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Re: code to get the illumination at any point on the map
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KWo
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Default Re: code to get the illumination at any point on the map - 20-03-2012

Quote:
Originally Posted by Immortal_BLG View Post
About it I don't know, try to declare this function in bot_globals.cpp, but why you do not accept the declaration in a header file, how has offered Whistler?
Because I just don't know how to do it with a member of a class/namespace.

Quote:
Originally Posted by Immortal_BLG View Post
And into the account of classes and namespaces - you are free to make with a code all that you want, so you can simply remove this namespace....
If You can re-write that function so it doesn't need to be a member of namespace/class, it would be moreeasy for me to handle it.
Another thing I'm thinking of is - how much Your function consume the CPU power since it is a recursive function, which needs to be called for every 30 bots on the server (if there are 30 bots)?
  
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Re: code to get the illumination at any point on the map
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Immortal_BLG
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Default Re: code to get the illumination at any point on the map - 20-03-2012

Quote:
Originally Posted by KWo View Post
Because I just don't know how to do it with a member of a class/namespace.
There is no difficult. Just cut code from utils.cpp and paste it to bot_globals.cpp....

Quote:
Originally Posted by KWo View Post
If You can re-write that function so it doesn't need to be a member of namespace/class, it would be moreeasy for me to handle it.
Just remove:
Code:
namespace Light
{
// ...
}
And also "Light::" prefixes.
Quote:
Originally Posted by KWo View Post
Another thing I'm thinking of is - how much Your function consume the CPU power since it is a recursive function, which needs to be called for every 30 bots on the server (if there are 30 bots)?
Not cheked, but I think it is more faster then 30 fake illumination entities....
  
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Re: code to get the illumination at any point on the map
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KWo
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Default Re: code to get the illumination at any point on the map - 20-03-2012

Quote:
Originally Posted by Immortal_BLG View Post
There is no difficult. Just cut code from utils.cpp and paste it to bot_globals.cpp....
I believe You meant bot_globals.h (as Whistler wrote).
  
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Re: code to get the illumination at any point on the map
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Immortal_BLG
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Default Re: code to get the illumination at any point on the map - 20-03-2012

Why? You said yourself that the functions that are defined in bot_globals.h, must be declared in the same file - bot_globals.cpp. But instead of it you can declare function "RecursiveLightPoint" in a header file bot_globals.h and ofcourse remove declaration from utils.cpp
  
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Re: code to get the illumination at any point on the map
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KWo
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Default Re: code to get the illumination at any point on the map - 20-03-2012

I said - it is so for variables and functions, but I haven't had that case for a const (so I don't know if it needs or not to be done exactly the same way). My doubts are coming from lack of basic C++ knowledge.
Anyway I'll try to do something with it today evening.
Thanks again for all Your help.
Спасибо за совет!
  
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Re: code to get the illumination at any point on the map
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KWo
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Default Re: code to get the illumination at any point on the map - 20-03-2012

OK. Still no luck. One thing I'm sure now. I have commented out in bot_globals.cpp this line:
const char *g_sz_cv_WPT_Folder;
and I've got similar error messages about text (0xaaaa), so that really means I do need somehow the declaration of the function RecursiveLightPoint.
I have checked and there are also other const (not only variables) - first added in bot_globals.h with "extern" prefix, then - without this prefix - in bot_globals.cpp. The problem for me is that template. I don't know how to correctly declare the function RecursiveLightPoint to pevent i.e. such error messages:

bot_globals.cpp|235|error: expected `,' or `...' before '*' token|
bot_globals.cpp|235|error: ISO C++ forbids declaration of `nodeType' with no type|
bot_globals.cpp|235|error: `const bool Light::RecursiveLightPoint(int)' should have been declared inside `Light'|
||=== Build finished: 3 errors, 0 warnings ===|


Currently in my code I've removed the function from util.cpp and in bot_globals.h it looks so:
Code:
namespace Light
{
//extern const mplane_t *lightplane (NULL);
//extern Vector lightspot;
   extern Color g_pointColor;

//   extern const bool RecursiveLightPoint (const nodeType *const node, const Vector &start, const Vector &end);

//      Color g_pointColor;
//
   template <typename nodeType, typename surfaceType>extern const  bool RecursiveLightPoint (const nodeType *const node, const Vector  &start, const Vector &end)
   {
      float front, back, frac;
      int side;
      mplane_t *plane;
      Vector mid;
      surfaceType *surf;
      int s, t, ds, dt;
      int i;
      mtexinfo_t *tex;
      color24 *lightmap;
      unsigned int scale;
      unsigned char maps;

