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books/reports/AccountReport.ts
Mildred Ki'Lya dd2830530b fix(reports): Allow multiple root account to have the same type
In French accounting, multiple root accounts can be of the same type,
ensure that reports take all accounts and not only the first one.
2023-12-05 21:38:25 +01:00

655 lines
16 KiB
TypeScript

import { Fyo, t } from 'fyo';
import { cloneDeep } from 'lodash';
import { DateTime } from 'luxon';
import { AccountRootType } from 'models/baseModels/Account/types';
import { isCredit } from 'models/helpers';
import { ModelNameEnum } from 'models/types';
import { LedgerReport } from 'reports/LedgerReport';
import {
Account,
AccountList,
AccountListNode,
AccountNameValueMapMap,
AccountTree,
AccountTreeNode,
BasedOn,
ColumnField,
DateRange,
GroupedMap,
LedgerEntry,
Periodicity,
ReportCell,
ReportData,
ReportRow,
Tree,
TreeNode,
ValueMap,
} from 'reports/types';
import { Field } from 'schemas/types';
import { getMapFromList } from 'utils';
import { QueryFilter } from 'utils/db/types';
export const ACC_NAME_WIDTH = 2;
export const ACC_BAL_WIDTH = 1.25;
export abstract class AccountReport extends LedgerReport {
toDate?: string;
count = 3;
fromYear?: number;
toYear?: number;
consolidateColumns = false;
hideGroupAmounts = false;
periodicity: Periodicity = 'Monthly';
basedOn: BasedOn = 'Until Date';
_rawData: LedgerEntry[] = [];
_dateRanges?: DateRange[];
accountMap?: Record<string, Account>;
async setDefaultFilters(): Promise<void> {
if (this.basedOn === 'Until Date' && !this.toDate) {
this.toDate = DateTime.now().plus({ days: 1 }).toISODate();
}
if (this.basedOn === 'Fiscal Year' && !this.toYear) {
this.fromYear = DateTime.now().year;
this.toYear = this.fromYear + 1;
}
await this._setDateRanges();
}
async _setDateRanges() {
this._dateRanges = await this._getDateRanges();
}
getRootNodes(
rootType: AccountRootType,
accountTree: AccountTree
): AccountTreeNode[] | undefined {
const rootNodeList = Object.values(accountTree);
return rootNodeList.filter((n) => n.rootType === rootType);
}
getEmptyRow(): ReportRow {
const columns = this.getColumns();
return {
isEmpty: true,
cells: columns.map(
(c) =>
({
value: '',
rawValue: '',
width: c.width,
align: 'left',
} as ReportCell)
),
};
}
getTotalNode(rootNodes: AccountTreeNode[], name: string): AccountListNode {
const accountTree: Tree = {};
for (const rootNode of rootNodes) {
accountTree[rootNode.name] = rootNode;
}
const leafNodes = getListOfLeafNodes(accountTree) as AccountTreeNode[];
const totalMap = leafNodes.reduce((acc, node) => {
for (const key of this._dateRanges!) {
const bal = acc.get(key)?.balance ?? 0;
const val = node.valueMap?.get(key)?.balance ?? 0;
acc.set(key, { balance: bal + val });
}
return acc;
}, new Map() as ValueMap);
return { name, valueMap: totalMap, level: 0 } as AccountListNode;
}
getReportRowsFromAccountList(accountList: AccountList): ReportData {
return accountList.map((al) => {
return this.getRowFromAccountListNode(al);
});
}
getRowFromAccountListNode(al: AccountListNode) {
const nameCell = {
value: al.name,
rawValue: al.name,
align: 'left',
width: ACC_NAME_WIDTH,
bold: !al.level,
indent: al.level ?? 0,
} as ReportCell;
const balanceCells = this._dateRanges!.map((k) => {
const rawValue = al.valueMap?.get(k)?.balance ?? 0;
let value = this.fyo.format(rawValue, 'Currency');
if (this.hideGroupAmounts && al.isGroup) {
value = '';
}
return {
rawValue,
value,
