[   0.000068] Config <Info> core/settings.cpp:LogSettings:80: Citra Configuration:
[   0.000070] Config <Info> core/settings.cpp:operator():77: Core_UseCpuJit: true
[   0.000071] Config <Info> core/settings.cpp:operator():77: Core_CPUClockPercentage: 100
[   0.000072] Config <Info> core/settings.cpp:operator():77: Renderer_UseGLES: false
[   0.000072] Config <Info> core/settings.cpp:operator():77: Renderer_UseHwRenderer: true
[   0.000073] Config <Info> core/settings.cpp:operator():77: Renderer_UseHwShader: true
[   0.000073] Config <Info> core/settings.cpp:operator():77: Renderer_SeparableShader: false
[   0.000074] Config <Info> core/settings.cpp:operator():77: Renderer_ShadersAccurateMul: true
[   0.000074] Config <Info> core/settings.cpp:operator():77: Renderer_UseShaderJit: true
[   0.000075] Config <Info> core/settings.cpp:operator():77: Renderer_UseResolutionFactor: 4
[   0.000076] Config <Info> core/settings.cpp:operator():77: Renderer_FrameLimit: 100
[   0.000076] Config <Info> core/settings.cpp:operator():77: Renderer_UseFrameLimitAlternate: true
[   0.000077] Config <Info> core/settings.cpp:operator():77: Renderer_FrameLimitAlternate: 200
[   0.000077] Config <Info> core/settings.cpp:operator():77: Renderer_VSyncNew: true
[   0.000078] Config <Info> core/settings.cpp:operator():77: Renderer_PostProcessingShader: none (builtin)
[   0.000078] Config <Info> core/settings.cpp:operator():77: Renderer_FilterMode: true
[   0.000078] Config <Info> core/settings.cpp:operator():77: Renderer_TextureFilterName: none
[   0.000079] Config <Info> core/settings.cpp:operator():77: Stereoscopy_Render3d: 0
[   0.000079] Config <Info> core/settings.cpp:operator():77: Stereoscopy_Factor3d: 0
[   0.000080] Config <Info> core/settings.cpp:operator():77: Layout_LayoutOption: 0
[   0.000080] Config <Info> core/settings.cpp:operator():77: Layout_SwapScreen: false
[   0.000081] Config <Info> core/settings.cpp:operator():77: Layout_UprightScreen: false
[   0.000081] Config <Info> core/settings.cpp:operator():77: Utility_DumpTextures: false
[   0.000082] Config <Info> core/settings.cpp:operator():77: Utility_CustomTextures: false
[   0.000082] Config <Info> core/settings.cpp:operator():77: Utility_UseDiskShaderCache: true
[   0.000082] Config <Info> core/settings.cpp:operator():77: Audio_EnableDspLle: false
[   0.000083] Config <Info> core/settings.cpp:operator():77: Audio_EnableDspLleMultithread: false
[   0.000089] Config <Info> core/settings.cpp:operator():77: Audio_OutputEngine: auto
[   0.000089] Config <Info> core/settings.cpp:operator():77: Audio_EnableAudioStretching: true
[   0.000090] Config <Info> core/settings.cpp:operator():77: Audio_OutputDevice: auto
[   0.000090] Config <Info> core/settings.cpp:operator():77: Audio_InputDeviceType: 0
[   0.000090] Config <Info> core/settings.cpp:operator():77: Audio_InputDevice: Default
[   0.000091] Config <Info> core/settings.cpp:operator():77: Camera_OuterRightName: blank
[   0.000091] Config <Info> core/settings.cpp:operator():77: Camera_OuterRightConfig: 
[   0.000092] Config <Info> core/settings.cpp:operator():77: Camera_OuterRightFlip: 0
[   0.000093] Config <Info> core/settings.cpp:operator():77: Camera_InnerName: blank
[   0.000093] Config <Info> core/settings.cpp:operator():77: Camera_InnerConfig: 
[   0.000093] Config <Info> core/settings.cpp:operator():77: Camera_InnerFlip: 0
[   0.000094] Config <Info> core/settings.cpp:operator():77: Camera_OuterLeftName: blank
[   0.000094] Config <Info> core/settings.cpp:operator():77: Camera_OuterLeftConfig: 
[   0.000095] Config <Info> core/settings.cpp:operator():77: Camera_OuterLeftFlip: 0
[   0.000095] Config <Info> core/settings.cpp:operator():77: DataStorage_UseVirtualSd: true
[   0.000096] Config <Info> core/settings.cpp:operator():77: DataStorage_SdmcDir: C:/Users/waghr/AppData/Roaming/Citra/sdmc/
[   0.000097] Config <Info> core/settings.cpp:operator():77: DataStorage_NandDir: C:/Users/waghr/AppData/Roaming/Citra/nand/
[   0.000097] Config <Info> core/settings.cpp:operator():77: System_IsNew3ds: true
[   0.000098] Config <Info> core/settings.cpp:operator():77: System_RegionValue: -1
[   0.000098] Config <Info> core/settings.cpp:operator():77: Debugging_UseGdbstub: false
[   0.000098] Config <Info> core/settings.cpp:operator():77: Debugging_GdbstubPort: 24689
[   0.155158] Input <Info> input_common/udp/client.cpp:StartCommunication:207: Starting communication with UDP input server on 127.0.0.1:26760
[   0.403619] Frontend <Info> citra_qt/main.cpp:GMainWindow:197: Citra Version: Nightly 1781  | HEAD-141471e
[   0.403629] Frontend <Info> citra_qt/main.cpp:GMainWindow:213: Host CPU: Intel(R) Core(TM) i5-7500 CPU @ 3.40GHz | AVX2 | FMA
[   0.403655] Frontend <Info> citra_qt/main.cpp:GMainWindow:215: Host OS: Windows 10 (10.0)
[   0.429266] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[   0.429282] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[   0.434602] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[   0.434608] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:256: Secure2 KeyX missing
[   0.434614] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[   0.443587] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[   0.443593] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:256: Secure2 KeyX missing
[   0.443599] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[   0.450385] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[   0.450448] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:256: Secure2 KeyX missing
[   0.450482] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[   1.244885] Frontend <Info> citra_qt/main.cpp:CheckForUpdates:839: Update check started
[   1.942148] Frontend <Info> citra_qt/main.cpp:OnUpdateFound:852: No updates found
[  63.645609] Config <Info> core/settings.cpp:LogSettings:80: Citra Configuration:
[  63.645617] Config <Info> core/settings.cpp:operator():77: Core_UseCpuJit: true
[  63.645618] Config <Info> core/settings.cpp:operator():77: Core_CPUClockPercentage: 100
[  63.645619] Config <Info> core/settings.cpp:operator():77: Renderer_UseGLES: false
[  63.645620] Config <Info> core/settings.cpp:operator():77: Renderer_UseHwRenderer: true
[  63.645620] Config <Info> core/settings.cpp:operator():77: Renderer_UseHwShader: true
[  63.645621] Config <Info> core/settings.cpp:operator():77: Renderer_SeparableShader: false
[  63.645621] Config <Info> core/settings.cpp:operator():77: Renderer_ShadersAccurateMul: true
[  63.645622] Config <Info> core/settings.cpp:operator():77: Renderer_UseShaderJit: true
[  63.645623] Config <Info> core/settings.cpp:operator():77: Renderer_UseResolutionFactor: 4
[  63.645623] Config <Info> core/settings.cpp:operator():77: Renderer_FrameLimit: 100
[  63.645624] Config <Info> core/settings.cpp:operator():77: Renderer_UseFrameLimitAlternate: true
[  63.645624] Config <Info> core/settings.cpp:operator():77: Renderer_FrameLimitAlternate: 200
[  63.645625] Config <Info> core/settings.cpp:operator():77: Renderer_VSyncNew: true
[  63.645625] Config <Info> core/settings.cpp:operator():77: Renderer_PostProcessingShader: none (builtin)
[  63.645626] Config <Info> core/settings.cpp:operator():77: Renderer_FilterMode: true
[  63.645626] Config <Info> core/settings.cpp:operator():77: Renderer_TextureFilterName: none
[  63.645627] Config <Info> core/settings.cpp:operator():77: Stereoscopy_Render3d: 0
[  63.645627] Config <Info> core/settings.cpp:operator():77: Stereoscopy_Factor3d: 0
[  63.645628] Config <Info> core/settings.cpp:operator():77: Layout_LayoutOption: 0
[  63.645629] Config <Info> core/settings.cpp:operator():77: Layout_SwapScreen: false
[  63.645629] Config <Info> core/settings.cpp:operator():77: Layout_UprightScreen: false
[  63.645630] Config <Info> core/settings.cpp:operator():77: Utility_DumpTextures: false
[  63.645631] Config <Info> core/settings.cpp:operator():77: Utility_CustomTextures: false
[  63.645631] Config <Info> core/settings.cpp:operator():77: Utility_UseDiskShaderCache: true
[  63.645632] Config <Info> core/settings.cpp:operator():77: Audio_EnableDspLle: false
[  63.645632] Config <Info> core/settings.cpp:operator():77: Audio_EnableDspLleMultithread: false
[  63.645633] Config <Info> core/settings.cpp:operator():77: Audio_OutputEngine: auto
[  63.645633] Config <Info> core/settings.cpp:operator():77: Audio_EnableAudioStretching: true
[  63.645634] Config <Info> core/settings.cpp:operator():77: Audio_OutputDevice: auto
[  63.645634] Config <Info> core/settings.cpp:operator():77: Audio_InputDeviceType: 0
[  63.645635] Config <Info> core/settings.cpp:operator():77: Audio_InputDevice: Default
[  63.645635] Config <Info> core/settings.cpp:operator():77: Camera_OuterRightName: blank
[  63.645636] Config <Info> core/settings.cpp:operator():77: Camera_OuterRightConfig: 
[  63.645636] Config <Info> core/settings.cpp:operator():77: Camera_OuterRightFlip: 0
[  63.645637] Config <Info> core/settings.cpp:operator():77: Camera_InnerName: blank
[  63.645637] Config <Info> core/settings.cpp:operator():77: Camera_InnerConfig: 
[  63.645638] Config <Info> core/settings.cpp:operator():77: Camera_InnerFlip: 0
[  63.645638] Config <Info> core/settings.cpp:operator():77: Camera_OuterLeftName: blank
[  63.645639] Config <Info> core/settings.cpp:operator():77: Camera_OuterLeftConfig: 
[  63.645640] Config <Info> core/settings.cpp:operator():77: Camera_OuterLeftFlip: 0
[  63.645640] Config <Info> core/settings.cpp:operator():77: DataStorage_UseVirtualSd: true
[  63.645642] Config <Info> core/settings.cpp:operator():77: DataStorage_SdmcDir: C:/Users/waghr/AppData/Roaming/Citra/sdmc/
[  63.645642] Config <Info> core/settings.cpp:operator():77: DataStorage_NandDir: C:/Users/waghr/AppData/Roaming/Citra/nand/
[  63.645643] Config <Info> core/settings.cpp:operator():77: System_IsNew3ds: true
[  63.645644] Config <Info> core/settings.cpp:operator():77: System_RegionValue: -1
[  63.645644] Config <Info> core/settings.cpp:operator():77: Debugging_UseGdbstub: false
[  63.645645] Config <Info> core/settings.cpp:operator():77: Debugging_GdbstubPort: 24689
[  63.646197] Frontend <Info> citra_qt/game_list.cpp:RefreshGameDirectory:720: Change detected in the games directory. Reloading game list.
[  63.648439] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[  63.648506] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[  63.649981] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[  63.649985] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:256: Secure2 KeyX missing
[  63.649990] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[  63.651325] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[  63.651329] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:256: Secure2 KeyX missing
[  63.651334] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[  63.652952] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[  63.652957] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:256: Secure2 KeyX missing
[  63.652962] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[  66.081017] Frontend <Info> citra_qt/main.cpp:BootGame:1031: Citra starting...
[  66.124948] Service.FS <Error> core/file_sys/ncch_container.cpp:Load:242: Secure1 KeyX missing
[  66.124957] Service.FS <Warning> core/file_sys/ncch_container.cpp:Load:342: NCCH is marked as encrypted but with decrypted exheader. Force no crypto scheme.
[  66.197366] Audio.DSP <Info> audio_core/hle/wmf_decoder.cpp:Impl:67: Media Foundation activated
[  66.199468] Audio.DSP <Info> audio_core/hle/wmf_decoder_utils.cpp:MFDecoderInit:50: Windows(R) Media Foundation found 1 suitable decoder(s)
[  66.256432] Audio.Sink <Info> audio_core/cubeb_sink.cpp:StateCallback:137: Cubeb Audio Stream Started
[  66.256444] RPC_Server <Info> core/rpc/rpc_server.cpp:RPCServer:12: Starting RPC server ...
[  66.256583] RPC_Server <Info> core/rpc/rpc_server.cpp:HandleRequestsLoop:113: Request handler started.
[  66.256662] RPC_Server <Info> core/rpc/rpc_server.cpp:RPCServer:16: RPC started.
[  66.258667] Service.HTTP <Error> core/hle/service/http_c.cpp:DecryptClCertA:806: ClCertA file missing
[  66.289441] Render.OpenGL <Info> video_core/renderer_opengl/renderer_opengl.cpp:Init:1261: GL_VERSION: 3.3.0 Core Profile Context 22.8.2.220819
[  66.289447] Render.OpenGL <Info> video_core/renderer_opengl/renderer_opengl.cpp:Init:1262: GL_VENDOR: ATI Technologies Inc.
[  66.289448] Render.OpenGL <Info> video_core/renderer_opengl/renderer_opengl.cpp:Init:1263: GL_RENDERER: Radeon RX 590 Series
[  66.328176] Render.OpenGL <Info> video_core/renderer_opengl/gl_format_reinterpreter.cpp:ShaderD24S8toRGBA8:291: Texture views are unsupported, reinterpretation will do intermediate copy
[  66.328183] Render.OpenGL <Info> video_core/renderer_opengl/gl_format_reinterpreter.cpp:FormatReinterpreterOpenGL:378: Using shader for D24S8 to RGBA8 reinterpretation
[  66.331524] Render.OpenGL <Warning> video_core/renderer_opengl/gl_rasterizer.cpp:RasterizerOpenGL:61: Shadow might not be able to render because of unsupported OpenGL extensions.
[  66.334516] Loader <Info> core/loader/ncch.cpp:Load:192: Program ID: 0004000000055D00
[  66.334614] Service.FS <Warning> core/file_sys/ncch_container.cpp:OpenFile:130: Failed to open C:/Users/waghr/AppData/Roaming/Citra/sdmc/Nintendo 3DS/00000000000000000000000000000000/00000000000000000000000000000000/title/0004000e/00055d00/content/00000000.app
[  66.372014] Loader <Info> core/hle/kernel/process.cpp:ParseKernelCaps:141: ExHeader kernel version: 2.35
[  66.374261] Service.CFG <Info> core/hle/service/cfg/cfg.cpp:SetPreferredRegionCodes:656: Preferred region code set to 1
[  66.437223] Render.OpenGL <Info> video_core/renderer_opengl/gl_shader_disk_cache.cpp:LoadTransferable:169: Found a transferable disk cache with 2339 entries
[  66.437329] Render.OpenGL <Info> video_core/renderer_opengl/gl_shader_disk_cache.cpp:LoadPrecompiled:180: No precompiled shader cache found for game with title id=0004000000055D00
[  66.482484] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadShader:63: Error compiling fragment shader:
WARNING: 0:29: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:29: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:133: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:133: 'defined' : nonportable when expanded from macros for preprocessor expression 
ERROR: 0:149: 'imageSize' : no matching overloaded function found 
ERROR: 0:149: '' : missing #endif 
ERROR: 0:149: '' : compilation terminated 
ERROR: 3 compilation errors.  No code generated.


