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OFX: Import the most common investment transactions

This is very preliminary support, and is likely to still fail for many
cases - even those with nominal support. Most transaction splits end up
being filed under 'imbalanced' accounts instead of something that makes
more sense.
This commit is contained in:
Aaron Lindsay 2017-09-20 20:09:40 -04:00
parent 3727f5b767
commit 89d045a51f
2 changed files with 686 additions and 5 deletions

669
ofx.go
View File

@ -22,6 +22,16 @@ func (i *OFXImport) GetSecurity(ofxsecurityid int64) (*Security, error) {
return &i.Securities[ofxsecurityid], nil return &i.Securities[ofxsecurityid], nil
} }
func (i *OFXImport) GetSecurityAlternateId(alternateid string, securityType int64) (*Security, error) {
for _, security := range i.Securities {
if alternateid == security.AlternateId && securityType == security.Type {
return &security, nil
}
}
return nil, errors.New("OFXImport.FindSecurity: Unable to find security")
}
func (i *OFXImport) GetAddCurrency(isoname string) (*Security, error) { func (i *OFXImport) GetAddCurrency(isoname string) (*Security, error) {
for _, security := range i.Securities { for _, security := range i.Securities {
if isoname == security.Name && Currency == security.Type { if isoname == security.Name && Currency == security.Type {
@ -83,6 +93,9 @@ func (i *OFXImport) AddTransaction(tran *ofxgo.Transaction, account *Account) er
s1.RemoteId = "ofx:" + tran.FiTID.String() s1.RemoteId = "ofx:" + tran.FiTID.String()
// TODO CorrectFiTID/CorrectAction? // TODO CorrectFiTID/CorrectAction?
s1.ImportSplitType = ImportAccount
s2.ImportSplitType = ExternalAccount
security := i.Securities[account.SecurityId-1] security := i.Securities[account.SecurityId-1]
s1.Amount = amt.FloatString(security.Precision) s1.Amount = amt.FloatString(security.Precision)
s2.Amount = amt.Neg(amt).FloatString(security.Precision) s2.Amount = amt.Neg(amt).FloatString(security.Precision)
@ -152,12 +165,655 @@ func (i *OFXImport) importOFXCC(stmt *ofxgo.CCStatementResponse) error {
} }
} }
// TODO balance(s)
return nil
}
func (i *OFXImport) importSecurities(seclist *ofxgo.SecurityList) error {
for _, security := range seclist.Securities {
var si ofxgo.SecInfo
if sec, ok := (security).(ofxgo.DebtInfo); ok {
si = sec.SecInfo
} else if sec, ok := (security).(ofxgo.MFInfo); ok {
si = sec.SecInfo
} else if sec, ok := (security).(ofxgo.OptInfo); ok {
si = sec.SecInfo
} else if sec, ok := (security).(ofxgo.OtherInfo); ok {
si = sec.SecInfo
} else if sec, ok := (security).(ofxgo.StockInfo); ok {
si = sec.SecInfo
} else {
return errors.New("Can't import unrecognized type satisfying ofxgo.Security interface")
}
s := Security{
SecurityId: int64(len(i.Securities) + 1),
Name: string(si.SecName),
Description: string(si.Memo),
Symbol: string(si.Ticker),
Precision: 5, // TODO How to actually determine this?
