UInt32
A 32 bit unsigned integer with values ranging from 0 to 4,294,967,295.
Extends
CircuitValue
Constructors
new UInt32()
new UInt32(x:
| string
| number
| bigint
| FieldVar
| UInt32): UInt32
Create a UInt32.
The max value of a UInt32 is 2^32 - 1 = UInt32.MAXINT()
.
Warning: Cannot overflow, an error is thrown if the result is greater than UInt32.MAXINT()
Parameters
• x:
| string
| number
| bigint
| FieldVar
| UInt32
Returns
Overrides
CircuitValue.constructor
Source
Properties
value
value: Field;
Source
NUM_BITS
static NUM_BITS: number = 32;
Source
Unsafe
static Unsafe: {
"fromField": UInt32;
};
fromField()
Create a UInt32 from a Field without constraining its range.
Warning: This is unsafe, because it does not prove that the input Field actually fits in 32 bits.\ Only use this if you know what you are doing, otherwise use the safe UInt32.from.
Parameters
• x: Field
Returns
Source
Accessors
one
get static one(): UInt32
Static method to create a UInt32 with value 0
.
Returns
Source
zero
get static zero(): UInt32
Static method to create a UInt32 with value 0
.
Returns
Source
Methods
add()
add(y: number | UInt32): UInt32
Addition with overflow checking.
Parameters
• y: number
| UInt32
Returns
Source
addMod32()
addMod32(y: UInt32): UInt32
Addition modulo 2^32. Check Gadgets.addMod32 for a detailed description.
Parameters
• y: UInt32
Returns
Source
and()
and(x: UInt32): UInt32
Bitwise AND gadget on UInt32 elements. Equivalent to the bitwise AND &
operator in JavaScript.
The AND gate works by comparing two bits and returning 1
if both bits are 1
, and 0
otherwise.
It can be checked by a double generic gate that verifies the following relationship between the values below.
The generic gate verifies:\
a + b = sum
and the conjunction equation 2 * and = sum - xor
\
Where:\
a + b = sum
\
a ^ b = xor
\
a & b = and
You can find more details about the implementation in the Mina book
Parameters
• x: UInt32
Returns
Example
let a = UInt32.from(3); // ... 000011
let b = UInt32.from(5); // ... 000101
let c = a.and(b, 2); // ... 000001
c.assertEquals(1);
Source
assertEquals()
assertEquals(x: this): void
Parameters
• x: this
Returns
void
Inherited from
CircuitValue.assertEquals
Source
lib/provable/types/circuit-value.ts:130
assertGreaterThan()
assertGreaterThan(y: UInt32, message?: string): void
Asserts that a UInt32 is greater than another one.
Parameters
• y: UInt32
• message?: string
Returns
void
Source
assertGreaterThanOrEqual()
assertGreaterThanOrEqual(y: UInt32, message?: string): void
Asserts that a UInt32 is greater than or equal to another one.
Parameters
• y: UInt32
• message?: string
Returns
void
Source
assertLessThan()
assertLessThan(y: UInt32, message?: string): void
Asserts that a UInt32 is less than another one.
Parameters
• y: UInt32
• message?: string
Returns
void
Source
assertLessThanOrEqual()
assertLessThanOrEqual(y: UInt32, message?: string): void
Asserts that a UInt32 is less than or equal to another one.
Parameters
• y: UInt32
• message?: string
Returns
void
Source
div()
div(y: number | UInt32): UInt32
Integer division.
x.div(y)
returns the floor of x / y
, that is, the greatest
z
such that x * y <= x
.
Parameters
• y: number
| UInt32
Returns
Source
divMod()
divMod(y: string | number | UInt32): {
"quotient": UInt32;
"rest": UInt32;
}
Integer division with remainder.
x.divMod(y)
returns the quotient and the remainder.
Parameters
• y: string
| number
| UInt32
Returns
{
"quotient": UInt32;
"rest": UInt32;
}
quotient
quotient: UInt32;
rest
rest: UInt32;
Source
equals()
equals(x: this): Bool
Parameters
• x: this
Returns
Inherited from
CircuitValue.equals
Source
lib/provable/types/circuit-value.ts:126
greaterThan()
greaterThan(y: UInt32): Bool
Checks if a UInt32 is greater than another one.
Parameters
• y: UInt32
Returns
Source
greaterThanOrEqual()
greaterThanOrEqual(y: UInt32): Bool
Checks if a UInt32 is greater than or equal to another one.
Parameters
• y: UInt32
Returns
Source
isConstant()
isConstant(): boolean
Returns
boolean
Inherited from
CircuitValue.isConstant
Source
lib/provable/types/circuit-value.ts:134
leftShift()
leftShift(bits: number): UInt32
Performs a left shift operation on the provided UInt32 element.