[  66.482494] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadShader:65: Shader source code:
#version 330

#extension GL_ARB_shader_image_load_store : enable
#extension GL_ARB_shader_image_size : enable
#define ALLOW_SHADOW (defined(GL_ARB_shader_image_load_store) && defined(GL_ARB_shader_image_size))
#extension GL_ARB_separate_shader_objects : enable
layout (location=1) in vec4 primary_color;
layout (location=2) in vec2 texcoord0;
layout (location=3) in vec2 texcoord1;
layout (location=4) in vec2 texcoord2;
layout (location=5) in float texcoord0_w;
layout (location=6) in vec4 normquat;
layout (location=7) in vec3 view;

#ifndef CITRA_GLES
in vec4 gl_FragCoord;
#endif // CITRA_GLES

out vec4 color;

uniform sampler2D tex0;
uniform sampler2D tex1;
uniform sampler2D tex2;
uniform samplerCube tex_cube;
uniform samplerBuffer texture_buffer_lut_lf;
uniform samplerBuffer texture_buffer_lut_rg;
uniform samplerBuffer texture_buffer_lut_rgba;

#if ALLOW_SHADOW
layout(r32ui) uniform readonly uimage2D shadow_texture_px;
layout(r32ui) uniform readonly uimage2D shadow_texture_nx;
layout(r32ui) uniform readonly uimage2D shadow_texture_py;
layout(r32ui) uniform readonly uimage2D shadow_texture_ny;
layout(r32ui) uniform readonly uimage2D shadow_texture_pz;
layout(r32ui) uniform readonly uimage2D shadow_texture_nz;
layout(r32ui) uniform uimage2D shadow_buffer;
#endif

#define NUM_TEV_STAGES 6
#define NUM_LIGHTS 8
#define NUM_LIGHTING_SAMPLERS 24

struct LightSrc {
    vec3 specular_0;
    vec3 specular_1;
    vec3 diffuse;
    vec3 ambient;
    vec3 position;
    vec3 spot_direction;
    float dist_atten_bias;
    float dist_atten_scale;
};

layout (std140) uniform shader_data {
    int framebuffer_scale;
    int alphatest_ref;
    float depth_scale;
    float depth_offset;
    float shadow_bias_constant;
    float shadow_bias_linear;
    int scissor_x1;
    int scissor_y1;
    int scissor_x2;
    int scissor_y2;
    int fog_lut_offset;
    int proctex_noise_lut_offset;
    int proctex_color_map_offset;
    int proctex_alpha_map_offset;
    int proctex_lut_offset;
    int proctex_diff_lut_offset;
    float proctex_bias;
    int shadow_texture_bias;
    ivec4 lighting_lut_offset[NUM_LIGHTING_SAMPLERS / 4];
    vec3 fog_color;
    vec2 proctex_noise_f;
    vec2 proctex_noise_a;
    vec2 proctex_noise_p;
    vec3 lighting_global_ambient;
    LightSrc light_src[NUM_LIGHTS];
    vec4 const_color[NUM_TEV_STAGES];
    vec4 tev_combiner_buffer_color;
    vec4 clip_coef;
};

// Rotate the vector v by the quaternion q
vec3 quaternion_rotate(vec4 q, vec3 v) {
    return v + 2.0 * cross(q.xyz, cross(q.xyz, v) + q.w * v);
}

float LookupLightingLUT(int lut_index, int index, float delta) {
    vec2 entry = texelFetch(texture_buffer_lut_lf, lighting_lut_offset[lut_index >> 2][lut_index & 3] + index).rg;
    return entry.r + entry.g * delta;
}

float LookupLightingLUTUnsigned(int lut_index, float pos) {
    int index = clamp(int(pos * 256.0), 0, 255);
    float delta = pos * 256.0 - float(index);
    return LookupLightingLUT(lut_index, index, delta);
}

float LookupLightingLUTSigned(int lut_index, float pos) {
    int index = clamp(int(pos * 128.0), -128, 127);
    float delta = pos * 128.0 - float(index);
    if (index < 0) index += 256;
    return LookupLightingLUT(lut_index, index, delta);
}

float byteround(float x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec2 byteround(vec2 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec3 byteround(vec3 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec4 byteround(vec4 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