Type: Stock,
AlternateId: string(si.SecID.UniqueID),
}
if len(s.Description) == 0 {
s.Description = s.Name
}
if len(s.Symbol) == 0 {
s.Symbol = s.Name
}
i.Securities = append(i.Securities, s)
}
return nil
}
func (i *OFXImport) GetInvTran(invtran *ofxgo.InvTran) Transaction {
var t Transaction
t.Description = string(invtran.Memo)
t.Date = invtran.DtTrade.UTC()
return t
}
func (i *OFXImport) GetInvBuyTran(buy *ofxgo.InvBuy, curdef *Security, account *Account) (*Transaction, error) {
t := i.GetInvTran(&buy.InvTran)
security, err := i.GetSecurityAlternateId(string(buy.SecID.UniqueID), Stock)
if err != nil {
return nil, err
}
memo := string(buy.InvTran.Memo)
if len(memo) > 0 {
memo += " "
}
var commission, taxes, fees, load, total, tradingTotal big.Rat
commission.Set(&buy.Commission.Rat)
taxes.Set(&buy.Taxes.Rat)
fees.Set(&buy.Fees.Rat)
load.Set(&buy.Load.Rat)
total.Set(&buy.Total.Rat)
tradingTotal.Neg(&total)
tradingTotal.Sub(&tradingTotal, &commission)
tradingTotal.Sub(&tradingTotal, &taxes)
tradingTotal.Sub(&tradingTotal, &fees)
tradingTotal.Sub(&tradingTotal, &load)
// Convert amounts to account's currency if Currency is set
if ok, _ := buy.Currency.Valid(); ok {
commission.Mul(&commission, &buy.Currency.CurRate.Rat)
taxes.Mul(&taxes, &buy.Currency.CurRate.Rat)
fees.Mul(&fees, &buy.Currency.CurRate.Rat)
load.Mul(&load, &buy.Currency.CurRate.Rat)
total.Mul(&total, &buy.Currency.CurRate.Rat)
tradingTotal.Mul(&tradingTotal, &buy.Currency.CurRate.Rat)
}
if num := commission.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Commission,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + buy.InvTran.FiTID.String(),
Memo: memo + "(commission)",
Amount: commission.FloatString(curdef.Precision),
})
}
if num := taxes.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Taxes,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + buy.InvTran.FiTID.String(),
Memo: memo + "(taxes)",
Amount: taxes.FloatString(curdef.Precision),
})
}
if num := fees.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Fees,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + buy.InvTran.FiTID.String(),
Memo: memo + "(fees)",
Amount: fees.FloatString(curdef.Precision),
})
}
if num := load.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Load,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + buy.InvTran.FiTID.String(),
Memo: memo + "(load)",
Amount: load.FloatString(curdef.Precision),
})
}
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: ImportAccount,
AccountId: account.AccountId,
SecurityId: -1,
RemoteId: "ofx:" + buy.InvTran.FiTID.String(),
Memo: memo,
Amount: total.FloatString(curdef.Precision),
})
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: TradingAccount,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + buy.InvTran.FiTID.String(),
Memo: memo,
Amount: tradingTotal.FloatString(curdef.Precision),
})
units := big.NewRat(0, 1)
units.Set(&buy.Units.Rat)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: SubAccount,
AccountId: -1,
SecurityId: security.SecurityId,
RemoteId: "ofx:" + buy.InvTran.FiTID.String(),
Memo: memo,
Amount: units.FloatString(security.Precision),
})
units.Neg(units)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: TradingAccount,
AccountId: -1,
SecurityId: security.SecurityId,
RemoteId: "ofx:" + buy.InvTran.FiTID.String(),
Memo: memo,
Amount: units.FloatString(security.Precision),
})
return &t, nil
}
func (i *OFXImport) GetIncomeTran(income *ofxgo.Income, curdef *Security, account *Account) (*Transaction, error) {
t := i.GetInvTran(&income.InvTran)
security, err := i.GetSecurityAlternateId(string(income.SecID.UniqueID), Stock)
if err != nil {
return nil, err
}
memo := string(income.InvTran.Memo)
if len(memo) > 0 {
memo += " "
} else {
memo = income.IncomeType.String() + " on " + security.Symbol
}
var total big.Rat
total.Set(&income.Total.Rat)
if ok, _ := income.Currency.Valid(); ok {
total.Mul(&total, &income.Currency.CurRate.Rat)
}
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: ImportAccount,
AccountId: account.AccountId,
SecurityId: -1,
RemoteId: "ofx:" + income.InvTran.FiTID.String(),
Memo: memo,
Amount: total.FloatString(curdef.Precision),
})
