/* ----------------------------------------------------------------------------- * 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. * * overload.cxx * * This file is used to analyze overloaded functions and methods. * It looks at signatures and tries to gather information for * building a dispatch function. * ----------------------------------------------------------------------------- */ char cvsroot_overload_cxx[] = "$Id: overload.cxx 11455 2009-07-26 21:29:55Z wsfulton $"; #include "swigmod.h" #define MAX_OVERLOAD 4096 /* Overload "argc" and "argv" */ String *argv_template_string; String *argc_template_string; struct Overloaded { Node *n; /* Node */ int argc; /* Argument count */ ParmList *parms; /* Parameters used for overload check */ int error; /* Ambiguity error */ }; static int fast_dispatch_mode = 0; static int cast_dispatch_mode = 0; /* Set fast_dispatch_mode */ void Wrapper_fast_dispatch_mode_set(int flag) { fast_dispatch_mode = flag; } void Wrapper_cast_dispatch_mode_set(int flag) { cast_dispatch_mode = flag; } /* ----------------------------------------------------------------------------- * Swig_overload_rank() * * This function takes an overloaded declaration and creates a list that ranks * all overloaded methods in an order that can be used to generate a dispatch * function. * Slight difference in the way this function is used by scripting languages and * statically typed languages. The script languages call this method via * Swig_overload_dispatch() - where wrappers for all overloaded methods are generated, * however sometimes the code can never be executed. The non-scripting languages * call this method via Swig_overload_check() for each overloaded method in order * to determine whether or not the method should be wrapped. Note the slight * difference when overloading methods that differ by const only. The * scripting languages will ignore the const method, whereas the non-scripting * languages ignore the first method parsed. * ----------------------------------------------------------------------------- */ static List *Swig_overload_rank(Node *n, bool script_lang_wrapping) { Overloaded nodes[MAX_OVERLOAD]; int nnodes = 0; Node *o = Getattr(n, "sym:overloaded"); Node *c; if (!o) return 0; c = o; while (c) { if (Getattr(c, "error")) { c = Getattr(c, "sym:nextSibling"); continue; } /* if (SmartPointer && Getattr(c,"cplus:staticbase")) { c = Getattr(c,"sym:nextSibling"); continue; } */ /* Make a list of all the declarations (methods) that are overloaded with * this one particular method name */ if (Getattr(c, "wrap:name")) { assert(nnodes < MAX_OVERLOAD); nodes[nnodes].n = c; nodes[nnodes].parms = Getattr(c, "wrap:parms"); nodes[nnodes].argc = emit_num_required(nodes[nnodes].parms); nodes[nnodes].error = 0; nnodes++; } c = Getattr(c, "sym:nextSibling"); } /* Sort the declarations by required argument count */ { int i, j; for (i = 0; i < nnodes; i++) { for (j = i + 1; j < nnodes; j++) { if (nodes[i].argc > nodes[j].argc) { Overloaded t = nodes[i]; nodes[i] = nodes[j]; nodes[j] = t; } } } } /* Sort the declarations by argument types */ { int i, j; for (i = 0; i < nnodes - 1; i++) { if (nodes[i].argc == nodes[i + 1].argc) { for (j = i + 1; (j < nnodes) && (nodes[j].argc == nodes[i].argc); j++) { Parm *p1 = nodes[i].parms; Parm *p2 = nodes[j].parms; int differ = 0; int num_checked = 0; while (p1 && p2 && (num_checked < nodes[i].argc)) { // Printf(stdout,"p1 = '%s', p2 = '%s'\n", Getattr(p1,"type"), Getattr(p2,"type")); if (checkAttribute(p1, "tmap:in:numinputs", "0")) { p1 = Getattr(p1, "tmap:in:next"); continue; } if (checkAttribute(p2, "tmap:in:numinputs", "0")) { p2 = Getattr(p2, "tmap:in:next"); continue; } String *t1 = Getattr(p1, "tmap:typecheck:precedence"); String *t2 = Getattr(p2, "tmap:typecheck:precedence"); if ((!t1) && (!nodes[i].error)) { Swig_warning(WARN_TYPEMAP_TYPECHECK, Getfile(nodes[i].n), Getline(nodes[i].n), "Overloaded method %s not supported (no type checking rule for '%s').