Add attenuated point lights

2017-01-02 06:52:50 +01:00 · 2017-01-02 06:52:50 +01:00 · c61e9c7fe2
parent c0e91086ce
commit c61e9c7fe2
9 changed files with 80 additions and 14 deletions
--- a/src/swrenderer/drawers/r_draw.cpp
+++ b/src/swrenderer/drawers/r_draw.cpp
@ -102,6 +102,7 @@ namespace swrenderer
 		uint8_t *dc_destorg;
 		int dc_destheight;
 		int dc_count;
+		FVector3 dc_normal;
 		FVector3 dc_viewpos;
 		FVector3 dc_viewpos_step;
 		TriLight *dc_lights;
--- a/src/swrenderer/drawers/r_draw.h
+++ b/src/swrenderer/drawers/r_draw.h
@ -66,6 +66,7 @@ namespace swrenderer
 		extern uint8_t *dc_destorg;
 		extern int dc_destheight;
 		extern int dc_count;
+		extern FVector3 dc_normal;
 		extern FVector3 dc_viewpos;
 		extern FVector3 dc_viewpos_step;
 		extern TriLight *dc_lights;
--- a/src/swrenderer/drawers/r_draw_pal.cpp
+++ b/src/swrenderer/drawers/r_draw_pal.cpp
@ -128,12 +128,21 @@ namespace swrenderer

 			// L = light-pos
 			// dist = sqrt(dot(L, L))
-			// attenuation = 1 - MIN(dist * (1/radius), 1)
+			// distance_attenuation = 1 - MIN(dist * (1/radius), 1)
 			float Lxy2 = lights[i].x; // L.x*L.x + L.y*L.y
 			float Lz = lights[i].z - viewpos_z;
 			float dist2 = Lxy2 + Lz * Lz;
-			float dist = dist2 * _mm_cvtss_f32(_mm_rsqrt_ss(_mm_load_ss(&dist2)));
-			uint32_t attenuation = (uint32_t)(256.0f - MIN(dist * lights[i].radius, 256.0f));
+			float rcp_dist = _mm_cvtss_f32(_mm_rsqrt_ss(_mm_load_ss(&dist2)));
+			float dist = dist2 * rcp_dist;
+			float distance_attenuation = (256.0f - MIN(dist * lights[i].radius, 256.0f));
+
+			// The simple light type
+			float simple_attenuation = distance_attenuation;
+
+			// The point light type
+			// diffuse = dot(N,L) * attenuation
+			float point_attenuation = lights[i].y * rcp_dist * distance_attenuation;
+			uint32_t attenuation = (uint32_t)(lights[i].y == 0.0f ? simple_attenuation : point_attenuation);

 			lit_r += (light_color_r * material_r * attenuation) >> 16;
 			lit_g += (light_color_g * material_g * attenuation) >> 16;
@ -1733,8 +1742,17 @@ namespace swrenderer
 			float Lyz2 = lights[i].y; // L.y*L.y + L.z*L.z
 			float Lx = lights[i].x - viewpos_x;
 			float dist2 = Lyz2 + Lx * Lx;
-			float dist = dist2 * _mm_cvtss_f32(_mm_rsqrt_ss(_mm_load_ss(&dist2)));
-			uint32_t attenuation = (uint32_t)(256.0f - MIN(dist * lights[i].radius, 256.0f));
+			float rcp_dist = _mm_cvtss_f32(_mm_rsqrt_ss(_mm_load_ss(&dist2)));
+			float dist = dist2 * rcp_dist;
+			float distance_attenuation = (256.0f - MIN(dist * lights[i].radius, 256.0f));
+
+			// The simple light type
+			float simple_attenuation = distance_attenuation;
+
+			// The point light type
+			// diffuse = dot(N,L) * attenuation
+			float point_attenuation = lights[i].z * rcp_dist * distance_attenuation;
+			uint32_t attenuation = (uint32_t)(lights[i].z == 0.0f ? simple_attenuation : point_attenuation);

 			lit_r += (light_color_r * material_r * attenuation) >> 16;
 			lit_g += (light_color_g * material_g * attenuation) >> 16;
--- a/src/swrenderer/line/r_walldraw.cpp
+++ b/src/swrenderer/line/r_walldraw.cpp
@ -227,11 +227,13 @@ namespace swrenderer
 					float lz = (float)lightZ;

 					// Precalculate the constant part of the dot here so the drawer doesn't have to.
+					bool is_point_light = (cur_node->lightsource->flags4 & MF4_ATTENUATE) != 0;
 					float lconstant = lx * lx + ly * ly;
+					float nlconstant = is_point_light ? lx * dc_normal.X + ly * dc_normal.Y : 0.0f;

