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/*
* Copyright (c) 2017 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @file parc_Varint.h
* @ingroup datastructures
* @brief A Variable Length Integer.
*
* A variable length integer.
*
*
* Example:
* @code
* <#example#>
* @endcode
*/
#ifndef libparc_parc_VarInt_h
#define libparc_parc_VarInt_h
#include <stdint.h>
#include <parc/algol/parc_Buffer.h>
/**
* A variable length integer value.
* <em>
* This particular implementation is limited to a 64 bit value.
* </em>
*/
struct parc_varint;
typedef struct parc_varint PARCVarint;
#define PARC_VARINT_INIT { 0 }
/**
* Create a new instance of `PARCVarint`
*
* @return A `PARCVarint` pointer, which must be deallocated via {@link parcVarint_Destroy()}.
*
* Example:
* @code
* <#example#>
* @endcode
*/
PARCVarint *parcVarint_Create(void);
/**
* Decode an instance of {@link PARCBuffer} of length @p length into a new instance of `PARCVarInt`
*
* @param [in] buffer A pointer to a `PARCBuffer`.
* @param [in] length The number of bytes to decode.
* @return A `PARCVarint` pointer, which must be deallocated via {@link parcVarint_Destroy()}.
*
* Example:
* @code
* {
* <#example#>
* }
* @endcode */
PARCVarint *parcVarint_DecodeBuffer(PARCBuffer *buffer, size_t length);
/**
* Decode an instance of {@link PARCBuffer} of length @p length into a new instance of `PARCVarInt`
*
* @param [in] buffer A pointer to a `PARCBuffer`.
* @param [in] length The number of bytes to decode.
* @return A `PARCVarint` pointer, which must be deallocated via {@link parcVarint_Destroy()}.
*
* Example:
* @code
* <#example#>
* @endcode
*/
PARCVarint *parcVarint_DecodeElasticByteBuffer(const PARCBuffer *buffer, size_t length);
/**
* Create a new `PARCVarint` from bytes in a {@link PARCBuffer}.
*
* @param [in] buffer A pointer to a `PARCBuffer`.
* @return A `PARCVarint` pointer, which must be deallocated via {@link parcVarint_Destroy()}.
*
* Example:
* @code
* <#example#>
* @endcode
*/
PARCVarint *parcVarint_FromElasticByteBuffer(const PARCBuffer *buffer);
/**
* Create a `PARCVarint` with the value decoded from the given {@link PARCBuffer}
* containing a UTF-8 string encoded number.
*
* @param [in] buffer A pointer to a `PARCBuffer` containing a UTF-8 string encoded number.
* @return A `PARCVarint` pointer, which must be deallocated via {@link parcVarint_Destroy()}.
*
* Example:
* @code
* <#example#>
* @endcode
*/
PARCVarint *parcVarint_FromUTF8Buffer(PARCBuffer *buffer);
/**
* Create a `PARCVarint` with the value decoded from the given {@link PARCBuffer}
* containing a UTF-8 string encoded number.
*
* @param [in] buffer A pointer to a `PARCBuffer` containing a UTF-8 string encoded number.
* @return A `PARCVarint` pointer, which must be deallocated via {@link parcVarint_Destroy()}.
*
*/
PARCVarint *parcVarint_FromUTF8ByteBuffer(const PARCBuffer *buffer);
extern PARCVarint *parcVarint_FromUint8(uint8_t uint);
extern PARCVarint *parcVarint_FromUint32(uint32_t uint);
extern PARCVarint *parcVarint_FromUint64(uint64_t uint);
extern PARCVarint *parcVarint_ShiftLeft(PARCVarint *varint, int bits);
extern PARCVarint *parcVarint_ShiftRight(PARCVarint *varint, int bits);
extern PARCVarint *parcVarint_And(PARCVarint *varint, PARCVarint *operand);
extern PARCVarint *parcVarint_AndUint8(PARCVarint *varint, uint8_t operand);
extern PARCVarint *parcVarint_AndUint16(PARCVarint *varint, uint16_t operand);
extern PARCVarint *parcVarint_AndUint32(PARCVarint *varint, uint32_t operand);
extern PARCVarint *parcVarint_AndUint64(PARCVarint *varint, uint64_t operand);
extern PARCVarint *parcVarint_Or(PARCVarint *varint, PARCVarint *operand);
extern PARCVarint *parcVarint_OrUint8(PARCVarint *varint, uint8_t operand);
extern PARCVarint *parcVarint_OrUint16(PARCVarint *varint, uint16_t operand);
extern PARCVarint *parcVarint_OrUint32(PARCVarint *varint, uint32_t operand);
extern PARCVarint *parcVarint_OrUint64(PARCVarint *varint, uint64_t operand);
/**
* Determine if two `PARCVarint` instances are equal.
*
* The following equivalence relations on non-null `PARCVarint` instances are maintained:
*
* * It is reflexive: for any non-null reference value x, `PARCVarint_Equals(x, x)`
* must return true.
*
* * It is symmetric: for any non-null reference values x and y,
* `parcVarint_Equals(x, y)` must return true if and only if
* `parcVarint_Equals(y, x)` returns true.
