Fixed merge

2024-11-15 14:24:36 +00:00 · 2013-08-29 01:19:47 +02:00 · 2013-08-29 01:19:47 +02:00 · 9e7e7ceafd
commit 9e7e7ceafd
parent 5be36e0ddc 75a4068c82
41 changed files with 19 additions and 4288 deletions
--- a/glm/core/func_common.inl
+++ b/glm/core/func_common.inl
@ -95,12 +95,6 @@ namespace detail
 	VECTORIZE_VEC(sign)
 	// floor
 	template <>
 	GLM_FUNC_QUALIFIER detail::half floor<detail::half>(detail::half const & x)
 	{
 		return detail::half(::std::floor(float(x)));
 	}
 	template <typename genType>
 	GLM_FUNC_QUALIFIER genType floor(genType const & x)
 	{
--- a/glm/core/type_float.hpp
+++ b/glm/core/type_float.hpp
@ -34,20 +34,11 @@
 namespace glm{
 namespace detail
 {
 	class half;
 	typedef half				float16;
 	typedef float				float32;
 	typedef double				float64;
 }//namespace detail
 	typedef detail::half half;
 #ifdef GLM_USE_HALF_SCALAR
 	typedef detail::half		lowp_float_t;
 #else//GLM_USE_HALF_SCALAR
 	typedef float				lowp_float_t;
 #endif//GLM_USE_HALF_SCALAR
 	typedef float				mediump_float_t;
 	typedef double				highp_float_t;
@ -87,7 +78,6 @@ namespace detail
 #	error "GLM error: multiple default precision requested for floating-point types"
 #endif
 	typedef half				float16;
 	typedef float				float32;
 	typedef double				float64;
@ -121,17 +111,10 @@ namespace detail
 	////////////////////
 	// Mark half to be flaot
 	GLM_DETAIL_IS_FLOAT(half);
 	GLM_DETAIL_IS_FLOAT(float);
 	GLM_DETAIL_IS_FLOAT(double);
 	GLM_DETAIL_IS_FLOAT(long double);
 	template <>
 	struct float_or_int_trait<float16>
 	{
 		enum{ID = float_or_int_value::GLM_FLOAT};
 	};
 	template <>
 	struct float_or_int_trait<float32>
 	{
--- a/glm/core/type_half.hpp
+++ b/glm/core/type_half.hpp
@ -39,101 +39,11 @@ namespace detail
 	GLM_FUNC_DECL float toFloat32(hdata value);
 	GLM_FUNC_DECL hdata toFloat16(float const & value);
 	class half
 	{
 	public: 
 		// Constructors
 		GLM_FUNC_DECL half();
 		GLM_FUNC_DECL half(half const & s);
 		template <typename U>
 		GLM_FUNC_DECL explicit half(U const & s);
 		// Cast
 		//template <typename U>
 		//GLM_FUNC_DECL operator U() const;
 		GLM_FUNC_DECL operator float() const;
 		// Unary updatable operators
 		GLM_FUNC_DECL half& operator= (half const & s);
 		GLM_FUNC_DECL half& operator+=(half const & s);
 		GLM_FUNC_DECL half& operator-=(half const & s);
 		GLM_FUNC_DECL half& operator*=(half const & s);
 		GLM_FUNC_DECL half& operator/=(half const & s);
 		GLM_FUNC_DECL half& operator++();
 		GLM_FUNC_DECL half& operator--();
 		GLM_FUNC_DECL float toFloat() const{return toFloat32(data);}
 		GLM_FUNC_DECL hdata _data() const{return data;}
 	private:
 		hdata data;
 	};
 	GLM_FUNC_DECL half operator+ (half const & s1, half const & s2);
 	GLM_FUNC_DECL half operator- (half const & s1, half const & s2);
 	GLM_FUNC_DECL half operator* (half const & s1, half const & s2);
 	GLM_FUNC_DECL half operator/ (half const & s1, half const & s2);
 	// Unary constant operators
 	GLM_FUNC_DECL half operator- (half const & s);
 	GLM_FUNC_DECL half operator-- (half const & s, int);
 	GLM_FUNC_DECL half operator++ (half const & s, int);
 	GLM_FUNC_DECL bool operator==(
 		detail::half const & x, 
 		detail::half const & y);
 	GLM_FUNC_DECL bool operator!=(
 		detail::half const & x, 
 		detail::half const & y);
 	GLM_FUNC_DECL bool operator<(
 		detail::half const & x, 
 		detail::half const & y);
 	GLM_FUNC_DECL bool operator<=(
 		detail::half const & x, 
 		detail::half const & y);
 	GLM_FUNC_DECL bool operator>(
 		detail::half const & x, 
 		detail::half const & y);
 	GLM_FUNC_DECL bool operator>=(
 		detail::half const & x, 
 		detail::half const & y);
 }//namespace detail
-	/// Low half-precision floating-point numbers.
+	/// half-precision floating-point numbers.
-	typedef detail::half		lowp_half;
+	//typedef detail::hdata		half;
-	
+		
 	/// Medium half-precision floating-point numbers.
 	typedef detail::half		mediump_half;
 	/// High half-precision floating-point numbers.
 	typedef detail::half		highp_half;
 #if(defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	typedef highp_half			half_t;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	typedef mediump_half		half_t;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && defined(GLM_PRECISION_LOWP_HALF))
 	typedef lowp_half			half_t;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	/// Default half-precision floating-point numbers.
 	typedef highp_half			half_t;
 #else
 #	error "GLM error: Multiple default precisions requested for half-precision floating-point types"
 #endif
 }//namespace glm
 #include "type_half.inl"
--- a/glm/core/type_half.inl
+++ b/glm/core/type_half.inl
@ -252,168 +252,5 @@ namespace detail
 		}
 	}
 	GLM_FUNC_QUALIFIER half::half() :
 		data(0)
 	{}
 	GLM_FUNC_QUALIFIER half::half(half const & s) :
 		data(s.data)
 	{}
 	template <typename U>
 	GLM_FUNC_QUALIFIER half::half(U const & s) :
 		data(toFloat16(float(s)))
 	{}
 /*
 	template <typename U>
 	GLM_FUNC_QUALIFIER half::operator U() const
 	{
 		return static_cast<U>(toFloat32(this->data));
 	}
 */
 	GLM_FUNC_QUALIFIER half::operator float() const
 	{
 		return toFloat32(this->data);
 	}
 	// Unary updatable operators
 	GLM_FUNC_QUALIFIER half& half::operator= (half const & s)
 	{
 		data = s.data;
 		return *this;
 	}
 	GLM_FUNC_QUALIFIER half& half::operator+=(half const & s)
 	{
 		data = toFloat16(toFloat32(data) + toFloat32(s.data));
 		return *this;
 	}
 	GLM_FUNC_QUALIFIER half& half::operator-=(half const & s)
 	{
 		data = toFloat16(toFloat32(data) - toFloat32(s.data));
 		return *this;
 	}
 	GLM_FUNC_QUALIFIER half& half::operator*=(half const & s)
 	{
 		data = toFloat16(toFloat32(data) * toFloat32(s.data));		
 		return *this;
 	}
 	GLM_FUNC_QUALIFIER half& half::operator/=(half const & s)
 	{
 		data = toFloat16(toFloat32(data) / toFloat32(s.data));
 		return *this;
 	}
 	GLM_FUNC_QUALIFIER half& half::operator++()
 	{
 		float Casted = toFloat32(data);
 		this->data = toFloat16(++Casted);
 		return *this;
 	}
 	GLM_FUNC_QUALIFIER half& half::operator--()
 	{
 		float Casted = toFloat32(data);
 		this->data = toFloat16(--Casted);
 		return *this;
 	}
 	//////////////////////////////////////
 	// Binary arithmetic operators
 	GLM_FUNC_QUALIFIER detail::half operator+ (detail::half const & s1, detail::half const & s2)
 	{
 		return detail::half(float(s1) + float(s2));
 	}
 	GLM_FUNC_QUALIFIER detail::half operator- (detail::half const & s1, detail::half const & s2)
 	{
 		return detail::half(float(s1) - float(s2));
 	}
 	GLM_FUNC_QUALIFIER detail::half operator* (detail::half const & s1, detail::half const & s2)
 	{
 		return detail::half(float(s1) * float(s2));
 	}
 	GLM_FUNC_QUALIFIER detail::half operator/ (detail::half const & s1, detail::half const & s2)
 	{
 		return detail::half(float(s1) / float(s2));
 	}
 	// Unary constant operators
 	GLM_FUNC_QUALIFIER detail::half operator- (detail::half const & s)
 	{
 		return detail::half(-float(s));
 	}
 	GLM_FUNC_QUALIFIER detail::half operator-- (detail::half const & s, int)
 	{
 		return detail::half(float(s) - 1.0f);
 	}
 	GLM_FUNC_QUALIFIER detail::half operator++ (detail::half const & s, int)
 	{
 		return detail::half(float(s) + 1.0f);
 	}
 	GLM_FUNC_QUALIFIER bool operator==
 	(
 		detail::half const & x, 
 		detail::half const & y
 	)
 	{
 		return x._data() == y._data();
 	}
 	GLM_FUNC_QUALIFIER bool operator!=
 	(
 		detail::half const & x, 
 		detail::half const & y
 	)
 	{
 		return x._data() != y._data();
 	}
 	GLM_FUNC_QUALIFIER bool operator<
 	(
 		detail::half const & x, 
 		detail::half const & y
 	)
 	{
 		return float(x) < float(y);
 	}
 	GLM_FUNC_QUALIFIER bool operator<=
 	(
 		detail::half const & x, 
 		detail::half const & y
 	)
 	{
 		return float(x) <= float(y);
 	}
 	GLM_FUNC_QUALIFIER bool operator>
 	(
 		detail::half const & x, 
 		detail::half const & y
 	)
 	{
 		return float(x) > float(y);
 	}
 	GLM_FUNC_QUALIFIER bool operator>=
 	(
 		detail::half const & x, 
 		detail::half const & y
 	)
 	{
 		return float(x) >= float(y);
 	}
 }//namespace detail
 }//namespace glm
--- a/glm/fwd.hpp
+++ b/glm/fwd.hpp
@ -46,33 +46,7 @@ namespace detail
 	template <typename T, precision P> struct tquat;
 }//namespace detail
 	/// Quaternion of low half-precision floating-point numbers.
 	///
 	/// @see gtc_quaternion
 	typedef detail::tquat<half, lowp>		lowp_hquat;
 	/// Quaternion of medium half-precision floating-point numbers.
 	///
 	/// @see gtc_quaternion
 	typedef detail::tquat<half, mediump>	mediump_hquat;
 	/// Quaternion of high half-precision floating-point numbers.
 	///
 	/// @see gtc_quaternion
 	typedef detail::tquat<half, highp>		highp_hquat;
 #if(defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	typedef highp_hquat			hquat;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	typedef mediump_hquat		hquat;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && defined(GLM_PRECISION_LOWP_HALF))
 	typedef lowp_hquat			hquat;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	/// Default half-precision floating-point numbers.
 	typedef highp_hquat			hquat;
 #endif
 	/// Quaternion of low single-precision floating-point numbers.
 	///
@ -1356,10 +1330,6 @@ namespace glm
 	//////////////////////
 	// Float vector types
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 lowp_float16;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 lowp_float32;
@ -1368,10 +1338,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::float64 lowp_float64;
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 lowp_float16_t;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 lowp_float32_t;
@ -1380,10 +1346,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::float64 lowp_float64_t;
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float16 lowp_f16;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float32 lowp_f32;
@ -1391,10 +1353,6 @@ namespace glm
 	/// Low 64 bit double-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float64 lowp_f64;
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 lowp_float16;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
@ -1403,11 +1361,7 @@ namespace glm
 	/// Low 64 bit double-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float64 lowp_float64;
-	
+		
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 lowp_float16_t;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 lowp_float32_t;
@ -1416,10 +1370,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::float64 lowp_float64_t;
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float16 lowp_f16;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float32 lowp_f32;
@ -1429,11 +1379,6 @@ namespace glm
 	typedef float64 lowp_f64;
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 lowp_float16;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 lowp_float32;
@ -1441,11 +1386,7 @@ namespace glm
 	/// Low 64 bit double-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float64 lowp_float64;
-	
+		
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 lowp_float16_t;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 lowp_float32_t;
@ -1453,11 +1394,7 @@ namespace glm
 	/// Low 64 bit double-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float64 lowp_float64_t;
-	
+		
 	/// Low 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float16 lowp_f16;
 	/// Low 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float32 lowp_f32;
@ -1467,10 +1404,6 @@ namespace glm
 	typedef float64 lowp_f64;
 	/// Medium 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 mediump_float16;
 	/// Medium 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 mediump_float32;
@ -1478,11 +1411,7 @@ namespace glm
 	/// Medium 64 bit double-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float64 mediump_float64;
-	
+		
 	/// Medium 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 mediump_float16_t;
 	/// Medium 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 mediump_float32_t;
@ -1491,10 +1420,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::float64 mediump_float64_t;
 	/// Medium 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float16 mediump_f16;
 	/// Medium 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float32 mediump_f32;
@ -1503,10 +1428,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef float64 mediump_f64;
 	/// High 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 highp_float16;
 	/// High 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
@ -1516,10 +1437,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::float64 highp_float64;
 	/// High 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 highp_float16_t;
 	/// High 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 highp_float32_t;
@ -1528,10 +1445,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::float64 highp_float64_t;
 	/// High 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float16 highp_f16;
 	/// High 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float32 highp_f32;
@ -1542,10 +1455,6 @@ namespace glm
 #if(defined(GLM_PRECISION_LOWP_FLOAT))
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef lowp_float16 float16;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef lowp_float32 float32;
@ -1554,10 +1463,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef lowp_float64 float64;
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef lowp_float16 float16_t;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef lowp_float32_t float32_t;
@ -1566,10 +1471,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef lowp_float64_t float64_t;
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef lowp_f16 f16;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef lowp_f32 f32;
@ -1579,9 +1480,6 @@ namespace glm
 	typedef lowp_f64 f64;
 #elif(defined(GLM_PRECISION_MEDIUMP_FLOAT))
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef mediump_float16 float16;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
@ -1591,10 +1489,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef mediump_float64 float64;
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef mediump_float16 float16_t;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef mediump_float32 float32_t;
@ -1603,10 +1497,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef mediump_float64 float64_t;
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef mediump_float16 f16;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef mediump_float32 f32;
@ -1616,9 +1506,6 @@ namespace glm
 	typedef mediump_float64 f64;
 #else//(defined(GLM_PRECISION_HIGHP_FLOAT))
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef highp_float16 float16;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
@ -1628,10 +1515,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef highp_float64 float64;
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef highp_float16_t float16_t;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef highp_float32_t float32_t;
@ -1640,10 +1523,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef highp_float64_t float64_t;
 	/// Default 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef highp_float16_t f16;
 	/// Default 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef highp_float32_t f32;
@ -1755,57 +1634,6 @@ namespace glm
 	typedef detail::tvec4<float, highp> highp_fvec4;
 	/// Low half-precision floating-point vector of 1 component.
 	/// @see gtc_type_precision
 	typedef detail::tvec1<f16, lowp> lowp_f16vec1;
 	/// Low half-precision floating-point vector of 2 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec2<f16, lowp> lowp_f16vec2;
 	/// Low half-precision floating-point vector of 3 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec3<f16, lowp> lowp_f16vec3;
 	/// Low half-precision floating-point vector of 4 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec4<f16, lowp> lowp_f16vec4;
 	/// Medium half-precision floating-point vector of 1 component.
 	/// @see gtc_type_precision
 	typedef detail::tvec1<f16, mediump> mediump_f16vec1;
 	/// Medium half-precision floating-point vector of 2 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec2<f16, mediump> mediump_f16vec2;
 	/// Medium half-precision floating-point vector of 3 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec3<f16, mediump> mediump_f16vec3;
 	/// Medium half-precision floating-point vector of 4 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec4<f16, mediump> mediump_f16vec4;
 	/// High half-precision floating-point vector of 1 component.
 	/// @see gtc_type_precision
 	typedef detail::tvec1<f16, highp> highp_f16vec1;
 	/// High half-precision floating-point vector of 2 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec2<f16, highp> highp_f16vec2;
 	/// High half-precision floating-point vector of 3 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec3<f16, highp> highp_f16vec3;
 	/// High half-precision floating-point vector of 4 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec4<f16, highp> highp_f16vec4;
 	/// Low single-precision floating-point vector of 1 component.
 	/// @see gtc_type_precision
 	typedef detail::tvec1<f32, lowp> lowp_f32vec1;
@ -1853,9 +1681,8 @@ namespace glm
 	/// High single-precision floating-point vector of 4 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec4<f32, highp> highp_f32vec4;
 	/// Low double-precision floating-point vector of 1 component.
