ini ar fifo

2026-06-09 15:07:49 +00:00 · 2026-05-29 00:59:42 +07:00
parent 2da476b276
commit 8da2b7a3ab
21 changed files with 1010 additions and 209 deletions
@@ -0,0 +1,393 @@
 package service
 import (
 	"context"
 	"fmt"
 	"math"
 	"strings"
 	"time"
 	"github.com/sirupsen/logrus"
 	entity "gitlab.com/mbugroup/lti-api.git/internal/entities"
 	"gitlab.com/mbugroup/lti-api.git/internal/utils"
 	"gorm.io/gorm"
 )
 // ParentKind enumerasi parent yang punya grand_total dari SUM children.
 type ParentKind string
 const (
 	ParentKindPurchase  ParentKind = "PURCHASE"
 	ParentKindMarketing ParentKind = "MARKETING"
 	ParentKindExpense   ParentKind = "EXPENSE"
 )
 // AllocationKind enumerasi sub-row anak target FIFO allocation.
 type AllocationKind string
 const (
 	AllocKindPurchaseItem             AllocationKind = "PURCHASE_ITEM"
 	AllocKindMarketingDeliveryProduct AllocationKind = "MDP"
 	AllocKindExpenseRealization       AllocationKind = "EXPENSE_REALIZATION"
 )
 // fifoEpsilon untuk float comparison saat FIFO matching.
 const fifoEpsilon = 0.001
 // FifoPaymentService meng-orchestrate FIFO allocation antara payments dan
 // sub-row anak (purchase_items / marketing_delivery_products / expense_realizations).
 type FifoPaymentService interface {
 	// ReallocateForParty wipe allocations untuk semua payment party tsb,
 	// lalu re-FIFO dari history (sort children by date ASC, payments by payment_date ASC).
 	// Caller WAJIB pass tx untuk konsistensi dengan mutasi upstream.
 	ReallocateForParty(ctx context.Context, tx *gorm.DB, partyType string, partyID uint) error
 	// RecomputeGrandTotal refresh parent.grand_total = SUM children eligible amount.
 	RecomputeGrandTotal(ctx context.Context, tx *gorm.DB, kind ParentKind, parentID uint) error
 }
 type fifoPaymentService struct {
 	db     *gorm.DB
 	logger *logrus.Logger
 }
 func NewFifoPaymentService(db *gorm.DB, logger *logrus.Logger) FifoPaymentService {
 	if logger == nil {
 		logger = logrus.StandardLogger()
 	}
 	return &fifoPaymentService{db: db, logger: logger}
 }
 func (s *fifoPaymentService) txOrDB(tx *gorm.DB) *gorm.DB {
 	if tx != nil {
 		return tx
 	}
 	return s.db
 }
 type childRow struct {
 	Kind      AllocationKind
 	ChildID   uint64
 	Amount    float64
 	Remaining float64
 }
 type paymentRow struct {
 	ID      uint
 	Nominal float64
 	Date    time.Time
 }
 // ReallocateForParty acquire advisory lock then perform full re-FIFO.
 // Jika tx nil, function buka transaction sendiri (advisory lock harus dalam TX).
 func (s *fifoPaymentService) ReallocateForParty(ctx context.Context, tx *gorm.DB, partyType string, partyID uint) error {
 	if partyID == 0 {
 		return nil
 	}
 	party := strings.ToUpper(strings.TrimSpace(partyType))
 	if party != string(utils.PaymentPartyCustomer) && party != string(utils.PaymentPartySupplier) {
 		return fmt.Errorf("fifoPayment: invalid party_type %q", partyType)
 	}
 	if tx == nil {
 		return s.db.WithContext(ctx).Transaction(func(innerTx *gorm.DB) error {
 			return s.reallocateInTx(ctx, innerTx, party, partyID)
 		})
 	}
 	return s.reallocateInTx(ctx, tx, party, partyID)
 }
 func (s *fifoPaymentService) reallocateInTx(ctx context.Context, tx *gorm.DB, party string, partyID uint) error {
 	db := tx.WithContext(ctx)
 	// Advisory lock per (party_type, party_id) — 1-arg form (bigint).
 	// Postgres 2-arg form butuh kedua param int4, sedangkan party_id bisa lebih besar.
 	lockKey := fmt.Sprintf("payment_alloc:%s:%d", party, partyID)
 	if err := db.Exec("SELECT pg_advisory_xact_lock(hashtext(?)::bigint)", lockKey).Error; err != nil {
 		return fmt.Errorf("fifoPayment: advisory lock: %w", err)
 	}
 	// Wipe existing allocations untuk semua payment party tsb
 	if err := db.Exec(`
 		DELETE FROM payment_allocations
 		WHERE payment_id IN (
 			SELECT id FROM payments
 			WHERE party_type = ? AND party_id = ? AND deleted_at IS NULL
 		)
 	`, party, partyID).Error; err != nil {
 		return fmt.Errorf("fifoPayment: wipe allocations: %w", err)
 	}
 	children, err := s.fetchChildren(ctx, db, party, partyID)
 	if err != nil {
 		return err
 	}
 	if len(children) == 0 {
 		return nil
 	}
 	// Fetch SEMUA payments termasuk SALDO_AWAL agar allocation tercatat di DB
 	// (SaldoAwal opening credit harus consume oldest debts; tanpa allocation row,
 	// debt yang ter-cover SaldoAwal akan tampak "Belum Lunas" di report).
 	payments, err := s.fetchAllPayments(ctx, db, party, partyID)
 	if err != nil {
 		return err
 	}
 	// Greedy: per payment, alokasi ke children tertua dengan remaining > 0
 	allocs := make([]entity.PaymentAllocation, 0, len(payments))
 	now := time.Now()
 	for _, pay := range payments {
 		remaining := pay.Nominal
 		if remaining <= fifoEpsilon {
 			continue
 		}
 		for i := range children {
 			if remaining <= fifoEpsilon {
 				break
 			}
 			if children[i].Remaining <= fifoEpsilon {
 				continue
 			}
 			used := math.Min(remaining, children[i].Remaining)
 			children[i].Remaining -= used
 			remaining -= used
 			alloc := entity.PaymentAllocation{
 				PaymentId:   pay.ID,
 				Amount:      used,
 				AllocatedAt: now,
 			}
 			switch children[i].Kind {
 			case AllocKindPurchaseItem:
 				id := uint(children[i].ChildID)
 				alloc.PurchaseItemId = &id
 			case AllocKindMarketingDeliveryProduct:
 				id := uint(children[i].ChildID)
 				alloc.MarketingDeliveryProductId = &id
 			case AllocKindExpenseRealization:
 				id := children[i].ChildID
 				alloc.ExpenseRealizationId = &id
 			}
 			allocs = append(allocs, alloc)
 		}
 	}
 	if len(allocs) == 0 {
 		return nil
 	}
 	// Batch insert allocations
 	if err := db.CreateInBatches(&allocs, 500).Error; err != nil {
 		return fmt.Errorf("fifoPayment: insert allocations: %w", err)
 	}
 	return nil
 }
 // fetchChildren return eligible sub-rows sorted by date ASC, id ASC.
 func (s *fifoPaymentService) fetchChildren(ctx context.Context, db *gorm.DB, party string, partyID uint) ([]childRow, error) {
 	if party == string(utils.PaymentPartySupplier) {
 		return s.fetchSupplierChildren(ctx, db, partyID)
 	}
 	return s.fetchCustomerChildren(ctx, db, partyID)
 }
 func (s *fifoPaymentService) fetchSupplierChildren(ctx context.Context, db *gorm.DB, supplierID uint) ([]childRow, error) {
 	// purchase_items eligible: purchases approval latest step >= Receiving (4), action != REJECTED, received_date IS NOT NULL
 	var purchaseRows []chronoRow
 	purchaseSQL := `
 		SELECT 'PURCHASE_ITEM' AS kind,
 		       pi.id::BIGINT AS child_id,
 		       pi.total_price AS amount,
 		       pi.received_date AS sort_date,
 		       pi.id::BIGINT AS sort_id
 		FROM purchase_items pi
 		JOIN purchases p ON p.id = pi.purchase_id
 		JOIN LATERAL (
 			SELECT a.step_number, a.action
 			FROM approvals a
 			WHERE a.approvable_type = ? AND a.approvable_id = p.id
 			ORDER BY a.action_at DESC, a.id DESC
 			LIMIT 1
 		) la ON TRUE
 		WHERE p.supplier_id = ?
 		  AND p.deleted_at IS NULL
 		  AND pi.received_date IS NOT NULL
 		  AND la.step_number >= ?
 		  AND (la.action IS NULL OR la.action <> ?)
