Exemple #1
0
// -------------------------------------------------------------------------------------
//	Render a texture map with lighting using perspective interpolation in inner and outer loops.
// -------------------------------------------------------------------------------------
void ntexture_map_lighted_linear(grs_bitmap *srcb, g3ds_tmap *t)
{
	int	vlt,vrt,vlb,vrb;	// vertex left top, vertex right top, vertex left bottom, vertex right bottom
	int	topy,boty,y, dy;
	fix	dx_dy_left,dx_dy_right;
	fix	du_dy_left,du_dy_right;
	fix	dv_dy_left,dv_dy_right;
	fix	dl_dy_left,dl_dy_right;
	int	max_y_vertex;
	fix	xleft,xright,uleft,vleft,uright,vright,lleft,lright;
	int	next_break_left, next_break_right;
	fix	recip_dyl, recip_dyr;

	g3ds_vertex *v3d;

        //remove stupid warnings in compile
        dl_dy_left = F1_0;
        dl_dy_right = F1_0;
        lleft = F1_0;
        lright = F1_0;

	v3d = t->verts;

	// Determine top and bottom y coords.
	compute_y_bounds(t,&vlt,&vlb,&vrt,&vrb,&max_y_vertex);

	// Set top and bottom (of entire texture map) y coordinates.
	topy = f2i(v3d[vlt].y2d);
	boty = f2i(v3d[max_y_vertex].y2d);

	if (topy > Window_clip_bot)
		return;
	if (boty > Window_clip_bot)
		boty = Window_clip_bot;

	dy = f2i(t->verts[vlb].y2d) - f2i(t->verts[vlt].y2d);
	if (dy < FIX_RECIP_TABLE_SIZE)
		recip_dyl = fix_recip[dy];
	else
		recip_dyl = F1_0/dy;

	dy = f2i(t->verts[vrb].y2d) - f2i(t->verts[vrt].y2d);
	if (dy < FIX_RECIP_TABLE_SIZE)
		recip_dyr = fix_recip[dy];
	else
		recip_dyr = F1_0/dy;

	// Set amount to change x coordinate for each advance to next scanline.
	dx_dy_left = compute_dx_dy(t,vlt,vlb, recip_dyl);
	dx_dy_right = compute_dx_dy(t,vrt,vrb, recip_dyr);

	du_dy_left = compute_du_dy_lin(t,vlt,vlb, recip_dyl);
	du_dy_right = compute_du_dy_lin(t,vrt,vrb, recip_dyr);

	dv_dy_left = compute_dv_dy_lin(t,vlt,vlb, recip_dyl);
	dv_dy_right = compute_dv_dy_lin(t,vrt,vrb, recip_dyr);

	if (Lighting_enabled) {
		dl_dy_left = compute_dl_dy_lin(t,vlt,vlb, recip_dyl);
		dl_dy_right = compute_dl_dy_lin(t,vrt,vrb, recip_dyr);

		lleft = v3d[vlt].l;
		lright = v3d[vrt].l;
	}

 	// Set initial values for x, u, v
	xleft = v3d[vlt].x2d;
	xright = v3d[vrt].x2d;

	uleft = v3d[vlt].u;
	uright = v3d[vrt].u;
	vleft = v3d[vlt].v;
	vright = v3d[vrt].v;

	// scan all rows in texture map from top through first break.
	next_break_left = f2i(v3d[vlb].y2d);
	next_break_right = f2i(v3d[vrb].y2d);

	for (y = topy; y < boty; y++) {

		// See if we have reached the end of the current left edge, and if so, set
		// new values for dx_dy and x,u,v
		if (y == next_break_left) {
			fix	recip_dy;

