Unigine.vec2 Struct

vec2 Class

Properties

Vector2 vec#

float x#

float y#

float Length#

float Minimum#

float Maximum#

float Length2#

float ILength#

float Sum#

vec2 Absolute#

vec2 Clamped#

vec2 Normalized#

vec2 Frac#

vec2 Floor#

vec2 Ceil#

vec2 ZERO#

vec2 ONE#

vec2 NEG_ONE#

vec2 HALF#

vec2 EPS#

vec2 INF#

byte NUM_ELEMENTS#

vec2 xx#

vec2 xy#

vec2 yx#

vec2 yy#

vec3 xxx#

vec3 xxy#

vec3 xyx#

vec3 xyy#

vec3 yxx#

vec3 yxy#

vec3 yyx#

vec3 yyy#

vec4 xxxx#

vec4 xxxy#

vec4 xxyx#

vec4 xxyy#

vec4 xyxx#

vec4 xyxy#

vec4 xyyx#

vec4 xyyy#

vec4 yxxx#

vec4 yxxy#

vec4 yxyx#

vec4 yxyy#

vec4 yyxx#

vec4 yyxy#

vec4 yyyx#

vec4 yyyy#

float r#

float g#

vec2 rr#

vec2 rg#

vec2 gr#

vec2 gg#

vec3 rrr#

vec3 rrg#

vec3 rgr#

vec3 rgg#

vec3 grr#

vec3 grg#

vec3 ggr#

vec3 ggg#

vec4 rrrr#

vec4 rrrg#

vec4 rrgr#

vec4 rrgg#

vec4 rgrr#

vec4 rgrg#

vec4 rggr#

vec4 rggg#

vec4 grrr#

vec4 grrg#

vec4 grgr#

vec4 grgg#

vec4 ggrr#

vec4 ggrg#

vec4 gggr#

vec4 gggg#

Members

---

vec2 operator* ( vec2 v0, vec2 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

vec2 operator* ( vec2 v0, vec3 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• vec3 v1 - Second value.

vec2 operator* ( vec2 v0, vec4 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• vec4 v1 - Second value.

vec2 operator* ( vec2 v0, float v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• float v1 - Second value.

vec2 operator* ( float v0, vec2 v1 ) #

Multiplication.

Arguments

• float v0 - First value.
• vec2 v1 - Second value.

dvec2 operator* ( vec2 v0, dvec2 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• dvec2 v1 - Second value.

dvec2 operator* ( vec2 v0, dvec3 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• dvec3 v1 - Second value.

dvec2 operator* ( vec2 v0, dvec4 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• dvec4 v1 - Second value.

dvec2 operator* ( vec2 v0, double v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• double v1 - Second value.

dvec2 operator* ( double v0, vec2 v1 ) #

Multiplication.

Arguments

• double v0 - First value.
• vec2 v1 - Second value.

vec2 operator* ( vec2 v0, ivec2 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• ivec2 v1 - Second value.

vec2 operator* ( vec2 v0, ivec3 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• ivec3 v1 - Second value.

vec2 operator* ( vec2 v0, ivec4 v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• ivec4 v1 - Second value.

vec2 operator* ( vec2 v0, int v1 ) #

Multiplication.

Arguments

• vec2 v0 - First value.
• int v1 - Second value.

vec2 operator* ( int v0, vec2 v1 ) #

Multiplication.

Arguments

• int v0 - First value.
• vec2 v1 - Second value.

vec2 operator/ ( vec2 v0, vec2 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

vec2 operator/ ( vec2 v0, vec3 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• vec3 v1 - Second value.

vec2 operator/ ( vec2 v0, vec4 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• vec4 v1 - Second value.

vec2 operator/ ( vec2 v0, float v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• float v1 - Second value.

vec2 operator/ ( float v0, vec2 v1 ) #

Division.