      // Reliability check.
      assert (node != NULL);

      if (node->contents < 0)
         return false;   // didn't hit anything

      // Determine which side of the node plane our points are on
      // FIXME: optimize for axial
      plane = node->plane;
      front = DotProduct (start, plane->normal) - plane->dist;
      back = DotProduct (end, plane->normal) - plane->dist;
      side = front < 0.0f;

      // If they're both on the same side of the plane, don't bother to split just check the appropriate child
      if ((back < 0.0f) == side)
         return RecursiveLightPoint <nodeType, surfaceType>  (reinterpret_cast <nodeType *> (node->children[side]), start,  end);

      // calculate mid point
      frac = front / (front - back);
      mid = start + (end - start) * frac;

      // go down front side
      if (RecursiveLightPoint <nodeType, surfaceType>  (reinterpret_cast <nodeType *> (node->children[side]), start,  mid))
         return true;   // hit something

      // Blow it off if it doesn't split the plane...
      if ((back < 0.0f) == side)
         return false;   // didn't hit anything

      // check for impact on this node
   //   lightspot = mid;
   //   lightplane = plane;

      surf = reinterpret_cast <surfaceType *> (sv_worldmodel->surfaces) + node->firstsurface;
      for (i = 0; i < node->numsurfaces; ++i, ++surf)
      {
         if (surf->flags & SURF_DRAWTILED)
            continue;   // no lightmaps

         tex = surf->texinfo;

         // See where in lightmap space our intersection point is
         s = static_cast <int> (DotProduct (mid, Vector (tex->vecs[0])) + tex->vecs[0][3]);
         t = static_cast <int> (DotProduct (mid, Vector (tex->vecs[1])) + tex->vecs[1][3]);

         // Not in the bounds of our lightmap? punt...
         if (s < surf->texturemins[0] || t < surf->texturemins[1])
            continue;

         // assuming a square lightmap (FIXME: which ain't always the case),
         // lets see if it lies in that rectangle. If not, punt...
         ds = s - surf->texturemins[0];
         dt = t - surf->texturemins[1];

         if (ds > surf->extents[0] || dt > surf->extents[1])
            continue;

         if (surf->samples == NULL)
            return true;

         ds >>= 4;
         dt >>= 4;

         g_pointColor.Reset ();   // Reset point color.

         const int smax ((surf->extents[0] >> 4) + 1);
         const int tmax ((surf->extents[1] >> 4) + 1);
         const int size (smax * tmax);

         lightmap = surf->samples + dt * smax + ds;

         // Compute the lightmap color at a particular point
         for (maps = 0u; maps < MAXLIGHTMAPS && surf->styles[maps] != 255u; ++maps)
         {
            scale = d_lightstylevalue[surf->styles[maps]];

            g_pointColor.red += lightmap->r * scale;
            g_pointColor.green += lightmap->g * scale;
            g_pointColor.blue += lightmap->b * scale;

            lightmap += size;   // skip to next lightmap
         }

         g_pointColor.red >>= 8u;
         g_pointColor.green >>= 8u;
         g_pointColor.blue >>= 8u;

         return true;
      }

      // go down back side
      return RecursiveLightPoint <nodeType, surfaceType>  (reinterpret_cast <nodeType *> (node->children[!side]), mid,  end);
   }

   inline const bool IsSoftwareDrawingMode (void)
   {
      static const bool isSoftwareDrawingMode (IS_DEDICATED_SERVER () || GetModuleHandle ("sw.dll") != NULL);

      return isSoftwareDrawingMode;
   }

   inline const bool ActualRecursiveLightPoint (const Vector &start, const Vector &end)
   {
      return IsSoftwareDrawingMode () ?
         RecursiveLightPoint <mnode_t, msurface_t> (sv_worldmodel->nodes, start, end) :
         RecursiveLightPoint <GL_mnode_t, GL_msurface_t>  (reinterpret_cast <GL_mnode_t *> (sv_worldmodel->nodes), start,  end);
   }

   inline const unsigned char R_LightPoint (const Vector &p)
   {
   // Reliability check.
      if (sv_worldmodel == NULL)
         return 0u;

      if (sv_worldmodel->lightdata == NULL)
         return 255u;

      Vector end (p);

      end.z -= 2048.0f;

      return ActualRecursiveLightPoint (p, end) == false ? 0u : static_cast <unsigned char> (g_pointColor.GetAvg ());
   }
}

#endif
The line 235 from bot_globals.cpp looks so:
Code:
235: const bool Light::RecursiveLightPoint (const nodeType *const node, const Vector &start, const Vector &end);
236: Color Light::g_pointColor;
I need still some help with this.
  
