Merge pull request #2 from Dominator008/fix-test

Fix tests
2020-09-08 23:45:08 +08:00
parent 06e4f00c9b e3ce9758e5
commit 1c366455ea
3 changed files with 1362 additions and 494 deletions
--- a/test/LiquidityProvider.test.ts
+++ b/test/LiquidityProvider.test.ts
--- a/test/Trader.test.ts
+++ b/test/Trader.test.ts
@@ -5,277 +5,621 @@
 */
 import * as assert from 'assert';
 import { DODOContext, getDODOContext } from './utils/Context';
 import { decimalStr } from './utils/Converter';
 import { logGas } from './utils/Log';
 import * as assert from "assert"
-let lp: string
+let lp: string;
-let trader: string
+let trader: string;
 async function init(ctx: DODOContext): Promise<void> {
-  await ctx.setOraclePrice(decimalStr("100"))
+  await ctx.setOraclePrice(decimalStr("100"));
-  lp = ctx.spareAccounts[0]
+  lp = ctx.spareAccounts[0];
-  trader = ctx.spareAccounts[1]
+  trader = ctx.spareAccounts[1];
-  await ctx.approveDODO(lp)
+  await ctx.approveDODO(lp);
-  await ctx.approveDODO(trader)
+  await ctx.approveDODO(trader);
-  await ctx.mintTestToken(lp, decimalStr("10"), decimalStr("1000"))
+  await ctx.mintTestToken(lp, decimalStr("10"), decimalStr("1000"));
-  await ctx.mintTestToken(trader, decimalStr("10"), decimalStr("1000"))
+  await ctx.mintTestToken(trader, decimalStr("10"), decimalStr("1000"));
-  await ctx.DODO.methods.depositBaseTo(lp, decimalStr("10")).send(ctx.sendParam(lp))
+  await ctx.DODO.methods
-  await ctx.DODO.methods.depositQuoteTo(lp, decimalStr("1000")).send(ctx.sendParam(lp))
+    .depositBaseTo(lp, decimalStr("10"))
    .send(ctx.sendParam(lp));
  await ctx.DODO.methods
    .depositQuoteTo(lp, decimalStr("1000"))
    .send(ctx.sendParam(lp));
 }
 describe("Trader", () => {
-
+  let snapshotId: string;
-  let snapshotId: string
+  let ctx: DODOContext;
  let ctx: DODOContext
  before(async () => {
-    ctx = await getDODOContext()
+    ctx = await getDODOContext();
    await init(ctx);
-  })
+  });
  beforeEach(async () => {
    snapshotId = await ctx.EVM.snapshot();
  });
  afterEach(async () => {
-    await ctx.EVM.reset(snapshotId)
+    await ctx.EVM.reset(snapshotId);
  });
  describe("R goes above ONE", () => {
    it("buy when R equals ONE", async () => {
-      logGas(await ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("110"), "0x").send(ctx.sendParam(trader)), "buy base token when balanced")
+      await logGas(
        ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("110"), "0x"),
        ctx.sendParam(trader),
        "buy base token when balanced"
      );
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("11"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "898581839502056240973")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("11")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "898581839502056240973"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0.001"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0"))
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0.001")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0")
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), decimalStr("8.999"))
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "1101418160497943759027")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
        decimalStr("8.999")
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "1101418160497943759027"
      );
      // price update
-      assert.equal(await ctx.DODO.methods.getMidPrice().call(), "102353368821735563400")
+      assert.equal(
-    })
+        await ctx.DODO.methods.getMidPrice().call(),
        "102353368821735563400"
      );
    });
    it("buy when R is ABOVE ONE", async () => {
-      await ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("110"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      logGas(await ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("130"), "0x").send(ctx.sendParam(trader)), "buy when R is ABOVE ONE")
+        .buyBaseToken(decimalStr("1"), decimalStr("110"), "0x")
        .send(ctx.sendParam(trader));
      await logGas(
        ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("130"), "0x"),
        ctx.sendParam(trader),
        "buy when R is ABOVE ONE"
      );