 		  AND pi.total_price > 0
 		ORDER BY pi.received_date ASC, pi.id ASC
 	`
 	if err := db.WithContext(ctx).Raw(purchaseSQL,
 		string(utils.ApprovalWorkflowPurchase),
 		supplierID,
 		uint16(utils.PurchaseStepReceiving),
 		string(entity.ApprovalActionRejected),
 	).Scan(&purchaseRows).Error; err != nil {
 		return nil, fmt.Errorf("fifoPayment: fetch purchase items: %w", err)
 	}
 	// expense_realizations via expense_nonstocks → expenses, approval latest step >= Realisasi (5)
 	// Sort pakai e.transaction_date (bukan realization_date) supaya FIFO match dengan tanggal yang
 	// dipakai report sebagai "tanggal dokumen" — user assume FIFO = lunasi yang transaction_date paling tua dulu.
 	var expenseRows []chronoRow
 	expenseSQL := `
 		SELECT 'EXPENSE_REALIZATION' AS kind,
 		       er.id::BIGINT AS child_id,
 		       (er.qty * er.price) AS amount,
 		       e.transaction_date AS sort_date,
 		       er.id::BIGINT AS sort_id
 		FROM expense_realizations er
 		JOIN expense_nonstocks en ON en.id = er.expense_nonstock_id
 		JOIN expenses e ON e.id = en.expense_id
 		JOIN LATERAL (
 			SELECT a.step_number, a.action
 			FROM approvals a
 			WHERE a.approvable_type = ? AND a.approvable_id = e.id
 			ORDER BY a.action_at DESC, a.id DESC
 			LIMIT 1
 		) la ON TRUE
 		WHERE e.supplier_id = ?
 		  AND e.deleted_at IS NULL
 		  AND la.step_number >= ?
 		  AND (la.action IS NULL OR la.action <> ?)
 		  AND (er.qty * er.price) > 0
 		ORDER BY e.transaction_date ASC, e.id ASC, er.id ASC
 	`
 	if err := db.WithContext(ctx).Raw(expenseSQL,
 		string(utils.ApprovalWorkflowExpense),
 		supplierID,
 		uint16(utils.ExpenseStepRealisasi),
 		string(entity.ApprovalActionRejected),
 	).Scan(&expenseRows).Error; err != nil {
 		return nil, fmt.Errorf("fifoPayment: fetch expense realizations: %w", err)
 	}
 	// Merge in chronological order (kedua list sudah sorted; merge stable)
 	merged := mergeSortedByDate(purchaseRows, expenseRows)
 	out := make([]childRow, 0, len(merged))
 	for _, r := range merged {
 		out = append(out, childRow{
 			Kind:      AllocationKind(r.Kind),
 			ChildID:   r.ChildID,
 			Amount:    r.Amount,
 			Remaining: r.Amount,
 		})
 	}
 	return out, nil
 }
 func (s *fifoPaymentService) fetchCustomerChildren(ctx context.Context, db *gorm.DB, customerID uint) ([]childRow, error) {
 	var mdpRows []chronoRow
 	sql := `
 		SELECT 'MDP' AS kind,
 		       mdp.id::BIGINT AS child_id,
 		       mdp.total_price AS amount,
 		       mdp.delivery_date AS sort_date,
 		       mdp.id::BIGINT AS sort_id
 		FROM marketing_delivery_products mdp
 		JOIN marketing_products mp ON mp.id = mdp.marketing_product_id
 		JOIN marketings m ON m.id = mp.marketing_id
 		WHERE m.customer_id = ?
 		  AND m.deleted_at IS NULL
 		  AND mdp.delivery_date IS NOT NULL
 		  AND mdp.total_price > 0
 		ORDER BY mdp.delivery_date ASC, mdp.id ASC
 	`
 	if err := db.WithContext(ctx).Raw(sql, customerID).Scan(&mdpRows).Error; err != nil {
 		return nil, fmt.Errorf("fifoPayment: fetch marketing delivery products: %w", err)
 	}
 	out := make([]childRow, 0, len(mdpRows))
 	for _, r := range mdpRows {
 		out = append(out, childRow{
 			Kind:      AllocationKind(r.Kind),
 			ChildID:   r.ChildID,
 			Amount:    r.Amount,
 			Remaining: r.Amount,
 		})
 	}
 	return out, nil
 }
 // fetchAllPayments return SEMUA payments (termasuk SALDO_AWAL) sort by payment_date ASC, id ASC.
 // SALDO_AWAL diperlakukan sebagai payment tertua agar opening credit otomatis consume oldest debts via FIFO.
 func (s *fifoPaymentService) fetchAllPayments(ctx context.Context, db *gorm.DB, party string, partyID uint) ([]paymentRow, error) {
 	var rows []paymentRow
 	sql := `
 		SELECT id, nominal, payment_date AS date
 		FROM payments
 		WHERE party_type = ? AND party_id = ?
 		  AND deleted_at IS NULL
 		  AND nominal > 0
 		ORDER BY payment_date ASC, id ASC
 	`
 	if err := db.WithContext(ctx).Raw(sql, party, partyID).Scan(&rows).Error; err != nil {
 		return nil, fmt.Errorf("fifoPayment: fetch payments: %w", err)
 	}
 	return rows, nil
 }
 // RecomputeGrandTotal refresh parent.grand_total dari SUM children eligible amount.
 func (s *fifoPaymentService) RecomputeGrandTotal(ctx context.Context, tx *gorm.DB, kind ParentKind, parentID uint) error {
 	db := s.txOrDB(tx).WithContext(ctx)
 	if parentID == 0 {
 		return nil
 	}
 	switch kind {
 	case ParentKindPurchase:
 		return db.Exec(`
 			UPDATE purchases p
 			SET grand_total = COALESCE((SELECT SUM(total_price) FROM purchase_items WHERE purchase_id = p.id), 0)
 			WHERE p.id = ?
 		`, parentID).Error
 	case ParentKindMarketing:
 		return db.Exec(`
 			UPDATE marketings m
 			SET grand_total = COALESCE((
 				SELECT SUM(mdp.total_price)
 				FROM marketing_delivery_products mdp
 				JOIN marketing_products mp ON mp.id = mdp.marketing_product_id
 				WHERE mp.marketing_id = m.id AND mdp.delivery_date IS NOT NULL
 			), 0)
 			WHERE m.id = ?
 		`, parentID).Error
 	case ParentKindExpense:
 		return db.Exec(`
 			UPDATE expenses e
 			SET grand_total = COALESCE((
 				SELECT SUM(er.qty * er.price)
 				FROM expense_realizations er
 				JOIN expense_nonstocks en ON en.id = er.expense_nonstock_id
 				WHERE en.expense_id = e.id
 			), 0)
 			WHERE e.id = ?
 		`, parentID).Error
 	default:
 		return fmt.Errorf("fifoPayment: unknown parent kind %q", kind)
 	}
 }
 // chronoRow row antara untuk merge sort children.
 type chronoRow struct {
 	Kind     string
 	ChildID  uint64
 	Amount   float64
 	SortDate time.Time
 	SortID   uint64
 }
 func mergeSortedByDate(a, b []chronoRow) []chronoRow {
 	out := make([]chronoRow, 0, len(a)+len(b))
 	i, j := 0, 0
 	for i < len(a) && j < len(b) {
 		if a[i].SortDate.Before(b[j].SortDate) ||
 			(a[i].SortDate.Equal(b[j].SortDate) && a[i].SortID < b[j].SortID) {
 			out = append(out, a[i])
 			i++
 		} else {
 			out = append(out, b[j])
 			j++
 		}
 	}
 	out = append(out, a[i:]...)
 	out = append(out, b[j:]...)
 	return out
 }
@@ -0,0 +1,3 @@
 ALTER TABLE marketings DROP COLUMN IF EXISTS grand_total;
 ALTER TABLE expenses DROP COLUMN IF EXISTS grand_total;
 ALTER TABLE purchases DROP COLUMN IF EXISTS grand_total;
@@ -0,0 +1,42 @@
 -- Marketing belum punya grand_total. Tambahkan dengan DEFAULT 0.
 ALTER TABLE marketings ADD COLUMN grand_total NUMERIC(15, 3) NOT NULL DEFAULT 0;
 -- Expense grand_total sebelumnya di-drop di migration 20251125055613. Re-add.
 ALTER TABLE expenses ADD COLUMN grand_total NUMERIC(15, 3) NOT NULL DEFAULT 0;
 ALTER TABLE purchases ADD COLUMN grand_total NUMERIC(15, 3) NOT NULL DEFAULT 0;
 -- Backfill nilai grand_total dari children:
 -- marketings.grand_total = SUM marketing_delivery_products.total_price (WHERE delivery_date IS NOT NULL)
 UPDATE marketings m
 SET grand_total = COALESCE(s.t, 0)
 FROM (
    SELECT mp.marketing_id AS marketing_id, SUM(mdp.total_price) AS t
    FROM marketing_delivery_products mdp
    JOIN marketing_products mp ON mp.id = mdp.marketing_product_id
    WHERE mdp.delivery_date IS NOT NULL
    GROUP BY mp.marketing_id
 ) s
 WHERE s.marketing_id = m.id;
 -- expenses.grand_total = SUM(expense_realizations.qty * expense_realizations.price) via expense_nonstocks
 UPDATE expenses e
 SET grand_total = COALESCE(s.t, 0)
 FROM (
    SELECT en.expense_id AS expense_id, SUM(er.qty * er.price) AS t
    FROM expense_realizations er
    JOIN expense_nonstocks en ON en.id = er.expense_nonstock_id
    GROUP BY en.expense_id
 ) s
 WHERE s.expense_id = e.id;
 -- purchases.grand_total sudah ada sejak migration 20251104084555.
 -- Recompute juga untuk safety supaya konsisten dengan SUM purchase_items.total_price.