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Re: code to get the illumination at any point on the map
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  (#37)
Immortal_BLG
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Default Re: code to get the illumination at any point on the map - 21-03-2012

try:
in bot_globals.h:
Code:
#ifdef _LINUX
// Linux doesn't have this function so this emulates its functionality
inline void *GetModuleHandle(const char *name)
{
	void *handle;

	if( name == NULL )
	{
		// hmm, how can this be handled under linux....
		// is it even needed?
		return NULL;
	}

    if( (handle=dlopen(name, RTLD_NOW))==NULL)
    {
            // couldn't open this file
            return NULL;
    }

	// read "man dlopen" for details
	// in short dlopen() inc a ref count
	// so dec the ref count by performing the close
	dlclose(handle);
	return handle;
}
#endif
/*
=============================================================================

LIGHT SAMPLING

=============================================================================
*/
namespace Light
{
//extern const mplane_t *lightplane (NULL);
//extern Vector lightspot;
extern Color g_pointColor;

template <typename nodeType, typename surfaceType> static const bool RecursiveLightPoint (const nodeType *const node, const Vector &start, const Vector &end)
{
	float front, back, frac;
	int side;
	mplane_t *plane;
	Vector mid;
	surfaceType *surf;
	int s, t, ds, dt;
	int i;
	mtexinfo_t *tex;
	color24 *lightmap;
	unsigned int scale;
	unsigned char maps;

	// Reliability check.
	assert (node != NULL);

	if (node->contents < 0)
		return false;	// didn't hit anything

	// Determine which side of the node plane our points are on
	// FIXME: optimize for axial
	plane = node->plane;
	front = DotProduct (start, plane->normal) - plane->dist;
	back = DotProduct (end, plane->normal) - plane->dist;
	side = front < 0.0f;

	// If they're both on the same side of the plane, don't bother to split just check the appropriate child
	if ((back < 0.0f) == side)
		return RecursiveLightPoint <nodeType, surfaceType> (reinterpret_cast <nodeType *> (node->children[side]), start, end);

	// calculate mid point
	frac = front / (front - back);
	mid = start + (end - start) * frac;

	// go down front side	
	if (RecursiveLightPoint <nodeType, surfaceType> (reinterpret_cast <nodeType *> (node->children[side]), start, mid))
		return true;	// hit something

	// Blow it off if it doesn't split the plane...
	if ((back < 0.0f) == side)
		return false;	// didn't hit anything

	// check for impact on this node
//	lightspot = mid;
//	lightplane = plane;

	surf = reinterpret_cast <surfaceType *> (sv_worldmodel->surfaces) + node->firstsurface;
	for (i = 0; i < node->numsurfaces; ++i, ++surf)
	{
		if (surf->flags & SURF_DRAWTILED)
			continue;	// no lightmaps

		tex = surf->texinfo;

		// See where in lightmap space our intersection point is
		s = static_cast <int> (DotProduct (mid, Vector (tex->vecs[0])) + tex->vecs[0][3]);
		t = static_cast <int> (DotProduct (mid, Vector (tex->vecs[1])) + tex->vecs[1][3]);

		// Not in the bounds of our lightmap? punt...
		if (s < surf->texturemins[0] || t < surf->texturemins[1])
			continue;

		// assuming a square lightmap (FIXME: which ain't always the case),
		// lets see if it lies in that rectangle. If not, punt...
		ds = s - surf->texturemins[0];
		dt = t - surf->texturemins[1];

		if (ds > surf->extents[0] || dt > surf->extents[1])
			continue;

		if (surf->samples == NULL)
			return true;

		ds >>= 4;
		dt >>= 4;

		g_pointColor.Reset ();	// Reset point color.

		const int smax ((surf->extents[0] >> 4) + 1);
		const int tmax ((surf->extents[1] >> 4) + 1);
		const int size (smax * tmax);

		lightmap = surf->samples + dt * smax + ds;