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("12"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "794367183433412077653")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("12")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "794367183433412077653"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0.002"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0"))
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0.002")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0")
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), decimalStr("7.998"))
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "1205632816566587922347")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
-    })
+        decimalStr("7.998")
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "1205632816566587922347"
      );
    });
    it("sell when R is ABOVE ONE", async () => {
-      await ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("110"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      logGas(await ctx.DODO.methods.sellBaseToken(decimalStr("0.5"), decimalStr("40"), "0x").send(ctx.sendParam(trader)), "sell when R is ABOVE ONE")
+        .buyBaseToken(decimalStr("1"), decimalStr("110"), "0x")
        .send(ctx.sendParam(trader));
      await logGas(
        ctx.DODO.methods.sellBaseToken(
          decimalStr("0.5"),
          decimalStr("40"),
          "0x"
        ),
        ctx.sendParam(trader),
        "sell when R is ABOVE ONE"
      );
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("10.5"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "949280846351657143136")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("10.5")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "949280846351657143136"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0.001"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), "50851561534203512")
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0.001")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        "50851561534203512"
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), decimalStr("9.499"))
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "1050668302086808653352")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
-    })
+        decimalStr("9.499")
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "1050668302086808653352"
      );
    });
    it("sell when R is ABOVE ONE and RStatus back to ONE", async () => {
-      await ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("110"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      logGas(await ctx.DODO.methods.sellBaseToken("1003002430889317763", decimalStr("90"), "0x").send(ctx.sendParam(trader)), "sell when R is ABOVE ONE and RStatus back to ONE")
+        .buyBaseToken(decimalStr("1"), decimalStr("110"), "0x")
        .send(ctx.sendParam(trader));
      await logGas(
        ctx.DODO.methods.sellBaseToken(
          "1003002430889317763",
          decimalStr("90"),
          "0x"
        ),
        ctx.sendParam(trader),
        "sell when R is ABOVE ONE and RStatus back to ONE"
      );
      // R status
-      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "0")
+      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "0");
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), "9996997569110682237")
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "999695745518506168723")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        "9996997569110682237"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "999695745518506168723"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0.001"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), "101418160497943759")
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0.001")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        "101418160497943759"
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), "10002002430889317763")
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "1000202836320995887518")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
        "10002002430889317763"
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "1000202836320995887518"
      );
      // target status
-      assert.equal(await ctx.DODO.methods._TARGET_BASE_TOKEN_AMOUNT_().call(), "10002002430889317763")
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._TARGET_QUOTE_TOKEN_AMOUNT_().call(), "1000202836320995887518")
+        await ctx.DODO.methods._TARGET_BASE_TOKEN_AMOUNT_().call(),
-    })
+        "10002002430889317763"
      );
      assert.equal(