total.Neg(&total)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: IncomeAccount,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + income.InvTran.FiTID.String(),
Memo: memo,
Amount: total.FloatString(curdef.Precision),
})
return &t, nil
}
func (i *OFXImport) GetReinvestTran(reinvest *ofxgo.Reinvest, curdef *Security, account *Account) (*Transaction, error) {
t := i.GetInvTran(&reinvest.InvTran)
security, err := i.GetSecurityAlternateId(string(reinvest.SecID.UniqueID), Stock)
if err != nil {
return nil, err
}
memo := string(reinvest.InvTran.Memo)
if len(memo) > 0 {
memo += " "
}
var commission, taxes, fees, load, total, tradingTotal big.Rat
commission.Set(&reinvest.Commission.Rat)
taxes.Set(&reinvest.Taxes.Rat)
fees.Set(&reinvest.Fees.Rat)
load.Set(&reinvest.Load.Rat)
total.Set(&reinvest.Total.Rat)
tradingTotal.Neg(&total)
tradingTotal.Sub(&tradingTotal, &commission)
tradingTotal.Sub(&tradingTotal, &taxes)
tradingTotal.Sub(&tradingTotal, &fees)
tradingTotal.Sub(&tradingTotal, &load)
// Convert amounts to account's currency if Currency is set
if ok, _ := reinvest.Currency.Valid(); ok {
commission.Mul(&commission, &reinvest.Currency.CurRate.Rat)
taxes.Mul(&taxes, &reinvest.Currency.CurRate.Rat)
fees.Mul(&fees, &reinvest.Currency.CurRate.Rat)
load.Mul(&load, &reinvest.Currency.CurRate.Rat)
total.Mul(&total, &reinvest.Currency.CurRate.Rat)
tradingTotal.Mul(&tradingTotal, &reinvest.Currency.CurRate.Rat)
}
if num := commission.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Commission,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo + "(commission)",
Amount: commission.FloatString(curdef.Precision),
})
}
if num := taxes.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Taxes,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo + "(taxes)",
Amount: taxes.FloatString(curdef.Precision),
})
}
if num := fees.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Fees,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo + "(fees)",
Amount: fees.FloatString(curdef.Precision),
})
}
if num := load.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Load,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo + "(load)",
Amount: load.FloatString(curdef.Precision),
})
}
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: ImportAccount,
AccountId: account.AccountId,
SecurityId: -1,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo,
Amount: total.FloatString(curdef.Precision),
})
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: IncomeAccount,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo,
Amount: total.FloatString(curdef.Precision),
})
total.Neg(&total)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: ImportAccount,
AccountId: account.AccountId,
SecurityId: -1,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo,
Amount: total.FloatString(curdef.Precision),
})
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: TradingAccount,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo,
Amount: tradingTotal.FloatString(curdef.Precision),
})
var units big.Rat
units.Set(&reinvest.Units.Rat)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: SubAccount,
AccountId: -1,
SecurityId: security.SecurityId,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo,
Amount: units.FloatString(security.Precision),
})
units.Neg(&units)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: TradingAccount,
AccountId: -1,
SecurityId: security.SecurityId,
RemoteId: "ofx:" + reinvest.InvTran.FiTID.String(),
Memo: memo,
Amount: units.FloatString(security.Precision),
})
return &t, nil
}
func (i *OFXImport) GetInvSellTran(sell *ofxgo.InvSell, curdef *Security, account *Account) (*Transaction, error) {
t := i.GetInvTran(&sell.InvTran)
security, err := i.GetSecurityAlternateId(string(sell.SecID.UniqueID), Stock)
if err != nil {
return nil, err
}
memo := string(sell.InvTran.Memo)
if len(memo) > 0 {
memo += " "
}
var commission, taxes, fees, load, total, tradingTotal big.Rat
commission.Set(&sell.Commission.Rat)
taxes.Set(&sell.Taxes.Rat)
fees.Set(&sell.Fees.Rat)
load.Set(&sell.Load.Rat)
total.Set(&sell.Total.Rat)
tradingTotal.Neg(&total)
tradingTotal.Sub(&tradingTotal, &commission)
