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feat: Refactor closing services and add ClosingKeuanganService

Browse Source 
- Updated ClosingRoutes to include ClosingKeuanganService.
- Removed GetClosingKeuangan method from ClosingService interface and its implementation.
- Introduced new ClosingKeuanganService with GetClosingKeuangan method to handle financial logic.
- Implemented detailed logging and error handling in the new service.
- Added GetTotalWeightProducedFromUniformityByProjectFlockID method in RecordingRepository to support weight calculations.
- Enhanced the logic for fetching and classifying product usage data by flags.
- Built comprehensive DTO responses for HPP and Profit Loss sections.
This commit is contained in:
aguhh18
2026-01-16 12:27:18 +07:00
parent 08be60c229
commit 8ad11af9c9
10 changed files with 1174 additions and 850 deletions
Download Patch File Download Diff File Expand all files Collapse all files
internal/modules/closings/controllers/closing.controller.go
+8 -6
View File
@@ -14,14 +14,16 @@ import (
)
type ClosingController struct {
ClosingService service.ClosingService
SapronakService service.SapronakService
ClosingService service.ClosingService
SapronakService service.SapronakService
ClosingKeuanganService service.ClosingKeuanganService
}
func NewClosingController(closingService service.ClosingService, sapronakService service.SapronakService) *ClosingController {
func NewClosingController(closingService service.ClosingService, sapronakService service.SapronakService, closingKeuanganService service.ClosingKeuanganService) *ClosingController {
return &ClosingController{
ClosingService: closingService,
SapronakService: sapronakService,
ClosingService: closingService,
SapronakService: sapronakService,
ClosingKeuanganService: closingKeuanganService,
}
}
@@ -338,7 +340,7 @@ func (u *ClosingController) GetClosingKeuangan(c *fiber.Ctx) error {
return fiber.NewError(fiber.StatusBadRequest, "Invalid Project Flock Id")
}
result, err := u.ClosingService.GetClosingKeuangan(c, uint(projectFlockID))
result, err := u.ClosingKeuanganService.GetClosingKeuangan(c, uint(projectFlockID))
if err != nil {
return err
}
internal/modules/closings/dto/closingKeuangan.dto.go
-588
View File
@@ -1,588 +0,0 @@
package dto
import (
"slices"
"strings"
"gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
)
// === CONSTANTS ===
const (
HPPGroupPengeluaran = "HPP dan Pengeluaran"
HPPGroupBahanBaku = "HPP dan Bahan Baku"
HPPLabelOverhead = "Pengeluaran Overhead"
HPPLabelEkspedisi = "Beban Ekspedisi"
HPPSummaryLabel = "HPP"
PLSalesTypeChicken = "Penjualan Ayam Besar"
PLSalesTypeEgg = "Penjualan Telur"
PLItemTypeSapronak = "Pembelian Sapronak"
PLItemTypeOverhead = "Pengeluaran Overhead"
PLItemTypeEkspedisi = "Beban Ekspedisi"
PLSummaryLabelGrossProfit = "LABA RUGI BRUTTO"
PLSummaryLabelSubTotal = "SUB TOTAL"
PLSummaryLabelNetProfit = "LABA RUGI NETTO"
PurchaseLabelPrefix = "Pembelian "
)
// === CONTEXT STRUCTS ===
type CalculationContext struct {
TotalPopulation float64
TotalWeightProduced float64
TotalEggWeightKg float64
TotalDepletion float64
TotalWeightSold float64
ActualPopulation float64
}
type ClosingKeuanganInput struct {
ProjectFlockCategory string
PurchaseItems []entities.PurchaseItem
Budgets []entities.ProjectBudget
Realizations []entities.ExpenseRealization
DeliveryProducts []entities.MarketingDeliveryProduct
Chickins []entities.ProjectChickin
TotalWeightProduced float64
TotalEggWeightKg float64
TotalDepletion float64
}
// === BASE METRICS ===
type FinancialMetrics struct {
RpPerBird float64 `json:"rp_per_bird"`
RpPerKg float64 `json:"rp_per_kg"`
Amount float64 `json:"amount"`
}
type Comparison struct {
Budgeting FinancialMetrics `json:"budgeting"`
Realization FinancialMetrics `json:"realization"`
}
// === HPP PURCHASES PACKAGE ===
type HppItem struct {
Type string `json:"type"`
Comparison
}
type HppGroup struct {
GroupName string `json:"group_name"`
Data []HppItem `json:"data"`
}
type SummaryHpp struct {
Label string `json:"label"`
Budgeting FinancialMetrics `json:"budgeting"`
Realization FinancialMetrics `json:"realization"`
EggBudgeting *FinancialMetrics `json:"egg_budgeting,omitempty"`
EggRealization *FinancialMetrics `json:"egg_realization,omitempty"`
}
type HppPurchasesSection struct {
Hpp []HppGroup `json:"hpp"`
SummaryHpp SummaryHpp `json:"summary_hpp"`
}
// === PROFIT LOSS PACKAGE ===
type PLItem struct {
Type string `json:"type"`
FinancialMetrics
}
type PLSummaryItem struct {
Label string `json:"label"`
FinancialMetrics
}
type PLSummaryGroup struct {
GrossProfit PLSummaryItem `json:"gross_profit"`
SubTotal PLSummaryItem `json:"sub_total"`
NetProfit PLSummaryItem `json:"net_profit"`
}
type ProfitLossData struct {
Penjualan []PLItem `json:"penjualan"`
Pembelian []PLItem `json:"pembelian"`
Overhead PLItem `json:"overhead"`
Ekspedisi PLItem `json:"ekspedisi"`
Summary PLSummaryGroup `json:"summary"`
}
type ProfitLossSection struct {
Data ProfitLossData `json:"data"`
}
// === RESPONSE DTO (ROOT) ===
type ReportResponse struct {
HppPurchases HppPurchasesSection `json:"hpp_purchases"`
ProfitLoss ProfitLossSection `json:"profit_loss"`
}
// === MAPPER FUNCTIONS ===
func ToFinancialMetrics(rpPerBird, rpPerKg, amount float64) FinancialMetrics {
return FinancialMetrics{
RpPerBird: rpPerBird,
RpPerKg: rpPerKg,
Amount: amount,
}
}
func ToComparison(budgeting, realization FinancialMetrics) Comparison {
return Comparison{
Budgeting: budgeting,
Realization: realization,
}
}
// === HPP PENGELUARAN (from Purchase Items) ===
func getFlagLabel(flagType utils.FlagType) string {
return PurchaseLabelPrefix + string(flagType)
}
func buildHppItemsByPurchaseFlags(purchaseItems []entities.PurchaseItem, ctx CalculationContext) []HppItem {
flags := []utils.FlagType{
utils.FlagDOC, utils.FlagPullet, utils.FlagLayer, utils.FlagPakan,
utils.FlagPreStarter, utils.FlagStarter, utils.FlagFinisher,
utils.FlagOVK, utils.FlagObat, utils.FlagVitamin, utils.FlagKimia,
}
items := []HppItem{}
seenFlags := make(map[utils.FlagType]bool)
for _, item := range purchaseItems {
if item.Product == nil || len(item.Product.Flags) == 0 {
continue
}
for _, flag := range item.Product.Flags {
flagType := utils.FlagType(flag.Name)
if slices.Contains(flags, flagType) && !seenFlags[flagType] {
amount := sumPurchasesByFlag(purchaseItems, flagType)
rpPerBird, rpPerKg := calculatePerUnitMetrics(amount, ctx.TotalPopulation, ctx.TotalWeightProduced)
items = append(items, HppItem{
Type: getFlagLabel(flagType),
Comparison: ToComparison(
ToFinancialMetrics(rpPerBird, rpPerKg, amount),
ToFinancialMetrics(rpPerBird, rpPerKg, amount),
),
})
seenFlags[flagType] = true
}
}
}
return items
}
// === HPP BAHAN BAKU (from ProjectBudget + ExpenseRealization) ===
func createHppOverheadItem(budgetAmount, realizationAmount float64, ctx CalculationContext) HppItem {
budgetRpPerBird, budgetRpPerKg := calculatePerUnitMetrics(budgetAmount, ctx.TotalPopulation, ctx.TotalWeightProduced)
realizationRpPerBird, realizationRpPerKg := calculatePerUnitMetrics(realizationAmount, ctx.TotalPopulation, ctx.TotalWeightProduced)
return HppItem{
Type: HPPLabelOverhead,
Comparison: ToComparison(
ToFinancialMetrics(budgetRpPerBird, budgetRpPerKg, budgetAmount),
ToFinancialMetrics(realizationRpPerBird, realizationRpPerKg, realizationAmount),
),
}
}
func createHppEkspedisiItem(ekspedisiAmount float64, ctx CalculationContext) HppItem {
ekspedisiRpPerBird, ekspedisiRpPerKg := calculatePerUnitMetrics(ekspedisiAmount, ctx.TotalPopulation, ctx.TotalWeightProduced)
return HppItem{
Type: HPPLabelEkspedisi,
Comparison: ToComparison(
ToFinancialMetrics(ekspedisiRpPerBird, ekspedisiRpPerKg, ekspedisiAmount),
ToFinancialMetrics(ekspedisiRpPerBird, ekspedisiRpPerKg, ekspedisiAmount),
),
}
}
func ToHppBahanBakuGroup(budgets []entities.ProjectBudget, realizations []entities.ExpenseRealization, ctx CalculationContext) HppGroup {
items := []HppItem{}
budgetAmount := sumBudgetsByFilter(budgets, func(*entities.ProjectBudget) bool { return true })
realizationAmount := getOperationalExpenses(realizations)
if budgetAmount > 0 || realizationAmount > 0 {
items = append(items, createHppOverheadItem(budgetAmount, realizationAmount, ctx))
}
ekspedisiAmount := sumRealizationsByFilter(realizations, filterRealizationByNonstockFlag(utils.FlagEkspedisi))
items = append(items, createHppEkspedisiItem(ekspedisiAmount, ctx))
return HppGroup{
GroupName: HPPGroupBahanBaku,
Data: items,
}
}
// === HPP SUMMARY ===
func ToSummaryHpp(label string, purchaseItems []entities.PurchaseItem, budgets []entities.ProjectBudget, realizations []entities.ExpenseRealization, projectFlockCategory string, ctx CalculationContext) SummaryHpp {
purchaseTotal := sumPurchaseTotal(purchaseItems)
budgetTotal := sumBudgetsByFilter(budgets, func(*entities.ProjectBudget) bool { return true })
totalBudget := purchaseTotal + budgetTotal
totalRealization := sumRealizationsByFilter(realizations, func(*entities.ExpenseRealization) bool { return true })
budgetRpPerBird, budgetRpPerKg := calculatePerUnitMetrics(totalBudget, ctx.TotalPopulation, ctx.TotalWeightProduced)
realizationRpPerBird, realizationRpPerKg := calculatePerUnitMetrics(totalRealization, ctx.TotalPopulation, ctx.TotalWeightProduced)
summary := SummaryHpp{
Label: label,
Budgeting: ToFinancialMetrics(budgetRpPerBird, budgetRpPerKg, totalBudget),
Realization: ToFinancialMetrics(realizationRpPerBird, realizationRpPerKg, totalRealization),
}
if projectFlockCategory == string(utils.ProjectFlockCategoryLaying) && ctx.TotalEggWeightKg > 0 {
budgetEggRpPerKg, _ := calculatePerUnitMetrics(totalBudget, 0, ctx.TotalEggWeightKg)
realizationEggRpPerKg, _ := calculatePerUnitMetrics(totalRealization, 0, ctx.TotalEggWeightKg)
summary.EggBudgeting = &FinancialMetrics{
RpPerBird: 0,
RpPerKg: budgetEggRpPerKg,
Amount: totalBudget,
}
summary.EggRealization = &FinancialMetrics{
RpPerBird: 0,
RpPerKg: realizationEggRpPerKg,
Amount: totalRealization,
}
}
return summary
}
func ToHppPurchasesSection(purchaseItems []entities.PurchaseItem, budgets []entities.ProjectBudget, realizations []entities.ExpenseRealization, projectFlockCategory string, ctx CalculationContext) HppPurchasesSection {
hppGroups := []HppGroup{
{
GroupName: HPPGroupPengeluaran,
Data: buildHppItemsByPurchaseFlags(purchaseItems, ctx),
},
ToHppBahanBakuGroup(budgets, realizations, ctx),
}
summaryHpp := ToSummaryHpp(HPPSummaryLabel, purchaseItems, budgets, realizations, projectFlockCategory, ctx)
return HppPurchasesSection{
Hpp: hppGroups,
SummaryHpp: summaryHpp,
}
}
// === PROFIT & LOSS ===
func ToPLItem(itemType string, metrics FinancialMetrics) PLItem {
return PLItem{
Type: itemType,
FinancialMetrics: metrics,
}
}
func ToPLSummaryItem(label string, metrics FinancialMetrics) PLSummaryItem {
return PLSummaryItem{
Label: label,
FinancialMetrics: metrics,
}
}
func createPLItemWithMetrics(itemType string, amount float64, ctx CalculationContext) PLItem {
rpPerBird, rpPerKg := calculatePerUnitMetrics(amount, ctx.ActualPopulation, ctx.TotalWeightProduced)
return ToPLItem(itemType, ToFinancialMetrics(rpPerBird, rpPerKg, amount))
}
func sumPLItems(items []PLItem) (totalAmount, totalPerBird float64) {
for _, item := range items {
totalAmount += item.Amount
totalPerBird += item.RpPerBird
}
return
}
func createPenjualanItem(salesType string, amount float64, ctx CalculationContext) PLItem {
rpPerBird, rpPerKg := calculatePerUnitMetrics(amount, ctx.ActualPopulation, ctx.TotalWeightSold)
return ToPLItem(salesType, ToFinancialMetrics(rpPerBird, rpPerKg, amount))
}
func ToPenjualanItems(projectFlockCategory string, deliveryProducts []entities.MarketingDeliveryProduct, ctx CalculationContext) []PLItem {
items := []PLItem{}
categorized := categorizeDeliveriesBySalesType(deliveryProducts)
if projectFlockCategory == string(utils.ProjectFlockCategoryLaying) {
ayamAmount := sumDeliveriesByCategory(categorized[PLSalesTypeChicken])
telurAmount := sumDeliveriesByCategory(categorized[PLSalesTypeEgg])
items = append(items, createPenjualanItem(PLSalesTypeChicken, ayamAmount, ctx))
items = append(items, createPenjualanItem(PLSalesTypeEgg, telurAmount, ctx))
} else {
ayamAmount := sumDeliveriesByCategory(categorized[PLSalesTypeChicken])
items = append(items, createPenjualanItem(PLSalesTypeChicken, ayamAmount, ctx))
}
return items
}
func ToPembelianItems(purchases []entities.PurchaseItem, realizations []entities.ExpenseRealization, ctx CalculationContext) []PLItem {
purchaseAmount := sumPurchaseTotal(purchases)
return []PLItem{
createPLItemWithMetrics(PLItemTypeSapronak, purchaseAmount, ctx),
}
}
func ToOverheadItems(realizations []entities.ExpenseRealization, ctx CalculationContext) []PLItem {
realizationAmount := getOperationalExpenses(realizations)
return []PLItem{
createPLItemWithMetrics(PLItemTypeOverhead, realizationAmount, ctx),
}
}
func ToEkspedisiItems(realizations []entities.ExpenseRealization, ctx CalculationContext) []PLItem {
amount := sumRealizationsByFilter(realizations, filterRealizationByNonstockFlag(utils.FlagEkspedisi))
return []PLItem{
createPLItemWithMetrics(PLItemTypeEkspedisi, amount, ctx),
}
}
func ToPLSummaryGroup(penjualanItems, pembelianItems, overheadItems, ekspedisiItems []PLItem) PLSummaryGroup {
totalPenjualan, totalPenjualanPerBird := sumPLItems(penjualanItems)
totalPembelian, totalPembelianPerBird := sumPLItems(pembelianItems)
totalOverhead, totalOverheadPerBird := sumPLItems(overheadItems)
totalEkspedisi, totalEkspedisiPerBird := sumPLItems(ekspedisiItems)
grossProfit := totalPenjualan - totalPembelian
grossProfitPerBird := totalPenjualanPerBird - totalPembelianPerBird
totalOtherExpenses := totalOverhead + totalEkspedisi
totalOtherExpensesPerBird := totalOverheadPerBird + totalEkspedisiPerBird
netProfit := grossProfit - totalOtherExpenses
netProfitPerBird := grossProfitPerBird - totalOtherExpensesPerBird
return PLSummaryGroup{
GrossProfit: ToPLSummaryItem(PLSummaryLabelGrossProfit, ToFinancialMetrics(grossProfitPerBird, 0, grossProfit)),
SubTotal: ToPLSummaryItem(PLSummaryLabelSubTotal, ToFinancialMetrics(totalOtherExpensesPerBird, 0, totalOtherExpenses)),
NetProfit: ToPLSummaryItem(PLSummaryLabelNetProfit, ToFinancialMetrics(netProfitPerBird, 0, netProfit)),
}
}
func ToProfitLossData(penjualanItems, pembelianItems, overheadItems, ekspedisiItems []PLItem) ProfitLossData {
summary := ToPLSummaryGroup(penjualanItems, pembelianItems, overheadItems, ekspedisiItems)
totalOverhead := aggregatePLItems(overheadItems, PLItemTypeOverhead)
totalEkspedisi := aggregatePLItems(ekspedisiItems, PLItemTypeEkspedisi)
return ProfitLossData{
Penjualan: penjualanItems,
Pembelian: pembelianItems,
Overhead: totalOverhead,
Ekspedisi: totalEkspedisi,
Summary: summary,
}
}
func ToProfitLossSection(penjualanItems, pembelianItems, overheadItems, ekspedisiItems []PLItem) ProfitLossSection {
return ProfitLossSection{
Data: ToProfitLossData(penjualanItems, pembelianItems, overheadItems, ekspedisiItems),
}
}
func aggregatePLItems(items []PLItem, label string) PLItem {
totalAmount, totalPerBird := sumPLItems(items)
return ToPLItem(label, ToFinancialMetrics(totalPerBird, 0, totalAmount))
}
func ToReportResponse(hppPurchases HppPurchasesSection, profitLoss ProfitLossSection) ReportResponse {
return ReportResponse{
HppPurchases: hppPurchases,
ProfitLoss: profitLoss,
}
}
func ToClosingKeuanganReport(input ClosingKeuanganInput) ReportResponse {
var totalPopulation float64
var totalWeightSold float64
for _, chickin := range input.Chickins {
totalPopulation += chickin.UsageQty
}
for _, delivery := range input.DeliveryProducts {
totalWeightSold += delivery.TotalWeight
}
ctx := CalculationContext{
TotalPopulation: totalPopulation,
TotalWeightProduced: input.TotalWeightProduced,
TotalEggWeightKg: input.TotalEggWeightKg,
TotalDepletion: input.TotalDepletion,
TotalWeightSold: totalWeightSold,
ActualPopulation: totalPopulation - input.TotalDepletion,
}
hppSection := ToHppPurchasesSection(input.PurchaseItems, input.Budgets, input.Realizations, input.ProjectFlockCategory, ctx)
penjualanItems := ToPenjualanItems(input.ProjectFlockCategory, input.DeliveryProducts, ctx)
pembelianItems := ToPembelianItems(input.PurchaseItems, input.Realizations, ctx)
overheadItems := ToOverheadItems(input.Realizations, ctx)
ekspedisiItems := ToEkspedisiItems(input.Realizations, ctx)
plSection := ToProfitLossSection(penjualanItems, pembelianItems, overheadItems, ekspedisiItems)
return ToReportResponse(hppSection, plSection)
}
// === HELPER FUNCTIONS ===
func calculatePerUnitMetrics(amount, totalPopulation, totalWeightSold float64) (rpPerBird, rpPerKg float64) {
if totalPopulation > 0 {
rpPerBird = amount / totalPopulation
}
if totalWeightSold > 0 {
rpPerKg = amount / totalWeightSold
}
return rpPerBird, rpPerKg
}
func hasProductFlag(flags []entities.Flag, flagType utils.FlagType) bool {
for _, flag := range flags {
if strings.ToUpper(flag.Name) == string(flagType) {
return true
}
}
return false
}
func filterByPurchaseFlag(flagType utils.FlagType) func(*entities.PurchaseItem) bool {
return func(item *entities.PurchaseItem) bool {
if item.Product == nil || len(item.Product.Flags) == 0 {
return false
}
return hasProductFlag(item.Product.Flags, flagType)
}
}
func filterRealizationByNonstockFlag(flagType utils.FlagType) func(*entities.ExpenseRealization) bool {
return func(realization *entities.ExpenseRealization) bool {
if realization.ExpenseNonstock == nil || realization.ExpenseNonstock.Nonstock == nil {
return false
}
return hasProductFlag(realization.ExpenseNonstock.Nonstock.Flags, flagType)
}
}
func filterRealizationExceptFlag(flagType utils.FlagType) func(*entities.ExpenseRealization) bool {
hasFlag := filterRealizationByNonstockFlag(flagType)
return func(realization *entities.ExpenseRealization) bool {
return !hasFlag(realization)
}
}
func sumByFilter[T any](items []T, extractor func(*T) float64, filter func(*T) bool) float64 {
amount := 0.0
for i := range items {
if filter(&items[i]) {
amount += extractor(&items[i])
}
}
return amount
}
func sumPurchasesByFilter(purchases []entities.PurchaseItem, filter func(*entities.PurchaseItem) bool) float64 {
return sumByFilter(purchases, func(p *entities.PurchaseItem) float64 { return p.TotalPrice }, filter)
}
func sumPurchasesByFlag(purchases []entities.PurchaseItem, flagType utils.FlagType) float64 {
return sumPurchasesByFilter(purchases, filterByPurchaseFlag(flagType))
}
func sumPurchaseTotal(purchases []entities.PurchaseItem) float64 {
return sumByFilter(purchases, func(p *entities.PurchaseItem) float64 { return p.TotalPrice }, func(*entities.PurchaseItem) bool { return true })
}
func sumBudgetsByFilter(budgets []entities.ProjectBudget, filter func(*entities.ProjectBudget) bool) float64 {
return sumByFilter(budgets, func(b *entities.ProjectBudget) float64 { return b.Price * b.Qty }, filter)
}
func sumRealizationsByFilter(realizations []entities.ExpenseRealization, filter func(*entities.ExpenseRealization) bool) float64 {
return sumByFilter(realizations, func(r *entities.ExpenseRealization) float64 { return r.Price * r.Qty }, filter)
}
func getOperationalExpenses(realizations []entities.ExpenseRealization) float64 {
return sumRealizationsByFilter(realizations, filterRealizationExceptFlag(utils.FlagEkspedisi))
}
func isChickenProductFlag(flagType utils.FlagType) bool {
switch flagType {
case utils.FlagDOC, utils.FlagPullet, utils.FlagLayer,
utils.FlagAyamAfkir, utils.FlagAyamCulling, utils.FlagAyamMati:
return true
}
return false
}
func isEggProductFlag(flagType utils.FlagType) bool {
switch flagType {
case utils.FlagTelur, utils.FlagTelurUtuh, utils.FlagTelurPecah,
utils.FlagTelurPutih, utils.FlagTelurRetak:
return true
}
return false
}
func getSalesTypeFromProductFlags(product *entities.Product) string {
if product == nil || len(product.Flags) == 0 {
return PLSalesTypeChicken
}
for _, flag := range product.Flags {
flagType := utils.FlagType(strings.ToUpper(flag.Name))
if isEggProductFlag(flagType) {
return PLSalesTypeEgg
}
if isChickenProductFlag(flagType) {
return PLSalesTypeChicken
}
}
return PLSalesTypeChicken
}
func categorizeDeliveriesBySalesType(deliveries []entities.MarketingDeliveryProduct) map[string][]entities.MarketingDeliveryProduct {
categorized := make(map[string][]entities.MarketingDeliveryProduct)
for _, delivery := range deliveries {
product := delivery.MarketingProduct.ProductWarehouse.Product
salesType := getSalesTypeFromProductFlags(&product)
categorized[salesType] = append(categorized[salesType], delivery)
}
return categorized
}
func sumDeliveriesByCategory(deliveries []entities.MarketingDeliveryProduct) float64 {
amount := 0.0
for _, delivery := range deliveries {
amount += delivery.TotalPrice
}
return amount
}
internal/modules/closings/dto/closingKeuanganNew.dto.go
+161
View File
@@ -0,0 +1,161 @@
package dto
// === NEW CLOSING KEUANGAN DTO ===
// FinancialMetrics represents financial metrics with per unit and total amounts
type FinancialMetrics struct {
RpPerBird float64 `json:"rp_per_bird"`
RpPerKg float64 `json:"rp_per_kg"`
Amount float64 `json:"amount"`
}
// HPPItem represents an item in HPP section
type HPPItem struct {
ID uint `json:"id"`
Category string `json:"category"` // "purchase" or "overhead"
Code string `json:"code"` // "PAKAN", "OVK", "DOC", "EKSPEDISI"
Label string `json:"label"`
Budgeting FinancialMetrics `json:"budgeting"`
Realization FinancialMetrics `json:"realization"`
}
// HPPSummary represents summary for HPP section
type HPPSummary struct {
Label string `json:"label"`
Budgeting FinancialMetrics `json:"budgeting"`
Realization FinancialMetrics `json:"realization"`
EggBudgeting *FinancialMetrics `json:"egg_budgeting,omitempty"`
EggRealization *FinancialMetrics `json:"egg_realization,omitempty"`
}
// HPPSection represents HPP data section
type HPPSection struct {
Items []HPPItem `json:"items"`
Summary HPPSummary `json:"summary"`
}
// ProfitLossItem represents an item in Profit & Loss section
type ProfitLossItem struct {
Code string `json:"code"` // "SALES", "PURCHASE_DOC", "OVERHEAD", "EKSPEDISI"
Label string `json:"label"`
Type string `json:"type"` // "income", "purchase", "overhead"
RpPerBird float64 `json:"rp_per_bird"`
RpPerKg float64 `json:"rp_per_kg"`
Amount float64 `json:"amount"`
}
// ProfitLossSummary represents summary for Profit & Loss section
type ProfitLossSummary struct {
GrossProfit FinancialMetrics `json:"gross_profit"`
SubTotal FinancialMetrics `json:"sub_total"`
NetProfit FinancialMetrics `json:"net_profit"`
}
// ProfitLossSection represents Profit & Loss data section
type ProfitLossSection struct {
Items []ProfitLossItem `json:"items"`
Summary ProfitLossSummary `json:"summary"`
}
// ClosingKeuanganData represents the main data structure
type ClosingKeuanganData struct {
HPP HPPSection `json:"hpp"`
ProfitLoss ProfitLossSection `json:"profit_loss"`
}
// ClosingKeuanganResponse represents the full API response
type ClosingKeuanganResponse struct {
Code int `json:"code"`
Status string `json:"status"`
Message string `json:"message"`
Data ClosingKeuanganData `json:"data"`
}
// === MAPPER FUNCTIONS ===
// ToFinancialMetrics creates FinancialMetrics from values
func ToFinancialMetrics(rpPerBird, rpPerKg, amount float64) FinancialMetrics {
return FinancialMetrics{
RpPerBird: rpPerBird,
RpPerKg: rpPerKg,
Amount: amount,
}
}
// ToHPPItem creates HPP item
func ToHPPItem(id uint, category, code, label string, budgeting, realization FinancialMetrics) HPPItem {
return HPPItem{
ID: id,
Category: category,
Code: code,
Label: label,
Budgeting: budgeting,
Realization: realization,
}
}
// ToHPPSummary creates HPP summary
func ToHPPSummary(label string, budgeting, realization FinancialMetrics, eggBudgeting, eggRealization *FinancialMetrics) HPPSummary {
return HPPSummary{
Label: label,
Budgeting: budgeting,
Realization: realization,
EggBudgeting: eggBudgeting,
EggRealization: eggRealization,
}
}
// ToHPPSection creates HPP section
func ToHPPSection(items []HPPItem, summary HPPSummary) HPPSection {
return HPPSection{
Items: items,
Summary: summary,
}
}
// ToProfitLossItem creates Profit & Loss item
func ToProfitLossItem(code, label, itemType string, rpPerBird, rpPerKg, amount float64) ProfitLossItem {
return ProfitLossItem{
Code: code,
Label: label,
Type: itemType,
RpPerBird: rpPerBird,
RpPerKg: rpPerKg,
Amount: amount,
}
}
// ToProfitLossSummary creates Profit & Loss summary
func ToProfitLossSummary(grossProfit, subTotal, netProfit FinancialMetrics) ProfitLossSummary {
return ProfitLossSummary{
GrossProfit: grossProfit,
SubTotal: subTotal,
NetProfit: netProfit,
}
}
// ToProfitLossSection creates Profit & Loss section
func ToProfitLossSection(items []ProfitLossItem, summary ProfitLossSummary) ProfitLossSection {
return ProfitLossSection{
Items: items,
Summary: summary,
}
}
// ToClosingKeuanganData creates complete closing keuangan data
func ToClosingKeuanganData(hpp HPPSection, profitLoss ProfitLossSection) ClosingKeuanganData {
return ClosingKeuanganData{
HPP: hpp,
ProfitLoss: profitLoss,
}
}
// ToSuccessClosingKeuanganResponse creates success response
func ToSuccessClosingKeuanganResponse(data ClosingKeuanganData) ClosingKeuanganResponse {
return ClosingKeuanganResponse{
Code: 200,
Status: "success",
Message: "Get closing keuangan successfully",
Data: data,
}
}
internal/modules/closings/module.go
+3 -1
View File
@@ -25,6 +25,7 @@ type ClosingModule struct{}
func (ClosingModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate *validator.Validate) {
closingRepo := rClosing.NewClosingRepository(db)
closingKeuanganRepo := rClosing.NewClosingKeuanganRepository(db)
userRepo := rUser.NewUserRepository(db)
projectFlockRepo := rProjectFlock.NewProjectflockRepository(db)
projectFlockKandangRepo := rProjectFlock.NewProjectFlockKandangRepository(db)
@@ -41,8 +42,9 @@ func (ClosingModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate *
approvalService := commonSvc.NewApprovalService(approvalRepo)
closingService := sClosing.NewClosingService(closingRepo, projectFlockRepo, projectFlockKandangRepo, marketingRepo, marketingDeliveryProductRepo, approvalService, expenseRealizationRepo, projectBudgetRepo, chickinRepo, purchaseRepo, recordingRepo, standardGrowthDetailRepo, productionStandardDetailRepo, validate)
closingKeuanganService := sClosing.NewClosingKeuanganService(closingKeuanganRepo, projectFlockRepo, projectFlockKandangRepo, marketingDeliveryProductRepo, expenseRealizationRepo, projectBudgetRepo, chickinRepo, recordingRepo)
sapronakService := sClosing.NewSapronakService(closingRepo, projectFlockKandangRepo, validate)
userService := sUser.NewUserService(userRepo, validate)
ClosingRoutes(router, userService, closingService, sapronakService)
ClosingRoutes(router, userService, closingService, sapronakService, closingKeuanganService)
}
internal/modules/closings/repositories/closing.repository.go
-127
View File
@@ -33,7 +33,6 @@ type ClosingRepository interface {
FetchSapronakChickinUsageDetails(ctx context.Context, pfkID uint) (map[uint][]SapronakDetailRow, error)
FetchSapronakAdjustments(ctx context.Context, kandangID uint) (map[uint][]SapronakDetailRow, map[uint][]SapronakDetailRow, error)
FetchSapronakTransfers(ctx context.Context, kandangID uint) (map[uint][]SapronakDetailRow, map[uint][]SapronakDetailRow, error)
GetActualUsageCostByProjectFlockID(ctx context.Context, projectFlockID uint) ([]ActualUsageCostRow, error)
GetProductsWithFlagsByIDs(ctx context.Context, productIDs []uint) ([]entity.Product, error)
}
@@ -944,132 +943,6 @@ func (r *ClosingRepositoryImpl) FetchSapronakTransfers(ctx context.Context, kand
return incoming, outgoing, nil
}
type ActualUsageCostRow struct {
ProductID uint `gorm:"column:product_id"`
ProductName string `gorm:"column:product_name"`
FlagName string `gorm:"column:flag_name"`
TotalQty float64 `gorm:"column:total_qty"`
TotalPrice float64 `gorm:"column:total_price"`
AveragePrice float64 `gorm:"column:average_price"`
}
func (r *ClosingRepositoryImpl) GetActualUsageCostByProjectFlockID(ctx context.Context, projectFlockID uint) ([]ActualUsageCostRow, error) {
if projectFlockID == 0 {
return []ActualUsageCostRow{}, nil
}
db := r.DB().WithContext(ctx)
// Get all project flock kandang IDs for this project flock
var pfkIDs []uint
err := db.Table("project_flock_kandangs").
Where("project_flock_id = ?", projectFlockID).
Pluck("id", &pfkIDs).Error
if err != nil {
return nil, err
}
if len(pfkIDs) == 0 {
return []ActualUsageCostRow{}, nil
}
var rows []ActualUsageCostRow
purchaseStockableKey := fifo.StockableKeyPurchaseItems.String()
transferStockableKey := fifo.StockableKeyStockTransferIn.String()
recordingQuery := db.
Table("recordings AS r").
Select(`
pw.product_id AS product_id,
p.name AS product_name,
COALESCE(f.name, tf.name) AS flag_name,
COALESCE(SUM(
CASE
WHEN sa.stockable_type = ? THEN COALESCE(sa.qty, 0)
WHEN sa.stockable_type = ? THEN COALESCE(std.usage_qty, 0)
ELSE 0
END
), 0) AS total_qty,
COALESCE(SUM(
CASE
WHEN sa.stockable_type = ? THEN COALESCE(sa.qty, 0) * COALESCE(pi.price, 0)
WHEN sa.stockable_type = ? THEN COALESCE(std.usage_qty, 0) * COALESCE(tpi.price, 0)
ELSE 0
END
), 0) AS total_price,
COALESCE(SUM(
CASE
WHEN sa.stockable_type = ? THEN COALESCE(sa.qty, 0)
WHEN sa.stockable_type = ? THEN COALESCE(std.usage_qty, 0)
ELSE 0
END
), 0) AS qty_divisor,
COALESCE(SUM(
CASE
WHEN sa.stockable_type = ? THEN COALESCE(sa.qty, 0) * COALESCE(pi.price, 0)
WHEN sa.stockable_type = ? THEN COALESCE(std.usage_qty, 0) * COALESCE(tpi.price, 0)
ELSE 0
END
), 0) / NULLIF(COALESCE(SUM(
CASE
WHEN sa.stockable_type = ? THEN COALESCE(sa.qty, 0)
WHEN sa.stockable_type = ? THEN COALESCE(std.usage_qty, 0)
ELSE 0
END
), 0), 0) AS average_price`,
purchaseStockableKey, transferStockableKey,
purchaseStockableKey, transferStockableKey,
purchaseStockableKey, transferStockableKey,
purchaseStockableKey, transferStockableKey,
purchaseStockableKey, transferStockableKey).
Joins("JOIN recording_stocks AS rs ON rs.recording_id = r.id").
Joins("JOIN product_warehouses AS pw ON pw.id = rs.product_warehouse_id").
Joins("JOIN products AS p ON p.id = pw.product_id").
Joins("LEFT JOIN stock_allocations AS sa ON sa.usable_type = ? AND sa.usable_id = rs.id AND sa.status = ?",
"recording_stocks", entity.StockAllocationStatusActive).
Joins("LEFT JOIN purchase_items AS pi ON pi.id = sa.stockable_id AND sa.stockable_type = ?", purchaseStockableKey).
Joins("LEFT JOIN stock_transfer_details AS std ON std.id = sa.stockable_id AND sa.stockable_type = ?", transferStockableKey).
Joins("LEFT JOIN stock_transfers AS st ON st.id = std.stock_transfer_id").
Joins("LEFT JOIN purchase_items AS tpi ON tpi.product_id = std.product_id AND tpi.warehouse_id = st.from_warehouse_id").
Joins("LEFT JOIN flags AS f ON f.flagable_id = pi.product_id AND f.flagable_type = ?", entity.FlagableTypeProduct).
Joins("LEFT JOIN flags AS tf ON tf.flagable_id = std.product_id AND tf.flagable_type = ?", entity.FlagableTypeProduct).
Where("r.project_flock_kandangs_id IN ?", pfkIDs).
Where("r.deleted_at IS NULL").
Group("pw.product_id, p.name, COALESCE(f.name, tf.name)")
if err := recordingQuery.Scan(&rows).Error; err != nil {
return nil, err
}
chickinQuery := db.
Table("project_chickins AS pc").
Select(`
pw.product_id AS product_id,
p.name AS product_name,
f.name AS flag_name,
COALESCE(SUM(pc.usage_qty), 0) AS total_qty,
COALESCE(SUM(pc.usage_qty * COALESCE(pi.price, 0)), 0) AS total_price,
COALESCE(AVG(COALESCE(pi.price, 0)), 0) AS average_price
`).
Joins("JOIN product_warehouses AS pw ON pw.id = pc.product_warehouse_id").
Joins("JOIN products AS p ON p.id = pw.product_id").
Joins("LEFT JOIN purchase_items AS pi ON pi.product_warehouse_id = pc.product_warehouse_id").
Joins("LEFT JOIN flags AS f ON f.flagable_id = p.id AND f.flagable_type = ?", entity.FlagableTypeProduct).
Where("pc.project_flock_kandang_id IN ?", pfkIDs).
Where("pc.usage_qty > 0").
Group("pw.product_id, p.name, f.name")
var chickinRows []ActualUsageCostRow
if err := chickinQuery.Scan(&chickinRows).Error; err != nil {
return nil, err
}
rows = append(rows, chickinRows...)
return rows, nil
}
func (r *ClosingRepositoryImpl) GetProductsWithFlagsByIDs(ctx context.Context, productIDs []uint) ([]entity.Product, error) {
if len(productIDs) == 0 {
return []entity.Product{}, nil
internal/modules/closings/repositories/closingKeuangan.repository.go
+316
View File
@@ -0,0 +1,316 @@
package repository
import (
"context"
"fmt"
"sort"
"strings"
"gitlab.com/mbugroup/lti-api.git/internal/common/repository"
"gorm.io/gorm"
)
// ClosingKeuanganRepository handles database operations for closing keuangan
type ClosingKeuanganRepository interface {
repository.BaseRepository[interface{}]
// All Product Usage
GetAllProductUsageByProjectFlockKandangID(ctx context.Context, projectFlockKandangID uint, flagFilters []string) ([]ProductUsageRow, error)
// DB returns the underlying GORM DB instance
DB() *gorm.DB
}
type ClosingKeuanganRepositoryImpl struct {
*repository.BaseRepositoryImpl[interface{}]
}
func NewClosingKeuanganRepository(db *gorm.DB) ClosingKeuanganRepository {
return &ClosingKeuanganRepositoryImpl{
BaseRepositoryImpl: repository.NewBaseRepository[interface{}](db),
}
}
// Result Rows
type ProductUsageRow struct {
ProductID uint `gorm:"column:product_id"`
ProductName string `gorm:"column:product_name"`
FlagNames string `gorm:"column:flag_names"`
TotalQty float64 `gorm:"column:total_qty"`
Price float64 `gorm:"column:price"`
TotalPengeluaran float64 `gorm:"column:total_pengeluaran"`
}
// GetAllProductUsageByProjectFlockKandangID gets all product usage for a project flock kandang
// Combines data from all usable types: recordings, chickins, marketing, transfers, adjustments
// flagFilters: optional filter to get only specific flags (e.g., ["PAKAN", "OVK"]), empty means get all
func (r *ClosingKeuanganRepositoryImpl) GetAllProductUsageByProjectFlockKandangID(ctx context.Context, projectFlockKandangID uint, flagFilters []string) ([]ProductUsageRow, error) {
if projectFlockKandangID == 0 {
return []ProductUsageRow{}, nil
}
type SubQueryResult struct {
ProductID uint `gorm:"column:product_id"`
ProductName string `gorm:"column:product_name"`
TotalQty float64 `gorm:"column:total_qty"`
Price float64 `gorm:"column:price"`
}
type AggregatedResult struct {
ProductID uint `gorm:"column:product_id"`
ProductName string `gorm:"column:product_name"`
TotalQty float64 `gorm:"column:total_qty"`
Price float64 `gorm:"column:price"`
PriceCount int `gorm:"-"` // For calculating average price
}
type FlagResult struct {
ProductID uint `gorm:"column:product_id"`
FlagNames string `gorm:"column:flag_names"`
}
var allResults []SubQueryResult
// Subquery 1: Recordings
var recordingsResults []SubQueryResult
err := r.DB().WithContext(ctx).
Table("recordings r").
Select("pw.product_id, p.name as product_name, "+
"COALESCE(SUM(CASE "+
"WHEN sa.stockable_type = 'PURCHASE_ITEMS' THEN COALESCE(sa.qty, 0) "+
"WHEN sa.stockable_type = 'STOCK_TRANSFER_IN' THEN COALESCE(std.usage_qty, 0) "+
"WHEN sa.stockable_type = 'TRANSFERTOLAYING_IN' THEN COALESCE(ltt.total_used, 0) "+
"WHEN sa.stockable_type = 'ADJUSTMENT_IN' THEN COALESCE(adjs.total_used, 0) "+
"WHEN sa.stockable_type = 'PROJECT_FLOCK_POPULATION' THEN COALESCE(pfp.total_used_qty, 0) "+
"ELSE 0 END), 0) as total_qty, "+
"COALESCE(AVG(CASE WHEN sa.stockable_type = 'PURCHASE_ITEMS' THEN COALESCE(pi.price, 0) END), 0) as price").
Joins("JOIN recording_stocks rs ON rs.recording_id = r.id").
Joins("JOIN product_warehouses pw ON pw.id = rs.product_warehouse_id").
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN stock_allocations sa ON sa.usable_type = 'RECORDING_STOCK' AND sa.usable_id = rs.id AND sa.status = 'ACTIVE'").
Joins("LEFT JOIN purchase_items pi ON pi.id = sa.stockable_id AND sa.stockable_type = 'PURCHASE_ITEMS'").
Joins("LEFT JOIN stock_transfer_details std ON std.id = sa.stockable_id AND sa.stockable_type = 'STOCK_TRANSFER_IN'").
Joins("LEFT JOIN laying_transfer_targets ltt ON ltt.id = sa.stockable_id AND sa.stockable_type = 'TRANSFERTOLAYING_IN'").
Joins("LEFT JOIN adjustment_stocks adjs ON adjs.id = sa.stockable_id AND sa.stockable_type = 'ADJUSTMENT_IN'").
Joins("LEFT JOIN project_flock_populations pfp ON pfp.id = sa.stockable_id AND sa.stockable_type = 'PROJECT_FLOCK_POPULATION'").
Where("r.project_flock_kandangs_id = ?", projectFlockKandangID).
Where("r.deleted_at IS NULL").
Group("pw.product_id, p.name").
Scan(&recordingsResults).Error
if err != nil {
return nil, fmt.Errorf("failed to get recordings product usage: %w", err)
}
fmt.Printf("[REPO] Recordings query: %d results for projectFlockKandangID=%d\n", len(recordingsResults), projectFlockKandangID)
allResults = append(allResults, recordingsResults...)
// Subquery 2: Chickins
var chickinsResults []SubQueryResult
err = r.DB().WithContext(ctx).
Table("project_chickins pc").
Select("pw.product_id, p.name as product_name, "+
"COALESCE(SUM(pc.usage_qty), 0) as total_qty, "+
"COALESCE(AVG(COALESCE(pi.price, 0)), 0) as price").
Joins("JOIN product_warehouses pw ON pw.id = pc.product_warehouse_id").
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN purchase_items pi ON pi.product_warehouse_id = pw.id").
Where("pc.project_flock_kandang_id = ?", projectFlockKandangID).
Where("pc.usage_qty > 0").
Group("pw.product_id, p.name").
Scan(&chickinsResults).Error
if err != nil {
return nil, fmt.Errorf("failed to get chickins product usage: %w", err)
}
fmt.Printf("[REPO] Chickins query: %d results for projectFlockKandangID=%d\n", len(chickinsResults), projectFlockKandangID)
allResults = append(allResults, chickinsResults...)
// Subquery 3: Marketing Delivery
var marketingResults []SubQueryResult
err = r.DB().WithContext(ctx).
Table("marketing_delivery_products mdp").
Select("pw.product_id, p.name as product_name, "+
"COALESCE(SUM(mdp.usage_qty), 0) as total_qty, "+
"COALESCE(AVG(COALESCE(pi.price, 0)), 0) as price").
Joins("JOIN marketing_products mp ON mp.id = mdp.marketing_product_id").
Joins("JOIN product_warehouses pw ON pw.id = mp.product_warehouse_id").
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN purchase_items pi ON pi.product_warehouse_id = pw.id").
Where("pw.project_flock_kandang_id = ?", projectFlockKandangID).
Group("pw.product_id, p.name").
Scan(&marketingResults).Error
if err != nil {
return nil, fmt.Errorf("failed to get marketing product usage: %w", err)
}
fmt.Printf("[REPO] Marketing query: %d results for projectFlockKandangID=%d\n", len(marketingResults), projectFlockKandangID)
allResults = append(allResults, marketingResults...)
// Subquery 4: Laying Transfer Sources
var layingTransferResults []SubQueryResult
err = r.DB().WithContext(ctx).
Table("laying_transfer_sources lts").
Select("pw.product_id, p.name as product_name, "+
"COALESCE(SUM(lts.usage_qty), 0) as total_qty, "+
"COALESCE(AVG(COALESCE(pi.price, 0)), 0) as price").
Joins("JOIN laying_transfers lt ON lt.id = lts.laying_transfer_id").
Joins("JOIN product_warehouses pw ON pw.id = lts.product_warehouse_id").
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN purchase_items pi ON pi.product_warehouse_id = pw.id").
Where("pw.project_flock_kandang_id = ?", projectFlockKandangID).
Group("pw.product_id, p.name").
Scan(&layingTransferResults).Error
if err != nil {
return nil, fmt.Errorf("failed to get laying transfer product usage: %w", err)
}
fmt.Printf("[REPO] Laying Transfer query: %d results for projectFlockKandangID=%d\n", len(layingTransferResults), projectFlockKandangID)
allResults = append(allResults, layingTransferResults...)
// Subquery 5: Stock Transfer Details
var stockTransferResults []SubQueryResult
err = r.DB().WithContext(ctx).
Table("stock_transfer_details std").
Select("pw.product_id, p.name as product_name, "+
"COALESCE(SUM(std.usage_qty), 0) as total_qty, "+
"COALESCE(AVG(COALESCE(pi.price, 0)), 0) as price").
Joins("JOIN product_warehouses pw ON pw.id = std.source_product_warehouse_id").
Joins("JOIN products p ON p.id = std.product_id").
Joins("LEFT JOIN purchase_items pi ON pi.product_warehouse_id = pw.id").
Where("pw.project_flock_kandang_id = ?", projectFlockKandangID).
Group("pw.product_id, p.name").
Scan(&stockTransferResults).Error
if err != nil {
return nil, fmt.Errorf("failed to get stock transfer product usage: %w", err)
}
fmt.Printf("[REPO] Stock Transfer query: %d results for projectFlockKandangID=%d\n", len(stockTransferResults), projectFlockKandangID)
allResults = append(allResults, stockTransferResults...)
// Subquery 6: Adjustment Stocks
var adjustmentResults []SubQueryResult
err = r.DB().WithContext(ctx).
Table("adjustment_stocks ads").
Select("pw.product_id, p.name as product_name, "+
"COALESCE(SUM(ads.usage_qty), 0) as total_qty, "+
"COALESCE(AVG(COALESCE(pi.price, 0)), 0) as price").
Joins("JOIN product_warehouses pw ON pw.id = ads.product_warehouse_id").
Joins("JOIN products p ON p.id = pw.product_id").
Joins("LEFT JOIN purchase_items pi ON pi.product_warehouse_id = pw.id").
Where("pw.project_flock_kandang_id = ?", projectFlockKandangID).
Where("ads.usage_qty > 0").
Group("pw.product_id, p.name").
Scan(&adjustmentResults).Error
if err != nil {
return nil, fmt.Errorf("failed to get adjustment product usage: %w", err)
}
fmt.Printf("[REPO] Adjustment query: %d results for projectFlockKandangID=%d\n", len(adjustmentResults), projectFlockKandangID)
allResults = append(allResults, adjustmentResults...)
fmt.Printf("[REPO] Total raw results before aggregation: %d items\n", len(allResults))
// Aggregate results by product_id
aggregatedMap := make(map[uint]*AggregatedResult)
for _, result := range allResults {
key := result.ProductID
if existing, exists := aggregatedMap[key]; exists {
existing.TotalQty += result.TotalQty
existing.Price += result.Price
existing.PriceCount++
} else {
aggregatedMap[key] = &AggregatedResult{
ProductID: result.ProductID,
ProductName: result.ProductName,
TotalQty: result.TotalQty,
Price: result.Price,
PriceCount: 1,
}
}
}
fmt.Printf("[REPO] Aggregated to %d unique products\n", len(aggregatedMap))
// Get flags for all products
productIDs := make([]uint, 0, len(aggregatedMap))
for id := range aggregatedMap {
productIDs = append(productIDs, id)
}
var flagResults []FlagResult
if len(productIDs) > 0 {
err = r.DB().WithContext(ctx).
Table("products p").
Select("p.id as product_id, STRING_AGG(DISTINCT f.name, ', ') as flag_names").
Joins("LEFT JOIN flags f ON f.flagable_type = 'products' AND f.flagable_id = p.id").
Where("p.id IN ?", productIDs).
Group("p.id").
Scan(&flagResults).Error
if err != nil {
return nil, fmt.Errorf("failed to get product flags: %w", err)
}
}
fmt.Printf("[REPO] Fetched flags for %d products\n", len(flagResults))
// Build flag map
flagMap := make(map[uint]string)
for _, flag := range flagResults {
flagMap[flag.ProductID] = flag.FlagNames
}
// Combine results and calculate average price
results := make([]ProductUsageRow, 0, len(aggregatedMap))
for _, agg := range aggregatedMap {
avgPrice := float64(0)
if agg.PriceCount > 0 {
avgPrice = agg.Price / float64(agg.PriceCount)
}
flagNames := flagMap[agg.ProductID]
// Apply flag filters if provided
if len(flagFilters) > 0 {
// Check if any of the flagFilters exist in flagNames
matched := false
for _, filter := range flagFilters {
if containsIgnoreCase(flagNames, filter) {
matched = true
break
}
}
if !matched {
continue // Skip this product if no flag matches
}
}
results = append(results, ProductUsageRow{
ProductID: agg.ProductID,
ProductName: agg.ProductName,
FlagNames: flagNames,
TotalQty: agg.TotalQty,
Price: avgPrice,
TotalPengeluaran: agg.TotalQty * avgPrice,
})
}
fmt.Printf("[REPO] After filtering with flagFilters=%v: %d results\n", flagFilters, len(results))
for i, r := range results {
fmt.Printf("[REPO] Result[%d]: ProductID=%d, ProductName=%s, FlagNames=%s, TotalQty=%.2f, Price=%.2f, TotalPengeluaran=%.2f\n",
i, r.ProductID, r.ProductName, r.FlagNames, r.TotalQty, r.Price, r.TotalPengeluaran)
}
// Sort by product name
sort.Slice(results, func(i, j int) bool {
return results[i].ProductName < results[j].ProductName
})
fmt.Printf("[REPO] Final sorted results: %d items\n", len(results))
return results, nil
}
// containsIgnoreCase checks if a string contains a substring (case-insensitive)
func containsIgnoreCase(str, substr string) bool {
return strings.Contains(strings.ToUpper(str), strings.ToUpper(substr))
}
internal/modules/closings/route.go
+2 -2
View File
@@ -9,8 +9,8 @@ import (
"github.com/gofiber/fiber/v2"
)
func ClosingRoutes(v1 fiber.Router, u user.UserService, s closing.ClosingService, sapronakSvc closing.SapronakService) {
ctrl := controller.NewClosingController(s, sapronakSvc)
func ClosingRoutes(v1 fiber.Router, u user.UserService, s closing.ClosingService, sapronakSvc closing.SapronakService, closingKeuanganSvc closing.ClosingKeuanganService) {
ctrl := controller.NewClosingController(s, sapronakSvc, closingKeuanganSvc)
route := v1.Group("/closings")
route.Use(m.Auth(u))
internal/modules/closings/services/closing.service.go
-126
View File
@@ -40,7 +40,6 @@ type ClosingService interface {
GetClosingDataProduksi(ctx *fiber.Ctx, projectFlockID uint, kandangID *uint) (*dto.ClosingProductionReportDTO, error)
GetOverhead(ctx *fiber.Ctx, projectFlockID uint, projectFlockKandangID *uint) (*dto.OverheadListDTO, error)
GetClosingSapronak(ctx *fiber.Ctx, projectFlockID uint, params *validation.ClosingSapronakQuery) ([]dto.ClosingSapronakItemDTO, int64, error)
GetClosingKeuangan(ctx *fiber.Ctx, projectFlockID uint) (*dto.ReportResponse, error)
GetExpeditionHPP(ctx *fiber.Ctx, projectFlockID uint, projectFlockKandangID *uint) (*dto.ExpeditionHPPDTO, error)
}
@@ -576,82 +575,6 @@ func (s closingService) GetOverhead(c *fiber.Ctx, projectFlockID uint, projectFl
return &result, nil
}
func (s closingService) GetClosingKeuangan(c *fiber.Ctx, projectFlockID uint) (*dto.ReportResponse, error) {
if err := commonSvc.EnsureRelations(c.Context(),
commonSvc.RelationCheck{Name: "Project Flock", ID: &projectFlockID, Exists: s.ProjectFlockRepo.IdExists},
); err != nil {
return nil, err
}
projectFlock, err := s.ProjectFlockRepo.GetByID(c.Context(), projectFlockID, nil)
if err != nil {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch project flock")
}
budgets, err := s.ProjectBudgetRepo.GetByProjectFlockID(c.Context(), projectFlockID)
if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch budgets")
}
actualUsageRows, err := s.Repository.GetActualUsageCostByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch actual usage cost")
}
purchaseItems := s.convertActualUsageToPurchaseItems(c.Context(), actualUsageRows)
realizations, err := s.ExpenseRealizationRepo.GetByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch realizations")
}
deliveryProducts, err := s.MarketingDeliveryProductRepo.GetDeliveryProductsByProjectFlockID(c.Context(), projectFlockID, func(db *gorm.DB) *gorm.DB {
return db.Preload("MarketingProduct").
Preload("MarketingProduct.ProductWarehouse").
Preload("MarketingProduct.ProductWarehouse.Product")
})
if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch delivery products")
}
chickins, err := s.ChickinRepo.GetByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch chickins")
}
totalWeightProduced, _, err := s.RecordingRepo.GetProductionWeightAndQtyByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
s.Log.Warnf("GetProductionWeightAndQtyByProjectFlockID error: %v", err)
}
totalEggWeightKg, err := s.RecordingRepo.GetTotalEggProductionWeightByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
s.Log.Warnf("GetTotalEggProductionWeightByProjectFlockID error: %v", err)
}
totalDepletion, err := s.RecordingRepo.GetTotalDepletionByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
s.Log.Warnf("GetTotalDepletionByProjectFlockID error: %v", err)
}
input := dto.ClosingKeuanganInput{
ProjectFlockCategory: projectFlock.Category,
PurchaseItems: purchaseItems,
Budgets: budgets,
Realizations: realizations,
DeliveryProducts: deliveryProducts,
Chickins: chickins,
TotalWeightProduced: totalWeightProduced,
TotalEggWeightKg: totalEggWeightKg,
TotalDepletion: totalDepletion,
}
report := dto.ToClosingKeuanganReport(input)
return &report, nil
}
func (s closingService) GetExpeditionHPP(c *fiber.Ctx, projectFlockID uint, projectFlockKandangID *uint) (*dto.ExpeditionHPPDTO, error) {
if projectFlockID == 0 {
return nil, fiber.NewError(fiber.StatusBadRequest, "Invalid project flock id")
@@ -1108,52 +1031,3 @@ func closestFcrValues(standards []entity.FcrStandard, averageWeight float64) (fl
return closest.Mortality, closest.FcrNumber
}
func (s closingService) convertActualUsageToPurchaseItems(ctx context.Context, actualUsageRows []repository.ActualUsageCostRow) []entity.PurchaseItem {
if len(actualUsageRows) == 0 {
return []entity.PurchaseItem{}
}
// Collect all product IDs
productIDs := make([]uint, len(actualUsageRows))
for i, row := range actualUsageRows {
productIDs[i] = row.ProductID
}
// Fetch products with flags from repository
products, err := s.Repository.GetProductsWithFlagsByIDs(ctx, productIDs)
if err != nil {
s.Log.Warnf("Failed to fetch products for actual usage: %v", err)
products = []entity.Product{}
}
// Create product map
productMap := make(map[uint]*entity.Product)
for i := range products {
productMap[products[i].Id] = &products[i]
}
// Convert to pseudo purchase items
purchaseItems := make([]entity.PurchaseItem, 0, len(actualUsageRows))
for _, row := range actualUsageRows {
product := productMap[row.ProductID]
// Skip if product not found
if product == nil {
s.Log.Warnf("Product ID %d not found for actual usage", row.ProductID)
continue
}
purchaseItem := entity.PurchaseItem{
Id: 0, // Pseudo item, no ID
ProductId: row.ProductID,
TotalQty: row.TotalQty,
TotalPrice: row.TotalPrice,
Price: row.AveragePrice,
Product: product,
}
purchaseItems = append(purchaseItems, purchaseItem)
}
return purchaseItems
}
internal/modules/closings/services/closingKeuangan.service.go
+655
View File
@@ -0,0 +1,655 @@
package service
import (
"errors"
"strings"
commonSvc "gitlab.com/mbugroup/lti-api.git/internal/common/service"
entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
"gitlab.com/mbugroup/lti-api.git/internal/modules/closings/dto"
repository "gitlab.com/mbugroup/lti-api.git/internal/modules/closings/repositories"
expenseRealizationRepository "gitlab.com/mbugroup/lti-api.git/internal/modules/expenses/repositories"
marketingDeliveryProductRepository "gitlab.com/mbugroup/lti-api.git/internal/modules/marketing/repositories"
chickinRepository "gitlab.com/mbugroup/lti-api.git/internal/modules/production/chickins/repositories"
projectflockRepository "gitlab.com/mbugroup/lti-api.git/internal/modules/production/project_flocks/repositories"
recordingRepository "gitlab.com/mbugroup/lti-api.git/internal/modules/production/recordings/repositories"
"gitlab.com/mbugroup/lti-api.git/internal/utils"
"github.com/gofiber/fiber/v2"
"github.com/sirupsen/logrus"
"gorm.io/gorm"
)
// ClosingKeuanganService handles closing keuangan business logic
type ClosingKeuanganService interface {
GetClosingKeuangan(ctx *fiber.Ctx, projectFlockID uint) (*dto.ClosingKeuanganResponse, error)
}
type closingKeuanganService struct {
Log *logrus.Logger
ClosingKeuanganRepo repository.ClosingKeuanganRepository
ProjectFlockRepo projectflockRepository.ProjectflockRepository
ProjectFlockKandangRepo projectflockRepository.ProjectFlockKandangRepository
MarketingDeliveryProductRepo marketingDeliveryProductRepository.MarketingDeliveryProductRepository
ExpenseRealizationRepo expenseRealizationRepository.ExpenseRealizationRepository
ProjectBudgetRepo projectflockRepository.ProjectBudgetRepository
ChickinRepo chickinRepository.ProjectChickinRepository
RecordingRepo recordingRepository.RecordingRepository
}
func NewClosingKeuanganService(
closingKeuanganRepo repository.ClosingKeuanganRepository,
projectFlockRepo projectflockRepository.ProjectflockRepository,
projectFlockKandangRepo projectflockRepository.ProjectFlockKandangRepository,
marketingDeliveryProductRepo marketingDeliveryProductRepository.MarketingDeliveryProductRepository,
expenseRealizationRepo expenseRealizationRepository.ExpenseRealizationRepository,
projectBudgetRepo projectflockRepository.ProjectBudgetRepository,
chickinRepo chickinRepository.ProjectChickinRepository,
recordingRepo recordingRepository.RecordingRepository,
) ClosingKeuanganService {
return &closingKeuanganService{
Log: utils.Log,
ClosingKeuanganRepo: closingKeuanganRepo,
ProjectFlockRepo: projectFlockRepo,
ProjectFlockKandangRepo: projectFlockKandangRepo,
MarketingDeliveryProductRepo: marketingDeliveryProductRepo,
ExpenseRealizationRepo: expenseRealizationRepo,
ProjectBudgetRepo: projectBudgetRepo,
ChickinRepo: chickinRepo,
RecordingRepo: recordingRepo,
}
}
func (s closingKeuanganService) GetClosingKeuangan(c *fiber.Ctx, projectFlockID uint) (*dto.ClosingKeuanganResponse, error) {
s.Log.Infof("===== START GetClosingKeuangan for ProjectFlockID: %d =====", projectFlockID)
if err := commonSvc.EnsureRelations(c.Context(),
commonSvc.RelationCheck{Name: "Project Flock", ID: &projectFlockID, Exists: s.ProjectFlockRepo.IdExists},
); err != nil {
return nil, err
}
projectFlock, err := s.ProjectFlockRepo.GetByID(c.Context(), projectFlockID, nil)
if err != nil {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch project flock")
}
s.Log.Infof("ProjectFlock: ID=%d, Name=%s, Category=%s", projectFlock.Id, projectFlock.FlockName, projectFlock.Category)
budgets, err := s.ProjectBudgetRepo.GetByProjectFlockID(c.Context(), projectFlockID)
if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch budgets")
}
// Preload Nonstock.Flags manually
var budgetIDs []uint
for _, b := range budgets {
budgetIDs = append(budgetIDs, b.Id)
}
if len(budgetIDs) > 0 {
err = s.ProjectBudgetRepo.DB().WithContext(c.Context()).
Preload("Nonstock.Flags").
Where("id IN ?", budgetIDs).
Find(&budgets).Error
if err != nil {
s.Log.Warnf("Failed to preload Nonstock.Flags: %v", err)
}
}
s.Log.Infof("Budgets fetched: %d items", len(budgets))
for i, b := range budgets {
nonstockName := "Unknown"
if b.Nonstock != nil {
nonstockName = b.Nonstock.Name
}
s.Log.Infof(" Budget[%d]: ID=%d, Nonstock=%s, Price=%.2f, Qty=%.2f", i, b.Id, nonstockName, b.Price, b.Qty)
}
// Get all kandang for this project flock
kandangs, err := s.ProjectFlockKandangRepo.GetByProjectFlockID(c.Context(), projectFlockID)
if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch kandangs")
}
s.Log.Infof("Kandangs fetched: %d kandangs", len(kandangs))
for i, k := range kandangs {
s.Log.Infof(" Kandang[%d]: ID=%d, KandangID=%d, Period=%d", i, k.Id, k.KandangId, k.Period)
}
// Define flag filters
// PAKAN flags: PAKAN, PRE-STARTER, STARTER, FINISHER (priority 1)
// OVK flags: OVK, OBAT, VITAMIN, KIMIA, EKSPEDISI (priority 2)
// AYAM flags: DOC, PULLET, LAYER (priority 3 - only if no PAKAN and OVK)
pakanFilters := []string{"PAKAN", "PRE-STARTER", "STARTER", "FINISHER"}
ovkFilters := []string{"OVK", "OBAT", "VITAMIN", "KIMIA", "EKSPEDISI"}
ayamFilters := []string{"DOC", "PULLET", "LAYER"}
allFilters := append(pakanFilters, ovkFilters...)
allFilters = append(allFilters, ayamFilters...)
s.Log.Infof("All Filters: %v", allFilters)
var allProductUsageRows []repository.ProductUsageRow
// Get ALL product usage once
s.Log.Infof("===== Fetching ALL product usage =====")
for _, kandang := range kandangs {
s.Log.Infof("Fetching ALL for kandang ID=%d", kandang.Id)
rows, err := s.ClosingKeuanganRepo.GetAllProductUsageByProjectFlockKandangID(c.Context(), kandang.Id, allFilters)
if err != nil {
s.Log.Errorf("Failed to get product usage for kandang %d: %v", kandang.Id, err)
} else {
s.Log.Infof("Kandang %d: Got %d rows", kandang.Id, len(rows))
for i, row := range rows {
s.Log.Infof(" [%d]: ProductID=%d, ProductName=%s, FlagNames=%s, TotalQty=%.2f, Price=%.2f, TotalPengeluaran=%.2f",
i, row.ProductID, row.ProductName, row.FlagNames, row.TotalQty, row.Price, row.TotalPengeluaran)
}
allProductUsageRows = append(allProductUsageRows, rows...)
}
}
// Classify into categories based on flag priority
var pakanProductUsageRows []repository.ProductUsageRow
var ovkProductUsageRows []repository.ProductUsageRow
var ayamProductUsageRows []repository.ProductUsageRow
s.Log.Infof("===== Classifying products by flag priority =====")
for _, row := range allProductUsageRows {
// Parse flag names from comma-separated string
flagNames := strings.Split(row.FlagNames, ",")
hasPakanFlag := false
hasOvkFlag := false
hasAyamFlag := false
for _, flag := range flagNames {
flag = strings.TrimSpace(flag)
if containsItem(pakanFilters, flag) {
hasPakanFlag = true
}
if containsItem(ovkFilters, flag) {
hasOvkFlag = true
}
if containsItem(ayamFilters, flag) {
hasAyamFlag = true
}
}
// Priority: PAKAN > OVK > AYAM
category := ""
if hasPakanFlag {
pakanProductUsageRows = append(pakanProductUsageRows, row)
category = "PAKAN"
} else if hasOvkFlag {
ovkProductUsageRows = append(ovkProductUsageRows, row)
category = "OVK"
} else if hasAyamFlag {
ayamProductUsageRows = append(ayamProductUsageRows, row)
category = "AYAM"
} else {
s.Log.Warnf("ProductID=%d (%s) has no recognized flags: %s", row.ProductID, row.ProductName, row.FlagNames)
continue
}
s.Log.Infof("ProductID=%d (%s) → Category: %s (Flags: %s, Pakan=%v, OVK=%v, Ayam=%v)",
row.ProductID, row.ProductName, category, row.FlagNames, hasPakanFlag, hasOvkFlag, hasAyamFlag)
}
s.Log.Infof("Total ProductUsageRows collected: %d items", len(allProductUsageRows))
s.Log.Infof(" - PAKAN: %d items", len(pakanProductUsageRows))
s.Log.Infof(" - OVK: %d items", len(ovkProductUsageRows))
s.Log.Infof(" - AYAM: %d items", len(ayamProductUsageRows))
// Calculate total price for each category
var totalPakanPrice, totalOvkPrice, totalAyamPrice float64
for _, row := range pakanProductUsageRows {
totalPakanPrice += row.TotalPengeluaran
}
for _, row := range ovkProductUsageRows {
totalOvkPrice += row.TotalPengeluaran
}
for _, row := range ayamProductUsageRows {
totalAyamPrice += row.TotalPengeluaran
}
s.Log.Infof("===== TOTAL PRICE BY CATEGORY =====")
s.Log.Infof(" - PAKAN Total Price: %.2f", totalPakanPrice)
s.Log.Infof(" - OVK Total Price: %.2f", totalOvkPrice)
s.Log.Infof(" - AYAM Total Price: %.2f", totalAyamPrice)
s.Log.Infof(" - ALL Total Price: %.2f", totalPakanPrice+totalOvkPrice+totalAyamPrice)
realizations, err := s.ExpenseRealizationRepo.GetByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch realizations")
}
s.Log.Infof("Realizations fetched: %d items", len(realizations))
for i, r := range realizations {
s.Log.Infof(" Realization[%d]: ID=%d, Price=%.2f, Qty=%.2f", i, r.Id, r.Price, r.Qty)
}
deliveryProducts, err := s.MarketingDeliveryProductRepo.GetDeliveryProductsByProjectFlockID(c.Context(), projectFlockID, func(db *gorm.DB) *gorm.DB {
return db.Preload("MarketingProduct").
Preload("MarketingProduct.ProductWarehouse").
Preload("MarketingProduct.ProductWarehouse.Product")
})
if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch delivery products")
}
s.Log.Infof("DeliveryProducts fetched: %d items", len(deliveryProducts))
for i, dp := range deliveryProducts {
s.Log.Infof(" DeliveryProduct[%d]: ID=%d, TotalWeight=%.2f, TotalPrice=%.2f", i, dp.Id, dp.TotalWeight, dp.TotalPrice)
}
chickins, err := s.ChickinRepo.GetByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch chickins")
}
s.Log.Infof("Chickins fetched: %d items", len(chickins))
for i, ch := range chickins {
s.Log.Infof(" Chickin[%d]: ID=%d, UsageQty=%.2f", i, ch.Id, ch.UsageQty)
}
// Get total depletion
totalDepletion, err := s.RecordingRepo.GetTotalDepletionByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
s.Log.Warnf("GetTotalDepletionByProjectFlockID error: %v", err)
totalDepletion = 0
}
s.Log.Infof("TotalDepletion: %.2f birds", totalDepletion)
totalWeightProduced, _, err := s.RecordingRepo.GetProductionWeightAndQtyByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
s.Log.Warnf("GetProductionWeightAndQtyByProjectFlockID error: %v", err)
}
s.Log.Infof("TotalWeightProduced (from stub): %.2f kg", totalWeightProduced)
// Try to get actual weight from uniformity data
totalWeightFromUniformity, err := s.RecordingRepo.GetTotalWeightProducedFromUniformityByProjectFlockID(c.Context(), projectFlockID)
if err != nil {
s.Log.Warnf("GetTotalWeightProducedFromUniformityByProjectFlockID error: %v", err)
} else if totalWeightFromUniformity > 0 {
totalWeightProduced = totalWeightFromUniformity
s.Log.Infof("TotalWeightProduced (from uniformity): %.2f kg", totalWeightProduced)
}
// Fetch egg data only for Laying category
var totalEggWeightKg float64
if projectFlock.Category == string(utils.ProjectFlockCategoryLaying) {
s.Log.Infof("===== Fetching EGG data (Laying Category) =====")
// TODO: Replace with actual method to get egg weight from RecordingRepo
// totalEggWeightKg, err = s.RecordingRepo.GetEggWeightByProjectFlockID(c.Context(), projectFlockID)
// For now, set to 0 as placeholder
totalEggWeightKg = 0
s.Log.Infof("TotalEggWeightKg: %.2f kg", totalEggWeightKg)
if err != nil {
s.Log.Warnf("Failed to fetch egg weight: %v", err)
}
} else {
s.Log.Infof("Skipping egg data fetch (Category: %s - not Laying)", projectFlock.Category)
totalEggWeightKg = 0
}
// Build new DTO structure
s.Log.Infof("===== BUILDING NEW DTO RESPONSE =====")
// Calculate totals
var totalPopulation float64
for _, chickin := range chickins {
totalPopulation += chickin.UsageQty
}
// Calculate actual population (total population - depletion)
actualPopulation := totalPopulation - totalDepletion
s.Log.Infof("Population - Total: %.2f, Depletion: %.2f, Actual: %.2f", totalPopulation, totalDepletion, actualPopulation)
// Calculate budget totals by category
calculateBudgetByFlag := func(flags []string) float64 {
var total float64
for _, budget := range budgets {
if budget.Nonstock != nil {
for _, nonstockFlag := range budget.Nonstock.Flags {
flagName := strings.ToUpper(nonstockFlag.Name)
for _, targetFlag := range flags {
if flagName == strings.ToUpper(targetFlag) {
total += budget.Price * budget.Qty
break
}
}
}
}
}
return total
}
// Budget per category
budgetPakan := calculateBudgetByFlag([]string{"PAKAN", "PRE-STARTER", "STARTER", "FINISHER"})
budgetOvk := calculateBudgetByFlag([]string{"OVK", "OBAT", "VITAMIN", "KIMIA", "EKSPEDISI"})
budgetAyam := calculateBudgetByFlag([]string{"DOC", "PULLET", "LAYER"})
budgetEkspedisi := calculateBudgetByFlag([]string{"EKSPEDISI"})
// Operational budget = total budget - pakan - ovk - ayam - ekspedisi
totalBudgetAmount := 0.0
for _, budget := range budgets {
totalBudgetAmount += budget.Price * budget.Qty
}
budgetOperational := totalBudgetAmount - budgetPakan - budgetOvk - budgetAyam - budgetEkspedisi
s.Log.Infof("Budgets by category:")
s.Log.Infof(" PAKAN: %.2f", budgetPakan)
s.Log.Infof(" OVK: %.2f", budgetOvk)
s.Log.Infof(" AYAM: %.2f", budgetAyam)
s.Log.Infof(" OVERHEAD: %.2f", budgetOperational)
s.Log.Infof(" EKSPEDISI: %.2f", budgetEkspedisi)
// Calculate realization totals
var totalRealizationAmount float64
var totalEkspedisiRealization float64
for _, realization := range realizations {
amount := realization.Price * realization.Qty
totalRealizationAmount += amount
// Check if this is ekspedisi (need to check nonstock flags)
if realization.ExpenseNonstock != nil && realization.ExpenseNonstock.Nonstock != nil {
for _, flag := range realization.ExpenseNonstock.Nonstock.Flags {
if flag.Name == "EKSPEDISI" {
totalEkspedisiRealization += amount
break
}
}
}
}
totalOperationalRealization := totalRealizationAmount - totalEkspedisiRealization
// Filter delivery products based on category
var filteredDeliveryProducts []entity.MarketingDeliveryProduct
for _, delivery := range deliveryProducts {
// Get product from delivery
if delivery.MarketingProduct.ProductWarehouse.Product.Id == 0 {
continue
}
product := delivery.MarketingProduct.ProductWarehouse.Product
isEggProduct := false
isChickenProduct := false
// Check product flags
for _, flag := range product.Flags {
flagName := strings.ToUpper(flag.Name)
// Egg product flags
if flagName == "TELUR" || flagName == "TELURUTUH" || flagName == "TELURPECAH" ||
flagName == "TELURPUTIH" || flagName == "TELURRETAK" {
isEggProduct = true
}
// Chicken product flags
if flagName == "AYAMAFKIR" || flagName == "AYAMCULLING" || flagName == "AYAMMATI" {
isChickenProduct = true
}
}
// Filter based on project flock category
if projectFlock.Category == string(utils.ProjectFlockCategoryLaying) {
// Laying: only egg products
if isEggProduct {
filteredDeliveryProducts = append(filteredDeliveryProducts, delivery)
}
} else {
// Growing/Contract Growing: only chicken products
if isChickenProduct || (!isEggProduct && !isChickenProduct) {
// Include if chicken product or if no specific flags (default to chicken)
filteredDeliveryProducts = append(filteredDeliveryProducts, delivery)
}
}
}
s.Log.Infof("Filtered DeliveryProducts: %d items (from %d total)", len(filteredDeliveryProducts), len(deliveryProducts))
// Calculate total weight sold and sales amount from filtered products
var totalWeightSold float64
var totalSalesAmount float64
for _, delivery := range filteredDeliveryProducts {
totalWeightSold += delivery.TotalWeight
totalSalesAmount += delivery.TotalPrice
}
s.Log.Infof("Calculated totals:")
s.Log.Infof(" Total Population: %.2f", totalPopulation)
s.Log.Infof(" Actual Population: %.2f (after depletion)", actualPopulation)
s.Log.Infof(" Total Weight Produced: %.2f kg (ayam)", totalWeightProduced)
s.Log.Infof(" Total Weight Sold: %.2f kg (filtered by category)", totalWeightSold)
s.Log.Infof(" Total Budget: %.2f", totalBudgetAmount)
s.Log.Infof(" Total Realization: %.2f (Operational: %.2f, Ekspedisi: %.2f)", totalRealizationAmount, totalOperationalRealization, totalEkspedisiRealization)
s.Log.Infof(" Total Sales: %.2f", totalSalesAmount)
// Calculate metrics - always use kg ayam for rp_per_kg
calculateMetrics := func(amount float64) (rpPerBird, rpPerKg float64) {
if actualPopulation > 0 {
rpPerBird = amount / actualPopulation // Use actual population
}
if totalWeightProduced > 0 {
rpPerKg = amount / totalWeightProduced
}
return
}
// Calculate metrics for profit loss (use total population for sales)
calculateProfitLossMetrics := func(amount float64) (rpPerBird, rpPerKg float64) {
if totalPopulation > 0 {
rpPerBird = amount / totalPopulation
}
if totalWeightSold > 0 {
rpPerKg = amount / totalWeightSold
}
return
}
// Build HPP Items
hppItems := []dto.HPPItem{}
// PAKAN item
pakanBudgetRpPerBird, pakanBudgetRpPerKg := calculateMetrics(budgetPakan)
pakanRealizationRpPerBird, pakanRealizationRpPerKg := calculateMetrics(totalPakanPrice)
hppItems = append(hppItems, dto.ToHPPItem(
1,
"purchase",
"PAKAN",
"Pakan",
dto.ToFinancialMetrics(pakanBudgetRpPerBird, pakanBudgetRpPerKg, budgetPakan),
dto.ToFinancialMetrics(pakanRealizationRpPerBird, pakanRealizationRpPerKg, totalPakanPrice),
))
// OVK item
ovkBudgetRpPerBird, ovkBudgetRpPerKg := calculateMetrics(budgetOvk)
ovkRealizationRpPerBird, ovkRealizationRpPerKg := calculateMetrics(totalOvkPrice)
hppItems = append(hppItems, dto.ToHPPItem(
2,
"purchase",
"OVK",
"OVK",
dto.ToFinancialMetrics(ovkBudgetRpPerBird, ovkBudgetRpPerKg, budgetOvk),
dto.ToFinancialMetrics(ovkRealizationRpPerBird, ovkRealizationRpPerKg, totalOvkPrice),
))
// DOC item
docBudgetRpPerBird, docBudgetRpPerKg := calculateMetrics(budgetAyam)
docRealizationRpPerBird, docRealizationRpPerKg := calculateMetrics(totalAyamPrice)
hppItems = append(hppItems, dto.ToHPPItem(
3,
"purchase",
"DOC",
"DOC",
dto.ToFinancialMetrics(docBudgetRpPerBird, docBudgetRpPerKg, budgetAyam),
dto.ToFinancialMetrics(docRealizationRpPerBird, docRealizationRpPerKg, totalAyamPrice),
))
// OVERHEAD operational item (before EKSPEDISI)
overheadBudgetRpPerBird, overheadBudgetRpPerKg := calculateMetrics(budgetOperational)
overheadRealizationRpPerBird, overheadRealizationRpPerKg := calculateMetrics(totalOperationalRealization)
hppItems = append(hppItems, dto.ToHPPItem(
4,
"overhead",
"OVERHEAD",
"Pengeluaran Overhead",
dto.ToFinancialMetrics(overheadBudgetRpPerBird, overheadBudgetRpPerKg, budgetOperational),
dto.ToFinancialMetrics(overheadRealizationRpPerBird, overheadRealizationRpPerKg, totalOperationalRealization),
))
// EKSPEDISI item (overhead)
ekspedisiBudgetRpPerBird, ekspedisiBudgetRpPerKg := calculateMetrics(budgetEkspedisi)
ekspedisiRealizationRpPerBird, ekspedisiRealizationRpPerKg := calculateMetrics(totalEkspedisiRealization)
hppItems = append(hppItems, dto.ToHPPItem(
5,
"overhead",
"EKSPEDISI",
"Beban Ekspedisi",
dto.ToFinancialMetrics(ekspedisiBudgetRpPerBird, ekspedisiBudgetRpPerKg, budgetEkspedisi),
dto.ToFinancialMetrics(ekspedisiRealizationRpPerBird, ekspedisiRealizationRpPerKg, totalEkspedisiRealization),
))
// HPP Summary
totalBudgetHpp := budgetPakan + budgetOvk + budgetAyam + budgetOperational + budgetEkspedisi
totalRealizationHpp := totalPakanPrice + totalOvkPrice + totalAyamPrice + totalOperationalRealization + totalEkspedisiRealization
hppBudgetRpPerBird, hppBudgetRpPerKg := calculateMetrics(totalBudgetHpp)
hppRealizationRpPerBird, hppRealizationRpPerKg := calculateMetrics(totalRealizationHpp)
var eggBudgeting, eggRealization *dto.FinancialMetrics
if projectFlock.Category == string(utils.ProjectFlockCategoryLaying) && totalEggWeightKg > 0 {
eggBudgetRpPerKg := totalBudgetHpp / totalEggWeightKg
eggRealizationRpPerKg := totalRealizationHpp / totalEggWeightKg
eggBudgeting = &dto.FinancialMetrics{
RpPerBird: 0,
RpPerKg: eggBudgetRpPerKg,
Amount: totalBudgetHpp,
}
eggRealization = &dto.FinancialMetrics{
RpPerBird: 0,
RpPerKg: eggRealizationRpPerKg,
Amount: totalRealizationHpp,
}
}
hppSummary := dto.ToHPPSummary(
"HPP",
dto.ToFinancialMetrics(hppBudgetRpPerBird, hppBudgetRpPerKg, totalBudgetHpp),
dto.ToFinancialMetrics(hppRealizationRpPerBird, hppRealizationRpPerKg, totalRealizationHpp),
eggBudgeting,
eggRealization,
)
hppSection := dto.ToHPPSection(hppItems, hppSummary)
// Build Profit Loss Items
plItems := []dto.ProfitLossItem{}
// SALES item
salesRpPerBird, salesRpPerKg := calculateProfitLossMetrics(totalSalesAmount)
salesLabel := "Penjualan Ayam"
if projectFlock.Category == string(utils.ProjectFlockCategoryLaying) {
salesLabel = "Penjualan Telur"
}
plItems = append(plItems, dto.ToProfitLossItem(
"SALES",
salesLabel,
"income",
salesRpPerBird,
salesRpPerKg,
totalSalesAmount,
))
// PURCHASE_DOC item
purchaseDocLabel := "Pembelian DOC"
if projectFlock.Category == string(utils.ProjectFlockCategoryLaying) {
purchaseDocLabel = "Depresiasi"
}
plItems = append(plItems, dto.ToProfitLossItem(
"PURCHASE_DOC",
purchaseDocLabel,
"purchase",
docRealizationRpPerBird,
docRealizationRpPerKg,
totalAyamPrice,
))
// PAKAN item
plItems = append(plItems, dto.ToProfitLossItem(
"PAKAN",
"Pakan",
"purchase",
pakanRealizationRpPerBird,
pakanRealizationRpPerKg,
totalPakanPrice,
))
// OVK item
plItems = append(plItems, dto.ToProfitLossItem(
"OVK",
"OVK",
"purchase",
ovkRealizationRpPerBird,
ovkRealizationRpPerKg,
totalOvkPrice,
))
// OVERHEAD item
overheadRpPerBird, overheadRpPerKg := calculateMetrics(totalOperationalRealization)
plItems = append(plItems, dto.ToProfitLossItem(
"OVERHEAD",
"Overhead",
"overhead",
overheadRpPerBird,
overheadRpPerKg,
totalOperationalRealization,
))
// EKSPEDISI item
plItems = append(plItems, dto.ToProfitLossItem(
"EKSPEDISI",
"Ekspedisi",
"overhead",
ekspedisiRealizationRpPerBird,
ekspedisiRealizationRpPerKg,
totalEkspedisiRealization,
))
// Profit Loss Summary
// Calculate total cost of goods sold (HPP) - use realization
totalCostOfGoodsSold := totalPakanPrice + totalOvkPrice + totalAyamPrice + totalOperationalRealization + totalEkspedisiRealization
totalCostOfGoodsSoldRpPerBird := pakanRealizationRpPerBird + ovkRealizationRpPerBird + docRealizationRpPerBird + overheadRpPerBird + ekspedisiRealizationRpPerBird
// Gross Profit = Sales - Cost of Goods Sold
grossProfit := totalSalesAmount - totalCostOfGoodsSold
grossProfitRpPerBird := salesRpPerBird - totalCostOfGoodsSoldRpPerBird
// Operating Expenses (already included in COGS above, so this shows the breakdown)
totalOperatingExpenses := totalOperationalRealization + totalEkspedisiRealization
totalOperatingExpensesRpPerBird := overheadRpPerBird + ekspedisiRealizationRpPerBird
// Net Profit = Gross Profit (COGS already deducted)
netProfit := grossProfit
netProfitRpPerBird := grossProfitRpPerBird
plSummary := dto.ToProfitLossSummary(
dto.ToFinancialMetrics(grossProfitRpPerBird, 0, grossProfit),
dto.ToFinancialMetrics(totalOperatingExpensesRpPerBird, 0, totalOperatingExpenses),
dto.ToFinancialMetrics(netProfitRpPerBird, 0, netProfit),
)
profitLossSection := dto.ToProfitLossSection(plItems, plSummary)
// Build complete response
data := dto.ToClosingKeuanganData(hppSection, profitLossSection)
response := dto.ToSuccessClosingKeuanganResponse(data)
s.Log.Infof("===== NEW DTO RESPONSE BUILT SUCCESSFULLY =====")
s.Log.Infof("HPP Items: %d, Profit Loss Items: %d", len(hppItems), len(plItems))
s.Log.Infof("===== END GetClosingKeuangan for ProjectFlockID: %d =====", projectFlockID)
return &response, nil
}
// containsItem checks if a string exists in a slice
func containsItem(slice []string, item string) bool {
for _, s := range slice {
if strings.EqualFold(s, item) {
return true
}
}
return false
}
internal/modules/production/recordings/repositories/recording.repository.go
+29
View File
@@ -44,6 +44,7 @@ type RecordingRepository interface {
GetEggSummaryByRecording(tx *gorm.DB, recordingID uint) (totalQty float64, totalWeightGrams float64, err error)
GetCumulativeEggQtyByProjectFlockKandang(tx *gorm.DB, projectFlockKandangId uint, recordTime time.Time) (float64, error)
GetFcrStandardNumber(tx *gorm.DB, fcrId uint, currentWeightKg float64) (float64, bool, error)
GetTotalWeightProducedFromUniformityByProjectFlockID(ctx context.Context, projectFlockID uint) (float64, error)
GetProductionWeightAndQtyByProjectFlockID(ctx context.Context, projectFlockID uint) (totalWeight float64, totalQty float64, err error)
GetTotalDepletionByProjectFlockID(ctx context.Context, projectFlockID uint) (totalDepletion float64, err error)
GetLatestAvgWeightByProjectFlockID(ctx context.Context, projectFlockID uint) (avgWeight float64, err error)
@@ -548,3 +549,31 @@ func nextRecordingDay(days []int) int {
return len(normalized) + 1
}
// GetTotalWeightProducedFromUniformityByProjectFlockID calculates total weight produced from uniformity data
// It takes the latest uniformity record per kandang and calculates: SUM(mean_weight * chick_qty_of_weight / 1000)
func (r *RecordingRepositoryImpl) GetTotalWeightProducedFromUniformityByProjectFlockID(ctx context.Context, projectFlockID uint) (float64, error) {
if projectFlockID == 0 {
return 0, nil
}
var result struct {
TotalWeight float64
}
err := r.DB().WithContext(ctx).
Table("project_flock_kandang_uniformity").
Select("COALESCE(SUM(mean_weight * chick_qty_of_weight / 1000), 0) as total_weight").
Joins("JOIN ("+
" SELECT pfku.project_flock_kandang_id, MAX(pfku.id) as latest_id "+
" FROM project_flock_kandang_uniformity pfku "+
" JOIN project_flock_kandangs pfk ON pfk.id = pfku.project_flock_kandang_id "+
" WHERE pfk.project_flock_id = ? "+
" AND pfku.deleted_at IS NULL "+
" GROUP BY pfku.project_flock_kandang_id "+
") latest ON latest.project_flock_kandang_id = project_flock_kandang_uniformity.project_flock_kandang_id "+
"AND project_flock_kandang_uniformity.id = latest.latest_id").
Scan(&result).Error
return result.TotalWeight, err
}