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Chris Ward 2019-03-13 14:34:05 +01:00
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@ -334,83 +334,83 @@ The following functions must be available:
+---------------------------------------------------------------------------------------------------------------+
| *Logic* |
+---------------------------------------------+-----------------------------------------------------------------+
| not(x:bool) -> z:bool | logical not |
| not(x:bool) > z:bool | logical not |
+---------------------------------------------+-----------------------------------------------------------------+
| and(x:bool, y:bool) -> z:bool | logical and |
| and(x:bool, y:bool) > z:bool | logical and |
+---------------------------------------------+-----------------------------------------------------------------+
| or(x:bool, y:bool) -> z:bool | logical or |
| or(x:bool, y:bool) > z:bool | logical or |
+---------------------------------------------+-----------------------------------------------------------------+
| xor(x:bool, y:bool) -> z:bool | xor |
| xor(x:bool, y:bool) > z:bool | xor |
+---------------------------------------------+-----------------------------------------------------------------+
| *Arithmetic* |
+---------------------------------------------+-----------------------------------------------------------------+
| addu256(x:u256, y:u256) -> z:u256 | x + y |
| addu256(x:u256, y:u256) > z:u256 | x + y |
+---------------------------------------------+-----------------------------------------------------------------+
| subu256(x:u256, y:u256) -> z:u256 | x - y |
| subu256(x:u256, y:u256) > z:u256 | x - y |
+---------------------------------------------+-----------------------------------------------------------------+
| mulu256(x:u256, y:u256) -> z:u256 | x * y |
| mulu256(x:u256, y:u256) > z:u256 | x * y |
+---------------------------------------------+-----------------------------------------------------------------+
| divu256(x:u256, y:u256) -> z:u256 | x / y |
| divu256(x:u256, y:u256) > z:u256 | x / y |
+---------------------------------------------+-----------------------------------------------------------------+
| divs256(x:s256, y:s256) -> z:s256 | x / y, for signed numbers in two's complement |
| divs256(x:s256, y:s256) > z:s256 | x / y, for signed numbers in two's complement |
+---------------------------------------------+-----------------------------------------------------------------+
| modu256(x:u256, y:u256) -> z:u256 | x % y |
| modu256(x:u256, y:u256) > z:u256 | x % y |
+---------------------------------------------+-----------------------------------------------------------------+
| mods256(x:s256, y:s256) -> z:s256 | x % y, for signed numbers in two's complement |
| mods256(x:s256, y:s256) > z:s256 | x % y, for signed numbers in two's complement |
+---------------------------------------------+-----------------------------------------------------------------+
| signextendu256(i:u256, x:u256) -> z:u256 | sign extend from (i*8+7)th bit counting from least significant |
| signextendu256(i:u256, x:u256) > z:u256 | sign extend from (i*8+7)th bit counting from least significant |
+---------------------------------------------+-----------------------------------------------------------------+
| expu256(x:u256, y:u256) -> z:u256 | x to the power of y |
| expu256(x:u256, y:u256) > z:u256 | x to the power of y |
+---------------------------------------------+-----------------------------------------------------------------+
| addmodu256(x:u256, y:u256, m:u256) -> z:u256| (x + y) % m with arbitrary precision arithmetic |
| addmodu256(x:u256, y:u256, m:u256) > z:u256| (x + y) % m with arbitrary precision arithmetic |
+---------------------------------------------+-----------------------------------------------------------------+
| mulmodu256(x:u256, y:u256, m:u256) -> z:u256| (x * y) % m with arbitrary precision arithmetic |
| mulmodu256(x:u256, y:u256, m:u256) > z:u256| (x * y) % m with arbitrary precision arithmetic |
+---------------------------------------------+-----------------------------------------------------------------+
| ltu256(x:u256, y:u256) -> z:bool | true if x < y, false otherwise |
| ltu256(x:u256, y:u256) > z:bool | true if x < y, false otherwise |
+---------------------------------------------+-----------------------------------------------------------------+
| gtu256(x:u256, y:u256) -> z:bool | true if x > y, false otherwise |
| gtu256(x:u256, y:u256) > z:bool | true if x > y, false otherwise |