tradingTotal.Sub(&tradingTotal, &taxes)
tradingTotal.Sub(&tradingTotal, &fees)
tradingTotal.Sub(&tradingTotal, &load)
// Convert amounts to account's currency if Currency is set
if ok, _ := sell.Currency.Valid(); ok {
commission.Mul(&commission, &sell.Currency.CurRate.Rat)
taxes.Mul(&taxes, &sell.Currency.CurRate.Rat)
fees.Mul(&fees, &sell.Currency.CurRate.Rat)
load.Mul(&load, &sell.Currency.CurRate.Rat)
total.Mul(&total, &sell.Currency.CurRate.Rat)
tradingTotal.Mul(&tradingTotal, &sell.Currency.CurRate.Rat)
}
if num := commission.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Commission,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + sell.InvTran.FiTID.String(),
Memo: memo + "(commission)",
Amount: commission.FloatString(curdef.Precision),
})
}
if num := taxes.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Taxes,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + sell.InvTran.FiTID.String(),
Memo: memo + "(taxes)",
Amount: taxes.FloatString(curdef.Precision),
})
}
if num := fees.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Fees,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + sell.InvTran.FiTID.String(),
Memo: memo + "(fees)",
Amount: fees.FloatString(curdef.Precision),
})
}
if num := load.Num(); !num.IsInt64() || num.Int64() != 0 {
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: Load,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + sell.InvTran.FiTID.String(),
Memo: memo + "(load)",
Amount: load.FloatString(curdef.Precision),
})
}
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: ImportAccount,
AccountId: account.AccountId,
SecurityId: -1,
RemoteId: "ofx:" + sell.InvTran.FiTID.String(),
Memo: memo,
Amount: total.FloatString(curdef.Precision),
})
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: TradingAccount,
AccountId: -1,
SecurityId: curdef.SecurityId,
RemoteId: "ofx:" + sell.InvTran.FiTID.String(),
Memo: memo,
Amount: tradingTotal.FloatString(curdef.Precision),
})
var units big.Rat
units.Set(&sell.Units.Rat)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: SubAccount,
AccountId: -1,
SecurityId: security.SecurityId,
RemoteId: "ofx:" + sell.InvTran.FiTID.String(),
Memo: memo,
Amount: units.FloatString(security.Precision),
})
units.Neg(&units)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: TradingAccount,
AccountId: -1,
SecurityId: security.SecurityId,
RemoteId: "ofx:" + sell.InvTran.FiTID.String(),
Memo: memo,
Amount: units.FloatString(security.Precision),
})
return &t, nil
}
func (i *OFXImport) GetTransferTran(transfer *ofxgo.Transfer, account *Account) (*Transaction, error) {
t := i.GetInvTran(&transfer.InvTran)
security, err := i.GetSecurityAlternateId(string(transfer.SecID.UniqueID), Stock)
if err != nil {
return nil, err
}
memo := string(transfer.InvTran.Memo)
var units big.Rat
if transfer.TferAction == ofxgo.TferActionIn {
units.Set(&transfer.Units.Rat)
} else {
units.Neg(&transfer.Units.Rat)
}
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: SubAccount,
AccountId: -1,
SecurityId: security.SecurityId,
RemoteId: "ofx:" + transfer.InvTran.FiTID.String(),
Memo: memo,
Amount: units.FloatString(security.Precision),
})
units.Neg(&units)
t.Splits = append(t.Splits, &Split{
// TODO ReversalFiTID?
Status: Imported,
ImportSplitType: ExternalAccount,
AccountId: -1,
SecurityId: security.SecurityId,
RemoteId: "ofx:" + transfer.InvTran.FiTID.String(),
Memo: memo,
Amount: units.FloatString(security.Precision),
})
return &t, nil
}
func (i *OFXImport) AddInvTransaction(invtran *ofxgo.InvTransaction, account *Account, curdef *Security) error {
if curdef.SecurityId < 1 || curdef.SecurityId > int64(len(i.Securities)) {
return errors.New("Internal error: security index not found in OFX import\n")
}
var t *Transaction
var err error
if tran, ok := (*invtran).(ofxgo.BuyDebt); ok {
t, err = i.GetInvBuyTran(&tran.InvBuy, curdef, account)
} else if tran, ok := (*invtran).(ofxgo.BuyMF); ok {
t, err = i.GetInvBuyTran(&tran.InvBuy, curdef, account)
} else if tran, ok := (*invtran).(ofxgo.BuyOpt); ok {
t, err = i.GetInvBuyTran(&tran.InvBuy, curdef, account)
} else if tran, ok := (*invtran).(ofxgo.BuyOther); ok {
t, err = i.GetInvBuyTran(&tran.InvBuy, curdef, account)
