/* ----------------------------------------------------------------------------- * See the LICENSE file for information on copyright, usage and redistribution * of SWIG, and the README file for authors - http://www.swig.org/release.html. * * s-exp.cxx * * A parse tree represented as Lisp s-expressions. * ----------------------------------------------------------------------------- */ char cvsroot_s_exp_cxx[] = "$Id: s-exp.cxx 11133 2009-02-20 07:52:24Z wsfulton $"; #include "swigmod.h" #include "dohint.h" static const char *usage = "\ S-Exp Options (available with -sexp)\n\ -typemaplang - Typemap language\n\n"; //static Node *view_top = 0; static File *out = 0; class Sexp:public Language { public: int indent_level; Sexp():indent_level(0) { } virtual ~ Sexp() { } virtual void main(int argc, char *argv[]) { // Add a symbol to the parser for conditional compilation Preprocessor_define("SWIGSEXP 1", 0); SWIG_typemap_lang("sexp"); for (int iX = 0; iX < argc; iX++) { if (strcmp(argv[iX], "-typemaplang") == 0) { Swig_mark_arg(iX); iX++; SWIG_typemap_lang(argv[iX]); Swig_mark_arg(iX); continue; } if (strcmp(argv[iX], "-help") == 0) { fputs(usage, stdout); } } } DOHHash *print_circle_hash; int print_circle_count; int hanging_parens; bool need_whitespace; bool need_newline; /* Top of the parse tree */ virtual int top(Node *n) { if (out == 0) { String *outfile = Getattr(n, "outfile"); Replaceall(outfile, "_wrap.cxx", ".lisp"); Replaceall(outfile, "_wrap.c", ".lisp"); out = NewFile(outfile, "w", SWIG_output_files()); if (!out) { FileErrorDisplay(outfile); SWIG_exit(EXIT_FAILURE); } } String *f_sink = NewString(""); Swig_register_filebyname("header", f_sink); Swig_register_filebyname("wrapper", f_sink); Swig_register_filebyname("begin", f_sink); Swig_register_filebyname("runtime", f_sink); Swig_register_filebyname("init", f_sink); Swig_banner_target_lang(out, ";;;"); Language::top(n); Printf(out, "\n"); Printf(out, ";;; Lisp parse tree produced by SWIG\n"); print_circle_hash = DohNewHash(); print_circle_count = 0; hanging_parens = 0; need_whitespace = 0; need_newline = 0; Sexp_print_node(n); flush_parens(); return SWIG_OK; } void print_indent() { int i; for (i = 0; i < indent_level; i++) { Printf(out, " "); } } void open_paren(const String *oper) { flush_parens(); Printf(out, "("); if (oper) Printf(out, "%s ", oper); indent_level += 2; } void close_paren(bool neednewline = false) { hanging_parens++; if (neednewline) print_lazy_whitespace(); indent_level -= 2; } void flush_parens() { int i; if (hanging_parens) { for (i = 0; i < hanging_parens; i++) Printf(out, ")"); hanging_parens = 0; need_newline = true; need_whitespace = true; } if (need_newline) { Printf(out, "\n"); print_indent(); need_newline = false; need_whitespace = false; } else if (need_whitespace) { Printf(out, " "); need_whitespace = false; } } void print_lazy_whitespace() { need_whitespace = 1; } void print_lazy_newline() { need_newline = 1; } bool internal_key_p(DOH *key) { return ((Cmp(key, "nodeType") == 0) || (Cmp(key, "firstChild") == 0) || (Cmp(key, "lastChild") == 0) || (Cmp(key, "parentNode") == 0) || (Cmp(key, "nextSibling") == 0) || (Cmp(key, "previousSibling") == 0) || (Cmp(key, "csym:nextSibling") == 0) || (Cmp(key, "csym:previousSibling") == 0) || (Cmp(key, "typepass:visit") == 0) || (Cmp(key, "allocate:visit") == 0) || (*(Char(key)) == '$')); } bool boolean_key_p(DOH *key) { return ((Cmp(key, "allocate:default_constructor") == 0) || (Cmp(key, "allocate:default_destructor") == 0) || (Cmp(key, "allows_typedef") == 0) || (Cmp(key, "feature:immutable") == 0)); } bool list_key_p(DOH *key) { return ((Cmp(key, "parms") == 0) || (Cmp(key, "baselist") == 0)); } bool plist_key_p(DOH *key) // true if KEY is the name of data that is a mapping from keys to // values, which should be printed as a plist. { return ((Cmp(key, "typescope") == 0)); } bool maybe_plist_key_p(DOH *key) { return (Strncmp(key, "tmap:", 5) == 0); } bool print_circle(DOH *obj, bool list_p) // We have a complex object, which might be referenced several // times, or even recursively. Use Lisp's reader notation for // circular structures (#n#, #n=). // // An object can be printed in list-mode or object-mode; LIST_P toggles. // return TRUE if OBJ still needs to be printed { flush_parens(); // Following is a silly hack. It works around the limitation of // DOH's hash tables that only work with string keys! char address[32]; sprintf(address, "%p%c", obj, list_p ? 