This operation is similar to the <<
shift operation in JavaScript,
where bits are shifted to the left, and the overflowing bits are discarded.
It’s important to note that these operations are performed considering the big-endian 32-bit representation of the number, where the most significant (32th) bit is on the left end and the least significant bit is on the right end.
The operation expects the input to be range checked to 32 bit.
Parameters
• bits: number
Amount of bits to shift the UInt32 element to the left. The amount should be between 0 and 32 (or else the shift will fail).
Returns
Example
const x = UInt32.from(0b001100); // 12 in binary
const y = x.leftShift(2); // left shift by 2 bits
y.assertEquals(0b110000); // 48 in binary
Source
lessThan()
lessThan(y: UInt32): Bool
Checks if a UInt32 is less than another one.
Parameters
• y: UInt32
Returns
Source
lessThanOrEqual()
lessThanOrEqual(y: UInt32): Bool
Checks if a UInt32 is less than or equal to another one.
Parameters
• y: UInt32
Returns
Source
mod()
mod(y: number | UInt32): UInt32
Integer remainder.
x.mod(y)
returns the value z
such that 0 <= z < y
and
x - z
is divisible by y
.
Parameters
• y: number
| UInt32
Returns
Source
mul()
mul(y: number | UInt32): UInt32
Multiplication with overflow checking.
Parameters
• y: number
| UInt32
Returns
Source
not()
not(): UInt32
Bitwise NOT gate on UInt32 elements. Similar to the [bitwise
NOT ~
operator in JavaScript](https://developer.mozilla.org/en-US/docs/
Web/JavaScript/Reference/Operators/Bitwise_NOT).
Note: The NOT gate operates over 32 bit for UInt32 types.
A NOT gate works by returning 1
in each bit position if the
corresponding bit of the operand is 0
, and returning 0
if the
corresponding bit of the operand is 1
.
NOT is implemented as a subtraction of the input from the all one bitmask.
You can find more details about the implementation in the Mina book
Returns
Example
// NOTing 4 bits with the unchecked version
let a = UInt32.from(0b0101);
let b = a.not();
console.log(b.toBigInt().toString(2));
// 11111111111111111111111111111010
Source
rightShift()
rightShift(bits: number): UInt32
Performs a left right operation on the provided UInt32 element.
This operation is similar to the >>
shift operation in JavaScript,
where bits are shifted to the right, and the overflowing bits are discarded.
It’s important to note that these operations are performed considering the big-endian 32-bit representation of the number, where the most significant (32th) bit is on the left end and the least significant bit is on the right end.
Parameters
• bits: number
Amount of bits to shift the UInt32 element to the right. The amount should be between 0 and 32 (or else the shift will fail).
The operation expects the input to be range checked to 32 bit.
Returns
Example
const x = UInt32.from(0b001100); // 12 in binary
const y = x.rightShift(2); // left shift by 2 bits
y.assertEquals(0b000011); // 48 in binary
Source
rotate()
rotate(bits: number, direction: "left" | "right"): UInt32
A (left and right) rotation operates similarly to the shift operation (<<
for left and >>
for right) in JavaScript,
with the distinction that the bits are circulated to the opposite end of a 64-bit representation rather than being discarded.
For a left rotation, this means that bits shifted off the left end reappear at the right end.
Conversely, for a right rotation, bits shifted off the right end reappear at the left end.
It’s important to note that these operations are performed considering the big-endian 64-bit representation of the number,
where the most significant (64th) bit is on the left end and the least significant bit is on the right end.
The direction
parameter is a string that accepts either 'left'
or 'right'
, determining the direction of the rotation.
To safely use rotate()
, you need to make sure that the value passed in is range-checked to 64 bits;
for example, using Gadgets.rangeCheck64.
You can find more details about the implementation in the Mina book
Parameters
• bits: number
amount of bits to rotate this UInt32 element with.
• direction: "left"
| "right"
= 'left'
left or right rotation direction.
Returns
Example
const x = UInt32.from(0b001100);
const y = x.rotate(2, 'left');
const z = x.rotate(2, 'right'); // right rotation by 2 bits
y.assertEquals(0b110000);
z.assertEquals(0b000011);
Source
sub()
sub(y: number | UInt32): UInt32
Subtraction with underflow checking.
Parameters
• y: number
| UInt32
Returns
Source
toBigint()
toBigint(): bigint
Turns the UInt32 into a BigInt.
