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/* clang-format off */
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#[modes]
mode_default =
mode_cubemap = #define USE_CUBEMAP
mode_panorama = #define USE_PANORAMA
mode_copy_section = #define USE_COPY_SECTION
mode_asym_pano = #define USE_ASYM_PANO
mode_no_alpha = #define USE_NO_ALPHA
mode_custom_alpha = #define USE_CUSTOM_ALPHA
mode_multiplier = #define USE_MULTIPLIER
mode_sep_cbcr_texture = #define USE_SEP_CBCR_TEXTURE
mode_ycbcr_to_rgb = #define USE_YCBCR_TO_RGB
#[specializations]
#[vertex]
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#ifdef USE_GLES_OVER_GL
#define lowp
#define mediump
#define highp
#else
precision highp float;
precision highp int;
#endif
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layout(location = 0) in highp vec4 vertex_attrib;
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/* clang-format on */
#if defined(USE_CUBEMAP) || defined(USE_PANORAMA)
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layout(location = 4) in vec3 cube_in;
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#else
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layout(location = 4) in vec2 uv_in;
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#endif
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layout(location = 5) in vec2 uv2_in;
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#if defined(USE_CUBEMAP) || defined(USE_PANORAMA)
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out vec3 cube_interp;
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#else
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out vec2 uv_interp;
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#endif
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out vec2 uv2_interp;
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#ifdef USE_COPY_SECTION
uniform highp vec4 copy_section;
#elif defined(USE_DISPLAY_TRANSFORM)
uniform highp mat4 display_transform;
#endif
void main() {
#if defined(USE_CUBEMAP) || defined(USE_PANORAMA)
cube_interp = cube_in;
#elif defined(USE_ASYM_PANO)
uv_interp = vertex_attrib.xy;
#else
uv_interp = uv_in;
#endif
uv2_interp = uv2_in;
gl_Position = vertex_attrib;
#ifdef USE_COPY_SECTION
uv_interp = copy_section.xy + uv_interp * copy_section.zw;
gl_Position.xy = (copy_section.xy + (gl_Position.xy * 0.5 + 0.5) * copy_section.zw) * 2.0 - 1.0;
#elif defined(USE_DISPLAY_TRANSFORM)
uv_interp = (display_transform * vec4(uv_in, 1.0, 1.0)).xy;
#endif
}
/* clang-format off */
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#[fragment]
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#define M_PI 3.14159265359
#ifdef USE_GLES_OVER_GL
#define lowp
#define mediump
#define highp
#else
#if defined(USE_HIGHP_PRECISION)
precision highp float;
precision highp int;
#else
precision mediump float;
precision mediump int;
#endif
#endif
#if defined(USE_CUBEMAP) || defined(USE_PANORAMA)
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in vec3 cube_interp;
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#else
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in vec2 uv_interp;
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#endif
/* clang-format on */
#ifdef USE_ASYM_PANO
uniform highp mat4 pano_transform;
uniform highp vec4 asym_proj;
#endif
#ifdef USE_CUBEMAP
uniform samplerCube source_cube; // texunit:0
#else
uniform sampler2D source; // texunit:0
#endif
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#ifdef USE_SEP_CBCR_TEXTURE
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uniform sampler2D CbCr; //texunit:1
#endif
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in vec2 uv2_interp;
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#ifdef USE_MULTIPLIER
uniform float multiplier;
#endif
#ifdef USE_CUSTOM_ALPHA
uniform float custom_alpha;
#endif
#if defined(USE_PANORAMA) || defined(USE_ASYM_PANO)
uniform highp mat4 sky_transform;
vec4 texturePanorama(sampler2D pano, vec3 normal) {
vec2 st = vec2(
atan(normal.x, normal.z),
acos(normal.y));
if (st.x < 0.0)
st.x += M_PI * 2.0;
st /= vec2(M_PI * 2.0, M_PI);
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return texture(pano, st);
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}
#endif
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layout(location = 0) out vec4 frag_color;
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void main() {
#ifdef USE_PANORAMA
vec3 cube_normal = normalize(cube_interp);
cube_normal.z = -cube_normal.z;
cube_normal = mat3(sky_transform) * cube_normal;
cube_normal.z = -cube_normal.z;
vec4 color = texturePanorama(source, cube_normal);
#elif defined(USE_ASYM_PANO)
// When an asymmetrical projection matrix is used (applicable for stereoscopic rendering i.e. VR) we need to do this calculation per fragment to get a perspective correct result.
// Asymmetrical projection means the center of projection is no longer in the center of the screen but shifted.
// The Matrix[2][0] (= asym_proj.x) and Matrix[2][1] (= asym_proj.z) values are what provide the right shift in the image.
vec3 cube_normal;
cube_normal.z = -1.0;
cube_normal.x = (cube_normal.z * (-uv_interp.x - asym_proj.x)) / asym_proj.y;
cube_normal.y = (cube_normal.z * (-uv_interp.y - asym_proj.z)) / asym_proj.a;
cube_normal = mat3(sky_transform) * mat3(pano_transform) * cube_normal;
cube_normal.z = -cube_normal.z;
vec4 color = texturePanorama(source, normalize(cube_normal.xyz));
#elif defined(USE_CUBEMAP)
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vec4 color = texture(source_cube, normalize(cube_interp));
#elif defined(USE_SEP_CBCR_TEXTURE)
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vec4 color;
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color.r = texture(source, uv_interp).r;
color.gb = texture(CbCr, uv_interp).rg - vec2(0.5, 0.5);
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color.a = 1.0;
#else
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vec4 color = texture(source, uv_interp);
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#endif
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#ifdef USE_YCBCR_TO_RGB
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// YCbCr -> RGB conversion
// Using BT.601, which is the standard for SDTV is provided as a reference
color.rgb = mat3(
vec3(1.00000, 1.00000, 1.00000),
vec3(0.00000, -0.34413, 1.77200),
vec3(1.40200, -0.71414, 0.00000)) *
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color.rgb;
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#endif
#ifdef USE_NO_ALPHA
color.a = 1.0;
#endif
#ifdef USE_CUSTOM_ALPHA
color.a = custom_alpha;
#endif
#ifdef USE_MULTIPLIER
color.rgb *= multiplier;
#endif
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frag_color = color;
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}