 	/// @see gtc_type_precision
 	typedef detail::tvec1<f64, lowp> lowp_f64vec1;
@ -1904,9 +1731,9 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::tvec4<f64, highp> highp_f64vec4;
 	//////////////////////
 	// Float matrix types
 	/// Low single-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
@ -2079,181 +1906,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef highp_fmat4x4 highp_fmat4;
 	/// Low half-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef lowp_f16 lowp_f16mat1x1;
 	/// Low half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x2<f16, lowp> lowp_f16mat2x2;
 	/// Low half-precision floating-point 2x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x3<f16, lowp> lowp_f16mat2x3;
 	/// Low half-precision floating-point 2x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x4<f16, lowp> lowp_f16mat2x4;
 	/// Low half-precision floating-point 3x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x2<f16, lowp> lowp_f16mat3x2;
 	/// Low half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x3<f16, lowp> lowp_f16mat3x3;
 	/// Low half-precision floating-point 3x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x4<f16, lowp> lowp_f16mat3x4;
 	/// Low half-precision floating-point 4x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x2<f16, lowp> lowp_f16mat4x2;
 	/// Low half-precision floating-point 4x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x3<f16, lowp> lowp_f16mat4x3;
 	/// Low half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x4<f16, lowp> lowp_f16mat4x4;
 	/// Low half-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef lowp_f16mat1x1 lowp_f16mat1;
 	/// Low half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef lowp_f16mat2x2 lowp_f16mat2;
 	/// Low half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef lowp_f16mat3x3 lowp_f16mat3;
 	/// Low half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef lowp_f16mat4x4 lowp_f16mat4;
 	/// Medium half-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef mediump_f16 mediump_f16mat1x1;
 	/// Medium half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x2<f16, mediump> mediump_f16mat2x2;
 	/// Medium half-precision floating-point 2x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x3<f16, mediump> mediump_f16mat2x3;
 	/// Medium half-precision floating-point 2x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x4<f16, mediump> mediump_f16mat2x4;
 	/// Medium half-precision floating-point 3x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x2<f16, mediump> mediump_f16mat3x2;
 	/// Medium half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x3<f16, mediump> mediump_f16mat3x3;
 	/// Medium half-precision floating-point 3x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x4<f16, mediump> mediump_f16mat3x4;
 	/// Medium half-precision floating-point 4x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x2<f16, mediump> mediump_f16mat4x2;
 	/// Medium half-precision floating-point 4x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x3<f16, mediump> mediump_f16mat4x3;
 	/// Medium half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x4<f16, mediump> mediump_f16mat4x4;
 	/// Medium half-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef mediump_f16mat1x1 mediump_f16mat1;
 	/// Medium half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef mediump_f16mat2x2 mediump_f16mat2;
 	/// Medium half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef mediump_f16mat3x3 mediump_f16mat3;
 	/// Medium half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef mediump_f16mat4x4 mediump_f16mat4;
 	/// High half-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef highp_f16 highp_f16mat1x1;
 	/// High half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x2<f16, highp> highp_f16mat2x2;
 	/// High half-precision floating-point 2x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x3<f16, highp> highp_f16mat2x3;
 	/// High half-precision floating-point 2x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x4<f16, highp> highp_f16mat2x4;
 	/// High half-precision floating-point 3x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x2<f16, highp> highp_f16mat3x2;
 	/// High half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x3<f16, highp> highp_f16mat3x3;
 	/// High half-precision floating-point 3x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x4<f16, highp> highp_f16mat3x4;
 	/// High half-precision floating-point 4x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x2<f16, highp> highp_f16mat4x2;
 	/// High half-precision floating-point 4x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x3<f16, highp> highp_f16mat4x3;
 	/// High half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x4<f16, highp> highp_f16mat4x4;
 	/// High half-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef highp_f16mat1x1 highp_f16mat1;
 	/// High half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat2x2 highp_f16mat2;
 	/// High half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat3x3 highp_f16mat3;
 	/// High half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat4x4 highp_f16mat4;
 	/// Low single-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
@ -2544,8 +2196,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef mediump_f64mat4x4 mediump_f64mat4;
 	/// High double-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef f64 highp_f64mat1x1;
@ -2602,15 +2252,9 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef highp_f64mat4x4 highp_f64mat4;
 	//////////////////////////
 	// Quaternion types
 	/// Low half-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef detail::tquat<f16, lowp> lowp_f16quat;
 	/// Low single-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef detail::tquat<f32, lowp> lowp_f32quat;
@ -2619,10 +2263,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::tquat<f64, lowp> lowp_f64quat;
 	/// Medium half-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef detail::tquat<f16, mediump> mediump_f16quat;
 	/// Medium single-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef detail::tquat<f32, mediump> mediump_f32quat;
@ -2631,10 +2271,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::tquat<f64, mediump> mediump_f64quat;
 	/// High half-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef detail::tquat<f16, highp> highp_f16quat;
 	/// High single-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef detail::tquat<f32, highp> highp_f32quat;
@ -2643,113 +2279,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::tquat<f64, highp> highp_f64quat;
 #if(defined(GLM_PRECISION_LOWP_HALF))
 	typedef lowp_f16vec1			f16vec1;
 	typedef lowp_f16vec2			f16vec2;
 	typedef lowp_f16vec3			f16vec3;
 	typedef lowp_f16vec4			f16vec4;
 	typedef lowp_f16mat2			f16mat2;
 	typedef lowp_f16mat3			f16mat3;
 	typedef lowp_f16mat4			f16mat4;
 	typedef lowp_f16mat2x2			f16mat2x2;
 	typedef lowp_f16mat3x2			f16mat3x2;
 	typedef lowp_f16mat4x2			f16mat4x2;
 	typedef lowp_f16mat2x3			f16mat2x3;
 	typedef lowp_f16mat3x3			f16mat3x3;
 	typedef lowp_f16mat4x3			f16mat4x3;
 	typedef lowp_f16mat2x4			f16mat2x4;
 	typedef lowp_f16mat3x4			f16mat3x4;
 	typedef lowp_f16mat4x4			f16mat4x4;
 	typedef lowp_f16quat			f16quat;
 #elif(defined(GLM_PRECISION_MEDIUMP_HALF))
 	typedef mediump_f16vec1			f16vec1;
 	typedef mediump_f16vec2			f16vec2;
 	typedef mediump_f16vec3			f16vec3;
 	typedef mediump_f16vec4			f16vec4;
 	typedef mediump_f16mat2			f16mat2;
 	typedef mediump_f16mat3			f16mat3;
 	typedef mediump_f16mat4			f16mat4;
 	typedef mediump_f16mat2x2		f16mat2x2;
 	typedef mediump_f16mat3x2		f16mat3x2;
 	typedef mediump_f16mat4x2		f16mat4x2;
 	typedef mediump_f16mat2x3		f16mat2x3;
 	typedef mediump_f16mat3x3		f16mat3x3;
 	typedef mediump_f16mat4x3		f16mat4x3;
 	typedef mediump_f16mat2x4		f16mat2x4;
 	typedef mediump_f16mat3x4		f16mat3x4;
 	typedef mediump_f16mat4x4		f16mat4x4;
 	typedef mediump_f16quat			f16quat;
 #else//if(defined(GLM_PRECISION_HIGHP_HALF))
 	/// Default half-precision floating-point vector of 1 components.
 	/// @see gtc_type_precision
 	typedef highp_f16vec1			f16vec1;
 	/// Default half-precision floating-point vector of 2 components.
 	/// @see gtc_type_precision
 	typedef highp_f16vec2			f16vec2;
 	/// Default half-precision floating-point vector of 3 components.
 	/// @see gtc_type_precision
 	typedef highp_f16vec3			f16vec3;
 	/// Default half-precision floating-point vector of 4 components.
 	/// @see gtc_type_precision
 	typedef highp_f16vec4			f16vec4;
 	/// Default half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat2x2			f16mat2x2;
 	/// Default half-precision floating-point 2x3 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat2x3			f16mat2x3;
 	/// Default half-precision floating-point 2x4 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat2x4			f16mat2x4;
 	/// Default half-precision floating-point 3x2 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat3x2			f16mat3x2;
 	/// Default half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat3x3			f16mat3x3;
 	/// Default half-precision floating-point 3x4 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat3x4			f16mat3x4;
 	/// Default half-precision floating-point 4x2 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat4x2			f16mat4x2;
 	/// Default half-precision floating-point 4x3 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat4x3			f16mat4x3;
 	/// Default half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef highp_f16mat4x4			f16mat4x4;
 	/// Default half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef f16mat2x2				f16mat2;
 	/// Default half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef f16mat3x3				f16mat3;
 	/// Default half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef f16mat4x4				f16mat4;	
 	/// Default half-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef highp_f16quat			f16quat;
 #endif
 #if(defined(GLM_PRECISION_LOWP_FLOAT))
 	typedef lowp_f32vec1			fvec1;
--- a/glm/glm.cpp
+++ b/glm/glm.cpp
@ -80,7 +80,6 @@ template struct tvec2<int8, lowp>;
 template struct tvec2<int16, lowp>;
 template struct tvec2<int32, lowp>;
 template struct tvec2<int64, lowp>;
 template struct tvec2<float16, lowp>;
 template struct tvec2<float32, lowp>;
 template struct tvec2<float64, lowp>;
@ -92,7 +91,6 @@ template struct tvec2<int8, mediump>;
 template struct tvec2<int16, mediump>;
 template struct tvec2<int32, mediump>;
 template struct tvec2<int64, mediump>;
 template struct tvec2<float16, mediump>;
 template struct tvec2<float32, mediump>;
 template struct tvec2<float64, mediump>;
@ -104,7 +102,6 @@ template struct tvec2<int8, highp>;
 template struct tvec2<int16, highp>;
 template struct tvec2<int32, highp>;
 template struct tvec2<int64, highp>;
 template struct tvec2<float16, highp>;
 template struct tvec2<float32, highp>;
 template struct tvec2<float64, highp>;
@ -117,7 +114,6 @@ template struct tvec3<int8, lowp>;
 template struct tvec3<int16, lowp>;
 template struct tvec3<int32, lowp>;
 template struct tvec3<int64, lowp>;
 template struct tvec3<float16, lowp>;
 template struct tvec3<float32, lowp>;
 template struct tvec3<float64, lowp>;
@ -129,7 +125,6 @@ template struct tvec3<int8, mediump>;
 template struct tvec3<int16, mediump>;
 template struct tvec3<int32, mediump>;
 template struct tvec3<int64, mediump>;
 template struct tvec3<float16, mediump>;
 template struct tvec3<float32, mediump>;
 template struct tvec3<float64, mediump>;
@ -141,7 +136,6 @@ template struct tvec3<int8, highp>;
 template struct tvec3<int16, highp>;
 template struct tvec3<int32, highp>;
 template struct tvec3<int64, highp>;
 template struct tvec3<float16, highp>;
 template struct tvec3<float32, highp>;
 template struct tvec3<float64, highp>;
@ -154,7 +148,6 @@ template struct tvec4<int8, lowp>;
 template struct tvec4<int16, lowp>;
 template struct tvec4<int32, lowp>;
 template struct tvec4<int64, lowp>;
 template struct tvec4<float16, lowp>;
 template struct tvec4<float32, lowp>;
 template struct tvec4<float64, lowp>;
@ -166,7 +159,6 @@ template struct tvec4<int8, mediump>;
 template struct tvec4<int16, mediump>;
 template struct tvec4<int32, mediump>;
 template struct tvec4<int64, mediump>;
 template struct tvec4<float16, mediump>;
 template struct tvec4<float32, mediump>;
 template struct tvec4<float64, mediump>;
@ -178,150 +170,116 @@ template struct tvec4<int8, highp>;
 template struct tvec4<int16, highp>;
 template struct tvec4<int32, highp>;
 template struct tvec4<int64, highp>;
 template struct tvec4<float16, highp>;
 template struct tvec4<float32, highp>;
 template struct tvec4<float64, highp>;
 // tmat2x2 type explicit instantiation
 template struct tmat2x2<float16, lowp>;
 template struct tmat2x2<float32, lowp>;
 template struct tmat2x2<float64, lowp>;
 template struct tmat2x2<float16, mediump>;
 template struct tmat2x2<float32, mediump>;
 template struct tmat2x2<float64, mediump>;
 template struct tmat2x2<float16, highp>;
 template struct tmat2x2<float32, highp>;
 template struct tmat2x2<float64, highp>;
 // tmat2x3 type explicit instantiation
 template struct tmat2x3<float16, lowp>;
 template struct tmat2x3<float32, lowp>;
 template struct tmat2x3<float64, lowp>;
 template struct tmat2x3<float16, mediump>;
 template struct tmat2x3<float32, mediump>;
 template struct tmat2x3<float64, mediump>;
 template struct tmat2x3<float16, highp>;
 template struct tmat2x3<float32, highp>;
 template struct tmat2x3<float64, highp>;
 // tmat2x4 type explicit instantiation
 template struct tmat2x4<float16, lowp>;
 template struct tmat2x4<float32, lowp>;
 template struct tmat2x4<float64, lowp>;
 template struct tmat2x4<float16, mediump>;
 template struct tmat2x4<float32, mediump>;
 template struct tmat2x4<float64, mediump>;
 template struct tmat2x4<float16, highp>;
 template struct tmat2x4<float32, highp>;
 template struct tmat2x4<float64, highp>;
 // tmat3x2 type explicit instantiation
 template struct tmat3x2<float16, lowp>;
 template struct tmat3x2<float32, lowp>;
 template struct tmat3x2<float64, lowp>;
 template struct tmat3x2<float16, mediump>;
 template struct tmat3x2<float32, mediump>;
 template struct tmat3x2<float64, mediump>;
 template struct tmat3x2<float16, highp>;
 template struct tmat3x2<float32, highp>;
 template struct tmat3x2<float64, highp>;
 // tmat3x3 type explicit instantiation
 template struct tmat3x3<float16, lowp>;
 template struct tmat3x3<float32, lowp>;
 template struct tmat3x3<float64, lowp>;
 template struct tmat3x3<float16, mediump>;
 template struct tmat3x3<float32, mediump>;
 template struct tmat3x3<float64, mediump>;
 template struct tmat3x3<float16, highp>;
 template struct tmat3x3<float32, highp>;
 template struct tmat3x3<float64, highp>;
 // tmat3x4 type explicit instantiation
 template struct tmat3x4<float16, lowp>;
 template struct tmat3x4<float32, lowp>;
 template struct tmat3x4<float64, lowp>;
 template struct tmat3x4<float16, mediump>;
 template struct tmat3x4<float32, mediump>;
 template struct tmat3x4<float64, mediump>;
 template struct tmat3x4<float16, highp>;
 template struct tmat3x4<float32, highp>;
 template struct tmat3x4<float64, highp>;
 // tmat4x2 type explicit instantiation
 template struct tmat4x2<float16, lowp>;
 template struct tmat4x2<float32, lowp>;
 template struct tmat4x2<float64, lowp>;
 template struct tmat4x2<float16, mediump>;
 template struct tmat4x2<float32, mediump>;
 template struct tmat4x2<float64, mediump>;
 template struct tmat4x2<float16, highp>;
 template struct tmat4x2<float32, highp>;
 template struct tmat4x2<float64, highp>;
 // tmat4x3 type explicit instantiation
 template struct tmat4x3<float16, lowp>;
 template struct tmat4x3<float32, lowp>;
 template struct tmat4x3<float64, lowp>;
 template struct tmat4x3<float16, mediump>;
 template struct tmat4x3<float32, mediump>;
 template struct tmat4x3<float64, mediump>;
 template struct tmat4x3<float16, highp>;
 template struct tmat4x3<float32, highp>;
 template struct tmat4x3<float64, highp>;
 // tmat4x4 type explicit instantiation
 template struct tmat4x4<float16, lowp>;
 template struct tmat4x4<float32, lowp>;
 template struct tmat4x4<float64, lowp>;
 template struct tmat4x4<float16, mediump>;
 template struct tmat4x4<float32, mediump>;
 template struct tmat4x4<float64, mediump>;
 template struct tmat4x4<float16, highp>;
 template struct tmat4x4<float32, highp>;
 template struct tmat4x4<float64, highp>;
 // tquat type explicit instantiation
 template struct tquat<float16, lowp>;
 template struct tquat<float32, lowp>;
 template struct tquat<float64, lowp>;
 template struct tquat<float16, mediump>;
 template struct tquat<float32, mediump>;
 template struct tquat<float64, mediump>;
 template struct tquat<float16, highp>;
 template struct tquat<float32, highp>;
 template struct tquat<float64, highp>;
 //tdualquat type explicit instantiation
 template struct tdualquat<float16, lowp>;
 template struct tdualquat<float32, lowp>;
 template struct tdualquat<float64, lowp>;
 template struct tdualquat<float16, mediump>;
 template struct tdualquat<float32, mediump>;
 template struct tdualquat<float64, mediump>;
 template struct tdualquat<float16, highp>;
 template struct tdualquat<float32, highp>;
 template struct tdualquat<float64, highp>;
--- a/glm/gtc/constants.hpp
+++ b/glm/gtc/constants.hpp
@ -41,7 +41,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #if(defined(GLM_MESSAGES) && !defined(glm_ext))
 #	pragma message("GLM: GLM_GTC_constants extension included")
--- a/glm/gtc/constants.inl
+++ b/glm/gtc/constants.inl
@ -34,12 +34,6 @@ namespace glm
 		return std::numeric_limits<genType>::epsilon();
 	}
 	template <>
 	GLM_FUNC_QUALIFIER half epsilon()
 	{
 		return half(1.19209290e-007);
 	}
 	template <typename genType>
 	GLM_FUNC_QUALIFIER genType zero()
 	{
--- a/glm/gtc/epsilon.hpp
+++ b/glm/gtc/epsilon.hpp
@ -42,7 +42,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #include "../gtc/quaternion.hpp"
 #if(defined(GLM_MESSAGES) && !defined(glm_ext))
--- a/glm/gtc/epsilon.inl
+++ b/glm/gtc/epsilon.inl
@ -28,16 +28,6 @@
 namespace glm
 {
 	GLM_FUNC_QUALIFIER bool epsilonEqual
 	(
 		glm::half const & x,
 		glm::half const & y,
 		glm::half const & epsilon
 	)
 	{
 		return abs(x - y) < epsilon;
 	}
 	GLM_FUNC_QUALIFIER bool epsilonEqual
 	(
 		float const & x,
@ -58,16 +48,6 @@ namespace glm
 		return abs(x - y) < epsilon;
 	}
 	GLM_FUNC_QUALIFIER bool epsilonNotEqual
 	(
 		glm::half const & x,
 		glm::half const & y,
 		glm::half const & epsilon
 	)
 	{
 		return abs(x - y) >= epsilon;
 	}
 	GLM_FUNC_QUALIFIER bool epsilonNotEqual
 	(
 		float const & x,
--- a/glm/gtc/half_float.hpp
+++ b/glm/gtc/half_float.hpp
@ -1,685 +0,0 @@
 ///////////////////////////////////////////////////////////////////////////////////
 /// OpenGL Mathematics (glm.g-truc.net)
 ///
 /// Copyright (c) 2005 - 2013 G-Truc Creation (www.g-truc.net)
 /// Permission is hereby granted, free of charge, to any person obtaining a copy
 /// of this software and associated documentation files (the "Software"), to deal
 /// in the Software without restriction, including without limitation the rights
 /// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 /// copies of the Software, and to permit persons to whom the Software is
 /// furnished to do so, subject to the following conditions:
 /// 
 /// The above copyright notice and this permission notice shall be included in
 /// all copies or substantial portions of the Software.