// PICA's LOD formula for 2D textures.
// This LOD formula is the same as the LOD lower limit defined in OpenGL.
// f(x, y) >= max{m_u, m_v, m_w}
// (See OpenGL 4.6 spec, 8.14.1 - Scale Factor and Level-of-Detail)
float getLod(vec2 coord) {
    vec2 d = max(abs(dFdx(coord)), abs(dFdy(coord)));
    return log2(max(d.x, d.y));
}

#if ALLOW_SHADOW

uvec2 DecodeShadow(uint pixel) {
    return uvec2(pixel >> 8, pixel & 0xFFu);
}

uint EncodeShadow(uvec2 pixel) {
    return (pixel.x << 8) | pixel.y;
}

float CompareShadow(uint pixel, uint z) {
    uvec2 p = DecodeShadow(pixel);
    return mix(float(p.y) * (1.0 / 255.0), 0.0, p.x <= z);
}

float SampleShadow2D(ivec2 uv, uint z) {
    if (any(bvec4( lessThan(uv, ivec2(0)), greaterThanEqual(uv, imageSize(shadow_texture_px)) )))
        return 1.0;
    return CompareShadow(imageLoad(shadow_texture_px, uv).x, z);
}

float mix2(vec4 s, vec2 a) {
    vec2 t = mix(s.xy, s.zw, a.yy);
    return mix(t.x, t.y, a.x);
}

vec4 shadowTexture(vec2 uv, float w) {
uv /= w;uint z = uint(max(0, int(min(abs(w), 1.0) * float(0xFFFFFF)) - shadow_texture_bias));
    vec2 coord = vec2(imageSize(shadow_texture_px)) * uv - vec2(0.5);
    vec2 coord_floor = floor(coord);
    vec2 f = coord - coord_floor;
    ivec2 i = ivec2(coord_floor);
    vec4 s = vec4(
        SampleShadow2D(i              , z),
        SampleShadow2D(i + ivec2(1, 0), z),
        SampleShadow2D(i + ivec2(0, 1), z),
        SampleShadow2D(i + ivec2(1, 1), z));
    return vec4(mix2(s, f));
}

vec4 shadowTextureCube(vec2 uv, float w) {
    ivec2 size = imageSize(shadow_texture_px);
    vec3 c = vec3(uv, w);
    vec3 a = abs(c);
    if (a.x > a.y && a.x > a.z) {
        w = a.x;
        uv = -c.zy;
        if (c.x < 0.0) uv.x = -uv.x;
    } else if (a.y > a.z) {
        w = a.y;
        uv = c.xz;
        if (c.y < 0.0) uv.y = -uv.y;
    } else {
        w = a.z;
        uv = -c.xy;
        if (c.z > 0.0) uv.x = -uv.x;
    }
uint z = uint(max(0, int(min(w, 1.0) * float(0xFFFFFF)) - shadow_texture_bias));
    vec2 coord = vec2(size) * (uv / w * vec2(0.5) + vec2(0.5)) - vec2(0.5);
    vec2 coord_floor = floor(coord);
    vec2 f = coord - coord_floor;
    ivec2 i00 = ivec2(coord_floor);
    ivec2 i10 = i00 + ivec2(1, 0);
    ivec2 i01 = i00 + ivec2(0, 1);
    ivec2 i11 = i00 + ivec2(1, 1);
    ivec2 cmin = ivec2(0), cmax = size - ivec2(1, 1);
    i00 = clamp(i00, cmin, cmax);
    i10 = clamp(i10, cmin, cmax);
    i01 = clamp(i01, cmin, cmax);
    i11 = clamp(i11, cmin, cmax);
    uvec4 pixels;
    // This part should have been refactored into functions,
    // but many drivers don't like passing uimage2D as parameters
    if (a.x > a.y && a.x > a.z) {
        if (c.x > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_px, i00).r,
                imageLoad(shadow_texture_px, i10).r,
                imageLoad(shadow_texture_px, i01).r,
                imageLoad(shadow_texture_px, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_nx, i00).r,
                imageLoad(shadow_texture_nx, i10).r,
                imageLoad(shadow_texture_nx, i01).r,
                imageLoad(shadow_texture_nx, i11).r);
    } else if (a.y > a.z) {
        if (c.y > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_py, i00).r,
                imageLoad(shadow_texture_py, i10).r,
                imageLoad(shadow_texture_py, i01).r,
                imageLoad(shadow_texture_py, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_ny, i00).r,
                imageLoad(shadow_texture_ny, i10).r,
                imageLoad(shadow_texture_ny, i01).r,
                imageLoad(shadow_texture_ny, i11).r);
    } else {
        if (c.z > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_pz, i00).r,
                imageLoad(shadow_texture_pz, i10).r,
                imageLoad(shadow_texture_pz, i01).r,
                imageLoad(shadow_texture_pz, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_nz, i00).r,
                imageLoad(shadow_texture_nz, i10).r,
                imageLoad(shadow_texture_nz, i01).r,
                imageLoad(shadow_texture_nz, i11).r);
    }
    vec4 s = vec4(
        CompareShadow(pixels.x, z),
        CompareShadow(pixels.y, z),
        CompareShadow(pixels.z, z),
        CompareShadow(pixels.w, z));
    return vec4(mix2(s, f));
}

#else

vec4 shadowTexture(vec2 uv, float w) {
    return vec4(1.0);
}

vec4 shadowTextureCube(vec2 uv, float w) {
    return vec4(1.0);
}

#endif

void main() {
vec4 rounded_primary_color = byteround(primary_color);
vec4 primary_fragment_color = vec4(0.0);
vec4 secondary_fragment_color = vec4(0.0);
float z_over_w = 2.0 * gl_FragCoord.z - 1.0;
float depth = z_over_w * depth_scale + depth_offset;
vec4 combiner_buffer = vec4(0.0);
vec4 next_combiner_buffer = tev_combiner_buffer_color;
vec4 last_tex_env_out = vec4(0.0);
vec3 color_results_0_1 = const_color[0].rgb;
vec3 color_results_0_2 = const_color[0].rgb;
vec3 color_results_0_3 = const_color[0].rgb;
vec3 color_results_0[3] = vec3[3](color_results_0_1, color_results_0_2, color_results_0_3);
vec3 color_output_0 = byteround(clamp(color_results_0[0], vec3(0.0), vec3(1.0)));
float alpha_results_0[3] = float[3](const_color[0].a, const_color[0].a, const_color[0].a);
float alpha_output_0 = byteround(clamp(alpha_results_0[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_0 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_0 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
combiner_buffer = next_combiner_buffer;
combiner_buffer = next_combiner_buffer;
combiner_buffer = next_combiner_buffer;
combiner_buffer = next_combiner_buffer;
vec3 color_results_5_1 = rounded_primary_color.rgb;
vec3 color_results_5_2 = rounded_primary_color.rgb;
vec3 color_results_5_3 = rounded_primary_color.rgb;
vec3 color_results_5[3] = vec3[3](color_results_5_1, color_results_5_2, color_results_5_3);
vec3 color_output_5 = byteround(clamp(color_results_5[0], vec3(0.0), vec3(1.0)));
float alpha_results_5[3] = float[3](rounded_primary_color.a, rounded_primary_color.a, rounded_primary_color.a);
float alpha_output_5 = byteround(clamp(alpha_results_5[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_5 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_5 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
gl_FragDepth = depth;
color = byteround(last_tex_env_out);
}
[  66.482509] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadProgram:102: Error linking shader:
Program Link Failed for unknown reason.

[  66.482511] Debug <Critical> video_core/renderer_opengl/gl_shader_util.cpp:operator():106: Assertion Failed!
Shader not linked
[  66.503462] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadShader:63: Error compiling fragment shader:
WARNING: 0:29: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:29: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:133: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:133: 'defined' : nonportable when expanded from macros for preprocessor expression 
ERROR: 0:149: 'imageSize' : no matching overloaded function found 
ERROR: 0:149: '' : missing #endif 
ERROR: 0:149: '' : compilation terminated 
ERROR: 3 compilation errors.  No code generated.


[  66.503563] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadShader:65: Shader source code:
#version 330

#extension GL_ARB_shader_image_load_store : enable
#extension GL_ARB_shader_image_size : enable
#define ALLOW_SHADOW (defined(GL_ARB_shader_image_load_store) && defined(GL_ARB_shader_image_size))
#extension GL_ARB_separate_shader_objects : enable
layout (location=1) in vec4 primary_color;
layout (location=2) in vec2 texcoord0;
layout (location=3) in vec2 texcoord1;
layout (location=4) in vec2 texcoord2;
layout (location=5) in float texcoord0_w;
layout (location=6) in vec4 normquat;
layout (location=7) in vec3 view;

#ifndef CITRA_GLES
in vec4 gl_FragCoord;
#endif // CITRA_GLES

out vec4 color;

uniform sampler2D tex0;
uniform sampler2D tex1;
uniform sampler2D tex2;
uniform samplerCube tex_cube;
uniform samplerBuffer texture_buffer_lut_lf;
uniform samplerBuffer texture_buffer_lut_rg;
uniform samplerBuffer texture_buffer_lut_rgba;

#if ALLOW_SHADOW
layout(r32ui) uniform readonly uimage2D shadow_texture_px;
layout(r32ui) uniform readonly uimage2D shadow_texture_nx;
layout(r32ui) uniform readonly uimage2D shadow_texture_py;
layout(r32ui) uniform readonly uimage2D shadow_texture_ny;
layout(r32ui) uniform readonly uimage2D shadow_texture_pz;
layout(r32ui) uniform readonly uimage2D shadow_texture_nz;
layout(r32ui) uniform uimage2D shadow_buffer;
#endif