Arguments

• float v0 - First value.
• vec2 v1 - Second value.

dvec2 operator/ ( vec2 v0, dvec2 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• dvec2 v1 - Second value.

dvec2 operator/ ( vec2 v0, dvec3 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• dvec3 v1 - Second value.

dvec2 operator/ ( vec2 v0, dvec4 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• dvec4 v1 - Second value.

dvec2 operator/ ( vec2 v0, double v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• double v1 - Second value.

dvec2 operator/ ( double v0, vec2 v1 ) #

Division.

Arguments

• double v0 - First value.
• vec2 v1 - Second value.

vec2 operator/ ( vec2 v0, ivec2 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• ivec2 v1 - Second value.

vec2 operator/ ( vec2 v0, ivec3 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• ivec3 v1 - Second value.

vec2 operator/ ( vec2 v0, ivec4 v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• ivec4 v1 - Second value.

vec2 operator/ ( vec2 v0, int v1 ) #

Division.

Arguments

• vec2 v0 - First value.
• int v1 - Second value.

vec2 operator/ ( int v0, vec2 v1 ) #

Division.

Arguments

• int v0 - First value.
• vec2 v1 - Second value.

vec2 operator- ( vec2 v0, vec2 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

vec2 operator- ( vec2 v0, vec3 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• vec3 v1 - Second value.

vec2 operator- ( vec2 v0, vec4 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• vec4 v1 - Second value.

vec2 operator- ( vec2 v0, float v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• float v1 - Second value.

vec2 operator- ( float v0, vec2 v1 ) #

Subtraction.

Arguments

• float v0 - First value.
• vec2 v1 - Second value.

dvec2 operator- ( vec2 v0, dvec2 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• dvec2 v1 - Second value.

dvec2 operator- ( vec2 v0, dvec3 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• dvec3 v1 - Second value.

dvec2 operator- ( vec2 v0, dvec4 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• dvec4 v1 - Second value.

dvec2 operator- ( vec2 v0, double v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• double v1 - Second value.

dvec2 operator- ( double v0, vec2 v1 ) #

Subtraction.

Arguments

• double v0 - First value.
• vec2 v1 - Second value.

vec2 operator- ( vec2 v0, ivec2 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• ivec2 v1 - Second value.

vec2 operator- ( vec2 v0, ivec3 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• ivec3 v1 - Second value.

vec2 operator- ( vec2 v0, ivec4 v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• ivec4 v1 - Second value.

vec2 operator- ( vec2 v0, int v1 ) #

Subtraction.

Arguments

• vec2 v0 - First value.
• int v1 - Second value.

vec2 operator- ( int v0, vec2 v1 ) #

Subtraction.

Arguments

• int v0 - First value.
• vec2 v1 - Second value.

vec2 operator+ ( vec2 v0, vec2 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

vec2 operator+ ( vec2 v0, vec3 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• vec3 v1 - Second value.

vec2 operator+ ( vec2 v0, vec4 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• vec4 v1 - Second value.

vec2 operator+ ( vec2 v0, float v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• float v1 - Second value.

vec2 operator+ ( float v0, vec2 v1 ) #

Addition.

Arguments

• float v0 - First value.
• vec2 v1 - Second value.

dvec2 operator+ ( vec2 v0, dvec2 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• dvec2 v1 - Second value.

dvec2 operator+ ( vec2 v0, dvec3 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• dvec3 v1 - Second value.

dvec2 operator+ ( vec2 v0, dvec4 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• dvec4 v1 - Second value.

dvec2 operator+ ( vec2 v0, double v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• double v1 - Second value.

dvec2 operator+ ( double v0, vec2 v1 ) #

Addition.

Arguments

• double v0 - First value.
• vec2 v1 - Second value.

vec2 operator+ ( vec2 v0, ivec2 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• ivec2 v1 - Second value.

vec2 operator+ ( vec2 v0, ivec3 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• ivec3 v1 - Second value.

vec2 operator+ ( vec2 v0, ivec4 v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• ivec4 v1 - Second value.

vec2 operator+ ( vec2 v0, int v1 ) #

Addition.