		// Compute the lightmap color at a particular point
		for (maps = 0u; maps < MAXLIGHTMAPS && surf->styles[maps] != 255u; ++maps)
		{
			scale = d_lightstylevalue[surf->styles[maps]];

			g_pointColor.red += lightmap->r * scale;
			g_pointColor.green += lightmap->g * scale;
			g_pointColor.blue += lightmap->b * scale;

			lightmap += size;	// skip to next lightmap
		}

		g_pointColor.red >>= 8u;
		g_pointColor.green >>= 8u;
		g_pointColor.blue >>= 8u;

		return true;
	}

	// go down back side
	return RecursiveLightPoint <nodeType, surfaceType> (reinterpret_cast <nodeType *> (node->children[!side]), mid, end);
}

inline const bool IsSoftwareDrawingMode (void)
{
	#ifdef _LINUX
		return true;	// Always software rendering mode....
	#else	// ifdef _LINUX
		static const bool isSoftwareDrawingMode (IS_DEDICATED_SERVER () || GetModuleHandle ("sw.dll") != NULL);

		return isSoftwareDrawingMode;
	#endif	// ifndef _LINUX
}
inline const bool ActualRecursiveLightPoint (const Vector &start, const Vector &end)
{
	return IsSoftwareDrawingMode () ?
		RecursiveLightPoint <mnode_t, msurface_t> (sv_worldmodel->nodes, start, end) :
		RecursiveLightPoint <GL_mnode_t, GL_msurface_t> (reinterpret_cast <GL_mnode_t *> (sv_worldmodel->nodes), start, end);
}

inline const unsigned char R_LightPoint (const Vector &p)
{
	// Reliability check.
	if (sv_worldmodel == NULL)
		return 0u;

	if (sv_worldmodel->lightdata == NULL)
		return 255u;

	Vector end (p);

	end.z -= 2048.0f;

	return ActualRecursiveLightPoint (p, end) == false ? 0u : static_cast <unsigned char> (g_pointColor.GetAvg ());
}
}
or even use the method of an "axe", as we in Russia love.... (without templates)
Code:
static const bool RecursiveLightPoint (const mnode_t *const node, const Vector &start, const Vector &end)
{
	float front, back, frac;
	int side;
	mplane_t *plane;
	Vector mid;
	msurface_t *surf;
	int s, t, ds, dt;
	int i;
	mtexinfo_t *tex;
	color24 *lightmap;
	unsigned int scale;
	unsigned char maps;

	// Reliability check.
	assert (node != NULL);

	if (node->contents < 0)
		return false;	// didn't hit anything

	// Determine which side of the node plane our points are on
	// FIXME: optimize for axial
	plane = node->plane;
	front = DotProduct (start, plane->normal) - plane->dist;
	back = DotProduct (end, plane->normal) - plane->dist;
	side = front < 0.0f;

	// If they're both on the same side of the plane, don't bother to split just check the appropriate child
	if ((back < 0.0f) == side)
		return RecursiveLightPoint (node->children[side], start, end);

	// calculate mid point
	frac = front / (front - back);
	mid = start + (end - start) * frac;

	// go down front side	
	if (RecursiveLightPoint (node->children[side], start, mid))
		return true;	// hit something

	// Blow it off if it doesn't split the plane...
	if ((back < 0.0f) == side)
		return false;	// didn't hit anything

	// check for impact on this node
//	lightspot = mid;
//	lightplane = plane;

	surf = sv_worldmodel->surfaces + node->firstsurface;
	for (i = 0; i < node->numsurfaces; ++i, ++surf)
	{
		if (surf->flags & SURF_DRAWTILED)
			continue;	// no lightmaps

		tex = surf->texinfo;

		// See where in lightmap space our intersection point is
		s = static_cast <int> (DotProduct (mid, Vector (tex->vecs[0])) + tex->vecs[0][3]);
		t = static_cast <int> (DotProduct (mid, Vector (tex->vecs[1])) + tex->vecs[1][3]);

		// Not in the bounds of our lightmap? punt...
		if (s < surf->texturemins[0] || t < surf->texturemins[1])
			continue;

		// assuming a square lightmap (FIXME: which ain't always the case),
		// lets see if it lies in that rectangle. If not, punt...
		ds = s - surf->texturemins[0];
		dt = t - surf->texturemins[1];

		if (ds > surf->extents[0] || dt > surf->extents[1])
			continue;

		if (surf->samples == NULL)
			return true;

		ds >>= 4;
		dt >>= 4;

		g_pointColor.Reset ();	// Reset point color.

		const int smax ((surf->extents[0] >> 4) + 1);
		const int tmax ((surf->extents[1] >> 4) + 1);
		const int size (smax * tmax);

		lightmap = surf->samples + dt * smax + ds;

