/* error handling common to all routines. */ /* Copyright (C) 2004, 2005 John E. Davis This file is part of the S-Lang Library. The S-Lang Library 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 2 of the License, or (at your option) any later version. The S-Lang Library 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 this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "slinclud.h" #include "slang.h" #include "_slang.h" void (*_pSLinterpreter_Error_Hook) (int); void (*SLang_VMessage_Hook) (char *, va_list); void (*SLang_Error_Hook)(char *); void (*SLang_Exit_Error_Hook)(char *, va_list); void (*SLang_Dump_Routine)(char *); volatile int _pSLang_Error = 0; volatile int SLKeyBoard_Quit = 0; typedef struct _Exception_Type Exception_Type; struct _Exception_Type { int error_code; char *name; char *description; Exception_Type *subclasses; Exception_Type *next; Exception_Type *parent; }; static Exception_Type *Exception_Root; static Exception_Type Exception_Root_Buf = { -1, "AnyError", "All Errors", NULL, NULL, NULL }; /* Built-in error codes */ /* These values should correspond to the values produced by _pSLerr_init. * Some apps may not use the interpreter, and as such _pSLerr_init will not * get called. */ int SL_Any_Error = -1; int SL_Unknown_Error = 6; int SL_Internal_Error = 5; int SL_OS_Error = 1; int SL_Malloc_Error = 2; int SL_Import_Error = 7; int SL_RunTime_Error = 3; int SL_InvalidParm_Error = 4; int SL_TypeMismatch_Error = 8; int SL_UserBreak_Error = 9; int SL_Stack_Error = 10; int SL_StackOverflow_Error = 12; int SL_StackUnderflow_Error = 11; int SL_ReadOnly_Error = 13; int SL_VariableUninitialized_Error = 14; int SL_NumArgs_Error = 15; int SL_Index_Error = 16; int SL_Usage_Error = 17; int SL_Application_Error = 18; int SL_NotImplemented_Error = 19; int SL_LimitExceeded_Error = 20; int SL_Forbidden_Error = 21; int SL_Math_Error = 22; int SL_DivideByZero_Error = 23; int SL_ArithOverflow_Error = 24; int SL_ArithUnderflow_Error = 25; int SL_Domain_Error = 26; int SL_IO_Error = 27; int SL_Write_Error = 28; int SL_Read_Error = 29; int SL_Open_Error = 30; int SL_Data_Error = 31; int SL_Unicode_Error = 32; int SL_InvalidUTF8_Error = 33; int SL_Namespace_Error = 34; int SL_Parse_Error = 35; int SL_Syntax_Error = 36; int SL_DuplicateDefinition_Error = 37; int SL_UndefinedName_Error = 38; typedef struct { int *errcode_ptr; char *name; char *description; int *base_class_ptr; } BuiltIn_Exception_Table_Type; static SLCONST BuiltIn_Exception_Table_Type BuiltIn_Exception_Table[] = { /* Define MallocError and InvalidParmError ASAP */ {&SL_OS_Error, "OSError", "OS Error", &SL_Any_Error}, {&SL_Malloc_Error, "MallocError", "Not enough memory", &SL_OS_Error}, {&SL_RunTime_Error, "RunTimeError", "Run-Time Error", &SL_Any_Error}, {&SL_InvalidParm_Error, "InvalidParmError", "Invalid Parameter", &SL_RunTime_Error}, {&SL_Internal_Error, "InternalError", "Internal Error", &SL_Any_Error}, {&SL_Unknown_Error, "UnknownError", "Unknown Error", &SL_Any_Error}, /* Rest of OSErrors */ {&SL_Import_Error, "ImportError", "Import Error", &SL_OS_Error}, /* Rest of RunTimeErrors */ {&SL_TypeMismatch_Error, "TypeMismatchError", "Type Mismatch", &SL_RunTime_Error}, {&SL_UserBreak_Error, "UserBreakError", "User Break", &SL_RunTime_Error}, {&SL_Stack_Error, "StackError", "Stack Error", &SL_RunTime_Error}, {&SL_StackUnderflow_Error, "StackUnderflowError", "Stack Underflow Error", &SL_Stack_Error}, {&SL_StackOverflow_Error, "StackOverflowError", "Stack Overflow Error", &SL_Stack_Error}, {&SL_ReadOnly_Error, "ReadOnlyError", "Read-Only Error", &SL_RunTime_Error}, {&SL_VariableUninitialized_Error, "VariableUninitializedError", "Variable Uninitialized Error", &SL_RunTime_Error}, {&SL_NumArgs_Error, "NumArgsError", "Invalid Number of Arguments", &SL_RunTime_Error}, {&SL_Index_Error, "IndexError", "Invalid Index", &SL_RunTime_Error}, {&SL_Usage_Error, "UsageError", "Illegal