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This section contains various functions used to perform computations on 16.16 fixed-float numbers or 2d vectors.
Defined in FT_FREETYPE_H (freetype/freetype.h).
FT_EXPORT( FT_Long ) FT_MulDiv( FT_Long a, FT_Long b, FT_Long c );
A very simple function used to perform the computation ‘(a*b)/c’ with maximum accuracy (it uses a 64-bit intermediate integer whenever necessary).
This function isn't necessarily as fast as some processor specific operations, but is at least completely portable.
| a |
The first multiplier. |
| b |
The second multiplier. |
| c |
The divisor. |
The result of ‘(a*b)/c’. This function never traps when trying to divide by zero; it simply returns ‘MaxInt’ or ‘MinInt’ depending on the signs of ‘a’ and ‘b’.
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Defined in FT_FREETYPE_H (freetype/freetype.h).
FT_EXPORT( FT_Long ) FT_MulFix( FT_Long a, FT_Long b );
A very simple function used to perform the computation ‘(a*b)/0x10000’ with maximum accuracy. Most of the time this is used to multiply a given value by a 16.16 fixed-point factor.
| a |
The first multiplier. |
| b |
The second multiplier. Use a 16.16 factor here whenever possible (see note below). |
The result of ‘(a*b)/0x10000’.
This function has been optimized for the case where the absolute value of ‘a’ is less than 2048, and ‘b’ is a 16.16 scaling factor. As this happens mainly when scaling from notional units to fractional pixels in FreeType, it resulted in noticeable speed improvements between versions 2.x and 1.x.
As a conclusion, always try to place a 16.16 factor as the second argument of this function; this can make a great difference.
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Defined in FT_FREETYPE_H (freetype/freetype.h).
FT_EXPORT( FT_Long ) FT_DivFix( FT_Long a, FT_Long b );
A very simple function used to perform the computation ‘(a*0x10000)/b’ with maximum accuracy. Most of the time, this is used to divide a given value by a 16.16 fixed-point factor.
| a |
The numerator. |
| b |
The denominator. Use a 16.16 factor here. |
The result of ‘(a*0x10000)/b’.
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Defined in FT_FREETYPE_H (freetype/freetype.h).
FT_EXPORT( FT_Fixed ) FT_RoundFix( FT_Fixed a );
A very simple function used to round a 16.16 fixed number.
| a |
The number to be rounded. |
‘a’ rounded to nearest 16.16 fixed integer, halfway cases away from zero.
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Defined in FT_FREETYPE_H (freetype/freetype.h).
FT_EXPORT( FT_Fixed ) FT_CeilFix( FT_Fixed a );
A very simple function used to compute the ceiling function of a 16.16 fixed number.
| a |
The number for which the ceiling function is to be computed. |
‘a’ rounded towards plus infinity.
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Defined in FT_FREETYPE_H (freetype/freetype.h).
FT_EXPORT( FT_Fixed ) FT_FloorFix( FT_Fixed a );
A very simple function used to compute the floor function of a 16.16 fixed number.
| a |
The number for which the floor function is to be computed. |
‘a’ rounded towards minus infinity.
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Defined in FT_FREETYPE_H (freetype/freetype.h).
FT_EXPORT( void ) FT_Vector_Transform( FT_Vector* vec, const FT_Matrix* matrix );
Transform a single vector through a 2x2 matrix.
| vector |
The target vector to transform. |
| matrix |
A pointer to the source 2x2 matrix. |
The result is undefined if either ‘vector’ or ‘matrix’ is invalid.
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Defined in FT_GLYPH_H (freetype/ftglyph.h).
FT_EXPORT( void ) FT_Matrix_Multiply( const FT_Matrix* a, FT_Matrix* b );
Perform the matrix operation ‘b = a*b’.
| a |
A pointer to matrix ‘a’. |
| b |
A pointer to matrix ‘b’. |
The result is undefined if either ‘a’ or ‘b’ is zero.
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Defined in FT_GLYPH_H (freetype/ftglyph.h).
FT_EXPORT( FT_Error ) FT_Matrix_Invert( FT_Matrix* matrix );
Invert a 2x2 matrix. Return an error if it can't be inverted.
| matrix |
A pointer to the target matrix. Remains untouched in case of error. |
FreeType error code. 0 means success.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
typedef FT_Fixed FT_Angle;
This type is used to model angle values in FreeType. Note that the angle is a 16.16 fixed-point value expressed in degrees.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
#define FT_ANGLE_PI ( 180L << 16 )
The angle pi expressed in FT_Angle units.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
#define FT_ANGLE_2PI ( FT_ANGLE_PI * 2 )
The angle 2*pi expressed in FT_Angle units.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
#define FT_ANGLE_PI2 ( FT_ANGLE_PI / 2 )
The angle pi/2 expressed in FT_Angle units.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
#define FT_ANGLE_PI4 ( FT_ANGLE_PI / 4 )
The angle pi/4 expressed in FT_Angle units.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( FT_Fixed ) FT_Sin( FT_Angle angle );
Return the sinus of a given angle in fixed-point format.
| angle |
The input angle. |
The sinus value.
If you need both the sinus and cosinus for a given angle, use the function FT_Vector_Unit.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( FT_Fixed ) FT_Cos( FT_Angle angle );
Return the cosinus of a given angle in fixed-point format.
| angle |
The input angle. |
The cosinus value.
If you need both the sinus and cosinus for a given angle, use the function FT_Vector_Unit.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( FT_Fixed ) FT_Tan( FT_Angle angle );
Return the tangent of a given angle in fixed-point format.
| angle |
The input angle. |
The tangent value.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( FT_Angle ) FT_Atan2( FT_Fixed x, FT_Fixed y );
Return the arc-tangent corresponding to a given vector (x,y) in the 2d plane.
| x |
The horizontal vector coordinate. |
| y |
The vertical vector coordinate. |
The arc-tangent value (i.e. angle).
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( FT_Angle ) FT_Angle_Diff( FT_Angle angle1, FT_Angle angle2 );
Return the difference between two angles. The result is always constrained to the ]-PI..PI] interval.
| angle1 |
First angle. |
| angle2 |
Second angle. |
Constrained value of ‘value2-value1’.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( void ) FT_Vector_Unit( FT_Vector* vec, FT_Angle angle );
Return the unit vector corresponding to a given angle. After the call, the value of ‘vec.x’ will be ‘cos(angle)’, and the value of ‘vec.y’ will be ‘sin(angle)’.
This function is useful to retrieve both the sinus and cosinus of a given angle quickly.
| vec |
The address of target vector. |
| angle |
The input angle. |
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( void ) FT_Vector_Rotate( FT_Vector* vec, FT_Angle angle );
Rotate a vector by a given angle.
| vec |
The address of target vector. |
| angle |
The input angle. |
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( FT_Fixed ) FT_Vector_Length( FT_Vector* vec );
Return the length of a given vector.
| vec |
The address of target vector. |
The vector length, expressed in the same units that the original vector coordinates.
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( void ) FT_Vector_Polarize( FT_Vector* vec, FT_Fixed *length, FT_Angle *angle );
Compute both the length and angle of a given vector.
| vec |
The address of source vector. |
| length |
The vector length. |
| angle |
The vector angle. |
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Defined in FT_TRIGONOMETRY_H (freetype/fttrigon.h).
FT_EXPORT( void ) FT_Vector_From_Polar( FT_Vector* vec, FT_Fixed length, FT_Angle angle );
Compute vector coordinates from a length and angle.
| vec |
The address of source vector. |
| length |
The vector length. |
| angle |
The vector angle. |
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