6 files changed, 195 insertions, 10 deletions
diff --git a/shaders/bloom1.fragment b/shaders/bloom1.fragment
new file mode 100644
index 0000000..77031f2
--- /dev/null
+++ b/shaders/bloom1.fragment

@@ -0,0 +1,53 @@
+#version 330 core
+in vec2 UV;
+out vec3 color;
+uniform sampler2D screenTex;
+uniform float iGlobalTime;
+float nrand(vec2 n)
+{
+  return fract(sin(dot(n.xy, vec2(19.9898, 78.233))) * 43758.5453);
+}
+vec2 rot2d(vec2 p, float a)
+{
+  vec2 sc = vec2(sin(a), cos(a));
+  return vec2(dot(p, vec2(sc.y, -sc.x)), dot(p, sc.xy));
+}
+void main()
+{
+  const int NUM_TAPS = 12;
+  float max_siz = 1.0;
+  
+  vec2 fTaps_Poisson[NUM_TAPS];
+  fTaps_Poisson[0]  = vec2(-.326, -.406);
+  fTaps_Poisson[1]  = vec2(-.840, -.074);
+  fTaps_Poisson[2]  = vec2(-.696,  .457);
+  fTaps_Poisson[3]  = vec2(-.203,  .621);
+  fTaps_Poisson[4]  = vec2( .962, -.195);
+  fTaps_Poisson[5]  = vec2( .473, -.480);
+  fTaps_Poisson[6]  = vec2( .519,  .767);
+  fTaps_Poisson[7]  = vec2( .185, -.893);
+  fTaps_Poisson[8]  = vec2( .507,  .064);
+  fTaps_Poisson[9]  = vec2( .896,  .412);
+  fTaps_Poisson[10] = vec2(-.322, -.933);
+  fTaps_Poisson[11] = vec2(-.792, -.598);
+  
+  vec4 sum = vec4(0);
+  float rnd = 6.28 * nrand(UV + fract(iGlobalTime));
+  vec4 basis = vec4(rot2d(vec2(1,0), rnd), rot2d(vec2(0,1), rnd));
+  for (int i=0; i<NUM_TAPS; i++)
+  {
+    vec2 ofs = fTaps_Poisson[i];
+    ofs = vec2(dot(ofs, basis.xz), dot(ofs, basis.yw));
+    
+    vec2 texcoord = UV + max_siz * ofs / vec2(1024.0,768.0);
+    sum += texture(screenTex, texcoord, -10.0);
+  }
+  
+  color = (sum / vec4(NUM_TAPS)).rgb;
+}
diff --git a/shaders/bloom1.vertex b/shaders/bloom1.vertex
new file mode 100644
index 0000000..37eeeb0
--- /dev/null
+++ b/shaders/bloom1.vertex

@@ -0,0 +1,11 @@
+#version 330 core
+layout(location = 0) in vec3 vPos;
+out vec2 UV;
+void main()
+{
+  gl_Position = vec4(vPos, 1);
+  UV = (vPos.xy + vec2(1,1))/2;
+}
diff --git a/shaders/bloom2.fragment b/shaders/bloom2.fragment
new file mode 100644
index 0000000..323f441
--- /dev/null
+++ b/shaders/bloom2.fragment

