/* ----------------------------------------------------------------------------- * This file is part of SWIG, which is licensed as a whole under version 3 * (or any later version) of the GNU General Public License. Some additional * terms also apply to certain portions of SWIG. The full details of the SWIG * license and copyrights can be found in the LICENSE and COPYRIGHT files * included with the SWIG source code as distributed by the SWIG developers * and at http://www.swig.org/legal.html. * * clisp.cxx * * clisp language module for SWIG. * ----------------------------------------------------------------------------- */ char cvsroot_clisp_cxx[] = "$Id: clisp.cxx 12524 2011-03-09 21:42:38Z wsfulton $"; #include "swigmod.h" static const char *usage = (char *) "\ CLISP Options (available with -clisp)\n\ -extern-all - Create clisp definitions for all the functions and\n\ global variables otherwise only definitions for\n\ externed functions and variables are created.\n\ -generate-typedef - Use def-c-type to generate shortcuts according to the\n\ typedefs in the input.\n\ "; class CLISP:public Language { public: File *f_cl; String *module; virtual void main(int argc, char *argv[]); virtual int top(Node *n); virtual int functionWrapper(Node *n); virtual int variableWrapper(Node *n); virtual int constantWrapper(Node *n); virtual int classDeclaration(Node *n); virtual int enumDeclaration(Node *n); virtual int typedefHandler(Node *n); List *entries; private: String *get_ffi_type(Node *n, SwigType *ty); String *convert_literal(String *num_param, String *type); String *strip_parens(String *string); int extern_all_flag; int generate_typedef_flag; int is_function; }; void CLISP::main(int argc, char *argv[]) { int i; Preprocessor_define("SWIGCLISP 1", 0); SWIG_library_directory("clisp"); SWIG_config_file("clisp.swg"); generate_typedef_flag = 0; extern_all_flag = 0; for (i = 1; i < argc; i++) { if (!strcmp(argv[i], "-help")) { Printf(stdout, "%s\n", usage); } else if ((Strcmp(argv[i], "-extern-all") == 0)) { extern_all_flag = 1; Swig_mark_arg(i); } else if ((Strcmp(argv[i], "-generate-typedef") == 0)) { generate_typedef_flag = 1; Swig_mark_arg(i); } } } int CLISP::top(Node *n) { File *f_null = NewString(""); module = Getattr(n, "name"); String *output_filename; entries = NewList(); /* Get the output file name */ String *outfile = Getattr(n, "outfile"); if (!outfile) output_filename = outfile; else { output_filename = NewString(""); Printf(output_filename, "%s%s.lisp", SWIG_output_directory(), module); } f_cl = NewFile(output_filename, "w+", SWIG_output_files()); if (!f_cl) { FileErrorDisplay(output_filename); SWIG_exit(EXIT_FAILURE); } Swig_register_filebyname("header", f_null); Swig_register_filebyname("begin", f_null); Swig_register_filebyname("runtime", f_null); Swig_register_filebyname("wrapper", f_null); String *header = NewString(""); Swig_banner_target_lang(header, ";;"); Printf(header, "\n(defpackage :%s\n (:use :common-lisp :ffi)", module); Language::top(n); Iterator i; long len = Len(entries); if (len > 0) { Printf(header, "\n (:export"); } //else nothing to export for (i = First(entries); i.item; i = Next(i)) { Printf(header, "\n\t:%s", i.item); } if (len > 0) { Printf(header, ")"); } Printf(header, ")\n"); Printf(header, "\n(in-package :%s)\n", module); Printf(header, "\n(default-foreign-language :stdc)\n"); len = Tell(f_cl); Printf(f_cl, "%s", header); long end = Tell(f_cl); for (len--; len >= 0; len--) { end--; Seek(f_cl, len, SEEK_SET); int ch = Getc(f_cl); Seek(f_cl, end, SEEK_SET); Putc(ch, f_cl); } Seek(f_cl, 0, SEEK_SET); Write(f_cl, Char(header), Len(header)); Close(f_cl); Delete(f_cl); // Deletes the handle, not the file return SWIG_OK; } int CLISP::functionWrapper(Node *n) { is_function = 1; String *storage = Getattr(n, "storage"); if (!extern_all_flag && (!storage || (Strcmp(storage, "extern") && Strcmp(storage, "externc")))) return SWIG_OK; String *func_name = Getattr(n, "sym:name"); ParmList *pl = Getattr(n, "parms"); int argnum = 0, first = 