diff --git a/bin/OpenMetaverseTypes.XML b/bin/OpenMetaverseTypes.XML index 4f5b6b4434..52804852c2 100644 --- a/bin/OpenMetaverseTypes.XML +++ b/bin/OpenMetaverseTypes.XML @@ -4,6 +4,377 @@ OpenMetaverseTypes + + For thread safety + + + For thread safety + + + + Purges expired objects from the cache. Called automatically by the purge timer. + + + + + Determines the appropriate events to set, leaves the locks, and sets the events. + + + + + A routine for lazily creating a event outside the lock (so if errors + happen they are outside the lock and that we don't do much work + while holding a spin lock). If all goes well, reenter the lock and + set 'waitEvent' + + + + + Waits on 'waitEvent' with a timeout of 'millisceondsTimeout. + Before the wait 'numWaiters' is incremented and is restored before leaving this routine. + + + + X value + + + Y value + + + Z value + + + W value + + + + Build a quaternion from normalized float values + + X value from -1.0 to 1.0 + Y value from -1.0 to 1.0 + Z value from -1.0 to 1.0 + + + + Constructor, builds a quaternion object from a byte array + + Byte array containing four four-byte floats + Offset in the byte array to start reading at + Whether the source data is normalized or + not. If this is true 12 bytes will be read, otherwise 16 bytes will + be read. + + + + Normalizes the quaternion + + + + + Builds a quaternion object from a byte array + + The source byte array + Offset in the byte array to start reading at + Whether the source data is normalized or + not. If this is true 12 bytes will be read, otherwise 16 bytes will + be read. + + + + Normalize this quaternion and serialize it to a byte array + + A 12 byte array containing normalized X, Y, and Z floating + point values in order using little endian byte ordering + + + + Writes the raw bytes for this quaternion to a byte array + + Destination byte array + Position in the destination array to start + writing. Must be at least 12 bytes before the end of the array + + + + Convert this quaternion to euler angles + + X euler angle + Y euler angle + Z euler angle + + + + Convert this quaternion to an angle around an axis + + Unit vector describing the axis + Angle around the axis, in radians + + + + Returns the conjugate (spatial inverse) of a quaternion + + + + + Build a quaternion from an axis and an angle of rotation around + that axis + + + + + Build a quaternion from an axis and an angle of rotation around + that axis + + Axis of rotation + Angle of rotation + + + + Creates a quaternion from a vector containing roll, pitch, and yaw + in radians + + Vector representation of the euler angles in + radians + Quaternion representation of the euler angles + + + + Creates a quaternion from roll, pitch, and yaw euler angles in + radians + + X angle in radians + Y angle in radians + Z angle in radians + Quaternion representation of the euler angles + + + + Conjugates and renormalizes a vector + + + + + Spherical linear interpolation between two quaternions + + + + + Get a string representation of the quaternion elements with up to three + decimal digits and separated by spaces only + + Raw string representation of the quaternion + + + A quaternion with a value of 0,0,0,1 + + + + A three-dimensional vector with doubleing-point values + + + + X value + + + Y value + + + Z value + + + + Constructor, builds a vector from a byte array + + Byte array containing three eight-byte doubles + Beginning position in the byte array + + + + Test if this vector is equal to another vector, within a given + tolerance range + + Vector to test against + The acceptable magnitude of difference + between the two vectors + True if the magnitude of difference between the two vectors + is less than the given tolerance, otherwise false + + + + IComparable.CompareTo implementation + + + + + Test if this vector is composed of all finite numbers + + + + + Builds a vector from a byte array + + Byte array containing a 24 byte vector + Beginning position in the byte array + + + + Returns the raw bytes for this vector + + A 24 byte array containing X, Y, and Z + + + + Writes the raw bytes for this vector to a byte array + + Destination byte array + Position in the destination array to start + writing. Must be at least 24 bytes before the end of the array + + + + Parse a vector from a string + + A string representation of a 3D vector, enclosed + in arrow brackets and separated by commas + + + + Interpolates between two vectors using a cubic equation + + + + + Get a formatted string representation of the vector + + A string representation of the vector + + + + Get a string representation of the vector elements with up to three + decimal digits and separated by spaces only + + Raw string representation of the vector + + + + Cross product between two vectors + + + + + Implicit casting for Vector3 > Vector3d + + + + + + A vector with a value of 0,0,0 + + + A vector with a value of 1,1,1 + + + A unit vector facing forward (X axis), value of 1,0,0 + + + A unit vector facing left (Y axis), value of 0,1,0 + + + A unit vector facing up (Z axis), value of 0,0,1 + + + + A thread-safe lockless queue that supports multiple readers and + multiple writers + + + + Queue head + + + Queue tail + + + Queue item count + + + + Constructor + + + + + Enqueue an item + + Item to enqeue + + + + Try to dequeue an item + + Dequeued item if the dequeue was successful + True if an item was successfully deqeued, otherwise false + + + Gets the current number of items in the queue. Since this + is a lockless collection this value should be treated as a close + estimate + + + + Provides a node container for data in a singly linked list + + + + Pointer to the next node in list + + + The data contained by the node + + + + Constructor + + + + + Constructor + + + + + Convert this matrix to euler rotations + + X euler angle + Y euler angle + Z euler angle + + + + Convert this matrix to a quaternion rotation + + A quaternion representation of this rotation matrix + + + + Construct a matrix from euler rotation values in radians + + X euler angle in radians + Y euler angle in radians + Z euler angle in radians + + + + Get a formatted string representation of the vector + + A string representation of the vector + + + A 4x4 matrix containing all zeroes + + + A 4x4 identity matrix + Used for converting degrees to radians @@ -605,437 +976,6 @@ Mono runtime: http://www.mono-project.com/ - - - Convert this matrix to euler rotations - - X euler angle - Y euler angle - Z euler angle - - - - Convert this matrix to a quaternion rotation - - A quaternion representation of this rotation matrix - - - - Construct a matrix from euler rotation values in radians - - X euler angle in radians - Y euler angle in radians - Z euler angle in radians - - - - Get a formatted string representation of the vector - - A string representation of the vector - - - A 4x4 matrix containing all zeroes - - - A 4x4 identity matrix - - - - Same as Queue except Dequeue function blocks until there is an object to return. - Note: This class does not need to be synchronized - - - - - Create new BlockingQueue. - - The System.Collections.ICollection to copy elements from - - - - Create new BlockingQueue. - - The initial number of elements that the queue can contain - - - - Create new BlockingQueue. - - - - - BlockingQueue Destructor (Close queue, resume any waiting thread). - - - - - Remove all objects from the Queue. - - - - - Remove all objects from the Queue, resume all dequeue threads. - - - - - Removes and returns the object at the beginning of the Queue. - - Object in queue. - - - - Removes and returns the object at the beginning of the Queue. - - time to wait before returning - Object in queue. - - - - Removes and returns the object at the beginning of the Queue. - - time to wait before returning (in milliseconds) - Object in queue. - - - - Adds an object to the end of the Queue - - Object to put in queue - - - - Open Queue. - - - - - Gets flag indicating if queue has been closed. - - - - X value - - - Y value - - - Z value - - - W value - - - - Constructor, builds a vector from a byte array - - Byte array containing four four-byte floats - Beginning position in the byte array - - - - Test if this vector is equal to another vector, within a given - tolerance range - - Vector to test against - The acceptable magnitude of difference - between the two vectors - True if the magnitude of difference between the two vectors - is less than the given tolerance, otherwise false - - - - IComparable.CompareTo implementation - - - - - Test if this vector is composed of all finite numbers - - - - - Builds a vector from a byte array - - Byte array containing a 16 byte vector - Beginning position in the byte array - - - - Returns the raw bytes for this vector - - A 16 byte array containing X, Y, Z, and W - - - - Writes the raw bytes for this vector to a byte array - - Destination byte array - Position in the destination array to start - writing. Must be at least 16 bytes before the end of the array - - - - Get a string representation of the vector elements with up to three - decimal digits and separated by spaces only - - Raw string representation of the vector - - - A vector with a value of 0,0,0,0 - - - A vector with a value of 1,1,1,1 - - - A vector with a value of 1,0,0,0 - - - A vector with a value of 0,1,0,0 - - - A vector with a value of 0,0,1,0 - - - A vector with a value of 0,0,0,1 - - - - A three-dimensional vector with doubleing-point values - - - - X value - - - Y value - - - Z value - - - - Constructor, builds a vector from a byte array - - Byte array containing three eight-byte doubles - Beginning position in the byte array - - - - Test if this vector is equal to another vector, within a given - tolerance range - - Vector to test against - The acceptable magnitude of difference - between the two vectors - True if the magnitude of difference between the two vectors - is less than the given tolerance, otherwise false - - - - IComparable.CompareTo implementation - - - - - Test if this vector is composed of all finite numbers - - - - - Builds a vector from a byte array - - Byte array containing a 24 byte vector - Beginning position in the byte array - - - - Returns the raw bytes for this vector - - A 24 byte array containing X, Y, and Z - - - - Writes the raw bytes for this vector to a byte array - - Destination byte array - Position in the destination array to start - writing. Must be at least 24 bytes before the end of the array - - - - Parse a vector from a string - - A string representation of a 3D vector, enclosed - in arrow brackets and separated by commas - - - - Interpolates between two vectors using a cubic equation - - - - - Get a formatted string representation of the vector - - A string representation of the vector - - - - Get a string representation of the vector elements with up to three - decimal digits and separated by spaces only - - Raw string representation of the vector - - - - Cross product between two vectors - - - - - Implicit casting for Vector3 > Vector3d - - - - - - A vector with a value of 0,0,0 - - - A vector with a value of 1,1,1 - - - A unit vector facing forward (X axis), value of 1,0,0 - - - A unit vector facing left (Y axis), value of 0,1,0 - - - A unit vector facing up (Z axis), value of 0,0,1 - - - - A three-dimensional vector with floating-point values - - - - X value - - - Y value - - - Z value - - - - Constructor, builds a vector from a byte array - - Byte array containing three four-byte floats - Beginning position in the byte array - - - - Test if this vector is equal to another vector, within a given - tolerance range - - Vector to test against - The acceptable magnitude of difference - between the two vectors - True if the magnitude of difference between the two vectors - is less than the given tolerance, otherwise false - - - - IComparable.CompareTo implementation - - - - - Test if this vector is composed of all finite numbers - - - - - Builds a vector from a byte array - - Byte array containing a 12 byte vector - Beginning position in the byte array - - - - Returns the raw bytes for this vector - - A 12 byte array containing X, Y, and Z - - - - Writes the raw bytes for this vector to a byte array - - Destination byte array - Position in the destination array to start - writing. Must be at least 12 bytes before the end of the array - - - - Parse a vector from a string - - A string representation of a 3D vector, enclosed - in arrow brackets and separated by commas - - - - Calculate the rotation between two vectors - - Normalized directional vector (such as 1,0,0 for forward facing) - Normalized target vector - - - - Interpolates between two vectors using a cubic equation - - - - - Get a formatted string representation of the vector - - A string representation of the vector - - - - Get a string representation of the vector elements with up to three - decimal digits and separated by spaces only - - Raw string representation of the vector - - - - Cross product between two vectors - - - - - Explicit casting for Vector3d > Vector3 - - - - - - A vector with a