		// Compute the lightmap color at a particular point
		for (maps = 0u; maps < MAXLIGHTMAPS && surf->styles[maps] != 255u; ++maps)
		{
			scale = d_lightstylevalue[surf->styles[maps]];

			g_pointColor.red += lightmap->r * scale;
			g_pointColor.green += lightmap->g * scale;
			g_pointColor.blue += lightmap->b * scale;

			lightmap += size;	// skip to next lightmap
		}

		g_pointColor.red >>= 8u;
		g_pointColor.green >>= 8u;
		g_pointColor.blue >>= 8u;

		return true;
	}

	// go down back side
	return RecursiveLightPoint (node->children[!side], mid, end);
}
static const bool GL_RecursiveLightPoint (const GL_mnode_t *const node, const Vector &start, const Vector &end)
{
	float front, back, frac;
	int side;
	mplane_t *plane;
	Vector mid;
	GL_msurface_t *surf;
	int s, t, ds, dt;
	int i;
	mtexinfo_t *tex;
	color24 *lightmap;
	unsigned int scale;
	unsigned char maps;

	// Reliability check.
	assert (node != NULL);

	if (node->contents < 0)
		return false;	// didn't hit anything

	// Determine which side of the node plane our points are on
	// FIXME: optimize for axial
	plane = node->plane;
	front = DotProduct (start, plane->normal) - plane->dist;
	back = DotProduct (end, plane->normal) - plane->dist;
	side = front < 0.0f;

	// If they're both on the same side of the plane, don't bother to split just check the appropriate child
	if ((back < 0.0f) == side)
		return GL_RecursiveLightPoint (reinterpret_cast <GL_mnode_t *> (node->children[side]), start, end);

	// calculate mid point
	frac = front / (front - back);
	mid = start + (end - start) * frac;

	// go down front side	
	if (GL_RecursiveLightPoint (reinterpret_cast <GL_mnode_t *> (node->children[side]), start, mid))
		return true;	// hit something

	// Blow it off if it doesn't split the plane...
	if ((back < 0.0f) == side)
		return false;	// didn't hit anything

	// check for impact on this node
//	lightspot = mid;
//	lightplane = plane;

	surf = reinterpret_cast <GL_msurface_t *> (sv_worldmodel->surfaces) + node->firstsurface;
	for (i = 0; i < node->numsurfaces; ++i, ++surf)
	{
		if (surf->flags & SURF_DRAWTILED)
			continue;	// no lightmaps

		tex = surf->texinfo;

		// See where in lightmap space our intersection point is
		s = static_cast <int> (DotProduct (mid, Vector (tex->vecs[0])) + tex->vecs[0][3]);
		t = static_cast <int> (DotProduct (mid, Vector (tex->vecs[1])) + tex->vecs[1][3]);

		// Not in the bounds of our lightmap? punt...
		if (s < surf->texturemins[0] || t < surf->texturemins[1])
			continue;

		// assuming a square lightmap (FIXME: which ain't always the case),
		// lets see if it lies in that rectangle. If not, punt...
		ds = s - surf->texturemins[0];
		dt = t - surf->texturemins[1];

		if (ds > surf->extents[0] || dt > surf->extents[1])
			continue;

		if (surf->samples == NULL)
			return true;

		ds >>= 4;
		dt >>= 4;

		g_pointColor.Reset ();	// Reset point color.

		const int smax ((surf->extents[0] >> 4) + 1);
		const int tmax ((surf->extents[1] >> 4) + 1);
		const int size (smax * tmax);

		lightmap = surf->samples + dt * smax + ds;

		// Compute the lightmap color at a particular point
		for (maps = 0u; maps < MAXLIGHTMAPS && surf->styles[maps] != 255u; ++maps)
		{
			scale = d_lightstylevalue[surf->styles[maps]];

			g_pointColor.red += lightmap->r * scale;
			g_pointColor.green += lightmap->g * scale;
			g_pointColor.blue += lightmap->b * scale;

			lightmap += size;	// skip to next lightmap
		}

		g_pointColor.red >>= 8u;
		g_pointColor.green >>= 8u;
		g_pointColor.blue >>= 8u;

		return true;
	}

	// go down back side
	return GL_RecursiveLightPoint (reinterpret_cast <GL_mnode_t *> (node->children[!side]), mid, end);
}
inline const bool ActualRecursiveLightPoint (const Vector &start, const Vector &end)
{
	return IsSoftwareDrawingMode () ?
		RecursiveLightPoint (sv_worldmodel->nodes, start, end) :
		GL_RecursiveLightPoint (reinterpret_cast <GL_mnode_t *> (sv_worldmodel->nodes), start, end);
}
But don't forget to remove all definitions of function RecursiveLightPoint from .cpp files FOR BOTH CASES....
Finally in bot_globals.cpp everything should be as so:
Code:
/*
=============================================================================