 UPDATE purchases p
 SET grand_total = COALESCE(s.t, 0)
 FROM (
    SELECT purchase_id, SUM(total_price) AS t
    FROM purchase_items
    GROUP BY purchase_id
 ) s
 WHERE s.purchase_id = p.id;
@@ -0,0 +1,5 @@
 DROP INDEX IF EXISTS idx_payments_party_active;
 DROP INDEX IF EXISTS idx_mdp_delivery_date_partial;
 DROP INDEX IF EXISTS idx_purchase_items_received_date_partial;
 DROP TABLE IF EXISTS payment_allocations;
@@ -0,0 +1,27 @@
 -- Tabel payment_allocations menyimpan hasil FIFO matching antara payment dengan
 -- sub-row anak (purchase_item / marketing_delivery_product / expense_realization).
 -- Setiap allocation row HARUS terhubung ke tepat 1 child via 3 nullable FK
 -- (polymorphic-via-multiple-nullable-FK; lebih aman dari single polymorphic kolom).
 CREATE TABLE IF NOT EXISTS payment_allocations (
    id BIGSERIAL PRIMARY KEY,
    payment_id BIGINT NOT NULL REFERENCES payments(id) ON DELETE CASCADE,
    purchase_item_id BIGINT NULL REFERENCES purchase_items(id) ON DELETE CASCADE,
    marketing_delivery_product_id BIGINT NULL REFERENCES marketing_delivery_products(id) ON DELETE CASCADE,
    expense_realization_id BIGINT NULL REFERENCES expense_realizations(id) ON DELETE CASCADE,
    amount NUMERIC(15, 3) NOT NULL CHECK (amount > 0),
    allocated_at TIMESTAMPTZ NOT NULL DEFAULT NOW(),
    CONSTRAINT chk_payment_alloc_exactly_one CHECK (
        num_nonnulls(purchase_item_id, marketing_delivery_product_id, expense_realization_id) = 1
    )
 );
 CREATE INDEX IF NOT EXISTS idx_payment_alloc_payment ON payment_allocations (payment_id);
 CREATE INDEX IF NOT EXISTS idx_payment_alloc_purchase_item ON payment_allocations (purchase_item_id) WHERE purchase_item_id IS NOT NULL;
 CREATE INDEX IF NOT EXISTS idx_payment_alloc_mdp ON payment_allocations (marketing_delivery_product_id) WHERE marketing_delivery_product_id IS NOT NULL;
 CREATE INDEX IF NOT EXISTS idx_payment_alloc_realization ON payment_allocations (expense_realization_id) WHERE expense_realization_id IS NOT NULL;
 CREATE INDEX IF NOT EXISTS idx_payment_alloc_allocated_at ON payment_allocations (allocated_at);
 -- Helper partial indexes untuk FIFO loop performance
 CREATE INDEX IF NOT EXISTS idx_purchase_items_received_date_partial ON purchase_items (received_date) WHERE received_date IS NOT NULL;
 CREATE INDEX IF NOT EXISTS idx_mdp_delivery_date_partial ON marketing_delivery_products (delivery_date) WHERE delivery_date IS NOT NULL;
 CREATE INDEX IF NOT EXISTS idx_payments_party_active ON payments (party_type, party_id, payment_date) WHERE deleted_at IS NULL;
@@ -0,0 +1,4 @@
 -- Rollback backfill: hapus semua allocations dan drop function.
 TRUNCATE payment_allocations;
 DROP FUNCTION IF EXISTS fn_fifo_backfill_party(TEXT, BIGINT);
@@ -0,0 +1,170 @@
 -- Backfill payment_allocations untuk data historis via FIFO simulation.
 -- Seluruh migration ini berjalan dalam 1 transaction (golang-migrate default).
 -- Jika ada party yang gagal di tengah loop, seluruh backfill ROLLBACK otomatis.
 -- Fungsi inti: FIFO greedy untuk 1 party (supplier/customer).
 -- Algoritma:
 --   1. Hapus payment_allocations existing untuk party tsb (idempotent).
 --   2. Kumpulkan eligible children sort by date ASC ke array (kind, id, amount, remaining).
 --   3. Konsumsi creditCarry (SUM payment SALDO_AWAL) ke children tertua — TIDAK insert allocation row.
 --   4. Loop payments (selain SALDO_AWAL) ORDER BY payment_date ASC: greedy alokasi ke child tertua dengan remaining > 0.
 --   5. Sisa nominal payment tidak insert row (otomatis credit balance untuk dokumen baru).
 CREATE OR REPLACE FUNCTION fn_fifo_backfill_party(
    p_party_type TEXT,
    p_party_id BIGINT
 ) RETURNS VOID AS $func$
 DECLARE
    v_party_type TEXT := UPPER(p_party_type);
    v_payment RECORD;
    v_child RECORD;
    v_remaining NUMERIC(15, 3);
    v_used NUMERIC(15, 3);
    v_eps CONSTANT NUMERIC(15, 3) := 0.001;
 BEGIN
    -- Acquire advisory lock untuk anti-race (1-arg form: hashtext returns int4, cast ke bigint)
    PERFORM pg_advisory_xact_lock(hashtext('payment_alloc:' || v_party_type || ':' || p_party_id::text)::bigint);
    -- Hapus allocations existing untuk party tsb (idempotent ulang-jalan)
    DELETE FROM payment_allocations pa
    USING payments p
    WHERE pa.payment_id = p.id
      AND p.party_type = v_party_type
      AND p.party_id = p_party_id;
    -- TEMP table untuk antrian children (sort sudah ada di INSERT...SELECT ORDER BY)
    CREATE TEMP TABLE IF NOT EXISTS _children_queue (
        seq BIGSERIAL PRIMARY KEY,
        kind TEXT NOT NULL,           -- 'PURCHASE_ITEM' / 'MDP' / 'EXPENSE_REALIZATION'
        child_id BIGINT NOT NULL,
        amount NUMERIC(15, 3) NOT NULL,
        remaining NUMERIC(15, 3) NOT NULL
    ) ON COMMIT DROP;
    TRUNCATE _children_queue;
    IF v_party_type = 'SUPPLIER' THEN
        -- purchase_items eligible: received_date IS NOT NULL, approval latest step >= 4 (Receiving), action != REJECTED
        INSERT INTO _children_queue (kind, child_id, amount, remaining)
        SELECT 'PURCHASE_ITEM', pi.id, pi.total_price, pi.total_price
        FROM purchase_items pi
        JOIN purchases p ON p.id = pi.purchase_id
        JOIN LATERAL (
            SELECT a.step_number, a.action
            FROM approvals a
            WHERE a.approvable_type = 'PURCHASES' AND a.approvable_id = p.id
            ORDER BY a.action_at DESC, a.id DESC
            LIMIT 1
        ) la ON true
        WHERE p.supplier_id = p_party_id
          AND p.deleted_at IS NULL
          AND pi.received_date IS NOT NULL
          AND la.step_number >= 4
          AND (la.action IS NULL OR la.action <> 'REJECTED')
          AND pi.total_price > 0
        ORDER BY pi.received_date ASC, pi.id ASC;
        -- expense_realizations eligible: parent expense approval latest step >= 5 (Realisasi), action != REJECTED.
        -- Sort pakai e.transaction_date supaya FIFO konsisten dengan tanggal yang di-display di report.
        INSERT INTO _children_queue (kind, child_id, amount, remaining)
        SELECT 'EXPENSE_REALIZATION', er.id, (er.qty * er.price), (er.qty * er.price)
        FROM expense_realizations er
        JOIN expense_nonstocks en ON en.id = er.expense_nonstock_id
        JOIN expenses e ON e.id = en.expense_id
        JOIN LATERAL (
            SELECT a.step_number, a.action
            FROM approvals a
            WHERE a.approvable_type = 'EXPENSES' AND a.approvable_id = e.id
            ORDER BY a.action_at DESC, a.id DESC
            LIMIT 1
        ) la ON true
        WHERE e.supplier_id = p_party_id
          AND e.deleted_at IS NULL
          AND la.step_number >= 5
          AND (la.action IS NULL OR la.action <> 'REJECTED')
          AND (er.qty * er.price) > 0
        ORDER BY e.transaction_date ASC, e.id ASC, er.id ASC;
    ELSIF v_party_type = 'CUSTOMER' THEN
        -- marketing_delivery_products eligible: delivery_date IS NOT NULL (match current report behavior, tidak filter approval)
        INSERT INTO _children_queue (kind, child_id, amount, remaining)
        SELECT 'MDP', mdp.id, mdp.total_price, mdp.total_price
        FROM marketing_delivery_products mdp
        JOIN marketing_products mp ON mp.id = mdp.marketing_product_id
        JOIN marketings m ON m.id = mp.marketing_id
        WHERE m.customer_id = p_party_id
          AND m.deleted_at IS NULL
          AND mdp.delivery_date IS NOT NULL
          AND mdp.total_price > 0
        ORDER BY mdp.delivery_date ASC, mdp.id ASC;
    ELSE
        RETURN;
    END IF;
    -- Skip jika tidak ada children eligible
    IF NOT EXISTS (SELECT 1 FROM _children_queue) THEN
        RETURN;
    END IF;
    -- Loop SEMUA payments termasuk SALDO_AWAL ORDER BY payment_date ASC, id ASC.