1; Printf(f_cl, "\n(ffi:def-call-out %s\n\t(:name \"%s\")\n", func_name, func_name); Append(entries, func_name); if (ParmList_len(pl) != 0) { Printf(f_cl, "\t(:arguments "); } for (Parm *p = pl; p; p = nextSibling(p), argnum++) { String *argname = Getattr(p, "name"); // SwigType *argtype; String *ffitype = get_ffi_type(n, Getattr(p, "type")); int tempargname = 0; if (!argname) { argname = NewStringf("arg%d", argnum); tempargname = 1; } if (!first) { Printf(f_cl, "\n\t\t"); } Printf(f_cl, "(%s %s)", argname, ffitype); first = 0; Delete(ffitype); if (tempargname) Delete(argname); } if (ParmList_len(pl) != 0) { Printf(f_cl, ")\n"); /* finish arg list */ } String *ffitype = get_ffi_type(n, Getattr(n, "type")); if (Strcmp(ffitype, "NIL")) { //when return type is not nil Printf(f_cl, "\t(:return-type %s)\n", ffitype); } Printf(f_cl, "\t(:library +library-name+))\n"); return SWIG_OK; } int CLISP::constantWrapper(Node *n) { is_function = 0; String *type = Getattr(n, "type"); String *converted_value = convert_literal(Getattr(n, "value"), type); String *name = Getattr(n, "sym:name"); Printf(f_cl, "\n(defconstant %s %s)\n", name, converted_value); Append(entries, name); Delete(converted_value); return SWIG_OK; } int CLISP::variableWrapper(Node *n) { is_function = 0; // SwigType *type=; String *storage = Getattr(n, "storage"); if (!extern_all_flag && (!storage || (Strcmp(storage, "extern") && Strcmp(storage, "externc")))) return SWIG_OK; String *var_name = Getattr(n, "sym:name"); String *lisp_type = get_ffi_type(n, Getattr(n, "type")); Printf(f_cl, "\n(ffi:def-c-var %s\n (:name \"%s\")\n (:type %s)\n", var_name, var_name, lisp_type); Printf(f_cl, "\t(:library +library-name+))\n"); Append(entries, var_name); Delete(lisp_type); return SWIG_OK; } int CLISP::typedefHandler(Node *n) { if (generate_typedef_flag) { is_function = 0; Printf(f_cl, "\n(ffi:def-c-type %s %s)\n", Getattr(n, "name"), get_ffi_type(n, Getattr(n, "type"))); } return Language::typedefHandler(n); } int CLISP::enumDeclaration(Node *n) { is_function = 0; String *name = Getattr(n, "sym:name"); Printf(f_cl, "\n(ffi:def-c-enum %s ", name); for (Node *c = firstChild(n); c; c = nextSibling(c)) { String *slot_name = Getattr(c, "name"); String *value = Getattr(c, "enumvalue"); Printf(f_cl, "(%s %s)", slot_name, value); Append(entries, slot_name); Delete(value); } Printf(f_cl, ")\n"); return SWIG_OK; } // Includes structs int CLISP::classDeclaration(Node *n) { is_function = 0; String *name = Getattr(n, "sym:name"); String *kind = Getattr(n, "kind"); if (Strcmp(kind, "struct")) { Printf(stderr, "Don't know how to deal with %s kind of class yet.\n", kind); Printf(stderr, " (name: %s)\n", name); SWIG_exit(EXIT_FAILURE); } Printf(f_cl, "\n(ffi:def-c-struct %s", name); Append(entries, NewStringf("make-%s", name)); for (Node *c = firstChild(n); c; c = nextSibling(c)) { if (Strcmp(nodeType(c), "cdecl")) { Printf(stderr, "Structure %s has a slot that we can't deal with.\n", name); Printf(stderr, "nodeType: %s, name: %s, type: %s\n", nodeType(c), Getattr(c, "name"), Getattr(c, "type")); SWIG_exit(EXIT_FAILURE); } String *temp = Copy(Getattr(c, "decl")); if (temp) { Append(temp, Getattr(c, "type")); //appending type to the end, otherwise wrong type String *lisp_type = get_ffi_type(n, temp); Delete(temp); String *slot_name = Getattr(c, "sym:name"); Printf(f_cl, "\n\t(%s %s)", slot_name, lisp_type); Append(entries, NewStringf("%s-%s", name, slot_name)); Delete(lisp_type); } } Printf(f_cl, ")\n"); /* Add this structure to the known lisp types */ //Printf(stdout, "Adding %s foreign type\n", name); // add_defined_foreign_type(name); return SWIG_OK; } /* utilities */ /* returns new string w/ parens stripped */ String *CLISP::strip_parens(String *string) { char *s = Char(string), *p; int len = Len(string); String *res; if (len == 0 || s[0] != '(' || s[len - 1] != ')') { return NewString(string); } p = (char *) malloc(len - 2 + 1); if (!p) { Printf(stderr, "Malloc failed\n"); SWIG_exit(EXIT_FAILURE); } strncpy(p, s + 1, len - 1); p[len - 2] = 0; /* null terminate */ res = NewString(p); free(p); return res; } String *CLISP::convert_literal(String *num_param, String *type) { String *num = strip_parens(num_param), *res; char *s = Char(num); /* Make sure doubles use 'd' instead of 'e' */ if (!Strcmp(type, "double")) { String *updated = Copy(num); if (Replace(updated, "e", "d", DOH_REPLACE_ANY) > 1) { Printf(stderr, "Weird!! number %s looks invalid.