@@ -0,0 +1,57 @@
+#version 330 core
+in vec2 UV;
+out vec3 color;
+uniform sampler2D screenTex;
+uniform sampler2D downsampledTex;
+uniform float iGlobalTime;
+float nrand(vec2 n)
+{
+  return fract(sin(dot(n.xy, vec2(19.9898, 78.233))) * 43758.5453);
+}
+vec2 rot2d(vec2 p, float a)
+{
+  vec2 sc = vec2(sin(a), cos(a));
+  return vec2(dot(p, vec2(sc.y, -sc.x)), dot(p, sc.xy));
+}
+void main()
+{
+  const int NUM_TAPS = 12;
+  float max_siz = 1.0;
+  
+  vec2 fTaps_Poisson[NUM_TAPS];
+  fTaps_Poisson[0]  = vec2(-.326, -.406);
+  fTaps_Poisson[1]  = vec2(-.840, -.074);
+  fTaps_Poisson[2]  = vec2(-.696,  .457);
+  fTaps_Poisson[3]  = vec2(-.203,  .621);
+  fTaps_Poisson[4]  = vec2( .962, -.195);
+  fTaps_Poisson[5]  = vec2( .473, -.480);
+  fTaps_Poisson[6]  = vec2( .519,  .767);
+  fTaps_Poisson[7]  = vec2( .185, -.893);
+  fTaps_Poisson[8]  = vec2( .507,  .064);
+  fTaps_Poisson[9]  = vec2( .896,  .412);
+  fTaps_Poisson[10] = vec2(-.322, -.933);
+  fTaps_Poisson[11] = vec2(-.792, -.598);
+  
+  vec4 sum = vec4(0);
+  float rnd = 6.28 * nrand(UV + fract(iGlobalTime));
+  vec4 basis = vec4(rot2d(vec2(1,0), rnd), rot2d(vec2(0,1), rnd));
+  for (int i=0; i<NUM_TAPS; i++)
+  {
+    vec2 ofs = fTaps_Poisson[i];
+    ofs = vec2(dot(ofs, basis.xz), dot(ofs, basis.yw));
+    
+    vec2 texcoord = UV + max_siz * ofs / vec2(64.0,48.0);
+    sum += texture(downsampledTex, texcoord, -10.0);
+  }
+  
+  vec3 bloom_c = (sum / vec4(NUM_TAPS)).rgb;
+  bloom_c = vec3(bloom_c.r*bloom_c.r, bloom_c.g*bloom_c.g, bloom_c.b*bloom_c.b);
+  
+  color = texture(screenTex, UV).rgb + bloom_c;
+}
diff --git a/shaders/bloom2.vertex b/shaders/bloom2.vertex
new file mode 100644
index 0000000..37eeeb0
--- /dev/null
+++ b/shaders/bloom2.vertex

@@ -0,0 +1,11 @@
+#version 330 core
+layout(location = 0) in vec3 vPos;
+out vec2 UV;
+void main()
+{
+  gl_Position = vec4(vPos, 1);
+  UV = (vPos.xy + vec2(1,1))/2;
+}
diff --git a/shaders/final.fragment b/shaders/final.fragment
index c900973..5feccb9 100644
--- a/shaders/final.fragment
+++ b/shaders/final.fragment

@@ -1,7 +1,10 @@
 #version 330 core
 in vec2 UV;
-in vec3 norm;
+in vec3 normIn;
+in vec3 camDirIn;
+in vec3 lightDirIn;
+//in vec3 vertPos;
 out vec3 color;
@@ -10,20 +13,19 @@ uniform sampler2D scanlinestex;
 const vec2 UVScalar = vec2(1.0, 1.0);
 const vec2 UVOffset = vec2(0.0, 0.0);
-const vec2 CRTMask_Scale = vec2(85.0, 153.6);
+const vec2 CRTMask_Scale = vec2(85.0, 153.6)*4.0;
 const vec2 CRTMask_Offset = vec2(0.0, 0.0);
 const float Tuning_Overscan = 1.0;
-const float Tuning_Dimming = 0.5;
+const float Tuning_Dimming = 0.0;
 const float Tuning_Satur = 1.35;
 const float Tuning_ReflScalar = 0.3;
-const float Tuning_Barrel = 0.12;
+const float Tuning_Barrel = 0; //0.12;
-const float Tuning_Scanline_Brightness = 0.25;
+const float Tuning_Scanline_Brightness = 0.5;
 const float Tuning_Scanline_Opacity = 0.5;
 const float Tuning_Diff_Brightness = 0.5;
 const float Tuning_Spec_Brightness = 0.35;
 const float Tuning_Spec_Power = 50.0;
 const float Tuning_Fres_Brightness = 1.0;
-const vec3 Tuning_LightPos = vec3(5.0, -10.0, 0.0);
 vec4 sampleCRT(vec2 uv)
 {
@@ -52,5 +54,39 @@ vec4 sampleCRT(vec2 uv)
 void main()
 {
-  color = sampleCRT(UV).rgb;
+  vec3 norm = normalize(normIn);
+  vec3 camDir = normalize(camDirIn);
+  vec3 lightDir = normalize(lightDirIn);
+  //vec3 refl = reflect(camDir, normIn);
+  
+  float diffuse = clamp(dot(norm, lightDir), 0.0f, 1.0f);
+  vec4 colordiff = vec4(0.175, 0.15, 0.2, 1) * diffuse * Tuning_Diff_Brightness;
+  
+  vec3 halfVec = normalize(lightDir + camDir);
+  float spec = clamp(dot(norm, halfVec), 0.0f, 1.0f);
+  spec = pow(spec, Tuning_Spec_Power);
+  vec4 colorspec = vec4(0.25, 0.25, 0.25, 1) * spec * Tuning_Spec_Brightness;
+  
+  float fres = 1.0f - dot(camDir, norm);
+  fres = (fres*fres) * Tuning_Fres_Brightness;
+  vec4 colorfres = vec4(0.45, 0.4, 0.5, 1) * fres;/*
+  
+  float lambertian = max(dot(camDirNorm,norm),0.0);
+  vec4 colorspec = vec4(0.0);
+  vec4 colorfres = vec4(0.0);
+  vec4 colordiff = vec4(0.175,0.15,0.2,1) * lambertian * Tuning_Diff_Brightness;
+  if (lambertian > 0.0)
+  {
+    vec3 viewDir = normalize(-vertPos);
+    vec3 halfDir = normalize(camDirNorm + viewDir);
+    float specAngle = max(dot(halfDir, normnorm), 0.0);
+    colorspec = vec4(0.25,0.25,0.25,1) * pow(specAngle, Tuning_Spec_Power) * Tuning_Spec_Brightness;
+  }*/
+  
+  vec4 emissive = sampleCRT(UV);
+  
+  vec4 nearfinal = colorfres + colordiff + colorspec + emissive;
+  vec4 final = nearfinal * mix(vec4(1,1,1,1), vec4(0,0,0,0), Tuning_Dimming);
+  
+  color = final.rgb;
 }
diff --git a/shaders/final.vertex b/shaders/final.vertex
index 825eb49..dda8626 100644
--- a/shaders/final.vertex
+++ b/shaders/final.vertex

