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expr_binary.go
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/
expr_binary.go
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package rel
import (
"fmt"
"math"
"github.com/arr-ai/wbnf/parser"
"github.com/go-errors/errors"
)
type binEval func(a, b Value, local Scope) (Value, error)
// BinExpr represents a range of operators.
type BinExpr struct {
ExprScanner
a, b Expr
op string
format string
eval binEval
}
func newBinExpr(scanner parser.Scanner, a, b Expr, op, format string, eval binEval) Expr {
return &BinExpr{ExprScanner{scanner}, a, b, op, format, eval}
}
type valueEval func(a, b Value) Value
// MakeBinValExpr returns a function that creates a binExpr for the given
// logical operator.
func MakeBinValExpr(op string, eval valueEval) func(scanner parser.Scanner, a, b Expr) Expr {
return func(scanner parser.Scanner, a, b Expr) Expr {
return newBinExpr(scanner, a, b, op, "(%s "+op+" %s)",
func(a, b Value, _ Scope) (Value, error) {
return eval(a, b), nil
})
}
}
type arithEval func(a, b float64) float64
func newArithExpr(scanner parser.Scanner, a, b Expr, op string, eval arithEval) Expr {
return newBinExpr(scanner, a, b, op, "(%s "+op+" %s)",
func(a, b Value, _ Scope) (Value, error) {
if a, ok := a.(Number); ok {
if b, ok := b.(Number); ok {
return NewNumber(eval(a.Float64(), b.Float64())), nil
}
}
return nil, errors.Errorf(
"Both args to %q must be numbers, not %T and %T", op, a, b)
})
}
func addValues(a, b Value) (Value, error) {
if a, ok := a.(Number); ok {
if b, ok := b.(Number); ok {
return NewNumber(a.Float64() + b.Float64()), nil
}
}
if a, ok := a.(Tuple); ok {
if b, ok := b.(Tuple); ok {
return MergeLeftToRight(a, b), nil
}
}
if a, ok := a.(Set); ok {
if b, ok := b.(Set); ok {
return Concatenate(a, b)
}
}
return nil, errors.Errorf(
"Both args to %q must be numbers or tuples, not %T and %T",
"+", a, b)
}
// NewAddExpr evaluates a + b, given two Numbers.
func NewAddExpr(scanner parser.Scanner, a, b Expr) Expr {
return newBinExpr(scanner, a, b, "+", "(%s + %s)",
func(a, b Value, _ Scope) (Value, error) {
return addValues(a, b)
})
}
// NewSubExpr evaluates a - b, given two Numbers.
func NewSubExpr(scanner parser.Scanner, a, b Expr) Expr {
return newArithExpr(scanner, a, b, "-", func(a, b float64) float64 { return a - b })
}
// NewMulExpr evaluates a * b, given two Numbers.
func NewMulExpr(scanner parser.Scanner, a, b Expr) Expr {
return newArithExpr(scanner, a, b, "*", func(a, b float64) float64 { return a * b })
}
// NewDivExpr evaluates a / b, given two Numbers.
func NewDivExpr(scanner parser.Scanner, a, b Expr) Expr {
return newArithExpr(scanner, a, b, "/", func(a, b float64) float64 { return a / b })
}
// NewIdivExpr evaluates ⎣a / b⎦, given two Numbers.
func NewIdivExpr(scanner parser.Scanner, a, b Expr) Expr {
return newArithExpr(scanner, a, b, "/", func(a, b float64) float64 {
return math.Floor(a / b)
})
}
// NewModExpr evaluates a % b, given two Numbers.
func NewModExpr(scanner parser.Scanner, a, b Expr) Expr {
return newArithExpr(scanner, a, b, "%%", func(a, b float64) float64 {
return math.Mod(a, b)
})
}
// NewSubModExpr evaluates a % b, given two Numbers.
func NewSubModExpr(scanner parser.Scanner, a, b Expr) Expr {
return newArithExpr(scanner, a, b, "-%", func(a, b float64) float64 {
return a - math.Mod(a, b)
})
}
// NewPowExpr evaluates a to the power of b, given two Numbers.
func NewPowExpr(scanner parser.Scanner, a, b Expr) Expr {
return newArithExpr(scanner, a, b, "^", func(a, b float64) float64 {
return math.Pow(a, b)
})
}
// NewWithExpr evaluates a with b, given a set lhs.
func NewWithExpr(scanner parser.Scanner, a, b Expr) Expr {
return newBinExpr(scanner, a, b, "with", "(%s with %s)",
func(a, b Value, _ Scope) (Value, error) {
if x, ok := a.(Set); ok {
return x.With(b), nil
}
return nil, errors.Errorf("'with' lhs must be a Set, not %T", a)
})
}
// NewWithoutExpr evaluates a without b, given a set lhs.