			// Handle problem of double points.  Search until y coord is different.  Cannot get
			// hung in an infinite loop because we know there is a vertex with a lower y coordinate
			// because in the for loop, we don't scan all spanlines.
			while (y == f2i(v3d[vlb].y2d)) {
				vlt = vlb;
				vlb = prevmod(vlb,t->nv);
			}
			next_break_left = f2i(v3d[vlb].y2d);

			dy = f2i(t->verts[vlb].y2d) - f2i(t->verts[vlt].y2d);
			if (dy < FIX_RECIP_TABLE_SIZE)
				recip_dy = fix_recip[dy];
			else
				recip_dy = F1_0/dy;

			dx_dy_left = compute_dx_dy(t,vlt,vlb, recip_dy);

			xleft = v3d[vlt].x2d;
			uleft = v3d[vlt].u;
			vleft = v3d[vlt].v;
			lleft = v3d[vlt].l;

			du_dy_left = compute_du_dy_lin(t,vlt,vlb, recip_dy);
			dv_dy_left = compute_dv_dy_lin(t,vlt,vlb, recip_dy);

			if (Lighting_enabled) {
				dl_dy_left = compute_dl_dy_lin(t,vlt,vlb, recip_dy);
				lleft = v3d[vlt].l;
			}
		}

		// See if we have reached the end of the current left edge, and if so, set
		// new values for dx_dy and x.  Not necessary to set new values for u,v.
		if (y == next_break_right) {
			fix	recip_dy;

			while (y == f2i(v3d[vrb].y2d)) {
				vrt = vrb;
				vrb = succmod(vrb,t->nv);
			}

			dy = f2i(t->verts[vrb].y2d) - f2i(t->verts[vrt].y2d);
			if (dy < FIX_RECIP_TABLE_SIZE)
				recip_dy = fix_recip[dy];
			else
				recip_dy = F1_0/dy;

			next_break_right = f2i(v3d[vrb].y2d);
			dx_dy_right = compute_dx_dy(t,vrt,vrb, recip_dy);

			xright = v3d[vrt].x2d;
			uright = v3d[vrt].u;
			vright = v3d[vrt].v;

			du_dy_right = compute_du_dy_lin(t,vrt,vrb, recip_dy);
			dv_dy_right = compute_dv_dy_lin(t,vrt,vrb, recip_dy);

			if (Lighting_enabled) {
				dl_dy_right = compute_dl_dy_lin(t,vrt,vrb, recip_dy);
				lright = v3d[vrt].l;
			}
		}

		if (Lighting_enabled) {
			ntmap_scanline_lighted_linear(srcb,y,xleft,xright,uleft,uright,vleft,vright,lleft,lright);
			lleft += dl_dy_left;
			lright += dl_dy_right;
		} else
			ntmap_scanline_lighted_linear(srcb,y,xleft,xright,uleft,uright,vleft,vright,lleft,lright);

		uleft += du_dy_left;
		vleft += dv_dy_left;

		uright += du_dy_right;
		vright += dv_dy_right;

		xleft += dx_dy_left;
		xright += dx_dy_right;

	}

	// We can get lleft or lright out of bounds here because we compute dl_dy using fixed point values,
	//	but we plot an integer number of scanlines, therefore doing an integer number of additions of the delta.

	ntmap_scanline_lighted_linear(srcb,y,xleft,xright,uleft,uright,vleft,vright,lleft,lright);
}
Exemple #2
0
// -------------------------------------------------------------------------------------
//	Render a texture map.
// Linear in outer loop, linear in inner loop.
// -------------------------------------------------------------------------------------
void texture_map_flat(g3ds_tmap *t, int color)
{
	int	vlt,vrt,vlb,vrb;	// vertex left top, vertex right top, vertex left bottom, vertex right bottom
	int	topy,boty,y, dy;
	fix	dx_dy_left,dx_dy_right;
	int	max_y_vertex;
	fix	xleft,xright;
	fix	recip_dy;
	g3ds_vertex *v3d;

	v3d = t->verts;

	tmap_flat_color = color;

	// Determine top and bottom y coords.
	compute_y_bounds(t,&vlt,&vlb,&vrt,&vrb,&max_y_vertex);

