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epusdt/src/model/data/order_data_stats.go
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package data
import (
"time"
"github.com/GMWalletApp/epusdt/model/dao"
"github.com/GMWalletApp/epusdt/model/mdb"
)
// DailyStat is one bucket of day-level aggregation used by the
// dashboard trend charts.
// Field "Day" holds "YYYY-MM-DD" for daily buckets and
// "YYYY-MM-DD HH:00" for hourly buckets.
type DailyStat struct {
Day string `json:"day"` // "YYYY-MM-DD" (daily) or "YYYY-MM-DD HH:00" (hourly)
OrderCount int64 `json:"order_count"`
SuccessCount int64 `json:"success_count"`
TotalAmount float64 `json:"total_amount"` // sum of amount (fiat)
ActualAmount float64 `json:"actual_amount"` // sum of actual_amount (token)
}
// AddressDailyStat buckets actual_amount by (day, receive_address) for
// the stacked asset-trend chart.
// Field "Day" holds "YYYY-MM-DD" (daily) or "YYYY-MM-DD HH:00" (hourly).
type AddressDailyStat struct {
Day string `json:"day"`
Address string `json:"address"`
ActualAmount float64 `json:"actual_amount"`
}
// DailyOrderStats returns per-day counts/amounts within [start, end],
// zero-filling any days in the range that have no orders.
// Only orders in StatusPaySuccess contribute to Amount sums — that's
// what the user means by "流水". Pending orders count toward OrderCount
// to keep成交率 computable.
func DailyOrderStats(start, end time.Time) ([]DailyStat, error) {
var rows []DailyStat
err := dao.Mdb.Model(&mdb.Orders{}).
Select(`DATE(created_at) AS day,
COUNT(*) AS order_count,
SUM(CASE WHEN status = ? THEN 1 ELSE 0 END) AS success_count,
SUM(CASE WHEN status = ? THEN amount ELSE 0 END) AS total_amount,
SUM(CASE WHEN status = ? THEN actual_amount ELSE 0 END) AS actual_amount`,
mdb.StatusPaySuccess, mdb.StatusPaySuccess, mdb.StatusPaySuccess).
Where("created_at >= ?", start).
Where("created_at <= ?", end).
Group("DATE(created_at)").
Order("day ASC").
Scan(&rows).Error
if err != nil {
return nil, err
}
return fillDailyStats(start, end, rows), nil
}
// HourlyOrderStats returns per-hour counts/amounts within [start, end],
// zero-filling any hours that have no orders.
func HourlyOrderStats(start, end time.Time) ([]DailyStat, error) {
var rows []DailyStat
err := dao.Mdb.Model(&mdb.Orders{}).
Select(`strftime('%Y-%m-%d %H:00', created_at) AS day,
COUNT(*) AS order_count,
SUM(CASE WHEN status = ? THEN 1 ELSE 0 END) AS success_count,
SUM(CASE WHEN status = ? THEN amount ELSE 0 END) AS total_amount,
SUM(CASE WHEN status = ? THEN actual_amount ELSE 0 END) AS actual_amount`,
mdb.StatusPaySuccess, mdb.StatusPaySuccess, mdb.StatusPaySuccess).
Where("created_at >= ?", start).
Where("created_at <= ?", end).
Group("strftime('%Y-%m-%d %H:00', created_at)").
Order("day ASC").
Scan(&rows).Error
if err != nil {
return nil, err
}
return fillHourlyStats(start, end, rows), nil
}
// fillDailyStats generates a zero-filled slice covering every calendar
// day in [start, end]. Days present in rows overwrite the zero entries.
func fillDailyStats(start, end time.Time, rows []DailyStat) []DailyStat {
byDay := make(map[string]DailyStat, len(rows))
for _, r := range rows {
byDay[r.Day] = r
}
var out []DailyStat
cur := time.Date(start.Year(), start.Month(), start.Day(), 0, 0, 0, 0, start.Location())
last := time.Date(end.Year(), end.Month(), end.Day(), 0, 0, 0, 0, end.Location())
for !cur.After(last) {
key := cur.Format("2006-01-02")
if r, ok := byDay[key]; ok {
out = append(out, r)
} else {
out = append(out, DailyStat{Day: key})
}
cur = cur.AddDate(0, 0, 1)
}
return out
}
// fillHourlyStats generates a zero-filled slice covering every whole
// hour in [start, end]. Hours present in rows overwrite the zero entries.