\n", Swig_name_decl(nodes[i].n), SwigType_str(Getattr(p1, "type"), 0)); nodes[i].error = 1; } else if ((!t2) && (!nodes[j].error)) { Swig_warning(WARN_TYPEMAP_TYPECHECK, Getfile(nodes[j].n), Getline(nodes[j].n), "Overloaded method %s not supported (no type checking rule for '%s').\n", Swig_name_decl(nodes[j].n), SwigType_str(Getattr(p2, "type"), 0)); nodes[j].error = 1; } if (t1 && t2) { int t1v, t2v; t1v = atoi(Char(t1)); t2v = atoi(Char(t2)); differ = t1v - t2v; } else if (!t1 && t2) differ = 1; else if (t1 && !t2) differ = -1; else if (!t1 && !t2) differ = -1; num_checked++; if (differ > 0) { Overloaded t = nodes[i]; nodes[i] = nodes[j]; nodes[j] = t; break; } else if ((differ == 0) && (Strcmp(t1, "0") == 0)) { t1 = Getattr(p1, "ltype"); if (!t1) { t1 = SwigType_ltype(Getattr(p1, "type")); if (Getattr(p1, "tmap:typecheck:SWIGTYPE")) { SwigType_add_pointer(t1); } Setattr(p1, "ltype", t1); } t2 = Getattr(p2, "ltype"); if (!t2) { t2 = SwigType_ltype(Getattr(p2, "type")); if (Getattr(p2, "tmap:typecheck:SWIGTYPE")) { SwigType_add_pointer(t2); } Setattr(p2, "ltype", t2); } /* Need subtype check here. If t2 is a subtype of t1, then we need to change the order */ if (SwigType_issubtype(t2, t1)) { Overloaded t = nodes[i]; nodes[i] = nodes[j]; nodes[j] = t; } if (Strcmp(t1, t2) != 0) { differ = 1; break; } } else if (differ) { break; } if (Getattr(p1, "tmap:in:next")) { p1 = Getattr(p1, "tmap:in:next"); } else { p1 = nextSibling(p1); } if (Getattr(p2, "tmap:in:next")) { p2 = Getattr(p2, "tmap:in:next"); } else { p2 = nextSibling(p2); } } if (!differ) { /* See if declarations differ by const only */ String *d1 = Getattr(nodes[i].n, "decl"); String *d2 = Getattr(nodes[j].n, "decl"); if (d1 && d2) { String *dq1 = Copy(d1); String *dq2 = Copy(d2); if (SwigType_isconst(d1)) { Delete(SwigType_pop(dq1)); } if (SwigType_isconst(d2)) { Delete(SwigType_pop(dq2)); } if (Strcmp(dq1, dq2) == 0) { if (SwigType_isconst(d1) && !SwigType_isconst(d2)) { if (script_lang_wrapping) { // Swap nodes so that the const method gets ignored (shadowed by the non-const method) Overloaded t = nodes[i]; nodes[i] = nodes[j]; nodes[j] = t; } differ = 1; if (!nodes[j].error) { if (script_lang_wrapping) { Swig_warning(WARN_LANG_OVERLOAD_CONST, Getfile(nodes[j].n), Getline(nodes[j].n), "Overloaded method %s ignored. Non-const method %s at %s:%d used.\n", Swig_name_decl(nodes[j].n), Swig_name_decl(nodes[i].n), Getfile(nodes[i].n), Getline(nodes[i].n)); } else { if (!Getattr(nodes[j].n, "overload:ignore")) Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[j].n), Getline(nodes[j].n), "Overloaded method %s ignored. Method %s at %s:%d used.\n", Swig_name_decl(nodes[j].n), Swig_name_decl(nodes[i].n), Getfile(nodes[i].n), Getline(nodes[i].n)); } } nodes[j].error = 1; } else if (!SwigType_isconst(d1) && SwigType_isconst(d2)) { differ = 1; if (!nodes[j].error) { if (script_lang_wrapping) { Swig_warning(WARN_LANG_OVERLOAD_CONST, Getfile(nodes[j].n), Getline(nodes[j].n), "Overloaded method %s ignored. Non-const method %s at %s:%d used.\n", Swig_name_decl(nodes[j].n), Swig_name_decl(nodes[i].n), Getfile(nodes[i].n), Getline(nodes[i].n)); } else { if (!Getattr(nodes[j].n, "overload:ignore")) Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[j].n), Getline(nodes[j].n), "Overloaded method %s ignored. Method %s at %s:%d used.