 /// 
 /// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 /// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 /// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 /// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 /// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 /// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 /// THE SOFTWARE.
 ///
 /// @ref gtc_half_float
 /// @file glm/gtc/half_float.hpp
 /// @date 2009-04-29 / 2012-11-06
 /// @author Christophe Riccio
 ///
 /// @see core (dependence)
 ///
 /// @defgroup gtc_half_float GLM_GTC_half_float
 /// @ingroup gtc
 /// 
 /// Defines the half-precision floating-point type, along with various typedefs for vectors and matrices.
 /// <glm/gtc/half_float.hpp> need to be included to use these functionalities.
 ///////////////////////////////////////////////////////////////////////////////////
 #ifndef GLM_GTC_half_float
 #define GLM_GTC_half_float GLM_VERSION
 // Dependency:
 #include "../glm.hpp"
 #if(defined(GLM_MESSAGES) && !defined(glm_ext))
 #	pragma message("GLM: GLM_GTC_half_float extension included")
 #endif
 namespace glm{
 namespace detail
 {
 #if(GLM_COMPONENT == GLM_COMPONENT_CXX98)
 	template <precision P>
 	struct tvec2<half, P>
 	{
 		enum ctor{_null};
 		typedef half value_type;
 		typedef std::size_t size_type;
 		GLM_FUNC_DECL size_type length() const;
 		typedef tvec2<half, P> type;
 		typedef tvec2<bool, P> bool_type;
 		//////////////////////////////////////
 		// Data
 		half x, y;
 		//////////////////////////////////////
 		// Accesses
 		GLM_FUNC_DECL half & operator[](size_type i);
 		GLM_FUNC_DECL half const & operator[](size_type i) const;
 		//////////////////////////////////////
 		// Implicit basic constructors
 		GLM_FUNC_DECL tvec2();
 		GLM_FUNC_DECL tvec2(tvec2<half, P> const & v);
 		//////////////////////////////////////
 		// Explicit basic constructors
 		GLM_FUNC_DECL explicit tvec2(ctor){}
 		GLM_FUNC_DECL explicit tvec2(
 			half const & s);
 		GLM_FUNC_DECL explicit tvec2(
 			half const & s1,
 			half const & s2);
 		//////////////////////////////////////
 		// Swizzle constructors
 		GLM_FUNC_DECL tvec2(tref2<half, P> const & r);
 		//////////////////////////////////////
 		// Convertion scalar constructors
 		//! Explicit converions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U>
 		GLM_FUNC_DECL explicit tvec2(U const & x);
 		//! Explicit converions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U, typename V> 
 		GLM_FUNC_DECL explicit tvec2(U const & x, V const & y);			
 		//////////////////////////////////////
 		// Convertion vector constructors
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U, precision Q>
 		GLM_FUNC_DECL explicit tvec2(tvec2<U, Q> const & v);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U, precision Q>
 		GLM_FUNC_DECL explicit tvec2(tvec3<U, Q> const & v);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U, precision Q>
 		GLM_FUNC_DECL explicit tvec2(tvec4<U, Q> const & v);
 		//////////////////////////////////////
 		// Unary arithmetic operators
 		GLM_FUNC_DECL tvec2<half, P>& operator= (tvec2<half, P> const & v);
 		GLM_FUNC_DECL tvec2<half, P>& operator+=(half const & s);
 		GLM_FUNC_DECL tvec2<half, P>& operator+=(tvec2<half, P> const & v);
 		GLM_FUNC_DECL tvec2<half, P>& operator-=(half const & s);
 		GLM_FUNC_DECL tvec2<half, P>& operator-=(tvec2<half, P> const & v);
 		GLM_FUNC_DECL tvec2<half, P>& operator*=(half const & s);
 		GLM_FUNC_DECL tvec2<half, P>& operator*=(tvec2<half, P> const & v);
 		GLM_FUNC_DECL tvec2<half, P>& operator/=(half const & s);
 		GLM_FUNC_DECL tvec2<half, P>& operator/=(tvec2<half, P> const & v);
 		GLM_FUNC_DECL tvec2<half, P>& operator++();
 		GLM_FUNC_DECL tvec2<half, P>& operator--();
 		//////////////////////////////////////
 		// Swizzle operators
 		GLM_FUNC_DECL half swizzle(comp X) const;
 		GLM_FUNC_DECL tvec2<half, P> swizzle(comp X, comp Y) const;
 		GLM_FUNC_DECL tvec3<half, P> swizzle(comp X, comp Y, comp Z) const;
 		GLM_FUNC_DECL tvec4<half, P> swizzle(comp X, comp Y, comp Z, comp W) const;
 		GLM_FUNC_DECL tref2<half, P> swizzle(comp X, comp Y);
 	};
 	template <precision P>
 	struct tvec3<half, P>
 	{
 		enum ctor{_null};
 		typedef half value_type;
 		typedef std::size_t size_type;
 		GLM_FUNC_DECL size_type length() const;
 		typedef tvec3<half, P> type;
 		typedef tvec3<bool, P> bool_type;
 		//////////////////////////////////////
 		// Data
 		half x, y, z;
 		//////////////////////////////////////
 		// Accesses
 		GLM_FUNC_DECL half & operator[](size_type i);
 		GLM_FUNC_DECL half const & operator[](size_type i) const;
 		//////////////////////////////////////
 		// Implicit basic constructors
 		GLM_FUNC_DECL tvec3();
 		GLM_FUNC_DECL tvec3(tvec3<half, P> const & v);
 		//////////////////////////////////////
 		// Explicit basic constructors
 		GLM_FUNC_DECL explicit tvec3(ctor){}
 		GLM_FUNC_DECL explicit tvec3(
 			half const & s);
 		GLM_FUNC_DECL explicit tvec3(
 			half const & s1,
 			half const & s2,
 			half const & s3);
 		//////////////////////////////////////
 		// Swizzle constructors
 		GLM_FUNC_DECL tvec3(tref3<half, P> const & r);
 		//////////////////////////////////////
 		// Convertion scalar constructors
 		//! Explicit converions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U>
 		GLM_FUNC_DECL explicit tvec3(U const & x);
 		//! Explicit converions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U, typename V, typename W> 
 		GLM_FUNC_DECL explicit tvec3(U const & x, V const & y, W const & z);			
 		//////////////////////////////////////
 		// Convertion vector constructors
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, precision Q>
 		GLM_FUNC_DECL explicit tvec3(tvec2<A, Q> const & v, B const & s);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, precision Q>
 		GLM_FUNC_DECL explicit tvec3(A const & s, tvec2<B, Q> const & v);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U, precision Q>
 		GLM_FUNC_DECL explicit tvec3(tvec3<U, Q> const & v);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U, precision Q>
 		GLM_FUNC_DECL explicit tvec3(tvec4<U, Q> const & v);
 		//////////////////////////////////////
 		// Unary arithmetic operators
 		GLM_FUNC_DECL tvec3<half, P>& operator= (tvec3<half, P> const & v);
 		GLM_FUNC_DECL tvec3<half, P>& operator+=(half const & s);
 		GLM_FUNC_DECL tvec3<half, P>& operator+=(tvec3<half, P> const & v);
 		GLM_FUNC_DECL tvec3<half, P>& operator-=(half const & s);
 		GLM_FUNC_DECL tvec3<half, P>& operator-=(tvec3<half, P> const & v);
 		GLM_FUNC_DECL tvec3<half, P>& operator*=(half const & s);
 		GLM_FUNC_DECL tvec3<half, P>& operator*=(tvec3<half, P> const & v);
 		GLM_FUNC_DECL tvec3<half, P>& operator/=(half const & s);
 		GLM_FUNC_DECL tvec3<half, P>& operator/=(tvec3<half, P> const & v);
 		GLM_FUNC_DECL tvec3<half, P>& operator++();
 		GLM_FUNC_DECL tvec3<half, P>& operator--();
 		//////////////////////////////////////
 		// Swizzle operators
 		GLM_FUNC_DECL half swizzle(comp X) const;
 		GLM_FUNC_DECL tvec2<half, P> swizzle(comp X, comp Y) const;
 		GLM_FUNC_DECL tvec3<half, P> swizzle(comp X, comp Y, comp Z) const;
 		GLM_FUNC_DECL tvec4<half, P> swizzle(comp X, comp Y, comp Z, comp W) const;
 		GLM_FUNC_DECL tref3<half, P> swizzle(comp X, comp Y, comp Z);
 	};
 	template <precision P>
 	struct tvec4<half, P>
 	{
 		enum ctor{_null};
 		typedef half value_type;
 		typedef std::size_t size_type;
 		GLM_FUNC_DECL size_type length() const;
 		typedef tvec4<half, P> type;
 		typedef tvec4<bool, P> bool_type;
 		//////////////////////////////////////
 		// Data
 		half x, y, z, w;
 		//////////////////////////////////////
 		// Accesses
 		GLM_FUNC_DECL half & operator[](size_type i);
 		GLM_FUNC_DECL half const & operator[](size_type i) const;
 		//////////////////////////////////////
 		// Implicit basic constructors
 		GLM_FUNC_DECL tvec4();
 		GLM_FUNC_DECL tvec4(tvec4<half, P> const & v);
 		//////////////////////////////////////
 		// Explicit basic constructors
 		GLM_FUNC_DECL explicit tvec4(ctor){}
 		GLM_FUNC_DECL explicit tvec4(
 			half const & s);
 		GLM_FUNC_DECL explicit tvec4(
 			half const & s0,
 			half const & s1,
 			half const & s2,
 			half const & s3);
 		//////////////////////////////////////
 		// Swizzle constructors
 		GLM_FUNC_DECL tvec4(tref4<half, P> const & r);
 		//////////////////////////////////////
 		// Convertion scalar constructors
 		//! Explicit converions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U>
 		GLM_FUNC_DECL explicit tvec4(U const & x);
 		//! Explicit converions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, typename C, typename D>
 		GLM_FUNC_DECL explicit tvec4(A const & x, B const & y, C const & z, D const & w);			
 		//////////////////////////////////////
 		// Convertion vector constructors
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, typename C, precision Q>
 		GLM_FUNC_DECL explicit tvec4(tvec2<A, Q> const & v, B const & s1, C const & s2);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, typename C, precision Q>
 		GLM_FUNC_DECL explicit tvec4(A const & s1, tvec2<B, Q> const & v, C const & s2);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, typename C, precision Q>
 		GLM_FUNC_DECL explicit tvec4(A const & s1, B const & s2, tvec2<C, Q> const & v);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, precision Q>
 		GLM_FUNC_DECL explicit tvec4(tvec3<A, Q> const & v, B const & s);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, precision Q>
 		GLM_FUNC_DECL explicit tvec4(A const & s, tvec3<B, Q> const & v);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename A, typename B, precision Q>
 		GLM_FUNC_DECL explicit tvec4(tvec2<A, Q> const & v1, tvec2<B, Q> const & v2);
 		//! Explicit conversions (From section 5.4.1 Conversion and scalar constructors of GLSL 1.30.08 specification)
 		template <typename U, precision Q>
 		GLM_FUNC_DECL explicit tvec4(tvec4<U, Q> const & v);
 		//////////////////////////////////////
 		// Unary arithmetic operators
 		GLM_FUNC_DECL tvec4<half, P>& operator= (tvec4<half, P> const & v);
 		GLM_FUNC_DECL tvec4<half, P>& operator+=(half const & s);
 		GLM_FUNC_DECL tvec4<half, P>& operator+=(tvec4<half, P> const & v);
 		GLM_FUNC_DECL tvec4<half, P>& operator-=(half const & s);
 		GLM_FUNC_DECL tvec4<half, P>& operator-=(tvec4<half, P> const & v);
 		GLM_FUNC_DECL tvec4<half, P>& operator*=(half const & s);
 		GLM_FUNC_DECL tvec4<half, P>& operator*=(tvec4<half, P> const & v);
 		GLM_FUNC_DECL tvec4<half, P>& operator/=(half const & s);
 		GLM_FUNC_DECL tvec4<half, P>& operator/=(tvec4<half, P> const & v);
 		GLM_FUNC_DECL tvec4<half, P>& operator++();
 		GLM_FUNC_DECL tvec4<half, P>& operator--();
 		//////////////////////////////////////
 		// Swizzle operators
 		GLM_FUNC_DECL half swizzle(comp X) const;
 		GLM_FUNC_DECL tvec2<half, P> swizzle(comp X, comp Y) const;
 		GLM_FUNC_DECL tvec3<half, P> swizzle(comp X, comp Y, comp Z) const;
 		GLM_FUNC_DECL tvec4<half, P> swizzle(comp X, comp Y, comp Z, comp W) const;
 		GLM_FUNC_DECL tref4<half, P> swizzle(comp X, comp Y, comp Z, comp W);
 	};
 #endif//(GLM_COMPONENT == GLM_COMPONENT_CXX98)
 }
 //namespace detail
 	/// @addtogroup gtc_half_float
 	/// @{
 	//////////////////////////////////////////////
 	// High half precision floating-point numbers.
 	/// Vector of 2 high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec2<half_t, highp>		highp_hvec2;
 	/// Vector of 3 high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec3<half_t, highp>		highp_hvec3;
 	/// Vector of 4 high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec4<half_t, highp>		highp_hvec4;
 	/// 2 * 2 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x2<half_t, highp>		highp_hmat2;
 	/// 3 * 3 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x3<half_t, highp>		highp_hmat3;
 	/// 4 * 4 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x4<half_t, highp>		highp_hmat4;
 	/// 2 * 2 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x2<half_t, highp>		highp_hmat2x2;
 	/// 2 * 3 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x3<half_t, highp>		highp_hmat2x3;
 	/// 2 * 4 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x4<half_t, highp>		highp_hmat2x4;
 	/// 3 * 2 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x2<half_t, highp>		highp_hmat3x2;
 	/// 3 * 3 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x3<half_t, highp>		highp_hmat3x3;
 	/// 3 * 4 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x4<half_t, highp>		highp_hmat3x4;
 	/// 4 * 2 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x2<half_t, highp>		highp_hmat4x2;
 	/// 4 * 3 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x3<half_t, highp>		highp_hmat4x3;
 	/// 4 * 4 matrix of high half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x4<half_t, highp>		highp_hmat4x4;
 	//////////////////////////////////////////////
 	// Medium half precision floating-point numbers.
