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156
extracted-source/node_modules/ajv/dist/compile/codegen/code.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.regexpCode = exports.getEsmExportName = exports.getProperty = exports.safeStringify = exports.stringify = exports.strConcat = exports.addCodeArg = exports.str = exports._ = exports.nil = exports._Code = exports.Name = exports.IDENTIFIER = exports._CodeOrName = void 0;
// eslint-disable-next-line @typescript-eslint/no-extraneous-class
class _CodeOrName {
}
exports._CodeOrName = _CodeOrName;
exports.IDENTIFIER = /^[a-z$_][a-z$_0-9]*$/i;
class Name extends _CodeOrName {
constructor(s) {
super();
if (!exports.IDENTIFIER.test(s))
throw new Error("CodeGen: name must be a valid identifier");
this.str = s;
}
toString() {
return this.str;
}
emptyStr() {
return false;
}
get names() {
return { [this.str]: 1 };
}
}
exports.Name = Name;
class _Code extends _CodeOrName {
constructor(code) {
super();
this._items = typeof code === "string" ? [code] : code;
}
toString() {
return this.str;
}
emptyStr() {
if (this._items.length > 1)
return false;
const item = this._items[0];
return item === "" || item === '""';
}
get str() {
var _a;
return ((_a = this._str) !== null && _a !== void 0 ? _a : (this._str = this._items.reduce((s, c) => `${s}${c}`, "")));
}
get names() {
var _a;
return ((_a = this._names) !== null && _a !== void 0 ? _a : (this._names = this._items.reduce((names, c) => {
if (c instanceof Name)
names[c.str] = (names[c.str] || 0) + 1;
return names;
}, {})));
}
}
exports._Code = _Code;
exports.nil = new _Code("");
function _(strs, ...args) {
const code = [strs[0]];
let i = 0;
while (i < args.length) {
addCodeArg(code, args[i]);
code.push(strs[++i]);
}
return new _Code(code);
}
exports._ = _;
const plus = new _Code("+");
function str(strs, ...args) {
const expr = [safeStringify(strs[0])];
let i = 0;
while (i < args.length) {
expr.push(plus);
addCodeArg(expr, args[i]);
expr.push(plus, safeStringify(strs[++i]));
}
optimize(expr);
return new _Code(expr);
}
exports.str = str;
function addCodeArg(code, arg) {
if (arg instanceof _Code)
code.push(...arg._items);
else if (arg instanceof Name)
code.push(arg);
else
code.push(interpolate(arg));
}
exports.addCodeArg = addCodeArg;
function optimize(expr) {
let i = 1;
while (i < expr.length - 1) {
if (expr[i] === plus) {
const res = mergeExprItems(expr[i - 1], expr[i + 1]);
if (res !== undefined) {
expr.splice(i - 1, 3, res);
continue;
}
expr[i++] = "+";
}
i++;
}
}
function mergeExprItems(a, b) {
if (b === '""')
return a;
if (a === '""')
return b;
if (typeof a == "string") {
if (b instanceof Name || a[a.length - 1] !== '"')
return;
if (typeof b != "string")
return `${a.slice(0, -1)}${b}"`;
if (b[0] === '"')
return a.slice(0, -1) + b.slice(1);
return;
}
if (typeof b == "string" && b[0] === '"' && !(a instanceof Name))
return `"${a}${b.slice(1)}`;
return;
}
function strConcat(c1, c2) {
return c2.emptyStr() ? c1 : c1.emptyStr() ? c2 : str `${c1}${c2}`;
}
exports.strConcat = strConcat;
// TODO do not allow arrays here
function interpolate(x) {
return typeof x == "number" || typeof x == "boolean" || x === null
? x
: safeStringify(Array.isArray(x) ? x.join(",") : x);
}
function stringify(x) {
return new _Code(safeStringify(x));
}
exports.stringify = stringify;
function safeStringify(x) {
return JSON.stringify(x)
.replace(/\u2028/g, "\\u2028")
.replace(/\u2029/g, "\\u2029");
}
exports.safeStringify = safeStringify;
function getProperty(key) {
return typeof key == "string" && exports.IDENTIFIER.test(key) ? new _Code(`.${key}`) : _ `[${key}]`;
}
exports.getProperty = getProperty;
//Does best effort to format the name properly
function getEsmExportName(key) {
if (typeof key == "string" && exports.IDENTIFIER.test(key)) {
return new _Code(`${key}`);
}
throw new Error(`CodeGen: invalid export name: ${key}, use explicit $id name mapping`);
}
exports.getEsmExportName = getEsmExportName;
function regexpCode(rx) {
return new _Code(rx.toString());
}
exports.regexpCode = regexpCode;
//# sourceMappingURL=code.js.map

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extracted-source/node_modules/ajv/dist/compile/codegen/index.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.or = exports.and = exports.not = exports.CodeGen = exports.operators = exports.varKinds = exports.ValueScopeName = exports.ValueScope = exports.Scope = exports.Name = exports.regexpCode = exports.stringify = exports.getProperty = exports.nil = exports.strConcat = exports.str = exports._ = void 0;
const code_1 = require("./code");
const scope_1 = require("./scope");
var code_2 = require("./code");
Object.defineProperty(exports, "_", { enumerable: true, get: function () { return code_2._; } });
Object.defineProperty(exports, "str", { enumerable: true, get: function () { return code_2.str; } });
Object.defineProperty(exports, "strConcat", { enumerable: true, get: function () { return code_2.strConcat; } });
Object.defineProperty(exports, "nil", { enumerable: true, get: function () { return code_2.nil; } });
Object.defineProperty(exports, "getProperty", { enumerable: true, get: function () { return code_2.getProperty; } });
Object.defineProperty(exports, "stringify", { enumerable: true, get: function () { return code_2.stringify; } });
Object.defineProperty(exports, "regexpCode", { enumerable: true, get: function () { return code_2.regexpCode; } });
Object.defineProperty(exports, "Name", { enumerable: true, get: function () { return code_2.Name; } });
var scope_2 = require("./scope");
Object.defineProperty(exports, "Scope", { enumerable: true, get: function () { return scope_2.Scope; } });
Object.defineProperty(exports, "ValueScope", { enumerable: true, get: function () { return scope_2.ValueScope; } });
Object.defineProperty(exports, "ValueScopeName", { enumerable: true, get: function () { return scope_2.ValueScopeName; } });
Object.defineProperty(exports, "varKinds", { enumerable: true, get: function () { return scope_2.varKinds; } });
exports.operators = {
GT: new code_1._Code(">"),
GTE: new code_1._Code(">="),
LT: new code_1._Code("<"),
LTE: new code_1._Code("<="),
EQ: new code_1._Code("==="),
NEQ: new code_1._Code("!=="),
NOT: new code_1._Code("!"),
OR: new code_1._Code("||"),
AND: new code_1._Code("&&"),
ADD: new code_1._Code("+"),
};
class Node {
optimizeNodes() {
return this;
}
optimizeNames(_names, _constants) {
return this;
}
}
class Def extends Node {
constructor(varKind, name, rhs) {
super();
this.varKind = varKind;
this.name = name;
this.rhs = rhs;
}
render({ es5, _n }) {
const varKind = es5 ? scope_1.varKinds.var : this.varKind;
const rhs = this.rhs === undefined ? "" : ` = ${this.rhs}`;
return `${varKind} ${this.name}${rhs};` + _n;
}
optimizeNames(names, constants) {
if (!names[this.name.str])
return;
if (this.rhs)
this.rhs = optimizeExpr(this.rhs, names, constants);
return this;
}
get names() {
return this.rhs instanceof code_1._CodeOrName ? this.rhs.names : {};
}
}
class Assign extends Node {
constructor(lhs, rhs, sideEffects) {
super();
this.lhs = lhs;
this.rhs = rhs;
this.sideEffects = sideEffects;
}
render({ _n }) {
return `${this.lhs} = ${this.rhs};` + _n;
}
optimizeNames(names, constants) {
if (this.lhs instanceof code_1.Name && !names[this.lhs.str] && !this.sideEffects)
return;
this.rhs = optimizeExpr(this.rhs, names, constants);
return this;
}
get names() {
const names = this.lhs instanceof code_1.Name ? {} : { ...this.lhs.names };
return addExprNames(names, this.rhs);
}
}
class AssignOp extends Assign {
constructor(lhs, op, rhs, sideEffects) {
super(lhs, rhs, sideEffects);
this.op = op;
}
render({ _n }) {
return `${this.lhs} ${this.op}= ${this.rhs};` + _n;
}
}
class Label extends Node {
constructor(label) {
super();
this.label = label;
this.names = {};
}
render({ _n }) {
return `${this.label}:` + _n;
}
}
class Break extends Node {
constructor(label) {
super();
this.label = label;
this.names = {};
}
render({ _n }) {
const label = this.label ? ` ${this.label}` : "";
return `break${label};` + _n;
}
}
class Throw extends Node {
constructor(error) {
super();
this.error = error;
}
render({ _n }) {
return `throw ${this.error};` + _n;
}
get names() {
return this.error.names;
}
}
class AnyCode extends Node {
constructor(code) {
super();
this.code = code;
}
render({ _n }) {
return `${this.code};` + _n;
}
optimizeNodes() {
return `${this.code}` ? this : undefined;
}
optimizeNames(names, constants) {
this.code = optimizeExpr(this.code, names, constants);
return this;
}
get names() {
return this.code instanceof code_1._CodeOrName ? this.code.names : {};
}
}
class ParentNode extends Node {
constructor(nodes = []) {
super();
this.nodes = nodes;
}
render(opts) {
return this.nodes.reduce((code, n) => code + n.render(opts), "");
}
optimizeNodes() {
const { nodes } = this;
let i = nodes.length;
while (i--) {
const n = nodes[i].optimizeNodes();
if (Array.isArray(n))
nodes.splice(i, 1, ...n);
else if (n)
nodes[i] = n;
else
nodes.splice(i, 1);
}
return nodes.length > 0 ? this : undefined;
}
optimizeNames(names, constants) {
const { nodes } = this;
let i = nodes.length;
while (i--) {
// iterating backwards improves 1-pass optimization
const n = nodes[i];
if (n.optimizeNames(names, constants))
continue;
subtractNames(names, n.names);
nodes.splice(i, 1);
}
return nodes.length > 0 ? this : undefined;
}
get names() {
return this.nodes.reduce((names, n) => addNames(names, n.names), {});
}
}
class BlockNode extends ParentNode {
render(opts) {
return "{" + opts._n + super.render(opts) + "}" + opts._n;
}
}
class Root extends ParentNode {
}
class Else extends BlockNode {
}
Else.kind = "else";
class If extends BlockNode {
constructor(condition, nodes) {
super(nodes);
this.condition = condition;
}
render(opts) {
let code = `if(${this.condition})` + super.render(opts);
if (this.else)
code += "else " + this.else.render(opts);
return code;
}
optimizeNodes() {
super.optimizeNodes();
const cond = this.condition;
if (cond === true)
return this.nodes; // else is ignored here
let e = this.else;
if (e) {
const ns = e.optimizeNodes();
e = this.else = Array.isArray(ns) ? new Else(ns) : ns;
}
if (e) {
if (cond === false)
return e instanceof If ? e : e.nodes;
if (this.nodes.length)
return this;
return new If(not(cond), e instanceof If ? [e] : e.nodes);
}
if (cond === false || !this.nodes.length)
return undefined;
return this;
}
optimizeNames(names, constants) {
var _a;
this.else = (_a = this.else) === null || _a === void 0 ? void 0 : _a.optimizeNames(names, constants);
if (!(super.optimizeNames(names, constants) || this.else))
return;
this.condition = optimizeExpr(this.condition, names, constants);
return this;
}
get names() {
const names = super.names;
addExprNames(names, this.condition);
if (this.else)
addNames(names, this.else.names);
return names;
}
}
If.kind = "if";
class For extends BlockNode {
}
For.kind = "for";
class ForLoop extends For {
constructor(iteration) {
super();
this.iteration = iteration;
}
render(opts) {
return `for(${this.iteration})` + super.render(opts);
}
optimizeNames(names, constants) {
if (!super.optimizeNames(names, constants))
return;
this.iteration = optimizeExpr(this.iteration, names, constants);
return this;
}
get names() {
return addNames(super.names, this.iteration.names);
}
}
class ForRange extends For {
constructor(varKind, name, from, to) {
super();
this.varKind = varKind;
this.name = name;
this.from = from;
this.to = to;
}
render(opts) {
const varKind = opts.es5 ? scope_1.varKinds.var : this.varKind;
const { name, from, to } = this;
return `for(${varKind} ${name}=${from}; ${name}<${to}; ${name}++)` + super.render(opts);