	// Set top and bottom (of entire texture map) y coordinates.
	topy = f2i(v3d[vlt].y2d);
	boty = f2i(v3d[max_y_vertex].y2d);

	// Set amount to change x coordinate for each advance to next scanline.
	dy = f2i(t->verts[vlb].y2d) - f2i(t->verts[vlt].y2d);
	if (dy < FIX_RECIP_TABLE_SIZE)
		recip_dy = fix_recip[dy];
	else
		recip_dy = F1_0/dy;

	dx_dy_left = compute_dx_dy(t,vlt,vlb, recip_dy);

	dy = f2i(t->verts[vrb].y2d) - f2i(t->verts[vrt].y2d);
	if (dy < FIX_RECIP_TABLE_SIZE)
		recip_dy = fix_recip[dy];
	else
		recip_dy = F1_0/dy;

	dx_dy_right = compute_dx_dy(t,vrt,vrb, recip_dy);

 	// Set initial values for x, u, v
	xleft = v3d[vlt].x2d;
	xright = v3d[vrt].x2d;

	// scan all rows in texture map from top through first break.
	// @mk: Should we render the scanline for y==boty?  This violates Matt's spec.

	for (y = topy; y < boty; y++) {

		// See if we have reached the end of the current left edge, and if so, set
		// new values for dx_dy and x,u,v
		if (y == f2i(v3d[vlb].y2d)) {
			// Handle problem of double points.  Search until y coord is different.  Cannot get
			// hung in an infinite loop because we know there is a vertex with a lower y coordinate
			// because in the for loop, we don't scan all spanlines.
			while (y == f2i(v3d[vlb].y2d)) {
				vlt = vlb;
				vlb = prevmod(vlb,t->nv);
			}
			dy = f2i(t->verts[vlb].y2d) - f2i(t->verts[vlt].y2d);
			if (dy < FIX_RECIP_TABLE_SIZE)
				recip_dy = fix_recip[dy];
			else
				recip_dy = F1_0/dy;

			dx_dy_left = compute_dx_dy(t,vlt,vlb, recip_dy);

			xleft = v3d[vlt].x2d;
		}

		// See if we have reached the end of the current left edge, and if so, set
		// new values for dx_dy and x.  Not necessary to set new values for u,v.
		if (y == f2i(v3d[vrb].y2d)) {
			while (y == f2i(v3d[vrb].y2d)) {
				vrt = vrb;
				vrb = succmod(vrb,t->nv);
			}

			dy = f2i(t->verts[vrb].y2d) - f2i(t->verts[vrt].y2d);
			if (dy < FIX_RECIP_TABLE_SIZE)
				recip_dy = fix_recip[dy];
			else
				recip_dy = F1_0/dy;

			dx_dy_right = compute_dx_dy(t,vrt,vrb, recip_dy);

			xright = v3d[vrt].x2d;

		}

		//tmap_scanline_flat(y, xleft, xright);
		(*scanline_func)(y, xleft, xright);

		xleft += dx_dy_left;
		xright += dx_dy_right;

	}
	//tmap_scanline_flat(y, xleft, xright);
	(*scanline_func)(y, xleft, xright);
}
Exemple #3
0
// -------------------------------------------------------------------------------------
//	Select topmost vertex (minimum y coordinate) and bottommost (maximum y coordinate) in
//	texture map.  If either is part of a horizontal edge, then select leftmost vertex for
//	top, rightmost vertex for bottom.
//	Important: Vertex is selected with integer precision.  So, if there are vertices at
//	(0.0,0.7) and (0.5,0.3), the first vertex is selected, because they y coordinates are
//	considered the same, so the smaller x is favored.
//	Parameters:
//		nv		number of vertices
//		v3d	pointer to 3d vertices containing u,v,x2d,y2d coordinates
//	Results in:
//		*min_y_ind
//		*max_y_ind
// -------------------------------------------------------------------------------------
void compute_y_bounds(g3ds_tmap *t, int *vlt, int *vlb, int *vrt, int *vrb,int *bottom_y_ind)
{
	int	i;
	int	min_y,max_y;
	int	min_y_ind;
	int	original_vrt;
	fix	min_x;