#define NUM_TEV_STAGES 6
#define NUM_LIGHTS 8
#define NUM_LIGHTING_SAMPLERS 24

struct LightSrc {
    vec3 specular_0;
    vec3 specular_1;
    vec3 diffuse;
    vec3 ambient;
    vec3 position;
    vec3 spot_direction;
    float dist_atten_bias;
    float dist_atten_scale;
};

layout (std140) uniform shader_data {
    int framebuffer_scale;
    int alphatest_ref;
    float depth_scale;
    float depth_offset;
    float shadow_bias_constant;
    float shadow_bias_linear;
    int scissor_x1;
    int scissor_y1;
    int scissor_x2;
    int scissor_y2;
    int fog_lut_offset;
    int proctex_noise_lut_offset;
    int proctex_color_map_offset;
    int proctex_alpha_map_offset;
    int proctex_lut_offset;
    int proctex_diff_lut_offset;
    float proctex_bias;
    int shadow_texture_bias;
    ivec4 lighting_lut_offset[NUM_LIGHTING_SAMPLERS / 4];
    vec3 fog_color;
    vec2 proctex_noise_f;
    vec2 proctex_noise_a;
    vec2 proctex_noise_p;
    vec3 lighting_global_ambient;
    LightSrc light_src[NUM_LIGHTS];
    vec4 const_color[NUM_TEV_STAGES];
    vec4 tev_combiner_buffer_color;
    vec4 clip_coef;
};

// Rotate the vector v by the quaternion q
vec3 quaternion_rotate(vec4 q, vec3 v) {
    return v + 2.0 * cross(q.xyz, cross(q.xyz, v) + q.w * v);
}

float LookupLightingLUT(int lut_index, int index, float delta) {
    vec2 entry = texelFetch(texture_buffer_lut_lf, lighting_lut_offset[lut_index >> 2][lut_index & 3] + index).rg;
    return entry.r + entry.g * delta;
}

float LookupLightingLUTUnsigned(int lut_index, float pos) {
    int index = clamp(int(pos * 256.0), 0, 255);
    float delta = pos * 256.0 - float(index);
    return LookupLightingLUT(lut_index, index, delta);
}

float LookupLightingLUTSigned(int lut_index, float pos) {
    int index = clamp(int(pos * 128.0), -128, 127);
    float delta = pos * 128.0 - float(index);
    if (index < 0) index += 256;
    return LookupLightingLUT(lut_index, index, delta);
}

float byteround(float x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec2 byteround(vec2 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec3 byteround(vec3 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec4 byteround(vec4 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

// PICA's LOD formula for 2D textures.
// This LOD formula is the same as the LOD lower limit defined in OpenGL.
// f(x, y) >= max{m_u, m_v, m_w}
// (See OpenGL 4.6 spec, 8.14.1 - Scale Factor and Level-of-Detail)
float getLod(vec2 coord) {
    vec2 d = max(abs(dFdx(coord)), abs(dFdy(coord)));
    return log2(max(d.x, d.y));
}

#if ALLOW_SHADOW

uvec2 DecodeShadow(uint pixel) {
    return uvec2(pixel >> 8, pixel & 0xFFu);
}

uint EncodeShadow(uvec2 pixel) {
    return (pixel.x << 8) | pixel.y;
}

float CompareShadow(uint pixel, uint z) {
    uvec2 p = DecodeShadow(pixel);
    return mix(float(p.y) * (1.0 / 255.0), 0.0, p.x <= z);
}

float SampleShadow2D(ivec2 uv, uint z) {
    if (any(bvec4( lessThan(uv, ivec2(0)), greaterThanEqual(uv, imageSize(shadow_texture_px)) )))
        return 1.0;
    return CompareShadow(imageLoad(shadow_texture_px, uv).x, z);
}

float mix2(vec4 s, vec2 a) {
    vec2 t = mix(s.xy, s.zw, a.yy);
    return mix(t.x, t.y, a.x);
}

vec4 shadowTexture(vec2 uv, float w) {
uint z = uint(max(0, int(min(abs(w), 1.0) * float(0xFFFFFF)) - shadow_texture_bias));
    vec2 coord = vec2(imageSize(shadow_texture_px)) * uv - vec2(0.5);
    vec2 coord_floor = floor(coord);
    vec2 f = coord - coord_floor;
    ivec2 i = ivec2(coord_floor);
    vec4 s = vec4(
        SampleShadow2D(i              , z),
        SampleShadow2D(i + ivec2(1, 0), z),
        SampleShadow2D(i + ivec2(0, 1), z),
        SampleShadow2D(i + ivec2(1, 1), z));
    return vec4(mix2(s, f));
}

vec4 shadowTextureCube(vec2 uv, float w) {
    ivec2 size = imageSize(shadow_texture_px);
    vec3 c = vec3(uv, w);
    vec3 a = abs(c);
    if (a.x > a.y && a.x > a.z) {
        w = a.x;
        uv = -c.zy;
        if (c.x < 0.0) uv.x = -uv.x;
    } else if (a.y > a.z) {
        w = a.y;
        uv = c.xz;
        if (c.y < 0.0) uv.y = -uv.y;
    } else {
        w = a.z;
        uv = -c.xy;
        if (c.z > 0.0) uv.x = -uv.x;
    }
uint z = uint(max(0, int(min(w, 1.0) * float(0xFFFFFF)) - shadow_texture_bias));
    vec2 coord = vec2(size) * (uv / w * vec2(0.5) + vec2(0.5)) - vec2(0.5);
    vec2 coord_floor = floor(coord);
    vec2 f = coord - coord_floor;
    ivec2 i00 = ivec2(coord_floor);
    ivec2 i10 = i00 + ivec2(1, 0);
    ivec2 i01 = i00 + ivec2(0, 1);
    ivec2 i11 = i00 + ivec2(1, 1);
    ivec2 cmin = ivec2(0), cmax = size - ivec2(1, 1);
    i00 = clamp(i00, cmin, cmax);
    i10 = clamp(i10, cmin, cmax);
    i01 = clamp(i01, cmin, cmax);
    i11 = clamp(i11, cmin, cmax);
    uvec4 pixels;
    // This part should have been refactored into functions,
    // but many drivers don't like passing uimage2D as parameters
    if (a.x > a.y && a.x > a.z) {
        if (c.x > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_px, i00).r,
                imageLoad(shadow_texture_px, i10).r,
                imageLoad(shadow_texture_px, i01).r,
                imageLoad(shadow_texture_px, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_nx, i00).r,
                imageLoad(shadow_texture_nx, i10).r,
                imageLoad(shadow_texture_nx, i01).r,
                imageLoad(shadow_texture_nx, i11).r);
    } else if (a.y > a.z) {
        if (c.y > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_py, i00).r,
                imageLoad(shadow_texture_py, i10).r,
                imageLoad(shadow_texture_py, i01).r,
                imageLoad(shadow_texture_py, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_ny, i00).r,
                imageLoad(shadow_texture_ny, i10).r,
                imageLoad(shadow_texture_ny, i01).r,
                imageLoad(shadow_texture_ny, i11).r);
    } else {
        if (c.z > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_pz, i00).r,
                imageLoad(shadow_texture_pz, i10).r,
                imageLoad(shadow_texture_pz, i01).r,
                imageLoad(shadow_texture_pz, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_nz, i00).r,
                imageLoad(shadow_texture_nz, i10).r,
                imageLoad(shadow_texture_nz, i01).r,
                imageLoad(shadow_texture_nz, i11).r);
    }
    vec4 s = vec4(
        CompareShadow(pixels.x, z),
        CompareShadow(pixels.y, z),
        CompareShadow(pixels.z, z),
        CompareShadow(pixels.w, z));
    return vec4(mix2(s, f));
}