 					// Include light only if it touches this column
 					float radius = cur_node->lightsource->GetRadius();
-					if (radius * radius >= lconstant)
+					if (radius * radius >= lconstant && nlconstant >= 0.0f)
 					{
 						uint32_t red = cur_node->lightsource->GetRed();
 						uint32_t green = cur_node->lightsource->GetGreen();
@ -240,6 +242,7 @@ namespace swrenderer
 						nextlightindex++;
 						auto &light = dc_lights[dc_num_lights++];
 						light.x = lconstant;
+						light.y = nlconstant;
 						light.z = lz;
 						light.radius = 256.0f / cur_node->lightsource->GetRadius();
 						light.color = (red << 16) | (green << 8) | blue;
@ -365,6 +368,13 @@ namespace swrenderer
 		else
 			R_SetColorMapLight(basecolormap, 0, 0);

+		float dx = WallC.tright.X - WallC.tleft.X;
+		float dy = WallC.tright.Y - WallC.tleft.Y;
+		float length = sqrt(dx * dx + dy * dy);
+		dc_normal.X = dy / length;
+		dc_normal.Y = -dx / length;
+		dc_normal.Z = 0.0f;
+
 		float light = rw_light;

 		double xmagnitude = 1.0;
--- a/src/swrenderer/plane/r_flatplane.cpp
+++ b/src/swrenderer/plane/r_flatplane.cpp
@ -256,7 +256,12 @@ namespace swrenderer
 			static TriLight lightbuffer[64 * 1024];
 			static int nextlightindex = 0;
 			
-			// Setup lights for column
+			// Plane normal
+			dc_normal.X = 0.0f;
+			dc_normal.Y = 0.0f;
+			dc_normal.Z = (y >= CenterY) ? 1.0f : -1.0f;
+
+			// Setup lights for row
 			dc_num_lights = 0;
 			dc_lights = lightbuffer + nextlightindex;
 			visplane_light *cur_node = ds_light_list;
@ -271,11 +276,13 @@ namespace swrenderer
 				float lz = (float)lightZ - dc_viewpos.Z;

 				// Precalculate the constant part of the dot here so the drawer doesn't have to.
+				bool is_point_light = (cur_node->lightsource->flags4 & MF4_ATTENUATE) != 0;
 				float lconstant = ly * ly + lz * lz;
+				float nlconstant = is_point_light ? lz * dc_normal.Z : 0.0f;

 				// Include light only if it touches this row
 				float radius = cur_node->lightsource->GetRadius();
-				if (radius * radius >= lconstant)
+				if (radius * radius >= lconstant && nlconstant >= 0.0f)
 				{
 					uint32_t red = cur_node->lightsource->GetRed();
 					uint32_t green = cur_node->lightsource->GetGreen();
@ -285,6 +292,7 @@ namespace swrenderer
 					auto &light = dc_lights[dc_num_lights++];
 					light.x = lx;
 					light.y = lconstant;
+					light.z = nlconstant;
 					light.radius = 256.0f / radius;
 					light.color = (red << 16) | (green << 8) | blue;
 				}
--- a/tools/drawergen/fixedfunction/drawspancodegen.cpp
+++ b/tools/drawergen/fixedfunction/drawspancodegen.cpp
@ -248,7 +248,7 @@ SSAVec4i DrawSpanCodegen::Shade(SSAVec4i fg, bool isSimpleShade)
 		SSAVec4i light_color = SSAUBytePtr(SSAValue(dynlights[light_index][0]).v).load_vec4ub(true);
 		SSAFloat light_x = dynlights[light_index][1].load(true);
 		SSAFloat light_y = dynlights[light_index][2].load(true);
-		//SSAFloat light_z = dynlights[light_index][3].load(true);
+		SSAFloat light_z = dynlights[light_index][3].load(true);
 		SSAFloat light_rcp_radius = dynlights[light_index][4].load(true);