\n", Swig_name_decl(nodes[j].n), Swig_name_decl(nodes[i].n), Getfile(nodes[i].n), Getline(nodes[i].n)); } } nodes[j].error = 1; } } Delete(dq1); Delete(dq2); } } if (!differ) { if (!nodes[j].error) { if (script_lang_wrapping) { Swig_warning(WARN_LANG_OVERLOAD_SHADOW, Getfile(nodes[j].n), Getline(nodes[j].n), "Overloaded method %s is shadowed by %s at %s:%d.\n", Swig_name_decl(nodes[j].n), Swig_name_decl(nodes[i].n), Getfile(nodes[i].n), Getline(nodes[i].n)); } else { if (!Getattr(nodes[j].n, "overload:ignore")) Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[j].n), Getline(nodes[j].n), "Overloaded method %s ignored. Method %s at %s:%d used.\n", Swig_name_decl(nodes[j].n), Swig_name_decl(nodes[i].n), Getfile(nodes[i].n), Getline(nodes[i].n)); } nodes[j].error = 1; } } } } } } List *result = NewList(); { int i; for (i = 0; i < nnodes; i++) { if (nodes[i].error) Setattr(nodes[i].n, "overload:ignore", "1"); Append(result, nodes[i].n); // Printf(stdout,"[ %d ] %s\n", i, ParmList_errorstr(nodes[i].parms)); // Swig_print_node(nodes[i].n); } } return result; } // /* ----------------------------------------------------------------------------- // * print_typecheck() // * ----------------------------------------------------------------------------- */ static bool print_typecheck(String *f, int j, Parm *pj) { char tmp[256]; sprintf(tmp, Char(argv_template_string), j); String *tm = Getattr(pj, "tmap:typecheck"); if (tm) { Replaceid(tm, Getattr(pj, "lname"), "_v"); String *conv = Getattr(pj, "implicitconv"); if (conv) { Replaceall(tm, "$implicitconv", conv); } else { Replaceall(tm, "$implicitconv", "0"); } Replaceall(tm, "$input", tmp); Printv(f, tm, "\n", NIL); return true; } else return false; } /* ----------------------------------------------------------------------------- * ReplaceFormat() * ----------------------------------------------------------------------------- */ static String *ReplaceFormat(const_String_or_char_ptr fmt, int j) { String *lfmt = NewString(fmt); char buf[50]; sprintf(buf, "%d", j); Replaceall(lfmt, "$numargs", buf); int i; String *commaargs = NewString(""); for (i = 0; i < j; i++) { Printv(commaargs, ", ", NIL); Printf(commaargs, Char(argv_template_string), i); } Replaceall(lfmt, "$commaargs", commaargs); return lfmt; } /* ----------------------------------------------------------------------------- * Swig_overload_dispatch() * * Generate a dispatch function. argc is assumed to hold the argument count. * argv is the argument vector. * * Note that for C++ class member functions, Swig_overload_dispatch() assumes * that argc includes the "self" argument and that the first element of argv[] * is the "self" argument. So for a member function: * * Foo::bar(int x, int y, int z); * * the argc should be 4 (not 3!) and the first element of argv[] would be * the appropriate scripting language reference to "self". For regular * functions (and static class functions) the argc and argv only include * the regular function arguments. * ----------------------------------------------------------------------------- */ /* Cast dispatch mechanism. */ String *Swig_overload_dispatch_cast(Node *n, const_String_or_char_ptr fmt, int *maxargs) { int i, j; *maxargs = 1; String *f = NewString(""); String *sw = NewString(""); Printf(f, "{\n"); Printf(f, "unsigned long _index = 0;\n"); Printf(f, "SWIG_TypeRank _rank = 0; \n"); /* Get a list of methods ranked by precedence values and argument count */ List *dispatch = Swig_overload_rank(n, true); int nfunc = Len(dispatch); /* Loop over the functions */ bool emitcheck = 1; for (i = 0; i < nfunc; i++) { int fn = 0; Node *ni = Getitem(dispatch, i); Parm *pi = Getattr(ni, "wrap:parms"); int num_required = emit_num_required(pi); int num_arguments = emit_num_arguments(pi); if (num_arguments > *maxargs) *maxargs = num_arguments; int varargs = emit_isvarargs(pi); if (!varargs) { if (num_required == num_arguments) { Printf(f, "if (%s == %d) {\n", argc_template_string, num_required); } else { Printf(f, "if ((%s >= %d) && (%s <= %d)) {\n", argc_template_string, num_required, argc_template_string, num_arguments); } } else { Printf(f, "if (%s >= %d) {\n", argc_template_string, num_required); } Printf(f, "SWIG_TypeRank _ranki = 0;\n"); Printf(f, "SWIG_TypeRank _rankm = 0;\n"); if (num_arguments) Printf(f, "SWIG_TypeRank _pi = 1;\n"); /* create a list with the wrappers that collide with the current one based on argument number */ List *coll = NewList(); for (int k = i + 1; k < nfunc; k++) { Node *nk = Getitem(dispatch, k); Parm *pk = Getattr(nk, "wrap:parms"); int nrk = emit_num_required(pk); int nak = emit_num_arguments(pk); if ((nrk >= num_required && nrk <= num_arguments) || (nak >= num_required && nak <= num_arguments) || (nrk <= num_required && nak >= num_arguments)) Append(coll, nk); } // printf("overload: %s coll=%d\n", Char(Getattr(n, "sym:name")), Len(coll)); int num_braces = 0; bool test = (num_arguments > 0); if (test) { int need_v = 1; j = 0; Parm *pj = pi; while (pj) { if (checkAttribute(pj, "tmap:in:numinputs", "0")) { pj = Getattr(pj, "tmap:in:next"); continue; } String *tm = Getattr(pj, "tmap:typecheck"); if (tm) { /* normalise for comparison later */ Replaceid(tm, Getattr(pj, "lname"), "_v"); /* if all the wrappers have the same type check on this argument we can optimize it out */ for (int k = 0; k < Len(coll) && !emitcheck; k++) { Node *nk = Getitem(coll, k); Parm *pk = Getattr(nk, "wrap:parms"); int nak = emit_num_arguments(pk); if (nak <= j) continue; int l = 0; Parm *pl = pk; /* finds arg j on the collider wrapper */ while (pl && l <= j) { if (checkAttribute(pl, "tmap:in:numinputs", "0")) { pl = Getattr(pl, "tmap:in:next"); continue; } if (l == j) { /* we are at arg j, so we compare the tmaps now */ String *tml = Getattr(pl, "tmap:typecheck"); /* normalise it before comparing */ if (tml) Replaceid(tml, Getattr(pl, "lname"), "_v"); if (!tml || Cmp(tm, tml)) emitcheck = 1; //printf("tmap: %s[%d] (%d) => %s\n\n", // Char(Getattr(nk, "sym:name")), // l, emitcheck, tml?Char(tml):0); } Parm *pl1 = Getattr(pl, "tmap:in:next"); if (pl1) pl = pl1; else pl = nextSibling(pl); l++; } } if (emitcheck) { if (need_v) { Printf(f, "int _v = 0;\n"); need_v = 0; } if (j >= num_required) { Printf(f, "if (%s > %d) {\n", argc_template_string, j); num_braces++; } String *tmp = NewStringf(argv_template_string, j); String *conv = Getattr(pj, "implicitconv"); if (conv) { Replaceall(tm, "$implicitconv", conv); } else { Replaceall(tm, "$implicitconv", "0"); } Replaceall(tm, "$input", tmp); Printv(f, "{\n", tm, "}\n", NIL); fn = i + 1; Printf(f, "if (!_v) goto check_%d;\n", fn); Printf(f, "_ranki += _v*_pi;\n"); Printf(f, "_rankm += _pi;\n"); Printf(f, "_pi *= SWIG_MAXCASTRANK;\n"); } } if (!Getattr(pj, "tmap:in:SWIGTYPE") && Getattr(pj, "tmap:typecheck:SWIGTYPE")) { /* we emit a warning if the argument defines the 'in' typemap, but not the 'typecheck' one */ Swig_warning(WARN_TYPEMAP_TYPECHECK_UNDEF, Getfile(ni), Getline(ni), "Overloaded method %s with no explicit typecheck typemap for arg %d of type '%s'\n", Swig_name_decl(n), j, SwigType_str(Getattr(pj, "type"), 0)); } Parm *pj1 = Getattr(pj, "tmap:in:next"); if (pj1) pj = pj1; else pj = nextSibling(pj); j++; } } /* close braces */ for ( /* empty */ ; num_braces > 0; num_braces--) Printf(f, "}\n"); Printf(f, "if (!