@@ -4,11 +4,28 @@ layout(location = 0) in vec3 vertexPosition_modelspace;
 layout(location = 1) in vec3 vertexNormal;
 out vec2 UV;
-out vec3 norm;
+out vec3 normIn;
+out vec3 camDirIn;
+out vec3 lightDirIn;
+//out vec3 vertPos;
+uniform mat4 MVP;
+uniform mat4 worldMat;
+const vec3 Tuning_LightPos = vec3(1, 1, 1.0);
 void main()
 {
-  gl_Position = vec4(vertexPosition_modelspace,1);
+  gl_Position = MVP * vec4(vertexPosition_modelspace,1);
  UV = (vertexPosition_modelspace.xy+vec2(1,1))/2.0;
-  norm = vertexNormal;
+  normIn = vertexNormal;
+  
+  mat3 invWorldRot = transpose(mat3(worldMat[0].xyz, worldMat[1].xyz, worldMat[2].xyz));
+  //mat3 invWorldRot = mat3(1.0f);
+  vec3 worldPos = (worldMat * vec4(vertexPosition_modelspace,1)).xyz;
+  camDirIn = invWorldRot * (vec3(0,0,1) - worldPos);
+  //camDir = worldPos;
+  lightDirIn = invWorldRot * (Tuning_LightPos - worldPos);
+  //vec4 vertPos4 =  vec4(vertexPosition_modelspace,1);
+  //vertPos = vec3(vertPos4) / vertPos4.w;
 }