        await ctx.DODO.methods._TARGET_QUOTE_TOKEN_AMOUNT_().call(),
        "1000202836320995887518"
      );
    });
    it("sell when R is ABOVE ONE and RStatus becomes BELOW ONE", async () => {
-      await ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("110"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      logGas(await ctx.DODO.methods.sellBaseToken(decimalStr("2"), decimalStr("90"), "0x").send(ctx.sendParam(trader)), "sell when R is ABOVE ONE and RStatus becomes BELOW ONE [gas cost worst case]")
+        .buyBaseToken(decimalStr("1"), decimalStr("110"), "0x")
        .send(ctx.sendParam(trader));
      await logGas(
        ctx.DODO.methods.sellBaseToken(decimalStr("2"), decimalStr("90"), "0x"),
        ctx.sendParam(trader),
        "sell when R is ABOVE ONE and RStatus becomes BELOW ONE [gas cost worst case]"
      );
      // R status
-      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "2")
+      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "2");
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("9"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "1098020621600061709144")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("9")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "1098020621600061709144"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0.001"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), "200038898794388634")
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0.001")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        "200038898794388634"
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), decimalStr("10.999"))
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "901779339501143902222")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
        decimalStr("10.999")
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "901779339501143902222"
      );
      // target status
-      assert.equal(await ctx.DODO.methods._TARGET_BASE_TOKEN_AMOUNT_().call(), "10002002430889317763")
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._TARGET_QUOTE_TOKEN_AMOUNT_().call(), "1000400077797588777268")
+        await ctx.DODO.methods._TARGET_BASE_TOKEN_AMOUNT_().call(),
-    })
+        "10002002430889317763"
-  })
+      );
      assert.equal(
        await ctx.DODO.methods._TARGET_QUOTE_TOKEN_AMOUNT_().call(),
        "1000400077797588777268"
      );
    });
  });
  describe("R goes below ONE", () => {
    it("sell when R equals ONE", async () => {
-      logGas(await ctx.DODO.methods.sellBaseToken(decimalStr("1"), decimalStr("90"), "0x").send(ctx.sendParam(trader)), "sell base token when balanced")
+      await logGas(
        ctx.DODO.methods.sellBaseToken(decimalStr("1"), decimalStr("90"), "0x"),
        ctx.sendParam(trader),
        "sell base token when balanced"
      );
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("9"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "1098617454226610630663")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("9")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "1098617454226610630663"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), "0")
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), "98914196817061816")
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        "0"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        "98914196817061816"
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), decimalStr("11"))
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "901283631576572307521")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
        decimalStr("11")
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "901283631576572307521"
      );
      // price update
-      assert.equal(await ctx.DODO.methods.getMidPrice().call(), "97736983274307939149")
+      assert.equal(
-    })
+        await ctx.DODO.methods.getMidPrice().call(),
        "97736983274307939149"
      );
    });
    it("sell when R is BELOW ONE", async () => {
-      await ctx.DODO.methods.sellBaseToken(decimalStr("3"), decimalStr("90"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      logGas(await ctx.DODO.methods.sellBaseToken(decimalStr("3"), decimalStr("90"), "0x").send(ctx.sendParam(trader)), "sell when R is BELOW ONE")
+        .sellBaseToken(decimalStr("3"), decimalStr("90"), "0x")
        .send(ctx.sendParam(trader));
      await logGas(
        ctx.DODO.methods.sellBaseToken(decimalStr("3"), decimalStr("90"), "0x"),
