/* generic.h */ /* Copyright (C) 2007 Bill Paxton This file is part of Tioga. Tioga is free software; you can redistribute it and/or modify it under the terms of the GNU General Library Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. Tioga 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with Tioga; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef __generic_H__ #define __generic_H__ #include //if ruby #include "ruby.h" #include "intern.h" extern void Init_generic(void); /* most of the c code should use this interface rather than directly depending on ruby interfaces */ // if ruby #define OBJ_PTR VALUE // if python //#define OBJ_PTR PyObject* // if ruby #define ID_PTR ID // if python //#define ID_PTR char* //if ruby #define OBJ_NIL Qnil #define OBJ_TRUE Qtrue #define OBJ_FALSE Qfalse //if python //#define OBJ_NIL Py_None //#define OBJ_TRUE Py_True //#define OBJ_FALSE Py_False //for python the following will need to increment ref counts #define RETURN_NIL return Qnil #define RETURN_TRUE return Qtrue #define RETURN_FALSE return Qfalse // all routines set *ierr nonzero in case of error. extern void Call_Function(OBJ_PTR fmkr, ID_PTR fn, OBJ_PTR arg, int *ierr); // invokes method given by fn in the object fmkr with the given arg. /* Interfaces for callbacks */ /* Not implemented yet, don't use ! */ extern bool Is_Kind_of_Callback(OBJ_PTR obj); /* True if obj is a callback function */ extern OBJ_PTR Use_Callback(OBJ_PTR callback, int nb, OBJ_PTR * args, int *ierr); /* Calls the callback callback with an array of nb arguments (args). args can be NULL. The return value should be correctly allocated (means the reference count should count the return value). */ /* Hash-related functions */ /* We deal only with *string* hashes ! That is enough to give us */ extern OBJ_PTR Hash_New(); /* Returns a freshly-baked hash */ extern OBJ_PTR Hash_Get_Obj(OBJ_PTR hash, const char * key); /* Returns the value for key */ extern OBJ_PTR Hash_Get_Obj_Obj(OBJ_PTR hash, OBJ_PTR key); /* Same thing as Hash_Get_Obj, but takes an object for a key */ extern void Hash_Set_Obj(OBJ_PTR hash, const char * key, OBJ_PTR value); /* Sets the value for key */ extern void Hash_Set_Obj_Obj(OBJ_PTR hash, OBJ_PTR key, OBJ_PTR value); /* Same thing as Hash_Set_Obj, but takes an object for a key */ extern double Hash_Get_Double(OBJ_PTR hash, const char * key); /* Same as Hash_Get_Obj, but returns a double */ extern void Hash_Set_Double(OBJ_PTR hash, const char * key, double value); /* Same as Hash_Set_Obj, but takes a double */ extern void Hash_Delete(OBJ_PTR hash, const char * key); /* Deletes key */ extern bool Hash_Has_Key(OBJ_PTR hash, const char * key); /* Returns true if the key has been set. */ extern bool Hash_Has_Key_Obj(OBJ_PTR hash, OBJ_PTR key); /* Returns true if the key has been set. */ extern bool Is_Kind_of_Integer(OBJ_PTR obj); extern bool Is_Kind_of_Number(OBJ_PTR obj); extern double Number_to_double(OBJ_PTR obj, int *ierr); // returns a C double // raises error if obj not a kind of number extern long Number_to_int(OBJ_PTR obj, int *ierr); // returns a C int // raises error if obj not a kind of integer extern OBJ_PTR Integer_New(long val); // returns a new integer object with given val extern OBJ_PTR Float_New(double val); // returns a new float object with given val extern OBJ_PTR String_New(char *src, long len); // returns a new string object initialized with len chars from src extern OBJ_PTR String_From_Cstring(char *src); // returns a new string object initialized from null-terminated Cstring src extern char *String_Ptr(OBJ_PTR obj, int *ierr); // returns pointer to storage buffer for string obj // tries to convert obj to string if necessary // raises error if obj not a kind of string and cannot be converted to one extern char *CString_Ptr(OBJ_PTR obj, int *ierr); // like String_Ptr, but checks to make sure that there are no NULL chars in the string // i.e., raises an exception if String_Len(obj) is not same as strlen(String_Ptr(obj)) extern long String_Len(OBJ_PTR obj, int *ierr); // returns int length of contents of string obj // tries to convert obj to string if