    -- SALDO_AWAL diperlakukan sebagai payment tertua sehingga opening credit otomatis
    -- consume oldest debts via FIFO. Tanpa allocation row, debt yang ter-cover SaldoAwal
    -- akan tampak "Belum Lunas" di report.
    FOR v_payment IN
        SELECT id, nominal
        FROM payments
        WHERE party_type = v_party_type
          AND party_id = p_party_id
          AND deleted_at IS NULL
          AND nominal > v_eps
        ORDER BY payment_date ASC, id ASC
    LOOP
        v_remaining := v_payment.nominal;
        -- Greedy alokasi ke children tertua dengan remaining > 0
        FOR v_child IN
            SELECT seq, kind, child_id, remaining
            FROM _children_queue
            WHERE remaining > v_eps
            ORDER BY seq ASC
        LOOP
            EXIT WHEN v_remaining <= v_eps;
            -- v_child.remaining is snapshot at cursor open; re-fetch latest to avoid drift in same payment iter
            SELECT remaining INTO v_used FROM _children_queue WHERE seq = v_child.seq;
            IF v_used <= v_eps THEN
                CONTINUE;
            END IF;
            v_used := LEAST(v_remaining, v_used);
            UPDATE _children_queue SET remaining = remaining - v_used WHERE seq = v_child.seq;
            v_remaining := v_remaining - v_used;
            IF v_child.kind = 'PURCHASE_ITEM' THEN
                INSERT INTO payment_allocations (payment_id, purchase_item_id, amount, allocated_at)
                VALUES (v_payment.id, v_child.child_id, v_used, NOW());
            ELSIF v_child.kind = 'MDP' THEN
                INSERT INTO payment_allocations (payment_id, marketing_delivery_product_id, amount, allocated_at)
                VALUES (v_payment.id, v_child.child_id, v_used, NOW());
            ELSIF v_child.kind = 'EXPENSE_REALIZATION' THEN
                INSERT INTO payment_allocations (payment_id, expense_realization_id, amount, allocated_at)
                VALUES (v_payment.id, v_child.child_id, v_used, NOW());
            END IF;
        END LOOP;
    END LOOP;
 END;
 $func$ LANGUAGE plpgsql;
 -- Invoke per-party. Gagal di satu party → entire transaction ROLLBACK.
 DO $do$
 DECLARE
    r RECORD;
 BEGIN
    FOR r IN
        SELECT DISTINCT party_type, party_id
        FROM payments
        WHERE deleted_at IS NULL
          AND party_id IS NOT NULL
    LOOP
        PERFORM fn_fifo_backfill_party(r.party_type, r.party_id);
    END LOOP;
 END;
 $do$;
@@ -18,6 +18,7 @@ type Expense struct {
 	TransactionDate         time.Time      `gorm:"type:date;not null"`
 	Notes                   string         `gorm:"type:text;column:notes"`
 	IsPaid                  bool           `gorm:"column:is_paid;not null;default:false"`
 	GrandTotal              float64        `gorm:"column:grand_total;type:numeric(15,3);not null;default:0"`
 	CreatedBy               uint64         `gorm:""`
 	CreatedAt               time.Time      `gorm:"autoCreateTime"`
 	UpdatedAt               time.Time      `gorm:"autoUpdateTime"`
@@ -15,6 +15,7 @@ type Marketing struct {
 	SalesPersonId uint           `gorm:"not null"`
 	Notes         string         `gorm:"type:text"`
 	MarketingType string         `gorm:"type:varchar(50)"`
 	GrandTotal    float64        `gorm:"column:grand_total;type:numeric(15,3);not null;default:0"`
 	CreatedBy     uint           `gorm:"not null"`
 	CreatedAt     time.Time      `gorm:"autoCreateTime"`
 	UpdatedAt     time.Time      `gorm:"autoUpdateTime"`
@@ -0,0 +1,23 @@
 package entities
 import (
 	"time"
 )
 // PaymentAllocation merepresentasikan hasil FIFO matching dari 1 payment ke
 // tepat 1 sub-row anak (purchase_item / marketing_delivery_product /
 // expense_realization). DB constraint memastikan hanya satu FK yang non-null.
 type PaymentAllocation struct {
 	Id                         uint64    `gorm:"primaryKey;autoIncrement"`
 	PaymentId                  uint      `gorm:"not null;index"`
 	PurchaseItemId             *uint     `gorm:"column:purchase_item_id"`
 	MarketingDeliveryProductId *uint     `gorm:"column:marketing_delivery_product_id"`
 	ExpenseRealizationId       *uint64   `gorm:"column:expense_realization_id"`
 	Amount                     float64   `gorm:"type:numeric(15,3);not null"`
 	AllocatedAt                time.Time `gorm:"type:timestamptz;not null;default:NOW()"`
 	Payment                  *Payment                  `gorm:"foreignKey:PaymentId;references:Id"`
 	PurchaseItem             *PurchaseItem             `gorm:"foreignKey:PurchaseItemId;references:Id"`
 	MarketingDeliveryProduct *MarketingDeliveryProduct `gorm:"foreignKey:MarketingDeliveryProductId;references:Id"`
 	ExpenseRealization       *ExpenseRealization       `gorm:"foreignKey:ExpenseRealizationId;references:Id"`
 }
@@ -12,6 +12,7 @@ type Purchase struct {
 	SupplierId uint `gorm:"not null"`
 	CreditTerm int  `gorm:"column:credit_term;not null;default:0"`
 	DueDate    *time.Time
 	GrandTotal float64 `gorm:"column:grand_total;type:numeric(15,3);not null;default:0"`
 	Notes      *string
 	CreatedAt  time.Time  `gorm:"autoCreateTime"`
 	UpdatedAt  time.Time  `gorm:"autoUpdateTime"`
@@ -45,7 +45,8 @@ func (ExpenseModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate *
 		panic(fmt.Sprintf("failed to register expense approval workflow: %v", err))
 	}
-	expenseService := sExpense.NewExpenseService(expenseRepo, supplierRepo, nonstockRepo, approvalSvc, realizationRepo, projectFlockKandangRepo, documentSvc, validate)
+	fifoPaymentSvc := commonSvc.NewFifoPaymentService(db, utils.Log)
 	expenseService := sExpense.NewExpenseService(expenseRepo, supplierRepo, nonstockRepo, approvalSvc, realizationRepo, projectFlockKandangRepo, documentSvc, fifoPaymentSvc, validate)
 	userService := sUser.NewUserService(userRepo, validate)
 	ExpenseRoutes(router, userService, expenseService)
@@ -54,9 +54,10 @@ type expenseService struct {
 	RealizationRepository   repository.ExpenseRealizationRepository
 	ProjectFlockKandangRepo projectFlockKandangRepo.ProjectFlockKandangRepository
 	DocumentSvc             commonSvc.DocumentService
 	FifoPaymentSvc          commonSvc.FifoPaymentService
 }
-func NewExpenseService(repo repository.ExpenseRepository, supplierRepo supplierRepo.SupplierRepository, nonstockRepo nonstockRepo.NonstockRepository, approvalSvc commonSvc.ApprovalService, realizationRepo repository.ExpenseRealizationRepository, projectFlockKandangRepo projectFlockKandangRepo.ProjectFlockKandangRepository, documentSvc commonSvc.DocumentService, validate *validator.Validate) ExpenseService {
+func NewExpenseService(repo repository.ExpenseRepository, supplierRepo supplierRepo.SupplierRepository, nonstockRepo nonstockRepo.NonstockRepository, approvalSvc commonSvc.ApprovalService, realizationRepo repository.ExpenseRealizationRepository, projectFlockKandangRepo projectFlockKandangRepo.ProjectFlockKandangRepository, documentSvc commonSvc.DocumentService, fifoPaymentSvc commonSvc.FifoPaymentService, validate *validator.Validate) ExpenseService {
 	return &expenseService{
 		Log:                     utils.Log,
 		Validate:                validate,
@@ -67,6 +68,23 @@ func NewExpenseService(repo repository.ExpenseRepository, supplierRepo supplierR
 		RealizationRepository:   realizationRepo,
 		ProjectFlockKandangRepo: projectFlockKandangRepo,
 		DocumentSvc:             documentSvc,
 		FifoPaymentSvc:          fifoPaymentSvc,
 	}
 }
 // reallocateAfterRealization called after expense realization changes that may
 // affect supplier debt: recompute grand_total + reallocate FIFO.
 func (s *expenseService) reallocateAfterRealization(ctx context.Context, expenseID uint, supplierID uint64) {
 	if s.FifoPaymentSvc == nil {
 		return
 	}
 	if err := s.FifoPaymentSvc.RecomputeGrandTotal(ctx, nil, commonSvc.ParentKindExpense, expenseID); err != nil {
 		s.Log.Warnf("Failed to recompute grand_total for expense %d: %+v", expenseID, err)
 	}
 	if supplierID > 0 {
 		if err := s.FifoPaymentSvc.ReallocateForParty(ctx, nil, string(utils.PaymentPartySupplier), uint(supplierID)); err != nil {
 			s.Log.Warnf("Failed to reallocate payments for supplier %d: %+v", supplierID, err)
 		}
 	}
 }
@@ -1078,6 +1096,9 @@ func (s *expenseService) CreateRealization(c *fiber.Ctx, expenseID uint, req *va
 	}
 	invalidateFromDate := commonSvc.MinNonZeroDateOnlyUTC(expense.TransactionDate, realizationDate, expense.RealizationDate)
 	s.invalidateDepreciationSnapshotsByExpense(c.Context(), nil, expenseID, invalidateFromDate, nil)
 	s.reallocateAfterRealization(c.Context(), expenseID, expense.SupplierId)
 	return responseDTO, nil
 }
@@ -1522,6 +1543,9 @@ func (s *expenseService) UpdateRealization(c *fiber.Ctx, expenseID uint, req *va
 		return nil, err
 	}
 	s.invalidateDepreciationSnapshotsByExpense(c.Context(), nil, expenseID, invalidateFromDate, nil)
 	s.reallocateAfterRealization(c.Context(), expenseID, expense.SupplierId)
 	return responseDTO, nil
 }
@@ -29,7 +29,9 @@ func (PaymentModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate *
 		panic(fmt.Sprintf("failed to register payment approval workflow: %v", err))
 	}
-	paymentService := sPayment.NewPaymentService(paymentRepo, approvalService, validate)
+	fifoPaymentService := commonSvc.NewFifoPaymentService(db, nil)
 	paymentService := sPayment.NewPaymentService(paymentRepo, approvalService, fifoPaymentService, validate)
 	userService := sUser.NewUserService(userRepo, validate)
 	PaymentRoutes(router, userService, paymentService)
@@ -32,12 +32,14 @@ type paymentService struct {
 	Validate         *validator.Validate
 	Repository       repository.PaymentRepository
 	ApprovalSvc      commonSvc.ApprovalService
 	FifoPaymentSvc   commonSvc.FifoPaymentService
 	approvalWorkflow approvalutils.ApprovalWorkflowKey
 }
 func NewPaymentService(
 	repo repository.PaymentRepository,
 	approvalSvc commonSvc.ApprovalService,
 	fifoPaymentSvc commonSvc.FifoPaymentService,
 	validate *validator.Validate,
 ) PaymentService {
 	return &paymentService{
@@ -45,6 +47,7 @@ func NewPaymentService(
 		Validate:         validate,
 		Repository:       repo,
 		ApprovalSvc:      approvalSvc,
 		FifoPaymentSvc:   fifoPaymentSvc,
 		approvalWorkflow: utils.ApprovalWorkflowPayment,
 	}
 }
@@ -159,6 +162,12 @@ func (s *paymentService) CreateOne(c *fiber.Ctx, req *validation.Create) (*entit
 			}
 		}
 		if s.FifoPaymentSvc != nil {
 			if err := s.FifoPaymentSvc.ReallocateForParty(c.Context(), dbTransaction, createBody.PartyType, createBody.PartyId); err != nil {
 				return err
 			}
 		}
 		return nil
 	})
 	if err != nil {
@@ -251,7 +260,46 @@ func (s paymentService) UpdateOne(c *fiber.Ctx, req *validation.Update, id uint)
 		return s.GetOne(c, id)
 	}
-	if err := s.Repository.PatchOne(c.Context(), id, updateBody, nil); err != nil {
+	// Snapshot party lama untuk reallocate kalau party baru berbeda.
 	existing, err := s.Repository.GetByID(c.Context(), id, nil)
 	if errors.Is(err, gorm.ErrRecordNotFound) {
 		return nil, fiber.NewError(fiber.StatusNotFound, "Payment not found")
 	}
 	if err != nil {
 		s.Log.Errorf("Failed get payment for update: %+v", err)
 		return nil, err
 	}
 	oldPartyType := existing.PartyType
 	oldPartyID := existing.PartyId
 	newPartyType := oldPartyType
 	newPartyID := oldPartyID
 	if v, ok := updateBody["party_type"].(string); ok {
 		newPartyType = v
 	}
 	if v, ok := updateBody["party_id"].(uint); ok {
 		newPartyID = v
 	}
 	err = s.Repository.DB().WithContext(c.Context()).Transaction(func(tx *gorm.DB) error {
 		paymentRepoTx := repository.NewPaymentRepository(tx)
 		if err := paymentRepoTx.PatchOne(c.Context(), id, updateBody, nil); err != nil {
 			return err
 		}
 		if s.FifoPaymentSvc != nil {
 			if err := s.FifoPaymentSvc.ReallocateForParty(c.Context(), tx, newPartyType, newPartyID); err != nil {
 				return err
 			}
 			if oldPartyType != newPartyType || oldPartyID != newPartyID {
 				if err := s.FifoPaymentSvc.ReallocateForParty(c.Context(), tx, oldPartyType, oldPartyID); err != nil {
 					return err
 				}
 			}
 		}
 		return nil
 	})
 	if err != nil {
 		if errors.Is(err, gorm.ErrRecordNotFound) {
 			return nil, fiber.NewError(fiber.StatusNotFound, "Payment not found")
 		}
@@ -65,6 +65,7 @@ func (TransferModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate
 		expenseRealizationRepo,
 		projectFlockKandangRepo,
 		documentSvc,
 		commonSvc.NewFifoPaymentService(db, utils.Log),
 		validate,
 	)
@@ -35,6 +35,7 @@ func (MarketingModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate
 	stockLogRepo := rShared.NewStockLogRepository(db)
 	fifoStockV2Service := commonSvc.NewFifoStockV2Service(db, utils.Log)
 	fifoPaymentService := commonSvc.NewFifoPaymentService(db, utils.Log)
 	approvalRepo := commonRepo.NewApprovalRepository(db)
 	approvalSvc := commonSvc.NewApprovalService(approvalRepo)
@@ -47,7 +48,7 @@ func (MarketingModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate
 	projectFlockKandangRepo := rProjectFlockKandang.NewProjectFlockKandangRepository(db)
 	salesOrdersService := service.NewSalesOrdersService(marketingRepo, customerRepo, productWarehouseRepo, userRepo, approvalSvc, fifoStockV2Service, warehouseRepo, projectFlockKandangRepo, validate)
-	deliveryOrdersService := service.NewDeliveryOrdersService(marketingRepo, marketingProductRepo, marketingDeliveryProductRepo, stockLogRepo, productWarehouseRepo, projectFlockPopulationRepo, approvalSvc, fifoStockV2Service, validate)
+	deliveryOrdersService := service.NewDeliveryOrdersService(marketingRepo, marketingProductRepo, marketingDeliveryProductRepo, stockLogRepo, productWarehouseRepo, projectFlockPopulationRepo, approvalSvc, fifoStockV2Service, fifoPaymentService, validate)
 	userService := sUser.NewUserService(userRepo, validate)
 	RegisterRoutes(router, userService, salesOrdersService, deliveryOrdersService)
@@ -48,6 +48,7 @@ type deliveryOrdersService struct {
 	ProjectFlockPopulationRepo   rProjectFlock.ProjectFlockPopulationRepository
 	ApprovalSvc                  commonSvc.ApprovalService
 	FifoStockV2Svc               commonSvc.FifoStockV2Service
 	FifoPaymentSvc               commonSvc.FifoPaymentService
 }
 func NewDeliveryOrdersService(
@@ -59,6 +60,7 @@ func NewDeliveryOrdersService(
 	projectFlockPopulationRepo rProjectFlock.ProjectFlockPopulationRepository,
 	approvalSvc commonSvc.ApprovalService,
 	fifoStockV2Svc commonSvc.FifoStockV2Service,
 	fifoPaymentSvc commonSvc.FifoPaymentService,
 	validate *validator.Validate,
 ) DeliveryOrdersService {
 	return &deliveryOrdersService{
@@ -71,6 +73,22 @@ func NewDeliveryOrdersService(
 		ProjectFlockPopulationRepo:   projectFlockPopulationRepo,
 		ApprovalSvc:                  approvalSvc,
 		FifoStockV2Svc:               fifoStockV2Svc,
 		FifoPaymentSvc:               fifoPaymentSvc,
 	}
 }
 // reallocateAfterDelivery refresh marketing.grand_total + reallocate FIFO untuk customer.
 func (s *deliveryOrdersService) reallocateAfterDelivery(ctx context.Context, marketingID uint, customerID uint) {
 	if s.FifoPaymentSvc == nil {
 		return
 	}
 	if err := s.FifoPaymentSvc.RecomputeGrandTotal(ctx, nil, commonSvc.ParentKindMarketing, marketingID); err != nil {
 		utils.Log.Warnf("Failed to recompute grand_total for marketing %d: %+v", marketingID, err)
 	}
 	if customerID > 0 {
 		if err := s.FifoPaymentSvc.ReallocateForParty(ctx, nil, string(utils.PaymentPartyCustomer), customerID); err != nil {
 			utils.Log.Warnf("Failed to reallocate payments for customer %d: %+v", customerID, err)
 		}
 	}
 }
@@ -418,6 +436,7 @@ func (s *deliveryOrdersService) CreateOne(c *fiber.Ctx, req *validation.Delivery
 		return nil, fiber.NewError(fiber.StatusBadRequest, "Delivery order already exists for this marketing")
 	}
 	var capturedCustomerID uint
 	err = s.MarketingRepo.DB().WithContext(c.Context()).Transaction(func(dbTransaction *gorm.DB) error {
 		marketingProductRepositoryTx := marketingRepo.NewMarketingProductRepository(dbTransaction)
 		marketingDeliveryProductRepositoryTx := marketingRepo.NewMarketingDeliveryProductRepository(dbTransaction)
@@ -428,6 +447,7 @@ func (s *deliveryOrdersService) CreateOne(c *fiber.Ctx, req *validation.Delivery
 		if err != nil {
 			return fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch marketing")
 		}
 		capturedCustomerID = marketing.CustomerId
 		allMarketingProducts, err := marketingProductRepositoryTx.GetByMarketingID(c.Context(), req.MarketingId)
 		if err != nil {
@@ -519,6 +539,8 @@ func (s *deliveryOrdersService) CreateOne(c *fiber.Ctx, req *validation.Delivery
 		return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to create delivery order")
 	}
 	s.reallocateAfterDelivery(c.Context(), req.MarketingId, capturedCustomerID)
 	return s.getMarketingWithDeliveries(c, req.MarketingId)
 }
@@ -547,6 +569,7 @@ func (s deliveryOrdersService) UpdateOne(c *fiber.Ctx, req *validation.DeliveryO
 		return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to check approval status")
 	}
 	var capturedCustomerID uint
 	err = s.MarketingRepo.DB().WithContext(c.Context()).Transaction(func(dbTransaction *gorm.DB) error {
 		marketingProductRepositoryTx := marketingRepo.NewMarketingProductRepository(dbTransaction)
 		marketingDeliveryProductRepositoryTx := marketingRepo.NewMarketingDeliveryProductRepository(dbTransaction)
@@ -557,6 +580,7 @@ func (s deliveryOrdersService) UpdateOne(c *fiber.Ctx, req *validation.DeliveryO
 		if err != nil {
 			return fiber.NewError(fiber.StatusInternalServerError, "Failed to fetch marketing")
 		}
 		capturedCustomerID = marketing.CustomerId
 		allMarketingProducts, err := marketingProductRepositoryTx.GetByMarketingID(c.Context(), id)
 		if err != nil && !errors.Is(err, gorm.ErrRecordNotFound) {
@@ -662,6 +686,8 @@ func (s deliveryOrdersService) UpdateOne(c *fiber.Ctx, req *validation.DeliveryO
 		return nil, fiber.NewError(fiber.StatusInternalServerError, "Failed to update delivery order")
 	}
 	s.reallocateAfterDelivery(c.Context(), id, capturedCustomerID)
 	return s.getMarketingWithDeliveries(c, id)
 }
@@ -61,6 +61,7 @@ func (PurchaseModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate
 		expenseRealizationRepo,
 		projectFlockKandangRepository,
 		documentSvc,
 		commonSvc.NewFifoPaymentService(db, utils.Log),
 		validate,
 	)
 	expenseBridge := service.NewExpenseBridge(
@@ -72,6 +73,7 @@ func (PurchaseModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate
 	)
 	fifoStockV2Service := commonSvc.NewFifoStockV2Service(db, utils.Log)
 	fifoPaymentService := commonSvc.NewFifoPaymentService(db, utils.Log)
 	purchaseService := service.NewPurchaseService(
 		validate,
@@ -84,6 +86,7 @@ func (PurchaseModule) RegisterRoutes(router fiber.Router, db *gorm.DB, validate
 		approvalService,
 		expenseBridge,
 		fifoStockV2Service,
 		fifoPaymentService,
 		documentSvc,
 	)
@@ -64,6 +64,7 @@ type purchaseService struct {
 	ApprovalSvc             commonSvc.ApprovalService
 	ExpenseBridge           PurchaseExpenseBridge
 	FifoStockV2Svc          commonSvc.FifoStockV2Service
 	FifoPaymentSvc          commonSvc.FifoPaymentService
 	DocumentSvc             commonSvc.DocumentService
 	approvalWorkflow        approvalutils.ApprovalWorkflowKey
 }
@@ -91,6 +92,7 @@ func NewPurchaseService(
 	approvalSvc commonSvc.ApprovalService,
 	expenseBridge PurchaseExpenseBridge,
 	fifoStockV2Svc commonSvc.FifoStockV2Service,
 	fifoPaymentSvc commonSvc.FifoPaymentService,
 	documentSvc commonSvc.DocumentService,
 ) PurchaseService {
 	return &purchaseService{
@@ -105,6 +107,7 @@ func NewPurchaseService(
 		ApprovalSvc:             approvalSvc,
 		ExpenseBridge:           expenseBridge,
 		FifoStockV2Svc:          fifoStockV2Svc,
 		FifoPaymentSvc:          fifoPaymentSvc,
 		DocumentSvc:             documentSvc,
 		approvalWorkflow:        utils.ApprovalWorkflowPurchase,
 	}
@@ -1406,6 +1409,16 @@ func (s *purchaseService) ReceiveProducts(c *fiber.Ctx, id uint, req *validation
 		return nil, err
 	}
 	// Refresh purchase.grand_total + reallocate payment FIFO untuk supplier (new debt baru emerges).
 	if s.FifoPaymentSvc != nil && receivingAction == entity.ApprovalActionApproved {
 		if err := s.FifoPaymentSvc.RecomputeGrandTotal(c.Context(), nil, commonSvc.ParentKindPurchase, purchase.Id); err != nil {
 			s.Log.Warnf("Failed to recompute grand_total for purchase %d: %+v", purchase.Id, err)
 		}
 		if err := s.FifoPaymentSvc.ReallocateForParty(c.Context(), nil, string(utils.PaymentPartySupplier), uint(purchase.SupplierId)); err != nil {
 			s.Log.Warnf("Failed to reallocate payments for supplier %d: %+v", purchase.SupplierId, err)
 		}
 	}
 	return updated, nil
 }
@@ -750,37 +750,28 @@ func (s *repportService) GetMarketing(c *fiber.Ctx, params *validation.Marketing
 		customerGroups[customerID] = append(customerGroups[customerID], dp)
 	}
 	// Aging untuk setiap MDP berdasarkan payment_allocations: LUNAS pakai last_payment_date,
 	// else pakai today.
 	agingMap := make(map[int]int)
-	for customerID := range customerGroups {
+	allMdpIDsForAging := make([]uint, 0)
-		transactions, err := s.CustomerPaymentRepo.GetCustomerPaymentTransactions(c.Context(), &customerID)
+	for _, dp := range deliveryProducts {
-		if err != nil {
+		allMdpIDsForAging = append(allMdpIDsForAging, dp.Id)
-			continue
+	}
-		}
+	mdpAllocSummaryForMarketing, err := s.fetchMdpAllocationSummary(c.Context(), allMdpIDsForAging)
-
+	if err != nil {
-		initialBalance, err := s.CustomerPaymentRepo.GetInitialBalanceByCustomer(c.Context(), customerID)
+		return nil, 0, err
-		if err != nil {
+	}
-			initialBalance = 0
+	for _, dp := range deliveryProducts {
-		}
+		summary := mdpAllocSummaryForMarketing[dp.Id]
-
+		soDate := dp.MarketingProduct.Marketing.SoDate
-		runningBalance := initialBalance
+		if customerPaymentStatusFromAllocation(dp.TotalPrice, summary.PaidAmount) == "LUNAS" && !summary.LastPaymentDate.IsZero() {
-		for i, tx := range transactions {
+			days := int(summary.LastPaymentDate.Sub(soDate).Hours() / 24)
-			if tx.TransactionType == "SALES" {
+			if days < 0 {
-				previousBalance := runningBalance
+				days = 0
 				runningBalance -= tx.TotalPrice
 				currentBalance := runningBalance
 				_, paymentDate := s.determineSalesStatusAndPaymentDate(transactions, i, previousBalance, currentBalance)
 				if paymentDate != nil {
 					agingDays := int(paymentDate.Sub(tx.TransDate).Hours() / 24)
 					agingMap[int(tx.TransactionID)] = agingDays
 				} else {
 					agingDays := int(time.Since(tx.TransDate).Hours() / 24)
 					agingMap[int(tx.TransactionID)] = agingDays
 				}
 			} else if tx.TransactionType == "PAYMENT" {
 				runningBalance += tx.PaymentAmount
 			}
 			agingMap[int(dp.Id)] = days
 		} else {
 			agingMap[int(dp.Id)] = int(time.Since(soDate).Hours() / 24)
 		}
 	}
@@ -1169,28 +1160,39 @@ func (s *repportService) processCustomerPayment(ctx context.Context, customerID
 		return dto.CustomerPaymentReportItem{}, err
 	}
 	// Batch fetch payment allocation summaries untuk semua SALES rows (per MDP).
 	mdpIDs := make([]uint, 0)
 	for _, tx := range transactions {
 		if tx.TransactionType == "SALES" && tx.TransactionID > 0 {
 			mdpIDs = append(mdpIDs, uint(tx.TransactionID))
 		}
 	}
 	mdpAllocSummary, err := s.fetchMdpAllocationSummary(ctx, mdpIDs)
 	if err != nil {
 		return dto.CustomerPaymentReportItem{}, err
 	}
 	rows := make([]dto.CustomerPaymentReportRow, 0, len(transactions))
 	runningBalance := initialBalance
-	for i, tx := range transactions {
+	for _, tx := range transactions {
 		previousBalance := runningBalance
 		row := dto.ToCustomerPaymentReportRow(tx)
 		if tx.TransactionType == "SALES" {
 			runningBalance -= tx.TotalPrice
-			status, paymentDate := s.determineSalesStatusAndPaymentDate(transactions, i, previousBalance, runningBalance)
+			summary := mdpAllocSummary[uint(tx.TransactionID)]
-			row.Status = status
+			row.Status = customerPaymentStatusFromAllocation(tx.TotalPrice, summary.PaidAmount)
-			if status == "LUNAS" {
+			if row.Status == "LUNAS" && !summary.LastPaymentDate.IsZero() {
-				if paymentDate != nil {
+				days := int(summary.LastPaymentDate.Sub(tx.TransDate).Hours() / 24)
-					days := int(paymentDate.Sub(tx.TransDate).Hours() / 24)
+				if days < 0 {
-					row.AgingDay = &days
+					days = 0
 				} else {
 					days := 0
 					row.AgingDay = &days
 				}
 				row.AgingDay = &days
 			} else if row.Status == "LUNAS" {
 				zero := 0
 				row.AgingDay = &zero
 			} else {
 				days := int(time.Since(tx.TransDate).Hours() / 24)
 				row.AgingDay = &days
@@ -1262,91 +1264,19 @@ func (s *repportService) processCustomerPayment(ctx context.Context, customerID
 	return dto.ToCustomerPaymentReportItem(*customer, initialBalance, rows, summary), nil
 }
-func (s *repportService) determineSalesStatusAndPaymentDate(transactions []repportRepo.CustomerPaymentTransaction, currentIndex int, previousBalance, currentBalance float64) (string, *time.Time) {
+// customerPaymentStatusFromAllocation menentukan status per-MDP berdasarkan
-	currentSales := transactions[currentIndex]
+// SUM(payment_allocations.amount) vs MDP total_price.
-
+func customerPaymentStatusFromAllocation(totalPrice, paidAmount float64) string {
-	if previousBalance >= currentSales.TotalPrice {
+	if totalPrice <= fifoAllocationEpsilon {
-		type paymentAllocation struct {
+		return "LUNAS"
 			date     time.Time
 			amount   float64
 			consumed float64
 		}
 		allocations := []paymentAllocation{}
 		runningBalance := 0.0
 		for i := 0; i < currentIndex; i++ {
 			if transactions[i].TransactionType == "PAYMENT" {
 				allocations = append(allocations, paymentAllocation{
 					date:     transactions[i].TransDate,
 					amount:   transactions[i].PaymentAmount,
 					consumed: 0,
 				})
 				runningBalance += transactions[i].PaymentAmount
 			} else if transactions[i].TransactionType == "SALES" {
 				salesAmount := transactions[i].TotalPrice
 				remainingToConsume := salesAmount
 				for j := range allocations {
 					if remainingToConsume <= 0 {
 						break
 					}
 					available := allocations[j].amount - allocations[j].consumed
 					if available > 0 {
 						consume := available
 						if consume > remainingToConsume {
 							consume = remainingToConsume
 						}
 						allocations[j].consumed += consume
 						remainingToConsume -= consume
 					}
 				}
 				runningBalance -= salesAmount
 			}
 		}
 		amountNeeded := currentSales.TotalPrice
 		for _, alloc := range allocations {
 			available := alloc.amount - alloc.consumed
 			if available > 0 {
 				if amountNeeded <= available {
 					return "LUNAS", &alloc.date
 				} else {
 					amountNeeded -= available
 				}
 			}
 		}
 		if len(allocations) > 0 {
 			return "LUNAS", &allocations[0].date
 		}
 		return "LUNAS", nil
 	}
-
+	if paidAmount+fifoAllocationEpsilon >= totalPrice {
-	hasPartialPaymentFromBalance := previousBalance > 0 && previousBalance < currentSales.TotalPrice
+		return "LUNAS"
 	futureBalance := currentBalance
 	hasPayment := false
 	var paymentDateThatMadeItLunas *time.Time
 	for i := currentIndex + 1; i < len(transactions); i++ {
 		if transactions[i].TransactionType == "PAYMENT" {
 			futureBalance += transactions[i].PaymentAmount
 			hasPayment = true
 			if futureBalance >= 0 {
 				paymentDateThatMadeItLunas = &transactions[i].TransDate
 				return "LUNAS", paymentDateThatMadeItLunas
 			}
 		} else if transactions[i].TransactionType == "SALES" {
 			futureBalance -= transactions[i].TotalPrice
 		}
 	}
-
+	if paidAmount > fifoAllocationEpsilon {
-	if hasPayment || hasPartialPaymentFromBalance {
+		return "DIBAYAR SEBAGIAN"
 		return "DIBAYAR SEBAGIAN", nil
 	}
-
+	return "BELUM LUNAS"
 	return "BELUM LUNAS", nil
 }
 func mapRecordingToProductionResultDTO(record entity.Recording) dto.ProductionResultDTO {
@@ -1861,15 +1791,34 @@ func (s *repportService) GetDebtSupplier(c *fiber.Ctx, params *validation.DebtSu
 		DeltaBalance float64
 		CountTotals  bool
 	}
-	type debtSupplierAllocation struct {
+
-		RowIndex  int
+	// Batch fetch payment allocation summaries (per purchase + per expense) untuk semua supplier.
-		SortTime  time.Time
+	// FIFO matching dilakukan saat payment di-create/update; report tinggal baca dari DB.
-		Amount    float64
+	allPurchaseIDs := make([]uint, 0)
-		CalcAging func(endDate time.Time) int
+	allExpenseIDs := make([]uint64, 0)
 	for _, sid := range supplierIDs {
 		for _, p := range purchasesBySupplier[sid] {
 			allPurchaseIDs = append(allPurchaseIDs, p.Id)
 		}
 		for _, e := range expensesBySupplier[sid] {
 			allExpenseIDs = append(allExpenseIDs, e.Id)
 		}
 	}
-	type paymentAllocation struct {
+	purchaseAllocSummary, err := s.fetchPurchaseAllocationSummary(c.Context(), allPurchaseIDs)
-		Date   time.Time
+	if err != nil {
-		Amount float64
+		return nil, 0, err
 	}
 	expenseAllocSummary, err := s.fetchExpenseAllocationSummary(c.Context(), allExpenseIDs)
 	if err != nil {
 		return nil, 0, err
 	}
 	// rowRef tracks which combinedRows index belongs to which purchase/expense untuk update status di-akhir.
 	type rowRef struct {
 		Index    int
 		Kind     string // "PURCHASE" / "EXPENSE"
 		Purchase entity.Purchase
 		Expense  entity.Expense
 	}
 	for _, supplierID := range supplierIDs {
@@ -1884,7 +1833,7 @@ func (s *repportService) GetDebtSupplier(c *fiber.Ctx, params *validation.DebtSu
 		total := dto.DebtSupplierTotalDTO{}
 		combinedRows := make([]debtSupplierRowItem, 0, len(items)+len(paymentItems))
-		purchaseAllocations := make([]debtSupplierAllocation, 0, len(items))
+		rowRefs := make([]rowRef, 0, len(items)+len(expensesBySupplier[supplierID]))
 		for _, purchase := range items {
 			row := buildDebtSupplierRow(purchase, now, location)
 			sortTime := resolveDebtSupplierSortTime(purchase, params.FilterBy, location)
@@ -1896,13 +1845,7 @@ func (s *repportService) GetDebtSupplier(c *fiber.Ctx, params *validation.DebtSu
 				DeltaBalance: -row.TotalPrice,
 				CountTotals:  true,
 			})
-			capturedPurchase := purchase
+			rowRefs = append(rowRefs, rowRef{Index: rowIndex, Kind: "PURCHASE", Purchase: purchase})
 			purchaseAllocations = append(purchaseAllocations, debtSupplierAllocation{
 				RowIndex:  rowIndex,
 				SortTime:  sortTime,
 				Amount:    row.TotalPrice,
 				CalcAging: func(endDate time.Time) int { return calculateDebtSupplierAging(capturedPurchase, endDate, location) },
 			})
 		}
 		for _, exp := range expensesBySupplier[supplierID] {
@@ -1916,25 +1859,7 @@ func (s *repportService) GetDebtSupplier(c *fiber.Ctx, params *validation.DebtSu
 				DeltaBalance: -row.TotalPrice,
 				CountTotals:  true,
 			})
-			capturedExp := exp
+			rowRefs = append(rowRefs, rowRef{Index: rowIndex, Kind: "EXPENSE", Expense: exp})
 			purchaseAllocations = append(purchaseAllocations, debtSupplierAllocation{
 				RowIndex:  rowIndex,
 				SortTime:  sortTime,
 				Amount:    row.TotalPrice,
 				CalcAging: func(endDate time.Time) int { return calculateExpenseAging(capturedExp, endDate, location) },
 			})
 		}
 		paymentAllocations := make([]paymentAllocation, 0, len(paymentItems)+1)
 		initialAllocation := initialBalanceTotals[supplierID] + initialPaymentTotals[supplierID] - initialPurchaseTotals[supplierID]
 		paymentCarry := 0.0
 		if initialAllocation > 0 && len(purchaseAllocations) > 0 {
 			paymentAllocations = append(paymentAllocations, paymentAllocation{
 				Date:   purchaseAllocations[0].SortTime,
 				Amount: initialAllocation,
 			})
 		} else if initialAllocation < 0 {
 			paymentCarry = -initialAllocation
 		}
 		for _, payment := range paymentItems {
@@ -1947,51 +1872,29 @@ func (s *repportService) GetDebtSupplier(c *fiber.Ctx, params *validation.DebtSu
 				DeltaBalance: payment.Nominal,
 				CountTotals:  false,
 			})
 			paymentAllocations = append(paymentAllocations, paymentAllocation{
 				Date:   sortTime,
 				Amount: payment.Nominal,
 			})
 		}
-		if len(purchaseAllocations) > 0 && len(paymentAllocations) > 0 {
+		// Determine Status & Aging dari payment_allocations DB.