Returns
bigint
Source
toConstant()
toConstant(): this
Returns
this
Inherited from
CircuitValue.toConstant
Source
lib/provable/types/circuit-value.ts:122
toFields()
toFields(): Field[]
Returns
Field
[]
Inherited from
CircuitValue.toFields
Source
lib/provable/types/circuit-value.ts:85
toJSON()
toJSON(): any
Returns
any
Inherited from
CircuitValue.toJSON
Source
lib/provable/types/circuit-value.ts:118
toString()
toString(): string
Turns the UInt32 into a string.
Returns
string
Source
toUInt64()
toUInt64(): UInt64
Turns the UInt32 into a UInt64.
Returns
Source
xor()
xor(x: UInt32): UInt32
Bitwise XOR gadget on UInt32 elements. Equivalent to the bitwise XOR ^
operator in JavaScript.
A XOR gate works by comparing two bits and returning 1
if two bits differ, and 0
if two bits are equal.
This gadget builds a chain of XOR gates recursively.
You can find more details about the implementation in the Mina book
Parameters
• x: UInt32
UInt32 element to compare.
Returns
Example
let a = UInt32.from(0b0101);
let b = UInt32.from(0b0011);
let c = a.xor(b);
c.assertEquals(0b0110);
Source
MAXINT()
static MAXINT(): UInt32
Creates a UInt32 with a value of 4,294,967,295.
Returns
Source
check()
static check(x: UInt32): void
Parameters
• x: UInt32
Returns
void
Overrides
CircuitValue.check
Source
empty()
static empty<T>(): InstanceType<T>
Type parameters
• T extends AnyConstructor
Returns
InstanceType
\<T
>
Inherited from
CircuitValue.empty
Source
lib/provable/types/circuit-value.ts:218
from()
static from(x: string | number | bigint | UInt32): UInt32
Creates a new UInt32.
Parameters
• x: string
| number
| bigint
| UInt32
Returns
Source
fromFields()
static fromFields<T>(this: T, xs: Field[]): InstanceType<T>
Type parameters
• T extends AnyConstructor
Parameters
• this: T
• xs: Field
[]
Returns
InstanceType
\<T
>
Inherited from
CircuitValue.fromFields
Source
lib/provable/types/circuit-value.ts:138
fromJSON()
static fromJSON<T>(x: string): InstanceType<T>
Decodes a JSON-like object into this structure.
Type parameters
• T extends AnyConstructor
Parameters
• x: string
Returns
InstanceType
\<T
>
Overrides
CircuitValue.fromJSON
Source
fromObject()
static fromObject<T>(this: T, value: NonMethods<InstanceType<T>>): InstanceType<T>
Type parameters
• T extends AnyConstructor
Parameters
• this: T
• value: NonMethods
\<InstanceType
\<T
>>
Returns
InstanceType
\<T
>
Inherited from
CircuitValue.fromObject
Source
lib/provable/types/circuit-value.ts:30
fromValue()
static fromValue<T>(x: bigint | UInt32): InstanceType<T>
Type parameters
• T extends AnyConstructor
Parameters
• x: bigint
| UInt32
Returns
InstanceType
\<T
>
Overrides
CircuitValue.fromValue
Source
sizeInFields()
static sizeInFields(): number
Returns
number
Inherited from
CircuitValue.sizeInFields
Source
lib/provable/types/circuit-value.ts:37
toAuxiliary()
static toAuxiliary(): []
Returns
[]
Inherited from
CircuitValue.toAuxiliary
Source
lib/provable/types/circuit-value.ts:59
toConstant()
static toConstant<T>(this: T, t: InstanceType<T>): InstanceType<T>
Type parameters
• T extends AnyConstructor
Parameters
• this: T
• t: InstanceType
\<T
>
Returns
InstanceType
\<T
>
Inherited from
CircuitValue.toConstant
Source
lib/provable/types/circuit-value.ts:177
toFields()
static toFields<T>(this: T, v: InstanceType<T>): Field[]
Type parameters
• T extends AnyConstructor
Parameters
• this: T
• v: InstanceType
\<T
>
Returns
Field
[]
Inherited from
CircuitValue.toFields
Source
lib/provable/types/circuit-value.ts:42
toInput()
static toInput(x: UInt32): HashInput
Parameters
• x: UInt32
Returns
HashInput
Overrides
CircuitValue.toInput
Source
toJSON()
static toJSON(x: UInt32): string
Encodes this structure into a JSON-like object.
Parameters
• x: UInt32
Returns
string
Overrides
CircuitValue.toJSON
Source
toValue()
static toValue(x: UInt32): bigint
Parameters
• x: UInt32
Returns
bigint
Overrides
CircuitValue.toValue