align: 'right',
width: ACC_BAL_WIDTH,
} as ReportCell;
});
return {
cells: [nameCell, balanceCells].flat(),
level: al.level,
isGroup: !!al.isGroup,
folded: false,
foldedBelow: false,
} as ReportRow;
}
async _getGroupedByDateRanges(
map: GroupedMap
): Promise<AccountNameValueMapMap> {
const accountValueMap: AccountNameValueMapMap = new Map();
if (!this.accountMap) {
await this._setAndReturnAccountMap();
}
for (const account of map.keys()) {
const valueMap: ValueMap = new Map();
/**
* Set Balance for every DateRange key
*/
for (const entry of map.get(account)!) {
const key = this._getRangeMapKey(entry);
if (key === null) {
continue;
}
if (!this.accountMap?.[entry.account]) {
await this._setAndReturnAccountMap(true);
}
const totalBalance = valueMap.get(key)?.balance ?? 0;
const balance = (entry.debit ?? 0) - (entry.credit ?? 0);
const rootType = this.accountMap![entry.account]?.rootType;
if (isCredit(rootType)) {
valueMap.set(key, { balance: totalBalance - balance });
} else {
valueMap.set(key, { balance: totalBalance + balance });
}
}
accountValueMap.set(account, valueMap);
}
return accountValueMap;
}
async _getAccountTree(rangeGroupedMap: AccountNameValueMapMap) {
const accountTree = cloneDeep(
await this._setAndReturnAccountMap()
) as AccountTree;
setPruneFlagOnAccountTreeNodes(accountTree);
setValueMapOnAccountTreeNodes(accountTree, rangeGroupedMap);
setChildrenOnAccountTreeNodes(accountTree);
deleteNonRootAccountTreeNodes(accountTree);
pruneAccountTree(accountTree);
return accountTree;
}
async _setAndReturnAccountMap(force = false) {
if (this.accountMap && !force) {
return this.accountMap;
}
const accountList: Account[] = (
await this.fyo.db.getAllRaw('Account', {
fields: ['name', 'rootType', 'isGroup', 'parentAccount'],
})
).map((rv) => ({
name: rv.name as string,
rootType: rv.rootType as AccountRootType,
isGroup: Boolean(rv.isGroup),
parentAccount: rv.parentAccount as string | null,
}));
this.accountMap = getMapFromList(accountList, 'name');
return this.accountMap;
}
_getRangeMapKey(entry: LedgerEntry): DateRange | null {
const entryDate = DateTime.fromISO(
entry.date!.toISOString().split('T')[0]
).toMillis();
for (const dr of this._dateRanges!) {
const toDate = dr.toDate.toMillis();
const fromDate = dr.fromDate.toMillis();
if (entryDate >= fromDate && entryDate < toDate) {
return dr;
}
}
return null;
}
// Fix arythmetic on dates when adding or substracting months. If the
// reference date was the last day in month, ensure that the resulting date is
// also the last day.
_fixMonthsJump(refDate: DateTime, date: DateTime): DateTime {
if (refDate.day == refDate.daysInMonth && date.day != date.daysInMonth) {
return date.set({ day: date.daysInMonth });
} else {
return date;
}
}
async _getDateRanges(): Promise<DateRange[]> {
const endpoints = await this._getFromAndToDates();
const fromDate = DateTime.fromISO(endpoints.fromDate);
const toDate = DateTime.fromISO(endpoints.toDate);
if (this.consolidateColumns) {
return [
{
toDate,
fromDate,
},
];
}
const months: number = monthsMap[this.periodicity];
const dateRanges: DateRange[] = [
{
toDate,
fromDate: this._fixMonthsJump(toDate, toDate.minus({ months })),
},
];
let count = this.count ?? 1;
if (this.basedOn === 'Fiscal Year') {
count = Math.ceil(((this.toYear! - this.fromYear!) * 12) / months);
}
for (let i = 1; i < count; i++) {
const lastRange = dateRanges.at(-1)!;
dateRanges.push({
toDate: lastRange.fromDate,
fromDate: this._fixMonthsJump(