value of 0,0,0 - - - A vector with a value of 1,1,1 - - - A unit vector facing forward (X axis), value 1,0,0 - - - A unit vector facing left (Y axis), value 0,1,0 - - - A unit vector facing up (Z axis), value 0,0,1 - Identifier code for primitive types @@ -1615,6 +1555,92 @@ Use convex hull represantion of this prim + + X value + + + Y value + + + Z value + + + W value + + + + Constructor, builds a vector from a byte array + + Byte array containing four four-byte floats + Beginning position in the byte array + + + + Test if this vector is equal to another vector, within a given + tolerance range + + Vector to test against + The acceptable magnitude of difference + between the two vectors + True if the magnitude of difference between the two vectors + is less than the given tolerance, otherwise false + + + + IComparable.CompareTo implementation + + + + + Test if this vector is composed of all finite numbers + + + + + Builds a vector from a byte array + + Byte array containing a 16 byte vector + Beginning position in the byte array + + + + Returns the raw bytes for this vector + + A 16 byte array containing X, Y, Z, and W + + + + Writes the raw bytes for this vector to a byte array + + Destination byte array + Position in the destination array to start + writing. Must be at least 16 bytes before the end of the array + + + + Get a string representation of the vector elements with up to three + decimal digits and separated by spaces only + + Raw string representation of the vector + + + A vector with a value of 0,0,0,0 + + + A vector with a value of 1,1,1,1 + + + A vector with a value of 1,0,0,0 + + + A vector with a value of 0,1,0,0 + + + A vector with a value of 0,0,1,0 + + + A vector with a value of 0,0,0,1 + An 8-bit color structure including an alpha channel @@ -1748,18 +1774,34 @@ A Color4 with full RGB values (1.0) and fully opaque (alpha 1.0) - + - A two-dimensional vector with floating-point values + Copy constructor + + Circular queue to copy + + + + A three-dimensional vector with floating-point values - + X value - + Y value - + + Z value + + + + Constructor, builds a vector from a byte array + + Byte array containing three four-byte floats + Beginning position in the byte array + + Test if this vector is equal to another vector, within a given tolerance range @@ -1770,73 +1812,277 @@ True if the magnitude of difference between the two vectors is less than the given tolerance, otherwise false - - - Test if this vector is composed of all finite numbers - - - + IComparable.CompareTo implementation - + + + Test if this vector is composed of all finite numbers + + + Builds a vector from a byte array - Byte array containing two four-byte floats + Byte array containing a 12 byte vector Beginning position in the byte array - + Returns the raw bytes for this vector - An eight-byte array containing X and Y + A 12 byte array containing X, Y, and Z - + Writes the raw bytes for this vector to a byte array Destination byte array Position in the destination array to start - writing. Must be at least 8 bytes before the end of the array + writing. Must be at least 12 bytes before the end of the array - + Parse a vector from a string - A string representation of a 2D vector, enclosed + A string representation of a 3D vector, enclosed in arrow brackets and separated by commas - + + + Calculate the rotation between two vectors + + Normalized directional vector (such as 1,0,0 for forward facing) + Normalized target vector + + Interpolates between two vectors using a cubic equation - + Get a formatted string representation of the vector A string representation of the vector - + Get a string representation of the vector elements with up to three decimal digits and separated by spaces only Raw string representation of the vector - - A vector with a value of 0,0 + + + Cross product between two vectors + - - A vector with a value of 1,1 + + + Explicit casting for Vector3d > Vector3 + + + - - A vector with a value of 1,0 + + A vector with a value of 0,0,0 - - A vector with a value of 0,1 + + A vector with a value of 1,1,1 + + + A unit vector facing forward (X axis), value 1,0,0 + + + A unit vector facing left (Y axis), value 0,1,0 + + + A unit vector facing up (Z axis), value 0,0,1 + + + + A 128-bit Universally Unique Identifier, used throughout the Second + Life networking protocol + + + + The System.Guid