LIGHT SAMPLING

=============================================================================
*/
namespace Light
{
//const mplane_t *lightplane (NULL);
//Vector lightspot;
Color g_pointColor;
}
  
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Re: code to get the illumination at any point on the map
Old
  (#38)
KWo
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Default Re: code to get the illumination at any point on the map - 21-03-2012

Finally I've got it compiling even with such code:
bot_globals.h
Code:
#include <com_model.h>
#include <pm_defs.h>

// KWo - 13.03.2012 - Thanks to Immortal_BLG for light code

#define   SURF_PLANEBACK      2
#define   SURF_DRAWSKY        4
#define   SURF_DRAWSPRITE     8
#define   SURF_DRAWTURB       0x10
#define   SURF_DRAWTILED      0x20
#define   SURF_DRAWBACKGROUND 0x40

#ifdef __linux__
// Linux doesn't have this function so this emulates its functionality
inline void *GetModuleHandle(const char *name)
{
   void *handle;

   if( name == NULL )
   {
      // hmm, how can this be handled under linux....
      // is it even needed?
      return NULL;
   }

    if( (handle=dlopen(name, RTLD_NOW))==NULL)
    {
            // couldn't open this file
            return NULL;
    }

   // read "man dlopen" for details
   // in short dlopen() inc a ref count
   // so dec the ref count by performing the close
   dlclose(handle);
   return handle;
}
#endif

struct GL_msurface_t
{
#define SURF_UNDERWATER      0x80   // ONLY FOR OpenGL!!!
//#define SURF_DONTWARP      0x100   // ONLY FOR OpenGL!!! (EXISTS?!?!?!?!?!??!?!?!?!?!?!??!)

/*off=0(0)*/   int         visframe;      // should be drawn when node is crossed
/*off=4(1)*/   mplane_t   *plane;         // pointer to shared plane
/*off=8(2)*/   int         flags;         // see SURF_* #defines

/*off=12(3)*/   int         firstedge;   // look up in model->surfedges[], negative numbers are backwards edges
/*off=16(4)*/   int         numedges;

/*off=20(5)*/   short      texturemins[2]; // smallest s/t position on the surface.
/*off=24(6)*/   short      extents[2];      // ?? s/t texture size, 1..256 for all non-sky surfaces

/*off=28(7)*/   int         light_s, light_t;   // gl lightmap coordinates
/*off=36(9)*/   struct glpoly_t   *polys;            // multiple if warped
/*off=40(10)*/   msurface_t   *texturechain;
/*off=44(11)*/   mtexinfo_t   *texinfo;

// lighting info
/*off=48(12)*/   int         dlightframe;   // last frame the surface was checked by an animated light
/*off=52(13)*/   int         dlightbits;      // dynamically generated. Indicates if the surface illumination
                        // is modified by an animated light.
/*off=56(14)*/   int         lightmaptexturenum;
/*off=60(15)*/   unsigned char      styles[MAXLIGHTMAPS]; // index into d_lightstylevalue[] for animated lights
                             // no one surface can be effected by more than 4
                             // animated lights.

/*off=64(16)*/   int         cached_light[MAXLIGHTMAPS];   // values currently used in lightmap
/*off=80(20)*/   qboolean   cached_dlight;            // true if dynamic light in cache

/*off=84(21)*/   color24      *samples;   // [numstyles*surfsize]

/*off=88(22)*/   decal_t      *pdecals;
};   // sizeof (GL_msurface_t) == 92 (23)
struct GL_mnode_t
{
   enum ChildrenType_t
   {
      ChildrenType_Front,
      ChildrenType_Back,

      ChildrenType_Total
   };

// common with leaf
/*! Off=0(0)*/   int         contents;      // 0, to differentiate from leafs
/*! Off=4(1)*/   int         visframe;      // node needs to be traversed if current

/*! Off=8(2)*/   Vector      mins, maxs;      // for bounding box culling

/*! Off=32(8)*/   mnode_t   *parent;

// node specific
/*! Off=36(9)*/   mplane_t   *plane;
/*! Off=40(10)*/   mnode_t   *children[ChildrenType_Total];

/*! Off=48(12)*/   unsigned short      firstsurface;
/*! Off=50(12.5)*/   unsigned short      numsurfaces;
};   // sizeof (GL_mnode_t) == 52 (13)

