stdin

Flawfinder version 2.0.10, (C) 2001-2019 David A. Wheeler.
Number of rules (primarily dangerous function names) in C/C++ ruleset: 223
Examining data/gli-0.8.2.0+ds1/gli/clear.hpp
Examining data/gli-0.8.2.0+ds1/gli/comparison.hpp
Examining data/gli-0.8.2.0+ds1/gli/convert.hpp
Examining data/gli-0.8.2.0+ds1/gli/copy.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/clear.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/coord.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/dummy.cpp
Examining data/gli-0.8.2.0+ds1/gli/core/file.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/filter.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/filter_compute.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/flip.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/mipmaps_compute.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/storage.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/storage_linear.hpp
Examining data/gli-0.8.2.0+ds1/gli/core/workaround.hpp
Examining data/gli-0.8.2.0+ds1/gli/duplicate.hpp
Examining data/gli-0.8.2.0+ds1/gli/dx.hpp
Examining data/gli-0.8.2.0+ds1/gli/format.hpp
Examining data/gli-0.8.2.0+ds1/gli/generate_mipmaps.hpp
Examining data/gli-0.8.2.0+ds1/gli/gl.hpp
Examining data/gli-0.8.2.0+ds1/gli/gli.hpp
Examining data/gli-0.8.2.0+ds1/gli/image.hpp
Examining data/gli-0.8.2.0+ds1/gli/levels.hpp
Examining data/gli-0.8.2.0+ds1/gli/load.hpp
Examining data/gli-0.8.2.0+ds1/gli/load_dds.hpp
Examining data/gli-0.8.2.0+ds1/gli/load_kmg.hpp
Examining data/gli-0.8.2.0+ds1/gli/load_ktx.hpp
Examining data/gli-0.8.2.0+ds1/gli/make_texture.hpp
Examining data/gli-0.8.2.0+ds1/gli/reduce.hpp
Examining data/gli-0.8.2.0+ds1/gli/sampler.hpp
Examining data/gli-0.8.2.0+ds1/gli/sampler1d.hpp
Examining data/gli-0.8.2.0+ds1/gli/sampler1d_array.hpp
Examining data/gli-0.8.2.0+ds1/gli/sampler2d.hpp
Examining data/gli-0.8.2.0+ds1/gli/sampler2d_array.hpp
Examining data/gli-0.8.2.0+ds1/gli/sampler3d.hpp
Examining data/gli-0.8.2.0+ds1/gli/sampler_cube.hpp
Examining data/gli-0.8.2.0+ds1/gli/sampler_cube_array.hpp
Examining data/gli-0.8.2.0+ds1/gli/save.hpp
Examining data/gli-0.8.2.0+ds1/gli/save_dds.hpp
Examining data/gli-0.8.2.0+ds1/gli/save_kmg.hpp
Examining data/gli-0.8.2.0+ds1/gli/save_ktx.hpp
Examining data/gli-0.8.2.0+ds1/gli/target.hpp
Examining data/gli-0.8.2.0+ds1/gli/texture.hpp
Examining data/gli-0.8.2.0+ds1/gli/texture1d.hpp
Examining data/gli-0.8.2.0+ds1/gli/texture1d_array.hpp
Examining data/gli-0.8.2.0+ds1/gli/texture2d.hpp
Examining data/gli-0.8.2.0+ds1/gli/texture2d_array.hpp
Examining data/gli-0.8.2.0+ds1/gli/texture3d.hpp
Examining data/gli-0.8.2.0+ds1/gli/texture_cube.hpp
Examining data/gli-0.8.2.0+ds1/gli/texture_cube_array.hpp
Examining data/gli-0.8.2.0+ds1/gli/transform.hpp
Examining data/gli-0.8.2.0+ds1/gli/type.hpp
Examining data/gli-0.8.2.0+ds1/gli/view.hpp
Examining data/gli-0.8.2.0+ds1/test/bug.cpp
Examining data/gli-0.8.2.0+ds1/test/bug.hpp
Examining data/gli-0.8.2.0+ds1/test/bug/bug.cpp
Examining data/gli-0.8.2.0+ds1/test/core.cpp
Examining data/gli-0.8.2.0+ds1/test/core.hpp
Examining data/gli-0.8.2.0+ds1/test/core/convert_sampler1d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/convert_sampler1d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/convert_sampler2d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/convert_sampler2d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/convert_sampler3d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/convert_sampler_cube.cpp
Examining data/gli-0.8.2.0+ds1/test/core/convert_sampler_cube_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_addressing.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_clear.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_comparison.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_convert.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_convert_access.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_filter_1d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_filter_2d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_filter_3d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_flip.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_format.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_generate_mipmaps.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_image.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_dds.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen_1d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen_1d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen_2d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen_2d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen_3d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen_cube.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen_cube_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_gen_rect.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_load_ktx.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_sample.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_sampler2d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_sampler_clear.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_sampler_texel.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_sampler_wrap.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_save.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_storage.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_swizzle.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_texture.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_texture_1d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_texture_1d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_texture_2d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_texture_2d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_texture_3d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_texture_cube.cpp
Examining data/gli-0.8.2.0+ds1/test/core/core_texture_cube_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/generate_mipmaps_sampler1d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/generate_mipmaps_sampler1d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/generate_mipmaps_sampler2d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/generate_mipmaps_sampler2d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/generate_mipmaps_sampler3d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/generate_mipmaps_sampler_cube.cpp
Examining data/gli-0.8.2.0+ds1/test/core/generate_mipmaps_sampler_cube_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/gl.cpp
Examining data/gli-0.8.2.0+ds1/test/core/reduce.cpp
Examining data/gli-0.8.2.0+ds1/test/core/test_copy.cpp
Examining data/gli-0.8.2.0+ds1/test/core/test_copy_sub.cpp
Examining data/gli-0.8.2.0+ds1/test/core/test_duplicate.cpp
Examining data/gli-0.8.2.0+ds1/test/core/test_make_texture.cpp
Examining data/gli-0.8.2.0+ds1/test/core/test_size.cpp
Examining data/gli-0.8.2.0+ds1/test/core/test_view.cpp
Examining data/gli-0.8.2.0+ds1/test/core/texture_lod_sampler1d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/texture_lod_sampler1d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/texture_lod_sampler2d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/texture_lod_sampler2d_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/texture_lod_sampler3d.cpp
Examining data/gli-0.8.2.0+ds1/test/core/texture_lod_sampler_cube.cpp
Examining data/gli-0.8.2.0+ds1/test/core/texture_lod_sampler_cube_array.cpp
Examining data/gli-0.8.2.0+ds1/test/core/transform.cpp
Examining data/gli-0.8.2.0+ds1/test/main.cpp

FINAL RESULTS:

data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:163:51:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, vecType<T, P> > access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:167:53:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return make_vec4<retType, P>(vecType<retType, P>(access::load(Texture, TexelCoord, Layer, Face, Level)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:172:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, vecType<T, P>(Texel));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:191:51:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, vecType<T, P> > access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:196:56:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return make_vec4<retType, P>(compNormalize<retType>(access::load(Texture, TexelCoord, Layer, Face, Level)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:202:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, compScale<T>(vecType<retType, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:209:51:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, vecType<T, P> > access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:214:76:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return make_vec4<retType, P>(convertSRGBToLinear(compNormalize<retType>(access::load(Texture, TexelCoord, Layer, Face, Level))));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:220:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, gli::compScale<T>(convertLinearToSRGB(vecType<retType, P>(Texel))));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:227:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint32> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:232:45:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackF3x9_E1x5(access::load(Texture, TexelCoord, Layer, Face, Level)), static_cast<retType>(1));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:238:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packF3x9_E1x5(tvec3<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:245:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint32> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:250:46:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackF2x11_1x10(access::load(Texture, TexelCoord, Layer, Face, Level)), static_cast<retType>(1));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:256:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packF2x11_1x10(tvec3<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:263:56:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, vecType<uint16, P> > access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:268:64:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return make_vec4<retType, P>(vecType<retType, P>(unpackHalf(access::load(Texture, TexelCoord, Layer, Face, Level))));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:274:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packHalf(vecType<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:281:42:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint8> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:286:62:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(tvec2<retType, P>(unpackUnorm2x4(access::load(Texture, TexelCoord, Layer, Face, Level))), static_cast<retType>(0), static_cast<retType>(1));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:292:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packUnorm2x4(tvec2<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:299:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint16> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:304:44:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackUnorm4x4(access::load(Texture, TexelCoord, Layer, Face, Level)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:310:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packUnorm4x4(tvec4<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:317:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint16> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:322:52:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackUnorm1x5_1x6_1x5(access::load(Texture, TexelCoord, Layer, Face, Level)), static_cast<retType>(1));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:328:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packUnorm1x5_1x6_1x5(tvec3<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:335:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint16> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:340:48:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackUnorm3x5_1x1(access::load(Texture, TexelCoord, Layer, Face, Level)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:346:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packUnorm3x5_1x1(tvec4<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:353:42:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint8> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:358:48:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackUnorm2x3_1x2(access::load(Texture, TexelCoord, Layer, Face, Level)), static_cast<retType>(1));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:364:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packUnorm2x3_1x2(tvec3<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:371:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint32> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:376:49:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackUnorm3x10_1x2(access::load(Texture, TexelCoord, Layer, Face, Level)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:382:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packUnorm3x10_1x2(tvec4<float, P>(Texel)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:389:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint32> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:394:49:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackSnorm3x10_1x2(access::load(Texture, TexelCoord, Layer, Face, Level)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:400:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packSnorm3x10_1x2(Texel));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:407:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint32> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:413:18:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			Unpack.pack = access::load(Texture, TexelCoord, Layer, Face, Level);
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:425:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, Unpack.pack);
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:432:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint32> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:438:18:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			Unpack.pack = access::load(Texture, TexelCoord, Layer, Face, Level);
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:450:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, Unpack.pack);
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:457:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint32> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:462:45:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackU3x10_1x2(access::load(Texture, TexelCoord, Layer, Face, Level)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:468:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packU3x10_1x2(Texel));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:475:43:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
		typedef accessFunc<textureType, uint32> access;
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:480:45:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			return tvec4<retType, P>(unpackI3x10_1x2(access::load(Texture, TexelCoord, Layer, Face, Level)));
data/gli-0.8.2.0+ds1/gli/core/convert_func.hpp:486:4:  [4] (race) access:
  This usually indicates a security flaw. If an attacker can change anything
  along the path between the call to access() and the file's actual use
  (e.g., by moving files), the attacker can exploit the race condition
  (CWE-362/CWE-367!). Set up the correct permissions (e.g., using setuid())
  and try to open the file directly.