'L' : 'O'); DOH *placeholder = Getattr(print_circle_hash, address); if (placeholder) { Printv(out, placeholder, NIL); return false; } else { String *placeholder = NewStringf("#%d#", ++print_circle_count); Setattr(print_circle_hash, address, placeholder); Printf(out, "#%d=", print_circle_count); return true; } } void Sexp_print_value_of_key(DOH *value, DOH *key) { if ((Cmp(key, "parms") == 0) || (Cmp(key, "wrap:parms") == 0) || (Cmp(key, "kwargs") == 0) || (Cmp(key, "pattern") == 0)) Sexp_print_parms(value); else if (plist_key_p(key)) Sexp_print_plist(value); else if (maybe_plist_key_p(key)) { if (DohIsMapping(value)) Sexp_print_plist(value); else Sexp_print_doh(value); } else if (list_key_p(key)) Sexp_print_list(value); else if (boolean_key_p(key)) Sexp_print_boolean(value); else Sexp_print_doh(value); } void Sexp_print_boolean(DOH *obj) { flush_parens(); /* See DOH/Doh/base.c, DohGetInt() */ if (DohIsString(obj)) { if (atoi(Char(obj)) != 0) Printf(out, "t"); else Printf(out, "nil"); } else Printf(out, "nil"); } void Sexp_print_list(DOH *obj) { if (print_circle(obj, true)) { open_paren(NIL); for (; obj; obj = nextSibling(obj)) { Sexp_print_doh(obj); print_lazy_whitespace(); } close_paren(true); } } void Sexp_print_parms(DOH *obj) { // print it as a list of plists if (print_circle(obj, true)) { open_paren(NIL); for (; obj; obj = nextSibling(obj)) { if (DohIsMapping(obj)) { Iterator k; open_paren(NIL); for (k = First(obj); k.key; k = Next(k)) { if (!internal_key_p(k.key)) { DOH *value = Getattr(obj, k.key); Sexp_print_as_keyword(k.key); Sexp_print_value_of_key(value, k.key); print_lazy_whitespace(); } } close_paren(true); } else Sexp_print_doh(obj); print_lazy_whitespace(); } close_paren(true); } } void Sexp_print_doh(DOH *obj) { flush_parens(); if (DohIsString(obj)) { String *o = Str(obj); Replaceall(o, "\\", "\\\\"); Replaceall(o, "\"", "\\\""); Printf(out, "\"%s\"", o); Delete(o); } else { if (print_circle(obj, false)) { // Dispatch type if (nodeType(obj)) { Sexp_print_node(obj); } else if (DohIsMapping(obj)) { Iterator k; open_paren(NIL); for (k = First(obj); k.key; k = Next(k)) { if (!internal_key_p(k.key)) { DOH *value = Getattr(obj, k.key); flush_parens(); open_paren(NIL); Sexp_print_doh(k.key); Printf(out, " . "); Sexp_print_value_of_key(value, k.key); close_paren(); } } close_paren(); } else if (strcmp(ObjType(obj)->objname, "List") == 0) { int i; open_paren(NIL); for (i = 0; i < Len(obj); i++) { DOH *item = Getitem(obj, i); Sexp_print_doh(item); } close_paren(); } else { // What is it? Printf(out, "#", ObjType(obj)->objname, obj); } } } } void Sexp_print_as_keyword(const DOH *k) { /* Print key, replacing ":" with "-" because : is CL's package prefix */ flush_parens(); String *key = NewString(k); Replaceall(key, ":", "-"); Replaceall(key, "_", "-"); Printf(out, ":%s ", key); Delete(key); } void Sexp_print_plist_noparens(DOH *obj) { /* attributes map names to objects */ Iterator k; bool first; for (k = First(obj), first = true; k.key; k = Next(k), first = false) { if (!internal_key_p(k.key)) { DOH *value = Getattr(obj, k.key); flush_parens(); if (!first) { Printf(out, " "); } Sexp_print_as_keyword(k.key); /* Print value */ Sexp_print_value_of_key(value, k.key); } } } void Sexp_print_plist(DOH *obj) { flush_parens(); if (print_circle(obj, true)) { open_paren(NIL); Sexp_print_plist_noparens(obj); close_paren(); } } void Sexp_print_attributes(Node *obj) { Sexp_print_plist_noparens(obj); } void Sexp_print_node(Node *obj) { Node *cobj; open_paren(nodeType(obj)); /* A node has an attribute list... */ Sexp_print_attributes(obj); /* ... and child nodes. */ cobj = firstChild(obj); if (cobj) { print_lazy_newline(); flush_parens(); Sexp_print_as_keyword("children"); open_paren(NIL); for (; cobj; cobj = nextSibling(cobj)) { Sexp_print_node(cobj); } close_paren(); } close_paren(); } virtual int functionWrapper(Node *n) { ParmList *l = Getattr(n, "parms"); Wrapper *f = NewWrapper(); emit_attach_parmmaps(l, f); Setattr(n, "wrap:parms", l); DelWrapper(f); return SWIG_OK; } }; static Language *new_swig_sexp() { return new Sexp(); } extern "C" Language *swig_sexp(void) { return new_swig_sexp(); }