Arguments

• vec2 v0 - First value.
• int v1 - Second value.

vec2 operator+ ( int v0, vec2 v1 ) #

Addition.

Arguments

• int v0 - First value.
• vec2 v1 - Second value.

vec2 operator% ( vec2 v0, vec2 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

vec2 operator% ( vec2 v0, vec3 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• vec3 v1 - Second value.

vec2 operator% ( vec2 v0, vec4 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• vec4 v1 - Second value.

vec2 operator% ( vec2 v0, float v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• float v1 - Second value.

vec2 operator% ( float v0, vec2 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• float v0 - First value.
• vec2 v1 - Second value.

dvec2 operator% ( vec2 v0, dvec2 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• dvec2 v1 - Second value.

dvec2 operator% ( vec2 v0, dvec3 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• dvec3 v1 - Second value.

dvec2 operator% ( vec2 v0, dvec4 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• dvec4 v1 - Second value.

dvec2 operator% ( vec2 v0, double v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• double v1 - Second value.

dvec2 operator% ( double v0, vec2 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• double v0 - First value.
• vec2 v1 - Second value.

vec2 operator% ( vec2 v0, ivec2 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• ivec2 v1 - Second value.

vec2 operator% ( vec2 v0, ivec3 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• ivec3 v1 - Second value.

vec2 operator% ( vec2 v0, ivec4 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• ivec4 v1 - Second value.

vec2 operator% ( vec2 v0, int v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• vec2 v0 - First value.
• int v1 - Second value.

vec2 operator% ( int v0, vec2 v1 ) #

Modulo, gives the remainder of a division of two specified values.

Arguments

• int v0 - First value.
• vec2 v1 - Second value.

vec2 operator- ( vec2 v ) #

Subtraction.

Arguments

• vec2 v - Value.

vec2 operator+ ( vec2 v ) #

Addition.

Arguments

• vec2 v - Value.

vec2 operator++ ( vec2 v ) #

Increment.

Arguments

• vec2 v - Value.

vec2 operator-- ( vec2 v ) #

Decrement.

Arguments

• vec2 v - Value.

bool operator== ( vec2 v0, vec2 v1 ) #

Performs equal comparison.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

bool operator!= ( vec2 v0, vec2 v1 ) #

Not equal comparison.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

bool operator> ( vec2 v0, vec2 v1 ) #

Greater comparison.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

bool operator< ( vec2 v0, vec2 v1 ) #

Greater comparison.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

bool operator>= ( vec2 v0, vec2 v1 ) #

Greater than or equal to comparison.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

bool operator<= ( vec2 v0, vec2 v1 ) #

Less than or equal to comparison.

Arguments

• vec2 v0 - First value.
• vec2 v1 - Second value.

bool operatortrue ( vec2 v ) #

Returns true if the operand is both, not null and not NaN.

Arguments

• vec2 v - Value.

bool operatorfalse ( vec2 v ) #

Returns true if the operand is both, null and NaN.

Arguments

• vec2 v - Value.

void Set ( float vx, float vy ) #

Sets the value using the specified argument(s).

Arguments

• float vx - New float value to be set for the first component.
• float vy - New float value to be set for the second component.

void Set ( float v ) #

Sets the value using the specified argument(s).

Arguments

• float v - A float value to be used.

void Set ( float[] v ) #

Sets the value using the specified argument(s).

Arguments

• float[] v - Source vector.

void Set ( vec2 v ) #

Sets the value using the specified argument(s).

Arguments

• vec2 v - Source vector.

void Set ( vec3 v ) #

Sets the value using the specified argument(s).

Arguments

• vec3 v - Source vector.

void Set ( vec4 v ) #

Sets the value using the specified argument(s).

