cvr-props/Assets/sunset_box/sunset_env_dynamic.shader

Shader "CrispyPin/Sunset Environment (Dynamic)"
{
	Properties
	{
		[Header(Sky)]
		_SkyCol ("Sky color", Color) = (0.22, 0.23, 0.58, 1.0)
		_HorizonTint ("Horizon tint", Range(0, 1)) = 0.1
		[Header(Sun)]
		_SunCol ("Sun color", Color) = (1.0, 0.65, 0.05, 1.0)
		_SunAngle ("Sun angle", Range(0, 6.28)) = 0
		_SunRadius ("Sun radius", Range(0, 0.3)) = 0.06
		_SunCutoff ("Sun cutoff", Range(0, 0.5)) = 0.08
		[Header(Star Layout)]
		[NoScaleOffset]
		_MainTex ("Noise source", 2D) = "white" {}
		_StarDensity ("Star density", Range(4, 50)) = 20
		_StarRandom ("Star randomness", Range(0, 1)) = 0.85
		[Header(Star)]
		_StarsMissing ("Stars missing", Range(0, 1)) = 0.75
		_StarSize ("Star size", Range(0, 0.1)) = 0.06
		_StarSizeRandom ("Star size randomness", Range(0, 1)) = 0.5
		_StarTint ("Star tint", Range(0, 1)) = 0.4
		[Header(Water)]
		_WaterCol ("Water color", Color) = (0.03, 0.08, 0.12, 1.0)
		_WaveStrength ("Wave scale", Range(0, 1)) = 1
		[NoScaleOffset]
		_WaterSurface ("Surface Normal", 2D) = "white" {}
		[Header(Debug)]
		_Grid ("Grid visibility", Range(0, 1)) = 0

	}
	SubShader
	{
		Tags { "RenderType"="Opaque" }
		LOD 100
		Cull back

		Pass
		{
			CGPROGRAM
			#pragma vertex vert
			#pragma fragment frag

			#include "UnityCG.cginc"

			#define PI 3.1416f
			#define WHITE fixed4(1, 1, 1, 1)
			#define UP float3(0, 1, 0)

			struct appdata
			{
				float4 vertex : POSITION;
			};

			struct v2f
			{
				float4 vertex : SV_POSITION;
				float3 cam_pos : TEXCOORD0;
				float3 hit_pos : TEXCOORD1;
			};

			sampler2D _MainTex;
			fixed4 _SkyCol;
			float _HorizonTint;

			float _StarsMissing;
			float _StarDensity;
			float _StarRandom;

			float _StarSize;
			float _StarSizeRandom;
			float _StarTint;

			fixed4 _SunCol;
			float _SunAngle;
			float _SunRadius;
			float _SunCutoff;

			sampler2D _WaterSurface;
			fixed4 _WaterCol;
			float _WaveStrength;

			float _Grid;

			v2f vert (appdata v)
			{
				v2f o;
				o.vertex = UnityObjectToClipPos(v.vertex);
				o.cam_pos = _WorldSpaceCameraPos;
				o.hit_pos = mul(unity_ObjectToWorld, v.vertex);
				return o;
			}

			fixed3 get_water_normal(float2 pos) {
				float3 normal = 0.0;
				float t1 = _Time.x * 0.18;
				normal += (tex2D(_WaterSurface, pos * 1.04 + float2(t1, t1 * 0.5)) - 0.5);
				float t2 = _Time.x * 0.37;
				normal += (tex2D(_WaterSurface, pos * 0.276 + float2(t2 * 0.8, t2)) - 0.5);
				float t3 = _Time.x * 0.08;
				normal += (tex2D(_WaterSurface, pos * 0.07 + float2(t3 * 0.8, -t3)) - 0.5);

				return normalize(normal.zxy);
			}

			float smin(float a, float b, float k)
			{
				float h = max(k - abs(a-b), 0) / k;
				return min(a, b) - h*h*h*k * 1/6.0;
			}

			float smax(float a, float b, float k)
			{
				float h = max(k - abs(a - b), 0) / k;
				return max(a, b) + h*h*h*k * 1/6.0;
			}

			fixed4 frag(v2f i) : SV_Target
			{
				float water_mod = 0.0;

				float3 real_dir = normalize(i.hit_pos - i.cam_pos);
				float3 dir = real_dir;
				float real_y = asin(dir.y);
				if (real_y < 0.0) { // distort to look like water reflection
					float3 object_pos = mul(unity_ObjectToWorld, float4(0, 0, 0, 1));
					float3 camera_local_pos = i.cam_pos - object_pos;
					float3 surface_pos = float3 (
						camera_local_pos.x - camera_local_pos.y / (real_dir.y / real_dir.x),
						0,
						camera_local_pos.z - camera_local_pos.y / (real_dir.y / real_dir.z)
					);
					float3 water_normal = get_water_normal(surface_pos.xz);
					water_normal = lerp(UP, water_normal, _WaveStrength);

					dir = reflect(dir, water_normal);
					water_mod = dot(dir, water_normal);
				}
				float y = abs(real_y);
				dir.y = abs(dir.y);

				float phi = atan2(dir.x, dir.z);