Usage", &SL_RunTime_Error}, {&SL_Application_Error, "ApplicationError", "Application Error", &SL_RunTime_Error}, {&SL_NotImplemented_Error, "NotImplementedError", "Not Implemented", &SL_RunTime_Error}, {&SL_LimitExceeded_Error, "LimitExceededError", "Limit Exceeded", &SL_RunTime_Error}, {&SL_Forbidden_Error, "ForbiddenError", "Operation Forbidden", &SL_RunTime_Error}, {&SL_Math_Error, "MathError", "Math Error", &SL_RunTime_Error}, {&SL_DivideByZero_Error, "DivideByZeroError", "Divide by Zero", &SL_Math_Error}, {&SL_ArithOverflow_Error, "ArithOverflowError", "Arithmetic Overflow", &SL_Math_Error}, {&SL_ArithUnderflow_Error, "ArithUnderflowError", "Arithmetic Underflow", &SL_Math_Error}, {&SL_Domain_Error, "DomainError", "Domain Error", &SL_Math_Error}, {&SL_IO_Error, "IOError", "I/O Error", &SL_RunTime_Error}, {&SL_Write_Error, "WriteError", "Write failed", &SL_IO_Error}, {&SL_Read_Error, "ReadError", "Read failed", &SL_IO_Error}, {&SL_Open_Error, "OpenError", "Open failed", &SL_IO_Error}, {&SL_Data_Error, "DataError", "Data Error", &SL_RunTime_Error}, {&SL_Unicode_Error, "UnicodeError", "Unicode Error", &SL_RunTime_Error}, {&SL_InvalidUTF8_Error, "UTF8Error", "Invalid UTF8", &SL_Unicode_Error}, {&SL_Namespace_Error, "NamespaceError", "Namespace Error", &SL_RunTime_Error}, /* Parse Errors */ {&SL_Parse_Error, "ParseError", "Parse Error", &SL_Any_Error}, {&SL_Syntax_Error, "SyntaxError", "Syntax Error", &SL_Parse_Error}, {&SL_DuplicateDefinition_Error, "DuplicateDefinitionError", "Duplicate Definition", &SL_Parse_Error}, {&SL_UndefinedName_Error, "UndefinedNameError", "Undefined Name", &SL_Parse_Error}, {NULL, NULL, NULL, NULL} }; static Exception_Type *find_exception (Exception_Type *root, int error_code) { Exception_Type *e; while (root != NULL) { if (error_code == root->error_code) return root; if (root->subclasses != NULL) { e = find_exception (root->subclasses, error_code); if (e != NULL) return e; } root = root->next; } return root; } static int is_exception_ancestor (int a, int b) { Exception_Type *e; if (a == b) return 1; if (NULL == (e = find_exception (Exception_Root, a))) return 0; while (e->parent != NULL) { e = e->parent; if (e->error_code == b) return 1; } return 0; } int SLerr_exception_eqs (int a, int b) { if (is_exception_ancestor (a, b)) return 1; return 0; } static void free_this_exception (Exception_Type *e) { if (e == NULL) return; if (e->name != NULL) SLang_free_slstring (e->name); if (e->description != NULL) SLang_free_slstring (e->description); SLfree ((char *)e); } static int Next_Exception_Code; /* The whole point of this nonsense involving the _pSLerr_New_Exception_Hook * is to provide a mechanism to avoid linking in the interpreter for apps * that just want the other facilities. */ int (*_pSLerr_New_Exception_Hook)(char *name, char *desc, int error_code); int _pSLerr_init_interp_exceptions (void) { SLCONST BuiltIn_Exception_Table_Type *b; Exception_Type *e; if (_pSLerr_New_Exception_Hook == NULL) return 0; e = &Exception_Root_Buf; if (-1 == (*_pSLerr_New_Exception_Hook)(e->name, e->description, e->error_code)) return -1; b = BuiltIn_Exception_Table; while (b->errcode_ptr != NULL) { if (-1 == (*_pSLerr_New_Exception_Hook)(b->name, b->description, *b->errcode_ptr)) return -1; b++; } return 0; } int SLerr_new_exception (int baseclass, char *name, char *descript) { Exception_Type *base; Exception_Type *e; if (-1 == _pSLerr_init ()) return -1; base = find_exception (Exception_Root, baseclass); if (base == NULL) { SLang_verror (SL_InvalidParm_Error, "Base class for new exception not found"); return -1; } e = (Exception_Type *) SLcalloc (1, sizeof (Exception_Type)); if (e == NULL) return -1; if ((NULL == (e->name = SLang_create_slstring (name))) || (NULL == (e->description = SLang_create_slstring (descript)))) { free_this_exception (e); return -1; } e->error_code = Next_Exception_Code; if ((_pSLerr_New_Exception_Hook != NULL) && (-1 == (*_pSLerr_New_Exception_Hook) (e->name, e->description, e->error_code))) { free_this_exception (e); return -1; } e->parent = base; e->next = base->subclasses; base->subclasses = e; Next_Exception_Code++; return e->error_code; } static int init_exceptions (void) { SLCONST BuiltIn_Exception_Table_Type *b; if (Exception_Root != NULL) return 0; Exception_Root = &Exception_Root_Buf; Next_Exception_Code = 1; b = BuiltIn_Exception_Table; while (b->errcode_ptr != NULL) { int err_code; err_code = SLerr_new_exception (*b->base_class_ptr, b->name, b->description); if (err_code == -1) return -1; *b->errcode_ptr = err_code; b++; } return 0; } static void free_exceptions (Exception_Type *root) { while (root != NULL) { Exception_Type *next; if (root->subclasses != NULL) free_exceptions (root->subclasses); next = root->next; free_this_exception (root); root = next; } } static void deinit_exceptions (void) { Exception_Type *root = Exception_Root; if (root != NULL) free_exceptions (root->subclasses); Exception_Root = NULL; Next_Exception_Code = 0; } char *SLerr_strerror (int err_code) { Exception_Type *e; if (err_code == 0) err_code = _pSLang_Error; if (-1 == _pSLerr_init ()) return "Unable to initialize SLerr module"; if (NULL == (e = find_exception (Exception_Root, err_code))) return "Invalid/Unknown Error Code"; return e->description; } /* Error Queue Functions * SLang_verror (int errcode, fmt, args) * Add an error message to the queue. * SLerr_delete_queue () * Removes messages from the error queue * SLerr_print_queue () * Prints all messages from the queue, deletes the queue */ typedef struct _Error_Message_Type { char *msg; /* SLstring, may be NULL */ int msg_type; #define _SLERR_MSG_ERROR 1 #define _SLERR_MSG_WARNING 2 #define _SLERR_MSG_TRACEBACK 4 struct _Error_Message_Type *next; } Error_Message_Type; typedef struct { Error_Message_Type *head; Error_Message_Type *tail; } Error_Queue_Type; static Error_Queue_Type *Default_Error_Queue; static void free_error_msg (Error_Message_Type *m) { if (m == NULL) return; if (m->msg != NULL) SLang_free_slstring (m->msg); SLfree ((char *)m); } static Error_Message_Type *allocate_error_msg (char *msg, int msg_type) { Error_Message_Type *m; if (NULL == (m = (Error_Message_Type*) SLcalloc (1, sizeof (Error_Message_Type)))) return NULL; if ((NULL != msg) && (NULL == (m->msg = SLang_create_slstring (msg)))) { free_error_msg (m); return NULL; } m->msg_type = msg_type; return m; } static void free_queued_messages (Error_Queue_Type *q) { Error_Message_Type *m; if (q == NULL) return; m = q->head; while (m != NULL) { Error_Message_Type *m1 = m->next; free_error_msg (m); m = m1; } q->head = NULL; q->tail = NULL; } static void delete_msg_queue (Error_Queue_Type *q) { if (q == NULL) return; free_queued_messages (q); SLfree ((char *)q); } static Error_Queue_Type *create_msg_queue (void) { Error_Queue_Type *q; if (NULL == (q = (Error_Queue_Type *)SLcalloc (1, sizeof(Error_Queue_Type)))) return NULL; return q; } static int queue_message (Error_Queue_Type *q, char *msg, int msg_type) { Error_Message_Type *m; if (NULL == (m = allocate_error_msg (msg, msg_type))) return -1; if (q->tail != NULL) q->tail->next = m; if (q->head == NULL) q->head = m; q->tail = m; return 0; } static void print_error (int msg_type, char *err) { unsigned int len; switch (msg_type) { case _SLERR_MSG_ERROR: if (SLang_Error_Hook != NULL) { (*SLang_Error_Hook)(err); return; } break; case _SLERR_MSG_TRACEBACK: case _SLERR_MSG_WARNING: if (SLang_Dump_Routine != NULL) { (*SLang_Dump_Routine)(err); return; } break; } len = strlen (err); if (len == 0) return; fputs (err, stderr); if ((err[len-1] != '\n') && (msg_type != _SLERR_MSG_TRACEBACK)) fputs("\n", stderr); fflush (stderr); } static void print_queue (void) { if (-1 == _pSLerr_init ()) print_error (_SLERR_MSG_ERROR, "Unable to initialize SLerr module"); if (_pSLang_Error == 0) return; if (Default_Error_Queue != NULL) { Error_Queue_Type *q = Default_Error_Queue; Error_Message_Type *m = q->head; while (m != NULL) { Error_Message_Type *m_next = m->next; if (m->msg != NULL) print_error (m->msg_type, m->msg); m = m_next; } free_queued_messages (q); } #if 0 if (_pSLang_Error != SL_Usage_Error) { print_error (_SLERR_MSG_ERROR, SLerr_strerror (_pSLang_Error)); } #endif } /* This function returns a pointer to the first error message in the queue. * Make no attempts to free the returned pointer. */ char *_pSLerr_get_error_from_queue (void) { Error_Queue_Type *q; Error_Message_Type *m; unsigned int len; char *err, *err1, *err_max; if (NULL == (q = Default_Error_Queue)) return NULL; len = 0; m = q->head; while (m != NULL) { if (m->msg_type == _SLERR_MSG_ERROR) len += 1 + strlen (m->msg); m = m->next; } if (len) len--; /* last \n not needed */ if (NULL == (err = _pSLallocate_slstring (len))) return NULL; err_max = err + len; err1 = err; m = q->head; while (m != NULL) { if (m->msg_type == _SLERR_MSG_ERROR) { unsigned int dlen = strlen (m->msg); strcpy (err1, m->msg); err1 += dlen; if (err1 != err_max) *err1++ = '\n'; } m = m->next; } *err1 = 0; return _pSLcreate_via_alloced_slstring (err, len); } void _pSLerr_print_message_queue (void) { print_queue (); } static volatile int Suspend_Error_Messages = 0; int _pSLerr_resume_messages (void) { if (Suspend_Error_Messages == 0) return 0; Suspend_Error_Messages--; if (Suspend_Error_Messages == 0) print_queue (); return 0; } int _pSLerr_suspend_messages (void) { Suspend_Error_Messages++; return 0; } void _pSLerr_free_queued_messages (void) { free_queued_messages (Default_Error_Queue); } void SLang_verror (int err_code, char *fmt, ...) { va_list ap; char err [4096]; if (-1 == _pSLerr_init ()) { print_queue (); return; } if (err_code == 0) err_code = SL_INTRINSIC_ERROR; if (_pSLang_Error == 0) SLang_set_error (err_code); if (fmt == NULL) return; va_start(ap, fmt); (void) SLvsnprintf (err, sizeof (err), fmt, ap); va_end(ap); if (Suspend_Error_Messages) (void) queue_message (Default_Error_Queue, err, _SLERR_MSG_ERROR); else print_error (_SLERR_MSG_ERROR, err); } int _pSLerr_traceback_msg (char *fmt, ...) { va_list ap; char msg [4096]; va_start(ap, fmt); (void) SLvsnprintf (msg, sizeof (msg), fmt, ap); va_end(ap); return queue_message (Default_Error_Queue, msg, _SLERR_MSG_TRACEBACK); } void SLang_exit_error (char *fmt, ...) { va_list ap; print_queue (); va_start (ap, fmt); if (SLang_Exit_Error_Hook != NULL) { (*SLang_Exit_Error_Hook) (fmt, ap); exit (1); } if (fmt != NULL) { vfprintf (stderr, fmt, ap); fputs ("\n", stderr); fflush (stderr); } va_end (ap); exit (1); } int SLang_set_error (int error) { /* Only allow an error to be cleared (error==0), but not changed * if there already is an error. */ if ((error == 0) || (_pSLang_Error == 0)) _pSLang_Error = error; if (_pSLinterpreter_Error_Hook != NULL) (*_pSLinterpreter_Error_Hook) (_pSLang_Error); return 0; } int SLang_get_error (void) { return _pSLang_Error; } void SLang_vmessage (char *fmt, ...) { va_list ap; if (fmt == NULL) return; va_start (ap, fmt); if (SLang_VMessage_Hook != NULL) (*SLang_VMessage_Hook) (fmt, ap); else { vfprintf (stdout, fmt, ap); fputs ("\n", stdout); } va_end (ap); } /* This routine does not queue messages. It is used for tracing, etc. */ void _pSLerr_dump_msg (char *fmt, ...) { char buf[1024]; va_list ap; va_start (ap, fmt); if (SLang_Dump_Routine != NULL) { (void) SLvsnprintf (buf, sizeof (buf), fmt, ap); (*SLang_Dump_Routine) (buf); } else { vfprintf (stderr, fmt, ap); fflush (stderr); } va_end (ap); } int _pSLerr_init (void) { if (Default_Error_Queue == NULL) { Suspend_Error_Messages = 0; if (NULL == (Default_Error_Queue = create_msg_queue ())) return -1; } if (-1 == init_exceptions ()) return -1; return 0; } void _pSLerr_deinit (void) { deinit_exceptions (); delete_msg_queue (Default_Error_Queue); Suspend_Error_Messages = 0; Default_Error_Queue = NULL; }