diff --git a/shaders/bloom1.fragment b/shaders/bloom1.fragment new file mode 100644 index 0000000..77031f2 --- /dev/null +++ b/shaders/bloom1.fragment
@@ -0,0 +1,53 @@
		1	#version 330 core
		2
		3	in vec2 UV;
		4
		5	out vec3 color;
		6
		7	uniform sampler2D screenTex;
		8	uniform float iGlobalTime;
		9
		10	float nrand(vec2 n)
		11	{
		12	return fract(sin(dot(n.xy, vec2(19.9898, 78.233))) * 43758.5453);
		13	}
		14
		15	vec2 rot2d(vec2 p, float a)
		16	{
		17	vec2 sc = vec2(sin(a), cos(a));
		18	return vec2(dot(p, vec2(sc.y, -sc.x)), dot(p, sc.xy));
		19	}
		20
		21	void main()
		22	{
		23	const int NUM_TAPS = 12;
		24	float max_siz = 1.0;
		25
		26	vec2 fTaps_Poisson[NUM_TAPS];
		27	fTaps_Poisson[0] = vec2(-.326, -.406);
		28	fTaps_Poisson[1] = vec2(-.840, -.074);
		29	fTaps_Poisson[2] = vec2(-.696, .457);
		30	fTaps_Poisson[3] = vec2(-.203, .621);
		31	fTaps_Poisson[4] = vec2( .962, -.195);
		32	fTaps_Poisson[5] = vec2( .473, -.480);
		33	fTaps_Poisson[6] = vec2( .519, .767);
		34	fTaps_Poisson[7] = vec2( .185, -.893);
		35	fTaps_Poisson[8] = vec2( .507, .064);
		36	fTaps_Poisson[9] = vec2( .896, .412);
		37	fTaps_Poisson[10] = vec2(-.322, -.933);
		38	fTaps_Poisson[11] = vec2(-.792, -.598);
		39
		40	vec4 sum = vec4(0);
		41	float rnd = 6.28 * nrand(UV + fract(iGlobalTime));
		42	vec4 basis = vec4(rot2d(vec2(1,0), rnd), rot2d(vec2(0,1), rnd));
		43	for (int i=0; i<NUM_TAPS; i++)
		44	{
		45	vec2 ofs = fTaps_Poisson[i];
		46	ofs = vec2(dot(ofs, basis.xz), dot(ofs, basis.yw));
		47
		48	vec2 texcoord = UV + max_siz * ofs / vec2(1024.0,768.0);
		49	sum += texture(screenTex, texcoord, -10.0);
		50	}
		51
		52	color = (sum / vec4(NUM_TAPS)).rgb;
		53	}


diff --git a/shaders/bloom1.vertex b/shaders/bloom1.vertex new file mode 100644 index 0000000..37eeeb0 --- /dev/null +++ b/shaders/bloom1.vertex
@@ -0,0 +1,11 @@
		1	#version 330 core
		2
		3	layout(location = 0) in vec3 vPos;
		4
		5	out vec2 UV;
		6
		7	void main()
		8	{
		9	gl_Position = vec4(vPos, 1);
		10	UV = (vPos.xy + vec2(1,1))/2;
		11	}


diff --git a/shaders/bloom2.fragment b/shaders/bloom2.fragment new file mode 100644 index 0000000..323f441 --- /dev/null +++ b/shaders/bloom2.fragment
@@ -0,0 +1,57 @@
		1	#version 330 core
		2
		3	in vec2 UV;
		4
		5	out vec3 color;
		6
		7	uniform sampler2D screenTex;
		8	uniform sampler2D downsampledTex;
		9	uniform float iGlobalTime;
		10
		11	float nrand(vec2 n)
		12	{
		13	return fract(sin(dot(n.xy, vec2(19.9898, 78.233))) * 43758.5453);
		14	}
		15
		16	vec2 rot2d(vec2 p, float a)
		17	{
		18	vec2 sc = vec2(sin(a), cos(a));
		19	return vec2(dot(p, vec2(sc.y, -sc.x)), dot(p, sc.xy));
		20	}
		21
		22	void main()
		23	{
		24	const int NUM_TAPS = 12;
		25	float max_siz = 1.0;
		26
		27	vec2 fTaps_Poisson[NUM_TAPS];
		28	fTaps_Poisson[0] = vec2(-.326, -.406);
		29	fTaps_Poisson[1] = vec2(-.840, -.074);
		30	fTaps_Poisson[2] = vec2(-.696, .457);
		31	fTaps_Poisson[3] = vec2(-.203, .621);
		32	fTaps_Poisson[4] = vec2( .962, -.195);
		33	fTaps_Poisson[5] = vec2( .473, -.480);
		34	fTaps_Poisson[6] = vec2( .519, .767);
		35	fTaps_Poisson[7] = vec2( .185, -.893);
		36	fTaps_Poisson[8] = vec2( .507, .064);
		37	fTaps_Poisson[9] = vec2( .896, .412);
		38	fTaps_Poisson[10] = vec2(-.322, -.933);
		39	fTaps_Poisson[11] = vec2(-.792, -.598);
		40
		41	vec4 sum = vec4(0);
		42	float rnd = 6.28 * nrand(UV + fract(iGlobalTime));
		43	vec4 basis = vec4(rot2d(vec2(1,0), rnd), rot2d(vec2(0,1), rnd));
		44	for (int i=0; i<NUM_TAPS; i++)
		45	{
		46	vec2 ofs = fTaps_Poisson[i];
		47	ofs = vec2(dot(ofs, basis.xz), dot(ofs, basis.yw));
		48
		49	vec2 texcoord = UV + max_siz * ofs / vec2(64.0,48.0);
		50	sum += texture(downsampledTex, texcoord, -10.0);
		51	}
		52
		53	vec3 bloom_c = (sum / vec4(NUM_TAPS)).rgb;
		54	bloom_c = vec3(bloom_c.rbloom_c.r, bloom_c.gbloom_c.g, bloom_c.b*bloom_c.b);
		55
		56	color = texture(screenTex, UV).rgb + bloom_c;
		57	}