}
get names() {
const names = addExprNames(super.names, this.from);
return addExprNames(names, this.to);
}
}
class ForIter extends For {
constructor(loop, varKind, name, iterable) {
super();
this.loop = loop;
this.varKind = varKind;
this.name = name;
this.iterable = iterable;
}
render(opts) {
return `for(${this.varKind} ${this.name} ${this.loop} ${this.iterable})` + super.render(opts);
}
optimizeNames(names, constants) {
if (!super.optimizeNames(names, constants))
return;
this.iterable = optimizeExpr(this.iterable, names, constants);
return this;
}
get names() {
return addNames(super.names, this.iterable.names);
}
}
class Func extends BlockNode {
constructor(name, args, async) {
super();
this.name = name;
this.args = args;
this.async = async;
}
render(opts) {
const _async = this.async ? "async " : "";
return `${_async}function ${this.name}(${this.args})` + super.render(opts);
}
}
Func.kind = "func";
class Return extends ParentNode {
render(opts) {
return "return " + super.render(opts);
}
}
Return.kind = "return";
class Try extends BlockNode {
render(opts) {
let code = "try" + super.render(opts);
if (this.catch)
code += this.catch.render(opts);
if (this.finally)
code += this.finally.render(opts);
return code;
}
optimizeNodes() {
var _a, _b;
super.optimizeNodes();
(_a = this.catch) === null || _a === void 0 ? void 0 : _a.optimizeNodes();
(_b = this.finally) === null || _b === void 0 ? void 0 : _b.optimizeNodes();
return this;
}
optimizeNames(names, constants) {
var _a, _b;
super.optimizeNames(names, constants);
(_a = this.catch) === null || _a === void 0 ? void 0 : _a.optimizeNames(names, constants);
(_b = this.finally) === null || _b === void 0 ? void 0 : _b.optimizeNames(names, constants);
return this;
}
get names() {
const names = super.names;
if (this.catch)
addNames(names, this.catch.names);
if (this.finally)
addNames(names, this.finally.names);
return names;
}
}
class Catch extends BlockNode {
constructor(error) {
super();
this.error = error;
}
render(opts) {
return `catch(${this.error})` + super.render(opts);
}
}
Catch.kind = "catch";
class Finally extends BlockNode {
render(opts) {
return "finally" + super.render(opts);
}
}
Finally.kind = "finally";
class CodeGen {
constructor(extScope, opts = {}) {
this._values = {};
this._blockStarts = [];
this._constants = {};
this.opts = { ...opts, _n: opts.lines ? "\n" : "" };
this._extScope = extScope;
this._scope = new scope_1.Scope({ parent: extScope });
this._nodes = [new Root()];
}
toString() {
return this._root.render(this.opts);
}
// returns unique name in the internal scope
name(prefix) {
return this._scope.name(prefix);
}
// reserves unique name in the external scope
scopeName(prefix) {
return this._extScope.name(prefix);
}
// reserves unique name in the external scope and assigns value to it
scopeValue(prefixOrName, value) {
const name = this._extScope.value(prefixOrName, value);
const vs = this._values[name.prefix] || (this._values[name.prefix] = new Set());
vs.add(name);
return name;
}
getScopeValue(prefix, keyOrRef) {
return this._extScope.getValue(prefix, keyOrRef);
}
// return code that assigns values in the external scope to the names that are used internally
// (same names that were returned by gen.scopeName or gen.scopeValue)
scopeRefs(scopeName) {
return this._extScope.scopeRefs(scopeName, this._values);
}
scopeCode() {
return this._extScope.scopeCode(this._values);
}
_def(varKind, nameOrPrefix, rhs, constant) {
const name = this._scope.toName(nameOrPrefix);
if (rhs !== undefined && constant)
this._constants[name.str] = rhs;
this._leafNode(new Def(varKind, name, rhs));
return name;
}
// `const` declaration (`var` in es5 mode)
const(nameOrPrefix, rhs, _constant) {
return this._def(scope_1.varKinds.const, nameOrPrefix, rhs, _constant);
}
// `let` declaration with optional assignment (`var` in es5 mode)
let(nameOrPrefix, rhs, _constant) {
return this._def(scope_1.varKinds.let, nameOrPrefix, rhs, _constant);
}
// `var` declaration with optional assignment
var(nameOrPrefix, rhs, _constant) {
return this._def(scope_1.varKinds.var, nameOrPrefix, rhs, _constant);
}
// assignment code
assign(lhs, rhs, sideEffects) {
return this._leafNode(new Assign(lhs, rhs, sideEffects));
}
// `+=` code
add(lhs, rhs) {
return this._leafNode(new AssignOp(lhs, exports.operators.ADD, rhs));
}
// appends passed SafeExpr to code or executes Block
code(c) {
if (typeof c == "function")
c();
else if (c !== code_1.nil)
this._leafNode(new AnyCode(c));
return this;
}
// returns code for object literal for the passed argument list of key-value pairs
object(...keyValues) {
const code = ["{"];
for (const [key, value] of keyValues) {
if (code.length > 1)
code.push(",");
code.push(key);
if (key !== value || this.opts.es5) {
code.push(":");
(0, code_1.addCodeArg)(code, value);
}
}
code.push("}");
return new code_1._Code(code);
}
// `if` clause (or statement if `thenBody` and, optionally, `elseBody` are passed)
if(condition, thenBody, elseBody) {
this._blockNode(new If(condition));
if (thenBody && elseBody) {
this.code(thenBody).else().code(elseBody).endIf();
}
else if (thenBody) {
this.code(thenBody).endIf();
}
else if (elseBody) {
throw new Error('CodeGen: "else" body without "then" body');
}
return this;
}
// `else if` clause - invalid without `if` or after `else` clauses
elseIf(condition) {
return this._elseNode(new If(condition));
}
// `else` clause - only valid after `if` or `else if` clauses
else() {
return this._elseNode(new Else());
}
// end `if` statement (needed if gen.if was used only with condition)
endIf() {
return this._endBlockNode(If, Else);
}
_for(node, forBody) {
this._blockNode(node);
if (forBody)
this.code(forBody).endFor();
return this;
}
// a generic `for` clause (or statement if `forBody` is passed)
for(iteration, forBody) {
return this._for(new ForLoop(iteration), forBody);
}
// `for` statement for a range of values
forRange(nameOrPrefix, from, to, forBody, varKind = this.opts.es5 ? scope_1.varKinds.var : scope_1.varKinds.let) {
const name = this._scope.toName(nameOrPrefix);
return this._for(new ForRange(varKind, name, from, to), () => forBody(name));
}
// `for-of` statement (in es5 mode replace with a normal for loop)
forOf(nameOrPrefix, iterable, forBody, varKind = scope_1.varKinds.const) {
const name = this._scope.toName(nameOrPrefix);
if (this.opts.es5) {
const arr = iterable instanceof code_1.Name ? iterable : this.var("_arr", iterable);
return this.forRange("_i", 0, (0, code_1._) `${arr}.length`, (i) => {
this.var(name, (0, code_1._) `${arr}[${i}]`);
forBody(name);
});
}
return this._for(new ForIter("of", varKind, name, iterable), () => forBody(name));
}
// `for-in` statement.
// With option `ownProperties` replaced with a `for-of` loop for object keys
forIn(nameOrPrefix, obj, forBody, varKind = this.opts.es5 ? scope_1.varKinds.var : scope_1.varKinds.const) {
if (this.opts.ownProperties) {
return this.forOf(nameOrPrefix, (0, code_1._) `Object.keys(${obj})`, forBody);
}
const name = this._scope.toName(nameOrPrefix);
return this._for(new ForIter("in", varKind, name, obj), () => forBody(name));
}
// end `for` loop
endFor() {
return this._endBlockNode(For);
}
// `label` statement
label(label) {
return this._leafNode(new Label(label));
}
// `break` statement
break(label) {
return this._leafNode(new Break(label));
}
// `return` statement
return(value) {
const node = new Return();
this._blockNode(node);
this.code(value);
if (node.nodes.length !== 1)
throw new Error('CodeGen: "return" should have one node');
return this._endBlockNode(Return);
}
// `try` statement
try(tryBody, catchCode, finallyCode) {
if (!catchCode && !finallyCode)
throw new Error('CodeGen: "try" without "catch" and "finally"');
const node = new Try();
this._blockNode(node);
this.code(tryBody);
if (catchCode) {
const error = this.name("e");
this._currNode = node.catch = new Catch(error);
catchCode(error);
}
if (finallyCode) {
this._currNode = node.finally = new Finally();
this.code(finallyCode);
}
return this._endBlockNode(Catch, Finally);
}
// `throw` statement
throw(error) {
return this._leafNode(new Throw(error));
}
// start self-balancing block
block(body, nodeCount) {
this._blockStarts.push(this._nodes.length);
if (body)
this.code(body).endBlock(nodeCount);
return this;
}
// end the current self-balancing block
endBlock(nodeCount) {
const len = this._blockStarts.pop();
if (len === undefined)
throw new Error("CodeGen: not in self-balancing block");
const toClose = this._nodes.length - len;
if (toClose < 0 || (nodeCount !== undefined && toClose !== nodeCount)) {
throw new Error(`CodeGen: wrong number of nodes: ${toClose} vs ${nodeCount} expected`);
}
this._nodes.length = len;
return this;
}
// `function` heading (or definition if funcBody is passed)
func(name, args = code_1.nil, async, funcBody) {
this._blockNode(new Func(name, args, async));
if (funcBody)
this.code(funcBody).endFunc();
return this;
}
// end function definition
endFunc() {
return this._endBlockNode(Func);
}
optimize(n = 1) {
while (n-- > 0) {
this._root.optimizeNodes();
this._root.optimizeNames(this._root.names, this._constants);
}
}
_leafNode(node) {
this._currNode.nodes.push(node);
return this;
}
_blockNode(node) {
this._currNode.nodes.push(node);
this._nodes.push(node);
}
_endBlockNode(N1, N2) {
const n = this._currNode;
if (n instanceof N1 || (N2 && n instanceof N2)) {
this._nodes.pop();
return this;
}
throw new Error(`CodeGen: not in block "${N2 ? `${N1.kind}/${N2.kind}` : N1.kind}"`);
}
_elseNode(node) {
const n = this._currNode;
if (!(n instanceof If)) {
throw new Error('CodeGen: "else" without "if"');
}
this._currNode = n.else = node;
return this;
}
get _root() {
return this._nodes[0];
}
get _currNode() {
const ns = this._nodes;
return ns[ns.length - 1];
}
set _currNode(node) {
const ns = this._nodes;
ns[ns.length - 1] = node;
}
}
exports.CodeGen = CodeGen;
function addNames(names, from) {
for (const n in from)
names[n] = (names[n] || 0) + (from[n] || 0);
return names;
}
function addExprNames(names, from) {
return from instanceof code_1._CodeOrName ? addNames(names, from.names) : names;
}
function optimizeExpr(expr, names, constants) {
if (expr instanceof code_1.Name)
return replaceName(expr);
if (!canOptimize(expr))
return expr;
return new code_1._Code(expr._items.reduce((items, c) => {
if (c instanceof code_1.Name)
c = replaceName(c);
if (c instanceof code_1._Code)
items.push(...c._items);
else
items.push(c);
return items;
}, []));
function replaceName(n) {
const c = constants[n.str];
if (c === undefined || names[n.str] !== 1)
return n;
delete names[n.str];
return c;
}
function canOptimize(e) {
return (e instanceof code_1._Code &&
e._items.some((c) => c instanceof code_1.Name && names[c.str] === 1 && constants[c.str] !== undefined));
}
}
function subtractNames(names, from) {
for (const n in from)
names[n] = (names[n] || 0) - (from[n] || 0);
}
function not(x) {
return typeof x == "boolean" || typeof x == "number" || x === null ? !x : (0, code_1._) `!${par(x)}`;
}
exports.not = not;
const andCode = mappend(exports.operators.AND);
// boolean AND (&&) expression with the passed arguments
function and(...args) {
return args.reduce(andCode);
}
exports.and = and;
const orCode = mappend(exports.operators.OR);
// boolean OR (||) expression with the passed arguments
function or(...args) {
return args.reduce(orCode);
}
exports.or = or;
function mappend(op) {
return (x, y) => (x === code_1.nil ? y : y === code_1.nil ? x : (0, code_1._) `${par(x)} ${op} ${par(y)}`);
}
function par(x) {
return x instanceof code_1.Name ? x : (0, code_1._) `(${x})`;
