class Fox::FXVec3f
Public Class Methods
new(*args)
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SWIGINTERN VALUE _wrap_new_FXVec3f(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[3]; int ii; argc = nargs; if (argc > 3) SWIG_fail; for (ii = 0; (ii < argc); ++ii) { argv[ii] = args[ii]; } if (argc == 0) { return _wrap_new_FXVec3f__SWIG_0(nargs, args, self); } if (argc == 1) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_new_FXVec3f__SWIG_1(nargs, args, self); } } if (argc == 1) { int _v; { _v = (TYPE(argv[0]) == T_FIXNUM || TYPE(argv[0]) == T_BIGNUM) ? 1 : 0; } if (_v) { return _wrap_new_FXVec3f__SWIG_3(nargs, args, self); } } if ((argc >= 2) && (argc <= 3)) { int _v; { int res = SWIG_AsVal_float(argv[0], NULL); _v = SWIG_CheckState(res); } if (_v) { { int res = SWIG_AsVal_float(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { if (argc <= 2) { return _wrap_new_FXVec3f__SWIG_2(nargs, args, self); } { int res = SWIG_AsVal_float(argv[2], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_new_FXVec3f__SWIG_2(nargs, args, self); } } } } fail: Ruby_Format_OverloadedError( argc, 3, "FXVec3f.new", " FXVec3f.new()\n" " FXVec3f.new(FXVec3f const &v)\n" " FXVec3f.new(FXfloat xx, FXfloat yy, FXfloat zz)\n" " FXVec3f.new(FXColor color)\n"); return Qnil; }
normal(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_normal(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[4]; int ii; argc = nargs; if (argc > 4) SWIG_fail; for (ii = 0; (ii < argc); ++ii) { argv[ii] = args[ii]; } if (argc == 3) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { void *vptr = 0; int res = SWIG_ConvertPtr(argv[1], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { void *vptr = 0; int res = SWIG_ConvertPtr(argv[2], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_FXVec3f_normal__SWIG_0(nargs, args, self); } } } } if (argc == 4) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { void *vptr = 0; int res = SWIG_ConvertPtr(argv[1], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { void *vptr = 0; int res = SWIG_ConvertPtr(argv[2], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { void *vptr = 0; int res = SWIG_ConvertPtr(argv[3], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_FXVec3f_normal__SWIG_1(nargs, args, self); } } } } } fail: Ruby_Format_OverloadedError( argc, 4, "normal", " FXVec3f normal(FXVec3f const &a, FXVec3f const &b, FXVec3f const &c)\n" " FXVec3f normal(FXVec3f const &a, FXVec3f const &b, FXVec3f const &c, FXVec3f const &d)\n"); return Qnil; }
Public Instance Methods
*(*args)
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SWIGINTERN VALUE _wrap_FXVec3f___mul__(int nargs, VALUE *args, VALUE self) { int argc; VALUE argv[3]; int ii; argc = nargs + 1; argv[0] = self; if (argc > 3) SWIG_fail; for (ii = 1; (ii < argc); ++ii) { argv[ii] = args[ii-1]; } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { void *vptr = 0; int res = SWIG_ConvertPtr(argv[1], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { return _wrap_FXVec3f___mul____SWIG_1(nargs, args, self); } } } if (argc == 2) { int _v; void *vptr = 0; int res = SWIG_ConvertPtr(argv[0], &vptr, SWIGTYPE_p_FXVec3f, 0); _v = SWIG_CheckState(res); if (_v) { { int res = SWIG_AsVal_float(argv[1], NULL); _v = SWIG_CheckState(res); } if (_v) { return _wrap_FXVec3f___mul____SWIG_0(nargs, args, self); } } } fail: Ruby_Format_OverloadedError( argc, 3, "__mul__", " FXVec3f __mul__(FXfloat n)\n" " FXfloat __mul__(FXVec3f const &other)\n"); return Qnil; }
+(other) → FXVec3f
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+
Add operator.