#else

vec4 shadowTexture(vec2 uv, float w) {
    return vec4(1.0);
}

vec4 shadowTextureCube(vec2 uv, float w) {
    return vec4(1.0);
}

#endif

void main() {
vec4 rounded_primary_color = byteround(primary_color);
vec4 primary_fragment_color = vec4(0.0);
vec4 secondary_fragment_color = vec4(0.0);
float z_over_w = 2.0 * gl_FragCoord.z - 1.0;
float depth = z_over_w * depth_scale + depth_offset;
vec4 diffuse_sum = vec4(0.0, 0.0, 0.0, 1.0);
vec4 specular_sum = vec4(0.0, 0.0, 0.0, 1.0);
vec3 light_vector = vec3(0.0);
vec3 refl_value = vec3(0.0);
vec3 spot_dir = vec3(0.0);
vec3 half_vector = vec3(0.0);
float dot_product = 0.0;
float clamp_highlights = 1.0;
float geo_factor = 1.0;
vec3 surface_normal = vec3(0.0, 0.0, 1.0);
vec3 surface_tangent = vec3(1.0, 0.0, 0.0);
vec4 normalized_normquat = normalize(normquat);
vec3 normal = quaternion_rotate(normalized_normquat, surface_normal);
vec3 tangent = quaternion_rotate(normalized_normquat, surface_tangent);
vec4 shadow = vec4(1.0);
light_vector = normalize(light_src[0].position);
spot_dir = light_src[0].spot_direction;
half_vector = normalize(view) + light_vector;
dot_product = max(dot(light_vector, normal), 0.0);
refl_value.r = 1.0;
refl_value.g = refl_value.r;
refl_value.b = refl_value.r;
diffuse_sum.rgb += ((light_src[0].diffuse * dot_product) + light_src[0].ambient) * 1.0 * 1.0;
specular_sum.rgb += ((1.0 * light_src[0].specular_0) + (1.0 * refl_value * light_src[0].specular_1)) * clamp_highlights * 1.0 * 1.0;
diffuse_sum.rgb += lighting_global_ambient;
primary_fragment_color = clamp(diffuse_sum, vec4(0.0), vec4(1.0));
secondary_fragment_color = clamp(specular_sum, vec4(0.0), vec4(1.0));
vec4 combiner_buffer = vec4(0.0);
vec4 next_combiner_buffer = tev_combiner_buffer_color;
vec4 last_tex_env_out = vec4(0.0);
vec3 color_results_0_1 = textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).rgb;
vec3 color_results_0_2 = rounded_primary_color.rgb;
vec3 color_results_0_3 = textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).rgb;
vec3 color_results_0[3] = vec3[3](color_results_0_1, color_results_0_2, color_results_0_3);
vec3 color_output_0 = byteround(clamp(color_results_0[0] * color_results_0[1], vec3(0.0), vec3(1.0)));
float alpha_results_0[3] = float[3](textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).a, textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).a, textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).a);
float alpha_output_0 = byteround(clamp(alpha_results_0[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_0 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_0 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_1_1 = last_tex_env_out.rgb;
vec3 color_results_1_2 = primary_fragment_color.rgb;
vec3 color_results_1_3 = last_tex_env_out.rgb;
vec3 color_results_1[3] = vec3[3](color_results_1_1, color_results_1_2, color_results_1_3);
vec3 color_output_1 = byteround(clamp(color_results_1[0] * color_results_1[1], vec3(0.0), vec3(1.0)));
float alpha_results_1[3] = float[3](last_tex_env_out.a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_1 = byteround(clamp(alpha_results_1[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_1 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_1 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_2_1 = last_tex_env_out.rgb;
vec3 color_results_2_2 = last_tex_env_out.rgb;
vec3 color_results_2_3 = last_tex_env_out.rgb;
vec3 color_results_2[3] = vec3[3](color_results_2_1, color_results_2_2, color_results_2_3);
vec3 color_output_2 = byteround(clamp(color_results_2[0] + color_results_2[1], vec3(0.0), vec3(1.0)));
float alpha_results_2[3] = float[3](last_tex_env_out.a, rounded_primary_color.a, last_tex_env_out.a);
float alpha_output_2 = byteround(clamp(alpha_results_2[0] * alpha_results_2[1], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_2 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_2 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_3_1 = last_tex_env_out.rgb;
vec3 color_results_3_2 = last_tex_env_out.rgb;
vec3 color_results_3_3 = last_tex_env_out.rgb;
vec3 color_results_3[3] = vec3[3](color_results_3_1, color_results_3_2, color_results_3_3);
vec3 color_output_3 = byteround(clamp(color_results_3[0], vec3(0.0), vec3(1.0)));
float alpha_results_3[3] = float[3](last_tex_env_out.a, const_color[3].a, last_tex_env_out.a);
float alpha_output_3 = byteround(clamp(alpha_results_3[0] * alpha_results_3[1], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_3 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_3 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
next_combiner_buffer.rgb = last_tex_env_out.rgb;
vec3 color_results_4_1 = vec3(1.0) - textureProj(tex0, vec3(texcoord0, texcoord0_w)).rgb;
vec3 color_results_4_2 = const_color[4].rgb;
vec3 color_results_4_3 = last_tex_env_out.rgb;
vec3 color_results_4[3] = vec3[3](color_results_4_1, color_results_4_2, color_results_4_3);
vec3 color_output_4 = byteround(clamp(color_results_4[0] * color_results_4[1], vec3(0.0), vec3(1.0)));
float alpha_results_4[3] = float[3](last_tex_env_out.a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_4 = byteround(clamp(alpha_results_4[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_4 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_4 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_5_1 = combiner_buffer.rgb;
vec3 color_results_5_2 = vec3(1.0) - last_tex_env_out.rgb;
vec3 color_results_5_3 = last_tex_env_out.rgb;
vec3 color_results_5[3] = vec3[3](color_results_5_1, color_results_5_2, color_results_5_3);
vec3 color_output_5 = byteround(clamp(color_results_5[0] * color_results_5[1], vec3(0.0), vec3(1.0)));
float alpha_results_5[3] = float[3](last_tex_env_out.a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_5 = byteround(clamp(alpha_results_5[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_5 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_5 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
if (int(last_tex_env_out.a * 255.0) <= alphatest_ref) discard;
float fog_index = depth * 128.0;
float fog_i = clamp(floor(fog_index), 0.0, 127.0);
float fog_f = fog_index - fog_i;
vec2 fog_lut_entry = texelFetch(texture_buffer_lut_lf, int(fog_i) + fog_lut_offset).rg;
float fog_factor = fog_lut_entry.r + fog_lut_entry.g * fog_f;
fog_factor = clamp(fog_factor, 0.0, 1.0);
last_tex_env_out.rgb = mix(fog_color.rgb, last_tex_env_out.rgb, fog_factor);
gl_FragDepth = depth;
color = byteround(last_tex_env_out);
}
[  66.503647] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadProgram:102: Error linking shader:
Program Link Failed for unknown reason.

[  66.503649] Debug <Critical> video_core/renderer_opengl/gl_shader_util.cpp:operator():106: Assertion Failed!
Shader not linked
[  66.517852] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadShader:63: Error compiling fragment shader:
WARNING: 0:29: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:29: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:133: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:133: 'defined' : nonportable when expanded from macros for preprocessor expression 
ERROR: 0:149: 'imageSize' : no matching overloaded function found 
ERROR: 0:149: '' : missing #endif 
ERROR: 0:149: '' : compilation terminated 
ERROR: 3 compilation errors.  No code generated.


[  66.517867] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadShader:65: Shader source code:
#version 330

#extension GL_ARB_shader_image_load_store : enable
#extension GL_ARB_shader_image_size : enable
#define ALLOW_SHADOW (defined(GL_ARB_shader_image_load_store) && defined(GL_ARB_shader_image_size))
#extension GL_ARB_separate_shader_objects : enable
layout (location=1) in vec4 primary_color;
layout (location=2) in vec2 texcoord0;
layout (location=3) in vec2 texcoord1;
layout (location=4) in vec2 texcoord2;
layout (location=5) in float texcoord0_w;
layout (location=6) in vec4 normquat;
layout (location=7) in vec3 view;

#ifndef CITRA_GLES
in vec4 gl_FragCoord;
#endif // CITRA_GLES

out vec4 color;

uniform sampler2D tex0;
uniform sampler2D tex1;
uniform sampler2D tex2;
uniform samplerCube tex_cube;
uniform samplerBuffer texture_buffer_lut_lf;
uniform samplerBuffer texture_buffer_lut_rg;
uniform samplerBuffer texture_buffer_lut_rgba;

#if ALLOW_SHADOW
layout(r32ui) uniform readonly uimage2D shadow_texture_px;
layout(r32ui) uniform readonly uimage2D shadow_texture_nx;
layout(r32ui) uniform readonly uimage2D shadow_texture_py;
layout(r32ui) uniform readonly uimage2D shadow_texture_ny;
layout(r32ui) uniform readonly uimage2D shadow_texture_pz;
layout(r32ui) uniform readonly uimage2D shadow_texture_nz;
layout(r32ui) uniform uimage2D shadow_buffer;
#endif

#define NUM_TEV_STAGES 6
#define NUM_LIGHTS 8
#define NUM_LIGHTING_SAMPLERS 24

struct LightSrc {
    vec3 specular_0;
    vec3 specular_1;
    vec3 diffuse;
    vec3 ambient;
    vec3 position;
    vec3 spot_direction;
    float dist_atten_bias;
    float dist_atten_scale;
};

layout (std140) uniform shader_data {
    int framebuffer_scale;
    int alphatest_ref;
    float depth_scale;
    float depth_offset;
    float shadow_bias_constant;
    float shadow_bias_linear;
    int scissor_x1;
    int scissor_y1;
    int scissor_x2;
    int scissor_y2;
    int fog_lut_offset;
    int proctex_noise_lut_offset;
    int proctex_color_map_offset;
    int proctex_alpha_map_offset;
    int proctex_lut_offset;
    int proctex_diff_lut_offset;
    float proctex_bias;
    int shadow_texture_bias;
    ivec4 lighting_lut_offset[NUM_LIGHTING_SAMPLERS / 4];
    vec3 fog_color;
    vec2 proctex_noise_f;
    vec2 proctex_noise_a;
    vec2 proctex_noise_p;
    vec3 lighting_global_ambient;
    LightSrc light_src[NUM_LIGHTS];
    vec4 const_color[NUM_TEV_STAGES];
    vec4 tev_combiner_buffer_color;
    vec4 clip_coef;
};

// Rotate the vector v by the quaternion q
vec3 quaternion_rotate(vec4 q, vec3 v) {
    return v + 2.0 * cross(q.xyz, cross(q.xyz, v) + q.w * v);
}

float LookupLightingLUT(int lut_index, int index, float delta) {
    vec2 entry = texelFetch(texture_buffer_lut_lf, lighting_lut_offset[lut_index >> 2][lut_index & 3] + index).rg;
    return entry.r + entry.g * delta;
}

float LookupLightingLUTUnsigned(int lut_index, float pos) {
    int index = clamp(int(pos * 256.0), 0, 255);
    float delta = pos * 256.0 - float(index);
    return LookupLightingLUT(lut_index, index, delta);
}

float LookupLightingLUTSigned(int lut_index, float pos) {
    int index = clamp(int(pos * 128.0), -128, 127);
    float delta = pos * 128.0 - float(index);
    if (index < 0) index += 256;
    return LookupLightingLUT(lut_index, index, delta);
}

float byteround(float x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec2 byteround(vec2 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec3 byteround(vec3 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec4 byteround(vec4 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

// PICA's LOD formula for 2D textures.
// This LOD formula is the same as the LOD lower limit defined in OpenGL.
// f(x, y) >= max{m_u, m_v, m_w}
// (See OpenGL 4.6 spec, 8.14.1 - Scale Factor and Level-of-Detail)
float getLod(vec2 coord) {
    vec2 d = max(abs(dFdx(coord)), abs(dFdy(coord)));
    return log2(max(d.x, d.y));
}