}
//# sourceMappingURL=index.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.ValueScope = exports.ValueScopeName = exports.Scope = exports.varKinds = exports.UsedValueState = void 0;
const code_1 = require("./code");
class ValueError extends Error {
constructor(name) {
super(`CodeGen: "code" for ${name} not defined`);
this.value = name.value;
}
}
var UsedValueState;
(function (UsedValueState) {
UsedValueState[UsedValueState["Started"] = 0] = "Started";
UsedValueState[UsedValueState["Completed"] = 1] = "Completed";
})(UsedValueState || (exports.UsedValueState = UsedValueState = {}));
exports.varKinds = {
const: new code_1.Name("const"),
let: new code_1.Name("let"),
var: new code_1.Name("var"),
};
class Scope {
constructor({ prefixes, parent } = {}) {
this._names = {};
this._prefixes = prefixes;
this._parent = parent;
}
toName(nameOrPrefix) {
return nameOrPrefix instanceof code_1.Name ? nameOrPrefix : this.name(nameOrPrefix);
}
name(prefix) {
return new code_1.Name(this._newName(prefix));
}
_newName(prefix) {
const ng = this._names[prefix] || this._nameGroup(prefix);
return `${prefix}${ng.index++}`;
}
_nameGroup(prefix) {
var _a, _b;
if (((_b = (_a = this._parent) === null || _a === void 0 ? void 0 : _a._prefixes) === null || _b === void 0 ? void 0 : _b.has(prefix)) || (this._prefixes && !this._prefixes.has(prefix))) {
throw new Error(`CodeGen: prefix "${prefix}" is not allowed in this scope`);
}
return (this._names[prefix] = { prefix, index: 0 });
}
}
exports.Scope = Scope;
class ValueScopeName extends code_1.Name {
constructor(prefix, nameStr) {
super(nameStr);
this.prefix = prefix;
}
setValue(value, { property, itemIndex }) {
this.value = value;
this.scopePath = (0, code_1._) `.${new code_1.Name(property)}[${itemIndex}]`;
}
}
exports.ValueScopeName = ValueScopeName;
const line = (0, code_1._) `\n`;
class ValueScope extends Scope {
constructor(opts) {
super(opts);
this._values = {};
this._scope = opts.scope;
this.opts = { ...opts, _n: opts.lines ? line : code_1.nil };
}
get() {
return this._scope;
}
name(prefix) {
return new ValueScopeName(prefix, this._newName(prefix));
}
value(nameOrPrefix, value) {
var _a;
if (value.ref === undefined)
throw new Error("CodeGen: ref must be passed in value");
const name = this.toName(nameOrPrefix);
const { prefix } = name;
const valueKey = (_a = value.key) !== null && _a !== void 0 ? _a : value.ref;
let vs = this._values[prefix];
if (vs) {
const _name = vs.get(valueKey);
if (_name)
return _name;
}
else {
vs = this._values[prefix] = new Map();
}
vs.set(valueKey, name);
const s = this._scope[prefix] || (this._scope[prefix] = []);
const itemIndex = s.length;
s[itemIndex] = value.ref;
name.setValue(value, { property: prefix, itemIndex });
return name;
}
getValue(prefix, keyOrRef) {
const vs = this._values[prefix];
if (!vs)
return;
return vs.get(keyOrRef);
}
scopeRefs(scopeName, values = this._values) {
return this._reduceValues(values, (name) => {
if (name.scopePath === undefined)
throw new Error(`CodeGen: name "${name}" has no value`);
return (0, code_1._) `${scopeName}${name.scopePath}`;
});
}
scopeCode(values = this._values, usedValues, getCode) {
return this._reduceValues(values, (name) => {
if (name.value === undefined)
throw new Error(`CodeGen: name "${name}" has no value`);
return name.value.code;
}, usedValues, getCode);
}
_reduceValues(values, valueCode, usedValues = {}, getCode) {
let code = code_1.nil;
for (const prefix in values) {
const vs = values[prefix];
if (!vs)
continue;
const nameSet = (usedValues[prefix] = usedValues[prefix] || new Map());
vs.forEach((name) => {
if (nameSet.has(name))
return;
nameSet.set(name, UsedValueState.Started);
let c = valueCode(name);
if (c) {
const def = this.opts.es5 ? exports.varKinds.var : exports.varKinds.const;
code = (0, code_1._) `${code}${def} ${name} = ${c};${this.opts._n}`;
}
else if ((c = getCode === null || getCode === void 0 ? void 0 : getCode(name))) {
code = (0, code_1._) `${code}${c}${this.opts._n}`;
}
else {
throw new ValueError(name);
}
nameSet.set(name, UsedValueState.Completed);
});
}
return code;
}
}
exports.ValueScope = ValueScope;
//# sourceMappingURL=scope.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.extendErrors = exports.resetErrorsCount = exports.reportExtraError = exports.reportError = exports.keyword$DataError = exports.keywordError = void 0;
const codegen_1 = require("./codegen");
const util_1 = require("./util");
const names_1 = require("./names");
exports.keywordError = {
message: ({ keyword }) => (0, codegen_1.str) `must pass "${keyword}" keyword validation`,
};
exports.keyword$DataError = {
message: ({ keyword, schemaType }) => schemaType
? (0, codegen_1.str) `"${keyword}" keyword must be ${schemaType} ($data)`
: (0, codegen_1.str) `"${keyword}" keyword is invalid ($data)`,
};
function reportError(cxt, error = exports.keywordError, errorPaths, overrideAllErrors) {
const { it } = cxt;
const { gen, compositeRule, allErrors } = it;
const errObj = errorObjectCode(cxt, error, errorPaths);
if (overrideAllErrors !== null && overrideAllErrors !== void 0 ? overrideAllErrors : (compositeRule || allErrors)) {
addError(gen, errObj);
}
else {
returnErrors(it, (0, codegen_1._) `[${errObj}]`);
}
}
exports.reportError = reportError;
function reportExtraError(cxt, error = exports.keywordError, errorPaths) {
const { it } = cxt;
const { gen, compositeRule, allErrors } = it;
const errObj = errorObjectCode(cxt, error, errorPaths);
addError(gen, errObj);
if (!(compositeRule || allErrors)) {
returnErrors(it, names_1.default.vErrors);
}
}
exports.reportExtraError = reportExtraError;
function resetErrorsCount(gen, errsCount) {
gen.assign(names_1.default.errors, errsCount);
gen.if((0, codegen_1._) `${names_1.default.vErrors} !== null`, () => gen.if(errsCount, () => gen.assign((0, codegen_1._) `${names_1.default.vErrors}.length`, errsCount), () => gen.assign(names_1.default.vErrors, null)));
}
exports.resetErrorsCount = resetErrorsCount;
function extendErrors({ gen, keyword, schemaValue, data, errsCount, it, }) {
/* istanbul ignore if */
if (errsCount === undefined)
throw new Error("ajv implementation error");
const err = gen.name("err");
gen.forRange("i", errsCount, names_1.default.errors, (i) => {
gen.const(err, (0, codegen_1._) `${names_1.default.vErrors}[${i}]`);
gen.if((0, codegen_1._) `${err}.instancePath === undefined`, () => gen.assign((0, codegen_1._) `${err}.instancePath`, (0, codegen_1.strConcat)(names_1.default.instancePath, it.errorPath)));
gen.assign((0, codegen_1._) `${err}.schemaPath`, (0, codegen_1.str) `${it.errSchemaPath}/${keyword}`);
if (it.opts.verbose) {
gen.assign((0, codegen_1._) `${err}.schema`, schemaValue);
gen.assign((0, codegen_1._) `${err}.data`, data);
}
});
}
exports.extendErrors = extendErrors;
function addError(gen, errObj) {
const err = gen.const("err", errObj);
gen.if((0, codegen_1._) `${names_1.default.vErrors} === null`, () => gen.assign(names_1.default.vErrors, (0, codegen_1._) `[${err}]`), (0, codegen_1._) `${names_1.default.vErrors}.push(${err})`);
gen.code((0, codegen_1._) `${names_1.default.errors}++`);
}
function returnErrors(it, errs) {
const { gen, validateName, schemaEnv } = it;
if (schemaEnv.$async) {
gen.throw((0, codegen_1._) `new ${it.ValidationError}(${errs})`);
}
else {
gen.assign((0, codegen_1._) `${validateName}.errors`, errs);
gen.return(false);
}
}
const E = {
keyword: new codegen_1.Name("keyword"),
schemaPath: new codegen_1.Name("schemaPath"), // also used in JTD errors
params: new codegen_1.Name("params"),
propertyName: new codegen_1.Name("propertyName"),
message: new codegen_1.Name("message"),
schema: new codegen_1.Name("schema"),
parentSchema: new codegen_1.Name("parentSchema"),
};
function errorObjectCode(cxt, error, errorPaths) {
const { createErrors } = cxt.it;
if (createErrors === false)
return (0, codegen_1._) `{}`;
return errorObject(cxt, error, errorPaths);
}
function errorObject(cxt, error, errorPaths = {}) {
const { gen, it } = cxt;
const keyValues = [
errorInstancePath(it, errorPaths),
errorSchemaPath(cxt, errorPaths),
];
extraErrorProps(cxt, error, keyValues);
return gen.object(...keyValues);
}
function errorInstancePath({ errorPath }, { instancePath }) {
const instPath = instancePath
? (0, codegen_1.str) `${errorPath}${(0, util_1.getErrorPath)(instancePath, util_1.Type.Str)}`
: errorPath;
return [names_1.default.instancePath, (0, codegen_1.strConcat)(names_1.default.instancePath, instPath)];
}
function errorSchemaPath({ keyword, it: { errSchemaPath } }, { schemaPath, parentSchema }) {
let schPath = parentSchema ? errSchemaPath : (0, codegen_1.str) `${errSchemaPath}/${keyword}`;
if (schemaPath) {
schPath = (0, codegen_1.str) `${schPath}${(0, util_1.getErrorPath)(schemaPath, util_1.Type.Str)}`;
}
return [E.schemaPath, schPath];
}
function extraErrorProps(cxt, { params, message }, keyValues) {
const { keyword, data, schemaValue, it } = cxt;
const { opts, propertyName, topSchemaRef, schemaPath } = it;
keyValues.push([E.keyword, keyword], [E.params, typeof params == "function" ? params(cxt) : params || (0, codegen_1._) `{}`]);
if (opts.messages) {
keyValues.push([E.message, typeof message == "function" ? message(cxt) : message]);
}
if (opts.verbose) {
keyValues.push([E.schema, schemaValue], [E.parentSchema, (0, codegen_1._) `${topSchemaRef}${schemaPath}`], [names_1.default.data, data]);
}
if (propertyName)
keyValues.push([E.propertyName, propertyName]);
}
//# sourceMappingURL=errors.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.resolveSchema = exports.getCompilingSchema = exports.resolveRef = exports.compileSchema = exports.SchemaEnv = void 0;
const codegen_1 = require("./codegen");
const validation_error_1 = require("../runtime/validation_error");
const names_1 = require("./names");
const resolve_1 = require("./resolve");
const util_1 = require("./util");
const validate_1 = require("./validate");
class SchemaEnv {
constructor(env) {
var _a;
this.refs = {};
this.dynamicAnchors = {};
let schema;
if (typeof env.schema == "object")
schema = env.schema;
this.schema = env.schema;
this.schemaId = env.schemaId;
this.root = env.root || this;
this.baseId = (_a = env.baseId) !== null && _a !== void 0 ? _a : (0, resolve_1.normalizeId)(schema === null || schema === void 0 ? void 0 : schema[env.schemaId || "$id"]);
this.schemaPath = env.schemaPath;
this.localRefs = env.localRefs;
this.meta = env.meta;
this.$async = schema === null || schema === void 0 ? void 0 : schema.$async;
this.refs = {};
}
}
exports.SchemaEnv = SchemaEnv;
// let codeSize = 0
// let nodeCount = 0
// Compiles schema in SchemaEnv
function compileSchema(sch) {
// TODO refactor - remove compilations
const _sch = getCompilingSchema.call(this, sch);
if (_sch)
return _sch;
const rootId = (0, resolve_1.getFullPath)(this.opts.uriResolver, sch.root.baseId); // TODO if getFullPath removed 1 tests fails
const { es5, lines } = this.opts.code;
const { ownProperties } = this.opts;
const gen = new codegen_1.CodeGen(this.scope, { es5, lines, ownProperties });
let _ValidationError;
if (sch.$async) {
_ValidationError = gen.scopeValue("Error", {
ref: validation_error_1.default,
code: (0, codegen_1._) `require("ajv/dist/runtime/validation_error").default`,
});
}
const validateName = gen.scopeName("validate");
sch.validateName = validateName;
const schemaCxt = {
gen,
allErrors: this.opts.allErrors,
data: names_1.default.data,
parentData: names_1.default.parentData,
parentDataProperty: names_1.default.parentDataProperty,
dataNames: [names_1.default.data],
dataPathArr: [codegen_1.nil], // TODO can its length be used as dataLevel if nil is removed?
