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/******************************************************************************
Copyright (C) 2014 by Hugh Bailey <obs.jim@gmail.com>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
******************************************************************************/
//#define DEBUGGING
uniform float4x4 ViewProj;
uniform float u_plane_offset;
uniform float v_plane_offset;
uniform float width;
uniform float height;
uniform float width_i;
uniform float height_i;
uniform float width_d2;
uniform float height_d2;
uniform float width_d2_i;
uniform float height_d2_i;
uniform float input_width;
uniform float input_height;
uniform float input_width_i;
uniform float input_height_i;
uniform float input_width_i_d2;
uniform float input_height_i_d2;
uniform texture2d image;
sampler_state def_sampler {
Filter = Linear;
AddressU = Clamp;
AddressV = Clamp;
};
struct VertInOut {
float4 pos : POSITION;
float2 uv : TEXCOORD0;
};
VertInOut VSDefault(VertInOut vert_in)
{
VertInOut vert_out;
vert_out.pos = mul(float4(vert_in.pos.xyz, 1.0), ViewProj);
vert_out.uv = vert_in.uv;
return vert_out;
}
/* used to prevent internal GPU precision issues width fmod in particular */
#define PRECISION_OFFSET 0.2
float4 PSNV12(VertInOut vert_in) : TARGET
{
float v_mul = floor(vert_in.uv.y * input_height);
float byte_offset = floor((v_mul + vert_in.uv.x) * width) * 4.0;
byte_offset += PRECISION_OFFSET;
float2 sample_pos[4];
if (byte_offset < u_plane_offset) {
#ifdef DEBUGGING
return float4(1.0, 1.0, 1.0, 1.0);
#endif
float lum_u = floor(fmod(byte_offset, width)) * width_i;
float lum_v = floor(byte_offset * width_i) * height_i;
/* move to texel centers to sample the 4 pixels properly */
lum_u += width_i * 0.5;
lum_v += height_i * 0.5;
sample_pos[0] = float2(lum_u, lum_v);
sample_pos[1] = float2(lum_u += width_i, lum_v);
sample_pos[2] = float2(lum_u += width_i, lum_v);
sample_pos[3] = float2(lum_u + width_i, lum_v);
float4x4 out_val = float4x4(
image.Sample(def_sampler, sample_pos[0]),
image.Sample(def_sampler, sample_pos[1]),
image.Sample(def_sampler, sample_pos[2]),
image.Sample(def_sampler, sample_pos[3])
);
return transpose(out_val)[1];
} else {
#ifdef DEBUGGING
return float4(0.5, 0.2, 0.5, 0.2);
#endif
float new_offset = byte_offset - u_plane_offset;
float ch_u = floor(fmod(new_offset, width)) * width_i;
float ch_v = floor(new_offset * width_i) * height_d2_i;
float width_i2 = width_i*2.0;
/* move to the borders of each set of 4 pixels to force it
* to do bilinear averaging */
ch_u += width_i;
ch_v += height_i;
sample_pos[0] = float2(ch_u, ch_v);
sample_pos[1] = float2(ch_u + width_i2, ch_v);
return float4(
image.Sample(def_sampler, sample_pos[0]).rb,
image.Sample(def_sampler, sample_pos[1]).rb
);
}
}
float4 PSPlanar420(VertInOut vert_in) : TARGET
{
float v_mul = floor(vert_in.uv.y * input_height);
float byte_offset = floor((v_mul + vert_in.uv.x) * width) * 4.0;
byte_offset += PRECISION_OFFSET;
float2 sample_pos[4];
if (byte_offset < u_plane_offset) {
#ifdef DEBUGGING
return float4(1.0, 1.0, 1.0, 1.0);
#endif
float lum_u = floor(fmod(byte_offset, width)) * width_i;
float lum_v = floor(byte_offset * width_i) * height_i;
/* move to texel centers to sample the 4 pixels properly */
lum_u += width_i * 0.5;
lum_v += height_i * 0.5;
sample_pos[0] = float2(lum_u, lum_v);
sample_pos[1] = float2(lum_u += width_i, lum_v);
sample_pos[2] = float2(lum_u += width_i, lum_v);
sample_pos[3] = float2(lum_u + width_i, lum_v);
} else {
#ifdef DEBUGGING
return ((byte_offset < v_plane_offset) ?
float4(0.5, 0.5, 0.5, 0.5) :
float4(0.2, 0.2, 0.2, 0.2));
#endif
float new_offset = byte_offset -
((byte_offset < v_plane_offset) ?