} else if tran, ok := (*invtran).(ofxgo.BuyStock); ok {
t, err = i.GetInvBuyTran(&tran.InvBuy, curdef, account)
// TODO implementme
// } else if tran, ok := (*invtran).(ofxgo.ClosureOpt); ok {
} else if tran, ok := (*invtran).(ofxgo.Income); ok {
t, err = i.GetIncomeTran(&tran, curdef, account)
// } else if tran, ok := (*invtran).(ofxgo.InvExpense); ok {
// } else if tran, ok := (*invtran).(ofxgo.JrnlFund); ok {
// } else if tran, ok := (*invtran).(ofxgo.JrnlSec); ok {
// } else if tran, ok := (*invtran).(ofxgo.MarginInterest); ok {
} else if tran, ok := (*invtran).(ofxgo.Reinvest); ok {
t, err = i.GetReinvestTran(&tran, curdef, account)
// } else if tran, ok := (*invtran).(ofxgo.RetOfCap); ok {
} else if tran, ok := (*invtran).(ofxgo.SellDebt); ok {
t, err = i.GetInvSellTran(&tran.InvSell, curdef, account)
} else if tran, ok := (*invtran).(ofxgo.SellMF); ok {
t, err = i.GetInvSellTran(&tran.InvSell, curdef, account)
} else if tran, ok := (*invtran).(ofxgo.SellOpt); ok {
t, err = i.GetInvSellTran(&tran.InvSell, curdef, account)
} else if tran, ok := (*invtran).(ofxgo.SellOther); ok {
t, err = i.GetInvSellTran(&tran.InvSell, curdef, account)
} else if tran, ok := (*invtran).(ofxgo.SellStock); ok {
t, err = i.GetInvSellTran(&tran.InvSell, curdef, account)
// TODO implementme
// } else if tran, ok := (*invtran).(ofxgo.Split); ok {
} else if tran, ok := (*invtran).(ofxgo.Transfer); ok {
t, err = i.GetTransferTran(&tran, account)
} else {
return errors.New("Unrecognized type satisfying ofxgo.InvTransaction interface: " + (*invtran).TransactionType())
return nil
}
if err != nil {
return err
}
i.Transactions = append(i.Transactions, *t)
return nil return nil
} }
func (i *OFXImport) importOFXInv(stmt *ofxgo.InvStatementResponse) error { func (i *OFXImport) importOFXInv(stmt *ofxgo.InvStatementResponse) error {
// TODO security, err := i.GetAddCurrency(stmt.CurDef.String())
return errors.New("unimplemented") if err != nil {
return err
}
account := Account{
AccountId: int64(len(i.Accounts) + 1),
ExternalAccountId: stmt.InvAcctFrom.AcctID.String(),
SecurityId: security.SecurityId,
ParentAccountId: -1,
Type: Investment,
}
i.Accounts = append(i.Accounts, account)
if stmt.InvTranList != nil {
for _, invtran := range stmt.InvTranList.InvTransactions {
if err := i.AddInvTransaction(&invtran, &account, security); err != nil {
return err
}
}
for _, bt := range stmt.InvTranList.BankTransactions {
// TODO Should we do something different for the value of
// bt.SubAcctFund?
for _, tran := range bt.Transactions {
if err := i.AddTransaction(&tran, &account); err != nil {
return err
}
}
}
}
// TODO InvPosList
// TODO InvBal
// TODO Inv401K and INV401kBal???
return nil
} }
func ImportOFX(r io.Reader) (*OFXImport, error) { func ImportOFX(r io.Reader) (*OFXImport, error) {
@ -191,6 +847,15 @@ func ImportOFX(r io.Reader) (*OFXImport, error) {
return &i, nil return &i, nil
} }
} }
for _, seclist := range response.SecList {
if securitylist, ok := seclist.(*ofxgo.SecurityList); ok {
err = i.importSecurities(securitylist)
// TODO actually import securities
if err != nil {
return nil, err
}
}
}
for _, inv := range response.InvStmt { for _, inv := range response.InvStmt {
if stmt, ok := inv.(*ofxgo.InvStatementResponse); ok { if stmt, ok := inv.(*ofxgo.InvStatementResponse); ok {
err = i.importOFXInv(stmt) err = i.importOFXInv(stmt)

View File

@ -14,6 +14,7 @@ import (
"time" "time"
) )
// Split.Status
const ( const (
Imported int64 = 1 Imported int64 = 1
Entered = 2 Entered = 2
@ -22,10 +23,25 @@ const (
Voided = 5 Voided = 5
) )
// Split.ImportSplitType
const (
Default int64 = 0
ImportAccount = 1
SubAccount = 2
ExternalAccount = 3
TradingAccount = 4
Commission = 5
Taxes = 6
Fees = 7
Load = 8
IncomeAccount = 9
)
type Split struct { type Split struct {
SplitId int64 SplitId int64
TransactionId int64 TransactionId int64
Status int64 Status int64
ImportSplitType int64
// One of AccountId and SecurityId must be -1 // One of AccountId and SecurityId must be -1
// In normal splits, AccountId will be valid and SecurityId will be -1. The // In normal splits, AccountId will be valid and SecurityId will be -1. The