 	/// Vector of 2 medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec2<half_t, mediump>		mediump_hvec2;
 	/// Vector of 3 medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec3<half_t, mediump>		mediump_hvec3;
 	/// Vector of 4 medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec4<half_t, mediump>		mediump_hvec4;
 	/// 2 * 2 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x2<half_t, mediump>	mediump_hmat2;
 	/// 3 * 3 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x3<half_t, mediump>	mediump_hmat3;
 	/// 4 * 4 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x4<half_t, mediump>	mediump_hmat4;
 	/// 2 * 2 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x2<half_t, mediump>	mediump_hmat2x2;
 	/// 2 * 3 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x3<half_t, mediump>	mediump_hmat2x3;
 	/// 2 * 4 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x4<half_t, mediump>	mediump_hmat2x4;
 	/// 3 * 2 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x2<half_t, mediump>	mediump_hmat3x2;
 	/// 3 * 3 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x3<half_t, mediump>	mediump_hmat3x3;
 	/// 3 * 4 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x4<half_t, mediump>	mediump_hmat3x4;
 	/// 4 * 2 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x2<half_t, mediump>	mediump_hmat4x2;
 	/// 4 * 3 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x3<half_t, mediump>	mediump_hmat4x3;
 	/// 4 * 4 matrix of medium half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x4<half_t, mediump>	mediump_hmat4x4;
 	//////////////////////////////////////////////
 	// Low half precision floating-point numbers.
 	/// Vector of 2 low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec2<half_t, lowp>		lowp_hvec2;
 	/// Vector of 3 low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec3<half_t, lowp>		lowp_hvec3;
 	/// Vector of 4 low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tvec4<half_t, lowp>		lowp_hvec4;
 	/// 2 * 2 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x2<half_t, lowp>	lowp_hmat2;
 	/// 3 * 3 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x3<half_t, lowp>	lowp_hmat3;
 	/// 4 * 4 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x4<half_t, lowp>	lowp_hmat4;
 	/// 2 * 2 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x2<half_t, lowp>	lowp_hmat2x2;
 	/// 2 * 3 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x3<half_t, lowp>	lowp_hmat2x3;
 	/// 2 * 4 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat2x4<half_t, lowp>	lowp_hmat2x4;
 	/// 3 * 2 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x2<half_t, lowp>	lowp_hmat3x2;
 	/// 3 * 3 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x3<half_t, lowp>	lowp_hmat3x3;
 	/// 3 * 4 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat3x4<half_t, lowp>	lowp_hmat3x4;
 	/// 4 * 2 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x2<half_t, lowp>	lowp_hmat4x2;
 	/// 4 * 3 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x3<half_t, lowp>	lowp_hmat4x3;
 	/// 4 * 4 matrix of low half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef detail::tmat4x4<half_t, lowp>	lowp_hmat4x4;
 	//////////////////////////////////////////////
 	// Default half precision floating-point numbers.
 	/// Type for default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef half_t				half;
 #if(!defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && defined(GLM_PRECISION_LOWP_HALF))
 	typedef lowp_hvec2			hvec2;
 	typedef lowp_hvec3			hvec3;
 	typedef lowp_hvec4			hvec4;
 	typedef lowp_hmat2			hmat2;
 	typedef lowp_hmat3			hmat3;
 	typedef lowp_hmat4			hmat4;
 	typedef lowp_hmat2x2		hmat2x2;
 	typedef lowp_hmat2x3		hmat2x3;
 	typedef lowp_hmat2x4		hmat2x4;
 	typedef lowp_hmat3x2		hmat3x2;
 	typedef lowp_hmat3x3		hmat3x3;
 	typedef lowp_hmat3x4		hmat3x4;
 	typedef lowp_hmat4x2		hmat4x2;
 	typedef lowp_hmat4x3		hmat4x3;
 	typedef lowp_hmat4x4		hmat4x4;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	typedef mediump_hvec2		hvec2;
 	typedef mediump_hvec3		hvec3;
 	typedef mediump_hvec4		hvec4;
 	typedef mediump_hmat2		hmat2;
 	typedef mediump_hmat3		hmat3;
 	typedef mediump_hmat4		hmat4;
 	typedef mediump_hmat2x2		hmat2x2;
 	typedef mediump_hmat2x3		hmat2x3;
 	typedef mediump_hmat2x4		hmat2x4;
 	typedef mediump_hmat3x2		hmat3x2;
 	typedef mediump_hmat3x3		hmat3x3;
 	typedef mediump_hmat3x4		hmat3x4;
 	typedef mediump_hmat4x2		hmat4x2;
 	typedef mediump_hmat4x3		hmat4x3;
 	typedef mediump_hmat4x4		hmat4x4;
 #else //(!defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	//////////////////////////////////////////////
 	// Default half precision floating-point numbers.
 	/// Vector of 2 default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hvec2			hvec2;
 	/// Vector of 3 default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hvec3			hvec3;
 	/// Vector of 4 default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hvec4			hvec4;
 	/// 2 * 2 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat2x2		hmat2;
 	/// 3 * 3 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat3x3		hmat3;
 	/// 4 * 4 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat4x4		hmat4;
 	/// 2 * 2 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat2x2		hmat2x2;
 	/// 2 * 3 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat2x3		hmat2x3;
 	/// 2 * 4 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat2x4		hmat2x4;
 	/// 3 * 2 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat3x2		hmat3x2;
 	/// 3 * 3 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat3x3		hmat3x3;
 	/// 3 * 4 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat3x4		hmat3x4;
 	/// 4 * 2 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat4x2		hmat4x2;
 	/// 4 * 3 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat4x3		hmat4x3;
 	/// 4 * 4 matrix of default half-precision floating-point numbers.
 	/// @see gtc_half_float
 	typedef highp_hmat4x4		hmat4x4;
 #endif//GLM_PRECISION
 	/// Returns the absolute value of a half-precision floating-point value
 	/// @see gtc_half_float
 	GLM_FUNC_DECL half abs(half const & x);
 	/// Returns the absolute value of a half-precision floating-point two dimensional vector
 	/// @see gtc_half_float
 	GLM_FUNC_DECL hvec2 abs(hvec2 const & x);
 	/// Returns the absolute value of a half-precision floating-point three dimensional vector
 	/// @see gtc_half_float
 	GLM_FUNC_DECL hvec3 abs(hvec3 const & x);
 	/// Returns the absolute value of a half-precision floating-point four dimensional vector
 	/// @see gtc_half_float
 	GLM_FUNC_DECL hvec4 abs(hvec4 const & x);
 	/// Selects which vector each returned component comes
 	/// from. For a component of <a> that is false, the
 	/// corresponding component of x is returned. For a
 	/// component of a that is true, the corresponding
 	/// component of y is returned. Components of x and y that
 	/// are not selected are allowed to be invalid floating point
 	/// values and will have no effect on the results. Thus, this
 	/// provides different functionality than
 	/// genType mix(genType x, genType y, genType(a))
 	/// where a is a Boolean vector.
 	///
 	/// @see gtc_half_float
 	GLM_FUNC_DECL half mix(half const & x, half const & y, bool const & a);
 	/// @}
 }// namespace glm
 #include "half_float.inl"
 #endif//GLM_GTC_half_float
--- a/glm/gtc/half_float.inl
+++ b/glm/gtc/half_float.inl
--- a/glm/gtc/quaternion.hpp
+++ b/glm/gtc/quaternion.hpp
@ -42,7 +42,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #include "../gtc/constants.hpp"
 #if(defined(GLM_MESSAGES) && !defined(glm_ext))
--- a/glm/gtc/random.hpp
+++ b/glm/gtc/random.hpp
@ -42,7 +42,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #if(defined(GLM_MESSAGES) && !defined(glm_ext))
 #	pragma message("GLM: GLM_GTC_random extension included")
--- a/glm/gtc/random.inl
+++ b/glm/gtc/random.inl
@ -44,12 +44,6 @@ namespace detail
 		}
 */
 	};
 	template <>
 	GLM_FUNC_QUALIFIER half compute_linearRand::operator()<half> (half const & Min, half const & Max) const
 	{
 		return half(float(std::rand()) / float(RAND_MAX) * (float(Max) - float(Min)) + float(Min));
 	}
 	template <>
 	GLM_FUNC_QUALIFIER float compute_linearRand::operator()<float> (float const & Min, float const & Max) const
--- a/glm/gtc/swizzle.hpp
+++ b/glm/gtc/swizzle.hpp
@ -101,9 +101,6 @@ namespace glm
 		GLM_FUNC_QUALIFIER TYPE& swizzle(detail::tvec##SIZE<TYPE, defaultp> & v)		\
 		{return v[x];}
 	static_swizzle1_ref(detail::float16, 2)
 	static_swizzle1_ref(detail::float16, 3)
 	static_swizzle1_ref(detail::float16, 4)
 	static_swizzle1_ref(detail::float32, 2)
 	static_swizzle1_ref(detail::float32, 3)
 	static_swizzle1_ref(detail::float32, 4)
@ -172,9 +169,6 @@ namespace glm
 		{return detail::tvec4<TYPE, defaultp>(v[x], v[y], v[z], v[w]);}
 	static_swizzle2_const(glm::f16, 2)
 	static_swizzle2_const(glm::f16, 3)
 	static_swizzle2_const(glm::f16, 4)
 	static_swizzle2_const(glm::f32, 2)
 	static_swizzle2_const(glm::f32, 3)
 	static_swizzle2_const(glm::f32, 4)
@ -208,9 +202,6 @@ namespace glm
 	static_swizzle2_const(glm::u64, 3)
 	static_swizzle2_const(glm::u64, 4)
 	static_swizzle3_const(glm::f16, 2)
 	static_swizzle3_const(glm::f16, 3)
 	static_swizzle3_const(glm::f16, 4)
 	static_swizzle3_const(glm::f32, 2)
 	static_swizzle3_const(glm::f32, 3)
 	static_swizzle3_const(glm::f32, 4)
@ -244,9 +235,6 @@ namespace glm
 	static_swizzle3_const(glm::u64, 3)
 	static_swizzle3_const(glm::u64, 4)
 	static_swizzle4_const(glm::f16, 2)
 	static_swizzle4_const(glm::f16, 3)
 	static_swizzle4_const(glm::f16, 4)
 	static_swizzle4_const(glm::f32, 2)
 	static_swizzle4_const(glm::f32, 3)
 	static_swizzle4_const(glm::f32, 4)
@ -298,9 +286,6 @@ namespace glm
 			detail::tvec##SIZE<TYPE, defaultp> & v)							\
 		{return glm::detail::tref4<TYPE, defaultp>(v[x], v[y], v[z], v[w]);}	
 	static_swizzle2_ref(glm::f16, 2)
 	static_swizzle2_ref(glm::f16, 3)
 	static_swizzle2_ref(glm::f16, 4)
 	static_swizzle2_ref(glm::f32, 2)
 	static_swizzle2_ref(glm::f32, 3)
 	static_swizzle2_ref(glm::f32, 4)
@ -334,8 +319,6 @@ namespace glm
 	static_swizzle2_ref(glm::u64, 3)
 	static_swizzle2_ref(glm::u64, 4)
 	static_swizzle3_ref(glm::f16, 3)
 	static_swizzle3_ref(glm::f16, 4)
 	static_swizzle3_ref(glm::f32, 3)
 	static_swizzle3_ref(glm::f32, 4)
 	static_swizzle3_ref(glm::f64, 3)
@ -359,7 +342,6 @@ namespace glm
 	static_swizzle3_ref(glm::u64, 3)
 	static_swizzle3_ref(glm::u64, 4)
 	static_swizzle4_ref(glm::f16, 4)
 	static_swizzle4_ref(glm::f32, 4)
 	static_swizzle4_ref(glm::f64, 4)
--- a/glm/gtc/type_precision.hpp
+++ b/glm/gtc/type_precision.hpp
@ -45,13 +45,12 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #include "../gtc/quaternion.hpp"
 #if(defined(GLM_MESSAGES) && !defined(glm_ext))
 #	pragma message("GLM: GLM_GTC_type_precision extension included")
 #endif
-/*
+
 namespace glm
 {
 	///////////////////////////
@ -590,10 +589,6 @@ namespace glm
 	//////////////////////
 	// Float vector types
 	/// 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 float16;
 	/// 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 float32;
@ -603,10 +598,6 @@ namespace glm
 	typedef detail::float64 float64;
 	/// 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float16 float16_t;
 	/// 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef detail::float32 float32_t;
@ -616,10 +607,6 @@ namespace glm
 	typedef detail::float64 float64_t;
 	/// 16 bit half-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float16 f16;
 	/// 32 bit single-precision floating-point scalar.
 	/// @see gtc_type_precision
 	typedef float32 f32;
@ -645,23 +632,6 @@ namespace glm
 	/// @see gtc_type_precision
 	typedef detail::tvec4<float, defaultp> fvec4;
 	/// Half-precision floating-point vector of 1 component.
 	/// @see gtc_type_precision
 	typedef detail::tvec1<f16, defaultp> f16vec1;
 	/// Half-precision floating-point vector of 2 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec2<f16, defaultp> f16vec2;
 	/// Half-precision floating-point vector of 3 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec3<f16, defaultp> f16vec3;
 	/// Half-precision floating-point vector of 4 components.
 	/// @see gtc_type_precision
 	typedef detail::tvec4<f16, defaultp> f16vec4;
 	/// Single-precision floating-point vector of 1 component.
 	/// @see gtc_type_precision
@ -758,64 +728,6 @@ namespace glm
 	typedef detail::tmat4x4<f32, defaultp> fmat4x4;
 	/// Half-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef detail::tmat1x1<f16, defaultp> f16mat1;
 	/// Half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x2<f16, defaultp> f16mat2;
 	/// Half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x3<f16, defaultp> f16mat3;
 	/// Half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x4<f16, defaultp> f16mat4;
 	/// Half-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef f16 f16mat1x1;
 	/// Half-precision floating-point 2x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x2<f16, defaultp> f16mat2x2;
 	/// Half-precision floating-point 2x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x3<f16, defaultp> f16mat2x3;
 	/// Half-precision floating-point 2x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat2x4<f16, defaultp> f16mat2x4;
 	/// Half-precision floating-point 3x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x2<f16, defaultp> f16mat3x2;
 	/// Half-precision floating-point 3x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x3<f16, defaultp> f16mat3x3;
 	/// Half-precision floating-point 3x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat3x4<f16, defaultp> f16mat3x4;
 	/// Half-precision floating-point 4x2 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x2<f16, defaultp> f16mat4x2;
 	/// Half-precision floating-point 4x3 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x3<f16, defaultp> f16mat4x3;
 	/// Half-precision floating-point 4x4 matrix.
 	/// @see gtc_type_precision
 	typedef detail::tmat4x4<f16, defaultp> f16mat4x4;
 	/// Single-precision floating-point 1x1 matrix.
 	/// @see gtc_type_precision
 	//typedef detail::tmat1x1<f32, defaultp> f32mat1;
@ -935,10 +847,6 @@ namespace glm
 	//////////////////////////
 	// Quaternion types
 	/// Half-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef detail::tquat<f16, defaultp> f16quat;
 	/// Single-precision floating-point quaternion.
 	/// @see gtc_type_precision
 	typedef detail::tquat<f32, defaultp> f32quat;
@ -949,7 +857,7 @@ namespace glm
 	/// @}
 }//namespace glm
-*/
+
 #include "type_precision.inl"
 #endif//GLM_GTC_type_precision
--- a/glm/gtc/type_ptr.hpp
+++ b/glm/gtc/type_ptr.hpp
@ -61,7 +61,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #include "../gtc/quaternion.hpp"
 #include <cstring>
--- a/glm/gtc/type_ptr.inl
+++ b/glm/gtc/type_ptr.inl
@ -26,6 +26,8 @@
 /// @author Christophe Riccio
 ///////////////////////////////////////////////////////////////////////////////////
 #include <cstring>
 namespace glm
 {
 	/// @addtogroup gtc_type_ptr
--- a/glm/gtx/bit.hpp
+++ b/glm/gtx/bit.hpp
@ -41,7 +41,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #if(defined(GLM_MESSAGES) && !defined(glm_ext))
 #	pragma message("GLM: GLM_GTX_bit extension included")
--- a/glm/gtx/bit.inl
+++ b/glm/gtx/bit.inl
@ -20,19 +20,6 @@ namespace glm
 	VECTORIZE_VEC(mask)
 	// extractField
 	template <typename genIType>
 	GLM_FUNC_QUALIFIER genIType extractField
 	(
 		half const & value, 
 		genIType const & first, 
 		genIType const & count
 	)
 	{
 		assert(first + count < sizeof(half));
 		return (value._data() << first) >> ((sizeof(half) << 3) - count);
 	}
 	template <typename genIType>
 	GLM_FUNC_QUALIFIER genIType extractField
 	(
--- a/glm/gtx/dual_quaternion.hpp
+++ b/glm/gtx/dual_quaternion.hpp
@ -43,7 +43,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #include "../gtc/constants.hpp"
 #include "../gtc/quaternion.hpp"
@ -202,22 +201,6 @@ namespace detail
 	detail::tdualquat<T, P> dualquat_cast(
 		detail::tmat3x4<T, P> const & x);
 	/// Dual-quaternion of low half-precision floating-point numbers.