func NewWithoutExpr(scanner parser.Scanner, a, b Expr) Expr {
return newBinExpr(scanner, a, b, "without", "(%s without %s)",
func(a, b Value, _ Scope) (Value, error) {
if x, ok := a.(Set); ok {
return x.Without(b), nil
}
return nil, errors.Errorf("'without' lhs must be a Set, not %T", a)
})
}
// NewWhereExpr evaluates a where pred, given a set lhs.
func NewWhereExpr(scanner parser.Scanner, a, pred Expr) Expr {
pred = ExprAsFunction(pred)
return newBinExpr(scanner, a, pred, "where", "(%s where %s)",
func(a, pred Value, local Scope) (Value, error) {
if x, ok := a.(Set); ok {
if p, ok := pred.(Closure); ok {
return x.Where(func(v Value) bool {
return SetCall(p, v).IsTrue()
}), nil
}
return nil, errors.Errorf("'where' rhs must be a Fn, not %T", a)
}
return nil, errors.Errorf("'where' lhs must be a Set, not %T", a)
})
}
// NewOrderByExpr evaluates a orderby key, given a set lhs, returning an array.
func NewOrderByExpr(scanner parser.Scanner, a, key Expr) Expr {
key = ExprAsFunction(key)
return newBinExpr(scanner, a, key, "order", "(%s order %s)",
func(a, key Value, local Scope) (Value, error) {
if x, ok := a.(Set); ok {
if k, ok := key.(Closure); ok {
values, err := OrderBy(x,
func(value Value) (Value, error) {
return SetCall(k, value), nil
},
func(a, b Value) bool {
return a.Less(b)
})
if err != nil {
return nil, err
}
return NewArray(values...), nil
}
return nil, errors.Errorf("'order' rhs must be a Fn, not %T", a)
}
return nil, errors.Errorf("'order' lhs must be a Set, not %T", a)
})
}
// NewOrderExpr evaluates a order less, given a set lhs, returning an array.
func NewOrderExpr(scanner parser.Scanner, a, key Expr) Expr {
key = ExprAsFunction(key)
return newBinExpr(scanner, a, key, "order", "(%s order %s)",
func(a, less Value, local Scope) (Value, error) {
if x, ok := a.(Set); ok {
if l, ok := less.(Closure); ok {
values, err := OrderBy(x,
func(value Value) (Value, error) {
return value, nil
},
func(a, b Value) bool {
return SetCall(SetCall(l, a).(Closure), b).IsTrue()
})
if err != nil {
return nil, err
}
return NewArray(values...), nil
}
return nil, errors.Errorf("'order' rhs must be a Fn, not %T", a)
}
return nil, errors.Errorf("'order' lhs must be a Set, not %T", a)
})
}
// NewRankExpr evaluates a rank tuplef, given a relation lhs, returning a new
// relation with each lhs tuple augmented by the tuplef attrs containing the
// corresponding rank.
func NewRankExpr(scanner parser.Scanner, a, key Expr) Expr {
key = ExprAsFunction(key)
return newBinExpr(scanner, a, key, "rank", "(%s rank %s)",
func(a, tuplef Value, local Scope) (Value, error) {
if x, ok := a.(Set); ok {
if l, ok := tuplef.(Closure); ok {
return Rank(x, func(v Tuple) Tuple { return SetCall(l, v).(Tuple) })
}
return nil, errors.Errorf("'order' rhs must be a Fn, not %T", a)
}
return nil, errors.Errorf("'order' lhs must be a Set, not %T", a)
})
}
func Call(a, b Value, local Scope) (Value, error) {
if x, ok := a.(Set); ok {
return SetCall(x, b), nil
}
return nil, errors.Errorf(
"call lhs must be a function, not %T", a)
}
// NewCallExpr evaluates a without b, given a set lhs.
func NewCallExpr(scanner parser.Scanner, a, b Expr) Expr {
return newBinExpr(scanner, a, b, "call", "«%s»(%s)", Call)
}
func NewCallExprCurry(scanner parser.Scanner, f Expr, args ...Expr) Expr {
for _, arg := range args {
f = NewCallExpr(scanner, f, arg)
}
return f
}
// LHS returns the left hand side of the BinExpr.
func (e *BinExpr) LHS() Expr {
return e.a
}
// RHS returns the right hand side of the BinExpr.
func (e *BinExpr) RHS() Expr {
return e.b
}
// String returns a string representation of the expression.
func (e *BinExpr) String() string {
return fmt.Sprintf(e.format, e.a, e.b)
}
// Eval returns the subject
func (e *BinExpr) Eval(local Scope) (_ Value, err error) {
defer wrapPanic(e, &err, local)
a, err := e.a.Eval(local)
if err != nil {
return nil, wrapContext(err, e, local)
}
b, err := e.b.Eval(local)
if err != nil {
return nil, wrapContext(err, e, local)
}
val, err := e.eval(a, b, local)
if err != nil {
return nil, wrapContext(err, e, local)
}
return val, nil
}