			access::store(Texture, TexelCoord, Layer, Face, Level, packI3x10_1x2(Texel));
data/gli-0.8.2.0+ds1/gli/core/clear.hpp:21:5:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
				memcpy(static_cast<std::uint8_t*>(Texture.data()) + BlockSize * BlockIndex, Texel.data(), BlockSize);
data/gli-0.8.2.0+ds1/test/core/core_load_dds.cpp:162:22:  [2] (misc) fopen:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
			FILE* File = std::fopen(Params[Index].Filename.c_str(), "rb");
data/gli-0.8.2.0+ds1/test/core/core_load_ktx.cpp:120:22:  [2] (misc) fopen:
  Check when opening files - can an attacker redirect it (via symlinks),
  force the opening of special file type (e.g., device files), move things
  around to create a race condition, control its ancestors, or change its
  contents? (CWE-362).
			FILE* File = std::fopen(Filename, "rb");
data/gli-0.8.2.0+ds1/test/core/core_storage.cpp:18:2:  [2] (buffer) memcpy:
  Does not check for buffer overflows when copying to destination (CWE-120).
  Make sure destination can always hold the source data.
	memcpy(Storage.data(), &Data[0][0], Data.size() * sizeof(glm::u8vec4));
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:26:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec1(1))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:28:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec1(2))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:30:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec1(3))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:32:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec1(4))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:34:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec1(5))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:62:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec2(1, 2))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:64:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec2(3, 4))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:66:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec2(5, 6))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:68:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec2(7, 8))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:70:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec2(9, 5))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:98:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec3(255, 0, 0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:100:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec3(255, 255, 0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:102:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec3(0, 255, 0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:104:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec3(0, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:106:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec3(255, 128, 0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:134:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec4(255, 0, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:136:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec4(255, 255, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:138:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec4(0, 255, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:140:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec4(0, 0, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:142:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec4(255, 128, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:212:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec3(glm::convertLinearToSRGB(glm::vec3(255, 0, 0))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:214:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec3(glm::convertLinearToSRGB(glm::vec3(255, 255, 0))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:216:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec3(glm::convertLinearToSRGB(glm::vec3(0, 255, 0))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:218:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec3(glm::convertLinearToSRGB(glm::vec3(0, 0, 255))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:220:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec3(glm::convertLinearToSRGB(glm::vec3(255, 128, 0))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:248:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec4(glm::convertLinearToSRGB(glm::vec4(1.0f, 0.0f, 0.0f, 1.0f))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:250:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec4(glm::convertLinearToSRGB(glm::vec4(1.0f, 1.0f, 0.0f, 1.0f))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:252:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec4(glm::convertLinearToSRGB(glm::vec4(0.0f, 1.0f, 0.0f, 1.0f))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:254:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec4(glm::convertLinearToSRGB(glm::vec4(0.0f, 0.0f, 1.0f, 1.0f))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:256:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec4(glm::convertLinearToSRGB(glm::vec4(1.0f, 0.5f, 0.0f, 1.0f))))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:284:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec3(0, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:286:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec3(0, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:288:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec3(0, 255, 0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:290:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec3(255, 0, 0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:292:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec3(0, 128, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:320:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec4(0, 0, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:322:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec4(0, 255, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:324:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec4(0, 255, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:326:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec4(255, 0, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:328:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec4(0, 128, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:356:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec4(255, 0, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:358:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec4(255, 255, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:360:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec4(0, 255, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:362:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec4(0, 0, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_fetch.cpp:364:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec4(255, 128, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_image.cpp:79:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Data0, glm::u8vec4(255,   0,   0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_image.cpp:80:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Data1, glm::u8vec4(255, 128,   0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_image.cpp:81:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Data2, glm::u8vec4(255, 255,   0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_image.cpp:82:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Data3, glm::u8vec4(128, 255,   0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_image.cpp:83:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Data4, glm::u8vec4(  0, 255,   0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_image.cpp:84:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Data5, glm::u8vec4(  0, 255, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_image.cpp:85:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Data6, glm::u8vec4(  0,   0, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_image.cpp:86:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Data7, glm::u8vec4(255,   0, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_sampler_texel.cpp:397:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(Outputs[i], Colors[i])) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture.cpp:126:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture.cpp:127:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(Color1, glm::u8vec4(0, 127, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture.cpp:141:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_1d.cpp:94:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_1d.cpp:95:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(Color1, glm::u8vec4(0, 127, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_1d_array.cpp:113:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_1d_array.cpp:114:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color1, glm::u8vec4(0, 127, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d.cpp:204:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d.cpp:205:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color1, glm::u8vec4(0, 127, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d.cpp:230:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d_array.cpp:116:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d_array.cpp:117:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(Color1, glm::u8vec4(0, 127, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d_array.cpp:268:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(A, glm::u8vec4(255, 0, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d_array.cpp:270:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(B, glm::u8vec4(255, 255, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d_array.cpp:272:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(C, glm::u8vec4(0, 255, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d_array.cpp:274:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(D, glm::u8vec4(0, 0, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_2d_array.cpp:276:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(E, glm::u8vec4(0, 0, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_3d.cpp:121:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_3d.cpp:122:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color1, glm::u8vec4(0, 127, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube.cpp:99:27:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
			Error += glm::all(glm::equal(*(TextureCube.data<glm::u8vec4>() + TexelIndex), Colors[TexelIndex / 4])) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube.cpp:136:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube.cpp:137:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color1, glm::u8vec4(0, 127, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube.cpp:162:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(ColorA, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube.cpp:163:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube_array.cpp:117:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube_array.cpp:118:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color1, glm::u8vec4(0, 127, 255, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube_array.cpp:140:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(ColorA, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/core_texture_cube_array.cpp:141:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += glm::all(glm::equal(Color0, glm::u8vec4(255, 127, 0, 255))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/reduce.cpp:24:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += gli::all(glm::equal(MaxAbsDiff, gli::u8vec4(0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/reduce.cpp:42:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += gli::all(glm::equal(MaxAbsDiff, gli::u8vec4(0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/reduce.cpp:60:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += gli::all(glm::equal(MaxAbsDiff, gli::u8vec4(0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/reduce.cpp:78:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += gli::all(glm::equal(MaxAbsDiff, gli::u8vec4(0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/reduce.cpp:96:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += gli::all(glm::equal(MaxAbsDiff, gli::u8vec4(0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/reduce.cpp:114:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += gli::all(glm::equal(MaxAbsDiff, gli::u8vec4(0))) ? 0 : 1;
data/gli-0.8.2.0+ds1/test/core/reduce.cpp:132:26:  [1] (buffer) equal:
  Function does not check the second iterator for over-read conditions
  (CWE-126). This function is often discouraged by most C++ coding standards
  in favor of its safer alternatives provided since C++14. Consider using a
  form of this function that checks the second iterator before potentially
  overflowing it.
		Error += gli::all(glm::equal(MaxAbsDiff, gli::u8vec4(0))) ? 0 : 1;

ANALYSIS SUMMARY:

Hits = 144
Lines analyzed = 26736 in approximately 1.07 seconds (24986 lines/second)
Physical Source Lines of Code (SLOC) = 20437
Hits@level = [0]  26 [1]  89 [2]   4 [3]   0 [4]  51 [5]   0
Hits@level+ = [0+] 170 [1+] 144 [2+]  55 [3+]  51 [4+]  51 [5+]   0
Hits/KSLOC@level+ = [0+] 8.31825 [1+] 7.04604 [2+] 2.6912 [3+] 2.49547 [4+] 2.49547 [5+]   0
Dot directories skipped = 1 (--followdotdir overrides)
Minimum risk level = 1
Not every hit is necessarily a security vulnerability.
There may be other security vulnerabilities; review your code!
See 'Secure Programming HOWTO'
(https://dwheeler.com/secure-programs) for more information.