Arguments

• vec4 v - Source vector.

void Set ( Vector2 v ) #

Sets the value using the specified argument(s).

Arguments

• Vector2 v - Source vector.

void Set ( double vx, double vy ) #

Sets the value using the specified argument(s).

Arguments

• double vx - New double value to be set for the first component.
• double vy - New double value to be set for the second component.

void Set ( double v ) #

Sets the value using the specified argument(s).

Arguments

• double v - A double value to be used.

void Set ( double[] v ) #

Sets the value using the specified argument(s).

Arguments

• double[] v - Source vector.

void Set ( dvec2 v ) #

Sets the value using the specified argument(s).

Arguments

• dvec2 v - Source vector.

void Set ( dvec3 v ) #

Sets the value using the specified argument(s).

Arguments

• dvec3 v - Source vector.

void Set ( dvec4 v ) #

Sets the value using the specified argument(s).

Arguments

• dvec4 v - Source vector.

void Set ( int vx, int vy ) #

Sets the value using the specified argument(s).

Arguments

• int vx - New int value to be set for the first component.
• int vy - New int value to be set for the second component.

void Set ( int v ) #

Sets the value using the specified argument(s).

Arguments

• int v - A int value to be used.

void Set ( int[] v ) #

Sets the value using the specified argument(s).

Arguments

• int[] v - Source vector.

void Set ( ivec2 v ) #

Sets the value using the specified argument(s).

Arguments

• ivec2 v - Source vector.

void Set ( ivec3 v ) #

Sets the value using the specified argument(s).

Arguments

• ivec3 v - Source vector.

void Set ( ivec4 v ) #

Sets the value using the specified argument(s).

Arguments

• ivec4 v - Source vector.

void Set ( byte vx, byte vy ) #

Sets the value using the specified argument(s).

Arguments

• byte vx - New byte value to be set for the first component.
• byte vy - New byte value to be set for the second component.

void Set ( byte v ) #

Sets the value using the specified argument(s).

Arguments

• byte v - A byte value to be used.

void Set ( byte[] v ) #

Sets the value using the specified argument(s).

Arguments

• byte[] v - Source vector.

void Set ( bvec4 v ) #

Sets the value using the specified argument(s).

Arguments

• bvec4 v - Source vector.

void Clear ( ) #

Clears the value by setting all components/elements to 0.

void Add ( vec2 v ) #

Performs addition of the specified argument.

Arguments

• vec2 v - Value.

void Add ( float v ) #

Performs addition of the specified argument.

Arguments

• float v - Value.

void Sub ( vec2 v ) #

Subtracts each element of the specified argument from ther corresponding element.

Arguments

• vec2 v - Value.

void Sub ( float v ) #

Subtracts each element of the specified argument from ther corresponding element.

Arguments

• float v - Value.

void Mul ( vec2 v ) #

Multiplies the vector by the value of the specified argument.

Arguments

• vec2 v - Vector multiplier.

void Mul ( float v ) #

Multiplies the vector by the value of the specified argument.

Arguments

• float v - A float multiplier.

void Div ( vec2 v ) #

Returns the result of division of the vector by the value of the specified arguments.

Arguments

• vec2 v - A vec2 divisor value.

void Div ( float v ) #

Returns the result of division of the vector by the value of the specified arguments.

Arguments

• float v - A float divisor value.

void Normalize ( ) #

Returns a vector with the same direction, but with a length of 1.

bool Equals ( vec2 other ) #

Checks if the vector and the specified argument are equal (epsilon).

Arguments

• vec2 other - Value to be checked for equality.

Return value

Return value.

bool EqualsNearly ( vec2 other, float epsilon ) #

Checks if the argument represents the same value with regard to the specified accuracy (epsilon).

Arguments

• vec2 other - Value to be checked for equality.
• float epsilon - Epsilon value, that determines accuracy of comparison.

