Files
QSfera/Server/vendor/github.com/open-policy-agent/opa/v1/topdown/aggregates.go
T
Курнат Андрей 2315f25754 Initial QSfera import
2026-06-07 10:20:04 +03:00

307 lines
8.1 KiB
Go

// Copyright 2016 The OPA Authors. All rights reserved.
// Use of this source code is governed by an Apache2
// license that can be found in the LICENSE file.
package topdown
import (
"math/big"
"github.com/open-policy-agent/opa/v1/ast"
"github.com/open-policy-agent/opa/v1/topdown/builtins"
)
func builtinCount(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
switch a := operands[0].Value.(type) {
case *ast.Array:
return iter(ast.InternedTerm(a.Len()))
case ast.Object:
return iter(ast.InternedTerm(a.Len()))
case ast.Set:
return iter(ast.InternedTerm(a.Len()))
case ast.String:
return iter(ast.InternedTerm(len([]rune(a))))
}
return builtins.NewOperandTypeErr(1, operands[0].Value, "array", "object", "set", "string")
}
func builtinSum(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
switch a := operands[0].Value.(type) {
case *ast.Array:
// Fast path for arrays of integers
is := 0
nonInts := a.Until(func(x *ast.Term) bool {
if n, ok := x.Value.(ast.Number); ok {
if i, ok := n.Int(); ok {
is += i
return false
}
}
return true
})
if !nonInts {
return iter(ast.InternedTerm(is))
}
// Non-integer values found, so we need to sum as floats.
sum := big.NewFloat(0)
tmp := new(big.Float)
err := a.Iter(func(x *ast.Term) error {
n, ok := x.Value.(ast.Number)
if !ok {
return builtins.NewOperandElementErr(1, a, x.Value, "number")
}
sum = new(big.Float).Add(sum, builtins.NumberToFloatInto(tmp, n))
return nil
})
if err != nil {
return err
}
return iter(ast.NewTerm(builtins.FloatToNumber(sum)))
case ast.Set:
// Fast path for sets of integers
is := 0
nonInts := a.Until(func(x *ast.Term) bool {
if n, ok := x.Value.(ast.Number); ok {
if i, ok := n.Int(); ok {
is += i
return false
}
}
return true
})
if !nonInts {
return iter(ast.InternedTerm(is))
}
sum := big.NewFloat(0)
tmp := new(big.Float)
err := a.Iter(func(x *ast.Term) error {
n, ok := x.Value.(ast.Number)
if !ok {
return builtins.NewOperandElementErr(1, a, x.Value, "number")
}
sum = new(big.Float).Add(sum, builtins.NumberToFloatInto(tmp, n))
return nil
})
if err != nil {
return err
}
return iter(ast.NewTerm(builtins.FloatToNumber(sum)))
}
return builtins.NewOperandTypeErr(1, operands[0].Value, "set", "array")
}
func builtinProduct(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
switch a := operands[0].Value.(type) {
case *ast.Array:
product := big.NewFloat(1)
tmp := new(big.Float)
err := a.Iter(func(x *ast.Term) error {
n, ok := x.Value.(ast.Number)
if !ok {
return builtins.NewOperandElementErr(1, a, x.Value, "number")
}
product = new(big.Float).Mul(product, builtins.NumberToFloatInto(tmp, n))
return nil
})
if err != nil {
return err
}
return iter(ast.NewTerm(builtins.FloatToNumber(product)))
case ast.Set:
product := big.NewFloat(1)
tmp := new(big.Float)
err := a.Iter(func(x *ast.Term) error {
n, ok := x.Value.(ast.Number)
if !ok {
return builtins.NewOperandElementErr(1, a, x.Value, "number")
}
product = new(big.Float).Mul(product, builtins.NumberToFloatInto(tmp, n))
return nil
})
if err != nil {
return err
}
return iter(ast.NewTerm(builtins.FloatToNumber(product)))
}
return builtins.NewOperandTypeErr(1, operands[0].Value, "set", "array")
}
func builtinMax(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
switch a := operands[0].Value.(type) {
case *ast.Array:
if a.Len() == 0 {
return nil
}
max := ast.InternedNullTerm.Value
a.Foreach(func(x *ast.Term) {
if ast.Compare(max, x.Value) <= 0 {
max = x.Value
}
})
return iter(ast.NewTerm(max))
case ast.Set:
if a.Len() == 0 {
return nil
}
max, err := a.Reduce(ast.InternedNullTerm, func(max *ast.Term, elem *ast.Term) (*ast.Term, error) {
if ast.Compare(max, elem) <= 0 {
return elem, nil
}
return max, nil
})
if err != nil {
return err
}
return iter(max)
}
return builtins.NewOperandTypeErr(1, operands[0].Value, "set", "array")
}
func builtinMin(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
switch a := operands[0].Value.(type) {
case *ast.Array:
if a.Len() == 0 {
return nil
}
min := a.Elem(0).Value
a.Foreach(func(x *ast.Term) {
if ast.Compare(min, x.Value) >= 0 {
min = x.Value
}
})
return iter(ast.NewTerm(min))
case ast.Set:
if a.Len() == 0 {
return nil
}
min, err := a.Reduce(ast.InternedNullTerm, func(min *ast.Term, elem *ast.Term) (*ast.Term, error) {
// The null term is considered to be less than any other term,
// so in order for min of a set to make sense, we need to check
// for it.