SWIGINTERN VALUE _wrap_FXVec3f___add__(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f *arg2 = 0 ; FXVec3f tmp1 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } { if (TYPE(argv[0]) == T_ARRAY) { arg2 = new FXVec3f(NUM2DBL(rb_ary_entry(argv[0], 0)), NUM2DBL(rb_ary_entry(argv[0], 1)), NUM2DBL(rb_ary_entry(argv[0], 2))); } else { FXVec3f *p; SWIG_ConvertPtr(argv[0], (void **)&p, SWIGTYPE_p_FXVec3f, 1); arg2 = new FXVec3f(*p); } } result = FXVec3f_operator_Sa_((FXVec3f const *)arg1,(FXVec3f const &)*arg2); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } delete arg2; return vresult; fail: delete arg2; return Qnil; }
-(other) → FXVec3f
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-
Substraction operator.
SWIGINTERN VALUE _wrap_FXVec3f___sub__(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f *arg2 = 0 ; FXVec3f tmp1 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } { if (TYPE(argv[0]) == T_ARRAY) { arg2 = new FXVec3f(NUM2DBL(rb_ary_entry(argv[0], 0)), NUM2DBL(rb_ary_entry(argv[0], 1)), NUM2DBL(rb_ary_entry(argv[0], 2))); } else { FXVec3f *p; SWIG_ConvertPtr(argv[0], (void **)&p, SWIGTYPE_p_FXVec3f, 1); arg2 = new FXVec3f(*p); } } result = FXVec3f_operator_Ss_((FXVec3f const *)arg1,(FXVec3f const &)*arg2); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } delete arg2; return vresult; fail: delete arg2; return Qnil; }
-@ → FXVec3f
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-@
Substraction operator.
SWIGINTERN VALUE _wrap_FXVec3f___neg__(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f tmp1 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } result = FXVec3f_operator_Ss_((FXVec3f const *)arg1); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } return vresult; fail: return Qnil; }
/(*args)
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SWIGINTERN VALUE _wrap_FXVec3f___div__(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXfloat arg2 ; FXVec3f tmp1 ; float val2 ; int ecode2 = 0 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } ecode2 = SWIG_AsVal_float(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "FXfloat","operator /", 2, argv[0] )); } arg2 = static_cast< FXfloat >(val2); result = FXVec3f_operator_Sd_((FXVec3f const *)arg1,arg2); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } return vresult; fail: return Qnil; }
==(other) → bool
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Equality comparison operator.
SWIGINTERN VALUE _wrap_FXVec3f___eq__(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f *arg2 = 0 ; FXVec3f tmp1 ; bool result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } { if (TYPE(argv[0]) == T_ARRAY) { arg2 = new FXVec3f(NUM2DBL(rb_ary_entry(argv[0], 0)), NUM2DBL(rb_ary_entry(argv[0], 1)), NUM2DBL(rb_ary_entry(argv[0], 2))); } else { FXVec3f *p; SWIG_ConvertPtr(argv[0], (void **)&p, SWIGTYPE_p_FXVec3f, 1); arg2 = new FXVec3f(*p); } } result = (bool)FXVec3f_operator_Se__Se_((FXVec3f const *)arg1,(FXVec3f const &)*arg2); vresult = SWIG_From_bool(static_cast< bool >(result)); delete arg2; return vresult; fail: delete arg2; return Qnil; }
[](i) → FXfloat
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[]
Element accessor/slicing.
SWIGINTERN VALUE _wrap_FXVec3f___getitem__(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXint arg2 ; FXVec3f tmp1 ; FXfloat result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } arg2 = NUM2INT(argv[0]); result = (FXfloat)FXVec3f___getitem__((FXVec3f const *)arg1,arg2); vresult = SWIG_From_float(static_cast< float >(result)); return vresult; fail: return Qnil; }
[]=(i, f) → FXfloat
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[]=
Element setter/slicing.
SWIGINTERN VALUE _wrap_FXVec3f___setitem__(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXint arg2 ; FXfloat arg3 ; FXVec3f tmp1 ; float val3 ; int ecode3 = 0 ; FXfloat result; VALUE vresult = Qnil; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } arg2 = NUM2INT(argv[0]); ecode3 = SWIG_AsVal_float(argv[1], &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), Ruby_Format_TypeError( "", "FXfloat","__setitem__", 3, argv[1] )); } arg3 = static_cast< FXfloat >(val3); result = (FXfloat)FXVec3f___setitem__(arg1,arg2,arg3); vresult = SWIG_From_float(static_cast< float >(result)); return vresult; fail: return Qnil; }
^(other) → FXVec3f
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^
XOR operator.
