NarumiSTG_HyperSnowDrifter/script/sample/SampleVS03_HLSL.txt

sampler sampler0_ : register(s0);

//The following semantic-linked global variables are provided by the engine.
//	WORLD		(float4x4)
//		The transformation matrix of the render object.
//	VIEW		(float4x4)
//		The view matrix. Used to transform world coordinates to camera coordinates.
//	PROJECTION	(float4x4)
//		The projection matrix. Used to transform camera coordinates to device coordinates.
//	FOGENABLE	(bool)
//		A boolean indicating whether fog was enabled for the render object.
//	FOGCOLOR	(float4)
//		The color of the fog set with SetFogParam. The packing format is (r, g, b, a).
//	FOGDIST		(float2)
//		The ranges of the fog set with SetFogParam. The packing format is (fog start, fog end).

float4x4 g_mWorld : WORLD : register(c0);
float4x4 g_mView : VIEW : register(c4);
float4x4 g_mProj : PROJECTION : register(c8);

float4 g_vFogColor : FOGCOLOR : register(c12);
float2 g_vFogDist : FOGDIST : register(c13);

float frame_;

struct VS_INPUT {
	float4 position : POSITION;
	float4 diffuse : COLOR0;
	float2 texCoord : TEXCOORD0;
};
struct VS_OUTPUT {
	float4 position : POSITION;
	float4 diffuse : COLOR0;
	float2 texCoord : TEXCOORD0;
	float fog : FOG;
};

VS_OUTPUT mainVS(VS_INPUT InVs) {
	VS_OUTPUT OutVs;

	OutVs.diffuse = InVs.diffuse;
	OutVs.texCoord = InVs.texCoord - float2(frame_, 0);
	OutVs.position = mul(InVs.position, g_mWorld);
	OutVs.position = mul(OutVs.position, g_mView);
	
	OutVs.fog = saturate((g_vFogDist.y - OutVs.position.z) / (g_vFogDist.y - g_vFogDist.x));
	
	OutVs.position = mul(OutVs.position, g_mProj);

	return OutVs;
}

float4 mainPS(VS_OUTPUT InPs) : COLOR0 {
	float4 color = tex2D(sampler0_, InPs.texCoord);
	color.rgb = lerp(g_vFogColor.rgb, color.rgb, InPs.fog);
	return color * InPs.diffuse;
}

technique Render {
	pass P0 {
		VertexShader = compile vs_3_0 mainVS();
		PixelShader = compile ps_3_0 mainPS();
	}
}
commit 1 2023-01-26 11:34:56 +00:00			`sampler sampler0_ : register(s0);`

			`//The following semantic-linked global variables are provided by the engine.`
			`// WORLD (float4x4)`
			`// The transformation matrix of the render object.`
			`// VIEW (float4x4)`
			`// The view matrix. Used to transform world coordinates to camera coordinates.`
			`// PROJECTION (float4x4)`
			`// The projection matrix. Used to transform camera coordinates to device coordinates.`
			`// FOGENABLE (bool)`
			`// A boolean indicating whether fog was enabled for the render object.`
			`// FOGCOLOR (float4)`
			`// The color of the fog set with SetFogParam. The packing format is (r, g, b, a).`
			`// FOGDIST (float2)`
			`// The ranges of the fog set with SetFogParam. The packing format is (fog start, fog end).`

			`float4x4 g_mWorld : WORLD : register(c0);`
			`float4x4 g_mView : VIEW : register(c4);`
			`float4x4 g_mProj : PROJECTION : register(c8);`

			`float4 g_vFogColor : FOGCOLOR : register(c12);`
			`float2 g_vFogDist : FOGDIST : register(c13);`

			`float frame_;`

			`struct VS_INPUT {`
			`float4 position : POSITION;`
			`float4 diffuse : COLOR0;`
			`float2 texCoord : TEXCOORD0;`
			`};`
			`struct VS_OUTPUT {`
			`float4 position : POSITION;`
			`float4 diffuse : COLOR0;`
			`float2 texCoord : TEXCOORD0;`
			`float fog : FOG;`
			`};`

			`VS_OUTPUT mainVS(VS_INPUT InVs) {`
			`VS_OUTPUT OutVs;`

			`OutVs.diffuse = InVs.diffuse;`
			`OutVs.texCoord = InVs.texCoord - float2(frame_, 0);`
			`OutVs.position = mul(InVs.position, g_mWorld);`
			`OutVs.position = mul(OutVs.position, g_mView);`

			`OutVs.fog = saturate((g_vFogDist.y - OutVs.position.z) / (g_vFogDist.y - g_vFogDist.x));`

			`OutVs.position = mul(OutVs.position, g_mProj);`

			`return OutVs;`
			`}`

			`float4 mainPS(VS_OUTPUT InPs) : COLOR0 {`
			`float4 color = tex2D(sampler0_, InPs.texCoord);`
			`color.rgb = lerp(g_vFogColor.rgb, color.rgb, InPs.fog);`
			`return color * InPs.diffuse;`
			`}`

			`technique Render {`
			`pass P0 {`
			`VertexShader = compile vs_3_0 mainVS();`
			`PixelShader = compile ps_3_0 mainPS();`
			`}`
			`}`