12:28 AM
@tina when @FredOverflow wrote "@Alf and @tina, get a room you two :-)" i think he meant that it would better for Very Long one-on-one discussions to be held elsewhere, in general.
2
ok, i created a new room for that but i think discussing your code is of interest to most here (please correct me if i'm wrong! <g>)
char SPI_SLI (char* p1, char* l2)
{
point* pl2 = (point*)(l2+InfoSize);
if(pl2[0]==pl2[(int)(*(InfoType*)l2)-1] && pl2[0]==(*(point*)p1))
return '0';
int i=0;
if( *(InfoType*)l2 < 2 ) return 'F';
for(i=1; i<(*(InfoType*)l2)-1; i++)
{
if (SPI_SPI(*(point*)p1, pl2[i]) == '0') return '0';
if(m_GB.BetweenI(pl2[i-1], pl2[i], *(point*)p1, SPATIAL_EPSILON)) return '0';
}
if(m_GB.BetweenI(pl2[i-1], pl2[i], *(point*)p1, SPATIAL_EPSILON)) return '0';
typedef double InfoType;
struct LineString
{
InfoType info;
point points[1];
};
char my_spi_sli( point& p1, LineString& lineString )
{
point* pl2 = lineString.points;
if( pl2[0] == pl2[lineString.info - 1] && pl2[0] == p1 )
return '0';
// More quivalent code here.
}
char SPI_SLI (char* p1, char* l2)
{
return my_spi_sli(
*reinterpret_cast< point* >( p1 ),
*reinterpret_cast< LineString* >( l2 )
);
}
btw., i think you was right about the pl2[lineString.info - 1]
just accessing the last point
in the array. problem is there's no way to know that (without the original definition of LineString
). but it's a good assumption
no. you can say this->Disjoint()
or you can say (*this).Disjoint()
. because this
is a pointer, due to historical reasons
effectively each non-static
member function has a "hidden" argument, the this
pointer
in some other languages, notably Python, that argument is explicitly present
in C++ it's sort of hidden that the this
pointer is passed as argument. that helps, because when it's automated by the compiler the programmer can't screw up
(sorry for language there! :-) )
i think you mean, "when is a static
member function practically useful?"
"make its difference prectivally" means?
if i understand what you're saying, that's precisely the point of a static
member function, that it doesn't have a hidden this
argument and so that it can be called without an object (it can also be called using ordinary member function call notation, but no this
pointer is actually passed then)
for example, std::numeric_limits<double>::max()
is a static
member function
it makes no sense to create a std::numeric_limits<double>
instance (at least when you know about typedef
to introduce a shorter more readable name)
i'm not sure what you were trying to write there
uhm, try it out with a compiler
Consider the type InfoAboutDouble
, defined as follows:
typedef std::numeric_limits<double> InfoAboutDouble
Now you can (but shouldn't, really) say
InfoAboutDouble info;
cout << "max double value is " << info.max() << endl;
There is no need for the instance that I called info
No pointer to is passed to max()
, because max()
is a static
member function.
It's static
because it doesn't need an object: it knows the max double
value
cout << "max double value is " << InfoAboutDouble::max() << endl;
well you can, but it's a design decision.
Concerning your analysis, the next statement to cleaned up is
int i=0;
if( *(InfoType*)l2 < 2 ) return 'F';
What do you think this does?
yes. it has determined that the line string has just 1 point (or is empty)
So I tentatively submit the hypothesis that what I called info
is just the lenght, the number of elements in the points
array, i.e.
struct LineString
{
InfoType length;
point points[1];
};
Then, cleaning up that if
statement, we now have:
char my_spi_sli( point& p1, LineString& lineString )
{
point* pl2 = lineString.points;
if( pl2[0] == pl2[lineString.length - 1] && pl2[0] == p1 )
return '0';
if( lineString.length < 2 ) return 'F';
// More quivalent code here.
}
Next statement to be cleaned up is that for
loop where you struggled with "condition" (if I recall correctly):
for(i=1; i<(*(InfoType*)l2)-1; i++)
{
if (SPI_SPI(*(point*)p1, pl2[i]) == '0') return '0';
if(m_GB.BetweenI(pl2[i-1], pl2[i], *(point*)p1, SPATIAL_EPSILON)) return '0';
}
Now, the continuation condition in the for
loop head is just almost the same as the thing we dealt with above.
So, it goes like this, dealing only with the for
loop's head:
char my_spi_sli( point& p1, LineString& lineString )
{
point* pl2 = lineString.points;
if( pl2[0] == pl2[lineString.length - 1] && pl2[0] == p1 )
return '0';
if( lineString.length < 2 ) return 'F';
for( int i=1; i < lineString.length - 1; i++ )
{
//if (SPI_SPI(*(point*)p1, pl2[i]) == '0') return '0';
//if(m_GB.BetweenI(pl2[i-1], pl2[i], *(point*)p1, SPATIAL_EPSILON)) return '0';
}
// More quivalent code here.
}
Explaining that: it checks the second, third and so on points in the line string's point
array, but -- i don't know why -- not the last point
Or, I do know why it doesn't check the last point, because the last point is identical to the first (that's already established). Sorry, foggy brain!
Or, very sorry, that's not actually established, it's just an assumption. Argh.
Do you know why it doesn't check the last point?