_index || (_ranki < _rank)) {\n"); Printf(f, " _rank = _ranki; _index = %d;\n", i + 1); Printf(f, " if (_rank == _rankm) goto dispatch;\n"); Printf(f, "}\n"); String *lfmt = ReplaceFormat(fmt, num_arguments); Printf(sw, "case %d:\n", i + 1); Printf(sw, Char(lfmt), Getattr(ni, "wrap:name")); Printf(sw, "\n"); Printf(f, "}\n"); /* braces closes "if" for this method */ if (fn) Printf(f, "check_%d:\n\n", fn); Delete(lfmt); Delete(coll); } Delete(dispatch); Printf(f, "dispatch:\n"); Printf(f, "switch(_index) {\n"); Printf(f, "%s", sw); Printf(f, "}\n"); Printf(f, "}\n"); return f; } /* Fast dispatch mechanism, provided by Salvador Fandi~no Garc'ia (#930586). */ String *Swig_overload_dispatch_fast(Node *n, const_String_or_char_ptr fmt, int *maxargs) { int i, j; *maxargs = 1; String *f = NewString(""); /* Get a list of methods ranked by precedence values and argument count */ List *dispatch = Swig_overload_rank(n, true); int nfunc = Len(dispatch); /* Loop over the functions */ for (i = 0; i < nfunc; i++) { int fn = 0; Node *ni = Getitem(dispatch, i); Parm *pi = Getattr(ni, "wrap:parms"); int num_required = emit_num_required(pi); int num_arguments = emit_num_arguments(pi); if (num_arguments > *maxargs) *maxargs = num_arguments; int varargs = emit_isvarargs(pi); if (!varargs) { if (num_required == num_arguments) { Printf(f, "if (%s == %d) {\n", argc_template_string, num_required); } else { Printf(f, "if ((%s >= %d) && (%s <= %d)) {\n", argc_template_string, num_required, argc_template_string, num_arguments); } } else { Printf(f, "if (%s >= %d) {\n", argc_template_string, num_required); } /* create a list with the wrappers that collide with the current one based on argument number */ List *coll = NewList(); for (int k = i + 1; k < nfunc; k++) { Node *nk = Getitem(dispatch, k); Parm *pk = Getattr(nk, "wrap:parms"); int nrk = emit_num_required(pk); int nak = emit_num_arguments(pk); if ((nrk >= num_required && nrk <= num_arguments) || (nak >= num_required && nak <= num_arguments) || (nrk <= num_required && nak >= num_arguments)) Append(coll, nk); } // printf("overload: %s coll=%d\n", Char(Getattr(n, "sym:name")), Len(coll)); int num_braces = 0; bool test = (Len(coll) > 0 && num_arguments); if (test) { int need_v = 1; j = 0; Parm *pj = pi; while (pj) { if (checkAttribute(pj, "tmap:in:numinputs", "0")) { pj = Getattr(pj, "tmap:in:next"); continue; } String *tm = Getattr(pj, "tmap:typecheck"); if (tm) { /* normalise for comparison later */ Replaceid(tm, Getattr(pj, "lname"), "_v"); /* if all the wrappers have the same type check on this argument we can optimize it out */ bool emitcheck = 0; for (int k = 0; k < Len(coll) && !emitcheck; k++) { Node *nk = Getitem(coll, k); Parm *pk = Getattr(nk, "wrap:parms"); int nak = emit_num_arguments(pk); if (nak <= j) continue; int l = 0; Parm *pl = pk; /* finds arg j on the collider wrapper */ while (pl && l <= j) { if (checkAttribute(pl, "tmap:in:numinputs", "0")) { pl = Getattr(pl, "tmap:in:next"); continue; } if (l == j) { /* we are at arg j, so we compare the tmaps now */ String *tml = Getattr(pl, "tmap:typecheck"); /* normalise it before comparing */ if (tml) Replaceid(tml, Getattr(pl, "lname"), "_v"); if (!tml || Cmp(tm, tml)) emitcheck = 1; //printf("tmap: %s[%d] (%d) => %s\n\n", // Char(Getattr(nk, "sym:name")), // l, emitcheck, tml?Char(tml):0); } Parm *pl1 = Getattr(pl, "tmap:in:next"); if (pl1) pl = pl1; else pl = nextSibling(pl); l++; } } if (emitcheck) { if (need_v) { Printf(f, "int _v = 0;\n"); need_v = 0; } if (j >= num_required) { Printf(f, "if (%s > %d) {\n", argc_template_string, j); num_braces++; } String *tmp = NewStringf(argv_template_string, j); String *conv = Getattr(pj, "implicitconv"); if (conv) { Replaceall(tm, "$implicitconv", conv); } else { Replaceall(tm, "$implicitconv", "0"); } Replaceall(tm, "$input", tmp); Printv(f, "{\n", tm, "}\n", NIL); fn = i + 1; Printf(f, "if (!