func fillHourlyStats(start, end time.Time, rows []DailyStat) []DailyStat {
byHour := make(map[string]DailyStat, len(rows))
for _, r := range rows {
byHour[r.Day] = r
}
var out []DailyStat
cur := time.Date(start.Year(), start.Month(), start.Day(), start.Hour(), 0, 0, 0, start.Location())
endHour := time.Date(end.Year(), end.Month(), end.Day(), end.Hour(), 0, 0, 0, end.Location())
for !cur.After(endHour) {
key := cur.Format("2006-01-02 15:00")
if r, ok := byHour[key]; ok {
out = append(out, r)
} else {
out = append(out, DailyStat{Day: key})
}
cur = cur.Add(time.Hour)
}
return out
}
// DailyAssetByAddress groups paid actual_amount by (day, receive_address)
// for the per-address stacked chart, zero-filling missing days.
func DailyAssetByAddress(start, end time.Time) ([]AddressDailyStat, error) {
var rows []AddressDailyStat
err := dao.Mdb.Model(&mdb.Orders{}).
Select("DATE(created_at) AS day, receive_address AS address, SUM(actual_amount) AS actual_amount").
Where("status = ?", mdb.StatusPaySuccess).
Where("created_at >= ?", start).
Where("created_at <= ?", end).
Group("DATE(created_at), receive_address").
Order("day ASC").
Scan(&rows).Error
if err != nil {
return nil, err
}
return fillAddressDailyStats(start, end, rows), nil
}
// HourlyAssetByAddress groups paid actual_amount by (hour, receive_address)
// for the per-address stacked chart, zero-filling missing hours.
func HourlyAssetByAddress(start, end time.Time) ([]AddressDailyStat, error) {
var rows []AddressDailyStat
err := dao.Mdb.Model(&mdb.Orders{}).
Select("strftime('%Y-%m-%d %H:00', created_at) AS day, receive_address AS address, SUM(actual_amount) AS actual_amount").
Where("status = ?", mdb.StatusPaySuccess).
Where("created_at >= ?", start).
Where("created_at <= ?", end).
Group("strftime('%Y-%m-%d %H:00', created_at), receive_address").
Order("day ASC").
Scan(&rows).Error
if err != nil {
return nil, err
}
return fillAddressHourlyStats(start, end, rows), nil
}
// fillAddressDailyStats zero-fills missing day×address combinations.
// All addresses that appear in rows are represented for every day in range.
func fillAddressDailyStats(start, end time.Time, rows []AddressDailyStat) []AddressDailyStat {
return fillAddressStats(start, end, rows, false)
}
// fillAddressHourlyStats zero-fills missing hour×address combinations.
func fillAddressHourlyStats(start, end time.Time, rows []AddressDailyStat) []AddressDailyStat {
return fillAddressStats(start, end, rows, true)
}
func fillAddressStats(start, end time.Time, rows []AddressDailyStat, hourly bool) []AddressDailyStat {
type key struct{ day, addr string }
byKey := make(map[key]float64, len(rows))
addrSet := make(map[string]struct{}, 4)
for _, r := range rows {
byKey[key{r.Day, r.Address}] = r.ActualAmount
addrSet[r.Address] = struct{}{}
}
if len(addrSet) == 0 {
return rows
}
var periods []string
if hourly {
cur := time.Date(start.Year(), start.Month(), start.Day(), start.Hour(), 0, 0, 0, start.Location())
endH := time.Date(end.Year(), end.Month(), end.Day(), end.Hour(), 0, 0, 0, end.Location())
for !cur.After(endH) {
periods = append(periods, cur.Format("2006-01-02 15:00"))
cur = cur.Add(time.Hour)
}
} else {
cur := time.Date(start.Year(), start.Month(), start.Day(), 0, 0, 0, 0, start.Location())
last := time.Date(end.Year(), end.Month(), end.Day(), 0, 0, 0, 0, end.Location())
for !cur.After(last) {
periods = append(periods, cur.Format("2006-01-02"))
cur = cur.AddDate(0, 0, 1)
}
}
var out []AddressDailyStat
for _, day := range periods {
for addr := range addrSet {
out = append(out, AddressDailyStat{
Day: day,
Address: addr,
ActualAmount: byKey[key{day, addr}],
})
}
}
return out
}
// SumPaidActualAmount returns the total paid actual_amount across all
// time. Used by the overview "total asset" card.