diff --git a/shaders/bloom2.vertex b/shaders/bloom2.vertex new file mode 100644 index 0000000..37eeeb0 --- /dev/null +++ b/shaders/bloom2.vertex
@@ -0,0 +1,11 @@
		1	#version 330 core
		2
		3	layout(location = 0) in vec3 vPos;
		4
		5	out vec2 UV;
		6
		7	void main()
		8	{
		9	gl_Position = vec4(vPos, 1);
		10	UV = (vPos.xy + vec2(1,1))/2;
		11	}


diff --git a/shaders/final.fragment b/shaders/final.fragment index c900973..5feccb9 100644 --- a/shaders/final.fragment +++ b/shaders/final.fragment
@@ -1,7 +1,10 @@
1	#version 330 core	1	#version 330 core
2		2
3	in vec2 UV;	3	in vec2 UV;
4	in vec3 norm;	4	in vec3 normIn;
		5	in vec3 camDirIn;
		6	in vec3 lightDirIn;
		7	//in vec3 vertPos;
5		8
6	out vec3 color;	9	out vec3 color;
7		10
@@ -10,20 +13,19 @@ uniform sampler2D scanlinestex;
10		13
11	const vec2 UVScalar = vec2(1.0, 1.0);	14	const vec2 UVScalar = vec2(1.0, 1.0);
12	const vec2 UVOffset = vec2(0.0, 0.0);	15	const vec2 UVOffset = vec2(0.0, 0.0);
13	const vec2 CRTMask_Scale = vec2(85.0, 153.6);	16	const vec2 CRTMask_Scale = vec2(85.0, 153.6)*4.0;
14	const vec2 CRTMask_Offset = vec2(0.0, 0.0);	17	const vec2 CRTMask_Offset = vec2(0.0, 0.0);
15	const float Tuning_Overscan = 1.0;	18	const float Tuning_Overscan = 1.0;
16	const float Tuning_Dimming = 0.5;	19	const float Tuning_Dimming = 0.0;
17	const float Tuning_Satur = 1.35;	20	const float Tuning_Satur = 1.35;
18	const float Tuning_ReflScalar = 0.3;	21	const float Tuning_ReflScalar = 0.3;
19	const float Tuning_Barrel = 0.12;	22	const float Tuning_Barrel = 0; //0.12;
20	const float Tuning_Scanline_Brightness = 0.25;	23	const float Tuning_Scanline_Brightness = 0.5;
21	const float Tuning_Scanline_Opacity = 0.5;	24	const float Tuning_Scanline_Opacity = 0.5;
22	const float Tuning_Diff_Brightness = 0.5;	25	const float Tuning_Diff_Brightness = 0.5;
23	const float Tuning_Spec_Brightness = 0.35;	26	const float Tuning_Spec_Brightness = 0.35;
24	const float Tuning_Spec_Power = 50.0;	27	const float Tuning_Spec_Power = 50.0;
25	const float Tuning_Fres_Brightness = 1.0;	28	const float Tuning_Fres_Brightness = 1.0;
26	const vec3 Tuning_LightPos = vec3(5.0, -10.0, 0.0);
27		29
28	vec4 sampleCRT(vec2 uv)	30	vec4 sampleCRT(vec2 uv)
29	{	31	{
@@ -52,5 +54,39 @@ vec4 sampleCRT(vec2 uv)
52		54
53	void main()	55	void main()
54	{	56	{
55	color = sampleCRT(UV).rgb;	57	vec3 norm = normalize(normIn);
		58	vec3 camDir = normalize(camDirIn);
		59	vec3 lightDir = normalize(lightDirIn);
		60	//vec3 refl = reflect(camDir, normIn);
		61
		62	float diffuse = clamp(dot(norm, lightDir), 0.0f, 1.0f);
		63	vec4 colordiff = vec4(0.175, 0.15, 0.2, 1) * diffuse * Tuning_Diff_Brightness;
		64
		65	vec3 halfVec = normalize(lightDir + camDir);
		66	float spec = clamp(dot(norm, halfVec), 0.0f, 1.0f);
		67	spec = pow(spec, Tuning_Spec_Power);
		68	vec4 colorspec = vec4(0.25, 0.25, 0.25, 1) * spec * Tuning_Spec_Brightness;
		69
		70	float fres = 1.0f - dot(camDir, norm);
		71	fres = (fresfres) Tuning_Fres_Brightness;
		72	vec4 colorfres = vec4(0.45, 0.4, 0.5, 1) * fres;/*
		73
		74	float lambertian = max(dot(camDirNorm,norm),0.0);
		75	vec4 colorspec = vec4(0.0);
		76	vec4 colorfres = vec4(0.0);
		77	vec4 colordiff = vec4(0.175,0.15,0.2,1) * lambertian * Tuning_Diff_Brightness;
		78	if (lambertian > 0.0)
		79	{
		80	vec3 viewDir = normalize(-vertPos);
		81	vec3 halfDir = normalize(camDirNorm + viewDir);
		82	float specAngle = max(dot(halfDir, normnorm), 0.0);
		83	colorspec = vec4(0.25,0.25,0.25,1) * pow(specAngle, Tuning_Spec_Power) * Tuning_Spec_Brightness;
		84	}*/
		85
		86	vec4 emissive = sampleCRT(UV);
		87
		88	vec4 nearfinal = colorfres + colordiff + colorspec + emissive;
		89	vec4 final = nearfinal * mix(vec4(1,1,1,1), vec4(0,0,0,0), Tuning_Dimming);
		90
		91	color = final.rgb;
56	}	92	}