 	///
 	/// @see gtc_dual_quaternion
 	typedef detail::tdualquat<half, lowp>		lowp_hdualquat;
 	/// Dual-quaternion of medium half-precision floating-point numbers.
 	///
 	/// @see gtc_dual_quaternion
 	typedef detail::tdualquat<half, mediump>	mediump_hdualquat;
 	/// Dual-quaternion of high half-precision floating-point numbers.
 	///
 	/// @see gtc_dual_quaternion
 	typedef detail::tdualquat<half, highp>		highp_hdualquat;
 	/// Dual-quaternion of low single-precision floating-point numbers.
 	///
@ -290,22 +273,6 @@ namespace detail
 #	error "GLM error: multiple default precision requested for single-precision floating-point types"
 #endif
 #if(!defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	/// Dual-quaternion of default half-precision floating-point numbers.
 	///
 	/// @see gtc_dual_quaternion
 	typedef highp_hdualquat			hdualquat;
 #elif(defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	typedef highp_hdualquat			hdualquat;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && defined(GLM_PRECISION_MEDIUMP_HALF) && !defined(GLM_PRECISION_LOWP_HALF))
 	typedef mediump_hdualquat		hdualquat;
 #elif(!defined(GLM_PRECISION_HIGHP_HALF) && !defined(GLM_PRECISION_MEDIUMP_HALF) && defined(GLM_PRECISION_LOWP_HALF))
 	typedef lowp_hdualquat			hdualquat;
 #else
 #	error "GLM error: Multiple default precision requested for half-precision floating-point types"
 #endif
 #if(!defined(GLM_PRECISION_HIGHP_DOUBLE) && !defined(GLM_PRECISION_MEDIUMP_DOUBLE) && !defined(GLM_PRECISION_LOWP_DOUBLE))
 	/// Dual-quaternion of default double-precision floating-point numbers.
--- a/glm/gtx/euler_angles.hpp
+++ b/glm/gtx/euler_angles.hpp
@ -41,7 +41,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #if(defined(GLM_MESSAGES) && !defined(glm_ext))
 #	pragma message("GLM: GLM_GTX_euler_angles extension included")
--- a/glm/gtx/multiple.inl
+++ b/glm/gtx/multiple.inl
@ -31,25 +31,6 @@ namespace glm
 			return Source + (-Source % Multiple);
 	}
 	template <>
 	GLM_FUNC_QUALIFIER detail::half higherMultiple
 	(
 		detail::half const & SourceH,
 		detail::half const & MultipleH
 	)
 	{
 		float Source = SourceH.toFloat();
 		float Multiple = MultipleH.toFloat();
 		if (Source > float(0))
 		{
 			float Tmp = Source - float(1);
 			return detail::half(Tmp + (Multiple - std::fmod(Tmp, Multiple)));
 		}
 		else
 			return detail::half(Source + std::fmod(-Source, Multiple));
 	}
 	template <>
 	GLM_FUNC_QUALIFIER float higherMultiple
 	(	
@ -103,25 +84,6 @@ namespace glm
 		}
 	}
 	template <>
 	GLM_FUNC_QUALIFIER detail::half lowerMultiple
 	(
 		detail::half const & SourceH,
 		detail::half const & MultipleH
 	)
 	{
 		float Source = SourceH.toFloat();
 		float Multiple = MultipleH.toFloat();
 		if (Source >= float(0))
 			return detail::half(Source - std::fmod(Source, Multiple));
 		else
 		{
 			float Tmp = Source + float(1);
 			return detail::half(Tmp - std::fmod(Tmp, Multiple) - Multiple);
 		}
 	}
 	template <>
 	GLM_FUNC_QUALIFIER float lowerMultiple
 	(
--- a/glm/gtx/number_precision.hpp
+++ b/glm/gtx/number_precision.hpp
@ -65,15 +65,12 @@ namespace gtx
 	//////////////////////
 	// Float vector types 
 	typedef f16			f16vec1;    //!< \brief Half-precision floating-point scalar. (from GLM_GTX_number_precision extension)
 	typedef f32			f32vec1;    //!< \brief Single-precision floating-point scalar. (from GLM_GTX_number_precision extension)
 	typedef f64			f64vec1;    //!< \brief Single-precision floating-point scalar. (from GLM_GTX_number_precision extension)
 	//////////////////////
 	// Float matrix types 
 	typedef f16			f16mat1;    //!< \brief Half-precision floating-point scalar. (from GLM_GTX_number_precision extension)
 	typedef f16			f16mat1x1;	//!< \brief Half-precision floating-point scalar. (from GLM_GTX_number_precision extension)
 	typedef f32			f32mat1;	//!< \brief Single-precision floating-point scalar. (from GLM_GTX_number_precision extension)
 	typedef f32			f32mat1x1;	//!< \brief Single-precision floating-point scalar. (from GLM_GTX_number_precision extension)
 	typedef f64			f64mat1;	//!< \brief Double-precision floating-point scalar. (from GLM_GTX_number_precision extension)
--- a/glm/gtx/string_cast.hpp
+++ b/glm/gtx/string_cast.hpp
@ -43,7 +43,6 @@
 // Dependency:
 #include "../glm.hpp"
 #include "../gtc/half_float.hpp"
 #include "../gtx/integer.hpp"
 #include "../gtx/quaternion.hpp"
 #include <string>
--- a/glm/gtx/string_cast.inl
+++ b/glm/gtx/string_cast.inl
@ -41,11 +41,6 @@ namespace detail
 	////////////////////////////////
 	// Scalars
 	GLM_FUNC_QUALIFIER std::string to_string(half const & x)
 	{
 		return detail::format("half(%2.4f)", float(x));
 	}
 	GLM_FUNC_QUALIFIER std::string to_string(float x)
 	{
 		return detail::format("float(%f)", x);
@ -105,36 +100,6 @@ namespace detail
 			v.w ? detail::True : detail::False);
 	}
 	////////////////////////////////
 	// Half vectors
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tvec2<half, P> const & v
 	)
 	{
 		return detail::format("hvec2(%2.4f, %2.4f)", v.x.toFloat(), v.y.toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tvec3<half, P> const & v
 	)
 	{
 		return detail::format("hvec3(%2.4f, %2.4f, %2.4f)", v.x.toFloat(), v.y.toFloat(), v.z.toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tvec4<half, P> const & v
 	)
 	{
 		return detail::format("hvec4(%2.4f, %2.4f, %2.4f, %2.4f)", v.x.toFloat(), v.y.toFloat(), v.z.toFloat(), v.w.toFloat());
 	}
 	////////////////////////////////
 	// Float vectors
@ -255,117 +220,6 @@ namespace detail
 		return detail::format("uvec4(%d, %d, %d, %d)", v.x, v.y, v.z, v.w);
 	}
 	////////////////////////////////
 	// Half matrices
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat2x2<half, P> const & m
 	)
 	{
 		return detail::format("hmat2x2((%f, %f), (%f, %f))",
 			m[0][0].toFloat(), m[0][1].toFloat(), 
 			m[1][0].toFloat(), m[1][1].toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat2x3<half, P> const & x
 	)
 	{
 		return detail::format("hmat2x3((%f, %f, %f), (%f, %f, %f))", 
 			x[0][0].toFloat(), x[0][1].toFloat(), x[0][2].toFloat(), 
 			x[1][0].toFloat(), x[1][1].toFloat(), x[1][2].toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat2x4<half, P> const & x
 	)
 	{
 		return detail::format("hmat2x4((%f, %f, %f, %f), (%f, %f, %f, %f))", 
 			x[0][0].toFloat(), x[0][1].toFloat(), x[0][2].toFloat(), x[0][3].toFloat(), 
 			x[1][0].toFloat(), x[1][1].toFloat(), x[1][2].toFloat(), x[1][3].toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat3x2<half, P> const & x
 	)
 	{
 		return detail::format("hmat3x2((%f, %f), (%f, %f), (%f, %f))", 
 			x[0][0].toFloat(), x[0][1].toFloat(), 
 			x[1][0].toFloat(), x[1][1].toFloat(), 
 			x[2][0].toFloat(), x[2][1].toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat3x3<half, P> const & x
 	)
 	{
 		return detail::format("hmat3x3((%f, %f, %f), (%f, %f, %f), (%f, %f, %f))", 
 			x[0][0].toFloat(), x[0][1].toFloat(), x[0][2].toFloat(), 
 			x[1][0].toFloat(), x[1][1].toFloat(), x[1][2].toFloat(),
 			x[2][0].toFloat(), x[2][1].toFloat(), x[2][2].toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat3x4<half, P> const & x
 	)
 	{
 		return detail::format("hmat3x4((%f, %f, %f, %f), (%f, %f, %f, %f), (%f, %f, %f, %f))", 
 			x[0][0].toFloat(), x[0][1].toFloat(), x[0][2].toFloat(), x[0][3].toFloat(), 
 			x[1][0].toFloat(), x[1][1].toFloat(), x[1][2].toFloat(), x[1][3].toFloat(), 
 			x[2][0].toFloat(), x[2][1].toFloat(), x[2][2].toFloat(), x[2][3].toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat4x2<half, P> const & x
 	)
 	{
 		return detail::format("hmat4x2((%f, %f), (%f, %f), (%f, %f), (%f, %f))", 
 			x[0][0].toFloat(), x[0][1].toFloat(), 
 			x[1][0].toFloat(), x[1][1].toFloat(), 
 			x[2][0].toFloat(), x[2][1].toFloat(), 
 			x[3][0].toFloat(), x[3][1].toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat4x3<half, P> const & x
 	)
 	{
 		return detail::format("hmat4x3((%f, %f, %f), (%f, %f, %f), (%f, %f, %f), (%f, %f, %f))", 
 			x[0][0].toFloat(), x[0][1].toFloat(), x[0][2].toFloat(),
 			x[1][0].toFloat(), x[1][1].toFloat(), x[1][2].toFloat(), 
 			x[2][0].toFloat(), x[2][1].toFloat(), x[2][2].toFloat(),
 			x[3][0].toFloat(), x[3][1].toFloat(), x[3][2].toFloat());
 	}
 	template <precision P>
 	GLM_FUNC_QUALIFIER std::string to_string
 	(
 		detail::tmat4x4<half, P> const & x
 	)
 	{
 		return detail::format("hmat4x4((%f, %f, %f, %f), (%f, %f, %f, %f), (%f, %f, %f, %f), (%f, %f, %f, %f))", 
 			x[0][0].toFloat(), x[0][1].toFloat(), x[0][2].toFloat(), x[0][3].toFloat(),
 			x[1][0].toFloat(), x[1][1].toFloat(), x[1][2].toFloat(), x[1][3].toFloat(),
 			x[2][0].toFloat(), x[2][1].toFloat(), x[2][2].toFloat(), x[2][3].toFloat(),
 			x[3][0].toFloat(), x[3][1].toFloat(), x[3][2].toFloat(), x[3][3].toFloat());
 	}
 	////////////////////////////////
 	// Float matrices
--- a/test/core/CMakeLists.txt
+++ b/test/core/CMakeLists.txt
@ -1,6 +1,5 @@
 glmCreateTestGTC(core_type_cast)
 glmCreateTestGTC(core_type_float)
 glmCreateTestGTC(core_type_half)
 glmCreateTestGTC(core_type_int)
 glmCreateTestGTC(core_type_length)
 glmCreateTestGTC(core_type_mat2x2)
--- a/test/core/core_func_packing.cpp
+++ b/test/core/core_func_packing.cpp
@ -8,7 +8,6 @@
 ///////////////////////////////////////////////////////////////////////////////////////////////////
 #include <glm/glm.hpp>
 #include <glm/gtc/half_float.hpp>
 #include <glm/gtc/type_precision.hpp>
 #include <glm/gtc/epsilon.hpp>
 #include <vector>
--- a/test/core/core_type_half.cpp
+++ b/test/core/core_type_half.cpp
@ -1,191 +0,0 @@
 ///////////////////////////////////////////////////////////////////////////////////////////////////
 // OpenGL Mathematics Copyright (c) 2005 - 2013 G-Truc Creation (www.g-truc.net)
 ///////////////////////////////////////////////////////////////////////////////////////////////////
 // Created : 2008-08-31
 // Updated : 2011-09-20
 // Licence : This source is under MIT licence
 // File    : test/core/type_half.cpp
 ///////////////////////////////////////////////////////////////////////////////////////////////////
 #include <glm/glm.hpp>
 #include <glm/gtc/half_float.hpp>
 int test_half_ctor()
 {
 	int Error = 0;
 	glm::half A(1.0f);
 	Error += float(A) == 1.0f ? 0 : 1;
 	glm::half B = glm::half(1.0f);
 	Error += float(B) == 1.0f ? 0 : 1;
 	glm::half C = B;
 	Error += float(C) == 1.0f ? 0 : 1;
 	return Error;
 }
 int test_half_cast()
 {
 	int Error = 0;
 	glm::half A(2.0f);
 	Error += float(A) == 2.0f ? 0 : 1;
 	glm::half B(2.0);
 	Error += float(B) == 2.0f ? 0 : 1;
 	glm::half C(2);
 	Error += float(C) == 2.0f ? 0 : 1;
 	float D(A);
 	Error += D == 2.0f ? 0 : 1;
 	double E(A);
 	Error += E == 2.0 ? 0 : 1;
 	int F(A);
 	Error += F == 2.0 ? 0 : 1;
 	return Error;
 }
 int test_half_relational()
 {
 	int Error = 0;
 	glm::half A(1.0f);
 	glm::half B(2.0f);
 	Error += !(A == B) ? 0 : 1;
 	Error +=  (A != B) ? 0 : 1;
 	Error +=  (A <= B) ? 0 : 1;
 	Error +=  (A  < B) ? 0 : 1;
 	Error += !(A >= B) ? 0 : 1;
 	Error += !(A  > B) ? 0 : 1;
 	return Error;
 }
 int test_half_arithmetic_unary_ops()
 {
 	int Error = 0;
 	{
 		glm::half A(2.0f);
 		glm::half B(3.0f);
 		A += B;
 		Error += (A == glm::half( 5.0f) ? 0 : 1);
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B(3.0f);
 		A -= B;
 		Error += (A == glm::half(-1.0f) ? 0 : 1);
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B(3.0f);
 		B -= A;
 		Error += (B == glm::half( 1.0f) ? 0 : 1);
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B(3.0f);
 		A *= B;
 		Error += (A == glm::half(6.0f) ? 0 : 1);
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B(3.0f);
 		A /= B;
 		Error += (A == glm::half(2.0f / 3.0f) ? 0 : 1);
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B(3.0f);
 		B /= A;
 		Error += (B == glm::half(3.0f / 2.0f) ? 0 : 1);
 	}
 	return Error;
 }
 int test_half_arithmetic_binary_ops()
 {
 	int Error = 0;
 	glm::half A(2.0f);
 	glm::half B(3.0f);
 	Error += A + B == glm::half( 5.0f) ? 0 : 1;
 	Error += A - B == glm::half(-1.0f) ? 0 : 1;