dataLevel: 0,
dataTypes: [],
definedProperties: new Set(),
topSchemaRef: gen.scopeValue("schema", this.opts.code.source === true
? { ref: sch.schema, code: (0, codegen_1.stringify)(sch.schema) }
: { ref: sch.schema }),
validateName,
ValidationError: _ValidationError,
schema: sch.schema,
schemaEnv: sch,
rootId,
baseId: sch.baseId || rootId,
schemaPath: codegen_1.nil,
errSchemaPath: sch.schemaPath || (this.opts.jtd ? "" : "#"),
errorPath: (0, codegen_1._) `""`,
opts: this.opts,
self: this,
};
let sourceCode;
try {
this._compilations.add(sch);
(0, validate_1.validateFunctionCode)(schemaCxt);
gen.optimize(this.opts.code.optimize);
// gen.optimize(1)
const validateCode = gen.toString();
sourceCode = `${gen.scopeRefs(names_1.default.scope)}return ${validateCode}`;
// console.log((codeSize += sourceCode.length), (nodeCount += gen.nodeCount))
if (this.opts.code.process)
sourceCode = this.opts.code.process(sourceCode, sch);
// console.log("\n\n\n *** \n", sourceCode)
const makeValidate = new Function(`${names_1.default.self}`, `${names_1.default.scope}`, sourceCode);
const validate = makeValidate(this, this.scope.get());
this.scope.value(validateName, { ref: validate });
validate.errors = null;
validate.schema = sch.schema;
validate.schemaEnv = sch;
if (sch.$async)
validate.$async = true;
if (this.opts.code.source === true) {
validate.source = { validateName, validateCode, scopeValues: gen._values };
}
if (this.opts.unevaluated) {
const { props, items } = schemaCxt;
validate.evaluated = {
props: props instanceof codegen_1.Name ? undefined : props,
items: items instanceof codegen_1.Name ? undefined : items,
dynamicProps: props instanceof codegen_1.Name,
dynamicItems: items instanceof codegen_1.Name,
};
if (validate.source)
validate.source.evaluated = (0, codegen_1.stringify)(validate.evaluated);
}
sch.validate = validate;
return sch;
}
catch (e) {
delete sch.validate;
delete sch.validateName;
if (sourceCode)
this.logger.error("Error compiling schema, function code:", sourceCode);
// console.log("\n\n\n *** \n", sourceCode, this.opts)
throw e;
}
finally {
this._compilations.delete(sch);
}
}
exports.compileSchema = compileSchema;
function resolveRef(root, baseId, ref) {
var _a;
ref = (0, resolve_1.resolveUrl)(this.opts.uriResolver, baseId, ref);
const schOrFunc = root.refs[ref];
if (schOrFunc)
return schOrFunc;
let _sch = resolve.call(this, root, ref);
if (_sch === undefined) {
const schema = (_a = root.localRefs) === null || _a === void 0 ? void 0 : _a[ref]; // TODO maybe localRefs should hold SchemaEnv
const { schemaId } = this.opts;
if (schema)
_sch = new SchemaEnv({ schema, schemaId, root, baseId });
}
if (_sch === undefined)
return;
return (root.refs[ref] = inlineOrCompile.call(this, _sch));
}
exports.resolveRef = resolveRef;
function inlineOrCompile(sch) {
if ((0, resolve_1.inlineRef)(sch.schema, this.opts.inlineRefs))
return sch.schema;
return sch.validate ? sch : compileSchema.call(this, sch);
}
// Index of schema compilation in the currently compiled list
function getCompilingSchema(schEnv) {
for (const sch of this._compilations) {
if (sameSchemaEnv(sch, schEnv))
return sch;
}
}
exports.getCompilingSchema = getCompilingSchema;
function sameSchemaEnv(s1, s2) {
return s1.schema === s2.schema && s1.root === s2.root && s1.baseId === s2.baseId;
}
// resolve and compile the references ($ref)
// TODO returns AnySchemaObject (if the schema can be inlined) or validation function
function resolve(root, // information about the root schema for the current schema
ref // reference to resolve
) {
let sch;
while (typeof (sch = this.refs[ref]) == "string")
ref = sch;
return sch || this.schemas[ref] || resolveSchema.call(this, root, ref);
}
// Resolve schema, its root and baseId
function resolveSchema(root, // root object with properties schema, refs TODO below SchemaEnv is assigned to it
ref // reference to resolve
) {
const p = this.opts.uriResolver.parse(ref);
const refPath = (0, resolve_1._getFullPath)(this.opts.uriResolver, p);
let baseId = (0, resolve_1.getFullPath)(this.opts.uriResolver, root.baseId, undefined);
// TODO `Object.keys(root.schema).length > 0` should not be needed - but removing breaks 2 tests
if (Object.keys(root.schema).length > 0 && refPath === baseId) {
return getJsonPointer.call(this, p, root);
}
const id = (0, resolve_1.normalizeId)(refPath);
const schOrRef = this.refs[id] || this.schemas[id];
if (typeof schOrRef == "string") {
const sch = resolveSchema.call(this, root, schOrRef);
if (typeof (sch === null || sch === void 0 ? void 0 : sch.schema) !== "object")
return;
return getJsonPointer.call(this, p, sch);
}
if (typeof (schOrRef === null || schOrRef === void 0 ? void 0 : schOrRef.schema) !== "object")
return;
if (!schOrRef.validate)
compileSchema.call(this, schOrRef);
if (id === (0, resolve_1.normalizeId)(ref)) {
const { schema } = schOrRef;
const { schemaId } = this.opts;
const schId = schema[schemaId];
if (schId)
baseId = (0, resolve_1.resolveUrl)(this.opts.uriResolver, baseId, schId);
return new SchemaEnv({ schema, schemaId, root, baseId });
}
return getJsonPointer.call(this, p, schOrRef);
}
exports.resolveSchema = resolveSchema;
const PREVENT_SCOPE_CHANGE = new Set([
"properties",
"patternProperties",
"enum",
"dependencies",
"definitions",
]);
function getJsonPointer(parsedRef, { baseId, schema, root }) {
var _a;
if (((_a = parsedRef.fragment) === null || _a === void 0 ? void 0 : _a[0]) !== "/")
return;
for (const part of parsedRef.fragment.slice(1).split("/")) {
if (typeof schema === "boolean")
return;
const partSchema = schema[(0, util_1.unescapeFragment)(part)];
if (partSchema === undefined)
return;
schema = partSchema;
// TODO PREVENT_SCOPE_CHANGE could be defined in keyword def?
const schId = typeof schema === "object" && schema[this.opts.schemaId];
if (!PREVENT_SCOPE_CHANGE.has(part) && schId) {
baseId = (0, resolve_1.resolveUrl)(this.opts.uriResolver, baseId, schId);
}
}
let env;
if (typeof schema != "boolean" && schema.$ref && !(0, util_1.schemaHasRulesButRef)(schema, this.RULES)) {
const $ref = (0, resolve_1.resolveUrl)(this.opts.uriResolver, baseId, schema.$ref);
env = resolveSchema.call(this, root, $ref);
}
// even though resolution failed we need to return SchemaEnv to throw exception
// so that compileAsync loads missing schema.
const { schemaId } = this.opts;
env = env || new SchemaEnv({ schema, schemaId, root, baseId });
if (env.schema !== env.root.schema)
return env;
return undefined;
}
//# sourceMappingURL=index.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const codegen_1 = require("./codegen");
const names = {
// validation function arguments
data: new codegen_1.Name("data"), // data passed to validation function
// args passed from referencing schema
valCxt: new codegen_1.Name("valCxt"), // validation/data context - should not be used directly, it is destructured to the names below
instancePath: new codegen_1.Name("instancePath"),
parentData: new codegen_1.Name("parentData"),
parentDataProperty: new codegen_1.Name("parentDataProperty"),
rootData: new codegen_1.Name("rootData"), // root data - same as the data passed to the first/top validation function
dynamicAnchors: new codegen_1.Name("dynamicAnchors"), // used to support recursiveRef and dynamicRef
// function scoped variables
vErrors: new codegen_1.Name("vErrors"), // null or array of validation errors
errors: new codegen_1.Name("errors"), // counter of validation errors
this: new codegen_1.Name("this"),
// "globals"
self: new codegen_1.Name("self"),
scope: new codegen_1.Name("scope"),
// JTD serialize/parse name for JSON string and position
json: new codegen_1.Name("json"),
jsonPos: new codegen_1.Name("jsonPos"),
jsonLen: new codegen_1.Name("jsonLen"),
jsonPart: new codegen_1.Name("jsonPart"),
};
exports.default = names;
//# sourceMappingURL=names.js.map

12
extracted-source/node_modules/ajv/dist/compile/ref_error.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
const resolve_1 = require("./resolve");
class MissingRefError extends Error {
constructor(resolver, baseId, ref, msg) {
super(msg || `can't resolve reference ${ref} from id ${baseId}`);
this.missingRef = (0, resolve_1.resolveUrl)(resolver, baseId, ref);
this.missingSchema = (0, resolve_1.normalizeId)((0, resolve_1.getFullPath)(resolver, this.missingRef));
}
}
exports.default = MissingRefError;
//# sourceMappingURL=ref_error.js.map

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extracted-source/node_modules/ajv/dist/compile/resolve.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.getSchemaRefs = exports.resolveUrl = exports.normalizeId = exports._getFullPath = exports.getFullPath = exports.inlineRef = void 0;
const util_1 = require("./util");
const equal = require("fast-deep-equal");
const traverse = require("json-schema-traverse");
// TODO refactor to use keyword definitions
const SIMPLE_INLINED = new Set([
"type",
"format",
"pattern",
"maxLength",
"minLength",
"maxProperties",
"minProperties",
"maxItems",
"minItems",
"maximum",
"minimum",
"uniqueItems",
"multipleOf",
"required",
"enum",
"const",
]);
function inlineRef(schema, limit = true) {
if (typeof schema == "boolean")
return true;
if (limit === true)
return !hasRef(schema);
if (!limit)
return false;
return countKeys(schema) <= limit;
}
exports.inlineRef = inlineRef;
const REF_KEYWORDS = new Set([
"$ref",
"$recursiveRef",
"$recursiveAnchor",
"$dynamicRef",
"$dynamicAnchor",
]);
function hasRef(schema) {
for (const key in schema) {
if (REF_KEYWORDS.has(key))
return true;
const sch = schema[key];
if (Array.isArray(sch) && sch.some(hasRef))
return true;
if (typeof sch == "object" && hasRef(sch))
return true;
}
return false;
}
function countKeys(schema) {
let count = 0;
for (const key in schema) {
if (key === "$ref")
return Infinity;
count++;
if (SIMPLE_INLINED.has(key))
continue;
if (typeof schema[key] == "object") {
(0, util_1.eachItem)(schema[key], (sch) => (count += countKeys(sch)));
}
if (count === Infinity)
return Infinity;
}
return count;
}
function getFullPath(resolver, id = "", normalize) {
if (normalize !== false)
id = normalizeId(id);
const p = resolver.parse(id);
return _getFullPath(resolver, p);
}
exports.getFullPath = getFullPath;
function _getFullPath(resolver, p) {
const serialized = resolver.serialize(p);
return serialized.split("#")[0] + "#";
}
exports._getFullPath = _getFullPath;
const TRAILING_SLASH_HASH = /#\/?$/;
function normalizeId(id) {
return id ? id.replace(TRAILING_SLASH_HASH, "") : "";
}
exports.normalizeId = normalizeId;
function resolveUrl(resolver, baseId, id) {
id = normalizeId(id);
return resolver.resolve(baseId, id);
}
exports.resolveUrl = resolveUrl;
const ANCHOR = /^[a-z_][-a-z0-9._]*$/i;
function getSchemaRefs(schema, baseId) {
if (typeof schema == "boolean")
return {};
const { schemaId, uriResolver } = this.opts;
const schId = normalizeId(schema[schemaId] || baseId);
const baseIds = { "": schId };