				/// sky
				float factor = smoothstep(0.0, 0.5, dir.y + 0.2);
				factor = min(factor, 1.0);
				fixed4 horizon_col = lerp(_SkyCol, _SunCol, _HorizonTint);
				fixed4 col = lerp(horizon_col, _SkyCol, factor);

				/// stars
				float2 cells = float2(-1, floor(_StarDensity));
				float cell_x_base = floor(cells.y * PI);
				float celly = y * cells.y;
				// cells per ring depend on y pos, to reduce warping around the poles:
				cells.x = max(floor(cos(floor(celly)/_StarDensity) * cell_x_base), 3);
				float cellx = (phi / PI * cells.x);

				float2 pos = float2(cellx, celly);// cell-space pos of this fragment
				float2 cell_pos = float2(floor(cellx), floor(celly)); // position of this cell
				float2 cell_center = cell_pos + float2(0.5, 0.5);

				float2 star_pos = cell_center + (tex2D(_MainTex, cell_pos / cells + float2(0., 0.1)) - 0.5) * _StarRandom;

				/// star color
				float3 r = tex2D(_MainTex, cell_pos / cells);
				float rnum = frac((r.r + r.g - r.b) * 10);
				float rnum2 = frac((r.r - r.g + r.b) * 10);

				float star_size = _StarSize * (rnum * _StarSizeRandom + (1 - _StarSizeRandom));

				float distance = length(pos - star_pos);
				float star_strength = max(min(star_size / distance * 0.5, 1.25) - 0.25, 0); // star glow

				star_strength *= clamp(sin(y * 2) - 0.1, 0, 1); // fade stars near/under horizon
				star_strength *= length(r) / 2; // fade stars
				star_strength *= rnum2 > _StarsMissing; // remove stars

				fixed3 star_col = lerp(1.0, r, _StarTint);

				col = lerp(col, fixed4(star_col, 1.0), star_strength);


				/// debug grid
				col = lerp(col, WHITE, _Grid * (frac(cellx) < 0.04 || frac(celly) < 0.04));

				/// sun
				float3 sun_dir = float3(sin(_SunAngle), 0.0, cos(_SunAngle));
				float alignment = min(acos(dot(dir, sun_dir)), 1);
				float sun_amount = smax(min(_SunRadius / alignment, 5) - _SunCutoff, 0, 0.15);

				col = lerp(col, _SunCol, sun_amount);
				col = lerp(col, _WaterCol, water_mod);
				return col;
			}
			ENDCG
		}
	}
}
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`Shader "CrispyPin/Sunset Environment (Dynamic)"`
			`{`
			`Properties`
			`{`
			`[Header(Sky)]`
			`_SkyCol ("Sky color", Color) = (0.22, 0.23, 0.58, 1.0)`
proper horizon colours yay 2023-02-12 19:13:24 +01:00			`_HorizonTint ("Horizon tint", Range(0, 1)) = 0.1`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`[Header(Sun)]`
			`_SunCol ("Sun color", Color) = (1.0, 0.65, 0.05, 1.0)`
			`_SunAngle ("Sun angle", Range(0, 6.28)) = 0`
			`_SunRadius ("Sun radius", Range(0, 0.3)) = 0.06`
			`_SunCutoff ("Sun cutoff", Range(0, 0.5)) = 0.08`
			`[Header(Star Layout)]`
			`[NoScaleOffset]`
			`_MainTex ("Noise source", 2D) = "white" {}`
			`_StarDensity ("Star density", Range(4, 50)) = 20`
			`_StarRandom ("Star randomness", Range(0, 1)) = 0.85`
			`[Header(Star)]`
			`_StarsMissing ("Stars missing", Range(0, 1)) = 0.75`
			`_StarSize ("Star size", Range(0, 0.1)) = 0.06`
			`_StarSizeRandom ("Star size randomness", Range(0, 1)) = 0.5`
			`_StarTint ("Star tint", Range(0, 1)) = 0.4`
			`[Header(Water)]`
normal based water reflection 2023-02-12 16:34:03 +01:00			`_WaterCol ("Water color", Color) = (0.03, 0.08, 0.12, 1.0)`
improve water, cleanup 2023-02-12 17:02:21 +01:00			`_WaveStrength ("Wave scale", Range(0, 1)) = 1`
animate water 2023-02-12 16:50:08 +01:00			`[NoScaleOffset]`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`_WaterSurface ("Surface Normal", 2D) = "white" {}`
			`[Header(Debug)]`
			`_Grid ("Grid visibility", Range(0, 1)) = 0`