 	Error += B - A == glm::half( 1.0f) ? 0 : 1;
 	Error += A * B == glm::half( 6.0f) ? 0 : 1;
 	Error += A / B == glm::half(2.0f / 3.0f) ? 0 : 1;
 	Error += B / A == glm::half(3.0f / 2.0f) ? 0 : 1;
 	return Error;
 }
 int test_half_arithmetic_counter_ops()
 {
 	int Error = 0;
 	{
 		glm::half A(2.0f);
 		Error += A == glm::half(2.0f) ? 0 : 1;
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B = A++;
 		Error += B == glm::half(3.0f) ? 0 : 1;
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B = A--;
 		Error += B == glm::half(1.0f) ? 0 : 1;
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B = ++A;
 		Error += B == glm::half(3.0f) ? 0 : 1;
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B = --A;
 		Error += B == glm::half(1.0f) ? 0 : 1;
 	}
 	{
 		glm::half A(2.0f);
 		glm::half B = -A;
 		Error += B == glm::half(-2.0f) ? 0 : 1;
 	}
 	return Error;
 }
 int main()
 {
 	int Result = 0;
 	Result += test_half_ctor();
 	Result += test_half_cast();
 	Result += test_half_relational();
 	Result += test_half_arithmetic_unary_ops();
 	Result += test_half_arithmetic_binary_ops();
 	Result += test_half_arithmetic_counter_ops();
 	return Result;
 }
--- a/test/core/core_type_length.cpp
+++ b/test/core/core_type_length.cpp
@ -8,7 +8,6 @@
 ///////////////////////////////////////////////////////////////////////////////////////////////////
 #include <glm/glm.hpp>
 #include <glm/gtc/half_float.hpp>
 int test_length_mat_non_squared()
 {
@ -28,13 +27,6 @@ int test_length_mat_non_squared()
 	Error += glm::dmat4x2().length() == 4 ? 0 : 1;
 	Error += glm::dmat4x3().length() == 4 ? 0 : 1;
 	Error += glm::hmat2x3().length() == 2 ? 0 : 1;
 	Error += glm::hmat2x4().length() == 2 ? 0 : 1;
 	Error += glm::hmat3x2().length() == 3 ? 0 : 1;
 	Error += glm::hmat3x4().length() == 3 ? 0 : 1;
 	Error += glm::hmat4x2().length() == 4 ? 0 : 1;
 	Error += glm::hmat4x3().length() == 4 ? 0 : 1;
 	return Error;
 }
@ -56,13 +48,6 @@ int test_length_mat()
 	Error += glm::dmat3x3().length() == 3 ? 0 : 1;
 	Error += glm::dmat4x4().length() == 4 ? 0 : 1;
 	Error += glm::hmat2().length() == 2 ? 0 : 1;
 	Error += glm::hmat3().length() == 3 ? 0 : 1;
 	Error += glm::hmat4().length() == 4 ? 0 : 1;
 	Error += glm::hmat2x2().length() == 2 ? 0 : 1;
 	Error += glm::hmat3x3().length() == 3 ? 0 : 1;
 	Error += glm::hmat4x4().length() == 4 ? 0 : 1;
 	return Error;
 }
@ -81,11 +66,7 @@ int test_length_vec()
 	Error += glm::uvec2().length() == 2 ? 0 : 1;
 	Error += glm::uvec3().length() == 3 ? 0 : 1;
-	Error += glm::uvec4().length() == 4 ? 0 : 1;
+	Error += glm::uvec4().length() == 4 ? 0 : 1;	
 	Error += glm::hvec2().length() == 2 ? 0 : 1;
 	Error += glm::hvec3().length() == 3 ? 0 : 1;
 	Error += glm::hvec4().length() == 4 ? 0 : 1;
 	Error += glm::dvec2().length() == 2 ? 0 : 1;
 	Error += glm::dvec3().length() == 3 ? 0 : 1;
--- a/test/core/core_type_vec3.cpp
+++ b/test/core/core_type_vec3.cpp
@ -9,7 +9,6 @@
 #define GLM_SWIZZLE
 #include <glm/glm.hpp>
 #include <glm/gtc/half_float.hpp>
 #include <cstdio>
 #include <vector>
@ -274,46 +273,6 @@ int test_vec3_swizzle3_3()
    return Error;
 }
 int test_vec3_swizzle_half()
 {
    int Error = 0;
    glm::half a1(1);
    glm::half b1(2);
    glm::half c1(3);
    glm::hvec3 v(a1, b1, c1);
    glm::hvec3 u;
    u = v;
    Error += (u.x == glm::half(1.0f) && u.y == glm::half(2.0f) && u.z == glm::half(3.0f)) ? 0 : 1;
 #if(GLM_SUPPORT_SWIZZLE_OPERATOR())
 	u = v.xyz;
    Error += (u.x == glm::half(1.0f) && u.y == glm::half(2.0f) && u.z == glm::half(3.0f)) ? 0 : 1;
    u = v.zyx;
    Error += (u.x == glm::half(3.0f) && u.y == glm::half(2.0f) && u.z == glm::half(1.0f)) ? 0 : 1;
    u.zyx = v;
    Error += (u.x == glm::half(3.0f) && u.y == glm::half(2.0f) && u.z == glm::half(1.0f)) ? 0 : 1;
    u = v.rgb;
    Error += (u.x == glm::half(1.0f) && u.y == glm::half(2.0f) && u.z == glm::half(3.0f)) ? 0 : 1;
    u = v.bgr;
    Error += (u.x == glm::half(3.0f) && u.y == glm::half(2.0f) && u.z == glm::half(1.0f)) ? 0 : 1;
    u.bgr = v;
    Error += (u.x == glm::half(3.0f) && u.y == glm::half(2.0f) && u.z == glm::half(1.0f)) ? 0 : 1;
    u = v.stp;
    Error += (u.x == glm::half(1.0f) && u.y == glm::half(2.0f) && u.z == glm::half(3.0f)) ? 0 : 1;
    u = v.pts;
    Error += (u.x == glm::half(3.0f) && u.y == glm::half(2.0f) && u.z == glm::half(1.0f)) ? 0 : 1;
    u.pts = v;
    Error += (u.x == glm::half(3.0f) && u.y == glm::half(2.0f) && u.z == glm::half(1.0f)) ? 0 : 1;
 #endif//(GLM_SUPPORT_SWIZZLE_OPERATOR())
    return Error;
 }
 int test_vec3_swizzle_operators()
 {
    int Error = 0;
@ -459,7 +418,6 @@ int main()
 	Error += test_vec3_size();
 	Error += test_vec3_swizzle3_2();
 	Error += test_vec3_swizzle3_3();
 	Error += test_vec3_swizzle_half();
 	Error += test_vec3_swizzle_partial();
 	Error += test_vec3_swizzle_operators();
 	Error += test_vec3_swizzle_functions();
--- a/test/core/core_type_vec4.cpp
+++ b/test/core/core_type_vec4.cpp
@ -9,7 +9,6 @@
 #define GLM_SWIZZLE
 #include <glm/glm.hpp>
 #include <glm/gtc/half_float.hpp>
 #include <vector>
 template <int Value>
@ -33,15 +32,6 @@ enum comp
 //	return _mm_shuffle_ps(Src, Src, mask<(int(W) << 6) | (int(Z) << 4) | (int(Y) << 2) | (int(X) << 0)>::value);
 //}
 int test_hvec4()
 {
 	glm::hvec4 const A = glm::hvec4(0, 1, 2, 3);
 	//glm::hvec4 B = glm::swizzle<glm::X, glm::Y, glm::Z, glm::W>(A);
 	//glm::vec4 B = glm::detail::tvec##(glm::vec4::_size)<float>();
 	return 0;
 }
 int test_vec4_ctor()
 {
@ -294,7 +284,6 @@ int main()
 	Error += test_vec4_ctor();
 	Error += test_vec4_size();
 	Error += test_vec4_operators();
 	Error += test_hvec4();
 	Error += test_vec4_swizzle_partial();
 	Error += test_operator_increment();
--- a/test/gtc/CMakeLists.txt
+++ b/test/gtc/CMakeLists.txt
@ -1,6 +1,5 @@
 glmCreateTestGTC(gtc_constants)
 glmCreateTestGTC(gtc_epsilon)
 glmCreateTestGTC(gtc_half_float)
 glmCreateTestGTC(gtc_matrix_access)
 glmCreateTestGTC(gtc_matrix_integer)
 glmCreateTestGTC(gtc_matrix_inverse)
--- a/test/gtc/gtc_constants.cpp
+++ b/test/gtc/gtc_constants.cpp
@ -14,10 +14,6 @@ int test_epsilon()
 {
 	int Error(0);
 	{
 		glm::half Test = glm::epsilon<glm::half>();
 	}
 	{
 		float Test = glm::epsilon<float>();
 	}
@ -33,9 +29,10 @@ int main()
 {
 	int Error(0);
-	float MinHalf = 0.0f;
+	//float MinHalf = 0.0f;
-	while (glm::half(MinHalf) == glm::half(0.0f))
+	//while (glm::half(MinHalf) == glm::half(0.0f))
-		MinHalf += std::numeric_limits<float>::epsilon();
+	//	MinHalf += std::numeric_limits<float>::epsilon();
-
+	Error += test_epsilon();
 	return Error;
 }
--- a/test/gtc/gtc_epsilon.cpp
+++ b/test/gtc/gtc_epsilon.cpp
@ -8,7 +8,6 @@
 ///////////////////////////////////////////////////////////////////////////////////////////////////
 #include <glm/glm.hpp>
 #include <glm/gtc/half_float.hpp>
 #include <glm/gtc/epsilon.hpp>
 #include <glm/gtc/constants.hpp>
@ -78,7 +77,6 @@ int main()
 	int Error(0);
 	Error += test_defined();
 	Error += test_equal<glm::half>();
 	Error += test_equal<float>();
 	Error += test_equal<double>();
--- a/test/gtc/gtc_half_float.cpp
+++ b/test/gtc/gtc_half_float.cpp
@ -1,845 +0,0 @@
 ///////////////////////////////////////////////////////////////////////////////////
 /// OpenGL Mathematics (glm.g-truc.net)
 ///
 /// Copyright (c) 2005 - 2013 G-Truc Creation (www.g-truc.net)
 /// Permission is hereby granted, free of charge, to any person obtaining a copy
 /// of this software and associated documentation files (the "Software"), to deal
 /// in the Software without restriction, including without limitation the rights
 /// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 /// copies of the Software, and to permit persons to whom the Software is
 /// furnished to do so, subject to the following conditions:
 /// 
 /// The above copyright notice and this permission notice shall be included in
 /// all copies or substantial portions of the Software.
 /// 
 /// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 /// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 /// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 /// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 /// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 /// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 /// THE SOFTWARE.
 ///
 /// @ref test
 /// @file test/gtc/half_float.cpp
 /// @date 2011-05-32 / 2012-04-07
 /// @author Christophe Riccio
 ///////////////////////////////////////////////////////////////////////////////////
 #include <glm/glm.hpp>
 #include <glm/gtc/half_float.hpp>
 #include <cstdio>
 int test_half_precision_scalar()
 {
 	int Error = 0;
 	Error += sizeof(glm::half) == 2 ? 0 : 1;
 	return Error;
 }
 int test_half_precision_vec()
 {
 	int Error = 0;
 	Error += sizeof(glm::hvec2) == 4 ? 0 : 1;
 	Error += sizeof(glm::hvec3) == 6 ? 0 : 1;
 	Error += sizeof(glm::hvec4) == 8 ? 0 : 1;
 	return Error;
 }
 int test_half_precision_mat()
 {
 	int Error = 0;
 	Error += sizeof(glm::hmat2) == 8 ? 0 : 1;
 	Error += sizeof(glm::hmat3) == 18 ? 0 : 1;
 	Error += sizeof(glm::hmat4) == 32 ? 0 : 1;
 	Error += sizeof(glm::hmat2x2) == 8 ? 0 : 1;
 	Error += sizeof(glm::hmat2x3) == 12 ? 0 : 1;
 	Error += sizeof(glm::hmat2x4) == 16 ? 0 : 1;
 	Error += sizeof(glm::hmat3x2) == 12 ? 0 : 1;
 	Error += sizeof(glm::hmat3x3) == 18 ? 0 : 1;
 	Error += sizeof(glm::hmat3x4) == 24 ? 0 : 1;
 	Error += sizeof(glm::hmat4x2) == 16 ? 0 : 1;
 	Error += sizeof(glm::hmat4x3) == 24 ? 0 : 1;
 	Error += sizeof(glm::hmat4x4) == 32 ? 0 : 1;
 	return Error;
 }
 int test_half_ctor_mat2x2()
 {
 	int Error = 0;
 	{
 		glm::hvec2 A(1, 2);
 		glm::hvec2 B(3, 4);
 		glm::hmat2 C(A, B);//, 2.0f, 3.0f, 4.0f);
 		glm::hmat2 D(1, 2, 3, 4);
 		Error += C[0] == D[0] ? 0 : 1;
 		Error += C[1] == D[1] ? 0 : 1;
 	}
 	{
 		glm::hvec2 A(1, 2.0);
 		glm::hvec2 B(3, 4.0);
 		glm::hmat2 C(A, B);//, 2.0f, 3.0f, 4.0f);
 		glm::hmat2 D(1, 2.0, 3u, 4.0f);
 		Error += C[0] == D[0] ? 0 : 1;
 		Error += C[1] == D[1] ? 0 : 1;
 	}
 	{
 		glm::hmat2 A(1);
 		glm::mat2 B(1);
 		glm::hmat2 C(A);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_mat2x3()
 {
 	int Error = 0;
 	{
 		glm::hvec3 A(1, 2, 3);
 		glm::hvec3 B(4, 5, 6);
 		glm::hmat2x3 C(A, B);
 		glm::hmat2x3 D(1, 2, 3, 4, 5, 6);
 		Error += C[0] == D[0] ? 0 : 1;
 		Error += C[1] == D[1] ? 0 : 1;
 	}
 	{
 		glm::hvec3 A(1.0, 2.0f, 3u);
 		glm::hvec3 B(4, 5u, 6u);
 		glm::hmat2x3 C(A, B);
 		glm::hmat2x3 D(1, 2.0, 3u, 4.0f, 5.0, 6);
 		Error += C[0] == D[0] ? 0 : 1;
 		Error += C[1] == D[1] ? 0 : 1;
 	}
 	{
 		glm::hmat2x3 A(1);
 		glm::mat2x3 B(1);
 		glm::hmat2x3 C(A);
 		Error += A == C ? 0 : 1;
 	}
    return Error;
 }
 int test_half_ctor_mat2x4()
 {
 	int Error = 0;
 	{
 		glm::hvec4 A(1, 2, 3, 4);
 		glm::hvec4 B(5, 6, 7, 8);
 		glm::hmat2x4 C(A, B);
 		glm::hmat2x4 D(1, 2, 3, 4, 5, 6, 7, 8);
 		Error += C[0] == D[0] ? 0 : 1;
 		Error += C[1] == D[1] ? 0 : 1;
 	}
 	{
 		glm::hvec4 A(1.0, 2.0f, 3u, 4u);
 		glm::hvec4 B(5u, 6u, 7.0, 8.0);
 		glm::hmat2x4 C(A, B);
 		glm::hmat2x4 D(1, 2.0, 3u, 4.0f, 5.0, 6, 7.0f, 8.0f);
 		Error += C[0] == D[0] ? 0 : 1;
 		Error += C[1] == D[1] ? 0 : 1;
 	}
 	{
 		glm::hmat2x4 A(1);
 		glm::mat2x4 B(1);
 		glm::hmat2x4 C(A);
 		Error += A == C ? 0 : 1;
 	}
    return Error;
 }
 int test_half_ctor_mat3x2()
 {
 	int Error = 0;
 	{
 		glm::hvec2 A(1, 2);
 		glm::hvec2 B(3, 4);
 		glm::hvec2 C(5, 6);
 		glm::hmat3x2 M(A, B, C);
 		glm::hmat3x2 N(1, 2, 3, 4, 5, 6);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hvec2 A(1, 2.0);
 		glm::hvec2 B(3, 4.0f);
 		glm::hvec2 C(5u, 6.0f);
 		glm::hmat3x2 M(A, B, C);
 		glm::hmat3x2 N(1, 2.0, 3u, 4.0f, 5, 6);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hmat3x2 A(1);
 		glm::mat3x2 B(1);
 		glm::hmat3x2 C(A);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_mat3x3()
 {
 	int Error = 0;
 	{
 		glm::hvec3 A(1, 2, 3);
 		glm::hvec3 B(4, 5, 6);
 		glm::hvec3 C(7, 8, 9);
 		glm::hmat3x3 M(A, B, C);
 		glm::hmat3x3 N(1, 2, 3, 4, 5, 6, 7, 8, 9);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hvec3 A(1, 2.0, 3.0f);
 		glm::hvec3 B(4, 5.0f, 6.0);
 		glm::hvec3 C(7u, 8.0f, 9);
 		glm::hmat3x3 M(A, B, C);
 		glm::hmat3x3 N(1, 2.0, 3u, 4.0f, 5, 6, 7.0f, 8.0, 9u);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hmat3x3 A(1);
 		glm::mat3x3 B(1);
 		glm::hmat3x3 C(A);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_mat3x4()
 {
 	int Error = 0;
 	{
 		glm::hvec4 A(1, 2, 3, 4);
 		glm::hvec4 B(5, 6, 7, 8);
 		glm::hvec4 C(9, 10, 11, 12);
 		glm::hmat3x4 M(A, B, C);
 		glm::hmat3x4 N(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hvec4 A(1, 2.0, 3.0f, 4u);
 		glm::hvec4 B(5, 6.0f, 7.0, 8);
 		glm::hvec4 C(9u, 10.0f, 11, 12.f);
 		glm::hmat3x4 M(A, B, C);
 		glm::hmat3x4 N(1, 2.0, 3u, 4.0f, 5, 6, 7.0f, 8.0, 9u, 10, 11.f, 12.0);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hmat3x4 A(1);
 		glm::mat3x4 B(1);
 		glm::hmat3x4 C(A);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_mat4x2()
 {
 	int Error = 0;
 	{
 		glm::hvec2 A(1, 2);
 		glm::hvec2 B(3, 4);
 		glm::hvec2 C(5, 6);
 		glm::hvec2 D(7, 8);
 		glm::hmat4x2 M(A, B, C, D);
 		glm::hmat4x2 N(1, 2, 3, 4, 5, 6, 7, 8);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hvec2 A(1, 2.0);
 		glm::hvec2 B(3.0f, 4);
 		glm::hvec2 C(5.0, 6u);
 		glm::hvec2 D(7, 8u);
 		glm::hmat4x2 M(A, B, C, D);
 		glm::hmat4x2 N(1, 2.0, 3u, 4.0f, 5u, 6.0, 7, 8.0f);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hmat4x2 A(1);
 		glm::mat4x2 B(1);
 		glm::hmat4x2 C(A);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_mat4x3()
 {
 	int Error = 0;
 	{
 		glm::hvec3 A(1, 2, 3);
 		glm::hvec3 B(4, 5, 6);
 		glm::hvec3 C(7, 8, 9);
 		glm::hvec3 D(10, 11, 12);
 		glm::hmat4x3 M(A, B, C, D);
 		glm::hmat4x3 N(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hvec3 A(1, 2.0, 3u);
 		glm::hvec3 B(4.0f, 5, 6u);
 		glm::hvec3 C(7.0, 8u, 9.f);
 		glm::hvec3 D(10, 11u, 12.0);
 		glm::hmat4x3 M(A, B, C, D);
 		glm::hmat4x3 N(1, 2.0, 3u, 4.0f, 5u, 6.0, 7, 8.0f, 9, 10u, 11.f, 12.0);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hmat4x3 A(1);
 		glm::mat4x3 B(1);
 		glm::hmat4x3 C(A);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_mat4x4()
 {
 	int Error = 0;
 	{
 		glm::hvec4 A(1, 2, 3, 4);
 		glm::hvec4 B(5, 6, 7, 8);
 		glm::hvec4 C(9, 10, 11, 12);
 		glm::hvec4 D(13, 14, 15, 16);
 		glm::hmat4x4 M(A, B, C, D);
 		glm::hmat4x4 N(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hvec4 A(1, 2.0, 3u, 4);
 		glm::hvec4 B(5.0f, 6, 7u, 8.0);
 		glm::hvec4 C(9.0, 10u, 11.f, 12);
 		glm::hvec4 D(13, 14u, 15.0, 16u);
 		glm::hmat4x4 M(A, B, C, D);
 		glm::hmat4x4 N(1, 2.0, 3u, 4.0f, 5u, 6.0, 7, 8.0f, 9, 10u, 11.f, 12.0, 13, 14u, 15.0f, 16.0);
 		Error += M == N ? 0 : 1;
 	}
 	{
 		glm::hmat4x4 A(1);
 		glm::mat4x4 B(1);
 		glm::hmat4x4 C(A);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_vec2()
 {
 	int Error = 0;
 	{
 		glm::hvec2 A;
 		A.x = glm::half(1);
 		A.y = glm::half(2);
 		//glm::hvec2 A(1, 2);
 		glm::hvec2 B(A);
 		glm::vec2 C(1, 2);
 		glm::hvec2 D(C);
 		glm::dvec2 E(1, 2);
 		glm::hvec2 F(E);
 		glm::hvec2 G(1, 2.0);
 		glm::hvec2 H;
 		H = A;
 		Error += A == B ? 0 : 1;
 		//Error += C == D ? 0 : 1; //Error
 		//Error += E == F ? 0 : 1; //Error
 		Error += A == G ? 0 : 1;
 		Error += A == H ? 0 : 1;
 	}
 	{
 		glm::hvec2 A(1);
 		glm::vec2 B(1);
 		glm::hvec2 C(A);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_vec3()
 {
 	int Error = 0;
 	{
 		glm::hvec3 A(1, 2, 3);
 		glm::hvec3 B(A);
 		glm::vec3 C(1, 2, 3);
 		glm::hvec3 D(C);
 		glm::dvec3 E(1, 2, 3);
 		glm::hvec3 F(E);
 		glm::hvec3 G(1, 2.0, 3);
 		glm::hvec3 H;
 		H = A;
 		Error += A == B ? 0 : 1;
 		//Error += C == D ? 0 : 1;
 		//Error += E == F ? 0 : 1;
 		Error += A == G ? 0 : 1;
 		Error += A == H ? 0 : 1;
 	}
 	{
 		glm::hvec3 A(1);
 		glm::vec3 B(1);
 		glm::hvec3 C(B);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_half_ctor_vec4()
 {
 	int Error = 0;
 	{
 		glm::hvec4 A(1, 2, 3, 4);
 		glm::hvec4 B(A);
 		glm::vec4 C(1, 2, 3, 4);
 		glm::hvec4 D(C);
 		glm::dvec4 E(1, 2, 3, 4);
 		glm::hvec4 F(E);
 		glm::hvec4 G(1, 2.0, 3, 4);
 		glm::hvec4 H;
 		H = A;
 		Error += A == B ? 0 : 1;
 		//Error += C == D ? 0 : 1;
 		//Error += E == F ? 0 : 1;
 		Error += A == G ? 0 : 1;
 		Error += A == H ? 0 : 1;
 	}
 	{
 		glm::hvec4 A(1);
 		glm::vec4 B(1);
 		glm::hvec4 C(B);
 		Error += A == C ? 0 : 1;
 	}
 	return Error;
 }
 int test_hvec2_size()
 {
 	int Error = 0;
 	Error += sizeof(glm::hvec2) <= sizeof(glm::lowp_vec2) ? 0 : 1;
 	Error += 4 == sizeof(glm::hvec2) ? 0 : 1;
 	Error += glm::hvec2().length() == 2 ? 0 : 1;
 	return Error;
 }
 int test_hvec3_size()
 {
 	int Error = 0;
 	Error += sizeof(glm::hvec3) <= sizeof(glm::lowp_vec3) ? 0 : 1;
 	Error += 6 <= sizeof(glm::hvec3) ? 0 : 1;
 	Error += glm::hvec3().length() == 3 ? 0 : 1;
 	return Error;
 }
 int test_hvec4_size()
 {
 	int Error = 0;
 	Error += sizeof(glm::hvec4) <= sizeof(glm::lowp_vec4) ? 0 : 1;
 	Error += 8 <= sizeof(glm::hvec4) ? 0 : 1;
 	Error += glm::hvec4().length() == 4 ? 0 : 1;
 	return Error;
 }
 static int test_hvec_precision()
 {
 	int Error = 0;
 	Error += sizeof(glm::hvec2) == sizeof(glm::highp_hvec2) ? 0 : 1;
 	Error += sizeof(glm::hvec3) == sizeof(glm::highp_hvec3) ? 0 : 1;
 	Error += sizeof(glm::hvec4) == sizeof(glm::highp_hvec4) ? 0 : 1;
 	return Error;
 }
 static int test_hmat_precision()
 {
 	int Error = 0;
 	Error += sizeof(glm::hmat2) == sizeof(glm::lowp_hmat2) ? 0 : 1;
 	Error += sizeof(glm::hmat3) == sizeof(glm::lowp_hmat3) ? 0 : 1;
 	Error += sizeof(glm::hmat4) == sizeof(glm::lowp_hmat4) ? 0 : 1;
 	Error += sizeof(glm::hmat2) == sizeof(glm::mediump_hmat2) ? 0 : 1;
 	Error += sizeof(glm::hmat3) == sizeof(glm::mediump_hmat3) ? 0 : 1;
 	Error += sizeof(glm::hmat4) == sizeof(glm::mediump_hmat4) ? 0 : 1;
 	Error += sizeof(glm::hmat2) == sizeof(glm::highp_hmat2) ? 0 : 1;
 	Error += sizeof(glm::hmat3) == sizeof(glm::highp_hmat3) ? 0 : 1;
 	Error += sizeof(glm::hmat4) == sizeof(glm::highp_hmat4) ? 0 : 1;
 	Error += sizeof(glm::hmat2x2) == sizeof(glm::lowp_hmat2x2) ? 0 : 1;
 	Error += sizeof(glm::hmat3x2) == sizeof(glm::lowp_hmat3x2) ? 0 : 1;
 	Error += sizeof(glm::hmat4x2) == sizeof(glm::lowp_hmat4x2) ? 0 : 1;
 	Error += sizeof(glm::hmat2x2) == sizeof(glm::mediump_hmat2x2) ? 0 : 1;
 	Error += sizeof(glm::hmat3x2) == sizeof(glm::mediump_hmat3x2) ? 0 : 1;
 	Error += sizeof(glm::hmat4x2) == sizeof(glm::mediump_hmat4x2) ? 0 : 1;
 	Error += sizeof(glm::hmat2x2) == sizeof(glm::highp_hmat2x2) ? 0 : 1;
 	Error += sizeof(glm::hmat3x2) == sizeof(glm::highp_hmat3x2) ? 0 : 1;
 	Error += sizeof(glm::hmat4x2) == sizeof(glm::highp_hmat4x2) ? 0 : 1;
 	Error += sizeof(glm::hmat2x3) == sizeof(glm::lowp_hmat2x3) ? 0 : 1;
 	Error += sizeof(glm::hmat3x3) == sizeof(glm::lowp_hmat3x3) ? 0 : 1;
 	Error += sizeof(glm::hmat4x3) == sizeof(glm::lowp_hmat4x3) ? 0 : 1;
 	Error += sizeof(glm::hmat2x3) == sizeof(glm::mediump_hmat2x3) ? 0 : 1;
 	Error += sizeof(glm::hmat3x3) == sizeof(glm::mediump_hmat3x3) ? 0 : 1;
 	Error += sizeof(glm::hmat4x3) == sizeof(glm::mediump_hmat4x3) ? 0 : 1;
 	Error += sizeof(glm::hmat2x3) == sizeof(glm::highp_hmat2x3) ? 0 : 1;
 	Error += sizeof(glm::hmat3x3) == sizeof(glm::highp_hmat3x3) ? 0 : 1;
 	Error += sizeof(glm::hmat4x3) == sizeof(glm::highp_hmat4x3) ? 0 : 1;
 	Error += sizeof(glm::hmat2x4) == sizeof(glm::lowp_hmat2x4) ? 0 : 1;
 	Error += sizeof(glm::hmat3x4) == sizeof(glm::lowp_hmat3x4) ? 0 : 1;
 	Error += sizeof(glm::hmat4x4) == sizeof(glm::lowp_hmat4x4) ? 0 : 1;
 	Error += sizeof(glm::hmat2x4) == sizeof(glm::mediump_hmat2x4) ? 0 : 1;
 	Error += sizeof(glm::hmat3x4) == sizeof(glm::mediump_hmat3x4) ? 0 : 1;
 	Error += sizeof(glm::hmat4x4) == sizeof(glm::mediump_hmat4x4) ? 0 : 1;
 	Error += sizeof(glm::hmat2x4) == sizeof(glm::highp_hmat2x4) ? 0 : 1;
 	Error += sizeof(glm::hmat3x4) == sizeof(glm::highp_hmat3x4) ? 0 : 1;
 	Error += sizeof(glm::hmat4x4) == sizeof(glm::highp_hmat4x4) ? 0 : 1;
 	return Error;
 }
 namespace detail
 {
 	glm::uint16 float2half(glm::uint32 const & f)
 	{
 		// 10 bits    =>                         EE EEEFFFFF
 		// 11 bits    =>                        EEE EEFFFFFF
 		// Half bits  =>                   SEEEEEFF FFFFFFFF
 		// Float bits => SEEEEEEE EFFFFFFF FFFFFFFF FFFFFFFF
 		// 0x00007c00 => 00000000 00000000 01111100 00000000
 		// 0x000003ff => 00000000 00000000 00000011 11111111
 		// 0x38000000 => 00111000 00000000 00000000 00000000
 		// 0x7f800000 => 01111111 10000000 00000000 00000000
 		// 0x00008000 => 00000000 00000000 10000000 00000000
 		return
        ((f >> 16) & 0x8000) | // sign
        ((((f & 0x7f800000) - 0x38000000) >> 13) & 0x7c00) | // exponential
        ((f >> 13) & 0x03ff); // Mantissa
 	}
 	glm::uint16 float2packed11(glm::uint32 const & f)
 	{
 		// 10 bits    =>                         EE EEEFFFFF
 		// 11 bits    =>                        EEE EEFFFFFF
 		// Half bits  =>                   SEEEEEFF FFFFFFFF
 		// Float bits => SEEEEEEE EFFFFFFF FFFFFFFF FFFFFFFF
 		// 0x000007c0 => 00000000 00000000 00000111 11000000
 		// 0x00007c00 => 00000000 00000000 01111100 00000000
 		// 0x000003ff => 00000000 00000000 00000011 11111111
 		// 0x38000000 => 00111000 00000000 00000000 00000000
 		// 0x7f800000 => 01111111 10000000 00000000 00000000
 		// 0x00008000 => 00000000 00000000 10000000 00000000
 		return
        ((((f & 0x7f800000) - 0x38000000) >> 17) & 0x07c0) | // exponential
        ((f >> 17) & 0x003f); // Mantissa
 	}
 	glm::uint float2packed10(glm::uint const & f)
 	{
 		// 10 bits    =>                         EE EEEFFFFF
 		// 11 bits    =>                        EEE EEFFFFFF
 		// Half bits  =>                   SEEEEEFF FFFFFFFF
 		// Float bits => SEEEEEEE EFFFFFFF FFFFFFFF FFFFFFFF
 		// 0x0000001F => 00000000 00000000 00000000 00011111
 		// 0x0000003F => 00000000 00000000 00000000 00111111
 		// 0x000003E0 => 00000000 00000000 00000011 11100000
 		// 0x000007C0 => 00000000 00000000 00000111 11000000
 		// 0x00007C00 => 00000000 00000000 01111100 00000000
 		// 0x000003FF => 00000000 00000000 00000011 11111111
 		// 0x38000000 => 00111000 00000000 00000000 00000000
 		// 0x7f800000 => 01111111 10000000 00000000 00000000
 		// 0x00008000 => 00000000 00000000 10000000 00000000
 		return
        ((((f & 0x7f800000) - 0x38000000) >> 18) & 0x03E0) | // exponential
        ((f >> 18) & 0x001f); // Mantissa
 	}
 	glm::uint half2float(glm::uint const & h)
 	{
 		return ((h & 0x8000) << 16) | ((( h & 0x7c00) + 0x1C000) << 13) | ((h & 0x03FF) << 13);
 	}
    union uif
    {
        glm::uint i;
        float f;
    };
 	glm::uint floatTo11bit(float x)
 	{
 		if(x == 0.0f)
 			return 0;
 		else if(glm::isnan(x))
 			return ~0;
 		else if(glm::isinf(x))
 			return 0x1f << 6;
 		uif Union;
 		Union.f = x;
 		return float2packed11(Union.i);
 	}
 	glm::uint floatTo10bit(float x)
 	{
 		if(x == 0.0f)
 			return 0;
 		else if(glm::isnan(x))
 			return ~0;
 		else if(glm::isinf(x))
 			return 0x1f << 5;
 		uif Union;
 		Union.f = x;
 		return float2packed10(Union.i);
 	}
 	glm::uint f11_f11_f10(float x, float y, float z)
 	{
 		return ((floatTo11bit(x) & ((1 << 11) - 1)) << 0) |  ((floatTo11bit(y) & ((1 << 11) - 1)) << 11) | ((floatTo10bit(z) & ((1 << 10) - 1)) << 22);
 	}
 }//namespace detail
 class f11f11f10
 {
 public:
    f11f11f10(float x, float y, float z) :
        x(detail::floatTo11bit(x)),
        y(detail::floatTo11bit(y)),
        z(detail::floatTo10bit(z))
    {}
    /*
     operator glm::vec3()
     {
     return glm::vec3(
     float(x) / 511.0f,
     float(y) / 511.0f,
     float(z) / 511.0f);
     }
     */
 private:
    int x : 11;
    int y : 11;
    int z : 10;
 };
 void print_bits(glm::half const & s)
 {
    union
    {
        glm::detail::hdata h;
        unsigned short i;
    } uif;
    uif.h = s._data();
    printf("f16: ");
    for(std::size_t j = sizeof(s) * 8; j > 0; --j)
    {
        if(j == 10 || j == 15)
            printf(" ");
        printf("%d", (uif.i & (1 << (j - 1))) ? 1 : 0);
    }
 }
 void print_bits(float const & s)
 {
    union
    {
        float f;
        unsigned int i;
    } uif;
    uif.f = s;
    printf("f32: ");