\n", num); SWIG_exit(EXIT_FAILURE); } Delete(num); return updated; } if (SwigType_type(type) == T_CHAR) { /* Use CL syntax for character literals */ return NewStringf("#\\%s", num_param); } else if (SwigType_type(type) == T_STRING) { /* Use CL syntax for string literals */ return NewStringf("\"%s\"", num_param); } if (Len(num) < 2 || s[0] != '0') { return num; } /* octal or hex */ res = NewStringf("#%c%s", s[1] == 'x' ? 'x' : 'o', s + 2); Delete(num); return res; } String *CLISP::get_ffi_type(Node *n, SwigType *ty) { Node *node = NewHash(); Setattr(node, "type", ty); Setfile(node, Getfile(n)); Setline(node, Getline(n)); const String *tm = Swig_typemap_lookup("in", node, "", 0); Delete(node); if (tm) { return NewString(tm); } else if (SwigType_ispointer(ty)) { SwigType *cp = Copy(ty); SwigType_del_pointer(cp); String *inner_type = get_ffi_type(n, cp); if (SwigType_isfunction(cp)) { return inner_type; } SwigType *base = SwigType_base(ty); String *base_name = SwigType_str(base, 0); String *str; if (!Strcmp(base_name, "int") || !Strcmp(base_name, "float") || !Strcmp(base_name, "short") || !Strcmp(base_name, "double") || !Strcmp(base_name, "long") || !Strcmp(base_name, "char")) { str = NewStringf("(ffi:c-ptr %s)", inner_type); } else { str = NewStringf("(ffi:c-pointer %s)", inner_type); } Delete(base_name); Delete(base); Delete(cp); Delete(inner_type); return str; } else if (SwigType_isarray(ty)) { SwigType *cp = Copy(ty); String *array_dim = SwigType_array_getdim(ty, 0); if (!Strcmp(array_dim, "")) { //dimension less array convert to pointer Delete(array_dim); SwigType_del_array(cp); SwigType_add_pointer(cp); String *str = get_ffi_type(n, cp); Delete(cp); return str; } else { SwigType_pop_arrays(cp); String *inner_type = get_ffi_type(n, cp); Delete(cp); int ndim = SwigType_array_ndim(ty); String *dimension; if (ndim == 1) { dimension = array_dim; } else { dimension = array_dim; for (int i = 1; i < ndim; i++) { array_dim = SwigType_array_getdim(ty, i); Append(dimension, " "); Append(dimension, array_dim); Delete(array_dim); } String *temp = dimension; dimension = NewStringf("(%s)", dimension); Delete(temp); } String *str; if (is_function) str = NewStringf("(ffi:c-ptr (ffi:c-array %s %s))", inner_type, dimension); else str = NewStringf("(ffi:c-array %s %s)", inner_type, dimension); Delete(inner_type); Delete(dimension); return str; } } else if (SwigType_isfunction(ty)) { SwigType *cp = Copy(ty); SwigType *fn = SwigType_pop_function(cp); String *args = NewString(""); ParmList *pl = SwigType_function_parms(fn, n); if (ParmList_len(pl) != 0) { Printf(args, "(:arguments "); } int argnum = 0, first = 1; for (Parm *p = pl; p; p = nextSibling(p), argnum++) { String *argname = Getattr(p, "name"); SwigType *argtype = Getattr(p, "type"); String *ffitype = get_ffi_type(n, argtype); int tempargname = 0; if (!argname) { argname = NewStringf("arg%d", argnum); tempargname = 1; } if (!first) { Printf(args, "\n\t\t"); } Printf(args, "(%s %s)", argname, ffitype); first = 0; Delete(ffitype); if (tempargname) Delete(argname); } if (ParmList_len(pl) != 0) { Printf(args, ")\n"); /* finish arg list */ } String *ffitype = get_ffi_type(n, cp); String *str = NewStringf("(ffi:c-function %s \t\t\t\t(:return-type %s))", args, ffitype); Delete(fn); Delete(args); Delete(cp); Delete(ffitype); return str; } String *str = SwigType_str(ty, 0); if (str) { char *st = Strstr(str, "struct"); if (st) { st += 7; return NewString(st); } char *cl = Strstr(str, "class"); if (cl) { cl += 6; return NewString(cl); } } return str; } extern "C" Language *swig_clisp(void) { return new CLISP(); }