#if ALLOW_SHADOW

uvec2 DecodeShadow(uint pixel) {
    return uvec2(pixel >> 8, pixel & 0xFFu);
}

uint EncodeShadow(uvec2 pixel) {
    return (pixel.x << 8) | pixel.y;
}

float CompareShadow(uint pixel, uint z) {
    uvec2 p = DecodeShadow(pixel);
    return mix(float(p.y) * (1.0 / 255.0), 0.0, p.x <= z);
}

float SampleShadow2D(ivec2 uv, uint z) {
    if (any(bvec4( lessThan(uv, ivec2(0)), greaterThanEqual(uv, imageSize(shadow_texture_px)) )))
        return 1.0;
    return CompareShadow(imageLoad(shadow_texture_px, uv).x, z);
}

float mix2(vec4 s, vec2 a) {
    vec2 t = mix(s.xy, s.zw, a.yy);
    return mix(t.x, t.y, a.x);
}

vec4 shadowTexture(vec2 uv, float w) {
uint z = uint(max(0, int(min(abs(w), 1.0) * float(0xFFFFFF)) - shadow_texture_bias));
    vec2 coord = vec2(imageSize(shadow_texture_px)) * uv - vec2(0.5);
    vec2 coord_floor = floor(coord);
    vec2 f = coord - coord_floor;
    ivec2 i = ivec2(coord_floor);
    vec4 s = vec4(
        SampleShadow2D(i              , z),
        SampleShadow2D(i + ivec2(1, 0), z),
        SampleShadow2D(i + ivec2(0, 1), z),
        SampleShadow2D(i + ivec2(1, 1), z));
    return vec4(mix2(s, f));
}

vec4 shadowTextureCube(vec2 uv, float w) {
    ivec2 size = imageSize(shadow_texture_px);
    vec3 c = vec3(uv, w);
    vec3 a = abs(c);
    if (a.x > a.y && a.x > a.z) {
        w = a.x;
        uv = -c.zy;
        if (c.x < 0.0) uv.x = -uv.x;
    } else if (a.y > a.z) {
        w = a.y;
        uv = c.xz;
        if (c.y < 0.0) uv.y = -uv.y;
    } else {
        w = a.z;
        uv = -c.xy;
        if (c.z > 0.0) uv.x = -uv.x;
    }
uint z = uint(max(0, int(min(w, 1.0) * float(0xFFFFFF)) - shadow_texture_bias));
    vec2 coord = vec2(size) * (uv / w * vec2(0.5) + vec2(0.5)) - vec2(0.5);
    vec2 coord_floor = floor(coord);
    vec2 f = coord - coord_floor;
    ivec2 i00 = ivec2(coord_floor);
    ivec2 i10 = i00 + ivec2(1, 0);
    ivec2 i01 = i00 + ivec2(0, 1);
    ivec2 i11 = i00 + ivec2(1, 1);
    ivec2 cmin = ivec2(0), cmax = size - ivec2(1, 1);
    i00 = clamp(i00, cmin, cmax);
    i10 = clamp(i10, cmin, cmax);
    i01 = clamp(i01, cmin, cmax);
    i11 = clamp(i11, cmin, cmax);
    uvec4 pixels;
    // This part should have been refactored into functions,
    // but many drivers don't like passing uimage2D as parameters
    if (a.x > a.y && a.x > a.z) {
        if (c.x > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_px, i00).r,
                imageLoad(shadow_texture_px, i10).r,
                imageLoad(shadow_texture_px, i01).r,
                imageLoad(shadow_texture_px, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_nx, i00).r,
                imageLoad(shadow_texture_nx, i10).r,
                imageLoad(shadow_texture_nx, i01).r,
                imageLoad(shadow_texture_nx, i11).r);
    } else if (a.y > a.z) {
        if (c.y > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_py, i00).r,
                imageLoad(shadow_texture_py, i10).r,
                imageLoad(shadow_texture_py, i01).r,
                imageLoad(shadow_texture_py, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_ny, i00).r,
                imageLoad(shadow_texture_ny, i10).r,
                imageLoad(shadow_texture_ny, i01).r,
                imageLoad(shadow_texture_ny, i11).r);
    } else {
        if (c.z > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_pz, i00).r,
                imageLoad(shadow_texture_pz, i10).r,
                imageLoad(shadow_texture_pz, i01).r,
                imageLoad(shadow_texture_pz, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_nz, i00).r,
                imageLoad(shadow_texture_nz, i10).r,
                imageLoad(shadow_texture_nz, i01).r,
                imageLoad(shadow_texture_nz, i11).r);
    }
    vec4 s = vec4(
        CompareShadow(pixels.x, z),
        CompareShadow(pixels.y, z),
        CompareShadow(pixels.z, z),
        CompareShadow(pixels.w, z));
    return vec4(mix2(s, f));
}

#else

vec4 shadowTexture(vec2 uv, float w) {
    return vec4(1.0);
}

vec4 shadowTextureCube(vec2 uv, float w) {
    return vec4(1.0);
}

#endif

void main() {
vec4 rounded_primary_color = byteround(primary_color);
vec4 primary_fragment_color = vec4(0.0);
vec4 secondary_fragment_color = vec4(0.0);
float z_over_w = 2.0 * gl_FragCoord.z - 1.0;
float depth = z_over_w * depth_scale + depth_offset;
vec4 diffuse_sum = vec4(0.0, 0.0, 0.0, 1.0);
vec4 specular_sum = vec4(0.0, 0.0, 0.0, 1.0);
vec3 light_vector = vec3(0.0);
vec3 refl_value = vec3(0.0);
vec3 spot_dir = vec3(0.0);
vec3 half_vector = vec3(0.0);
float dot_product = 0.0;
float clamp_highlights = 1.0;
float geo_factor = 1.0;
vec3 surface_normal = 2.0 * (textureLod(tex2, texcoord2, getLod(texcoord2 * vec2(textureSize(tex2, 0))))).rgb - 1.0;
vec3 surface_tangent = vec3(1.0, 0.0, 0.0);
vec4 normalized_normquat = normalize(normquat);
vec3 normal = quaternion_rotate(normalized_normquat, surface_normal);
vec3 tangent = quaternion_rotate(normalized_normquat, surface_tangent);
vec4 shadow = vec4(1.0);
light_vector = normalize(light_src[0].position);
spot_dir = light_src[0].spot_direction;
half_vector = normalize(view) + light_vector;
dot_product = max(dot(light_vector, normal), 0.0);
refl_value.r = (1.0 * LookupLightingLUTSigned(6, dot(normal, normalize(view))));
refl_value.g = (1.0 * LookupLightingLUTSigned(5, dot(normal, normalize(view))));
refl_value.b = (1.0 * LookupLightingLUTSigned(4, dot(normal, normalize(view))));
diffuse_sum.rgb += ((light_src[0].diffuse * dot_product) + light_src[0].ambient) * 1.0 * 1.0;
specular_sum.rgb += ((1.0 * light_src[0].specular_0) + (1.0 * refl_value * light_src[0].specular_1)) * clamp_highlights * 1.0 * 1.0;
diffuse_sum.rgb += lighting_global_ambient;
primary_fragment_color = clamp(diffuse_sum, vec4(0.0), vec4(1.0));
secondary_fragment_color = clamp(specular_sum, vec4(0.0), vec4(1.0));
vec4 combiner_buffer = vec4(0.0);
vec4 next_combiner_buffer = tev_combiner_buffer_color;
vec4 last_tex_env_out = vec4(0.0);
vec3 color_results_0_1 = textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).rgb;
vec3 color_results_0_2 = const_color[0].rgb;
vec3 color_results_0_3 = vec3(1.0) - const_color[0].aaa;
vec3 color_results_0[3] = vec3[3](color_results_0_1, color_results_0_2, color_results_0_3);
vec3 color_output_0 = byteround(clamp(color_results_0[0] * color_results_0[2] + color_results_0[1] * (vec3(1.0) - color_results_0[2]), vec3(0.0), vec3(1.0)));
float alpha_results_0[3] = float[3](textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).a, textureLod(tex0, texcoord0, getLod(texcoord0 * vec2(textureSize(tex0, 0)))).a, textureLod(tex0, texcoord0, getLod(texcoord0 * vec2(textureSize(tex0, 0)))).a);
float alpha_output_0 = byteround(clamp(alpha_results_0[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_0 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_0 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
next_combiner_buffer.rgb = last_tex_env_out.rgb;
vec3 color_results_1_1 = textureLod(tex0, texcoord0, getLod(texcoord0 * vec2(textureSize(tex0, 0)))).rgb;
vec3 color_results_1_2 = last_tex_env_out.rgb;
vec3 color_results_1_3 = last_tex_env_out.rgb;
vec3 color_results_1[3] = vec3[3](color_results_1_1, color_results_1_2, color_results_1_3);
vec3 color_output_1 = byteround(clamp(color_results_1[0] + color_results_1[1] - vec3(0.5), vec3(0.0), vec3(1.0)));
float alpha_results_1[3] = float[3](last_tex_env_out.a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_1 = byteround(clamp(alpha_results_1[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_1 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_1 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_2_1 = last_tex_env_out.rgb;
vec3 color_results_2_2 = combiner_buffer.rgb;
vec3 color_results_2_3 = last_tex_env_out.rgb;
vec3 color_results_2[3] = vec3[3](color_results_2_1, color_results_2_2, color_results_2_3);
vec3 color_output_2 = byteround(clamp(color_results_2[0] + color_results_2[1] - vec3(0.5), vec3(0.0), vec3(1.0)));
float alpha_results_2[3] = float[3](secondary_fragment_color.r, secondary_fragment_color.b, 1.0 - const_color[2].a);
float alpha_output_2 = byteround(clamp(alpha_results_2[0] * alpha_results_2[2] + alpha_results_2[1] * (1.0 - alpha_results_2[2]), 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_2 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_2 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_3_1 = textureLod(tex0, texcoord0, getLod(texcoord0 * vec2(textureSize(tex0, 0)))).rgb;
vec3 color_results_3_2 = last_tex_env_out.rgb;
vec3 color_results_3_3 = last_tex_env_out.aaa;
vec3 color_results_3[3] = vec3[3](color_results_3_1, color_results_3_2, color_results_3_3);
vec3 color_output_3 = byteround(clamp(color_results_3[0] * color_results_3[2] + color_results_3[1] * (vec3(1.0) - color_results_3[2]), vec3(0.0), vec3(1.0)));
float alpha_results_3[3] = float[3](textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_3 = byteround(clamp(alpha_results_3[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_3 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_3 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_4_1 = secondary_fragment_color.ggg;
vec3 color_results_4_2 = last_tex_env_out.rgb;
vec3 color_results_4_3 = last_tex_env_out.rgb;
vec3 color_results_4[3] = vec3[3](color_results_4_1, color_results_4_2, color_results_4_3);
vec3 color_output_4 = byteround(clamp(color_results_4[0] * color_results_4[1] + color_results_4[2], vec3(0.0), vec3(1.0)));
float alpha_results_4[3] = float[3](last_tex_env_out.a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_4 = byteround(clamp(alpha_results_4[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_4 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_4 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_5_1 = last_tex_env_out.rgb;
vec3 color_results_5_2 = const_color[5].rgb;
vec3 color_results_5_3 = last_tex_env_out.rgb;
vec3 color_results_5[3] = vec3[3](color_results_5_1, color_results_5_2, color_results_5_3);
vec3 color_output_5 = byteround(clamp(color_results_5[0] * color_results_5[1], vec3(0.0), vec3(1.0)));
float alpha_results_5[3] = float[3](last_tex_env_out.a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_5 = byteround(clamp(alpha_results_5[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_5 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_5 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
gl_FragDepth = depth;
color = byteround(last_tex_env_out);
}
[  66.517885] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadProgram:102: Error linking shader:
Program Link Failed for unknown reason.

