From 5783ebb93d12b50321ac8a75b128db514ae64b62 Mon Sep 17 00:00:00 2001 From: chriseth Date: Wed, 14 Nov 2018 17:33:02 +0100 Subject: Small changes to yul object specification. --- docs/yul.rst | 43 +++++++++++++++++++++++++++++++++++++------ 1 file changed, 37 insertions(+), 6 deletions(-) diff --git a/docs/yul.rst b/docs/yul.rst index ea0a298b..2784078c 100644 --- a/docs/yul.rst +++ b/docs/yul.rst @@ -515,6 +515,16 @@ The following functions must be available: +---------------------------------------------+-----------------------------------------------------------------+ | 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 | ++---------------------------------------------+-----------------------------------------------------------------+ +| 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 | +| | to memory at position dst | ++---------------------------------------------+-----------------------------------------------------------------+ Backends -------- @@ -540,12 +550,19 @@ TBD Specification of Yul Object =========================== +Yul objects are used to group named code and data sections. +The functions ``datasize``, ``dataoffset`` and ``datacopy`` +can be used to access these sections from within code. +Hex strings can be used to specify data in hex encoding, +regular strings in native encoding. For code, +``datacopy`` will access its assembled binary representation. + Grammar:: TopLevelObject = 'object' '{' Code? ( Object | Data )* '}' Object = 'object' StringLiteral '{' Code? ( Object | Data )* '}' Code = 'code' Block - Data = 'data' StringLiteral HexLiteral + Data = 'data' StringLiteral ( HexLiteral | StringLiteral ) HexLiteral = 'hex' ('"' ([0-9a-fA-F]{2})* '"' | '\'' ([0-9a-fA-F]{2})* '\'') StringLiteral = '"' ([^"\r\n\\] | '\\' .)* '"' @@ -558,14 +575,28 @@ An example Yul Object is shown below: // Code consists of a single object. A single "code" node is the code of the object. // Every (other) named object or data section is serialized and // made accessible to the special built-in functions datacopy / dataoffset / datasize - object { + // Access to nested objects can be performed by joining the names using ``.``. + // The current object and sub-objects and data items inside the current object + // are in scope without nested access. + object "Contract1" { code { - let size = datasize("runtime") + // first create "runtime.Contract2" + let size = datasize("runtime.Contract2") let offset = allocate(size) // This will turn into a memory->memory copy for eWASM and // a codecopy for EVM - datacopy(dataoffset("runtime"), offset, size) - // this is a constructor and the runtime code is returned + datacopy(offset, dataoffset("runtime.Contract2"), size) + // constructor parameter is a single number 0x1234 + mstore(add(offset, size), 0x1234) + create(offset, add(size, 32)) + + // now return the runtime object (this is + // constructor code) + size := datasize("runtime") + offset := allocate(size) + // This will turn into a memory->memory copy for eWASM and + // a codecopy for EVM + datacopy(offset, dataoffset("runtime"), size) return(offset, size) } @@ -579,7 +610,7 @@ An example Yul Object is shown below: let offset = allocate(size) // This will turn into a memory->memory copy for eWASM and // a codecopy for EVM - datacopy(dataoffset("Contract2"), offset, size) + datacopy(offset, dataoffset("Contract2"), size) // constructor parameter is a single number 0x1234 mstore(add(offset, size), 0x1234) create(offset, add(size, 32)) -- cgit