*
* * It is transitive: for any non-null reference values x, y, and z, if
* `parcVarint_Equals(x, y)` returns true and
* `parcVarint_Equals(y, z)` returns true,
* then `parcVarint_Equals(x, z)` must return true.
*
* * It is consistent: for any non-null reference values x and y, multiple
* invocations of `parcVarint_Equals(x, y)` consistently return true or
* consistently return false.
*
* * For any non-null reference value x, `parcVarint_Equals(x, NULL)` must
* return false.
*
* @param varint A pointer to a `PARCVarint` instance.
* @param operand A pointer to a `PARCVarint` instance.
* @return true if the two `PARCVarint` instances are equal.
*
* Example:
* @code
* {
* PARCVarint *a = parcVarint_Create();
* PARCVarint *b = parcVarint_Create();
*
* if (parcVarint_Equals(a, b)) {
* // true
* } else {
* // false
* }
* }
* @endcode
*/
extern int parcVarint_Equals(PARCVarint *varint, PARCVarint *operand);
/**
* Determine if a `PARCVarint` instance is equal to a 64bit integer.
*
* The following equivalence relations on non-null `PARCVarint` instances are maintained:
*
* * It is reflexive: for any non-null reference value x, `PARCVarint_Uint64Equals(x, x)`
* must return true.
*
* * It is NOT symmetric: for any non-null reference values x and y,
* `parcVarint_Uint64Equals(x, y)` may not return true even if
* `parcVarint_Uint64Equals(y, x)` returns true.
*
* * It is transitive: for any non-null reference values x, y, and z, if
* `parcVarint_Uint64Equals(x, y)` returns true and
* `parcVarint_Uint64Equals(y, z)` returns true,
* then `parcVarint_Uint64Equals(x, z)` must return true.
*
* * It is consistent: for any non-null reference values x and y, multiple
* invocations of `parcVarint_Uint64Equals(x, y)` consistently return true or
* consistently return false.
*
* * For any non-null reference value x, `parcVarint_Uint64Equals(x, NULL)` must
* return false.
*
* @param [in] varint A pointer to a `PARCVarint` instance.
* @param [in] value A pointer to a `uint64_t` instance.
* @return true if the two instances are equal.
*
* Example:
* @code
* {
* PARCVarint *a = parcVarint_Create();
* uint64_t *b = 10; // some integer value
*
* if (parcVarint_Uint64Equals(a, b)) {
* // true
* } else {
* // false
* }
* }
* @endcode
*/
extern int parcVarint_EqualsUint64(PARCVarint *varint, uint64_t value);
/**
* Determine if a `PARCVarint` instance is equal to a 32 bit integer.
*
* The following equivalence relations on non-null `PARCVarint` instances are maintained:
*
* * It is reflexive: for any non-null reference value x, `PARCVarint_Uint32Equals(x, x)`
* must return true.
*
* * It is NOT symmetric: for any non-null reference values x and y,
* `parcVarint_Uint32Equals(x, y)` may not return true even if
* `parcVarint_Uint32Equals(y, x)` returns true.
*
* * It is transitive: for any non-null reference values x, y, and z, if
* `parcVarint_Uint32Equals(x, y)` returns true and
* `parcVarint_Uint32Equals(y, z)` returns true,
* then `parcVarint_Uint32Equals(x, z)` must return true.
*
* * It is consistent: for any non-null reference values x and y, multiple
* invocations of `parcVarint_Uint32Equals(x, y)` consistently return true or
* consistently return false.
*
* * For any non-null reference value x, `parcVarint_Uint32Equals(x, NULL)` must
* return false.
*
* @param [in] varint A pointer to a `PARCVarint` instance.
* @param [in] value A pointer to a `uint32_t` instance.
* @return true if the two instances are equal.
*
* Example:
* @code
* {
* PARCVarint *a = parcVarint_Create();
* uint32_t *b = 10; // some integer value
*
* if (parcVarint_Uint32Equals(a, b)) {
* // true
* } else {
* // false
* }
* }
* @endcode
*/
extern int parcVarint_EqualsUint32(PARCVarint *varint, uint32_t value);
/**
* Determine if a `PARCVarint` instance is equal to a 16 bit integer.
*
* The following equivalence relations on non-null `PARCVarint` instances are maintained:
*
* * It is reflexive: for any non-null reference value x, `PARCVarint_Uint16Equals(x, x)`
* must return true.
*
* * It is NOT symmetric: for any non-null reference values x and y,
* `parcVarint_Uint16Equals(x, y)` may not return true even if
* `parcVarint_Uint16Equals(y, x)` returns true.
*
* * It is transitive: for any non-null reference values x, y, and z, if
* `parcVarint_Uint16Equals(x, y)` returns true and
* `parcVarint_Uint16Equals(y, z)` returns true,
* then `parcVarint_Uint16Equals(x, z)` must return true.
*
* * It is consistent: for any non-null reference values x and y, multiple
* invocations of `parcVarint_Uint16Equals(x, y)` consistently return true or
* consistently return false.
*
* * For any non-null reference value x, `parcVarint_Uint16Equals(x, NULL)` must
* return false.
