mirror of
https://github.com/nspcc-dev/neo-go.git
synced 2024-12-11 15:30:07 +00:00
d77354db66
* added runtime serialize and deserialize functions * removed getCurrentBlock from runtime functions * Added block and header stdlib interop functions * added transaction interop api * added asset interop api * bumped version * Added missing storage.Find storage API function * Fixed wrong example in the compiler README * updated the compiler README to be more accurate on compiler features |
||
---|---|---|
.. | ||
analysis.go | ||
codegen.go | ||
compiler.go | ||
emit.go | ||
func_scope.go | ||
README.md |
NEO-GO smart contract compiler
The neo-go compiler compiles Go programs to bytecode that the NEO virtual machine can understand.
Currently supported
Go internals
- type checking
- multiple assignments
- global variables
- types int, string, byte and booleans
- struct types + method receives
- functions
- composite literals
[]int, []string, []byte
- basic if statements
- binary expressions
- return statements
- for loops
- imports
Go builtins
- len
- append
VM API (interop layer)
- storage
- runtime
- block
- header
- transaction
- asset
- blockchain
VM utility helper functions
- SHA1
- SHA256
- Hash256
- Hash160
- other..
Custom utility functions
FromAddress(address string) []byte
Not yet implemented
- very small part of the interop layer (VM API)
Not supported
Due to the limitations of the NEO virtual machine, features listed below will not be supported.
- channels
- goroutines
- multiple returns
Quick start
Compile a smart contract
./bin/neo-go contract compile -i mycontract.go
By default the filename will be the name of your .go file with the .avm extension, the file will be located in the same directory where your Go contract is. If you want another location for your compiled contract:
./bin/neo-go contract compile -i mycontract.go --out /Users/foo/bar/contract.avm
Debugging your smart contract
You can dump the opcodes generated by the compiler with the following command:
./bin/neo-go contract opdump -i mycontract.go
This will result in something like this:
INDEX OPCODE DESC
0 0x52 OpPush2
1 0xc5 OpNewArray
2 0x6b OpToAltStack
3 0x 0 OpPush0
4 0x6c OpFromAltStack
5 0x76 OpDup
6 0x6b OpToAltStack
7 0x 0 OpPush0
8 0x52 OpPush2
9 0x7a OpRoll
10 0xc4 OpSetItem
Test invoke a compiled contract
You can simulate a test invocation of your compiled contract by the VM, to know the total gas cost for example, with the following command:
./bin/neo-go contract testinvoke -i mycompiledcontract.avm
Will output something like:
{
"state": "HALT, BREAK",
"gas_consumed": "0.006",
"Stack": [
{
"type": "Integer",
"value": "9"
}
]
}
Smart contract examples
Check if the invoker of the contract is the owning address
package mycontract
import (
"github.com/CityOfZion/neo-go/pkg/vm/api/runtime"
"github.com/CityOfZion/neo-go/pkg/vm/api/util"
)
var owner = util.FromAddress("AJX1jGfj3qPBbpAKjY527nPbnrnvSx9nCg")
func Main() bool {
isOwner := runtime.CheckWitness(owner)
if isOwner {
runtime.Log("invoker is the owner")
return true
}
return false
}
Simple token
package mytoken
import (
"github.com/CityOfZion/neo-go/pkg/vm/api/runtime"
"github.com/CityOfZion/neo-go/pkg/vm/api/storage"
)
var owner = util.FromAddress("AJX1jGfj3qPBbpAKjY527nPbnrnvSx9nCg")
type Token struct {
Name string
Symbol string
TotalSupply int
Owner []byte
}
func (t Token) AddToCirculation(amount int) bool {
ctx := storage.Context()
inCirc := storage.Get(ctx, "in_circ").(int)
inCirc += amount
storage.Put(ctx, "in_circ", inCirc)
return true
}
func newToken() Token {
return Token{
Name: "your awesome NEO token",
Symbol: "YANT",
TotalSupply: 1000,
Owner: owner,
}
}
func Main(operation string, args []interface{}) bool {
token := newToken()
trigger := runtime.GetTrigger()
if trigger == runtime.Verification() {
isOwner := runtime.CheckWitness(token.Owner)
if isOwner {
return true
}
return false
}
if trigger == runtime.Application() {
if operation == "mintTokens" {
token.AddToCirculation(100)
}
}
return true
}
How to report compiler bugs
- Make a proper testcase (example testcases can be found in the tests folder)
- Create an issue on Github
- Make a PR with a reference to the created issue, containing the testcase that proves the bug
- Either you fix the bug yourself or wait for patch that solves the problem