SWIGINTERN VALUE _wrap_FXVec3f___xor__(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f *arg2 = 0 ; FXVec3f tmp1 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } { if (TYPE(argv[0]) == T_ARRAY) { arg2 = new FXVec3f(NUM2DBL(rb_ary_entry(argv[0], 0)), NUM2DBL(rb_ary_entry(argv[0], 1)), NUM2DBL(rb_ary_entry(argv[0], 2))); } else { FXVec3f *p; SWIG_ConvertPtr(argv[0], (void **)&p, SWIGTYPE_p_FXVec3f, 1); arg2 = new FXVec3f(*p); } } result = FXVec3f_operator_Sx_((FXVec3f const *)arg1,(FXVec3f const &)*arg2); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } delete arg2; return vresult; fail: delete arg2; return Qnil; }
clamp(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_clamp(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXfloat arg2 ; FXfloat arg3 ; FXVec3f tmp1 ; float val2 ; int ecode2 = 0 ; float val3 ; int ecode3 = 0 ; FXVec3f *result = 0 ; VALUE vresult = Qnil; if ((argc < 2) || (argc > 2)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 2)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } ecode2 = SWIG_AsVal_float(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "FXfloat","clamp", 2, argv[0] )); } arg2 = static_cast< FXfloat >(val2); ecode3 = SWIG_AsVal_float(argv[1], &val3); if (!SWIG_IsOK(ecode3)) { SWIG_exception_fail(SWIG_ArgError(ecode3), Ruby_Format_TypeError( "", "FXfloat","clamp", 3, argv[1] )); } arg3 = static_cast< FXfloat >(val3); result = (FXVec3f *) &(arg1)->clamp(arg2,arg3); vresult = SWIG_NewPointerObj(SWIG_as_voidptr(result), SWIGTYPE_p_FXVec3f, 0 | 0 ); return vresult; fail: return Qnil; }
cross(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_cross(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f *arg2 = 0 ; FXVec3f tmp1 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } { if (TYPE(argv[0]) == T_ARRAY) { arg2 = new FXVec3f(NUM2DBL(rb_ary_entry(argv[0], 0)), NUM2DBL(rb_ary_entry(argv[0], 1)), NUM2DBL(rb_ary_entry(argv[0], 2))); } else { FXVec3f *p; SWIG_ConvertPtr(argv[0], (void **)&p, SWIGTYPE_p_FXVec3f, 1); arg2 = new FXVec3f(*p); } } result = FXVec3f_cross((FXVec3f const *)arg1,(FXVec3f const &)*arg2); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } delete arg2; return vresult; fail: delete arg2; return Qnil; }
dot(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_dot(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f *arg2 = 0 ; FXVec3f tmp1 ; FXfloat result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } { if (TYPE(argv[0]) == T_ARRAY) { arg2 = new FXVec3f(NUM2DBL(rb_ary_entry(argv[0], 0)), NUM2DBL(rb_ary_entry(argv[0], 1)), NUM2DBL(rb_ary_entry(argv[0], 2))); } else { FXVec3f *p; SWIG_ConvertPtr(argv[0], (void **)&p, SWIGTYPE_p_FXVec3f, 1); arg2 = new FXVec3f(*p); } } result = (FXfloat)FXVec3f_dot((FXVec3f const *)arg1,(FXVec3f const &)*arg2); vresult = SWIG_From_float(static_cast< float >(result)); delete arg2; return vresult; fail: delete arg2; return Qnil; }
hi(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_hi(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f *arg2 = 0 ; FXVec3f tmp1 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } { if (TYPE(argv[0]) == T_ARRAY) { arg2 = new FXVec3f(NUM2DBL(rb_ary_entry(argv[0], 0)), NUM2DBL(rb_ary_entry(argv[0], 1)), NUM2DBL(rb_ary_entry(argv[0], 2))); } else { FXVec3f *p; SWIG_ConvertPtr(argv[0], (void **)&p, SWIGTYPE_p_FXVec3f, 1); arg2 = new FXVec3f(*p); } } result = FXVec3f_hi((FXVec3f const *)arg1,(FXVec3f const &)*arg2); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } delete arg2; return vresult; fail: delete arg2; return Qnil; }
inspect()
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# File lib/fox16/core.rb, line 271 def inspect; to_a.inspect; end
length(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_length(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f tmp1 ; FXfloat result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } result = (FXfloat)((FXVec3f const *)arg1)->length(); vresult = SWIG_From_float(static_cast< float >(result)); return vresult; fail: return Qnil; }
Also aliased as: len
length2(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_length2(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f tmp1 ; FXfloat result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } result = (FXfloat)((FXVec3f const *)arg1)->length2(); vresult = SWIG_From_float(static_cast< float >(result)); return vresult; fail: return Qnil; }