*
* @param [in] varint A pointer to a `PARCVarint` instance.
* @param [in] value A pointer to a `uint16_t` instance.
* @return true if the two instances are equal.
*
* Example:
* @code
* {
* PARCVarint *a = parcVarint_Create();
* uint16_t *b = 10; // some integer value
*
* if (parcVarint_Uint16Equals(a, b)) {
* // true
* } else {
* // false
* }
* }
* @endcode
*/
extern int parcVarint_EqualsUint16(PARCVarint *varint, uint16_t value);
/**
* Determine if a `PARCVarint` instance is equal to an 8 bit integer.
*
* The following equivalence relations on non-null `PARCVarint` instances are maintained:
*
* * It is reflexive: for any non-null reference value x, `PARCVarint_Uint8Equals(x, x)`
* must return true.
*
* * It is NOT symmetric: for any non-null reference values x and y,
* `parcVarint_Uint8Equals(x, y)` may not return true even if
* `parcVarint_Uint8Equals(y, x)` returns true.
*
* * It is transitive: for any non-null reference values x, y, and z, if
* `parcVarint_Uint8Equals(x, y)` returns true and
* `parcVarint_Uint8Equals(y, z)` returns true,
* then `parcVarint_Uint8Equals(x, z)` must return true.
*
* * It is consistent: for any non-null reference values x and y, multiple
* invocations of `parcVarint_Uint8Equals(x, y)` consistently return true or
* consistently return false.
*
* * For any non-null reference value x, `parcVarint_Uint8Equals(x, NULL)` must
* return false.
*
* @param [in] varint A pointer to a `PARCVarint` instance.
* @param [in] value A pointer to a `uint8_t` instance.
* @return true if the two instances are equal.
*
* Example:
* @code
* {
* PARCVarint *a = parcVarint_Create();
* uint8_t *b = 10; // some integer value
*
* if (parcVarint_Uint8Equals(a, b)) {
* // true
* } else {
* // false
* }
* }
* @endcode
*/
extern int parcVarint_EqualsUint8(PARCVarint *varint, uint8_t value);
extern void parcVarint_Destroy(PARCVarint **varintP);
extern char *parcVarint_ToString(char **string, PARCVarint *varint);
extern uint8_t parcVarint_AsUint8(const PARCVarint *varint);
extern uint16_t parcVarint_AsUint16(const PARCVarint *varint);
extern uint32_t parcVarint_AsUint32(const PARCVarint *varint);
/**
* Produce the 16 low-order bits of this `PARCVarint` as a `uint8_t`.
*
* @param [in] varint The inpu instance of `PARCVarint`
* @return The 16 low-order bits as a `uint8_t`
*
* Example:
* @code
* <#example#>
* @endcode
*/
uint64_t parcVarint_AsUint64(const PARCVarint *varint);
/**
* Return the value of the given `PARCVarint` cast as a `size_t`
*
* @param [in] varint The `PARCVarint` to cast as a `size_t`
*
* @return The given `PARCVarint` cast as a `size_t`
*
* Example:
* @code
* <#example#>
* @endcode
*/
size_t parcVarint_AsSize(const PARCVarint *varint);
/**
* Set the value of the given `PARCVarint` to the given value.
*
* @param [in,out] varint The `PARCVarint` to be modified
* @param [in] newValue The new value for the `PARCVarint`
* @return The modified `PARCVarint`.
*/
PARCVarint *parcVarint_Set(PARCVarint *varint, uint64_t newValue);
/**
* Multiply the `PARCVarint`
*
* @param [in,out] varint The `PARCVarint` to be multiplied by the @p multiplicand
* @param [in] multiplicand The multiplicand to multiply by
* @return The `PARCVarint` used as input.
*
* Example:
* @code
* <#example#>
* @endcode
*/
PARCVarint *parcVarint_Multiply(PARCVarint *varint, int multiplicand);
/**
* Divide the `PARCVarint` by a divisor
*
* @param [in,out] varint The `PARCVarint` to be divided by the @p divisor
* @param [in] divisor The divisor to use
* @return The `PARCVarint` used as input.
*
* Example:
* @code
* <#example#>
* @endcode
*/
PARCVarint *parcVarint_Divide(PARCVarint *varint, int divisor);
/**
* Multiply the `PARCVarint`
*
* @param [in,out] varint The `PARCVarint` to which the @p addend should be added
* @param [in] addend The number to add to the `PARCVarint`
* @return The `PARCVarint` used as input.
*
* Example:
* @code
* <#example#>
* @endcode
*/
PARCVarint *parcVarint_Add(PARCVarint *varint, int addend);
/**
* Subtract the @p subtrahend from the `PARCVarint`.
*
* @param [in,out] varint The `PARCVarint` from which to subtract the @p subtrahend
* @param [in] subtrahend The number to subtract from the `PARCVarint`
* @return The `PARCVarint` used as input.
*
* Example:
* @code
* <#example#>
* @endcode
*/
PARCVarint *parcVarint_Subtract(PARCVarint *varint, int subtrahend);
#endif // libparc_parc_VarInt_h
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