        ctx.sendParam(trader),
        "sell when R is BELOW ONE"
      );
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("4"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "1535961012052716726151")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("4")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "1535961012052716726151"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), "0")
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), "537573733252474148")
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        "0"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        "537573733252474148"
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), decimalStr("16"))
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "463501414214030799701")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
-    })
+        decimalStr("16")
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "463501414214030799701"
      );
    });
    it("buy when R is BELOW ONE", async () => {
-      await ctx.DODO.methods.sellBaseToken(decimalStr("1"), decimalStr("90"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      logGas(await ctx.DODO.methods.buyBaseToken(decimalStr("0.5"), decimalStr("60"), "0x").send(ctx.sendParam(trader)), "buy when R is BELOW ONE")
+        .sellBaseToken(decimalStr("1"), decimalStr("90"), "0x")
        .send(ctx.sendParam(trader));
      await logGas(
        ctx.DODO.methods.buyBaseToken(
          decimalStr("0.5"),
          decimalStr("60"),
          "0x"
        ),
        ctx.sendParam(trader),
        "buy when R is BELOW ONE"
      );
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("9.5"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "1049294316148665165453")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("9.5")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "1049294316148665165453"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0.0005"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), "98914196817061816")
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0.0005")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        "98914196817061816"
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), decimalStr("10.4995"))
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "950606769654517772731")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
-    })
+        decimalStr("10.4995")
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "950606769654517772731"
      );
    });
    it("buy when R is BELOW ONE and RStatus back to ONE", async () => {
-      await ctx.DODO.methods.sellBaseToken(decimalStr("1"), decimalStr("90"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      logGas(await ctx.DODO.methods.buyBaseToken("997008973080757728", decimalStr("110"), "0x").send(ctx.sendParam(trader)), "buy when R is BELOW ONE and RStatus back to ONE")
+        .sellBaseToken(decimalStr("1"), decimalStr("90"), "0x")
        .send(ctx.sendParam(trader));
      await logGas(
        ctx.DODO.methods.buyBaseToken(
          "997008973080757728",
          decimalStr("110"),
          "0x"
        ),
        ctx.sendParam(trader),
        "buy when R is BELOW ONE and RStatus back to ONE"
      );
      // R status
-      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "0")
+      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "0");
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), "9997008973080757728")
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "999703024198699411500")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        "9997008973080757728"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "999703024198699411500"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), "997008973080757")
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), "98914196817061816")
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        "997008973080757"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        "98914196817061816"
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), "10001994017946161515")
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "1000198061604483526684")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
        "10001994017946161515"
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "1000198061604483526684"
      );
      // target status
