prettier-plugin-solidity/tests/format/AssemblyV0.4.26/__snapshots__/format.test.js.snap at 81ef86ef175305fdab423d5f72ec8f75f0f8dfd2 · prettier-solidity/prettier-plugin-solidity · GitHub

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// Jest Snapshot v1, https://goo.gl/fbAQLP

exports[`Assembly.sol format 1`] = `
====================================options=====================================
parsers: ["slang"]
printWidth: 80
                                                                                | printWidth
=====================================input======================================
pragma solidity ^0.4.26;

contract Assembly {
  function assemblyLabels() {
  assembly {
    let n := calldataload(4)
    let a := 1
    let b := a
loop:
    jumpi(loopend, eq(n, 0))
    a add swap1
    n := sub(n, 1)
    jump(loop)

loopend:
    mstore(0, a)
    return(0, 0x20)
}

assembly{
    let x := 8
    jump(two)
    one:
        // Here the stack height is 2 (because we pushed x and 7),
        // but the assembler thinks it is 1 because it reads
        // from top to bottom.
        // Accessing the stack variable x here will lead to errors.
        x := 9
        jump(three)
    two:
        7 // push something onto the stack
        jump(one)
    three:
}
}
}

contract MultipleAssemblyAssignment {
    function foo() public pure {
        assembly {
            function bar() -> a, b {
                a := 1
                b := 2
            }

            let i, j := bar()
        }
    }
}

contract AssemblyStackAssignment {
  function f() public {
    assembly {
      4 =: y
    }
  }
}

=====================================output=====================================
pragma solidity ^0.4.26;

contract Assembly {
    function assemblyLabels() {
        assembly {
            let n := calldataload(4)
            let a := 1
            let b := a
        loop:
            jumpi(loopend, eq(n, 0))
            a
            add
            swap1
            n := sub(n, 1)
            jump(loop)

        loopend:
            mstore(0, a)
            return(0, 0x20)
        }

        assembly {
            let x := 8
            jump(two)
        one:
            // Here the stack height is 2 (because we pushed x and 7),
            // but the assembler thinks it is 1 because it reads
            // from top to bottom.
            // Accessing the stack variable x here will lead to errors.
            x := 9
            jump(three)
        two:
            7 // push something onto the stack
            jump(one)
        three:
        }
    }
}

contract MultipleAssemblyAssignment {
    function foo() public pure {
        assembly {
            function bar() -> a, b {
                a := 1
                b := 2
            }

            let i, j := bar()
        }
    }
}

contract AssemblyStackAssignment {
    function f() public {
        assembly {
            4
            =: y
        }
    }
}

================================================================================
`;