			`}`
			`SubShader`
			`{`
			`Tags { "RenderType"="Opaque" }`
			`LOD 100`
			`Cull back`

			`Pass`
			`{`
			`CGPROGRAM`
			`#pragma vertex vert`
			`#pragma fragment frag`

			`#include "UnityCG.cginc"`

			`#define PI 3.1416f`
proper water reflections 2023-02-12 16:13:50 +01:00			`#define WHITE fixed4(1, 1, 1, 1)`
			`#define UP float3(0, 1, 0)`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
			`struct appdata`
			`{`
			`float4 vertex : POSITION;`
			`};`

			`struct v2f`
			`{`
			`float4 vertex : SV_POSITION;`
normal based water reflection 2023-02-12 16:34:03 +01:00			`float3 cam_pos : TEXCOORD0;`
			`float3 hit_pos : TEXCOORD1;`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`};`

			`sampler2D _MainTex;`
			`fixed4 _SkyCol;`
proper horizon colours yay 2023-02-12 19:13:24 +01:00			`float _HorizonTint;`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
			`float _StarsMissing;`
			`float _StarDensity;`
			`float _StarRandom;`

			`float _StarSize;`
			`float _StarSizeRandom;`
			`float _StarTint;`

			`fixed4 _SunCol;`
			`float _SunAngle;`
			`float _SunRadius;`
			`float _SunCutoff;`
normal based water reflection 2023-02-12 16:34:03 +01:00
			`sampler2D _WaterSurface;`
			`fixed4 _WaterCol;`
improve water, cleanup 2023-02-12 17:02:21 +01:00			`float _WaveStrength;`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
			`float _Grid;`

			`v2f vert (appdata v)`
			`{`
			`v2f o;`
			`o.vertex = UnityObjectToClipPos(v.vertex);`
normal based water reflection 2023-02-12 16:34:03 +01:00			`o.cam_pos = _WorldSpaceCameraPos;`
			`o.hit_pos = mul(unity_ObjectToWorld, v.vertex);`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`return o;`
			`}`

animate water 2023-02-12 16:50:08 +01:00			`fixed3 get_water_normal(float2 pos) {`
			`float3 normal = 0.0;`
improve water, cleanup 2023-02-12 17:02:21 +01:00			`float t1 = _Time.x * 0.18;`
			`normal += (tex2D(_WaterSurface, pos * 1.04 + float2(t1, t1 * 0.5)) - 0.5);`
			`float t2 = _Time.x * 0.37;`
			`normal += (tex2D(_WaterSurface, pos * 0.276 + float2(t2 * 0.8, t2)) - 0.5);`
			`float t3 = _Time.x * 0.08;`
			`normal += (tex2D(_WaterSurface, pos * 0.07 + float2(t3 * 0.8, -t3)) - 0.5);`
animate water 2023-02-12 16:50:08 +01:00
			`return normalize(normal.zxy);`
			`}`

proper horizon colours yay 2023-02-12 19:13:24 +01:00			`float smin(float a, float b, float k)`
			`{`
			`float h = max(k - abs(a-b), 0) / k;`
			`return min(a, b) - hhhk 1/6.0;`
			`}`

			`float smax(float a, float b, float k)`
			`{`
			`float h = max(k - abs(a - b), 0) / k;`
			`return max(a, b) + hhhk 1/6.0;`
			`}`