-      assert.equal(await ctx.DODO.methods._TARGET_BASE_TOKEN_AMOUNT_().call(), "10001994017946161515")
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._TARGET_QUOTE_TOKEN_AMOUNT_().call(), "1000198061604483526684")
+        await ctx.DODO.methods._TARGET_BASE_TOKEN_AMOUNT_().call(),
-    })
+        "10001994017946161515"
      );
      assert.equal(
        await ctx.DODO.methods._TARGET_QUOTE_TOKEN_AMOUNT_().call(),
        "1000198061604483526684"
      );
    });
    it("buy when R is BELOW ONE and RStatus becomes ABOVE ONE", async () => {
-      await ctx.DODO.methods.sellBaseToken(decimalStr("1"), decimalStr("90"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      logGas(await ctx.DODO.methods.buyBaseToken(decimalStr("2"), decimalStr("220"), "0x").send(ctx.sendParam(trader)), "buy when R is BELOW ONE and RStatus becomes ABOVE ONE [gas cost worst case]")
+        .sellBaseToken(decimalStr("1"), decimalStr("90"), "0x")
        .send(ctx.sendParam(trader));
      await logGas(
        ctx.DODO.methods.buyBaseToken(decimalStr("2"), decimalStr("220"), "0x"),
        ctx.sendParam(trader),
        "buy when R is BELOW ONE and RStatus becomes ABOVE ONE [gas cost worst case]"
      );
      // R status
-      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "1")
+      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "1");
      // trader balances
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("11"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "897977789597854403796")
+        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("11")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "897977789597854403796"
      );
      // maintainer balances
-      assert.equal(await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(), decimalStr("0.002"))
+      assert.equal(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(), "98914196817061816")
+        await ctx.BASE.methods.balanceOf(ctx.Maintainer).call(),
        decimalStr("0.002")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(ctx.Maintainer).call(),
        "98914196817061816"
      );
      // dodo balances
-      assert.equal(await ctx.DODO.methods._BASE_BALANCE_().call(), decimalStr("8.998"))
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._QUOTE_BALANCE_().call(), "1101923296205328534388")
+        await ctx.DODO.methods._BASE_BALANCE_().call(),
        decimalStr("8.998")
      );
      assert.equal(
        await ctx.DODO.methods._QUOTE_BALANCE_().call(),
        "1101923296205328534388"
      );
      // target status
-      assert.equal(await ctx.DODO.methods._TARGET_BASE_TOKEN_AMOUNT_().call(), "10004000000000000000")
+      assert.equal(
-      assert.equal(await ctx.DODO.methods._TARGET_QUOTE_TOKEN_AMOUNT_().call(), "1000198061604483526684")
+        await ctx.DODO.methods._TARGET_BASE_TOKEN_AMOUNT_().call(),
-    })
+        "10004000000000000000"
-  })
+      );
      assert.equal(
        await ctx.DODO.methods._TARGET_QUOTE_TOKEN_AMOUNT_().call(),
        "1000198061604483526684"
      );
    });
  });
  describe("Corner cases", () => {
    it("buy or sell 0", async () => {
-      await ctx.DODO.methods.sellBaseToken(decimalStr("0"), decimalStr("0"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("10"))
+        .sellBaseToken(decimalStr("0"), decimalStr("0"), "0x")
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), decimalStr("1000"))
+        .send(ctx.sendParam(trader));
      assert.equal(
        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("10")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        decimalStr("1000")
      );
-      await ctx.DODO.methods.buyBaseToken(decimalStr("0"), decimalStr("0"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), decimalStr("10"))
+        .buyBaseToken(decimalStr("0"), decimalStr("0"), "0x")
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), decimalStr("1000"))
+        .send(ctx.sendParam(trader));
-    })
+      assert.equal(
        await ctx.BASE.methods.balanceOf(trader).call(),
        decimalStr("10")
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        decimalStr("1000")
      );
    });
    it("buy or sell a tiny amount", async () => {
      // no precision problem
-      await ctx.DODO.methods.sellBaseToken("1", decimalStr("0"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), "9999999999999999999")