u_plane_offset : v_plane_offset);
float ch_u = floor(fmod(new_offset, width_d2)) * width_d2_i;
float ch_v = floor(new_offset * width_d2_i) * height_d2_i;
float width_i2 = width_i*2.0;
/* move to the borders of each set of 4 pixels to force it
* to do bilinear averaging */
ch_u += width_i;
ch_v += height_i;
sample_pos[0] = float2(ch_u, ch_v);
sample_pos[1] = float2(ch_u += width_i2, ch_v);
sample_pos[2] = float2(ch_u += width_i2, ch_v);
sample_pos[3] = float2(ch_u + width_i2, ch_v);
}
float4x4 out_val = float4x4(
image.Sample(def_sampler, sample_pos[0]),
image.Sample(def_sampler, sample_pos[1]),
image.Sample(def_sampler, sample_pos[2]),
image.Sample(def_sampler, sample_pos[3])
);
out_val = transpose(out_val);
if (byte_offset < u_plane_offset)
return out_val[1];
else if (byte_offset < v_plane_offset)
return out_val[0];
else
return out_val[2];
}
float4 PSPacked422_Reverse(VertInOut vert_in, int u_pos, int v_pos,
int y0_pos, int y1_pos) : TARGET
{
float y = vert_in.uv.y;
float odd = floor(fmod(width * vert_in.uv.x + PRECISION_OFFSET, 2.0));
float x = floor(width_d2 * vert_in.uv.x + PRECISION_OFFSET) *
width_d2_i;
x += input_width_i_d2;
float4 texel = image.Sample(def_sampler, float2(x, y));
return float4(odd > 0.5 ? texel[y1_pos] : texel[y0_pos],
texel[u_pos], texel[v_pos], 1.0);
}
float GetOffsetColor(float offset)
{
float2 uv;
offset += PRECISION_OFFSET;
uv.x = floor(fmod(offset, input_width)) * input_width_i;
uv.y = floor(offset * input_width_i) * input_height_i;
uv.xy += float2(input_width_i_d2, input_height_i_d2);
return image.Sample(def_sampler, uv).r;
}
float4 PSPlanar420_Reverse(VertInOut vert_in) : TARGET
{
float x = vert_in.uv.x;
float y = vert_in.uv.y;
float x_offset = floor(x * width + PRECISION_OFFSET);
float y_offset = floor(y * height + PRECISION_OFFSET);
float lum_offset = y_offset * width + x_offset + PRECISION_OFFSET;
lum_offset = floor(lum_offset);
float ch_offset = floor(y_offset * 0.5 + PRECISION_OFFSET) * width_d2 +
(x_offset * 0.5) + PRECISION_OFFSET;
ch_offset = floor(ch_offset);
return float4(
GetOffsetColor(lum_offset),
GetOffsetColor(u_plane_offset + ch_offset),
GetOffsetColor(v_plane_offset + ch_offset),
1.0
);
}
float4 PSNV12_Reverse(VertInOut vert_in) : TARGET
{
float x = vert_in.uv.x;
float y = vert_in.uv.y;
float x_offset = floor(x * width + PRECISION_OFFSET);
float y_offset = floor(y * height + PRECISION_OFFSET);
float lum_offset = y_offset * width + x_offset + PRECISION_OFFSET;
lum_offset = floor(lum_offset);
float ch_offset = floor(y_offset * 0.5 + PRECISION_OFFSET) * width_d2 +
(x_offset * 0.5);
ch_offset = floor(ch_offset * 2.0 + PRECISION_OFFSET);
return float4(
GetOffsetColor(lum_offset),
GetOffsetColor(u_plane_offset + ch_offset),
GetOffsetColor(u_plane_offset + ch_offset + 1.0),
1.0
);
}
technique Planar420
{
pass
{
vertex_shader = VSDefault(vert_in);
pixel_shader = PSPlanar420(vert_in);
}
}
technique NV12
{
pass
{
vertex_shader = VSDefault(vert_in);
pixel_shader = PSNV12(vert_in);
}
}
technique UYVY_Reverse
{
pass
{
vertex_shader = VSDefault(vert_in);
pixel_shader = PSPacked422_Reverse(vert_in, 2, 0, 1, 3);
}
}
technique YUY2_Reverse
{
pass
{
vertex_shader = VSDefault(vert_in);
pixel_shader = PSPacked422_Reverse(vert_in, 1, 3, 2, 0);
}
}
technique YVYU_Reverse
{
pass
{
vertex_shader = VSDefault(vert_in);
pixel_shader = PSPacked422_Reverse(vert_in, 3, 1, 2, 0);
}
}
technique I420_Reverse
{
pass
{
vertex_shader = VSDefault(vert_in);
pixel_shader = PSPlanar420_Reverse(vert_in);
}
}
technique NV12_Reverse
{
pass
{
vertex_shader = VSDefault(vert_in);
pixel_shader = PSNV12_Reverse(vert_in);
}
}
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