func SumPaidActualAmount() (float64, error) {
var sum float64
err := dao.Mdb.Model(&mdb.Orders{}).
Select("COALESCE(SUM(actual_amount), 0)").
Where("status = ?", mdb.StatusPaySuccess).
Scan(&sum).Error
return sum, err
}
// PaidStatsInRange returns (order_count, success_count, actual_sum) for
// a given time range. Caller chooses the range (today / last 7 days).
func PaidStatsInRange(start, end time.Time) (int64, int64, float64, error) {
type row struct {
OrderCount int64
SuccessCount int64
ActualSum float64
}
var r row
err := dao.Mdb.Model(&mdb.Orders{}).
Select(`COUNT(*) AS order_count,
SUM(CASE WHEN status = ? THEN 1 ELSE 0 END) AS success_count,
SUM(CASE WHEN status = ? THEN actual_amount ELSE 0 END) AS actual_sum`,
mdb.StatusPaySuccess, mdb.StatusPaySuccess).
Where("created_at >= ?", start).
Where("created_at <= ?", end).
Scan(&r).Error
return r.OrderCount, r.SuccessCount, r.ActualSum, err
}
// ActiveAddressCountInRange returns the number of distinct wallet addresses
// that appear in at least one order within [start, end].
func ActiveAddressCountInRange(start, end time.Time) (int64, error) {
var count int64
err := dao.Mdb.Model(&mdb.Orders{}).
Where("created_at >= ?", start).
Where("created_at <= ?", end).
Distinct("receive_address").
Count(&count).Error
return count, err
}
// AveragePaymentDurationSeconds returns the mean elapsed time between
// created_at and updated_at for orders that reached StatusPaySuccess
// in the given range. Zero-safe when no rows match.
func AveragePaymentDurationSeconds(start, end time.Time) (float64, error) {
type row struct {
Avg float64
}
var r row
// Using TIMESTAMPDIFF would be MySQL-specific. Fetch the raw
// columns and compute in Go — trend windows are small enough.
type pair struct {
CreatedAt time.Time
UpdatedAt time.Time
}
var pairs []pair
err := dao.Mdb.Model(&mdb.Orders{}).
Select("created_at, updated_at").
Where("status = ?", mdb.StatusPaySuccess).
Where("created_at >= ?", start).
Where("created_at <= ?", end).
Scan(&pairs).Error
if err != nil {
return 0, err
}
if len(pairs) == 0 {
return 0, nil
}
total := 0.0
for _, p := range pairs {
total += p.UpdatedAt.Sub(p.CreatedAt).Seconds()
}
r.Avg = total / float64(len(pairs))
return r.Avg, nil
}
// CountExpiredInRange returns the number of StatusExpired orders in range.
func CountExpiredInRange(start, end time.Time) (int64, error) {
var n int64
err := dao.Mdb.Model(&mdb.Orders{}).
Where("status = ?", mdb.StatusExpired).
Where("created_at >= ?", start).
Where("created_at <= ?", end).
Count(&n).Error
return n, err
}
// RecentOrders returns the latest N orders regardless of status.
func RecentOrders(limit int) ([]mdb.Orders, error) {
if limit < 1 {
limit = 20
}
if limit > 100 {
limit = 100
}
var rows []mdb.Orders
err := dao.Mdb.Model(&mdb.Orders{}).
Order("id DESC").
Limit(limit).
Find(&rows).Error
return rows, err
}
// CountEnabledChains counts chains where Enabled=true.
func CountEnabledChains() (int64, error) {
var n int64
err := dao.Mdb.Model(&mdb.Chain{}).Where("enabled = ?", true).Count(&n).Error
return n, err
}