if min.Value.Compare(ast.InternedNullValue) == 0 {
return elem, nil
}
if ast.Compare(min, elem) >= 0 {
return elem, nil
}
return min, nil
})
if err != nil {
return err
}
return iter(min)
}
return builtins.NewOperandTypeErr(1, operands[0].Value, "set", "array")
}
func builtinSort(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
switch a := operands[0].Value.(type) {
case *ast.Array:
return iter(ast.NewTerm(a.Sorted()))
case ast.Set:
return iter(ast.NewTerm(a.Sorted()))
}
return builtins.NewOperandTypeErr(1, operands[0].Value, "set", "array")
}
func builtinAll(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
switch val := operands[0].Value.(type) {
case ast.Set:
res := true
match := ast.InternedTerm(true)
val.Until(func(term *ast.Term) bool {
if !match.Equal(term) {
res = false
return true
}
return false
})
return iter(ast.InternedTerm(res))
case *ast.Array:
res := true
match := ast.InternedTerm(true)
val.Until(func(term *ast.Term) bool {
if !match.Equal(term) {
res = false
return true
}
return false
})
return iter(ast.InternedTerm(res))
default:
return builtins.NewOperandTypeErr(1, operands[0].Value, "array", "set")
}
}
func builtinAny(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
switch val := operands[0].Value.(type) {
case ast.Set:
res := val.Len() > 0 && val.Contains(ast.InternedTerm(true))
return iter(ast.InternedTerm(res))
case *ast.Array:
res := false
match := ast.InternedTerm(true)
val.Until(func(term *ast.Term) bool {
if match.Equal(term) {
res = true
return true
}
return false
})
return iter(ast.InternedTerm(res))
default:
return builtins.NewOperandTypeErr(1, operands[0].Value, "array", "set")
}
}
func builtinMember(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
containee := operands[0]
switch c := operands[1].Value.(type) {
case ast.Set:
return iter(ast.InternedTerm(c.Contains(containee)))
case *ast.Array:
for i := range c.Len() {
if c.Elem(i).Value.Compare(containee.Value) == 0 {
return iter(ast.InternedTerm(true))
}
}
return iter(ast.InternedTerm(false))
case ast.Object:
return iter(ast.InternedTerm(c.Until(func(_, v *ast.Term) bool {
return v.Value.Compare(containee.Value) == 0
})))
}
return iter(ast.InternedTerm(false))
}
func builtinMemberWithKey(_ BuiltinContext, operands []*ast.Term, iter func(*ast.Term) error) error {
key, val := operands[0], operands[1]
switch c := operands[2].Value.(type) {
case interface{ Get(*ast.Term) *ast.Term }:
ret := false
if act := c.Get(key); act != nil {
ret = act.Value.Compare(val.Value) == 0
}
return iter(ast.InternedTerm(ret))
}
return iter(ast.InternedTerm(false))
}
func init() {
RegisterBuiltinFunc(ast.Count.Name, builtinCount)
RegisterBuiltinFunc(ast.Sum.Name, builtinSum)
RegisterBuiltinFunc(ast.Product.Name, builtinProduct)
RegisterBuiltinFunc(ast.Max.Name, builtinMax)
RegisterBuiltinFunc(ast.Min.Name, builtinMin)
RegisterBuiltinFunc(ast.Sort.Name, builtinSort)
RegisterBuiltinFunc(ast.Any.Name, builtinAny)
RegisterBuiltinFunc(ast.All.Name, builtinAll)
RegisterBuiltinFunc(ast.Member.Name, builtinMember)
RegisterBuiltinFunc(ast.MemberWithKey.Name, builtinMemberWithKey)
}