Return value

Return value.

bool Equals ( object obj ) #

Checks if the vector and the specified argument are equal (epsilon).

Arguments

• object obj

Return value

Return value.

int GetHashCode ( ) #

Returns a hash code for the current object. Serves as the default hash function.

Return value

Resulting int value.

string ToString ( ) #

Converts the current value to a string value.

Return value

Resulting string value.

string ToString ( string format ) #

Converts the current value to a string value.

Arguments

• string format - String formatting to be used. A format string is composed of zero or more ordinary characters (excluding %) that are copied directly to the result string and control sequences, each of which results in fetching its own parameter. Each control sequence consists of a percent sign (%) followed by one or more of these elements, in order:
  • An optional number, a width specifier, that says how many characters (minimum) this conversion should result in.
  • An optional precision specifier that says how many decimal digits should be displayed for floating-point numbers.
  • A type specifier that says what type the argument data should be treated as. Possible types:
    • c: the argument is treated as an integer and presented as a character with that ASCII value.
    • d or i: the argument is treated as an integer and presented as a (signed) decimal number.
    • o: the argument is treated as an integer and presented as an octal number.
    • u: the argument is treated as an integer and presented as an unsigned decimal number.
    • x: the argument is treated as an integer and presented as a hexadecimal number (with lower-case letters).
    • X: the argument is treated as an integer and presented as a hexadecimal number (with upper-case letters).
    • f: the argument is treated as a float and presented as a floating-point number.
    • g: the same as e or f, the shortest one is selected.
    • G: the same as E or F, the shortest one is selected.
    • e: the argument is treated as using the scientific notation with lower-case 'e' (e.g. 1.2e+2).
    • E: the argument is treated as using the scientific notation with upper-case 'E' (e.g. 1.2E+2).
    • s: the argument is treated as and presented as a string.
    • p: the argument is treated as and presented as a pointer address.
    • %: a literal percent character. No argument is required.

Return value

Resulting string value.

string ToString ( string format, IFormatProvider formatProvider ) #

Converts the current value to a string value.

Arguments

• string format - String formatting to be used. A format string is composed of zero or more ordinary characters (excluding %) that are copied directly to the result string and control sequences, each of which results in fetching its own parameter. Each control sequence consists of a percent sign (%) followed by one or more of these elements, in order:
  • An optional number, a width specifier, that says how many characters (minimum) this conversion should result in.
  • An optional precision specifier that says how many decimal digits should be displayed for floating-point numbers.
  • A type specifier that says what type the argument data should be treated as. Possible types:
    • c: the argument is treated as an integer and presented as a character with that ASCII value.
    • d or i: the argument is treated as an integer and presented as a (signed) decimal number.
    • o: the argument is treated as an integer and presented as an octal number.
    • u: the argument is treated as an integer and presented as an unsigned decimal number.
    • x: the argument is treated as an integer and presented as a hexadecimal number (with lower-case letters).
    • X: the argument is treated as an integer and presented as a hexadecimal number (with upper-case letters).
    • f: the argument is treated as a float and presented as a floating-point number.
    • g: the same as e or f, the shortest one is selected.
    • G: the same as E or F, the shortest one is selected.
    • e: the argument is treated as using the scientific notation with lower-case 'e' (e.g. 1.2e+2).
    • E: the argument is treated as using the scientific notation with upper-case 'E' (e.g. 1.2E+2).
    • s: the argument is treated as and presented as a string.
    • p: the argument is treated as and presented as a pointer address.
    • %: a literal percent character. No argument is required.
• IFormatProvider formatProvider - Provider to be used to format the value. Pass a null reference to obtain the numeric format information from the current locale setting of the operating system.

Return value

Resulting string value.

IEnumerator<float> GetEnumerator ( ) #

Returns an IEnumerator for the object.

Return value

Return value.

IEnumerator GetEnumerator ( ) #

Returns an IEnumerator for the object.

Return value

Return value.