+        .sellBaseToken("1", decimalStr("0"), "0x")
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "1000000000000000000100")
+        .send(ctx.sendParam(trader));
      assert.equal(
        await ctx.BASE.methods.balanceOf(trader).call(),
        "9999999999999999999"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "1000000000000000000100"
      );
      // have precision problem, charge 0
-      await ctx.DODO.methods.buyBaseToken("1", decimalStr("1"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), "10000000000000000000")
+        .buyBaseToken("1", decimalStr("1"), "0x")
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "1000000000000000000100")
+        .send(ctx.sendParam(trader));
-      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "0")
+      assert.equal(
        await ctx.BASE.methods.balanceOf(trader).call(),
        "10000000000000000000"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "1000000000000000000100"
      );
      assert.equal(await ctx.DODO.methods._R_STATUS_().call(), "0");
      // no precision problem if trading amount is extremely small
-      await ctx.DODO.methods.buyBaseToken("10", decimalStr("1"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
-      assert.equal(await ctx.BASE.methods.balanceOf(trader).call(), "10000000000000000010")
+        .buyBaseToken("10", decimalStr("1"), "0x")
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "999999999999999999100")
+        .send(ctx.sendParam(trader));
-    })
+      assert.equal(
        await ctx.BASE.methods.balanceOf(trader).call(),
        "10000000000000000010"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(trader).call(),
        "999999999999999999100"
      );
    });
    it("sell a huge amount of base token", async () => {
-      await ctx.mintTestToken(trader, decimalStr("10000"), "0")
+      await ctx.mintTestToken(trader, decimalStr("10000"), "0");
-      await ctx.DODO.methods.sellBaseToken(decimalStr("10000"), "0", "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
        .sellBaseToken(decimalStr("10000"), "0", "0x")
        .send(ctx.sendParam(trader));
      // nearly drain out quote pool
      // because the fee donated is greater than remaining quote pool
      // quote lp earn a considerable profit
-      assert.equal(await ctx.QUOTE.methods.balanceOf(trader).call(), "1996900220185135480813")
+      assert.equal(
-      assert.equal(await ctx.DODO.methods.getLpQuoteBalance(lp).call(), "4574057156329524019750")
+        await ctx.QUOTE.methods.balanceOf(trader).call(),
-    })
+        "1996900220185135480813"
-  })
+      );
      assert.equal(
        await ctx.DODO.methods.getLpQuoteBalance(lp).call(),
        "4574057156329524019750"
      );
    });
  });
  describe("Revert cases", () => {
    it("price limit", async () => {
      await assert.rejects(
-        ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("100"), "0x").send(ctx.sendParam(trader)),
+        ctx.DODO.methods
          .buyBaseToken(decimalStr("1"), decimalStr("100"), "0x")
          .send(ctx.sendParam(trader)),
        /BUY_BASE_COST_TOO_MUCH/
-      )
+      );
      await assert.rejects(
-        ctx.DODO.methods.sellBaseToken(decimalStr("1"), decimalStr("100"), "0x").send(ctx.sendParam(trader)),
+        ctx.DODO.methods
          .sellBaseToken(decimalStr("1"), decimalStr("100"), "0x")
          .send(ctx.sendParam(trader)),
        /SELL_BASE_RECEIVE_NOT_ENOUGH/
-      )
+      );
-    })
+    });
    it("base balance limit", async () => {
      await assert.rejects(
-        ctx.DODO.methods.buyBaseToken(decimalStr("11"), decimalStr("10000"), "0x").send(ctx.sendParam(trader)),
+        ctx.DODO.methods
          .buyBaseToken(decimalStr("11"), decimalStr("10000"), "0x")
          .send(ctx.sendParam(trader)),
        /DODO_BASE_BALANCE_NOT_ENOUGH/
-      )
+      );
-      await ctx.DODO.methods.buyBaseToken(decimalStr("1"), decimalStr("200"), "0x").send(ctx.sendParam(trader))
+      await ctx.DODO.methods
        .buyBaseToken(decimalStr("1"), decimalStr("200"), "0x")
        .send(ctx.sendParam(trader));
      await assert.rejects(
-        ctx.DODO.methods.buyBaseToken(decimalStr("11"), decimalStr("10000"), "0x").send(ctx.sendParam(trader)),
+        ctx.DODO.methods
          .buyBaseToken(decimalStr("11"), decimalStr("10000"), "0x")
          .send(ctx.sendParam(trader)),
        /DODO_BASE_BALANCE_NOT_ENOUGH/