#define   MAX_LIGHTSTYLES   64
#define   MAX_LIGHTSTYLEVALUE   256

struct lightstyle_t
{
   int  length;
   char map[MAX_LIGHTSTYLES];
};

extern lightstyle_t cl_lightstyle[MAX_LIGHTSTYLES];
extern int          d_lightstylevalue[MAX_LIGHTSTYLEVALUE];   // 8.8 fraction of base light value
extern model_t     *sv_worldmodel;   // Analog of sv.worldmodel.

struct Color
{
   int red;
   int green;
   int blue;

   inline       void         Reset  (void)       { red = green = blue = 0; }
   inline const unsigned int GetAvg (void) const { return (red + green + blue) / (sizeof (Color) / sizeof (int)); }
};

/*
=============================================================================

LIGHT SAMPLING

=============================================================================
*/


namespace Light
{
//extern const mplane_t *lightplane (NULL);
//extern Vector lightspot;
   extern Color g_pointColor;

//   extern const bool RecursiveLightPoint (const nodeType *const node, const Vector &start, const Vector &end);

//      Color g_pointColor;
//
   template <typename nodeType, typename surfaceType> extern const  bool RecursiveLightPoint (const nodeType *const node, const Vector  &start, const Vector &end)
   {
      float front, back, frac;
      int side;
      mplane_t *plane;
      Vector mid;
      surfaceType *surf;
      int s, t, ds, dt;
      int i;
      mtexinfo_t *tex;
      color24 *lightmap;
      unsigned int scale;
      unsigned char maps;

      // Reliability check.
      assert (node != NULL);

      if (node->contents < 0)
         return false;   // didn't hit anything

      // Determine which side of the node plane our points are on
      // FIXME: optimize for axial
      plane = node->plane;
      front = DotProduct (start, plane->normal) - plane->dist;
      back = DotProduct (end, plane->normal) - plane->dist;
      side = front < 0.0f;

      // If they're both on the same side of the plane, don't bother to split just check the appropriate child
      if ((back < 0.0f) == side)
         return RecursiveLightPoint <nodeType, surfaceType>  (reinterpret_cast <nodeType *> (node->children[side]), start,  end);

      // calculate mid point
      frac = front / (front - back);
      mid = start + (end - start) * frac;

      // go down front side
      if (RecursiveLightPoint <nodeType, surfaceType>  (reinterpret_cast <nodeType *> (node->children[side]), start,  mid))
         return true;   // hit something

      // Blow it off if it doesn't split the plane...
      if ((back < 0.0f) == side)
         return false;   // didn't hit anything

      // check for impact on this node
   //   lightspot = mid;
   //   lightplane = plane;

      surf = reinterpret_cast <surfaceType *> (sv_worldmodel->surfaces) + node->firstsurface;
      for (i = 0; i < node->numsurfaces; ++i, ++surf)
      {
         if (surf->flags & SURF_DRAWTILED)
            continue;   // no lightmaps

         tex = surf->texinfo;

         // See where in lightmap space our intersection point is
         s = static_cast <int> (DotProduct (mid, Vector (tex->vecs[0])) + tex->vecs[0][3]);
         t = static_cast <int> (DotProduct (mid, Vector (tex->vecs[1])) + tex->vecs[1][3]);

         // Not in the bounds of our lightmap? punt...
         if (s < surf->texturemins[0] || t < surf->texturemins[1])
            continue;

         // assuming a square lightmap (FIXME: which ain't always the case),
         // lets see if it lies in that rectangle. If not, punt...
         ds = s - surf->texturemins[0];
         dt = t - surf->texturemins[1];

         if (ds > surf->extents[0] || dt > surf->extents[1])
            continue;

         if (surf->samples == NULL)
            return true;

         ds >>= 4;
         dt >>= 4;

         g_pointColor.Reset ();   // Reset point color.

         const int smax ((surf->extents[0] >> 4) + 1);
         const int tmax ((surf->extents[1] >> 4) + 1);
         const int size (smax * tmax);

         lightmap = surf->samples + dt * smax + ds;