toDate,
lastRange.fromDate.minus({ months })
),
});
}
return dateRanges.sort((b, a) => b.toDate.toMillis() - a.toDate.toMillis());
}
async _getFromAndToDates() {
let toDate: string;
let fromDate: string;
if (this.basedOn === 'Until Date') {
toDate = DateTime.fromISO(this.toDate!).plus({ days: 1 }).toISODate();
const months = monthsMap[this.periodicity] * Math.max(this.count ?? 1, 1);
fromDate = DateTime.fromISO(this.toDate!).minus({ months }).toISODate();
} else {
const fy = await getFiscalEndpoints(
this.toYear!,
this.fromYear!,
this.fyo
);
toDate = DateTime.fromISO(fy.toDate).plus({ days: 1 }).toISODate();
fromDate = fy.fromDate;
}
return { fromDate, toDate };
}
async _getQueryFilters(): Promise<QueryFilter> {
const filters: QueryFilter = {};
const { fromDate, toDate } = await this._getFromAndToDates();
const dateFilter: string[] = [];
dateFilter.push('<', toDate);
dateFilter.push('>=', fromDate);
filters.date = dateFilter;
filters.reverted = false;
return filters;
}
getFilters(): Field[] {
const periodNameMap: Record<Periodicity, string> = {
Monthly: t`Months`,
Quarterly: t`Quarters`,
'Half Yearly': t`Half Years`,
Yearly: t`Years`,
};
const filters = [
{
fieldtype: 'Select',
options: [
{ label: t`Fiscal Year`, value: 'Fiscal Year' },
{ label: t`Until Date`, value: 'Until Date' },
],
label: t`Based On`,
fieldname: 'basedOn',
},
{
fieldtype: 'Select',
options: [
{ label: t`Monthly`, value: 'Monthly' },
{ label: t`Quarterly`, value: 'Quarterly' },
{ label: t`Half Yearly`, value: 'Half Yearly' },
{ label: t`Yearly`, value: 'Yearly' },
],
label: t`Periodicity`,
fieldname: 'periodicity',
},
,
] as Field[];
let dateFilters = [
{
fieldtype: 'Int',
fieldname: 'fromYear',
placeholder: t`From Year`,
label: t`From Year`,
minvalue: 2000,
required: true,
},
{
fieldtype: 'Int',
fieldname: 'toYear',
placeholder: t`To Year`,
label: t`To Year`,
minvalue: 2000,
required: true,
},
] as Field[];
if (this.basedOn === 'Until Date') {
dateFilters = [
{
fieldtype: 'Date',
fieldname: 'toDate',
placeholder: t`To Date`,
label: t`To Date`,
required: true,
},
{
fieldtype: 'Int',
fieldname: 'count',
minvalue: 1,
placeholder: t`Number of ${periodNameMap[this.periodicity]}`,
label: t`Number of ${periodNameMap[this.periodicity]}`,
required: true,
},
] as Field[];
}
return [
filters,
dateFilters,
{
fieldtype: 'Check',
label: t`Consolidate Columns`,
fieldname: 'consolidateColumns',
} as Field,
{
fieldtype: 'Check',
label: t`Hide Group Amounts`,
fieldname: 'hideGroupAmounts',
} as Field,
].flat();
}
getColumns(): ColumnField[] {
const columns = [
{
label: t`Account`,
fieldtype: 'Link',
fieldname: 'account',
align: 'left',
width: ACC_NAME_WIDTH,
},
] as ColumnField[];
const dateColumns = this._dateRanges!.sort(
(a, b) => b.toDate.toMillis() - a.toDate.toMillis()
).map((d) => {
const toDate = d.toDate.minus({ days: 1 });
const label = this.fyo.format(toDate.toJSDate(), 'Date');
return {
label,
fieldtype: 'Data',
fieldname: 'toDate',
align: 'right',
width: ACC_BAL_WIDTH,
} as ColumnField;
});
return [columns, dateColumns].flat();
}
metaFilters: string[] = ['basedOn'];
}
export async function getFiscalEndpoints(
toYear: number,
fromYear: number,
fyo: Fyo
) {
const fys = (await fyo.getValue(
ModelNameEnum.AccountingSettings,
'fiscalYearStart'
)) as Date;
const fye = (await fyo.getValue(
ModelNameEnum.AccountingSettings,
'fiscalYearEnd'
)) as Date;
/**
* Get the month and the day, and
* prepend with the passed year.