-			sort.SliceStable(purchaseAllocations, func(i, j int) bool {
+		for _, ref := range rowRefs {
-				return purchaseAllocations[i].SortTime.Before(purchaseAllocations[j].SortTime)
+			rowTotal := combinedRows[ref.Index].Row.TotalPrice
-			})
+			if rowTotal <= fifoAllocationEpsilon {
-			sort.SliceStable(paymentAllocations, func(i, j int) bool {
+				continue
 				return paymentAllocations[i].Date.Before(paymentAllocations[j].Date)
 			})
 			remaining := make([]float64, len(purchaseAllocations))
 			for i := range purchaseAllocations {
 				remaining[i] = purchaseAllocations[i].Amount
 			}
-			purchaseIndex := 0
+			var summary paymentAllocationSummary
-			for _, pay := range paymentAllocations {
+			if ref.Kind == "PURCHASE" {
-				amount := pay.Amount
+				summary = purchaseAllocSummary[ref.Purchase.Id]
-				if amount <= 0 {
+			} else {
-					continue
+				summary = expenseAllocSummary[ref.Expense.Id]
-				}
+			}
-				if paymentCarry > 0 {
+			if summary.PaidAmount+fifoAllocationEpsilon < rowTotal {
-					used := math.Min(amount, paymentCarry)
+				continue
-					paymentCarry -= used
+			}
-					amount -= used
+			combinedRows[ref.Index].Row.Status = "Lunas"
-				}
+			if !summary.LastPaymentDate.IsZero() {
-				for amount > 0 && purchaseIndex < len(remaining) {
+				if ref.Kind == "PURCHASE" {
-					if remaining[purchaseIndex] <= 0 {
+					combinedRows[ref.Index].Row.Aging = calculateDebtSupplierAging(ref.Purchase, summary.LastPaymentDate.In(location), location)
-						purchaseIndex++
+				} else {
-						continue
+					combinedRows[ref.Index].Row.Aging = calculateExpenseAging(ref.Expense, summary.LastPaymentDate.In(location), location)
 					}
 					used := math.Min(amount, remaining[purchaseIndex])
 					remaining[purchaseIndex] -= used
 					amount -= used
 					if remaining[purchaseIndex] <= 0.000001 {
 						allocation := purchaseAllocations[purchaseIndex]
 						combinedRows[allocation.RowIndex].Row.Status = "Lunas"
 						combinedRows[allocation.RowIndex].Row.Aging = allocation.CalcAging(pay.Date)
 						purchaseIndex++
 					}
 				}
 				if purchaseIndex >= len(remaining) {
 					break
 				}
 			}
 		}
@@ -2168,6 +2071,115 @@ func buildDebtSupplierPaymentRow(payment entity.Payment, loc *time.Location) dto
 	}
 }
 // fifoAllocationEpsilon untuk float comparison saat membandingkan paid vs total.
 const fifoAllocationEpsilon = 0.001
 // paymentAllocationSummary aggregates per-document paid amount + latest payment date
 // from payment_allocations table, sebagai pengganti FIFO greedy in-memory.
 type paymentAllocationSummary struct {
 	PaidAmount      float64
 	LastPaymentDate time.Time
 }
 // fetchPurchaseAllocationSummary returns map[purchase_id]{paid_amount, last_payment_date}.
 // paid_amount = SUM(payment_allocations.amount) untuk semua items dalam purchase.
 // last_payment_date = MAX(payments.payment_date) untuk allocation tersebut.
 func (s *repportService) fetchPurchaseAllocationSummary(ctx context.Context, purchaseIDs []uint) (map[uint]paymentAllocationSummary, error) {
 	out := make(map[uint]paymentAllocationSummary)
 	if len(purchaseIDs) == 0 {
 		return out, nil
 	}
 	type row struct {
 		PurchaseID  uint
 		Total       float64
 		LastPayment *time.Time
 	}
 	var rows []row
 	if err := s.db.WithContext(ctx).
 		Table("payment_allocations pa").
 		Joins("JOIN purchase_items pi ON pi.id = pa.purchase_item_id").
 		Joins("JOIN payments p ON p.id = pa.payment_id").
 		Select("pi.purchase_id AS purchase_id, SUM(pa.amount) AS total, MAX(p.payment_date) AS last_payment").
 		Where("pi.purchase_id IN ?", purchaseIDs).
 		Group("pi.purchase_id").
 		Scan(&rows).Error; err != nil {
 		return nil, err
 	}
 	for _, r := range rows {
 		summary := paymentAllocationSummary{PaidAmount: r.Total}
 		if r.LastPayment != nil {
 			summary.LastPaymentDate = *r.LastPayment
 		}
 		out[r.PurchaseID] = summary
 	}
 	return out, nil
 }
 // fetchExpenseAllocationSummary returns map[expense_id]{paid_amount, last_payment_date}.
 // Allocation di expense_realization_id → JOIN expense_nonstocks → expenses.id.
 func (s *repportService) fetchExpenseAllocationSummary(ctx context.Context, expenseIDs []uint64) (map[uint64]paymentAllocationSummary, error) {
 	out := make(map[uint64]paymentAllocationSummary)
 	if len(expenseIDs) == 0 {
 		return out, nil
 	}
 	type row struct {
 		ExpenseID   uint64
 		Total       float64
 		LastPayment *time.Time
 	}
 	var rows []row
 	if err := s.db.WithContext(ctx).
 		Table("payment_allocations pa").
 		Joins("JOIN expense_realizations er ON er.id = pa.expense_realization_id").
 		Joins("JOIN expense_nonstocks en ON en.id = er.expense_nonstock_id").
 		Joins("JOIN payments p ON p.id = pa.payment_id").
 		Select("en.expense_id AS expense_id, SUM(pa.amount) AS total, MAX(p.payment_date) AS last_payment").
 		Where("en.expense_id IN ?", expenseIDs).
 		Group("en.expense_id").
 		Scan(&rows).Error; err != nil {
 		return nil, err
 	}
 	for _, r := range rows {
 		summary := paymentAllocationSummary{PaidAmount: r.Total}
 		if r.LastPayment != nil {
 			summary.LastPaymentDate = *r.LastPayment
 		}
 		out[r.ExpenseID] = summary
 	}
 	return out, nil
 }
 // fetchMdpAllocationSummary returns map[mdp_id]{paid_amount, last_payment_date}.
 func (s *repportService) fetchMdpAllocationSummary(ctx context.Context, mdpIDs []uint) (map[uint]paymentAllocationSummary, error) {
 	out := make(map[uint]paymentAllocationSummary)
 	if len(mdpIDs) == 0 {
 		return out, nil
 	}
 	type row struct {
 		MdpID       uint
 		Total       float64
 		LastPayment *time.Time
 	}
 	var rows []row
 	if err := s.db.WithContext(ctx).
 		Table("payment_allocations pa").
 		Joins("JOIN payments p ON p.id = pa.payment_id").
 		Select("pa.marketing_delivery_product_id AS mdp_id, SUM(pa.amount) AS total, MAX(p.payment_date) AS last_payment").
 		Where("pa.marketing_delivery_product_id IN ?", mdpIDs).
 		Group("pa.marketing_delivery_product_id").
 		Scan(&rows).Error; err != nil {
 		return nil, err
 	}
 	for _, r := range rows {
 		summary := paymentAllocationSummary{PaidAmount: r.Total}
 		if r.LastPayment != nil {
 			summary.LastPaymentDate = *r.LastPayment
 		}
 		out[r.MdpID] = summary
 	}
 	return out, nil
 }
 func resolveDebtSupplierSortTime(purchase entity.Purchase, filterBy string, loc *time.Location) time.Time {
 	if strings.EqualFold(strings.TrimSpace(filterBy), "po_date") {
 		if purchase.PoDate != nil && !purchase.PoDate.IsZero() {
@@ -2271,10 +2283,10 @@ func buildDebtSupplierExpenseRow(exp entity.Expense, now time.Time, loc *time.Lo
 		aging = int(endDay.Sub(startDay).Hours() / 24)
 	}
-	totalPrice := 0.0
+	// TotalPrice pakai expense.GrandTotal (= SUM realisasi) supaya konsisten dengan
-	for _, ns := range exp.Nonstocks {
+	// FIFO allocation yang juga pakai realisasi. Hindari pakai SUM nonstock pengajuan
-		totalPrice += ns.Qty * ns.Price
+	// karena bisa beda nilai dari realisasi → mismatch dengan paid_amount → status salah.
-	}
+	totalPrice := exp.GrandTotal
 	var area *areaDTO.AreaRelationDTO
 	if exp.Location != nil && exp.Location.Area.Id != 0 {