         // Compute the lightmap color at a particular point
         for (maps = 0u; maps < MAXLIGHTMAPS && surf->styles[maps] != 255u; ++maps)
         {
            scale = d_lightstylevalue[surf->styles[maps]];

            g_pointColor.red += lightmap->r * scale;
            g_pointColor.green += lightmap->g * scale;
            g_pointColor.blue += lightmap->b * scale;

            lightmap += size;   // skip to next lightmap
         }

         g_pointColor.red >>= 8u;
         g_pointColor.green >>= 8u;
         g_pointColor.blue >>= 8u;

         return true;
      }

      // go down back side
      return RecursiveLightPoint <nodeType, surfaceType>  (reinterpret_cast <nodeType *> (node->children[!side]), mid,  end);
   }

   inline const bool IsSoftwareDrawingMode (void)
   {
      static const bool isSoftwareDrawingMode (IS_DEDICATED_SERVER () || GetModuleHandle ("sw.dll") != NULL);

      return isSoftwareDrawingMode;
   }

   inline const bool ActualRecursiveLightPoint (const Vector &start, const Vector &end)
   {
      return IsSoftwareDrawingMode () ?
         RecursiveLightPoint <mnode_t, msurface_t> (sv_worldmodel->nodes, start, end) :
         RecursiveLightPoint <GL_mnode_t, GL_msurface_t>  (reinterpret_cast <GL_mnode_t *> (sv_worldmodel->nodes), start,  end);
   }

   inline const unsigned char R_LightPoint (const Vector &p)
   {
   // Reliability check.
      if (sv_worldmodel == NULL)
         return 0u;

      if (sv_worldmodel->lightdata == NULL)
         return 255u;

      Vector end (p);

      end.z -= 2048.0f;

      return ActualRecursiveLightPoint (p, end) == false ? 0u : static_cast <unsigned char> (g_pointColor.GetAvg ());
   }
}
bot_globals.cpp
Code:
lightstyle_t cl_lightstyle[MAX_LIGHTSTYLES];
int          d_lightstylevalue[MAX_LIGHTSTYLEVALUE];   // 8.8 fraction of base light value
model_t     *sv_worldmodel (NULL);   // Analog of sv.worldmodel.

namespace Light
{
   Color g_pointColor;
   template <typename nodeType, typename surfaceType> const bool RecursiveLightPoint (const nodeType *const node, const Vector &start, const Vector &end);
}
The stupid message about wrong reference was coming from old compiled bot.cpp.obj, which wasn't changed by me long time, but it had already linked some references to the function defined first way (when it was compiling correctly for MS C++ Visual Express 200. After that I was using all the time the "Rebuild" function (as usually), which should compile newer files only. If headers file were changed, all cpp should be compiled again, but it looks it didn't work correctly for MinGW. The "Clean" command helped. After that I did "Build" and it compiled the dll correctly (it is loading and light code is working for windows). I have to check how about cygwin and linux.
Thanks again for the patience for me.
  
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Re: code to get the illumination at any point on the map
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  (#39)
Immortal_BLG
Member
 
Status: Offline
Posts: 171
Join Date: Nov 2007
Location: Russian Federation
Default Re: code to get the illumination at any point on the map - 22-03-2012

Good news

just a question: have you tried to compile the function "RecursiveLightPoint" with the keyword "static" instead of "extern"? I'm just wondering whether the code from my last post is working or not.

BTW at the expense of function "GetModuleHandle". Once again I was wrong in my last post, because if there is no listen servers for LINUX, then the function "GetModuleHandle" for LINUX does not need, in addition, ".DLL" extension on LINUX, it does not exist, there ".SO".

So you should use: (without GetModuleHandle for LINUX)
Code:
inline const bool IsSoftwareDrawingMode (void)
{
	#ifdef _LINUX
		return true;	// Always software rendering mode....
	#else	// ifdef _LINUX
		static const bool isSoftwareDrawingMode (IS_DEDICATED_SERVER () || GetModuleHandle ("sw.dll") != NULL);

		return isSoftwareDrawingMode;
	#endif	// ifndef _LINUX
}

Last edited by Immortal_BLG; 22-03-2012 at 01:14..
  
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Re: code to get the illumination at any point on the map
Old
  (#40)
KWo
Developer of PODBot mm
 
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Status: Offline
Posts: 3,425
Join Date: Apr 2004
Default Re: code to get the illumination at any point on the map - 22-03-2012

Quote:
Originally Posted by Immortal_BLG View Post
just a question: have you tried to compile the function "RecursiveLightPoint" with the keyword "static" instead of "extern"? I'm just wondering whether the code from my last post is working or not.
I was trying it when the code didn't want to compile. Later on - when I got it finally compiling - I was compiling it with that Your beloved method without templates. After that I went back to template and after compilation and successful loading dll (and working on windows) I didn't try again with static instead extern. I have focused to run my linux vmware test server, but yesterday that machine got crashed and I had to restore it from some my backup (11.2011). So finally I haven't had time yet to test if the cygwin compiled .so is loading and working or not. I'll try this today evening.
  
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