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package til
import (
"fmt"
"strings"
"testing"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
var debug = false
func TestParseBlockchainTxs(t *testing.T) {
s := `
Type: Blockchain
// token registrations
AddToken(1)
AddToken(2)
// deposits
Deposit(1) A: 10
Deposit(2) A: 20
Deposit(1) B: 5
CreateAccountDeposit(1) C: 5
CreateAccountDepositTransfer(1) D-A: 15, 10
CreateAccountDepositCoordinator(1) E
// L2 transactions
Transfer(1) A-B: 6 (1)
Transfer(1) B-D: 3 (1)
Transfer(1) A-E: 1 (1)
// set new batch
> batch
AddToken(3)
DepositTransfer(1) A-B: 15, 10
Transfer(1) C-A : 3 (1)
Transfer(2) A-B: 15 (1)
Deposit(1) User0: 20
Deposit(3) User1: 20
Transfer(1) User0-User1: 15 (1)
Transfer(3) User1-User0: 15 (1)
> batch
Transfer(1) User1-User0: 1 (1)
> batch
> block
// Exits
Exit(1) A: 5 (1)
`
parser := newParser(strings.NewReader(s))
instructions, err := parser.parse()
require.Nil(t, err)
assert.Equal(t, 25, len(instructions.instructions))
assert.Equal(t, 7, len(instructions.users))
if debug {
fmt.Println(instructions)
for _, instruction := range instructions.instructions {
fmt.Println(instruction.raw())
}
}
assert.Equal(t, txTypeCreateAccountDepositCoordinator, instructions.instructions[7].typ)
assert.Equal(t, typeNewBatch, instructions.instructions[11].typ)
assert.Equal(t, "Deposit(1)User0:20", instructions.instructions[16].raw())
assert.Equal(t, "Type: DepositTransfer, From: A, To: B, LoadAmount: 15, Amount: 10, Fee: 0, TokenID: 1\n", instructions.instructions[13].String())
assert.Equal(t, "Type: Transfer, From: User1, To: User0, Amount: 15, Fee: 1, TokenID: 3\n", instructions.instructions[19].String())
assert.Equal(t, "Transfer(2)A-B:15(1)", instructions.instructions[15].raw())
assert.Equal(t, "Type: Transfer, From: A, To: B, Amount: 15, Fee: 1, TokenID: 2\n", instructions.instructions[15].String())
assert.Equal(t, "Exit(1)A:5", instructions.instructions[24].raw())
assert.Equal(t, "Type: Exit, From: A, Amount: 5, TokenID: 1\n", instructions.instructions[24].String())
}
func TestParsePoolTxs(t *testing.T) {
s := `
Type: PoolL2
PoolTransfer(1) A-B: 6 (1)
PoolTransfer(2) A-B: 3 (3)
PoolTransfer(1) B-D: 3 (1)
PoolTransfer(1) C-D: 3 (1)
PoolExit(1) A: 5 (1)
`
parser := newParser(strings.NewReader(s))
instructions, err := parser.parse()
require.Nil(t, err)
assert.Equal(t, 5, len(instructions.instructions))
assert.Equal(t, 4, len(instructions.users))
if debug {
fmt.Println(instructions)
for _, instruction := range instructions.instructions {
fmt.Println(instruction.raw())
}
}
assert.Equal(t, "Transfer(1)A-B:6(1)", instructions.instructions[0].raw())
assert.Equal(t, "Transfer(2)A-B:3(3)", instructions.instructions[1].raw())
assert.Equal(t, "Transfer(1)B-D:3(1)", instructions.instructions[2].raw())
assert.Equal(t, "Transfer(1)C-D:3(1)", instructions.instructions[3].raw())
assert.Equal(t, "Exit(1)A:5", instructions.instructions[4].raw())
}
func TestParseErrors(t *testing.T) {
s := `
Type: Blockchain
Deposit(1) A:: 10
`
parser := newParser(strings.NewReader(s))
_, err := parser.parse()
assert.Equal(t, "Line 2: Deposit(1)A:: 10\n, err: strconv.Atoi: parsing \":\": invalid syntax", err.Error())
s = `
Type: Blockchain
AddToken(1)
Deposit(1) A: 10 20
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 4: 20, err: Unexpected Blockchain tx type: 20", err.Error())
s = `
Type: Blockchain
Transfer(1) A: 10
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 2: Transfer(1)A:, err: Expected '-', found ':'", err.Error())
s = `
Type: Blockchain
Transfer(1) A B: 10
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 2: Transfer(1)AB, err: Expected '-', found 'B'", err.Error())
s = `
Type: Blockchain
AddToken(1)
Transfer(1) A-B: 10 (255)
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Nil(t, err)
s = `
Type: Blockchain
Transfer(1) A-B: 10 (256)
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 2: Transfer(1)A-B:10(256)\n, err: Fee 256 can not be bigger than 255", err.Error())
// check that the PoolTransfer & Transfer are only accepted in the
// correct case case (PoolTxs/BlockchainTxs)
s = `
Type: PoolL2
Transfer(1) A-B: 10 (1)
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 2: Transfer, err: Unexpected PoolL2 tx type: Transfer", err.Error())
s = `
Type: Blockchain
PoolTransfer(1) A-B: 10 (1)
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 2: PoolTransfer, err: Unexpected Blockchain tx type: PoolTransfer", err.Error())
s = `
Type: Blockchain
> btch
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 2: >, err: Unexpected '> btch', expected '> batch' or '> block'", err.Error())
// check definition of set Type
s = `PoolTransfer(1) A-B: 10 (1)`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 1: PoolTransfer, err: Set type not defined", err.Error())
s = `Type: PoolL1`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 1: Type:, err: Invalid set type: 'PoolL1'. Valid set types: 'Blockchain', 'PoolL2'", err.Error())
s = `Type: PoolL1
Type: Blockchain`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 1: Type:, err: Invalid set type: 'PoolL1'. Valid set types: 'Blockchain', 'PoolL2'", err.Error())
s = `Type: PoolL2
Type: Blockchain`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 2: Instruction of 'Type: Blockchain' when there is already a previous instruction 'Type: PoolL2' defined", err.Error())
s = `Type: Blockchain
AddToken(1)
AddToken(0)
`
parser = newParser(strings.NewReader(s))
_, err = parser.parse()
assert.Equal(t, "Line 3: AddToken can not register TokenID 0", err.Error())
}