object this struct wraps around + + + + Constructor that takes a string UUID representation + + A string representation of a UUID, case + insensitive and can either be hyphenated or non-hyphenated + UUID("11f8aa9c-b071-4242-836b-13b7abe0d489") + + + + Constructor that takes a System.Guid object + + A Guid object that contains the unique identifier + to be represented by this UUID + + + + Constructor that takes a byte array containing a UUID + + Byte array containing a 16 byte UUID + Beginning offset in the array + + + + Constructor that takes an unsigned 64-bit unsigned integer to + convert to a UUID + + 64-bit unsigned integer to convert to a UUID + + + + Copy constructor + + UUID to copy + + + + IComparable.CompareTo implementation + + + + + Assigns this UUID from 16 bytes out of a byte array + + Byte array containing the UUID to assign this UUID to + Starting position of the UUID in the byte array + + + + Returns a copy of the raw bytes for this UUID + + A 16 byte array containing this UUID + + + + Writes the raw bytes for this UUID to a byte array + + Destination byte array + Position in the destination array to start + writing. Must be at least 16 bytes before the end of the array + + + + Calculate an LLCRC (cyclic redundancy check) for this UUID + + The CRC checksum for this UUID + + + + Create a 64-bit integer representation from the second half of this UUID + + An integer created from the last eight bytes of this UUID + + + + Generate a UUID from a string + + A string representation of a UUID, case + insensitive and can either be hyphenated or non-hyphenated + UUID.Parse("11f8aa9c-b071-4242-836b-13b7abe0d489") + + + + Generate a UUID from a string + + A string representation of a UUID, case + insensitive and can either be hyphenated or non-hyphenated + Will contain the parsed UUID if successful, + otherwise null + True if the string was successfully parse, otherwise false + UUID.TryParse("11f8aa9c-b071-4242-836b-13b7abe0d489", result) + + + + Combine two UUIDs together by taking the MD5 hash of a byte array + containing both UUIDs + + First UUID to combine + Second UUID to combine + The UUID product of the combination + + + + + + + + + + Return a hash code for this UUID, used by .NET for hash tables + + An integer composed of all the UUID bytes XORed together + + + + Comparison function + + An object to compare to this UUID + True if the object is a UUID and both UUIDs are equal + + + + Comparison function + + UUID to compare to + True if the UUIDs are equal, otherwise false + + + + Get a hyphenated string representation of this UUID + + A string representation of this UUID, lowercase and + with hyphens + 11f8aa9c-b071-4242-836b-13b7abe0d489 + + + + Equals operator + + First UUID for comparison + Second UUID for comparison + True if the UUIDs are byte for byte equal, otherwise false + + + + Not equals operator + + First UUID for comparison + Second UUID for comparison + True if the UUIDs are not equal, otherwise true + + + + XOR operator + + First UUID + Second UUID + A UUID that is a XOR combination of the two input UUIDs + + + + String typecasting operator + + A UUID in string form. Case insensitive, + hyphenated or non-hyphenated + A UUID built from the string representation + + + An UUID with a value of all zeroes + + + A cache of UUID.Zero as a string to optimize a common path @@ -1930,149 +2176,95 @@ return false regardless of the content of this bucket - + + + A two-dimensional vector with floating-point values + + + X value - + Y value - - Z value - - - W value - - + - Build a quaternion from normalized float values + Test if this vector is equal to another vector, within a given + tolerance range - X value from -1.0 to 1.0 - Y value from -1.0 to 1.0 - Z value from -1.0 to 1.0 + Vector to test against + The acceptable magnitude of difference + between the two vectors + True if the magnitude of difference between the two vectors + is less than the given tolerance, otherwise false - + - Constructor, builds a quaternion object from a byte array - - Byte array containing four four-byte floats - Offset in the byte array to start reading at - Whether the source data is normalized or - not. If this is true 12 bytes will be read, otherwise 16 bytes will - be read. - - - - Normalizes the quaternion + Test if this vector is composed of all finite numbers - + - Builds a quaternion object