diff --git a/shaders/final.vertex b/shaders/final.vertex index 825eb49..dda8626 100644 --- a/shaders/final.vertex +++ b/shaders/final.vertex
@@ -4,11 +4,28 @@ layout(location = 0) in vec3 vertexPosition_modelspace;
4	layout(location = 1) in vec3 vertexNormal;	4	layout(location = 1) in vec3 vertexNormal;
5		5
6	out vec2 UV;	6	out vec2 UV;
7	out vec3 norm;	7	out vec3 normIn;
		8	out vec3 camDirIn;
		9	out vec3 lightDirIn;
		10	//out vec3 vertPos;
		11
		12	uniform mat4 MVP;
		13	uniform mat4 worldMat;
		14
		15	const vec3 Tuning_LightPos = vec3(1, 1, 1.0);
8		16
9	void main()	17	void main()
10	{	18	{
11	gl_Position = vec4(vertexPosition_modelspace,1);	19	gl_Position = MVP * vec4(vertexPosition_modelspace,1);
12	UV = (vertexPosition_modelspace.xy+vec2(1,1))/2.0;	20	UV = (vertexPosition_modelspace.xy+vec2(1,1))/2.0;
13	norm = vertexNormal;	21	normIn = vertexNormal;
		22
		23	mat3 invWorldRot = transpose(mat3(worldMat[0].xyz, worldMat[1].xyz, worldMat[2].xyz));
		24	//mat3 invWorldRot = mat3(1.0f);
		25	vec3 worldPos = (worldMat * vec4(vertexPosition_modelspace,1)).xyz;
		26	camDirIn = invWorldRot * (vec3(0,0,1) - worldPos);
		27	//camDir = worldPos;
		28	lightDirIn = invWorldRot * (Tuning_LightPos - worldPos);
		29	//vec4 vertPos4 = vec4(vertexPosition_modelspace,1);
		30	//vertPos = vec3(vertPos4) / vertPos4.w;
14	}	31	}