; } static octave_value_list run_command_and_return_output (const std::string& cmd_str) { octave_value_list retval; iprocstream *cmd = new iprocstream (cmd_str.c_str ()); if (cmd) { unwind_protect::add (cleanup_iprocstream, cmd); if (*cmd) { int fid = cmd->file_number (); std::ostringstream output_buf; char ch; for (;;) { if (cmd->get (ch)) output_buf.put (ch); else { if (! cmd->eof () && errno == EAGAIN) { cmd->clear (); if (wait_for_input (fid) != 1) break; } else break; } } int cmd_status = cmd->close (); if (WIFEXITED (cmd_status)) cmd_status = WEXITSTATUS (cmd_status); else cmd_status = 127; retval(0) = cmd_status; retval(1) = output_buf.str (); } unwind_protect::run (); } else error ("unable to start subprocess for `%s'", cmd_str.c_str ()); return retval; } enum system_exec_type { et_sync, et_async }; DEFUN (system, args, nargout, "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} system (@var{string}, @var{return_output}, @var{type})\n\ Execute a shell command specified by @var{string}. The second\n\ argument is optional. If @var{type} is @code{\"async\"}, the process\n\ is started in the background and the process id of the child process\n\ is returned immediately. Otherwise, the process is started, and\n\ Octave waits until it exits. If the @var{type} argument is omitted, a\n\ value of @code{\"sync\"} is assumed.\n\ \n\ If two input arguments are given (the actual value of\n\ @var{return_output} is irrelevant) and the subprocess is started\n\ synchronously, or if @var{system} is called with one input argument and\n\ one or more output arguments, the output from the command is returned.\n\ Otherwise, if the subprocess is executed synchronously, its output is\n\ sent to the standard output. To send the output of a command executed\n\ with @var{system} through the pager, use a command like\n\ \n\ @example\n\ disp (system (cmd, 1));\n\ @end example\n\ \n\ @noindent\n\ or\n\ \n\ @example\n\ printf (\"%s\n\", system (cmd, 1));\n\ @end example\n\ \n\ The @code{system} function can return two values. The first is the\n\ exit status of the command and the second is any output from the\n\ command that was written to the standard output stream. For example,\n\ \n\ @example\n\ [status, output] = system (\"echo foo; exit 2\");\n\ @end example\n\ \n\ @noindent\n\ will set the variable @code{output} to the string @samp{foo}, and the\n\ variable @code{status} to the integer @samp{2}.\n\ @end deftypefn") { octave_value_list retval; unwind_protect::begin_frame ("Fsystem"); int nargin = args.length (); if (nargin > 0 && nargin < 4) { bool return_output = (nargout > 1 || nargin > 1); std::string cmd_str = args(0).string_value (); system_exec_type type = et_sync; if (! error_state) { if (nargin > 2) { std::string type_str = args(2).string_value (); if (! error_state) { if (type_str == "sync") type = et_sync; else if (type_str == "async") type = et_async; else error ("system: third arg must be \"sync\" or \"async\""); } else error ("system: third argument must be a string"); } } else error ("system: expecting std::string as first argument"); if (! error_state) { #if defined (__WIN32__) && ! defined (__CYGWIN__) // Work around weird double-quote handling on Windows systems. if (type == et_sync) cmd_str = "\"" + cmd_str + "\""; #endif if (type == et_async) { // FIXME -- maybe this should go in sysdep.cc? #ifdef HAVE_FORK pid_t pid = fork (); if (pid < 0) error ("system: fork failed -- can't create child process"); else if (pid == 0) { // FIXME -- should probably replace this // call with something portable. execl ("/bin/sh", "sh", "-c", cmd_str.c_str (), static_cast<void *> (0)); panic_impossible (); } else retval(0) = pid; #elif defined (__WIN32__) STARTUPINFO si; PROCESS_INFORMATION pi; ZeroMemory (&si, sizeof (si)); ZeroMemory (&pi, sizeof (pi)); OCTAVE_LOCAL_BUFFER (char, xcmd_str, cmd_str.length()+1); strcpy (xcmd_str, cmd_str.c_str ()); if (! CreateProcess (0, xcmd_str, 0, 0, FALSE, 0, 0, 0, &si, &pi)) error ("system: CreateProcess failed -- can't create child process"); else { retval(0) = pi.dwProcessId; CloseHandle (pi.hProcess); CloseHandle (pi.hThread); } #else error ("asynchronous system calls are not supported"); #endif } else if (return_output) retval = run_command_and_return_output (cmd_str); else { int status = system (cmd_str.c_str ()); // The value in status is as returned by waitpid. If // the process exited normally, extract the actual exit // status of the command. Otherwise, return 127 as a // failure code. if (WIFEXITED (status)) status = WEXITSTATUS (status); retval(0) = status; } } } else print_usage (); unwind_protect::run_frame ("Fsystem"); return retval; } DEFALIAS (shell_cmd, system); // FIXME -- this should really be static, but that causes // problems on some systems. std::list<std::string> octave_atexit_functions; void do_octave_atexit (void) { static bool deja_vu = false; while (! octave_atexit_functions.empty ()) { std::string fcn = octave_atexit_functions.front (); octave_atexit_functions.pop_front (); reset_error_handler (); feval (fcn, octave_value_list (), 0); flush_octave_stdout (); } if (! deja_vu) { deja_vu = true; // Do this explicitly so that destructors for mex file objects // are called, so that functions registered with mexAtExit are // called. clear_mex_functions (); command_editor::restore_terminal_state (); // FIXME -- is this needed? Can it cause any trouble? raw_mode (0); octave_history_write_timestamp (); if (Vsaving_history) command_history::clean_up_and_save (); close_files (); cleanup_tmp_files (); flush_octave_stdout (); if (! quitting_gracefully && (interactive || forced_interactive)) { octave_stdout << "\n"; // Yes, we want this to be separate from the call to // flush_octave_stdout above. flush_octave_stdout (); } } } void octave_add_atexit_function (const std::string& fname) { octave_atexit_functions.push_front (fname); } bool octave_remove_atexit_function (const std::string& fname) { bool found = false; for (std::list<std::string>::iterator p = octave_atexit_functions.begin (); p != octave_atexit_functions.end (); p++) { if (*p == fname) { octave_atexit_functions.erase (p); found = true; break; } } return found; } DEFUN (atexit, args, nargout, "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} atexit (@var{fcn})\n\ Register a function to be called when Octave exits. For example,\n\ \n\ @example\n\ @group\n\ function bye_bye ()\n\ disp (\"Bye bye\");\n\ endfunction\n\ atexit (\"bye_bye\");\n\ @end group\n\ @end example\n\ \n\ @noindent\n\ will print the message \"Bye bye\" when Octave exits.