+---------------------------------------------+-----------------------------------------------------------------+
| lts256(x:s256, y:s256) -> z:bool | true if x < y, false otherwise |
| lts256(x:s256, y:s256) > z:bool | true if x < y, false otherwise |
| | (for signed numbers in two's complement) |
+---------------------------------------------+-----------------------------------------------------------------+
| gts256(x:s256, y:s256) -> z:bool | true if x > y, false otherwise |
| gts256(x:s256, y:s256) > z:bool | true if x > y, false otherwise |
| | (for signed numbers in two's complement) |
+---------------------------------------------+-----------------------------------------------------------------+
| equ256(x:u256, y:u256) -> z:bool | true if x == y, false otherwise |
| equ256(x:u256, y:u256) > z:bool | true if x == y, false otherwise |
+---------------------------------------------+-----------------------------------------------------------------+
| iszerou256(x:u256) -> z:bool | true if x == 0, false otherwise |
| iszerou256(x:u256) > z:bool | true if x == 0, false otherwise |
+---------------------------------------------+-----------------------------------------------------------------+
| notu256(x:u256) -> z:u256 | ~x, every bit of x is negated |
| notu256(x:u256) > z:u256 | ~x, every bit of x is negated |
+---------------------------------------------+-----------------------------------------------------------------+
| andu256(x:u256, y:u256) -> z:u256 | bitwise and of x and y |
| andu256(x:u256, y:u256) > z:u256 | bitwise and of x and y |
+---------------------------------------------+-----------------------------------------------------------------+
| oru256(x:u256, y:u256) -> z:u256 | bitwise or of x and y |
| oru256(x:u256, y:u256) > z:u256 | bitwise or of x and y |
+---------------------------------------------+-----------------------------------------------------------------+
| xoru256(x:u256, y:u256) -> z:u256 | bitwise xor of x and y |
| xoru256(x:u256, y:u256) > z:u256 | bitwise xor of x and y |
+---------------------------------------------+-----------------------------------------------------------------+
| shlu256(x:u256, y:u256) -> z:u256 | logical left shift of x by y |
| shlu256(x:u256, y:u256) > z:u256 | logical left shift of x by y |
+---------------------------------------------+-----------------------------------------------------------------+
| shru256(x:u256, y:u256) -> z:u256 | logical right shift of x by y |
| shru256(x:u256, y:u256) > z:u256 | logical right shift of x by y |
+---------------------------------------------+-----------------------------------------------------------------+
| sars256(x:s256, y:u256) -> z:u256 | arithmetic right shift of x by y |
| sars256(x:s256, y:u256) > z:u256 | arithmetic right shift of x by y |
+---------------------------------------------+-----------------------------------------------------------------+
| byte(n:u256, x:u256) -> v:u256 | nth byte of x, where the most significant byte is the 0th byte |
| byte(n:u256, x:u256) > v:u256 | nth byte of x, where the most significant byte is the 0th byte |
| | Cannot this be just replaced by and256(shr256(n, x), 0xff) and |
| | let it be optimised out by the EVM backend? |
+---------------------------------------------+-----------------------------------------------------------------+
| *Memory and storage* |
+---------------------------------------------+-----------------------------------------------------------------+
| mload(p:u256) -> v:u256 | mem[p..(p+32)) |
| mload(p:u256) > v:u256 | mem[p..(p+32)) |
+---------------------------------------------+-----------------------------------------------------------------+
| mstore(p:u256, v:u256) | mem[p..(p+32)) := v |
+---------------------------------------------+-----------------------------------------------------------------+
| mstore8(p:u256, v:u256) | mem[p] := v & 0xff - only modifies a single byte |
+---------------------------------------------+-----------------------------------------------------------------+
| sload(p:u256) -> v:u256 | storage[p] |
| sload(p:u256) > v:u256 | storage[p] |
+---------------------------------------------+-----------------------------------------------------------------+
| sstore(p:u256, v:u256) | storage[p] := v |
+---------------------------------------------+-----------------------------------------------------------------+
| msize() -> size:u256 | size of memory, i.e. largest accessed memory index, albeit due |