const pathPrefix = getFullPath(uriResolver, schId, false);
const localRefs = {};
const schemaRefs = new Set();
traverse(schema, { allKeys: true }, (sch, jsonPtr, _, parentJsonPtr) => {
if (parentJsonPtr === undefined)
return;
const fullPath = pathPrefix + jsonPtr;
let innerBaseId = baseIds[parentJsonPtr];
if (typeof sch[schemaId] == "string")
innerBaseId = addRef.call(this, sch[schemaId]);
addAnchor.call(this, sch.$anchor);
addAnchor.call(this, sch.$dynamicAnchor);
baseIds[jsonPtr] = innerBaseId;
function addRef(ref) {
// eslint-disable-next-line @typescript-eslint/unbound-method
const _resolve = this.opts.uriResolver.resolve;
ref = normalizeId(innerBaseId ? _resolve(innerBaseId, ref) : ref);
if (schemaRefs.has(ref))
throw ambiguos(ref);
schemaRefs.add(ref);
let schOrRef = this.refs[ref];
if (typeof schOrRef == "string")
schOrRef = this.refs[schOrRef];
if (typeof schOrRef == "object") {
checkAmbiguosRef(sch, schOrRef.schema, ref);
}
else if (ref !== normalizeId(fullPath)) {
if (ref[0] === "#") {
checkAmbiguosRef(sch, localRefs[ref], ref);
localRefs[ref] = sch;
}
else {
this.refs[ref] = fullPath;
}
}
return ref;
}
function addAnchor(anchor) {
if (typeof anchor == "string") {
if (!ANCHOR.test(anchor))
throw new Error(`invalid anchor "${anchor}"`);
addRef.call(this, `#${anchor}`);
}
}
});
return localRefs;
function checkAmbiguosRef(sch1, sch2, ref) {
if (sch2 !== undefined && !equal(sch1, sch2))
throw ambiguos(ref);
}
function ambiguos(ref) {
return new Error(`reference "${ref}" resolves to more than one schema`);
}
}
exports.getSchemaRefs = getSchemaRefs;
//# sourceMappingURL=resolve.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.getRules = exports.isJSONType = void 0;
const _jsonTypes = ["string", "number", "integer", "boolean", "null", "object", "array"];
const jsonTypes = new Set(_jsonTypes);
function isJSONType(x) {
return typeof x == "string" && jsonTypes.has(x);
}
exports.isJSONType = isJSONType;
function getRules() {
const groups = {
number: { type: "number", rules: [] },
string: { type: "string", rules: [] },
array: { type: "array", rules: [] },
object: { type: "object", rules: [] },
};
return {
types: { ...groups, integer: true, boolean: true, null: true },
rules: [{ rules: [] }, groups.number, groups.string, groups.array, groups.object],
post: { rules: [] },
all: {},
keywords: {},
};
}
exports.getRules = getRules;
//# sourceMappingURL=rules.js.map

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extracted-source/node_modules/ajv/dist/compile/util.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.checkStrictMode = exports.getErrorPath = exports.Type = exports.useFunc = exports.setEvaluated = exports.evaluatedPropsToName = exports.mergeEvaluated = exports.eachItem = exports.unescapeJsonPointer = exports.escapeJsonPointer = exports.escapeFragment = exports.unescapeFragment = exports.schemaRefOrVal = exports.schemaHasRulesButRef = exports.schemaHasRules = exports.checkUnknownRules = exports.alwaysValidSchema = exports.toHash = void 0;
const codegen_1 = require("./codegen");
const code_1 = require("./codegen/code");
// TODO refactor to use Set
function toHash(arr) {
const hash = {};
for (const item of arr)
hash[item] = true;
return hash;
}
exports.toHash = toHash;
function alwaysValidSchema(it, schema) {
if (typeof schema == "boolean")
return schema;
if (Object.keys(schema).length === 0)
return true;
checkUnknownRules(it, schema);
return !schemaHasRules(schema, it.self.RULES.all);
}
exports.alwaysValidSchema = alwaysValidSchema;
function checkUnknownRules(it, schema = it.schema) {
const { opts, self } = it;
if (!opts.strictSchema)
return;
if (typeof schema === "boolean")
return;
const rules = self.RULES.keywords;
for (const key in schema) {
if (!rules[key])
checkStrictMode(it, `unknown keyword: "${key}"`);
}
}
exports.checkUnknownRules = checkUnknownRules;
function schemaHasRules(schema, rules) {
if (typeof schema == "boolean")
return !schema;
for (const key in schema)
if (rules[key])
return true;
return false;
}
exports.schemaHasRules = schemaHasRules;
function schemaHasRulesButRef(schema, RULES) {
if (typeof schema == "boolean")
return !schema;
for (const key in schema)
if (key !== "$ref" && RULES.all[key])
return true;
return false;
}
exports.schemaHasRulesButRef = schemaHasRulesButRef;
function schemaRefOrVal({ topSchemaRef, schemaPath }, schema, keyword, $data) {
if (!$data) {
if (typeof schema == "number" || typeof schema == "boolean")
return schema;
if (typeof schema == "string")
return (0, codegen_1._) `${schema}`;
}
return (0, codegen_1._) `${topSchemaRef}${schemaPath}${(0, codegen_1.getProperty)(keyword)}`;
}
exports.schemaRefOrVal = schemaRefOrVal;
function unescapeFragment(str) {
return unescapeJsonPointer(decodeURIComponent(str));
}
exports.unescapeFragment = unescapeFragment;
function escapeFragment(str) {
return encodeURIComponent(escapeJsonPointer(str));
}
exports.escapeFragment = escapeFragment;
function escapeJsonPointer(str) {
if (typeof str == "number")
return `${str}`;
return str.replace(/~/g, "~0").replace(/\//g, "~1");
}
exports.escapeJsonPointer = escapeJsonPointer;
function unescapeJsonPointer(str) {
return str.replace(/~1/g, "/").replace(/~0/g, "~");
}
exports.unescapeJsonPointer = unescapeJsonPointer;
function eachItem(xs, f) {
if (Array.isArray(xs)) {
for (const x of xs)
f(x);
}
else {
f(xs);
}
}
exports.eachItem = eachItem;
function makeMergeEvaluated({ mergeNames, mergeToName, mergeValues, resultToName, }) {
return (gen, from, to, toName) => {
const res = to === undefined
? from
: to instanceof codegen_1.Name
? (from instanceof codegen_1.Name ? mergeNames(gen, from, to) : mergeToName(gen, from, to), to)
: from instanceof codegen_1.Name
? (mergeToName(gen, to, from), from)
: mergeValues(from, to);
return toName === codegen_1.Name && !(res instanceof codegen_1.Name) ? resultToName(gen, res) : res;
};
}
exports.mergeEvaluated = {
props: makeMergeEvaluated({
mergeNames: (gen, from, to) => gen.if((0, codegen_1._) `${to} !== true && ${from} !== undefined`, () => {
gen.if((0, codegen_1._) `${from} === true`, () => gen.assign(to, true), () => gen.assign(to, (0, codegen_1._) `${to} || {}`).code((0, codegen_1._) `Object.assign(${to}, ${from})`));
}),
mergeToName: (gen, from, to) => gen.if((0, codegen_1._) `${to} !== true`, () => {
if (from === true) {
gen.assign(to, true);
}
else {
gen.assign(to, (0, codegen_1._) `${to} || {}`);
setEvaluated(gen, to, from);
}
}),
mergeValues: (from, to) => (from === true ? true : { ...from, ...to }),
resultToName: evaluatedPropsToName,
}),
items: makeMergeEvaluated({
mergeNames: (gen, from, to) => gen.if((0, codegen_1._) `${to} !== true && ${from} !== undefined`, () => gen.assign(to, (0, codegen_1._) `${from} === true ? true : ${to} > ${from} ? ${to} : ${from}`)),
mergeToName: (gen, from, to) => gen.if((0, codegen_1._) `${to} !== true`, () => gen.assign(to, from === true ? true : (0, codegen_1._) `${to} > ${from} ? ${to} : ${from}`)),
mergeValues: (from, to) => (from === true ? true : Math.max(from, to)),
resultToName: (gen, items) => gen.var("items", items),
}),
};
function evaluatedPropsToName(gen, ps) {
if (ps === true)
return gen.var("props", true);
const props = gen.var("props", (0, codegen_1._) `{}`);
if (ps !== undefined)
setEvaluated(gen, props, ps);
return props;
}
exports.evaluatedPropsToName = evaluatedPropsToName;
function setEvaluated(gen, props, ps) {
Object.keys(ps).forEach((p) => gen.assign((0, codegen_1._) `${props}${(0, codegen_1.getProperty)(p)}`, true));
}
exports.setEvaluated = setEvaluated;
const snippets = {};
function useFunc(gen, f) {
return gen.scopeValue("func", {
ref: f,
code: snippets[f.code] || (snippets[f.code] = new code_1._Code(f.code)),
});
}
exports.useFunc = useFunc;
var Type;
(function (Type) {
Type[Type["Num"] = 0] = "Num";
Type[Type["Str"] = 1] = "Str";
})(Type || (exports.Type = Type = {}));
function getErrorPath(dataProp, dataPropType, jsPropertySyntax) {
// let path
if (dataProp instanceof codegen_1.Name) {
const isNumber = dataPropType === Type.Num;
return jsPropertySyntax
? isNumber
? (0, codegen_1._) `"[" + ${dataProp} + "]"`
: (0, codegen_1._) `"['" + ${dataProp} + "']"`
: isNumber
? (0, codegen_1._) `"/" + ${dataProp}`
: (0, codegen_1._) `"/" + ${dataProp}.replace(/~/g, "~0").replace(/\\//g, "~1")`; // TODO maybe use global escapePointer
}
return jsPropertySyntax ? (0, codegen_1.getProperty)(dataProp).toString() : "/" + escapeJsonPointer(dataProp);
}
exports.getErrorPath = getErrorPath;
function checkStrictMode(it, msg, mode = it.opts.strictSchema) {
if (!mode)
return;
msg = `strict mode: ${msg}`;
if (mode === true)
throw new Error(msg);
it.self.logger.warn(msg);
}
exports.checkStrictMode = checkStrictMode;
//# sourceMappingURL=util.js.map

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extracted-source/node_modules/ajv/dist/compile/validate/applicability.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.shouldUseRule = exports.shouldUseGroup = exports.schemaHasRulesForType = void 0;
function schemaHasRulesForType({ schema, self }, type) {
const group = self.RULES.types[type];
return group && group !== true && shouldUseGroup(schema, group);
}
exports.schemaHasRulesForType = schemaHasRulesForType;
function shouldUseGroup(schema, group) {
return group.rules.some((rule) => shouldUseRule(schema, rule));
}
exports.shouldUseGroup = shouldUseGroup;
function shouldUseRule(schema, rule) {
var _a;
return (schema[rule.keyword] !== undefined ||
((_a = rule.definition.implements) === null || _a === void 0 ? void 0 : _a.some((kwd) => schema[kwd] !== undefined)));
}
exports.shouldUseRule = shouldUseRule;
//# sourceMappingURL=applicability.js.map

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extracted-source/node_modules/ajv/dist/compile/validate/boolSchema.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.boolOrEmptySchema = exports.topBoolOrEmptySchema = void 0;
const errors_1 = require("../errors");
const codegen_1 = require("../codegen");
const names_1 = require("../names");
const boolError = {
message: "boolean schema is false",
};
function topBoolOrEmptySchema(it) {
const { gen, schema, validateName } = it;
if (schema === false) {
falseSchemaError(it, false);
}
else if (typeof schema == "object" && schema.$async === true) {
gen.return(names_1.default.data);
}
else {
gen.assign((0, codegen_1._) `${validateName}.errors`, null);
gen.return(true);
}
}
exports.topBoolOrEmptySchema = topBoolOrEmptySchema;
function boolOrEmptySchema(it, valid) {
const { gen, schema } = it;
if (schema === false) {
gen.var(valid, false); // TODO var
falseSchemaError(it);
}
else {
gen.var(valid, true); // TODO var
}
}
exports.boolOrEmptySchema = boolOrEmptySchema;
function falseSchemaError(it, overrideAllErrors) {
const { gen, data } = it;
// TODO maybe some other interface should be used for non-keyword validation errors...