[  66.517886] Debug <Critical> video_core/renderer_opengl/gl_shader_util.cpp:operator():106: Assertion Failed!
Shader not linked
[  66.527897] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadShader:63: Error compiling fragment shader:
WARNING: 0:29: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:29: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:133: 'defined' : nonportable when expanded from macros for preprocessor expression 
WARNING: 0:133: 'defined' : nonportable when expanded from macros for preprocessor expression 
ERROR: 0:149: 'imageSize' : no matching overloaded function found 
ERROR: 0:149: '' : missing #endif 
ERROR: 0:149: '' : compilation terminated 
ERROR: 3 compilation errors.  No code generated.


[  66.527913] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadShader:65: Shader source code:
#version 330

#extension GL_ARB_shader_image_load_store : enable
#extension GL_ARB_shader_image_size : enable
#define ALLOW_SHADOW (defined(GL_ARB_shader_image_load_store) && defined(GL_ARB_shader_image_size))
#extension GL_ARB_separate_shader_objects : enable
layout (location=1) in vec4 primary_color;
layout (location=2) in vec2 texcoord0;
layout (location=3) in vec2 texcoord1;
layout (location=4) in vec2 texcoord2;
layout (location=5) in float texcoord0_w;
layout (location=6) in vec4 normquat;
layout (location=7) in vec3 view;

#ifndef CITRA_GLES
in vec4 gl_FragCoord;
#endif // CITRA_GLES

out vec4 color;

uniform sampler2D tex0;
uniform sampler2D tex1;
uniform sampler2D tex2;
uniform samplerCube tex_cube;
uniform samplerBuffer texture_buffer_lut_lf;
uniform samplerBuffer texture_buffer_lut_rg;
uniform samplerBuffer texture_buffer_lut_rgba;

#if ALLOW_SHADOW
layout(r32ui) uniform readonly uimage2D shadow_texture_px;
layout(r32ui) uniform readonly uimage2D shadow_texture_nx;
layout(r32ui) uniform readonly uimage2D shadow_texture_py;
layout(r32ui) uniform readonly uimage2D shadow_texture_ny;
layout(r32ui) uniform readonly uimage2D shadow_texture_pz;
layout(r32ui) uniform readonly uimage2D shadow_texture_nz;
layout(r32ui) uniform uimage2D shadow_buffer;
#endif

#define NUM_TEV_STAGES 6
#define NUM_LIGHTS 8
#define NUM_LIGHTING_SAMPLERS 24

struct LightSrc {
    vec3 specular_0;
    vec3 specular_1;
    vec3 diffuse;
    vec3 ambient;
    vec3 position;
    vec3 spot_direction;
    float dist_atten_bias;
    float dist_atten_scale;
};

layout (std140) uniform shader_data {
    int framebuffer_scale;
    int alphatest_ref;
    float depth_scale;
    float depth_offset;
    float shadow_bias_constant;
    float shadow_bias_linear;
    int scissor_x1;
    int scissor_y1;
    int scissor_x2;
    int scissor_y2;
    int fog_lut_offset;
    int proctex_noise_lut_offset;
    int proctex_color_map_offset;
    int proctex_alpha_map_offset;
    int proctex_lut_offset;
    int proctex_diff_lut_offset;
    float proctex_bias;
    int shadow_texture_bias;
    ivec4 lighting_lut_offset[NUM_LIGHTING_SAMPLERS / 4];
    vec3 fog_color;
    vec2 proctex_noise_f;
    vec2 proctex_noise_a;
    vec2 proctex_noise_p;
    vec3 lighting_global_ambient;
    LightSrc light_src[NUM_LIGHTS];
    vec4 const_color[NUM_TEV_STAGES];
    vec4 tev_combiner_buffer_color;
    vec4 clip_coef;
};

// Rotate the vector v by the quaternion q
vec3 quaternion_rotate(vec4 q, vec3 v) {
    return v + 2.0 * cross(q.xyz, cross(q.xyz, v) + q.w * v);
}

float LookupLightingLUT(int lut_index, int index, float delta) {
    vec2 entry = texelFetch(texture_buffer_lut_lf, lighting_lut_offset[lut_index >> 2][lut_index & 3] + index).rg;
    return entry.r + entry.g * delta;
}

float LookupLightingLUTUnsigned(int lut_index, float pos) {
    int index = clamp(int(pos * 256.0), 0, 255);
    float delta = pos * 256.0 - float(index);
    return LookupLightingLUT(lut_index, index, delta);
}

float LookupLightingLUTSigned(int lut_index, float pos) {
    int index = clamp(int(pos * 128.0), -128, 127);
    float delta = pos * 128.0 - float(index);
    if (index < 0) index += 256;
    return LookupLightingLUT(lut_index, index, delta);
}

float byteround(float x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec2 byteround(vec2 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec3 byteround(vec3 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

vec4 byteround(vec4 x) {
    return round(x * 255.0) * (1.0 / 255.0);
}

// PICA's LOD formula for 2D textures.
// This LOD formula is the same as the LOD lower limit defined in OpenGL.
// f(x, y) >= max{m_u, m_v, m_w}
// (See OpenGL 4.6 spec, 8.14.1 - Scale Factor and Level-of-Detail)
float getLod(vec2 coord) {
    vec2 d = max(abs(dFdx(coord)), abs(dFdy(coord)));
    return log2(max(d.x, d.y));
}

#if ALLOW_SHADOW

uvec2 DecodeShadow(uint pixel) {
    return uvec2(pixel >> 8, pixel & 0xFFu);
}

uint EncodeShadow(uvec2 pixel) {
    return (pixel.x << 8) | pixel.y;
}

float CompareShadow(uint pixel, uint z) {
    uvec2 p = DecodeShadow(pixel);
    return mix(float(p.y) * (1.0 / 255.0), 0.0, p.x <= z);
}

float SampleShadow2D(ivec2 uv, uint z) {
    if (any(bvec4( lessThan(uv, ivec2(0)), greaterThanEqual(uv, imageSize(shadow_texture_px)) )))
        return 1.0;
    return CompareShadow(imageLoad(shadow_texture_px, uv).x, z);
}

float mix2(vec4 s, vec2 a) {
    vec2 t = mix(s.xy, s.zw, a.yy);
    return mix(t.x, t.y, a.x);
}

vec4 shadowTexture(vec2 uv, float w) {
uint z = uint(max(0, int(min(abs(w), 1.0) * float(0xFFFFFF)) - shadow_texture_bias));
    vec2 coord = vec2(imageSize(shadow_texture_px)) * uv - vec2(0.5);
    vec2 coord_floor = floor(coord);
    vec2 f = coord - coord_floor;
    ivec2 i = ivec2(coord_floor);
    vec4 s = vec4(
        SampleShadow2D(i              , z),
        SampleShadow2D(i + ivec2(1, 0), z),
        SampleShadow2D(i + ivec2(0, 1), z),
        SampleShadow2D(i + ivec2(1, 1), z));
    return vec4(mix2(s, f));
}