\n\ \n\ @deftypefnx {Built-in Function} {} atexit (@var{fcn}, @var{flag})\n\ Register or unregister a function to be called when Octave exits,\n\ depending on @var{flag}. If @var{flag} is true, the function is\n\ registered, if @var{flag} is false, it is unregistered. For example,\n\ after registering the function @code{bye_bye} as above,\n\ \n\ @example\n\ atexit (\"bye_bye\", false);\n\ @end example\n\ \n\ @noindent\n\ will remove the function from the list and Octave will not call\n\ the function @code{bye_by} when it exits.\n\ \n\ Note that @code{atexit} only removes the first occurrence of a function\n\ from the list, so if a function was placed in the list multiple\n\ times with @code{atexit}, it must also be removed from the list\n\ multiple times.\n\ @end deftypefn") { octave_value_list retval; int nargin = args.length (); if (nargin == 1 || nargin == 2) { std::string arg = args(0).string_value (); if (! error_state) { bool add_mode = true; if (nargin == 2) { add_mode = args(1).bool_value (); if (error_state) error ("atexit: second argument must be a logical value"); } if (! error_state) { if (add_mode) octave_add_atexit_function (arg); else { bool found = octave_remove_atexit_function (arg); if (nargout > 0) retval(0) = found; } } } else error ("atexit: argument must be a string"); } else print_usage (); return retval; } DEFUN (octave_config_info, args, , "-*- texinfo -*-\n\ @deftypefn {Built-in Function} {} octave_config_info (@var{option})\n\ Return a structure containing configuration and installation\n\ information for Octave.\n\ \n\ if @var{option} is a string, return the configuration information for the\n\ specified option.\n\ \n\ @end deftypefn") { octave_value retval; #if defined (ENABLE_DYNAMIC_LINKING) bool octave_supports_dynamic_linking = true; #else bool octave_supports_dynamic_linking = false; #endif static bool initialized = false; static Octave_map m; struct conf_info_struct { bool subst_home; const char *key; const char *val; }; static const conf_info_struct conf_info[] = { { false, "ALL_CFLAGS", OCTAVE_CONF_ALL_CFLAGS }, { false, "ALL_CXXFLAGS", OCTAVE_CONF_ALL_CXXFLAGS }, { false, "ALL_FFLAGS", OCTAVE_CONF_ALL_FFLAGS }, { false, "ALL_LDFLAGS", OCTAVE_CONF_ALL_LDFLAGS }, { false, "AR", OCTAVE_CONF_AR }, { false, "ARFLAGS", OCTAVE_CONF_ARFLAGS }, { false, "BLAS_LIBS", OCTAVE_CONF_BLAS_LIBS }, { false, "CARBON_LIBS", OCTAVE_CONF_CARBON_LIBS }, { false, "CC", OCTAVE_CONF_CC }, { false, "CC_VERSION", OCTAVE_CONF_CC_VERSION }, { false, "CFLAGS", OCTAVE_CONF_CFLAGS }, { false, "CPICFLAG", OCTAVE_CONF_CPICFLAG }, { false, "CPPFLAGS", OCTAVE_CONF_CPPFLAGS }, { false, "CURL_LIBS", OCTAVE_CONF_CURL_LIBS }, { false, "CXX", OCTAVE_CONF_CXX }, { false, "CXXCPP", OCTAVE_CONF_CXXCPP }, { false, "CXXFLAGS", OCTAVE_CONF_CXXFLAGS }, { false, "CXXPICFLAG", OCTAVE_CONF_CXXPICFLAG }, { false, "CXX_VERSION", OCTAVE_CONF_CXX_VERSION }, { false, "DEFAULT_PAGER", OCTAVE_DEFAULT_PAGER }, { false, "DEFS", OCTAVE_CONF_DEFS }, { false, "DL_LD", OCTAVE_CONF_DL_LD }, { false, "DL_LDFLAGS", OCTAVE_CONF_DL_LDFLAGS }, { false, "ENABLE_DYNAMIC_LINKING", OCTAVE_CONF_ENABLE_DYNAMIC_LINKING }, { false, "EXEEXT", OCTAVE_CONF_EXEEXT }, { false, "F2C", OCTAVE_CONF_F2C }, { false, "F2CFLAGS", OCTAVE_CONF_F2CFLAGS }, { false, "F77", OCTAVE_CONF_F77 }, { false, "F77_FLOAT_STORE_FLAG", OCTAVE_CONF_F77_FLOAT_STORE_FLAG }, { false, "FC", OCTAVE_CONF_FC }, { false, "FFLAGS", OCTAVE_CONF_FFLAGS }, { false, "FFTW_LIBS", OCTAVE_CONF_FFTW_LIBS }, { false, "FLIBS", OCTAVE_CONF_FLIBS }, { false, "FPICFLAG", OCTAVE_CONF_FPICFLAG }, { false, "GLPK_LIBS", OCTAVE_CONF_GLPK_LIBS }, { false, "GNUPLOT", OCTAVE_CONF_GNUPLOT }, { false, "INCFLAGS", OCTAVE_CONF_INCFLAGS }, { false, "LDFLAGS", OCTAVE_CONF_LDFLAGS }, { false, "LD_CXX", OCTAVE_CONF_LD_CXX }, { false, "LD_STATIC_FLAG", OCTAVE_CONF_LD_STATIC_FLAG }, { false, "LEX", OCTAVE_CONF_LEX }, { false, "LEXLIB", OCTAVE_CONF_LEXLIB }, { false, "LFLAGS", OCTAVE_CONF_LFLAGS }, { false, "LIBCRUFT", OCTAVE_CONF_LIBCRUFT }, { false, "LIBEXT", OCTAVE_CONF_LIBEXT }, { false, "LIBFLAGS", OCTAVE_CONF_LIBFLAGS }, { false, "LIBOCTAVE", OCTAVE_CONF_LIBOCTAVE }, { false, "LIBOCTINTERP", OCTAVE_CONF_LIBOCTINTERP }, { false, "LIBREADLINE", OCTAVE_CONF_LIBREADLINE }, { false, "LIBS", OCTAVE_CONF_LIBS }, { false, "LN_S", OCTAVE_CONF_LN_S }, { false, "MAGICK_INCFLAGS", OCTAVE_CONF_MAGICK_INCFLAGS }, { false, "MAGICK_LIBS", OCTAVE_CONF_MAGICK_LIBS }, { false, "MKOCTFILE_DL_LDFLAGS", OCTAVE_CONF_MKOCTFILE_DL_LDFLAGS }, { false, "RANLIB", OCTAVE_CONF_RANLIB }, { false, "RDYNAMIC_FLAG", OCTAVE_CONF_RDYNAMIC_FLAG }, { false, "RLD_FLAG", OCTAVE_CONF_RLD_FLAG }, { false, "SED", OCTAVE_CONF_SED }, { false, "SHARED_LIBS", OCTAVE_CONF_SHARED_LIBS }, { false, "SHLEXT", OCTAVE_CONF_SHLEXT }, { false, "SHLEXT_VER", OCTAVE_CONF_SHLEXT_VER }, { false, "SH_LD", OCTAVE_CONF_SH_LD }, { false, "SH_LDFLAGS", OCTAVE_CONF_SH_LDFLAGS }, { false, "SONAME_FLAGS", OCTAVE_CONF_SONAME_FLAGS }, { false, "STATIC_LIBS", OCTAVE_CONF_STATIC_LIBS }, { false, "UGLY_DEFS", OCTAVE_CONF_UGLY_DEFS }, { false, "USE_64_BIT_IDX_T", OCTAVE_CONF_USE_64_BIT_IDX_T }, { false, "X11_INCFLAGS", OCTAVE_CONF_X11_INCFLAGS }, { false, "X11_LIBS", OCTAVE_CONF_X11_LIBS }, { false, "XTRA_CFLAGS", OCTAVE_CONF_XTRA_CFLAGS }, { false, "XTRA_CXXFLAGS", OCTAVE_CONF_XTRA_CXXFLAGS }, { false, "YACC", OCTAVE_CONF_YACC }, { false, "YFLAGS", OCTAVE_CONF_YFLAGS }, { false, "api_version", OCTAVE_API_VERSION }, { true, "archlibdir", OCTAVE_ARCHLIBDIR }, { true, "bindir", OCTAVE_BINDIR }, { false, "canonical_host_type", OCTAVE_CANONICAL_HOST_TYPE }, { false, "config_opts", OCTAVE_CONF_config_opts }, { true, "datadir", OCTAVE_DATADIR }, { true, "datarootdir", OCTAVE_DATAROOTDIR }, { true, "exec_prefix", OCTAVE_EXEC_PREFIX }, { true, "fcnfiledir", OCTAVE_FCNFILEDIR }, { true, "imagedir", OCTAVE_IMAGEDIR }, { true, "includedir", OCTAVE_INCLUDEDIR }, { true, "infodir", OCTAVE_INFODIR }, { true, "infofile", OCTAVE_INFOFILE }, { true, "libdir", OCTAVE_LIBDIR }, { true, "libexecdir", OCTAVE_LIBEXECDIR }, { true, "localapiarchlibdir", OCTAVE_LOCALAPIARCHLIBDIR }, { true, "localapifcnfiledir", OCTAVE_LOCALAPIFCNFILEDIR }, { true, "localapioctfiledir", OCTAVE_LOCALAPIOCTFILEDIR }, { true, "localarchlibdir", OCTAVE_LOCALARCHLIBDIR }, { true, "localfcnfiledir", OCTAVE_LOCALFCNFILEDIR }, { true, "localoctfiledir", OCTAVE_LOCALOCTFILEDIR }, { true, "localstartupfiledir", OCTAVE_LOCALSTARTUPFILEDIR }, { true, "localverarchlibdir", OCTAVE_LOCALVERARCHLIBDIR }, { true, "localverfcnfiledir", OCTAVE_LOCALVERFCNFILEDIR }, { true, "localveroctfiledir", OCTAVE_LOCALVEROCTFILEDIR }, { true, "man1dir", OCTAVE_MAN1DIR }, { false, "man1ext", OCTAVE_MAN1EXT }, { true, "mandir", OCTAVE_MANDIR }, { true, "octfiledir", OCTAVE_OCTFILEDIR }, { true, "octetcdir", OCTAVE_OCTETCDIR }, { true, "octincludedir", OCTAVE_OCTINCLUDEDIR }, { true, "octlibdir", OCTAVE_OCTLIBDIR }, { true, "prefix", OCTAVE_PREFIX }, { true, "startupfiledir", OCTAVE_STARTUPFILEDIR }, { false, "version", OCTAVE_VERSION }, { false, 0, 0 } }; if (! initialized) { m.assign ("dld", octave_value (octave_supports_dynamic_linking)); oct_mach_info::float_format ff = oct_mach_info::native_float_format (); m.assign ("float_format", octave_value (oct_mach_info::float_format_as_string (ff))); m.assign ("words_big_endian", octave_value (oct_mach_info::words_big_endian ())); m.assign ("words_little_endian", octave_value (oct_mach_info::words_little_endian ())); int i = 0; while (true) { const conf_info_struct& elt = conf_info[i++]; const char *key = elt.key; if (key) { if (elt.subst_home) m.assign (key, octave_value (subst_octave_home (elt.val))); else m.assign (key, octave_value (elt.val)); } else break; } bool unix_system = true; bool mac_system = false; bool windows_system = false; #if defined (WIN32) windows_system = true; #if !defined (__CYGWIN__) unix_system = false; #endif #endif #if defined (OCTAVE_USE_OS_X_API) mac_system = true; #endif m.assign ("unix", octave_value (unix_system)); m.assign ("mac", octave_value (mac_system)); m.assign ("windows", octave_value (windows_system)); initialized = true; } int nargin = args.length (); if (nargin == 1) { std::string arg = args(0).string_value (); if (! error_state) { Cell c = m.contents (arg.c_str ()); if (c.is_empty ()) error ("octave_config_info: no info for `%s'", arg.c_str ()); else retval = c(0); } } else if (nargin == 0) retval = m; else print_usage (); return retval; } #if defined (__GNUG__) && defined (DEBUG_NEW_DELETE) int debug_new_delete = 0; typedef void (*vfp)(void); extern vfp __new_handler; void * __builtin_new (size_t sz) { void *p; /* malloc (0) is unpredictable; avoid it. */ if (sz == 0) sz = 1; p = malloc (sz); while (p == 0) { (*__new_handler) (); p = malloc (sz); } if (debug_new_delete) std::cerr << "__builtin_new: " << p << std::endl; return p; } void __builtin_delete (void *ptr) { if (debug_new_delete) std::cerr << "__builtin_delete: " << ptr << std::endl; if (ptr) free (ptr); } #endif /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */