examples: New example source shaders

This commit is contained in:
Michael Fabian 'Xaymar' Dirks 2019-12-18 07:50:49 +01:00
parent d13778b017
commit 3f5adab815
3 changed files with 241 additions and 79 deletions

View file

@ -38,7 +38,7 @@ The subject line of a commit should begin with the prefix followed by a `: `, an
### Prefixes ### Prefixes
- effects: Anything modifying generic effects like blur.effect, color-conversion.effect, mask.effect, etc. - effects: Anything modifying generic effects like blur.effect, color-conversion.effect, mask.effect, etc.
- locale: Changes in `/data/locale`. - locale: Changes in `/data/locale`.
- shaders: Changes in `/data/shaders` that are not directly influenced by a change to custom shaders. - examples: Changes in `/data/examples` that are not directly influenced by a change to one of the filters, sources or transitions.
- project: Changes to files like README, CONTRIBUTING, AUTHORS, etc. - project: Changes to files like README, CONTRIBUTING, AUTHORS, etc.
- cmake: Changes to CMake build scripts. - cmake: Changes to CMake build scripts.
- ci: Changes to Continuous Integration. - ci: Changes to Continuous Integration.

View file

@ -8,46 +8,65 @@ uniform float4x4 ViewProj<
uniform float4 Time< uniform float4 Time<
bool visible = false; bool visible = false;
string name = "Time Array"; string name = "Time Array";
string description = "A float4 value containing the total time, rendering time and the time since the last tick. The last value is a random number between 0 and 1."; string description = "A float array of length 4, with the indexes being:\n[0] Time Visible in Seconds\n[1] Last Render Time\n[2] Current System Time (24h looping)\n[3] Random value between 0 and 1.";
>; >;
uniform float4x4 Random< /*uniform float4x4 Random<
bool visible = false; bool visible = false;
string name = "Random Array"; string name = "Random Matrix";
string description = "A float4x4 value containing random values between 0 and 1"; string description = "A float4x4 value containing random values between 0 and 1. Changes every frame.";
>; >;
uniform float4x4 Seed<
bool visible = false;
string name = "Seed Matrix";
string description = "A float4x4 value containing random seeds values between 0 and 1. Values determined once on Source creation.";
>;*/
// Shader Parameters // Parameters
uniform float4 p_my_val< uniform bool BoolParameter<
bool visible = true; bool visible = true;
string name = "Color"; string name = "Bool Parameter";
float4 minimum = {0., 0., 0., 0.}; string description = "Example";
float4 maximum = {1., 1., 1., 1.}; >;
float4 step = {.01, .01, .01, .01}; /*uniform int IntParameter<
> = {0., 0., 0., 1.};
uniform float2 p_plasma1<
bool visible = true; bool visible = true;
string name = "Plasma UV 1"; string name = "Int Parameter";
string mode = "slider"; string description = "Example";
float2 minimum = {0., 0.}; >;
float2 maximum = {1., 1.}; uniform int2 Int2Parameter<
float2 step = {.01, .01};
> = {0.25, 0.25};
uniform float2 p_plasma2<
bool visible = true; bool visible = true;
string name = "Plasma UV 2"; string name = "Int2 Parameter";
string mode = "slider"; string description = "Example";
float2 minimum = {0., 0.}; >;
float2 maximum = {1., 1.}; uniform int3 Int3Parameter<
float2 step = {.01, .01};
> = {0.75, 0.75};
uniform float4 p_plasma_color<
bool visible = true; bool visible = true;
string name = "Plasma Color"; string name = "Int3 Parameter";
float4 minimum = {0., 0., 0., 0.}; string description = "Example";
float4 maximum = {1., 1., 1., 1.}; >;
float4 step = {.01, .01, .01, .01}; uniform int4 Int4Parameter<
> = {1.0, 1.0, 1.0, 1.0}; bool visible = true;
string name = "Int4 Parameter";
string description = "Example";
>;*/
uniform float FloatParameter<
bool visible = true;
string name = "Float Parameter";
string description = "Example";
>;
uniform float2 Float2Parameter<
bool visible = true;
string name = "Float2 Parameter";
string description = "Example";
>;
uniform float3 Float3Parameter<
bool visible = true;
string name = "Float3 Parameter";
string description = "Example";
>;
uniform float4 Float4Parameter<
bool visible = true;
string name = "Float4 Parameter";
string description = "Example";
>;
// ---------- Shader Code // ---------- Shader Code
sampler_state def_sampler { sampler_state def_sampler {
@ -73,51 +92,12 @@ FragData VSDefault(VertData v_in) {
return vert_out; return vert_out;
} }
// ---------- Random Color float4 PSTime(FragData v_in) : TARGET {
float4 PS_Random(FragData v_in) : TARGET { return float4(
return float4(Random[0][0], Random[0][1], Random[0][2], 1.0); cos(Time[0] * 5.) * 0.5 + 0.5,
} cos(Time[0] * 0.) * 0.5 + 0.5,
cos(Time[0] * 0.) * 0.5 + 0.5,
technique Random 1.0);
{
pass
{
vertex_shader = VSDefault(v_in);
pixel_shader = PS_Random(v_in);
}
}
// ---------- Plasma Color
float4 PS_Plasma(FragData v_in) : TARGET {
float dst1 = distance(v_in.uv, p_plasma1);
float dst2 = distance(v_in.uv, p_plasma2);
float dst1s = dst1 * dst1;
float dst2s = dst2 * dst2;
float dst = min(dst1s, dst2s) * (50. + (1. + sin(Time.y * 5.0)) * 100.0);
float4 t;
t.a = 1.;
t.r = p_plasma_color.r * ((1. + sin(dst)) * .5);
t.g = p_plasma_color.g * ((1. + cos(dst)) * .5);
t.b = p_plasma_color.b * ((1. + sin(dst)) * .5) * ((1. + cos(dst)) * .5);
return t;
}
technique Plasma
{
pass
{
vertex_shader = VSDefault(v_in);
pixel_shader = PS_Plasma(v_in);
}
}
// ---------- Fixed Color
float4 PS_Fixed(FragData v_in) : TARGET {
return p_my_val;
} }
technique Draw technique Draw
@ -125,6 +105,77 @@ technique Draw
pass pass
{ {
vertex_shader = VSDefault(v_in); vertex_shader = VSDefault(v_in);
pixel_shader = PS_Fixed(v_in); pixel_shader = PSTime(v_in);
}
}
float4 PSBool(FragData v_in) : TARGET {
if (BoolParameter)
return float4(
cos(Time[0] * 5.) * 0.5 + 0.5,
cos(Time[0] * 0.) * 0.5 + 0.5,
cos(Time[0] * 0.) * 0.5 + 0.5,
1.0);
return float4(0, 0, 0, 1.0);
}
technique Bool
{
pass
{
vertex_shader = VSDefault(v_in);
pixel_shader = PSBool(v_in);
}
}
float4 PSFloat(FragData v_in) : TARGET {
return float4(FloatParameter.xxx, 1.0);
}
technique Float
{
pass
{
vertex_shader = VSDefault(v_in);
pixel_shader = PSFloat(v_in);
}
}
float4 PSFloat2(FragData v_in) : TARGET {
return Float2Parameter.xxxy;
}
technique Float2
{
pass
{
vertex_shader = VSDefault(v_in);
pixel_shader = PSFloat2(v_in);
}
}
float4 PSFloat3(FragData v_in) : TARGET {
return float4(Float3Parameter, 1.0);
}
technique Float3
{
pass
{
vertex_shader = VSDefault(v_in);
pixel_shader = PSFloat3(v_in);
}
}
float4 PSFloat4(FragData v_in) : TARGET {
return Float4Parameter;
}
technique Float4
{
pass
{
vertex_shader = VSDefault(v_in);
pixel_shader = PSFloat4(v_in);
} }
} }