 		// L = light-pos
@ -256,8 +256,19 @@ SSAVec4i DrawSpanCodegen::Shade(SSAVec4i fg, bool isSimpleShade)
 		// attenuation = 1 - MIN(dist * (1/radius), 1)
 		SSAFloat Lyz2 = light_y; // L.y*L.y + L.z*L.z
 		SSAFloat Lx = light_x - viewpos_x;
-		SSAFloat dist = SSAFloat::fastsqrt(Lyz2 + Lx * Lx);
-		SSAInt attenuation = SSAInt(SSAFloat(256.0f) - SSAFloat::MIN(dist * light_rcp_radius, SSAFloat(256.0f)), true);
+		SSAFloat dist2 = Lyz2 + Lx * Lx;
+		SSAFloat rcp_dist = SSAFloat::rsqrt(dist2);
+		SSAFloat dist = dist2 * rcp_dist;
+		SSAFloat distance_attenuation = SSAFloat(256.0f) - SSAFloat::MIN(dist * light_rcp_radius, SSAFloat(256.0f));
+
+		// The simple light type
+		SSAFloat simple_attenuation = distance_attenuation;
+
+		// The point light type
+		// diffuse = dot(N,L) * attenuation
+		SSAFloat point_attenuation = light_z * rcp_dist * distance_attenuation;
+
+		SSAInt attenuation = SSAInt((light_z == SSAFloat(0.0f)).select(simple_attenuation, point_attenuation), true);
 		SSAVec4i contribution = (light_color * fg * attenuation) >> 16;

 		stack_lit_color.store(lit_color + contribution);
--- a/tools/drawergen/fixedfunction/drawwallcodegen.cpp
+++ b/tools/drawergen/fixedfunction/drawwallcodegen.cpp
@ -179,7 +179,7 @@ SSAVec4i DrawWallCodegen::Shade(SSAVec4i fg, bool isSimpleShade)
 	{
 		SSAVec4i light_color = SSAUBytePtr(SSAValue(dynlights[light_index][0]).v).load_vec4ub(true);
 		SSAFloat light_x = dynlights[light_index][1].load(true);
-		//SSAFloat light_y = dynlights[light_index][2].load(true);
+		SSAFloat light_y = dynlights[light_index][2].load(true);
 		SSAFloat light_z = dynlights[light_index][3].load(true);
 		SSAFloat light_rcp_radius = dynlights[light_index][4].load(true);

@ -188,8 +188,19 @@ SSAVec4i DrawWallCodegen::Shade(SSAVec4i fg, bool isSimpleShade)
 		// attenuation = 1 - MIN(dist * (1/radius), 1)
 		SSAFloat Lxy2 = light_x; // L.x*L.x + L.y*L.y
 		SSAFloat Lz = light_z - z;
-		SSAFloat dist = SSAFloat::fastsqrt(Lxy2 + Lz * Lz);
-		SSAInt attenuation = SSAInt(SSAFloat(256.0f) - SSAFloat::MIN(dist * light_rcp_radius, SSAFloat(256.0f)), true);
+		SSAFloat dist2 = Lxy2 + Lz * Lz;
+		SSAFloat rcp_dist = SSAFloat::rsqrt(dist2);
+		SSAFloat dist = dist2 * rcp_dist;
+		SSAFloat distance_attenuation = SSAFloat(256.0f) - SSAFloat::MIN(dist * light_rcp_radius, SSAFloat(256.0f));
+
+		// The simple light type
+		SSAFloat simple_attenuation = distance_attenuation;
+
+		// The point light type
+		// diffuse = dot(N,L) * attenuation
+		SSAFloat point_attenuation = light_y * rcp_dist * distance_attenuation;
+
+		SSAInt attenuation = SSAInt((light_y == SSAFloat(0.0f)).select(simple_attenuation, point_attenuation), true);
 		SSAVec4i contribution = (light_color * fg * attenuation) >> 16;

 		stack_lit_color.store(lit_color + contribution);
--- a/tools/drawergen/ssa/ssa_bool.cpp
+++ b/tools/drawergen/ssa/ssa_bool.cpp
@ -58,6 +58,11 @@ SSAInt SSABool::select(SSAInt a, SSAInt b)
 	return SSAValue::from_llvm(SSAScope::builder().CreateSelect(v, a.v, b.v, SSAScope::hint()));
 }

+SSAFloat SSABool::select(SSAFloat a, SSAFloat b)
+{
+	return SSAValue::from_llvm(SSAScope::builder().CreateSelect(v, a.v, b.v, SSAScope::hint()));
+}
+
 SSAUByte SSABool::select(SSAUByte a, SSAUByte b)
 {
 	return SSAValue::from_llvm(SSAScope::builder().CreateSelect(v, a.v, b.v, SSAScope::hint()));
--- a/tools/drawergen/ssa/ssa_bool.h
+++ b/tools/drawergen/ssa/ssa_bool.h
@ -42,6 +42,7 @@ public:

 	SSAInt zext_int();
 	SSAInt select(SSAInt a, SSAInt b);
+	SSAFloat select(SSAFloat a, SSAFloat b);
 	SSAUByte select(SSAUByte a, SSAUByte b);
 	SSAVec4i select(SSAVec4i a, SSAVec4i b);