_v) goto check_%d;\n", fn); } } if (!Getattr(pj, "tmap:in:SWIGTYPE") && Getattr(pj, "tmap:typecheck:SWIGTYPE")) { /* we emit a warning if the argument defines the 'in' typemap, but not the 'typecheck' one */ Swig_warning(WARN_TYPEMAP_TYPECHECK_UNDEF, Getfile(ni), Getline(ni), "Overloaded method %s with no explicit typecheck typemap for arg %d of type '%s'\n", Swig_name_decl(n), j, SwigType_str(Getattr(pj, "type"), 0)); } Parm *pj1 = Getattr(pj, "tmap:in:next"); if (pj1) pj = pj1; else pj = nextSibling(pj); j++; } } /* close braces */ for ( /* empty */ ; num_braces > 0; num_braces--) Printf(f, "}\n"); String *lfmt = ReplaceFormat(fmt, num_arguments); Printf(f, Char(lfmt), Getattr(ni, "wrap:name")); Printf(f, "}\n"); /* braces closes "if" for this method */ if (fn) Printf(f, "check_%d:\n\n", fn); Delete(lfmt); Delete(coll); } Delete(dispatch); return f; } String *Swig_overload_dispatch(Node *n, const_String_or_char_ptr fmt, int *maxargs) { if (fast_dispatch_mode || GetFlag(n, "feature:fastdispatch")) { return Swig_overload_dispatch_fast(n, fmt, maxargs); } int i, j; *maxargs = 1; String *f = NewString(""); /* Get a list of methods ranked by precedence values and argument count */ List *dispatch = Swig_overload_rank(n, true); int nfunc = Len(dispatch); /* Loop over the functions */ for (i = 0; i < nfunc; i++) { Node *ni = Getitem(dispatch, i); Parm *pi = Getattr(ni, "wrap:parms"); int num_required = emit_num_required(pi); int num_arguments = emit_num_arguments(pi); if (GetFlag(n, "wrap:this")) { num_required++; num_arguments++; } if (num_arguments > *maxargs) *maxargs = num_arguments; int varargs = emit_isvarargs(pi); if (!varargs) { if (num_required == num_arguments) { Printf(f, "if (%s == %d) {\n", argc_template_string, num_required); } else { Printf(f, "if ((%s >= %d) && (%s <= %d)) {\n", argc_template_string, num_required, argc_template_string, num_arguments); } } else { Printf(f, "if (%s >= %d) {\n", argc_template_string, num_required); } if (num_arguments) { Printf(f, "int _v;\n"); } int num_braces = 0; j = 0; Parm *pj = pi; while (pj) { if (checkAttribute(pj, "tmap:in:numinputs", "0")) { pj = Getattr(pj, "tmap:in:next"); continue; } if (j >= num_required) { String *lfmt = ReplaceFormat(fmt, num_arguments); Printf(f, "if (%s <= %d) {\n", argc_template_string, j); Printf(f, Char(lfmt), Getattr(ni, "wrap:name")); Printf(f, "}\n"); Delete(lfmt); } if (print_typecheck(f, (GetFlag(n, "wrap:this") ? j + 1 : j), pj)) { Printf(f, "if (_v) {\n"); num_braces++; } if (!Getattr(pj, "tmap:in:SWIGTYPE") && Getattr(pj, "tmap:typecheck:SWIGTYPE")) { /* we emit a warning if the argument defines the 'in' typemap, but not the 'typecheck' one */ Swig_warning(WARN_TYPEMAP_TYPECHECK_UNDEF, Getfile(ni), Getline(ni), "Overloaded method %s with no explicit typecheck typemap for arg %d of type '%s'\n", Swig_name_decl(n), j, SwigType_str(Getattr(pj, "type"), 0)); } Parm *pk = Getattr(pj, "tmap:in:next"); if (pk) pj = pk; else pj = nextSibling(pj); j++; } String *lfmt = ReplaceFormat(fmt, num_arguments); Printf(f, Char(lfmt), Getattr(ni, "wrap:name")); Delete(lfmt); /* close braces */ for ( /* empty */ ; num_braces > 0; num_braces--) Printf(f, "}\n"); Printf(f, "}\n"); /* braces closes "if" for this method */ } Delete(dispatch); return f; } /* ----------------------------------------------------------------------------- * Swig_overload_check() * ----------------------------------------------------------------------------- */ void Swig_overload_check(Node *n) { Swig_overload_rank(n, false); }