Fix documentation

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Former-commit-id: a1bfe55ac944ea530578a0cc813dd253cc708b69

include/Nazara/Math/Algorithm.inl

@@ -45,20 +45,21 @@ namespace Nz
 		}
 
 		template<typename T>
-		// Les parenthèses autour de la condition sont nécesaires pour que GCC compile ça
+		// The parentheses are needed for GCC
 		typename std::enable_if<(sizeof(T) > sizeof(UInt32)), unsigned int>::type IntegralLog2(T number)
 		{
 			static_assert(sizeof(T) % sizeof(UInt32) == 0, "Assertion failed");
 
-			// L'algorithme pour le logarithme base 2 (au dessus) ne fonctionne qu'avec des nombres au plus 32bits
+			// Masking and shifting bits to the right (to bring it back to 32 bits)
-			// ce code décompose les nombres plus grands en nombres 32 bits par masquage et bit shifting
+
+			// Call of the function with 32 bits number, if the result is non-null we have our answer
 			for (int i = sizeof(T)-sizeof(UInt32); i >= 0; i -= sizeof(UInt32))
 			{
-				// Le masque 32 bits sur la partie du nombre qu'on traite actuellement
+				// The 32 bits mask on the part we are treating
 				T mask = T(std::numeric_limits<UInt32>::max()) << i*8;
-				T val = (number & mask) >> i*8; // Masquage et shifting des bits vers la droite (pour le ramener sur 32bits)
+				T val = (number & mask) >> i*8; // Masking and shifting bits to the right (to bring it back to 32 bits)
 
-				// Appel de la fonction avec le nombre 32bits, si le résultat est non-nul nous avons la réponse
+				// Call of the function with 32 bits number, if the result is non-null we have our answer
 				unsigned int log2 = IntegralLog2<UInt32>(val);
 				if (log2)
 					return log2 + i*8;
@@ -75,20 +76,20 @@ namespace Nz
 		}
 
 		template<typename T>
-		// Les parenthèses autour de la condition sont nécesaires pour que GCC compile ça
+		// The parentheses are needed for GCC
 		typename std::enable_if<(sizeof(T) > sizeof(UInt32)), unsigned int>::type IntegralLog2Pot(T number)
 		{
 			static_assert(sizeof(T) % sizeof(UInt32) == 0, "Assertion failed");
 
-			// L'algorithme pour le logarithme base 2 (au dessus) ne fonctionne qu'avec des nombres au plus 32bits
+			// The algorithm for logarithm in base 2 only works with numbers greather than 32 bits
-			// ce code décompose les nombres plus grands en nombres 32 bits par masquage et bit shifting
+			// This code subdivides the biggest number into 32 bits ones
 			for (int i = sizeof(T)-sizeof(UInt32); i >= 0; i -= sizeof(UInt32))
 			{
-				// Le masque 32 bits sur la partie du nombre qu'on traite actuellement
+				// The 32 bits mask on the part we are treating
 				T mask = T(std::numeric_limits<UInt32>::max()) << i*8;
-				UInt32 val = UInt32((number & mask) >> i*8); // Masquage et shifting des bits vers la droite (pour le ramener sur 32bits)
+				UInt32 val = UInt32((number & mask) >> i*8); // Masking and shifting bits to the right (to bring it back to 32 bits)
 
