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books/reports/AccountReport.ts
2022-05-23 16:18:23 +05:30

613 lines
15 KiB
TypeScript

import { 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 { fyo } from 'src/initFyo';
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: number = 3;
fromYear?: number;
toYear?: number;
consolidateColumns: boolean = false;
hideGroupAmounts: boolean = 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().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();
}
getRootNode(
rootType: AccountRootType,
accountTree: AccountTree
): AccountTreeNode | undefined {
const rootNodeList = Object.values(accountTree);
return rootNodeList.find((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)
),
};
}
async getTotalNode(
rootNode: AccountTreeNode,
name: string
): Promise<AccountListNode> {
const 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,
italics: al.isGroup,
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();
const accountMap = await this._getAccountMap();
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;
}
const totalBalance = valueMap.get(key!)?.balance ?? 0;
const balance = (entry.debit ?? 0) - (entry.credit ?? 0);
const rootType = 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._getAccountMap()) as AccountTree;
setPruneFlagOnAccountTreeNodes(accountTree);
setValueMapOnAccountTreeNodes(accountTree, rangeGroupedMap);
setChildrenOnAccountTreeNodes(accountTree);
deleteNonRootAccountTreeNodes(accountTree);
pruneAccountTree(accountTree);
return accountTree;
}
async _getAccountMap() {
if (this.accountMap) {
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 (fromDate < entryDate && entryDate <= toDate) {
return dr;
}
}
return null;
}
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: 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: 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 = this.toDate!;
const months = monthsMap[this.periodicity] * Math.max(this.count ?? 1, 1);
fromDate = DateTime.fromISO(toDate).minus({ months }).toISODate();
} else {
const fy = await getFiscalEndpoints(this.toYear!, this.fromYear!);
toDate = fy.toDate;
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: 'toYear',
placeholder: t`To Year`,
label: t`To Year`,
minvalue: 2000,
required: true,
},
{
fieldtype: 'Int',
fieldname: 'fromYear',
placeholder: t`From Year`,
label: t`From 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) =>
({
label: this.fyo.format(d.toDate.toJSDate(), 'Date'),
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) {
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.toISOString().split('T')[0].split('-').slice(1),
]
.flat()
.join('-');
const toDate = [toYear, fye.toISOString().split('T')[0].split('-').slice(1)]
.flat()
.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()) {
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) {
child.children = getPrunedChildren(child.children);
}
return !child.prune;
});
}
export function convertAccountRootNodeToAccountList(
rootNode: AccountTreeNode
): AccountList {
if (!rootNode) {
return [];
}
const accountList: AccountList = [];
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;
}