const cxt = {
gen,
keyword: "false schema",
data,
schema: false,
schemaCode: false,
schemaValue: false,
params: {},
it,
};
(0, errors_1.reportError)(cxt, boolError, undefined, overrideAllErrors);
}
//# sourceMappingURL=boolSchema.js.map

203
extracted-source/node_modules/ajv/dist/compile/validate/dataType.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.reportTypeError = exports.checkDataTypes = exports.checkDataType = exports.coerceAndCheckDataType = exports.getJSONTypes = exports.getSchemaTypes = exports.DataType = void 0;
const rules_1 = require("../rules");
const applicability_1 = require("./applicability");
const errors_1 = require("../errors");
const codegen_1 = require("../codegen");
const util_1 = require("../util");
var DataType;
(function (DataType) {
DataType[DataType["Correct"] = 0] = "Correct";
DataType[DataType["Wrong"] = 1] = "Wrong";
})(DataType || (exports.DataType = DataType = {}));
function getSchemaTypes(schema) {
const types = getJSONTypes(schema.type);
const hasNull = types.includes("null");
if (hasNull) {
if (schema.nullable === false)
throw new Error("type: null contradicts nullable: false");
}
else {
if (!types.length && schema.nullable !== undefined) {
throw new Error('"nullable" cannot be used without "type"');
}
if (schema.nullable === true)
types.push("null");
}
return types;
}
exports.getSchemaTypes = getSchemaTypes;
// eslint-disable-next-line @typescript-eslint/no-redundant-type-constituents
function getJSONTypes(ts) {
const types = Array.isArray(ts) ? ts : ts ? [ts] : [];
if (types.every(rules_1.isJSONType))
return types;
throw new Error("type must be JSONType or JSONType[]: " + types.join(","));
}
exports.getJSONTypes = getJSONTypes;
function coerceAndCheckDataType(it, types) {
const { gen, data, opts } = it;
const coerceTo = coerceToTypes(types, opts.coerceTypes);
const checkTypes = types.length > 0 &&
!(coerceTo.length === 0 && types.length === 1 && (0, applicability_1.schemaHasRulesForType)(it, types[0]));
if (checkTypes) {
const wrongType = checkDataTypes(types, data, opts.strictNumbers, DataType.Wrong);
gen.if(wrongType, () => {
if (coerceTo.length)
coerceData(it, types, coerceTo);
else
reportTypeError(it);
});
}
return checkTypes;
}
exports.coerceAndCheckDataType = coerceAndCheckDataType;
const COERCIBLE = new Set(["string", "number", "integer", "boolean", "null"]);
function coerceToTypes(types, coerceTypes) {
return coerceTypes
? types.filter((t) => COERCIBLE.has(t) || (coerceTypes === "array" && t === "array"))
: [];
}
function coerceData(it, types, coerceTo) {
const { gen, data, opts } = it;
const dataType = gen.let("dataType", (0, codegen_1._) `typeof ${data}`);
const coerced = gen.let("coerced", (0, codegen_1._) `undefined`);
if (opts.coerceTypes === "array") {
gen.if((0, codegen_1._) `${dataType} == 'object' && Array.isArray(${data}) && ${data}.length == 1`, () => gen
.assign(data, (0, codegen_1._) `${data}[0]`)
.assign(dataType, (0, codegen_1._) `typeof ${data}`)
.if(checkDataTypes(types, data, opts.strictNumbers), () => gen.assign(coerced, data)));
}
gen.if((0, codegen_1._) `${coerced} !== undefined`);
for (const t of coerceTo) {
if (COERCIBLE.has(t) || (t === "array" && opts.coerceTypes === "array")) {
coerceSpecificType(t);
}
}
gen.else();
reportTypeError(it);
gen.endIf();
gen.if((0, codegen_1._) `${coerced} !== undefined`, () => {
gen.assign(data, coerced);
assignParentData(it, coerced);
});
function coerceSpecificType(t) {
switch (t) {
case "string":
gen
.elseIf((0, codegen_1._) `${dataType} == "number" || ${dataType} == "boolean"`)
.assign(coerced, (0, codegen_1._) `"" + ${data}`)
.elseIf((0, codegen_1._) `${data} === null`)
.assign(coerced, (0, codegen_1._) `""`);
return;
case "number":
gen
.elseIf((0, codegen_1._) `${dataType} == "boolean" || ${data} === null
|| (${dataType} == "string" && ${data} && ${data} == +${data})`)
.assign(coerced, (0, codegen_1._) `+${data}`);
return;
case "integer":
gen
.elseIf((0, codegen_1._) `${dataType} === "boolean" || ${data} === null
|| (${dataType} === "string" && ${data} && ${data} == +${data} && !(${data} % 1))`)
.assign(coerced, (0, codegen_1._) `+${data}`);
return;
case "boolean":
gen
.elseIf((0, codegen_1._) `${data} === "false" || ${data} === 0 || ${data} === null`)
.assign(coerced, false)
.elseIf((0, codegen_1._) `${data} === "true" || ${data} === 1`)
.assign(coerced, true);
return;
case "null":
gen.elseIf((0, codegen_1._) `${data} === "" || ${data} === 0 || ${data} === false`);
gen.assign(coerced, null);
return;
case "array":
gen
.elseIf((0, codegen_1._) `${dataType} === "string" || ${dataType} === "number"
|| ${dataType} === "boolean" || ${data} === null`)
.assign(coerced, (0, codegen_1._) `[${data}]`);
}
}
}
function assignParentData({ gen, parentData, parentDataProperty }, expr) {
// TODO use gen.property
gen.if((0, codegen_1._) `${parentData} !== undefined`, () => gen.assign((0, codegen_1._) `${parentData}[${parentDataProperty}]`, expr));
}
function checkDataType(dataType, data, strictNums, correct = DataType.Correct) {
const EQ = correct === DataType.Correct ? codegen_1.operators.EQ : codegen_1.operators.NEQ;
let cond;
switch (dataType) {
case "null":
return (0, codegen_1._) `${data} ${EQ} null`;
case "array":
cond = (0, codegen_1._) `Array.isArray(${data})`;
break;
case "object":
cond = (0, codegen_1._) `${data} && typeof ${data} == "object" && !Array.isArray(${data})`;
break;
case "integer":
cond = numCond((0, codegen_1._) `!(${data} % 1) && !isNaN(${data})`);
break;
case "number":
cond = numCond();
break;
default:
return (0, codegen_1._) `typeof ${data} ${EQ} ${dataType}`;
}
return correct === DataType.Correct ? cond : (0, codegen_1.not)(cond);
function numCond(_cond = codegen_1.nil) {
return (0, codegen_1.and)((0, codegen_1._) `typeof ${data} == "number"`, _cond, strictNums ? (0, codegen_1._) `isFinite(${data})` : codegen_1.nil);
}
}
exports.checkDataType = checkDataType;
function checkDataTypes(dataTypes, data, strictNums, correct) {
if (dataTypes.length === 1) {
return checkDataType(dataTypes[0], data, strictNums, correct);
}
let cond;
const types = (0, util_1.toHash)(dataTypes);
if (types.array && types.object) {
const notObj = (0, codegen_1._) `typeof ${data} != "object"`;
cond = types.null ? notObj : (0, codegen_1._) `!${data} || ${notObj}`;
delete types.null;
delete types.array;
delete types.object;
}
else {
cond = codegen_1.nil;
}
if (types.number)
delete types.integer;
for (const t in types)
cond = (0, codegen_1.and)(cond, checkDataType(t, data, strictNums, correct));
return cond;
}
exports.checkDataTypes = checkDataTypes;
const typeError = {
message: ({ schema }) => `must be ${schema}`,
params: ({ schema, schemaValue }) => typeof schema == "string" ? (0, codegen_1._) `{type: ${schema}}` : (0, codegen_1._) `{type: ${schemaValue}}`,
};
function reportTypeError(it) {
const cxt = getTypeErrorContext(it);
(0, errors_1.reportError)(cxt, typeError);
}
exports.reportTypeError = reportTypeError;
function getTypeErrorContext(it) {
const { gen, data, schema } = it;
const schemaCode = (0, util_1.schemaRefOrVal)(it, schema, "type");
return {
gen,
keyword: "type",
data,
schema: schema.type,
schemaCode,
schemaValue: schemaCode,
parentSchema: schema,
params: {},
it,
};
}
//# sourceMappingURL=dataType.js.map

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extracted-source/node_modules/ajv/dist/compile/validate/defaults.js generated vendored Normal file
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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.assignDefaults = void 0;
const codegen_1 = require("../codegen");
const util_1 = require("../util");
function assignDefaults(it, ty) {
const { properties, items } = it.schema;
if (ty === "object" && properties) {
for (const key in properties) {
assignDefault(it, key, properties[key].default);
}
}
else if (ty === "array" && Array.isArray(items)) {
items.forEach((sch, i) => assignDefault(it, i, sch.default));
}
}
exports.assignDefaults = assignDefaults;
function assignDefault(it, prop, defaultValue) {
const { gen, compositeRule, data, opts } = it;
if (defaultValue === undefined)
return;
const childData = (0, codegen_1._) `${data}${(0, codegen_1.getProperty)(prop)}`;
if (compositeRule) {
(0, util_1.checkStrictMode)(it, `default is ignored for: ${childData}`);
return;
}
let condition = (0, codegen_1._) `${childData} === undefined`;
if (opts.useDefaults === "empty") {
condition = (0, codegen_1._) `${condition} || ${childData} === null || ${childData} === ""`;
}
// `${childData} === undefined` +
// (opts.useDefaults === "empty" ? ` || ${childData} === null || ${childData} === ""` : "")
gen.if(condition, (0, codegen_1._) `${childData} = ${(0, codegen_1.stringify)(defaultValue)}`);
}
//# sourceMappingURL=defaults.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.getData = exports.KeywordCxt = exports.validateFunctionCode = void 0;
const boolSchema_1 = require("./boolSchema");
const dataType_1 = require("./dataType");
const applicability_1 = require("./applicability");
const dataType_2 = require("./dataType");
const defaults_1 = require("./defaults");
const keyword_1 = require("./keyword");
const subschema_1 = require("./subschema");
const codegen_1 = require("../codegen");
const names_1 = require("../names");
const resolve_1 = require("../resolve");
const util_1 = require("../util");
const errors_1 = require("../errors");
// schema compilation - generates validation function, subschemaCode (below) is used for subschemas
function validateFunctionCode(it) {
if (isSchemaObj(it)) {
checkKeywords(it);
if (schemaCxtHasRules(it)) {
topSchemaObjCode(it);
return;
}
}
validateFunction(it, () => (0, boolSchema_1.topBoolOrEmptySchema)(it));
}
exports.validateFunctionCode = validateFunctionCode;
function validateFunction({ gen, validateName, schema, schemaEnv, opts }, body) {
if (opts.code.es5) {
gen.func(validateName, (0, codegen_1._) `${names_1.default.data}, ${names_1.default.valCxt}`, schemaEnv.$async, () => {
gen.code((0, codegen_1._) `"use strict"; ${funcSourceUrl(schema, opts)}`);
destructureValCxtES5(gen, opts);
gen.code(body);
});
}
else {
gen.func(validateName, (0, codegen_1._) `${names_1.default.data}, ${destructureValCxt(opts)}`, schemaEnv.$async, () => gen.code(funcSourceUrl(schema, opts)).code(body));
}
}
function destructureValCxt(opts) {
return (0, codegen_1._) `{${names_1.default.instancePath}="", ${names_1.default.parentData}, ${names_1.default.parentDataProperty}, ${names_1.default.rootData}=${names_1.default.data}${opts.dynamicRef ? (0, codegen_1._) `, ${names_1.default.dynamicAnchors}={}` : codegen_1.nil}}={}`;
}
function destructureValCxtES5(gen, opts) {
gen.if(names_1.default.valCxt, () => {
gen.var(names_1.default.instancePath, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.instancePath}`);
gen.var(names_1.default.parentData, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.parentData}`);
gen.var(names_1.default.parentDataProperty, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.parentDataProperty}`);
gen.var(names_1.default.rootData, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.rootData}`);
if (opts.dynamicRef)
gen.var(names_1.default.dynamicAnchors, (0, codegen_1._) `${names_1.default.valCxt}.${names_1.default.dynamicAnchors}`);
}, () => {
gen.var(names_1.default.instancePath, (0, codegen_1._) `""`);
gen.var(names_1.default.parentData, (0, codegen_1._) `undefined`);
gen.var(names_1.default.parentDataProperty, (0, codegen_1._) `undefined`);
gen.var(names_1.default.rootData, names_1.default.data);