    for(std::size_t j = sizeof(s) * 8; j > 0; --j)
    {
        if(j == 23 || j == 31)
            printf(" ");
        printf("%d", (uif.i & (1 << (j - 1))) ? 1 : 0);
    }
 }
 void print_10bits(glm::uint const & s)
 {
    printf("10b: ");
    for(std::size_t j = 10; j > 0; --j)
    {
        if(j == 5)
            printf(" ");
        printf("%d", (s & (1 << (j - 1))) ? 1 : 0);
    }
 }
 void print_11bits(glm::uint const & s)
 {
    printf("11b: ");
    for(std::size_t j = 11; j > 0; --j)
    {
        if(j == 6)
            printf(" ");
        printf("%d", (s & (1 << (j - 1))) ? 1 : 0);
    }
 }
 void print_value(float const & s)
 {
    printf("%2.5f, ", s);
    print_bits(s);
    printf(", ");
    print_bits(glm::half(s));
    printf(", ");
    print_11bits(detail::floatTo11bit(s));
    printf(", ");
    print_10bits(detail::floatTo10bit(s));
    printf("\n");
 }
 int test_half()
 {
    int Error = 0;
    print_value(0.0f);
    print_value(0.1f);
    print_value(0.2f);
    print_value(0.3f);
    print_value(0.4f);
    print_value(0.5f);
    print_value(0.6f);
    print_value(1.0f);
    print_value(1.1f);
    print_value(1.2f);
    print_value(1.3f);
    print_value(1.4f);
    print_value(1.5f);
    print_value(1.6f);
    print_value(2.0f);
    print_value(2.1f);
    print_value(2.2f);
    print_value(2.3f);
    print_value(2.4f);
    print_value(2.5f);
    print_value(2.6f);
    return Error;
 }
 int main()
 {
 	int Error = 0;
    Error += test_half();
 	Error += test_hvec_precision();
 	Error += test_hvec2_size();
 	Error += test_hvec3_size();
 	Error += test_hvec4_size();
 	Error += test_half_ctor_vec2();
 	Error += test_half_ctor_vec3();
 	Error += test_half_ctor_vec4();
 	Error += test_half_ctor_mat2x2();
 	Error += test_half_ctor_mat2x3();
 	Error += test_half_ctor_mat2x4();
 	Error += test_half_ctor_mat3x2();
 	Error += test_half_ctor_mat3x3();
 	Error += test_half_ctor_mat3x4();
 	Error += test_half_ctor_mat4x2();
 	Error += test_half_ctor_mat4x3();
 	Error += test_half_ctor_mat4x4();
 	Error += test_half_precision_scalar();
 	Error += test_half_precision_vec();
 	Error += test_half_precision_mat();
 	return Error;
 }
--- a/test/gtc/gtc_quaternion.cpp
+++ b/test/gtc/gtc_quaternion.cpp
@ -133,14 +133,6 @@ int test_quat_euler()
 		glm::dvec3 Angles = glm::eulerAngles(q);
 	}
 	{
 		glm::hquat q(glm::half(1.0f), glm::half(0.0f), glm::half(0.0f), glm::half(1.0f));
 		glm::half Roll = glm::roll(q);
 		glm::half Pitch = glm::pitch(q);
 		glm::half Yaw = glm::yaw(q);
 		glm::hvec3 Angles = glm::eulerAngles(q);
 	}
 	return Error;
 }
--- a/test/gtc/gtc_type_precision.cpp
+++ b/test/gtc/gtc_type_precision.cpp
@ -22,7 +22,6 @@ static int test_scalar_size()
 	Error += sizeof(glm::uint16) != 2;
 	Error += sizeof(glm::uint32) != 4;
 	Error += sizeof(glm::uint64) != 8;
 	Error += sizeof(glm::float16) != 2;
 	Error += sizeof(glm::float32) != 4;
 	Error += sizeof(glm::float64) != 8;
@ -34,7 +33,6 @@ static int test_scalar_size()
 	Error += sizeof(glm::lowp_uint16) != 2;
 	Error += sizeof(glm::lowp_uint32) != 4;
 	Error += sizeof(glm::lowp_uint64) != 8;
 	Error += sizeof(glm::lowp_float16) != 2;
 	Error += sizeof(glm::lowp_float32) != 4;
 	Error += sizeof(glm::lowp_float64) != 8;
@ -46,7 +44,6 @@ static int test_scalar_size()
 	Error += sizeof(glm::mediump_uint16) != 2;
 	Error += sizeof(glm::mediump_uint32) != 4;
 	Error += sizeof(glm::mediump_uint64) != 8;
 	Error += sizeof(glm::mediump_float16) != 2;
 	Error += sizeof(glm::mediump_float32) != 4;
 	Error += sizeof(glm::mediump_float64) != 8;
@ -58,7 +55,6 @@ static int test_scalar_size()
 	Error += sizeof(glm::highp_uint16) != 2;
 	Error += sizeof(glm::highp_uint32) != 4;
 	Error += sizeof(glm::highp_uint64) != 8;
 	Error += sizeof(glm::highp_float16) != 2;
 	Error += sizeof(glm::highp_float32) != 4;
 	Error += sizeof(glm::highp_float64) != 8;
 	return Error;
@ -67,9 +63,6 @@ static int test_scalar_size()
 static int test_fvec_size()
 {
 	int Error(0);
 	Error += sizeof(glm::f16vec2) != 4;
 	Error += sizeof(glm::f16vec3) != 6;
 	Error += sizeof(glm::f16vec4) != 8;
 	Error += sizeof(glm::f32vec2) != 8;
 	Error += sizeof(glm::f32vec3) != 12;
 	Error += sizeof(glm::f32vec4) != 16;
@ -77,9 +70,6 @@ static int test_fvec_size()
 	Error += sizeof(glm::f64vec3) != 24;
 	Error += sizeof(glm::f64vec4) != 32;
 	Error += sizeof(glm::lowp_f16vec2) != 4;
 	Error += sizeof(glm::lowp_f16vec3) != 6;
 	Error += sizeof(glm::lowp_f16vec4) != 8;
 	Error += sizeof(glm::lowp_f32vec2) != 8;
 	Error += sizeof(glm::lowp_f32vec3) != 12;
 	Error += sizeof(glm::lowp_f32vec4) != 16;
@ -87,9 +77,6 @@ static int test_fvec_size()
 	Error += sizeof(glm::lowp_f64vec3) != 24;
 	Error += sizeof(glm::lowp_f64vec4) != 32;
 	Error += sizeof(glm::mediump_f16vec2) != 4;
 	Error += sizeof(glm::mediump_f16vec3) != 6;
 	Error += sizeof(glm::mediump_f16vec4) != 8;
 	Error += sizeof(glm::mediump_f32vec2) != 8;
 	Error += sizeof(glm::mediump_f32vec3) != 12;
 	Error += sizeof(glm::mediump_f32vec4) != 16;
@ -97,9 +84,6 @@ static int test_fvec_size()
 	Error += sizeof(glm::mediump_f64vec3) != 24;
 	Error += sizeof(glm::mediump_f64vec4) != 32;
 	Error += sizeof(glm::highp_f16vec2) != 4;
 	Error += sizeof(glm::highp_f16vec3) != 6;
 	Error += sizeof(glm::highp_f16vec4) != 8;
 	Error += sizeof(glm::highp_f32vec2) != 8;
 	Error += sizeof(glm::highp_f32vec3) != 12;
 	Error += sizeof(glm::highp_f32vec4) != 16;
@ -109,46 +93,6 @@ static int test_fvec_size()
 	return Error;
 }
 static int test_hvec_precision()
 {
 	int Error(0);
 	{
 		glm::f16vec2 v1;
 		glm::lowp_f16vec2 v2(v1);
 		glm::mediump_f16vec2 v3(v1);
 		glm::highp_f16vec2 v4(v1);
 		Error += glm::all(glm::equal(v1, glm::f16vec2(v2))) ? 0 : 1;
 		Error += glm::all(glm::equal(v1, glm::f16vec2(v3))) ? 0 : 1;
 		Error += glm::all(glm::equal(v1, glm::f16vec2(v4))) ? 0 : 1;
 	}
 	{
 		glm::f16vec3 v1;
 		glm::lowp_f16vec3 v2(v1);
 		glm::mediump_f16vec3 v3(v1);
 		glm::highp_f16vec3 v4(v1);
 		Error += glm::all(glm::equal(v1, glm::f16vec3(v2))) ? 0 : 1;
 		Error += glm::all(glm::equal(v1, glm::f16vec3(v3))) ? 0 : 1;
 		Error += glm::all(glm::equal(v1, glm::f16vec3(v4))) ? 0 : 1;
 	}
 	{
 		glm::f16vec4 v1;
 		glm::lowp_f16vec4 v2(v1);
 		glm::mediump_f16vec4 v3(v1);
 		glm::highp_f16vec4 v4(v1);
 		Error += glm::all(glm::equal(v1, glm::f16vec4(v2))) ? 0 : 1;
 		Error += glm::all(glm::equal(v1, glm::f16vec4(v3))) ? 0 : 1;
 		Error += glm::all(glm::equal(v1, glm::f16vec4(v4))) ? 0 : 1;
 	}
 	return Error;
 }
 static int test_fvec_precision()
 {
 	int Error(0);
@ -632,63 +576,6 @@ static int test_uvec_precision()
 	return Error;
 }
 static int test_hmat_size()
 {
 	int Error(0);
 	Error += sizeof(glm::f16mat2) != 8;
 	Error += sizeof(glm::f16mat3) != 18;
 	Error += sizeof(glm::f16mat4) != 32;
 	Error += sizeof(glm::f16mat2x2) != 8;
 	Error += sizeof(glm::f16mat2x3) != 12;
 	Error += sizeof(glm::f16mat2x4) != 16;
 	Error += sizeof(glm::f16mat3x2) != 12;
 	Error += sizeof(glm::f16mat3x3) != 18;
 	Error += sizeof(glm::f16mat3x4) != 24;
 	Error += sizeof(glm::f16mat4x2) != 16;
 	Error += sizeof(glm::f16mat4x3) != 24;
 	Error += sizeof(glm::f16mat4x4) != 32;
 	Error += sizeof(glm::lowp_f16mat2) != 8;
 	Error += sizeof(glm::lowp_f16mat3) != 18;
 	Error += sizeof(glm::lowp_f16mat4) != 32;
 	Error += sizeof(glm::lowp_f16mat2x2) != 8;
 	Error += sizeof(glm::lowp_f16mat2x3) != 12;
 	Error += sizeof(glm::lowp_f16mat2x4) != 16;
 	Error += sizeof(glm::lowp_f16mat3x2) != 12;
 	Error += sizeof(glm::lowp_f16mat3x3) != 18;
 	Error += sizeof(glm::lowp_f16mat3x4) != 24;
 	Error += sizeof(glm::lowp_f16mat4x2) != 16;
 	Error += sizeof(glm::lowp_f16mat4x3) != 24;
 	Error += sizeof(glm::lowp_f16mat4x4) != 32;
 	Error += sizeof(glm::mediump_f16mat2) != 8;
 	Error += sizeof(glm::mediump_f16mat3) != 18;
 	Error += sizeof(glm::mediump_f16mat4) != 32;
 	Error += sizeof(glm::mediump_f16mat2x2) != 8;
 	Error += sizeof(glm::mediump_f16mat2x3) != 12;
 	Error += sizeof(glm::mediump_f16mat2x4) != 16;
 	Error += sizeof(glm::mediump_f16mat3x2) != 12;
 	Error += sizeof(glm::mediump_f16mat3x3) != 18;
 	Error += sizeof(glm::mediump_f16mat3x4) != 24;
 	Error += sizeof(glm::mediump_f16mat4x2) != 16;
 	Error += sizeof(glm::mediump_f16mat4x3) != 24;
 	Error += sizeof(glm::mediump_f16mat4x4) != 32;
 	Error += sizeof(glm::highp_f16mat2) != 8;
 	Error += sizeof(glm::highp_f16mat3) != 18;
 	Error += sizeof(glm::highp_f16mat4) != 32;
 	Error += sizeof(glm::highp_f16mat2x2) != 8;
 	Error += sizeof(glm::highp_f16mat2x3) != 12;
 	Error += sizeof(glm::highp_f16mat2x4) != 16;
 	Error += sizeof(glm::highp_f16mat3x2) != 12;
 	Error += sizeof(glm::highp_f16mat3x3) != 18;
 	Error += sizeof(glm::highp_f16mat3x4) != 24;
 	Error += sizeof(glm::highp_f16mat4x2) != 16;
 	Error += sizeof(glm::highp_f16mat4x3) != 24;
 	Error += sizeof(glm::highp_f16mat4x4) != 32;
 	return Error;
 }
 static int test_fmat_size()
 {
 	int Error(0);
@ -914,19 +801,15 @@ static int test_dmat_size()
 static int test_quat_size()
 {
 	int Error = 0;
 	Error += sizeof(glm::f16quat) != 8;
 	Error += sizeof(glm::f32quat) != 16;
 	Error += sizeof(glm::f64quat) != 32;
 	Error += sizeof(glm::lowp_f16quat) != 8;
 	Error += sizeof(glm::lowp_f32quat) != 16;
 	Error += sizeof(glm::lowp_f64quat) != 32;
 	Error += sizeof(glm::mediump_f16quat) != 8;
 	Error += sizeof(glm::mediump_f32quat) != 16;
 	Error += sizeof(glm::mediump_f64quat) != 32;
 	Error += sizeof(glm::highp_f16quat) != 8;
 	Error += sizeof(glm::highp_f32quat) != 16;
 	Error += sizeof(glm::highp_f64quat) != 32;
 	return Error;
@ -958,14 +841,12 @@ int main()
 	int Error(0);
 	Error += test_scalar_size();
 	Error += test_fvec_size();
 	Error += test_hvec_precision();
 	Error += test_fvec_precision();
 	Error += test_dvec_precision();
 	Error += test_ivec_size();
 	Error += test_ivec_precision();
 	Error += test_uvec_size();
 	Error += test_uvec_precision();
 	Error += test_hmat_size();
 	Error += test_fmat_size();
 	Error += test_dmat_size();
 	Error += test_quat_size();
--- a/test/gtc/gtc_type_ptr.cpp
+++ b/test/gtc/gtc_type_ptr.cpp
@ -13,22 +13,6 @@
 int test_value_ptr_vec()
 {
    int Error = 0;
    {
        glm::hvec2 v(1.0);
        glm::half * p = glm::value_ptr(v);
        Error += p == &v[0] ? 0 : 1;
    }
    {
        glm::hvec3 v(1.0);
        glm::half * p = glm::value_ptr(v);
        Error += p == &v[0] ? 0 : 1;
    }
    {
        glm::hvec4 v(1.0);
        glm::half * p = glm::value_ptr(v);
        Error += p == &v[0] ? 0 : 1;
    }
    {
        glm::vec2 v(1.0);
@ -69,22 +53,6 @@ int test_value_ptr_vec_const()
 {
    int Error = 0;
    {
        glm::hvec2 const v(1.0);
        glm::half const * p = glm::value_ptr(v);
        Error += p == &v[0] ? 0 : 1;
    }
    {
        glm::hvec3 const v(1.0);
        glm::half const * p = glm::value_ptr(v);
        Error += p == &v[0] ? 0 : 1;
    }
    {
        glm::hvec4 const v(1.0);
        glm::half const * p = glm::value_ptr(v);
        Error += p == &v[0] ? 0 : 1;
    }
    {
        glm::vec2 const v(1.0);
        float const * p = glm::value_ptr(v);
--- a/test/gtx/gtx_string_cast.cpp
+++ b/test/gtx/gtx_string_cast.cpp
@ -15,10 +15,6 @@
 int test_string_cast_scalar()
 {
 	int Error = 0;	
 	glm::half A1(1.0);
 	std::string A2 = glm::to_string(A1);
 	Error += A2 != std::string("half(1.0000)") ? 1 : 0;
 	float B1(1.0);
 	std::string B2 = glm::to_string(B1);
@ -59,18 +55,6 @@ int test_string_cast_vector()
 	std::string F2 = glm::to_string(F1);
 	Error += F2 != std::string("ivec4(1, 2, 3, 4)") ? 1 : 0;
 	glm::hvec2 G1(1, 2);
 	std::string G2 = glm::to_string(G1);
 	Error += G2 != std::string("hvec2(1.0000, 2.0000)") ? 1 : 0;
 	glm::hvec3 H1(1, 2, 3);
 	std::string H2 = glm::to_string(H1);
 	Error += H2 != std::string("hvec3(1.0000, 2.0000, 3.0000)") ? 1 : 0;
 	glm::hvec4 I1(1, 2, 3, 4);
 	std::string I2 = glm::to_string(I1);
 	Error += I2 != std::string("hvec4(1.0000, 2.0000, 3.0000, 4.0000)") ? 1 : 0;
 	glm::dvec2 J1(1, 2);
 	std::string J2 = glm::to_string(J1);
 	Error += J2 != std::string("dvec2(1.000000, 2.000000)") ? 1 : 0;