| msize() > size:u256 | size of memory, i.e. largest accessed memory index, albeit due |
| | due to the memory extension function, which extends by words, |
| | this will always be a multiple of 32 bytes |
+---------------------------------------------+-----------------------------------------------------------------+
@ -428,15 +428,15 @@ The following functions must be available:
| call(g:u256, a:u256, v:u256, in:u256, | call contract at address a with input mem[in..(in+insize)) |
| insize:u256, out:u256, | providing g gas and v wei and output area |
| outsize:u256) | mem[out..(out+outsize)) returning 0 on error (eg. out of gas) |
| -> r:u256 | and 1 on success |
| > r:u256 | and 1 on success |
+---------------------------------------------+-----------------------------------------------------------------+
| callcode(g:u256, a:u256, v:u256, in:u256, | identical to ``call`` but only use the code from a |
| insize:u256, out:u256, | and stay in the context of the |
| outsize:u256) -> r:u256 | current contract otherwise |
| outsize:u256) > r:u256 | current contract otherwise |
+---------------------------------------------+-----------------------------------------------------------------+
| delegatecall(g:u256, a:u256, in:u256, | identical to ``callcode``, |
| insize:u256, out:u256, | but also keep ``caller`` |
| outsize:u256) -> r:u256 | and ``callvalue`` |
| outsize:u256) > r:u256 | and ``callvalue`` |
+---------------------------------------------+-----------------------------------------------------------------+
| abort() | abort (equals to invalid instruction on EVM) |
+---------------------------------------------+-----------------------------------------------------------------+
@ -460,43 +460,43 @@ The following functions must be available:
+---------------------------------------------+-----------------------------------------------------------------+
| *State queries* |
+---------------------------------------------+-----------------------------------------------------------------+
| blockcoinbase() -> address:u256 | current mining beneficiary |
| blockcoinbase() > address:u256 | current mining beneficiary |
+---------------------------------------------+-----------------------------------------------------------------+
| blockdifficulty() -> difficulty:u256 | difficulty of the current block |
| blockdifficulty() > difficulty:u256 | difficulty of the current block |
+---------------------------------------------+-----------------------------------------------------------------+
| blockgaslimit() -> limit:u256 | block gas limit of the current block |
| blockgaslimit() > limit:u256 | block gas limit of the current block |
+---------------------------------------------+-----------------------------------------------------------------+
| blockhash(b:u256) -> hash:u256 | hash of block nr b - only for last 256 blocks excluding current |
| blockhash(b:u256) > hash:u256 | hash of block nr b - only for last 256 blocks excluding current |
+---------------------------------------------+-----------------------------------------------------------------+
| blocknumber() -> block:u256 | current block number |
| blocknumber() > block:u256 | current block number |
+---------------------------------------------+-----------------------------------------------------------------+
| blocktimestamp() -> timestamp:u256 | timestamp of the current block in seconds since the epoch |
| blocktimestamp() > timestamp:u256 | timestamp of the current block in seconds since the epoch |
+---------------------------------------------+-----------------------------------------------------------------+
| txorigin() -> address:u256 | transaction sender |
| txorigin() > address:u256 | transaction sender |
+---------------------------------------------+-----------------------------------------------------------------+
| txgasprice() -> price:u256 | gas price of the transaction |
| txgasprice() > price:u256 | gas price of the transaction |
+---------------------------------------------+-----------------------------------------------------------------+
| gasleft() -> gas:u256 | gas still available to execution |
| gasleft() > gas:u256 | gas still available to execution |
+---------------------------------------------+-----------------------------------------------------------------+
| balance(a:u256) -> v:u256 | wei balance at address a |
| balance(a:u256) > v:u256 | wei balance at address a |
+---------------------------------------------+-----------------------------------------------------------------+