	// Scan all vertices, set min_y_ind to vertex with smallest y coordinate.
	min_y = f2i(t->verts[0].y2d);
	max_y = min_y;
	min_y_ind = 0;
	min_x = f2i(t->verts[0].x2d);
	*bottom_y_ind = 0;

	for (i=1; i<t->nv; i++) {
		if (f2i(t->verts[i].y2d) < min_y) {
			min_y = f2i(t->verts[i].y2d);
			min_y_ind = i;
			min_x = f2i(t->verts[i].x2d);
		} else if (f2i(t->verts[i].y2d) == min_y) {
			if (f2i(t->verts[i].x2d) < min_x) {
				min_y_ind = i;
				min_x = f2i(t->verts[i].x2d);
			}
		}
		if (f2i(t->verts[i].y2d) > max_y) {
			max_y = f2i(t->verts[i].y2d);
			*bottom_y_ind = i;
		}
	}

//--removed mk, 11/27/94--	//	Check for a non-upright-hourglass polygon and fix, if necessary, by bashing a y coordinate.
//--removed mk, 11/27/94--	//	min_y_ind = index of minimum y coordinate, *bottom_y_ind = index of maximum y coordinate
//--removed mk, 11/27/94--{
//--removed mk, 11/27/94--	int	max_temp, min_temp;
//--removed mk, 11/27/94--
//--removed mk, 11/27/94--	max_temp = *bottom_y_ind;
//--removed mk, 11/27/94--	if (*bottom_y_ind < min_y_ind)
//--removed mk, 11/27/94--		max_temp += t->nv;
//--removed mk, 11/27/94--
//--removed mk, 11/27/94--	for (i=min_y_ind; i<max_temp; i++) {
//--removed mk, 11/27/94--		if (f2i(t->verts[i%t->nv].y2d) > f2i(t->verts[(i+1)%t->nv].y2d)) {
//--removed mk, 11/27/94--			Int3();
//--removed mk, 11/27/94--			t->verts[(i+1)%t->nv].y2d = t->verts[i%t->nv].y2d;
//--removed mk, 11/27/94--		}
//--removed mk, 11/27/94--	}
//--removed mk, 11/27/94--
//--removed mk, 11/27/94--	min_temp = min_y_ind;
//--removed mk, 11/27/94--	if (min_y_ind < *bottom_y_ind)
//--removed mk, 11/27/94--		min_temp += t->nv;
//--removed mk, 11/27/94--
//--removed mk, 11/27/94--	for (i=*bottom_y_ind; i<min_temp; i++) {
//--removed mk, 11/27/94--		if (f2i(t->verts[i%t->nv].y2d) < f2i(t->verts[(i+1)%t->nv].y2d)) {
//--removed mk, 11/27/94--			Int3();
//--removed mk, 11/27/94--			t->verts[(i+1)%t->nv].y2d = t->verts[i%t->nv].y2d;
//--removed mk, 11/27/94--		}
//--removed mk, 11/27/94--	}
//--removed mk, 11/27/94--}

	// Set "vertex left top", etc. based on vertex with topmost y coordinate
	*vlt = min_y_ind;
	*vrt = *vlt;
	*vlb = prevmod(*vlt,t->nv);
	*vrb = succmod(*vrt,t->nv);

	// If right edge is horizontal, then advance along polygon bound until it no longer is or until all
	// vertices have been examined.
	// (Left edge cannot be horizontal, because *vlt is set to leftmost point with highest y coordinate.)

	original_vrt = *vrt;

	while (f2i(t->verts[*vrt].y2d) == f2i(t->verts[*vrb].y2d)) {
		if (succmod(*vrt,t->nv) == original_vrt) {
			break;
		}
		*vrt = succmod(*vrt,t->nv);
		*vrb = succmod(*vrt,t->nv);
	}
}