Also aliased as: len2
lo(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_lo(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f *arg2 = 0 ; FXVec3f tmp1 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } { if (TYPE(argv[0]) == T_ARRAY) { arg2 = new FXVec3f(NUM2DBL(rb_ary_entry(argv[0], 0)), NUM2DBL(rb_ary_entry(argv[0], 1)), NUM2DBL(rb_ary_entry(argv[0], 2))); } else { FXVec3f *p; SWIG_ConvertPtr(argv[0], (void **)&p, SWIGTYPE_p_FXVec3f, 1); arg2 = new FXVec3f(*p); } } result = FXVec3f_lo((FXVec3f const *)arg1,(FXVec3f const &)*arg2); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } delete arg2; return vresult; fail: delete arg2; return Qnil; }
normalize(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_normalize(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f tmp1 ; SwigValueWrapper< FXVec3f > result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } result = FXVec3f_normalize((FXVec3f const *)arg1); { FXVec3f* resultptr = new FXVec3f(result); vresult = FXRbGetRubyObj(resultptr, "FXVec3f *"); } return vresult; fail: return Qnil; }
to_a()
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Convert to array
# File lib/fox16/core.rb, line 266 def to_a; [x, y, z]; end
to_s()
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Convert to string
# File lib/fox16/core.rb, line 269 def to_s; to_a.to_s; end
x(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_x_get(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f tmp1 ; FXfloat result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } result = (FXfloat) ((arg1)->x); vresult = SWIG_From_float(static_cast< float >(result)); return vresult; fail: return Qnil; }
x=(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_x_set(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXfloat arg2 ; FXVec3f tmp1 ; float val2 ; int ecode2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } ecode2 = SWIG_AsVal_float(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "FXfloat","x", 2, argv[0] )); } arg2 = static_cast< FXfloat >(val2); if (arg1) (arg1)->x = arg2; return Qnil; fail: return Qnil; }
y(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_y_get(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f tmp1 ; FXfloat result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } result = (FXfloat) ((arg1)->y); vresult = SWIG_From_float(static_cast< float >(result)); return vresult; fail: return Qnil; }
y=(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_y_set(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXfloat arg2 ; FXVec3f tmp1 ; float val2 ; int ecode2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } ecode2 = SWIG_AsVal_float(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "FXfloat","y", 2, argv[0] )); } arg2 = static_cast< FXfloat >(val2); if (arg1) (arg1)->y = arg2; return Qnil; fail: return Qnil; }
z(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_z_get(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXVec3f tmp1 ; FXfloat result; VALUE vresult = Qnil; if ((argc < 0) || (argc > 0)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 0)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } result = (FXfloat) ((arg1)->z); vresult = SWIG_From_float(static_cast< float >(result)); return vresult; fail: return Qnil; }
z=(*args)
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SWIGINTERN VALUE _wrap_FXVec3f_z_set(int argc, VALUE *argv, VALUE self) { FXVec3f *arg1 = (FXVec3f *) 0 ; FXfloat arg2 ; FXVec3f tmp1 ; float val2 ; int ecode2 = 0 ; if ((argc < 1) || (argc > 1)) { rb_raise(rb_eArgError, "wrong # of arguments(%d for 1)",argc); SWIG_fail; } { if (TYPE(self) == T_ARRAY) { tmp1 = FXVec3f(NUM2DBL(rb_ary_entry(self, 0)), NUM2DBL(rb_ary_entry(self, 1)), NUM2DBL(rb_ary_entry(self, 2))); arg1 = &tmp1; } else { SWIG_ConvertPtr(self, (void **) &arg1, SWIGTYPE_p_FXVec3f, 1); } } ecode2 = SWIG_AsVal_float(argv[0], &val2); if (!SWIG_IsOK(ecode2)) { SWIG_exception_fail(SWIG_ArgError(ecode2), Ruby_Format_TypeError( "", "FXfloat","z", 2, argv[0] )); } arg2 = static_cast< FXfloat >(val2); if (arg1) (arg1)->z = arg2; return Qnil; fail: return Qnil; }