| this() -> address:u256 | address of the current contract / execution context |
| this() > address:u256 | address of the current contract / execution context |
+---------------------------------------------+-----------------------------------------------------------------+
| caller() -> address:u256 | call sender (excluding delegatecall) |
| caller() > address:u256 | call sender (excluding delegatecall) |
+---------------------------------------------+-----------------------------------------------------------------+
| callvalue() -> v:u256 | wei sent together with the current call |
| callvalue() > v:u256 | wei sent together with the current call |
+---------------------------------------------+-----------------------------------------------------------------+
| calldataload(p:u256) -> v:u256 | call data starting from position p (32 bytes) |
| calldataload(p:u256) > v:u256 | call data starting from position p (32 bytes) |
+---------------------------------------------+-----------------------------------------------------------------+
| calldatasize() -> v:u256 | size of call data in bytes |
| calldatasize() > v:u256 | size of call data in bytes |
+---------------------------------------------+-----------------------------------------------------------------+
| calldatacopy(t:u256, f:u256, s:u256) | copy s bytes from calldata at position f to mem at position t |
+---------------------------------------------+-----------------------------------------------------------------+
| codesize() -> size:u256 | size of the code of the current contract / execution context |
| codesize() > size:u256 | size of the code of the current contract / execution context |
+---------------------------------------------+-----------------------------------------------------------------+
| codecopy(t:u256, f:u256, s:u256) | copy s bytes from code at position f to mem at position t |
+---------------------------------------------+-----------------------------------------------------------------+
| extcodesize(a:u256) -> size:u256 | size of the code at address a |
| extcodesize(a:u256) > size:u256 | size of the code at address a |
+---------------------------------------------+-----------------------------------------------------------------+
| extcodecopy(a:u256, t:u256, f:u256, s:u256) | like codecopy(t, f, s) but take code at address a |
+---------------------------------------------+-----------------------------------------------------------------+
@ -508,19 +508,19 @@ The following functions must be available:
+---------------------------------------------+-----------------------------------------------------------------+
| discardu256(unused:u256) | discard value |
+---------------------------------------------+-----------------------------------------------------------------+
| splitu256tou64(x:u256) -> (x1:u64, x2:u64, | split u256 to four u64's |
| splitu256tou64(x:u256) > (x1:u64, x2:u64, | split u256 to four u64's |
| x3:u64, x4:u64) | |
+---------------------------------------------+-----------------------------------------------------------------+
| combineu64tou256(x1:u64, x2:u64, x3:u64, | combine four u64's into a single u256 |
| x4:u64) -> (x:u256) | |
| x4:u64) > (x:u256) | |
+---------------------------------------------+-----------------------------------------------------------------+
| keccak256(p:u256, s:u256) -> v:u256 | keccak(mem[p...(p+s))) |
| keccak256(p:u256, s:u256) > v:u256 | keccak(mem[p...(p+s))) |
+---------------------------------------------+-----------------------------------------------------------------+
| *Object access* | |
+---------------------------------------------+-----------------------------------------------------------------+
| datasize(name:string) -> size:u256 | size of the data object in bytes, name has to be string literal |
| datasize(name:string) > size:u256 | size of the data object in bytes, name has to be string literal |
+---------------------------------------------+-----------------------------------------------------------------+
| dataoffset(name:string) -> offset:u256 | offset of the data object inside the data area in bytes, |
| dataoffset(name:string) > offset:u256 | offset of the data object inside the data area in bytes, |
| | name has to be string literal |
+---------------------------------------------+-----------------------------------------------------------------+
| datacopy(dst:u256, src:u256, len:u256) | copy len bytes from the data area starting at offset src bytes |