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ofxgo/cmd/ofx/invtransactions.go

208 lines
6.9 KiB
Go

package main
import (
"flag"
"fmt"
"github.com/aclindsa/ofxgo"
"os"
)
var invTransactionsCommand = Command{
Name: "transactions-inv",
Description: "Print investment transactions",
Flags: flag.NewFlagSet("transactions-inv", flag.ExitOnError),
CheckFlags: checkServerFlags,
Do: invTransactions,
}
func init() {
defineServerFlags(invTransactionsCommand.Flags)
invTransactionsCommand.Flags.StringVar(&acctId, "acctid", "", "AcctId (from `get-accounts` subcommand)")
invTransactionsCommand.Flags.StringVar(&brokerId, "brokerid", "", "BrokerId (from `get-accounts` subcommand)")
}
func invTransactions() {
client, query := NewRequest()
uid, err := ofxgo.RandomUID()
if err != nil {
fmt.Println("Error creating uid for transaction:", err)
os.Exit(1)
}
statementRequest := ofxgo.InvStatementRequest{
TrnUID: *uid,
InvAcctFrom: ofxgo.InvAcct{
BrokerId: ofxgo.String(brokerId),
AcctId: ofxgo.String(acctId),
},
Include: true,
IncludeOO: true,
IncludePos: true,
IncludeBalance: true,
Include401K: true,
Include401KBal: true,
}
query.InvStmt = append(query.InvStmt, &statementRequest)
response, err := client.Request(query)
if err != nil {
fmt.Println("Error requesting account statement:", err)
os.Exit(1)
}
if response.Signon.Status.Code != 0 {
meaning, _ := response.Signon.Status.CodeMeaning()
fmt.Printf("Nonzero signon status (%d: %s) with message: %s\n", response.Signon.Status.Code, meaning, response.Signon.Status.Message)
os.Exit(1)
}
if len(response.InvStmt) < 1 {
fmt.Println("No investment messages received")
return
}
if stmt, ok := response.InvStmt[0].(*ofxgo.InvStatementResponse); ok {
availCash := stmt.InvBal.AvailCash
if availCash.IsInt() && availCash.Num().Int64() != 0 {
fmt.Printf("Balance: %s %s (as of %s)\n", stmt.InvBal.AvailCash, stmt.CurDef, stmt.DtAsOf)
}
for _, banktrans := range stmt.InvTranList.BankTransactions {
fmt.Printf("\nBank Transactions for %s subaccount:\n", banktrans.SubAcctFund)
for _, tran := range banktrans.Transactions {
printTransaction(stmt.CurDef, &tran)
}
}
fmt.Printf("\nInvestment Transactions:\n")
for _, t := range stmt.InvTranList.InvTransactions {
fmt.Printf("%-14s", t.TransactionType())
switch tran := t.(type) {
case ofxgo.BuyDebt:
printInvBuy(stmt.CurDef, &tran.InvBuy)
case ofxgo.BuyMF:
printInvBuy(stmt.CurDef, &tran.InvBuy)
case ofxgo.BuyOpt:
printInvBuy(stmt.CurDef, &tran.InvBuy)
case ofxgo.BuyOther:
printInvBuy(stmt.CurDef, &tran.InvBuy)
case ofxgo.BuyStock:
printInvBuy(stmt.CurDef, &tran.InvBuy)
case ofxgo.ClosureOpt:
printInvTran(&tran.InvTran)
fmt.Printf("%s %s contracts (%d shares each)\n", tran.OptAction, tran.Units, tran.ShPerCtrct)
case ofxgo.Income:
printInvTran(&tran.InvTran)
currency := stmt.CurDef
if tran.Currency != nil {
currency = tran.Currency.CurSym
} else if tran.OrigCurrency != nil {
currency = tran.Currency.CurSym
}
fmt.Printf(" %s %s %s (%s %s)\n", tran.IncomeType, tran.Total, currency, tran.SecId.UniqueIdType, tran.SecId.UniqueId)
// TODO print ticker instead of CUSIP
case ofxgo.InvExpense:
printInvTran(&tran.InvTran)
currency := stmt.CurDef
if tran.Currency != nil {
currency = tran.Currency.CurSym
} else if tran.OrigCurrency != nil {
currency = tran.Currency.CurSym
}
fmt.Printf(" %s %s (%s %s)\n", tran.Total, currency, tran.SecId.UniqueIdType, tran.SecId.UniqueId)
// TODO print ticker instead of CUSIP
case ofxgo.JrnlFund:
printInvTran(&tran.InvTran)
fmt.Printf(" %s %s (%s -> %s)\n", tran.Total, stmt.CurDef, tran.SubAcctFrom, tran.SubAcctTo)
case ofxgo.JrnlSec:
printInvTran(&tran.InvTran)
fmt.Printf(" %s %s %s (%s -> %s)\n", tran.Units, tran.SecId.UniqueIdType, tran.SecId.UniqueId, tran.SubAcctFrom, tran.SubAcctTo)
// TODO print ticker instead of CUSIP
case ofxgo.MarginInterest:
printInvTran(&tran.InvTran)
currency := stmt.CurDef
if tran.Currency != nil {
currency = tran.Currency.CurSym
} else if tran.OrigCurrency != nil {
currency = tran.Currency.CurSym
}
fmt.Printf(" %s %s\n", tran.Total, currency)
case ofxgo.Reinvest:
printInvTran(&tran.InvTran)
currency := stmt.CurDef
if tran.Currency != nil {
currency = tran.Currency.CurSym
} else if tran.OrigCurrency != nil {
currency = tran.Currency.CurSym
}
fmt.Printf(" %s (%s %s)@%s %s (Total: %s)\n", tran.Units, tran.SecId.UniqueIdType, tran.SecId.UniqueId, tran.UnitPrice, currency, tran.Total)
// TODO print ticker instead of CUSIP
case ofxgo.RetOfCap:
printInvTran(&tran.InvTran)
currency := stmt.CurDef
if tran.Currency != nil {
currency = tran.Currency.CurSym
} else if tran.OrigCurrency != nil {
currency = tran.Currency.CurSym
}
fmt.Printf(" %s %s (%s %s)\n", tran.Total, currency, tran.SecId.UniqueIdType, tran.SecId.UniqueId)
// TODO print ticker instead of CUSIP
case ofxgo.SellDebt:
printInvSell(stmt.CurDef, &tran.InvSell)
case ofxgo.SellMF:
printInvSell(stmt.CurDef, &tran.InvSell)
case ofxgo.SellOpt:
printInvSell(stmt.CurDef, &tran.InvSell)
case ofxgo.SellOther:
printInvSell(stmt.CurDef, &tran.InvSell)
case ofxgo.SellStock:
printInvSell(stmt.CurDef, &tran.InvSell)
case ofxgo.Split:
printInvTran(&tran.InvTran)
currency := stmt.CurDef
if tran.Currency != nil {
currency = tran.Currency.CurSym
} else if tran.OrigCurrency != nil {
currency = tran.Currency.CurSym
}
fmt.Printf(" %d/%d %s -> %s shares of %s %s (%s %s for fractional shares)\n", tran.Numerator, tran.Denominator, tran.OldUnits, tran.NewUnits, tran.SecId.UniqueIdType, tran.SecId.UniqueId, tran.FracCash, currency)
// TODO print ticker instead of CUSIP
case ofxgo.Transfer:
printInvTran(&tran.InvTran)
fmt.Printf(" %s (%s %s) %s\n", tran.Units, tran.SecId.UniqueIdType, tran.SecId.UniqueId, tran.TferAction)
// TODO print ticker instead of CUSIP
}
}
}
}
func printInvTran(it *ofxgo.InvTran) {
fmt.Printf("%s", it.DtTrade)
}
func printInvBuy(defCurrency ofxgo.String, ib *ofxgo.InvBuy) {
printInvTran(&ib.InvTran)
currency := defCurrency
if ib.Currency != nil {
currency = ib.Currency.CurSym
} else if ib.OrigCurrency != nil {
currency = ib.Currency.CurSym
}
fmt.Printf("%s (%s %s)@%s %s (Total: %s)\n", ib.Units, ib.SecId.UniqueIdType, ib.SecId.UniqueId, ib.UnitPrice, currency, ib.Total)
// TODO print ticker instead of CUSIP
}
func printInvSell(defCurrency ofxgo.String, is *ofxgo.InvSell) {
printInvTran(&is.InvTran)
currency := defCurrency
if is.Currency != nil {
currency = is.Currency.CurSym
} else if is.OrigCurrency != nil {
currency = is.Currency.CurSym
}
fmt.Printf(" %s (%s %s)@%s %s (Total: %s)\n", is.Units, is.SecId.UniqueIdType, is.SecId.UniqueId, is.UnitPrice, currency, is.Total)
// TODO print ticker instead of CUSIP
}