necessary // raises error if obj not a kind of string and cannot be converted to one extern OBJ_PTR Array_New(long len); // returns a new array object of length len extern long Array_Len(OBJ_PTR obj, int *ierr); // returns length of the array obj // tries to convert obj to array if necessary // raises error if obj not a kind of array and cannot be converted to one extern OBJ_PTR Array_Entry(OBJ_PTR obj, long indx, int *ierr); // returns a BORROWED REFERENCE to array obj entry indx // tries to convert obj to array if necessary // raises error if obj not a kind of array and cannot be converted to one extern void Array_Store(OBJ_PTR obj, long indx, OBJ_PTR val, int *ierr); // sets array obj entry indx to val. // raises error if obj not a kind of array extern void Array_Push(OBJ_PTR obj, OBJ_PTR val, int *ierr); // pushes val onto the end of array obj. // raises error if obj not a kind of array extern ID_PTR ID_Get(char *name); // returns internal ID for the given name extern char *ID_Name(ID_PTR id, int *ierr); // return the name of the given id. extern OBJ_PTR Obj_Attr_Get(OBJ_PTR obj, ID_PTR attr_ID, int *ierr); // returns a BORROWED REFERENCE to value of the given attr of the obj extern void Obj_Attr_Set(OBJ_PTR obj, ID_PTR attr_ID, OBJ_PTR val, int *ierr); // sets the specified attr of the obj to val. extern OBJ_PTR TEX_PREAMBLE(OBJ_PTR fmkr, int *ierr); // returns a BORROWED REFERENCE to the class FigureMaker constant named TEX_PREAMBLE extern OBJ_PTR COLOR_PREAMBLE(OBJ_PTR fmkr, int *ierr); // returns a BORROWED REFERENCE to the class FigureMaker constant named COLOR_PREAMBLE extern void RAISE_ERROR(char *str, int *ierr); // prints the error message and does *ierr = -1; // The following do sprintf to a local string, and then call RAISE_ERROR. extern void RAISE_ERROR_s(char *fmt, char *s, int *ierr); extern void RAISE_ERROR_ss(char *fmt, char *s1, char *s2, int *ierr); extern void RAISE_ERROR_i(char *fmt, int x, int *ierr); extern void RAISE_ERROR_ii(char *fmt, int x1, int x2, int *ierr); extern void RAISE_ERROR_g(char *fmt, double x, int *ierr); extern void RAISE_ERROR_gg(char *fmt, double x1, double x2, int *ierr); extern void GIVE_WARNING(const char *fmt, const char *str); // Unconditionally issues a warning message to standard error. // The given string fmt and the arg str are interpreted as with printf. /* generic interface for vectors and tables */ extern OBJ_PTR Vector_New(long len, double *vals); // creates a new 1D vector and initializes it with given values extern OBJ_PTR Integer_Vector_New(long len, long *vals); // creates a new 1D vector and initializes it with given values extern double *Vector_Data_for_Read(OBJ_PTR obj, long *len_ptr, int *ierr); // returns (double *) pointer to data (read access only) // also returns length of vector via len_ptr extern double **Table_Data_for_Read(OBJ_PTR tbl, long *num_col_ptr, long *num_row_ptr, int *ierr); // returns (double **) pointer to data (read access only) // also returns number of cols and rows via num_col_ptr and num_row_ptr /* generic interface for alloc */ // use these instead of directly calling C // Ruby versions will trigger a garbage collection if necessary extern char *ALLOC_N_char(long len); extern unsigned char *ALLOC_N_unsigned_char(long len); extern long *ALLOC_N_long(long len); extern unsigned long *ALLOC_N_unsigned_long(long len); extern void **ALLOC_N_pointer(long len); extern bool *ALLOC_N_bool(long len); extern double *ALLOC_N_double(long len); extern void REALLOC_long(long **ptr, long new_len); extern void REALLOC_double(double **ptr, long new_len); // zlib compression extern int do_flate_compress(unsigned char *new_ptr, unsigned long *new_len_ptr, unsigned char *ptr, long len); // returns FLATE_OK if all okay. // source is given by ptr and is len bytes in length. // new_ptr is destination buffer of size *new_len_ptr. // NOTE: the destination buffer for flate_compress should be LARGER than the source buffer to be safe. // The minimal extra is 0.1% larger than the source plus 12 bytes. // My rule is to use (len * 11)/10 + 100 just to be sure. #define FLATE_OK 0 #endif /* __generic_H__ */