if (opts.dynamicRef)
gen.var(names_1.default.dynamicAnchors, (0, codegen_1._) `{}`);
});
}
function topSchemaObjCode(it) {
const { schema, opts, gen } = it;
validateFunction(it, () => {
if (opts.$comment && schema.$comment)
commentKeyword(it);
checkNoDefault(it);
gen.let(names_1.default.vErrors, null);
gen.let(names_1.default.errors, 0);
if (opts.unevaluated)
resetEvaluated(it);
typeAndKeywords(it);
returnResults(it);
});
return;
}
function resetEvaluated(it) {
// TODO maybe some hook to execute it in the end to check whether props/items are Name, as in assignEvaluated
const { gen, validateName } = it;
it.evaluated = gen.const("evaluated", (0, codegen_1._) `${validateName}.evaluated`);
gen.if((0, codegen_1._) `${it.evaluated}.dynamicProps`, () => gen.assign((0, codegen_1._) `${it.evaluated}.props`, (0, codegen_1._) `undefined`));
gen.if((0, codegen_1._) `${it.evaluated}.dynamicItems`, () => gen.assign((0, codegen_1._) `${it.evaluated}.items`, (0, codegen_1._) `undefined`));
}
function funcSourceUrl(schema, opts) {
const schId = typeof schema == "object" && schema[opts.schemaId];
return schId && (opts.code.source || opts.code.process) ? (0, codegen_1._) `/*# sourceURL=${schId} */` : codegen_1.nil;
}
// schema compilation - this function is used recursively to generate code for sub-schemas
function subschemaCode(it, valid) {
if (isSchemaObj(it)) {
checkKeywords(it);
if (schemaCxtHasRules(it)) {
subSchemaObjCode(it, valid);
return;
}
}
(0, boolSchema_1.boolOrEmptySchema)(it, valid);
}
function schemaCxtHasRules({ schema, self }) {
if (typeof schema == "boolean")
return !schema;
for (const key in schema)
if (self.RULES.all[key])
return true;
return false;
}
function isSchemaObj(it) {
return typeof it.schema != "boolean";
}
function subSchemaObjCode(it, valid) {
const { schema, gen, opts } = it;
if (opts.$comment && schema.$comment)
commentKeyword(it);
updateContext(it);
checkAsyncSchema(it);
const errsCount = gen.const("_errs", names_1.default.errors);
typeAndKeywords(it, errsCount);
// TODO var
gen.var(valid, (0, codegen_1._) `${errsCount} === ${names_1.default.errors}`);
}
function checkKeywords(it) {
(0, util_1.checkUnknownRules)(it);
checkRefsAndKeywords(it);
}
function typeAndKeywords(it, errsCount) {
if (it.opts.jtd)
return schemaKeywords(it, [], false, errsCount);
const types = (0, dataType_1.getSchemaTypes)(it.schema);
const checkedTypes = (0, dataType_1.coerceAndCheckDataType)(it, types);
schemaKeywords(it, types, !checkedTypes, errsCount);
}
function checkRefsAndKeywords(it) {
const { schema, errSchemaPath, opts, self } = it;
if (schema.$ref && opts.ignoreKeywordsWithRef && (0, util_1.schemaHasRulesButRef)(schema, self.RULES)) {
self.logger.warn(`$ref: keywords ignored in schema at path "${errSchemaPath}"`);
}
}
function checkNoDefault(it) {
const { schema, opts } = it;
if (schema.default !== undefined && opts.useDefaults && opts.strictSchema) {
(0, util_1.checkStrictMode)(it, "default is ignored in the schema root");
}
}
function updateContext(it) {
const schId = it.schema[it.opts.schemaId];
if (schId)
it.baseId = (0, resolve_1.resolveUrl)(it.opts.uriResolver, it.baseId, schId);
}
function checkAsyncSchema(it) {
if (it.schema.$async && !it.schemaEnv.$async)
throw new Error("async schema in sync schema");
}
function commentKeyword({ gen, schemaEnv, schema, errSchemaPath, opts }) {
const msg = schema.$comment;
if (opts.$comment === true) {
gen.code((0, codegen_1._) `${names_1.default.self}.logger.log(${msg})`);
}
else if (typeof opts.$comment == "function") {
const schemaPath = (0, codegen_1.str) `${errSchemaPath}/$comment`;
const rootName = gen.scopeValue("root", { ref: schemaEnv.root });
gen.code((0, codegen_1._) `${names_1.default.self}.opts.$comment(${msg}, ${schemaPath}, ${rootName}.schema)`);
}
}
function returnResults(it) {
const { gen, schemaEnv, validateName, ValidationError, opts } = it;
if (schemaEnv.$async) {
// TODO assign unevaluated
gen.if((0, codegen_1._) `${names_1.default.errors} === 0`, () => gen.return(names_1.default.data), () => gen.throw((0, codegen_1._) `new ${ValidationError}(${names_1.default.vErrors})`));
}
else {
gen.assign((0, codegen_1._) `${validateName}.errors`, names_1.default.vErrors);
if (opts.unevaluated)
assignEvaluated(it);
gen.return((0, codegen_1._) `${names_1.default.errors} === 0`);
}
}
function assignEvaluated({ gen, evaluated, props, items }) {
if (props instanceof codegen_1.Name)
gen.assign((0, codegen_1._) `${evaluated}.props`, props);
if (items instanceof codegen_1.Name)
gen.assign((0, codegen_1._) `${evaluated}.items`, items);
}
function schemaKeywords(it, types, typeErrors, errsCount) {
const { gen, schema, data, allErrors, opts, self } = it;
const { RULES } = self;
if (schema.$ref && (opts.ignoreKeywordsWithRef || !(0, util_1.schemaHasRulesButRef)(schema, RULES))) {
gen.block(() => keywordCode(it, "$ref", RULES.all.$ref.definition)); // TODO typecast
return;
}
if (!opts.jtd)
checkStrictTypes(it, types);
gen.block(() => {
for (const group of RULES.rules)
groupKeywords(group);
groupKeywords(RULES.post);
});
function groupKeywords(group) {
if (!(0, applicability_1.shouldUseGroup)(schema, group))
return;
if (group.type) {
gen.if((0, dataType_2.checkDataType)(group.type, data, opts.strictNumbers));
iterateKeywords(it, group);
if (types.length === 1 && types[0] === group.type && typeErrors) {
gen.else();
(0, dataType_2.reportTypeError)(it);
}
gen.endIf();
}
else {
iterateKeywords(it, group);
}
// TODO make it "ok" call?
if (!allErrors)
gen.if((0, codegen_1._) `${names_1.default.errors} === ${errsCount || 0}`);
}
}
function iterateKeywords(it, group) {
const { gen, schema, opts: { useDefaults }, } = it;
if (useDefaults)
(0, defaults_1.assignDefaults)(it, group.type);
gen.block(() => {
for (const rule of group.rules) {
if ((0, applicability_1.shouldUseRule)(schema, rule)) {
keywordCode(it, rule.keyword, rule.definition, group.type);
}
}
});
}
function checkStrictTypes(it, types) {
if (it.schemaEnv.meta || !it.opts.strictTypes)
return;
checkContextTypes(it, types);
if (!it.opts.allowUnionTypes)
checkMultipleTypes(it, types);
checkKeywordTypes(it, it.dataTypes);
}
function checkContextTypes(it, types) {
if (!types.length)
return;
if (!it.dataTypes.length) {
it.dataTypes = types;
return;
}
types.forEach((t) => {
if (!includesType(it.dataTypes, t)) {
strictTypesError(it, `type "${t}" not allowed by context "${it.dataTypes.join(",")}"`);
}
});
narrowSchemaTypes(it, types);
}
function checkMultipleTypes(it, ts) {
if (ts.length > 1 && !(ts.length === 2 && ts.includes("null"))) {
strictTypesError(it, "use allowUnionTypes to allow union type keyword");
}
}
function checkKeywordTypes(it, ts) {
const rules = it.self.RULES.all;
for (const keyword in rules) {
const rule = rules[keyword];
if (typeof rule == "object" && (0, applicability_1.shouldUseRule)(it.schema, rule)) {
const { type } = rule.definition;
if (type.length && !type.some((t) => hasApplicableType(ts, t))) {
strictTypesError(it, `missing type "${type.join(",")}" for keyword "${keyword}"`);
}
}
}
}
function hasApplicableType(schTs, kwdT) {
return schTs.includes(kwdT) || (kwdT === "number" && schTs.includes("integer"));
}
function includesType(ts, t) {
return ts.includes(t) || (t === "integer" && ts.includes("number"));
}
function narrowSchemaTypes(it, withTypes) {
const ts = [];
for (const t of it.dataTypes) {
if (includesType(withTypes, t))
ts.push(t);
else if (withTypes.includes("integer") && t === "number")
ts.push("integer");
}
it.dataTypes = ts;
}
function strictTypesError(it, msg) {
const schemaPath = it.schemaEnv.baseId + it.errSchemaPath;
msg += ` at "${schemaPath}" (strictTypes)`;
(0, util_1.checkStrictMode)(it, msg, it.opts.strictTypes);
}
class KeywordCxt {
constructor(it, def, keyword) {
(0, keyword_1.validateKeywordUsage)(it, def, keyword);
this.gen = it.gen;
this.allErrors = it.allErrors;
this.keyword = keyword;
this.data = it.data;
this.schema = it.schema[keyword];
this.$data = def.$data && it.opts.$data && this.schema && this.schema.$data;
this.schemaValue = (0, util_1.schemaRefOrVal)(it, this.schema, keyword, this.$data);
this.schemaType = def.schemaType;
this.parentSchema = it.schema;
this.params = {};
this.it = it;
this.def = def;
if (this.$data) {
this.schemaCode = it.gen.const("vSchema", getData(this.$data, it));
}
else {
this.schemaCode = this.schemaValue;
if (!(0, keyword_1.validSchemaType)(this.schema, def.schemaType, def.allowUndefined)) {
throw new Error(`${keyword} value must be ${JSON.stringify(def.schemaType)}`);
}
}
if ("code" in def ? def.trackErrors : def.errors !== false) {
this.errsCount = it.gen.const("_errs", names_1.default.errors);
}
}
result(condition, successAction, failAction) {
this.failResult((0, codegen_1.not)(condition), successAction, failAction);
}
failResult(condition, successAction, failAction) {
this.gen.if(condition);
if (failAction)
failAction();
else
this.error();
if (successAction) {
this.gen.else();
successAction();
if (this.allErrors)
this.gen.endIf();
}
else {
if (this.allErrors)
this.gen.endIf();
else
this.gen.else();
}
}
pass(condition, failAction) {
this.failResult((0, codegen_1.not)(condition), undefined, failAction);
}
fail(condition) {
if (condition === undefined) {
this.error();
if (!this.allErrors)
this.gen.if(false); // this branch will be removed by gen.optimize
return;
}
this.gen.if(condition);
this.error();
if (this.allErrors)
this.gen.endIf();
else
this.gen.else();
}
fail$data(condition) {
if (!this.$data)
return this.fail(condition);
const { schemaCode } = this;
this.fail((0, codegen_1._) `${schemaCode} !== undefined && (${(0, codegen_1.or)(this.invalid$data(), condition)})`);
}
error(append, errorParams, errorPaths) {
if (errorParams) {
this.setParams(errorParams);
this._error(append, errorPaths);
this.setParams({});
return;
}
this._error(append, errorPaths);
}
_error(append, errorPaths) {
;
(append ? errors_1.reportExtraError : errors_1.reportError)(this, this.def.error, errorPaths);
}
$dataError() {
(0, errors_1.reportError)(this, this.def.$dataError || errors_1.keyword$DataError);
}
reset() {
if (this.errsCount === undefined)
throw new Error('add "trackErrors" to keyword definition');
(0, errors_1.resetErrorsCount)(this.gen, this.errsCount);
}
ok(cond) {
if (!this.allErrors)
this.gen.if(cond);
}
setParams(obj, assign) {
if (assign)
Object.assign(this.params, obj);
else
this.params = obj;
}
block$data(valid, codeBlock, $dataValid = codegen_1.nil) {
this.gen.block(() => {
this.check$data(valid, $dataValid);
codeBlock();
});
}
check$data(valid = codegen_1.nil, $dataValid = codegen_1.nil) {
if (!this.$data)
return;
const { gen, schemaCode, schemaType, def } = this;
gen.if((0, codegen_1.or)((0, codegen_1._) `${schemaCode} === undefined`, $dataValid));
if (valid !== codegen_1.nil)
gen.assign(valid, true);
if (schemaType.length || def.validateSchema) {
gen.elseIf(this.invalid$data());
this.$dataError();
if (valid !== codegen_1.nil)
gen.assign(valid, false);
}
gen.else();
}
invalid$data() {
const { gen, schemaCode, schemaType, def, it } = this;
return (0, codegen_1.or)(wrong$DataType(), invalid$DataSchema());
function wrong$DataType() {
if (schemaType.length) {
/* istanbul ignore if */
if (!(schemaCode instanceof codegen_1.Name))
throw new Error("ajv implementation error");
const st = Array.isArray(schemaType) ? schemaType : [schemaType];
return (0, codegen_1._) `${(0, dataType_2.checkDataTypes)(st, schemaCode, it.opts.strictNumbers, dataType_2.DataType.Wrong)}`;
}
return codegen_1.nil;
}