*/
const fromDate = [
fromYear,
(fys.getMonth() + 1).toString().padStart(2, '0'),
fys.getDate().toString().padStart(2, '0'),
].join('-');
const toDate = [
toYear,
(fye.getMonth() + 1).toString().padStart(2, '0'),
fye.getDate().toString().padStart(2, '0'),
].join('-');
return { fromDate, toDate };
}
const monthsMap: Record<Periodicity, number> = {
Monthly: 1,
Quarterly: 3,
'Half Yearly': 6,
Yearly: 12,
};
function setPruneFlagOnAccountTreeNodes(accountTree: AccountTree) {
for (const account of Object.values(accountTree)) {
account.prune = true;
}
}
function setValueMapOnAccountTreeNodes(
accountTree: AccountTree,
rangeGroupedMap: AccountNameValueMapMap
) {
for (const name of rangeGroupedMap.keys()) {
if (!accountTree[name]) {
continue;
}
const valueMap = rangeGroupedMap.get(name)!;
accountTree[name].valueMap = valueMap;
accountTree[name].prune = false;
/**
* Set the update the parent account values recursively
* also prevent pruning of the parent accounts.
*/
let parentAccountName: string | null = accountTree[name].parentAccount;
while (parentAccountName !== null) {
parentAccountName = updateParentAccountWithChildValues(
accountTree,
parentAccountName,
valueMap
);
}
}
}
function updateParentAccountWithChildValues(
accountTree: AccountTree,
parentAccountName: string,
valueMap: ValueMap
): string {
const parentAccount = accountTree[parentAccountName];
parentAccount.prune = false;
parentAccount.valueMap ??= new Map();
for (const key of valueMap.keys()) {
const value = parentAccount.valueMap.get(key);
const childValue = valueMap.get(key);
const map: Record<string, number> = {};
for (const key of Object.keys(childValue!)) {
map[key] = (value?.[key] ?? 0) + (childValue?.[key] ?? 0);
}
parentAccount.valueMap.set(key, map);
}
return parentAccount.parentAccount!;
}
function setChildrenOnAccountTreeNodes(accountTree: AccountTree) {
const parentNodes: Set<string> = new Set();
for (const name of Object.keys(accountTree)) {
const ac = accountTree[name];
if (!ac.parentAccount) {
continue;
}
accountTree[ac.parentAccount].children ??= [];
accountTree[ac.parentAccount].children!.push(ac);
parentNodes.add(ac.parentAccount);
}
}
function deleteNonRootAccountTreeNodes(accountTree: AccountTree) {
for (const name of Object.keys(accountTree)) {
const ac = accountTree[name];
if (!ac.parentAccount) {
continue;
}
delete accountTree[name];
}
}
function pruneAccountTree(accountTree: AccountTree) {
for (const root of Object.keys(accountTree)) {
if (accountTree[root].prune) {
delete accountTree[root];
}
}
for (const root of Object.keys(accountTree)) {
accountTree[root].children = getPrunedChildren(
accountTree[root].children ?? []
);
}
}
function getPrunedChildren(children: AccountTreeNode[]): AccountTreeNode[] {
return children.filter((child) => {
if (child.children?.length) {
child.children = getPrunedChildren(child.children);
}
return !child.prune;
});
}
export function convertAccountRootNodesToAccountList(
rootNodes: AccountTreeNode[]
): AccountList {
if (!rootNodes || rootNodes.length == 0) {
return [];
}
const accountList: AccountList = [];
for (const rootNode of rootNodes) {
pushToAccountList(rootNode, accountList, 0);
}
return accountList;
}
function pushToAccountList(
accountTreeNode: AccountTreeNode,
accountList: AccountList,
level: number
) {
accountList.push({
name: accountTreeNode.name,
rootType: accountTreeNode.rootType,
isGroup: accountTreeNode.isGroup,
parentAccount: accountTreeNode.parentAccount,
valueMap: accountTreeNode.valueMap,
level,
});
const children = accountTreeNode.children ?? [];
const childLevel = level + 1;
for (const childNode of children) {
pushToAccountList(childNode, accountList, childLevel);
}
}
function getListOfLeafNodes(tree: Tree): TreeNode[] {
const nonGroupChildren: TreeNode[] = [];
for (const node of Object.values(tree)) {
if (!node) {
continue;
}
const groupChildren = node.children ?? [];
while (groupChildren.length) {
const child = groupChildren.shift()!;
if (!child?.children?.length) {
nonGroupChildren.push(child);
continue;
}
groupChildren.unshift(...(child.children ?? []));
}
}
return nonGroupChildren;
}