-				// Appel de la fonction avec le nombre 32bits, si le résultat est non-nul nous avons la réponse
+				// Call of the function with 32 bits number, if the result is non-null we have our answer
 				unsigned int log2 = IntegralLog2Pot<UInt32>(val);
 				if (log2 || val == 1)
 					return log2 + i*8;
@@ -99,7 +100,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Approaches the objective, beginning with value and with increment
 	* \return The nearest value of the objective you can get with the value and the increment for one step
 	*
@@ -121,7 +122,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Clamps value between min and max and returns the expected value
 	* \return If value is not in the interval of min..max, value obtained is the nearest limit of this interval
 	*
@@ -137,7 +138,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets number of bits set in the number
 	* \return The number of bits set to 1
 	*
@@ -160,7 +161,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Converts degree to radian
 	* \return The representation in radian of the angle in degree (0..2*pi)
 	*
@@ -174,7 +175,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the unit from degree and convert it according to NAZARA_MATH_ANGLE_RADIAN
 	* \return Express the degrees
 	*
@@ -192,7 +193,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the unit from radian and convert it according to NAZARA_MATH_ANGLE_RADIAN
 	* \return Express the radians
 	*
@@ -210,7 +211,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the nearest power of two for the number
 	* \return First power of two containing the number
 	*
@@ -229,7 +230,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits
 	*
@@ -257,7 +258,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits
 	*
@@ -279,7 +280,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits
 	*
@@ -295,7 +296,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits
 	*
@@ -312,7 +313,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits
 	*
@@ -328,7 +329,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits
 	*
@@ -345,7 +346,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits + 1 for the dot
 	*
@@ -360,7 +361,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits + 1 for the dot
 	*
@@ -375,7 +376,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the number of digits to represent the number in base 10
 	* \return Number of digits + 1 for the dot
 	*
@@ -390,7 +391,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the log in base 2 of integral number
 	* \return Log of the number (floor)
 	*
@@ -408,7 +409,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the log in base 2 of integral number, only works for power of two !
 	* \return Log of the number
 	*
@@ -426,7 +427,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the power of integrals
 	* \return base^exponent for integral
 	*
@@ -445,7 +446,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Interpolates the value to other one with a factor of interpolation
 	* \return A new value which is the interpolation of two values
 	*
@@ -466,7 +467,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Multiplies X and Y, then add Z
 	* \return The result of X * Y + Z
 	*
@@ -508,7 +509,7 @@ namespace Nz
 	#endif
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Normalizes the angle
 	* \return Normalized value between 0..2*(pi if radian or 180 if degrees)
 	*
@@ -534,7 +535,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Checks whether two numbers are equal
 	* \return true if they are equal within a certain epsilon
 	*
@@ -550,7 +551,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Checks whether two numbers are equal
 	* \return true if they are equal within the max difference
 	*
@@ -571,7 +572,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Converts the number to String
 	* \return String representation of the number
 	*
@@ -623,7 +624,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Converts radian to degree
 	* \return The representation in degree of the angle in radian (0..360)
 	*
@@ -637,7 +638,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Converts the string to number
 	* \return Number which is represented by the string
 	*
@@ -699,7 +700,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the degree from unit and convert it according to NAZARA_MATH_ANGLE_RADIAN
 	* \return Express in degrees
 	*
@@ -717,7 +718,7 @@ namespace Nz
 	}
 
 	/*!
-    * \ingroup math
+	* \ingroup math
 	* \brief Gets the radian from unit and convert it according to NAZARA_MATH_ANGLE_RADIAN
 	* \return Express in radians
 	*

src/Nazara/Graphics/Sprite.cpp

@@ -75,7 +75,7 @@ namespace Nz
 	}
 
 	/*!
-	* \brief Initializes the sprite librairies
+	* \brief Initializes the sprite library
 	* \return true If successful
 	*
 	* \remark Produces a NazaraError if the sprite library failed to be initialized
@@ -93,7 +93,7 @@ namespace Nz
 	}
 
 	/*!
-	* \brief Uninitializes the sprite librairies
+	* \brief Uninitializes the sprite library
 	*/
 
 	void Sprite::Uninitialize()

src/Nazara/Graphics/TileMap.cpp

@@ -90,6 +90,13 @@ namespace Nz
 		}
 	}
 
+	/*!
+	* \brief Initializes the tilemap library
+	* \return true If successful
+	*
+	* \remark Produces a NazaraError if the tilemap library failed to be initialized
+	*/
+
 	bool TileMap::Initialize()
 	{
 		if (!TileMapLibrary::Initialize())
@@ -101,6 +108,10 @@ namespace Nz
 		return true;
 	}
 
+	/*!
+	* \brief Uninitializes the tilemap library
+	*/
+
 	void TileMap::Uninitialize()
 	{
 		TileMapLibrary::Uninitialize();

src/Nazara/Network/Network.cpp

@@ -93,7 +93,7 @@ namespace Nz
 	}
 
 	/*!
-	* \brief Uninitializes the Core module
+	* \brief Uninitializes the Network module
 	*
 	* \remark Produces a NazaraNotice
 	*/