View file

@ -0,0 +1,111 @@
// Always provided by OBS
uniform float4x4 ViewProj<
bool visible = false;
string name = "View Projection Matrix";
>;
// Provided by Stream Effects
uniform float4 Time<
bool visible = false;
string name = "Time Array";
string description = "A float array of length 4, with the indexes being:\n[0] Time Visible in Seconds\n[1] Last Render Time\n[2] Current System Time (24h looping)\n[3] Random value between 0 and 1.";
>;
// Params
uniform float PlasmaScale<
bool visible = true;
string name = "Plasma Scale";
float min = 100.0;
float max = 1000.0;
> = 100.0;
uniform float3 LowColor<
float min = 0.0;
float max = 100.0;
> = {0.0, 0.0, 0.0};
uniform float3 MiddleColor<
float min = 0.0;
float max = 100.0;
> = {0.5, 0.5, 0.5};
uniform float3 HighColor<
float min = 0.0;
float max = 100.0;
> = {1.0, 1.0, 1.0};
struct StageData {
float4 pos : POSITION;
float2 uv : TEXCOORD0;
};
StageData VSDefault(StageData data) {
data.pos = mul(float4(data.pos.xyz, 1.0), ViewProj);
return data;
}
float Plasma1(float2 uv, float t) {
return sin(uv.x * 10 + t);
}
float Plasma2(float2 uv, float t) {
return sin(10 * (uv.x*sin(t/2)+uv.y*cos(t/3))+t);
}
float Plasma3(float2 uv, float t) {
float cx = uv.x + .5*sin(t/5);
float cy = uv.y + .5*cos(t/3);
return sin(sqrt(100*(cx*cx+cy*cy)+1)+t);
}
float4 BasicPlasma(StageData data) : TARGET {
return float4(Plasma1(data.uv, Time[0]), Plasma2(data.uv, Time[0]), Plasma3(data.uv, Time[0]), 1.0);
}
technique Basic
{
pass
{
vertex_shader = VSDefault(data);
pixel_shader = BasicPlasma(data);
}
}
float4 Plasma(StageData data) : TARGET {
float a = Plasma1(data.uv, Time[0]);
float b = Plasma2(data.uv, Time[0]);
float c = Plasma3(data.uv, Time[0]);
float v = abs(sin((a + b + c) * (PlasmaScale / 100.0)));
return float4(v,v,v, 1.0);
}
technique Draw
{
pass
{
vertex_shader = VSDefault(data);
pixel_shader = Plasma(data);
}
}
float4 ColoredPlasma(StageData data) : TARGET {
float a = Plasma1(data.uv, Time[0]);
float b = Plasma2(data.uv, Time[0]);
float c = Plasma3(data.uv, Time[0]);
float v = abs(sin((a + b + c) * (PlasmaScale / 100.0)));
float v1 = clamp(v * 2.0, 0., 1.);
float v2 = clamp((v - 0.5) * 2.0, 0., 1.);
float3 col = lerp(lerp(LowColor, MiddleColor, v1), HighColor, v2);
return float4(col, 1.0);
}
technique Colored
{
pass
{
vertex_shader = VSDefault(data);
pixel_shader = ColoredPlasma(data);
}
}