vec4 shadowTextureCube(vec2 uv, float w) {
    ivec2 size = imageSize(shadow_texture_px);
    vec3 c = vec3(uv, w);
    vec3 a = abs(c);
    if (a.x > a.y && a.x > a.z) {
        w = a.x;
        uv = -c.zy;
        if (c.x < 0.0) uv.x = -uv.x;
    } else if (a.y > a.z) {
        w = a.y;
        uv = c.xz;
        if (c.y < 0.0) uv.y = -uv.y;
    } else {
        w = a.z;
        uv = -c.xy;
        if (c.z > 0.0) uv.x = -uv.x;
    }
uint z = uint(max(0, int(min(w, 1.0) * float(0xFFFFFF)) - shadow_texture_bias));
    vec2 coord = vec2(size) * (uv / w * vec2(0.5) + vec2(0.5)) - vec2(0.5);
    vec2 coord_floor = floor(coord);
    vec2 f = coord - coord_floor;
    ivec2 i00 = ivec2(coord_floor);
    ivec2 i10 = i00 + ivec2(1, 0);
    ivec2 i01 = i00 + ivec2(0, 1);
    ivec2 i11 = i00 + ivec2(1, 1);
    ivec2 cmin = ivec2(0), cmax = size - ivec2(1, 1);
    i00 = clamp(i00, cmin, cmax);
    i10 = clamp(i10, cmin, cmax);
    i01 = clamp(i01, cmin, cmax);
    i11 = clamp(i11, cmin, cmax);
    uvec4 pixels;
    // This part should have been refactored into functions,
    // but many drivers don't like passing uimage2D as parameters
    if (a.x > a.y && a.x > a.z) {
        if (c.x > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_px, i00).r,
                imageLoad(shadow_texture_px, i10).r,
                imageLoad(shadow_texture_px, i01).r,
                imageLoad(shadow_texture_px, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_nx, i00).r,
                imageLoad(shadow_texture_nx, i10).r,
                imageLoad(shadow_texture_nx, i01).r,
                imageLoad(shadow_texture_nx, i11).r);
    } else if (a.y > a.z) {
        if (c.y > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_py, i00).r,
                imageLoad(shadow_texture_py, i10).r,
                imageLoad(shadow_texture_py, i01).r,
                imageLoad(shadow_texture_py, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_ny, i00).r,
                imageLoad(shadow_texture_ny, i10).r,
                imageLoad(shadow_texture_ny, i01).r,
                imageLoad(shadow_texture_ny, i11).r);
    } else {
        if (c.z > 0.0)
            pixels = uvec4(
                imageLoad(shadow_texture_pz, i00).r,
                imageLoad(shadow_texture_pz, i10).r,
                imageLoad(shadow_texture_pz, i01).r,
                imageLoad(shadow_texture_pz, i11).r);
        else
            pixels = uvec4(
                imageLoad(shadow_texture_nz, i00).r,
                imageLoad(shadow_texture_nz, i10).r,
                imageLoad(shadow_texture_nz, i01).r,
                imageLoad(shadow_texture_nz, i11).r);
    }
    vec4 s = vec4(
        CompareShadow(pixels.x, z),
        CompareShadow(pixels.y, z),
        CompareShadow(pixels.z, z),
        CompareShadow(pixels.w, z));
    return vec4(mix2(s, f));
}

#else

vec4 shadowTexture(vec2 uv, float w) {
    return vec4(1.0);
}

vec4 shadowTextureCube(vec2 uv, float w) {
    return vec4(1.0);
}

#endif

void main() {
vec4 rounded_primary_color = byteround(primary_color);
vec4 primary_fragment_color = vec4(0.0);
vec4 secondary_fragment_color = vec4(0.0);
float z_over_w = 2.0 * gl_FragCoord.z - 1.0;
float depth = z_over_w * depth_scale + depth_offset;
vec4 diffuse_sum = vec4(0.0, 0.0, 0.0, 1.0);
vec4 specular_sum = vec4(0.0, 0.0, 0.0, 1.0);
vec3 light_vector = vec3(0.0);
vec3 refl_value = vec3(0.0);
vec3 spot_dir = vec3(0.0);
vec3 half_vector = vec3(0.0);
float dot_product = 0.0;
float clamp_highlights = 1.0;
float geo_factor = 1.0;
vec3 surface_normal = 2.0 * (textureLod(tex2, texcoord2, getLod(texcoord2 * vec2(textureSize(tex2, 0))))).rgb - 1.0;
vec3 surface_tangent = vec3(1.0, 0.0, 0.0);
vec4 normalized_normquat = normalize(normquat);
vec3 normal = quaternion_rotate(normalized_normquat, surface_normal);
vec3 tangent = quaternion_rotate(normalized_normquat, surface_tangent);
vec4 shadow = vec4(1.0);
light_vector = normalize(light_src[0].position);
spot_dir = light_src[0].spot_direction;
half_vector = normalize(view) + light_vector;
dot_product = max(dot(light_vector, normal), 0.0);
refl_value.r = (1.0 * LookupLightingLUTSigned(6, dot(normal, normalize(view))));
refl_value.g = (1.0 * LookupLightingLUTSigned(5, dot(normal, normalize(view))));
refl_value.b = (1.0 * LookupLightingLUTSigned(4, dot(normal, normalize(view))));
diffuse_sum.rgb += ((light_src[0].diffuse * dot_product) + light_src[0].ambient) * 1.0 * 1.0;
specular_sum.rgb += ((1.0 * light_src[0].specular_0) + (1.0 * refl_value * light_src[0].specular_1)) * clamp_highlights * 1.0 * 1.0;
diffuse_sum.rgb += lighting_global_ambient;
primary_fragment_color = clamp(diffuse_sum, vec4(0.0), vec4(1.0));
secondary_fragment_color = clamp(specular_sum, vec4(0.0), vec4(1.0));
vec4 combiner_buffer = vec4(0.0);
vec4 next_combiner_buffer = tev_combiner_buffer_color;
vec4 last_tex_env_out = vec4(0.0);
vec3 color_results_0_1 = textureLod(tex0, texcoord0, getLod(texcoord0 * vec2(textureSize(tex0, 0)))).rgb;
vec3 color_results_0_2 = const_color[0].rgb;
vec3 color_results_0_3 = const_color[0].aaa;
vec3 color_results_0[3] = vec3[3](color_results_0_1, color_results_0_2, color_results_0_3);
vec3 color_output_0 = byteround(clamp(color_results_0[0] * color_results_0[1], vec3(0.0), vec3(1.0)));
float alpha_results_0[3] = float[3](secondary_fragment_color.r, secondary_fragment_color.b, 1.0 - const_color[0].a);
float alpha_output_0 = byteround(clamp(alpha_results_0[0] * alpha_results_0[2] + alpha_results_0[1] * (1.0 - alpha_results_0[2]), 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_0 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_0 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_1_1 = textureLod(tex0, texcoord0, getLod(texcoord0 * vec2(textureSize(tex0, 0)))).rgb;
vec3 color_results_1_2 = last_tex_env_out.rgb;
vec3 color_results_1_3 = last_tex_env_out.aaa;
vec3 color_results_1[3] = vec3[3](color_results_1_1, color_results_1_2, color_results_1_3);
vec3 color_output_1 = byteround(clamp(color_results_1[0] * color_results_1[2] + color_results_1[1] * (vec3(1.0) - color_results_1[2]), vec3(0.0), vec3(1.0)));
float alpha_results_1[3] = float[3](textureLod(tex0, texcoord0, getLod(texcoord0 * vec2(textureSize(tex0, 0)))).a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_1 = byteround(clamp(alpha_results_1[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_1 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_1 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_2_1 = secondary_fragment_color.ggg;
vec3 color_results_2_2 = last_tex_env_out.rgb;
vec3 color_results_2_3 = last_tex_env_out.rgb;
vec3 color_results_2[3] = vec3[3](color_results_2_1, color_results_2_2, color_results_2_3);
vec3 color_output_2 = byteround(clamp(color_results_2[0] * color_results_2[1] + color_results_2[2], vec3(0.0), vec3(1.0)));
float alpha_results_2[3] = float[3](textureLod(tex1, texcoord1, getLod(texcoord1 * vec2(textureSize(tex1, 0)))).a, const_color[2].a, const_color[2].a);
float alpha_output_2 = byteround(clamp(alpha_results_2[0] * alpha_results_2[1], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_2 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_2 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
next_combiner_buffer.rgb = last_tex_env_out.rgb;
next_combiner_buffer.a = last_tex_env_out.a;
vec3 color_results_3_1 = const_color[3].rgb;
vec3 color_results_3_2 = last_tex_env_out.rgb;
vec3 color_results_3_3 = last_tex_env_out.aaa;
vec3 color_results_3[3] = vec3[3](color_results_3_1, color_results_3_2, color_results_3_3);
vec3 color_output_3 = byteround(clamp(color_results_3[0] * color_results_3[2] + color_results_3[1] * (vec3(1.0) - color_results_3[2]), vec3(0.0), vec3(1.0)));
float alpha_results_3[3] = float[3](rounded_primary_color.a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_3 = byteround(clamp(alpha_results_3[0] * alpha_results_3[1], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_3 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_3 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_4_1 = const_color[4].rgb;
vec3 color_results_4_2 = last_tex_env_out.rgb;
vec3 color_results_4_3 = last_tex_env_out.aaa;
vec3 color_results_4[3] = vec3[3](color_results_4_1, color_results_4_2, color_results_4_3);
vec3 color_output_4 = byteround(clamp(color_results_4[0] * color_results_4[2] + color_results_4[1] * (vec3(1.0) - color_results_4[2]), vec3(0.0), vec3(1.0)));
float alpha_results_4[3] = float[3](textureLod(tex2, texcoord2, getLod(texcoord2 * vec2(textureSize(tex2, 0)))).a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_4 = byteround(clamp(alpha_results_4[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_4 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_4 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
vec3 color_results_5_1 = combiner_buffer.aaa;
vec3 color_results_5_2 = const_color[5].rgb;
vec3 color_results_5_3 = last_tex_env_out.rgb;
vec3 color_results_5[3] = vec3[3](color_results_5_1, color_results_5_2, color_results_5_3);
vec3 color_output_5 = byteround(clamp(min(color_results_5[0] + color_results_5[1], vec3(1.0)) * color_results_5[2], vec3(0.0), vec3(1.0)));
float alpha_results_5[3] = float[3](last_tex_env_out.a, last_tex_env_out.a, last_tex_env_out.a);
float alpha_output_5 = byteround(clamp(alpha_results_5[0], 0.0, 1.0));
last_tex_env_out = vec4(clamp(color_output_5 * 1.0, vec3(0.0), vec3(1.0)), clamp(alpha_output_5 * 1.0, 0.0, 1.0));
combiner_buffer = next_combiner_buffer;
gl_FragDepth = depth;
color = byteround(last_tex_env_out);
}
[  66.527930] Render.OpenGL <Error> video_core/renderer_opengl/gl_shader_util.cpp:LoadProgram:102: Error linking shader:
Program Link Failed for unknown reason.

[  66.527932] Debug <Critical> video_core/renderer_opengl/gl_shader_util.cpp:operator():106: Assertion Failed!
Shader not linked