function invalid$DataSchema() {
if (def.validateSchema) {
const validateSchemaRef = gen.scopeValue("validate$data", { ref: def.validateSchema }); // TODO value.code for standalone
return (0, codegen_1._) `!${validateSchemaRef}(${schemaCode})`;
}
return codegen_1.nil;
}
}
subschema(appl, valid) {
const subschema = (0, subschema_1.getSubschema)(this.it, appl);
(0, subschema_1.extendSubschemaData)(subschema, this.it, appl);
(0, subschema_1.extendSubschemaMode)(subschema, appl);
const nextContext = { ...this.it, ...subschema, items: undefined, props: undefined };
subschemaCode(nextContext, valid);
return nextContext;
}
mergeEvaluated(schemaCxt, toName) {
const { it, gen } = this;
if (!it.opts.unevaluated)
return;
if (it.props !== true && schemaCxt.props !== undefined) {
it.props = util_1.mergeEvaluated.props(gen, schemaCxt.props, it.props, toName);
}
if (it.items !== true && schemaCxt.items !== undefined) {
it.items = util_1.mergeEvaluated.items(gen, schemaCxt.items, it.items, toName);
}
}
mergeValidEvaluated(schemaCxt, valid) {
const { it, gen } = this;
if (it.opts.unevaluated && (it.props !== true || it.items !== true)) {
gen.if(valid, () => this.mergeEvaluated(schemaCxt, codegen_1.Name));
return true;
}
}
}
exports.KeywordCxt = KeywordCxt;
function keywordCode(it, keyword, def, ruleType) {
const cxt = new KeywordCxt(it, def, keyword);
if ("code" in def) {
def.code(cxt, ruleType);
}
else if (cxt.$data && def.validate) {
(0, keyword_1.funcKeywordCode)(cxt, def);
}
else if ("macro" in def) {
(0, keyword_1.macroKeywordCode)(cxt, def);
}
else if (def.compile || def.validate) {
(0, keyword_1.funcKeywordCode)(cxt, def);
}
}
const JSON_POINTER = /^\/(?:[^~]|~0|~1)*$/;
const RELATIVE_JSON_POINTER = /^([0-9]+)(#|\/(?:[^~]|~0|~1)*)?$/;
function getData($data, { dataLevel, dataNames, dataPathArr }) {
let jsonPointer;
let data;
if ($data === "")
return names_1.default.rootData;
if ($data[0] === "/") {
if (!JSON_POINTER.test($data))
throw new Error(`Invalid JSON-pointer: ${$data}`);
jsonPointer = $data;
data = names_1.default.rootData;
}
else {
const matches = RELATIVE_JSON_POINTER.exec($data);
if (!matches)
throw new Error(`Invalid JSON-pointer: ${$data}`);
const up = +matches[1];
jsonPointer = matches[2];
if (jsonPointer === "#") {
if (up >= dataLevel)
throw new Error(errorMsg("property/index", up));
return dataPathArr[dataLevel - up];
}
if (up > dataLevel)
throw new Error(errorMsg("data", up));
data = dataNames[dataLevel - up];
if (!jsonPointer)
return data;
}
let expr = data;
const segments = jsonPointer.split("/");
for (const segment of segments) {
if (segment) {
data = (0, codegen_1._) `${data}${(0, codegen_1.getProperty)((0, util_1.unescapeJsonPointer)(segment))}`;
expr = (0, codegen_1._) `${expr} && ${data}`;
}
}
return expr;
function errorMsg(pointerType, up) {
return `Cannot access ${pointerType} ${up} levels up, current level is ${dataLevel}`;
}
}
exports.getData = getData;
//# sourceMappingURL=index.js.map

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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.validateKeywordUsage = exports.validSchemaType = exports.funcKeywordCode = exports.macroKeywordCode = void 0;
const codegen_1 = require("../codegen");
const names_1 = require("../names");
const code_1 = require("../../vocabularies/code");
const errors_1 = require("../errors");
function macroKeywordCode(cxt, def) {
const { gen, keyword, schema, parentSchema, it } = cxt;
const macroSchema = def.macro.call(it.self, schema, parentSchema, it);
const schemaRef = useKeyword(gen, keyword, macroSchema);
if (it.opts.validateSchema !== false)
it.self.validateSchema(macroSchema, true);
const valid = gen.name("valid");
cxt.subschema({
schema: macroSchema,
schemaPath: codegen_1.nil,
errSchemaPath: `${it.errSchemaPath}/${keyword}`,
topSchemaRef: schemaRef,
compositeRule: true,
}, valid);
cxt.pass(valid, () => cxt.error(true));
}
exports.macroKeywordCode = macroKeywordCode;
function funcKeywordCode(cxt, def) {
var _a;
const { gen, keyword, schema, parentSchema, $data, it } = cxt;
checkAsyncKeyword(it, def);
const validate = !$data && def.compile ? def.compile.call(it.self, schema, parentSchema, it) : def.validate;
const validateRef = useKeyword(gen, keyword, validate);
const valid = gen.let("valid");
cxt.block$data(valid, validateKeyword);
cxt.ok((_a = def.valid) !== null && _a !== void 0 ? _a : valid);
function validateKeyword() {
if (def.errors === false) {
assignValid();
if (def.modifying)
modifyData(cxt);
reportErrs(() => cxt.error());
}
else {
const ruleErrs = def.async ? validateAsync() : validateSync();
if (def.modifying)
modifyData(cxt);
reportErrs(() => addErrs(cxt, ruleErrs));
}
}
function validateAsync() {
const ruleErrs = gen.let("ruleErrs", null);
gen.try(() => assignValid((0, codegen_1._) `await `), (e) => gen.assign(valid, false).if((0, codegen_1._) `${e} instanceof ${it.ValidationError}`, () => gen.assign(ruleErrs, (0, codegen_1._) `${e}.errors`), () => gen.throw(e)));
return ruleErrs;
}
function validateSync() {
const validateErrs = (0, codegen_1._) `${validateRef}.errors`;
gen.assign(validateErrs, null);
assignValid(codegen_1.nil);
return validateErrs;
}
function assignValid(_await = def.async ? (0, codegen_1._) `await ` : codegen_1.nil) {
const passCxt = it.opts.passContext ? names_1.default.this : names_1.default.self;
const passSchema = !(("compile" in def && !$data) || def.schema === false);
gen.assign(valid, (0, codegen_1._) `${_await}${(0, code_1.callValidateCode)(cxt, validateRef, passCxt, passSchema)}`, def.modifying);
}
function reportErrs(errors) {
var _a;
gen.if((0, codegen_1.not)((_a = def.valid) !== null && _a !== void 0 ? _a : valid), errors);
}
}
exports.funcKeywordCode = funcKeywordCode;
function modifyData(cxt) {
const { gen, data, it } = cxt;
gen.if(it.parentData, () => gen.assign(data, (0, codegen_1._) `${it.parentData}[${it.parentDataProperty}]`));
}
function addErrs(cxt, errs) {
const { gen } = cxt;
gen.if((0, codegen_1._) `Array.isArray(${errs})`, () => {
gen
.assign(names_1.default.vErrors, (0, codegen_1._) `${names_1.default.vErrors} === null ? ${errs} : ${names_1.default.vErrors}.concat(${errs})`)
.assign(names_1.default.errors, (0, codegen_1._) `${names_1.default.vErrors}.length`);
(0, errors_1.extendErrors)(cxt);
}, () => cxt.error());
}
function checkAsyncKeyword({ schemaEnv }, def) {
if (def.async && !schemaEnv.$async)
throw new Error("async keyword in sync schema");
}
function useKeyword(gen, keyword, result) {
if (result === undefined)
throw new Error(`keyword "${keyword}" failed to compile`);
return gen.scopeValue("keyword", typeof result == "function" ? { ref: result } : { ref: result, code: (0, codegen_1.stringify)(result) });
}
function validSchemaType(schema, schemaType, allowUndefined = false) {
// TODO add tests
return (!schemaType.length ||
schemaType.some((st) => st === "array"
? Array.isArray(schema)
: st === "object"
? schema && typeof schema == "object" && !Array.isArray(schema)
: typeof schema == st || (allowUndefined && typeof schema == "undefined")));
}
exports.validSchemaType = validSchemaType;
function validateKeywordUsage({ schema, opts, self, errSchemaPath }, def, keyword) {
/* istanbul ignore if */
if (Array.isArray(def.keyword) ? !def.keyword.includes(keyword) : def.keyword !== keyword) {
throw new Error("ajv implementation error");
}
const deps = def.dependencies;
if (deps === null || deps === void 0 ? void 0 : deps.some((kwd) => !Object.prototype.hasOwnProperty.call(schema, kwd))) {
throw new Error(`parent schema must have dependencies of ${keyword}: ${deps.join(",")}`);
}
if (def.validateSchema) {
const valid = def.validateSchema(schema[keyword]);
if (!valid) {
const msg = `keyword "${keyword}" value is invalid at path "${errSchemaPath}": ` +
self.errorsText(def.validateSchema.errors);
if (opts.validateSchema === "log")
self.logger.error(msg);
else
throw new Error(msg);
}
}
}
exports.validateKeywordUsage = validateKeywordUsage;
//# sourceMappingURL=keyword.js.map

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extracted-source/node_modules/ajv/dist/compile/validate/subschema.js generated vendored Normal file
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@@ -0,0 +1,81 @@
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.extendSubschemaMode = exports.extendSubschemaData = exports.getSubschema = void 0;
const codegen_1 = require("../codegen");
const util_1 = require("../util");
function getSubschema(it, { keyword, schemaProp, schema, schemaPath, errSchemaPath, topSchemaRef }) {
if (keyword !== undefined && schema !== undefined) {
throw new Error('both "keyword" and "schema" passed, only one allowed');
}
if (keyword !== undefined) {
const sch = it.schema[keyword];
return schemaProp === undefined
? {
schema: sch,
schemaPath: (0, codegen_1._) `${it.schemaPath}${(0, codegen_1.getProperty)(keyword)}`,
errSchemaPath: `${it.errSchemaPath}/${keyword}`,
}
: {
schema: sch[schemaProp],
schemaPath: (0, codegen_1._) `${it.schemaPath}${(0, codegen_1.getProperty)(keyword)}${(0, codegen_1.getProperty)(schemaProp)}`,
errSchemaPath: `${it.errSchemaPath}/${keyword}/${(0, util_1.escapeFragment)(schemaProp)}`,
};
}
if (schema !== undefined) {
if (schemaPath === undefined || errSchemaPath === undefined || topSchemaRef === undefined) {
throw new Error('"schemaPath", "errSchemaPath" and "topSchemaRef" are required with "schema"');
}
return {
schema,
schemaPath,
topSchemaRef,
errSchemaPath,
};
}
throw new Error('either "keyword" or "schema" must be passed');
}
exports.getSubschema = getSubschema;
function extendSubschemaData(subschema, it, { dataProp, dataPropType: dpType, data, dataTypes, propertyName }) {
if (data !== undefined && dataProp !== undefined) {
throw new Error('both "data" and "dataProp" passed, only one allowed');
}
const { gen } = it;
if (dataProp !== undefined) {
const { errorPath, dataPathArr, opts } = it;
const nextData = gen.let("data", (0, codegen_1._) `${it.data}${(0, codegen_1.getProperty)(dataProp)}`, true);
dataContextProps(nextData);
subschema.errorPath = (0, codegen_1.str) `${errorPath}${(0, util_1.getErrorPath)(dataProp, dpType, opts.jsPropertySyntax)}`;
subschema.parentDataProperty = (0, codegen_1._) `${dataProp}`;
subschema.dataPathArr = [...dataPathArr, subschema.parentDataProperty];
}
if (data !== undefined) {
const nextData = data instanceof codegen_1.Name ? data : gen.let("data", data, true); // replaceable if used once?
dataContextProps(nextData);
if (propertyName !== undefined)
subschema.propertyName = propertyName;
// TODO something is possibly wrong here with not changing parentDataProperty and not appending dataPathArr
}
if (dataTypes)
subschema.dataTypes = dataTypes;
function dataContextProps(_nextData) {
subschema.data = _nextData;
subschema.dataLevel = it.dataLevel + 1;
subschema.dataTypes = [];
it.definedProperties = new Set();
subschema.parentData = it.data;
subschema.dataNames = [...it.dataNames, _nextData];
}
}
exports.extendSubschemaData = extendSubschemaData;
function extendSubschemaMode(subschema, { jtdDiscriminator, jtdMetadata, compositeRule, createErrors, allErrors }) {
if (compositeRule !== undefined)
subschema.compositeRule = compositeRule;
if (createErrors !== undefined)
subschema.createErrors = createErrors;
if (allErrors !== undefined)
subschema.allErrors = allErrors;
subschema.jtdDiscriminator = jtdDiscriminator; // not inherited
subschema.jtdMetadata = jtdMetadata; // not inherited
}
exports.extendSubschemaMode = extendSubschemaMode;
//# sourceMappingURL=subschema.js.map