-      )
+      );
-    })
+    });
-  })
+  });
-})
+});
--- a/test/UniswapArbitrageur.test.ts
+++ b/test/UniswapArbitrageur.test.ts
@@ -5,116 +5,172 @@
 */
-import { DODOContext, getDODOContext } from './utils/Context';
+import * as assert from 'assert';
 import { decimalStr } from './utils/Converter';
 import { logGas } from './utils/Log';
 import * as assert from "assert"
 import { newContract, UNISWAP_CONTRACT_NAME, UNISWAP_ARBITRAGEUR_CONTRACT_NAME } from './utils/Contracts';
 import { Contract } from 'web3-eth-contract';
-let lp: string
+import { DODOContext, getDODOContext } from './utils/Context';
-let keeper: string
+import {
  newContract,
  UNISWAP_ARBITRAGEUR_CONTRACT_NAME,
  UNISWAP_CONTRACT_NAME,
 } from './utils/Contracts';
 import { decimalStr } from './utils/Converter';
 import { logGas } from './utils/Log';
-let Uniswap: Contract
+let lp: string;
-let UniswapArbitrageur: Contract
+let keeper: string;
-let UniswapReverse: Contract
+let Uniswap: Contract;
-let UniswapArbitrageurReverse: Contract
+let UniswapArbitrageur: Contract;
 let UniswapReverse: Contract;
 let UniswapArbitrageurReverse: Contract;
 async function init(ctx: DODOContext): Promise<void> {
-  await ctx.setOraclePrice(decimalStr("100"))
+  await ctx.setOraclePrice(decimalStr("100"));
-  lp = ctx.spareAccounts[0]
+  lp = ctx.spareAccounts[0];
-  keeper = ctx.spareAccounts[1]
+  keeper = ctx.spareAccounts[1];
-  await ctx.approveDODO(lp)
+  await ctx.approveDODO(lp);
-  await ctx.mintTestToken(lp, decimalStr("100"), decimalStr("10000"))
+  await ctx.mintTestToken(lp, decimalStr("100"), decimalStr("10000"));
-  await ctx.DODO.methods.depositBase(decimalStr("10")).send(ctx.sendParam(lp))
+  await ctx.DODO.methods.depositBase(decimalStr("10")).send(ctx.sendParam(lp));
-  await ctx.DODO.methods.depositQuote(decimalStr("1000")).send(ctx.sendParam(lp))
+  await ctx.DODO.methods
    .depositQuote(decimalStr("1000"))
    .send(ctx.sendParam(lp));
-  Uniswap = await newContract(UNISWAP_CONTRACT_NAME)
+  Uniswap = await newContract(UNISWAP_CONTRACT_NAME);
-  Uniswap.methods.initialize(ctx.BASE.options.address, ctx.QUOTE.options.address).send(ctx.sendParam(ctx.Deployer))
+  Uniswap.methods
-  ctx.BASE.methods.transfer(Uniswap.options.address, decimalStr("10")).send(ctx.sendParam(lp))
+    .initialize(ctx.BASE.options.address, ctx.QUOTE.options.address)
-  ctx.QUOTE.methods.transfer(Uniswap.options.address, decimalStr("2000")).send(ctx.sendParam(lp))
+    .send(ctx.sendParam(ctx.Deployer));
-  Uniswap.methods.sync().send(ctx.sendParam(lp))
+  ctx.BASE.methods
    .transfer(Uniswap.options.address, decimalStr("10"))
    .send(ctx.sendParam(lp));
  ctx.QUOTE.methods
    .transfer(Uniswap.options.address, decimalStr("2000"))
    .send(ctx.sendParam(lp));
  Uniswap.methods.sync().send(ctx.sendParam(lp));
-  UniswapArbitrageur = await newContract(UNISWAP_ARBITRAGEUR_CONTRACT_NAME, [Uniswap.options.address, ctx.DODO.options.address])
+  UniswapArbitrageur = await newContract(UNISWAP_ARBITRAGEUR_CONTRACT_NAME, [
    Uniswap.options.address,
    ctx.DODO.options.address,
  ]);
-  UniswapReverse = await newContract(UNISWAP_CONTRACT_NAME)
+  UniswapReverse = await newContract(UNISWAP_CONTRACT_NAME);
-  UniswapReverse.methods.initialize(ctx.BASE.options.address, ctx.QUOTE.options.address).send(ctx.sendParam(ctx.Deployer))
+  UniswapReverse.methods
-  ctx.BASE.methods.transfer(UniswapReverse.options.address, decimalStr("10")).send(ctx.sendParam(lp))
+    .initialize(ctx.BASE.options.address, ctx.QUOTE.options.address)
-  ctx.QUOTE.methods.transfer(UniswapReverse.options.address, decimalStr("2000")).send(ctx.sendParam(lp))
+    .send(ctx.sendParam(ctx.Deployer));
-  UniswapReverse.methods.sync().send(ctx.sendParam(lp))
+  ctx.BASE.methods
    .transfer(UniswapReverse.options.address, decimalStr("10"))
    .send(ctx.sendParam(lp));
  ctx.QUOTE.methods
    .transfer(UniswapReverse.options.address, decimalStr("2000"))
    .send(ctx.sendParam(lp));
  UniswapReverse.methods.sync().send(ctx.sendParam(lp));
-  UniswapArbitrageurReverse = await newContract(UNISWAP_ARBITRAGEUR_CONTRACT_NAME, [UniswapReverse.options.address, ctx.DODO.options.address])
+  UniswapArbitrageurReverse = await newContract(
    UNISWAP_ARBITRAGEUR_CONTRACT_NAME,
    [UniswapReverse.options.address, ctx.DODO.options.address]
  );
 }
 describe("Uniswap Arbitrageur", () => {
-
+  let snapshotId: string;