from a byte array + IComparable.CompareTo implementation - The source byte array - Offset in the byte array to start reading at - Whether the source data is normalized or - not. If this is true 12 bytes will be read, otherwise 16 bytes will - be read. - + - Normalize this quaternion and serialize it to a byte array + Builds a vector from a byte array - A 12 byte array containing normalized X, Y, and Z floating - point values in order using little endian byte ordering + Byte array containing two four-byte floats + Beginning position in the byte array - + - Writes the raw bytes for this quaternion to a byte array + Returns the raw bytes for this vector + + An eight-byte array containing X and Y + + + + Writes the raw bytes for this vector to a byte array Destination byte array Position in the destination array to start - writing. Must be at least 12 bytes before the end of the array + writing. Must be at least 8 bytes before the end of the array - + - Convert this quaternion to euler angles + Parse a vector from a string - X euler angle - Y euler angle - Z euler angle + A string representation of a 2D vector, enclosed + in arrow brackets and separated by commas - + - Convert this quaternion to an angle around an axis - - Unit vector describing the axis - Angle around the axis, in radians - - - - Returns the conjugate (spatial inverse) of a quaternion + Interpolates between two vectors using a cubic equation - + - Build a quaternion from an axis and an angle of rotation around - that axis + Get a formatted string representation of the vector + A string representation of the vector - + - Build a quaternion from an axis and an angle of rotation around - that axis - - Axis of rotation - Angle of rotation - - - - Creates a quaternion from a vector containing roll, pitch, and yaw - in radians - - Vector representation of the euler angles in - radians - Quaternion representation of the euler angles - - - - Creates a quaternion from roll, pitch, and yaw euler angles in - radians - - X angle in radians - Y angle in radians - Z angle in radians - Quaternion representation of the euler angles - - - - Conjugates and renormalizes a vector - - - - - Spherical linear interpolation between two quaternions - - - - - Get a string representation of the quaternion elements with up to three + Get a string representation of the vector elements with up to three decimal digits and separated by spaces only - Raw string representation of the quaternion + Raw string representation of the vector - - A quaternion with a value of 0,0,0,1 + + A vector with a value of 0,0 - - For thread safety + + A vector with a value of 1,1 - - For thread safety + + A vector with a value of 1,0 - - - Purges expired objects from the cache. Called automatically by the purge timer. - + + A vector with a value of 0,1 @@ -2332,270 +2524,78 @@ Invalid wearable asset - + - A thread-safe lockless queue that supports multiple readers and - multiple writers + Same as Queue except Dequeue function blocks until there is an object to return. + Note: This class does not need to be synchronized - - Queue head - - - Queue tail - - - Queue item count - - + - Constructor + Create new BlockingQueue. + + The System.Collections.ICollection to copy elements from + + + + Create new BlockingQueue. + + The initial number of elements that the queue can contain + + + + Create new BlockingQueue. - + - Enqueue an item - - Item to enqeue - - - - Try to dequeue an item - - Dequeued item if the dequeue was successful - True if an item was successfully deqeued, otherwise false - - - Gets the current number of items in the queue. Since this - is a lockless collection this value should be treated as a close - estimate - - - - Provides a node container for data in a singly linked list + BlockingQueue Destructor (Close queue, resume any waiting thread). - - Pointer to the next node in list - - - The data contained by the node - - + - Constructor + Remove all objects from the Queue. - + - Constructor + Remove all objects from the Queue, resume all dequeue threads. - + - A 128-bit Universally Unique Identifier, used throughout the Second - Life networking protocol + Removes and returns the object at the beginning of the Queue. + + Object in queue. + + + + Removes and returns the object at the beginning of the Queue. + + time to wait before returning + Object in queue. + + + + Removes