improve water, cleanup 2023-02-12 17:02:21 +01:00			`fixed4 frag(v2f i) : SV_Target`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`{`
normal based water reflection 2023-02-12 16:34:03 +01:00			`float water_mod = 0.0;`
proper water reflections 2023-02-12 16:13:50 +01:00
normal based water reflection 2023-02-12 16:34:03 +01:00			`float3 real_dir = normalize(i.hit_pos - i.cam_pos);`
proper water reflections 2023-02-12 16:13:50 +01:00			`float3 dir = real_dir;`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`float real_y = asin(dir.y);`
proper water reflections 2023-02-12 16:13:50 +01:00			`if (real_y < 0.0) { // distort to look like water reflection`
coordinates my behated 2023-02-12 20:11:26 +01:00			`float3 object_pos = mul(unity_ObjectToWorld, float4(0, 0, 0, 1));`
			`float3 camera_local_pos = i.cam_pos - object_pos;`
proper water reflections 2023-02-12 16:13:50 +01:00			`float3 surface_pos = float3 (`
			`camera_local_pos.x - camera_local_pos.y / (real_dir.y / real_dir.x),`
coordinates my behated 2023-02-12 20:11:26 +01:00			`0,`
proper water reflections 2023-02-12 16:13:50 +01:00			`camera_local_pos.z - camera_local_pos.y / (real_dir.y / real_dir.z)`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`);`
animate water 2023-02-12 16:50:08 +01:00			`float3 water_normal = get_water_normal(surface_pos.xz);`
improve water, cleanup 2023-02-12 17:02:21 +01:00			`water_normal = lerp(UP, water_normal, _WaveStrength);`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
normal based water reflection 2023-02-12 16:34:03 +01:00			`dir = reflect(dir, water_normal);`
			`water_mod = dot(dir, water_normal);`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`}`
proper water reflections 2023-02-12 16:13:50 +01:00			`float y = abs(real_y);`
			`dir.y = abs(dir.y);`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
			`float phi = atan2(dir.x, dir.z);`

			`/// sky`
			`float factor = smoothstep(0.0, 0.5, dir.y + 0.2);`
			`factor = min(factor, 1.0);`
proper horizon colours yay 2023-02-12 19:13:24 +01:00			`fixed4 horizon_col = lerp(_SkyCol, _SunCol, _HorizonTint);`
			`fixed4 col = lerp(horizon_col, _SkyCol, factor);`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
			`/// stars`
			`float2 cells = float2(-1, floor(_StarDensity));`
			`float cell_x_base = floor(cells.y * PI);`
			`float celly = y * cells.y;`
			`// cells per ring depend on y pos, to reduce warping around the poles:`
			`cells.x = max(floor(cos(floor(celly)/_StarDensity) * cell_x_base), 3);`
			`float cellx = (phi / PI * cells.x);`

			`float2 pos = float2(cellx, celly);// cell-space pos of this fragment`
			`float2 cell_pos = float2(floor(cellx), floor(celly)); // position of this cell`
			`float2 cell_center = cell_pos + float2(0.5, 0.5);`

			`float2 star_pos = cell_center + (tex2D(_MainTex, cell_pos / cells + float2(0., 0.1)) - 0.5) * _StarRandom;`

			`/// star color`
			`float3 r = tex2D(_MainTex, cell_pos / cells);`
			`float rnum = frac((r.r + r.g - r.b) * 10);`
			`float rnum2 = frac((r.r - r.g + r.b) * 10);`

			`float star_size = _StarSize * (rnum * _StarSizeRandom + (1 - _StarSizeRandom));`

			`float distance = length(pos - star_pos);`
improve water, cleanup 2023-02-12 17:02:21 +01:00			`float star_strength = max(min(star_size / distance * 0.5, 1.25) - 0.25, 0); // star glow`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
improve water, cleanup 2023-02-12 17:02:21 +01:00			`star_strength = clamp(sin(y 2) - 0.1, 0, 1); // fade stars near/under horizon`
			`star_strength *= length(r) / 2; // fade stars`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`star_strength *= rnum2 > _StarsMissing; // remove stars`

			`fixed3 star_col = lerp(1.0, r, _StarTint);`

			`col = lerp(col, fixed4(star_col, 1.0), star_strength);`


			`/// debug grid`
improve water, cleanup 2023-02-12 17:02:21 +01:00			`col = lerp(col, WHITE, _Grid * (frac(cellx) < 0.04 \|\| frac(celly) < 0.04));`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
			`/// sun`
			`float3 sun_dir = float3(sin(_SunAngle), 0.0, cos(_SunAngle));`
			`float alignment = min(acos(dot(dir, sun_dir)), 1);`
proper horizon colours yay 2023-02-12 19:13:24 +01:00			`float sun_amount = smax(min(_SunRadius / alignment, 5) - _SunCutoff, 0, 0.15);`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00
			`col = lerp(col, _SunCol, sun_amount);`
normal based water reflection 2023-02-12 16:34:03 +01:00			`col = lerp(col, _WaterCol, water_mod);`
sunset box init, start work on water part of shader 2023-02-12 14:49:04 +01:00			`return col;`
			`}`
			`ENDCG`
			`}`
			`}`
			`}`