-  let snapshotId: string
+  let ctx: DODOContext;
  let ctx: DODOContext
  before(async () => {
-    ctx = await getDODOContext()
+    ctx = await getDODOContext();
    await init(ctx);
-  })
+  });
  beforeEach(async () => {
    snapshotId = await ctx.EVM.snapshot();
  });
  afterEach(async () => {
-    await ctx.EVM.reset(snapshotId)
+    await ctx.EVM.reset(snapshotId);
  });
  describe("arbitrage with not reverse pair", () => {
    it("buy at dodo", async () => {
-      await ctx.setOraclePrice(decimalStr("100"))
+      await ctx.setOraclePrice(decimalStr("100"));
      // dodo price 100 uniswap price 200
      // buy at dodo
-      logGas(await UniswapArbitrageur.methods.executeBuyArbitrage(decimalStr("1")).send(ctx.sendParam(keeper)), "arbitrage buy at dodo not reverse")
+      await logGas(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(keeper).call(), "79836384956601695518")
+        UniswapArbitrageur.methods.executeBuyArbitrage(decimalStr("1")),
-    })
+        ctx.sendParam(keeper),
        "arbitrage buy at dodo not reverse"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(keeper).call(),
        "79836384956601695518"
      );
    });
    it("sell at dodo", async () => {
-      await ctx.setOraclePrice(decimalStr("300"))
+      await ctx.setOraclePrice(decimalStr("300"));
      // dodo price 300 uniswap price 200
      // sell at dodo
-      logGas(await UniswapArbitrageur.methods.executeSellArbitrage(decimalStr("1")).send(ctx.sendParam(keeper)), "arbitrage sell at dodo not reverse")
+      await logGas(
-      assert.equal(await ctx.BASE.methods.balanceOf(keeper).call(), "252761069524143743")
+        UniswapArbitrageur.methods.executeSellArbitrage(decimalStr("1")),
-    })
+        ctx.sendParam(keeper),
-  })
+        "arbitrage sell at dodo not reverse"
      );
      assert.equal(
        await ctx.BASE.methods.balanceOf(keeper).call(),
        "252761069524143743"
      );
    });
  });
  describe("arbitrage with reverse pair", () => {
    it("buy at dodo", async () => {
-      await ctx.setOraclePrice(decimalStr("100"))
+      await ctx.setOraclePrice(decimalStr("100"));
      // dodo price 100 uniswap price 200
      // buy at dodo
-      logGas(await UniswapArbitrageurReverse.methods.executeBuyArbitrage(decimalStr("1")).send(ctx.sendParam(keeper)), "arbitrage buy at dodo reverse")
+      await logGas(
-      assert.equal(await ctx.QUOTE.methods.balanceOf(keeper).call(), "79836384956601695518")
+        UniswapArbitrageurReverse.methods.executeBuyArbitrage(decimalStr("1")),
-    })
+        ctx.sendParam(keeper),
        "arbitrage buy at dodo reverse"
      );
      assert.equal(
        await ctx.QUOTE.methods.balanceOf(keeper).call(),
        "79836384956601695518"
      );
    });
    it("sell at dodo", async () => {
-      await ctx.setOraclePrice(decimalStr("300"))
+      await ctx.setOraclePrice(decimalStr("300"));
      // dodo price 300 uniswap price 200
      // sell at dodo
-      logGas(await UniswapArbitrageurReverse.methods.executeSellArbitrage(decimalStr("1")).send(ctx.sendParam(keeper)), "arbitrage sell at dodo reverse")
+      await logGas(
-      assert.equal(await ctx.BASE.methods.balanceOf(keeper).call(), "252761069524143743")
+        UniswapArbitrageurReverse.methods.executeSellArbitrage(decimalStr("1")),
-    })
+        ctx.sendParam(keeper),
-  })
+        "arbitrage sell at dodo reverse"
      );
      assert.equal(
        await ctx.BASE.methods.balanceOf(keeper).call(),
        "252761069524143743"
      );
    });
  });
  describe("revert cases", () => {
    it("price not match", async () => {
-      await ctx.setOraclePrice(decimalStr("200"))
+      await ctx.setOraclePrice(decimalStr("200"));
      await assert.rejects(
-        UniswapArbitrageurReverse.methods.executeBuyArbitrage(decimalStr("1")).send(ctx.sendParam(keeper)),
+        UniswapArbitrageurReverse.methods
          .executeBuyArbitrage(decimalStr("1"))
          .send(ctx.sendParam(keeper)),
        /NOT_PROFITABLE/
-      )
+      );
      await assert.rejects(
-        UniswapArbitrageurReverse.methods.executeSellArbitrage(decimalStr("1")).send(ctx.sendParam(keeper)),
+        UniswapArbitrageurReverse.methods
          .executeSellArbitrage(decimalStr("1"))
          .send(ctx.sendParam(keeper)),
        /NOT_PROFITABLE/
-      )
+      );
-    })
+    });
-  })
+  });
-})
+});