and returns the object at the beginning of the Queue. + + time to wait before returning (in milliseconds) + Object in queue. + + + + Adds an object to the end of the Queue + + Object to put in queue + + + + Open Queue. - - The System.Guid object this struct wraps around - - + - Constructor that takes a string UUID representation - - A string representation of a UUID, case - insensitive and can either be hyphenated or non-hyphenated - UUID("11f8aa9c-b071-4242-836b-13b7abe0d489") - - - - Constructor that takes a System.Guid object - - A Guid object that contains the unique identifier - to be represented by this UUID - - - - Constructor that takes a byte array containing a UUID - - Byte array containing a 16 byte UUID - Beginning offset in the array - - - - Constructor that takes an unsigned 64-bit unsigned integer to - convert to a UUID - - 64-bit unsigned integer to convert to a UUID - - - - Copy constructor - - UUID to copy - - - - IComparable.CompareTo implementation - - - - - Assigns this UUID from 16 bytes out of a byte array - - Byte array containing the UUID to assign this UUID to - Starting position of the UUID in the byte array - - - - Returns a copy of the raw bytes for this UUID - - A 16 byte array containing this UUID - - - - Writes the raw bytes for this UUID to a byte array - - Destination byte array - Position in the destination array to start - writing. Must be at least 16 bytes before the end of the array - - - - Calculate an LLCRC (cyclic redundancy check) for this UUID - - The CRC checksum for this UUID - - - - Create a 64-bit integer representation from the second half of this UUID - - An integer created from the last eight bytes of this UUID - - - - Generate a UUID from a string - - A string representation of a UUID, case - insensitive and can either be hyphenated or non-hyphenated - UUID.Parse("11f8aa9c-b071-4242-836b-13b7abe0d489") - - - - Generate a UUID from a string - - A string representation of a UUID, case - insensitive and can either be hyphenated or non-hyphenated - Will contain the parsed UUID if successful, - otherwise null - True if the string was successfully parse, otherwise false - UUID.TryParse("11f8aa9c-b071-4242-836b-13b7abe0d489", result) - - - - Combine two UUIDs together by taking the MD5 hash of a byte array - containing both UUIDs - - First UUID to combine - Second UUID to combine - The UUID product of the combination - - - - - - - - - - Return a hash code for this UUID, used by .NET for hash tables - - An integer composed of all the UUID bytes XORed together - - - - Comparison function - - An object to compare to this UUID - True if the object is a UUID and both UUIDs are equal - - - - Comparison function - - UUID to compare to - True if the UUIDs are equal, otherwise false - - - - Get a hyphenated string representation of this UUID - - A string representation of this UUID, lowercase and - with hyphens - 11f8aa9c-b071-4242-836b-13b7abe0d489 - - - - Equals operator - - First UUID for comparison - Second UUID for comparison - True if the UUIDs are byte for byte equal, otherwise false - - - - Not equals operator - - First UUID for comparison - Second UUID for comparison - True if the UUIDs are not equal, otherwise true - - - - XOR operator - - First UUID - Second UUID - A UUID that is a XOR combination of the two input UUIDs - - - - String typecasting operator - - A UUID in string form. Case insensitive, - hyphenated or non-hyphenated - A UUID built from the string representation - - - An UUID with a value of all zeroes - - - A cache of UUID.Zero as a string to optimize a common path - - - - Copy constructor - - Circular queue to copy - - - - Determines the appropriate events to set, leaves the locks, and sets the events. - - - - - A routine for lazily creating a event outside the lock (so if errors - happen they are outside the lock and that we don't do much work - while holding a spin lock). If all goes well, reenter the lock and - set 'waitEvent' - - - - - Waits on 'waitEvent' with a timeout of 'millisceondsTimeout. - Before the wait 'numWaiters' is incremented and is restored before leaving this routine. + Gets flag indicating if queue has been closed. diff --git a/bin/OpenMetaverseTypes.dll b/bin/OpenMetaverseTypes.dll index 4d00d5e8b4..49a0f3be1c 100755 Binary files a/bin/OpenMetaverseTypes.dll and b/bin/OpenMetaverseTypes.dll differ