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|
package filter
import (
"errors"
"fmt"
"regexp"
"strings"
)
type context struct {
get VariableGetter
}
// VariableGetter is a function type that is used to retrieve the value of a variable
// by its name. It takes a single string argument (the name of the variable) and
// returns a pointer to a Value instance that represents the value of the variable.
type VariableGetter func(name string) *Value
var ErrInvalidOperatorOrOperands = errors.New("invalid operator or operands")
func (x *term) eval(ctx context) (*value, error) {
switch {
case x.Value != nil:
return x.Value, nil
case x.SymbolRef != nil:
return ctx.get(x.SymbolRef.Symbol).tovalue(x.SymbolRef.Symbol)
default:
return x.SubExpression.eval(ctx)
}
}
func (x *compare) eval(t *term, ctx context) (*value, error) {
v1, err := t.eval(ctx)
if err != nil {
return nil, err
}
v2, err := x.Operand.eval(ctx)
if err != nil {
return nil, err
}
op := x.Operator
r := false
switch {
case v1.Num() != nil && v2.Num() != nil:
n1, n2 := *v1.Num(), *v2.Num()
switch op {
case "!=", "<>":
r = n1 != n2
case "<=":
r = n1 <= n2
case ">=":
r = n1 >= n2
case "=":
r = n1 == n2
case "<":
r = n1 < n2
case ">":
r = n1 > n2
default:
return nil, ErrInvalidOperatorOrOperands
}
return boolValue(r), nil
case v1.Text != nil && v2.Text != nil:
t1, t2 := *v1.Text, *v2.Text
switch op {
case "!=", "<>":
r = t1 != t2
case "<=":
r = t1 <= t2
case ">=":
r = t1 >= t2
case "=":
r = t1 == t2
case "<":
r = t1 < t2
case ">":
r = t1 > t2
default:
return nil, ErrInvalidOperatorOrOperands
}
return boolValue(r), nil
case v1.Boolean != nil && v2.Boolean != nil:
b1, b2 := *v1.Boolean, *v2.Boolean
switch op {
case "!=", "<>":
r = b1 != b2
case "=":
r = b1 == b2
default:
return nil, ErrInvalidOperatorOrOperands
}
return boolValue(r), nil
}
return nil, ErrInvalidOperatorOrOperands
}
func (x *between) eval(t *term, ctx context) (*value, error) {
v1, err := t.eval(ctx)
if err != nil {
return nil, err
}
v2, err := x.Start.eval(ctx)
if err != nil {
return nil, err
}
v3, err := x.End.eval(ctx)
if err != nil {
return nil, err
}
switch {
case v1.Num() != nil && v2.Num() != nil && v3.Num() != nil:
n1, n2, n3 := *v1.Num(), *v2.Num(), *v3.Num()
return boolValue(n1 >= n2 && n1 <= n3), nil
case v1.Text != nil && v2.Text != nil && v3.Text != nil:
t1, t2, t3 := *v1.Text, *v2.Text, *v3.Text
return boolValue(t1 >= t2 && t1 <= t3), nil
}
return nil, ErrInvalidOperatorOrOperands
}
func (x *in) eval(t *term, ctx context) (*value, error) {
v1, err := t.eval(ctx)
if err != nil {
return nil, err
}
for _, o := range x.Expressions {
if v2, err := o.eval(ctx); err != nil {
return nil, err
} else {
switch {
case v1.Num() != nil && v2.Num() != nil:
n1, n2 := *v1.Num(), *v2.Num()
if n1 == n2 {
return boolValue(true), nil
}
case v1.Text != nil && v2.Text != nil:
t1, t2 := *v1.Text, *v2.Text
if t1 == t2 {
return boolValue(true), nil
}
case v1.Boolean != nil && v2.Boolean != nil:
b1, b2 := v1.Bool(), v2.Bool()
if b1 == b2 {
return boolValue(true), nil
}
default:
fmt.Println(v1, v2)
return nil, ErrInvalidOperatorOrOperands
}
}
}
return boolValue(false), nil
}
func not(value *value, err error) (*value, error) {
return boolValue(!value.Bool()), err
}
func likeToRegex(text string, caseInsensitive bool) *regexp.Regexp {
ex := regexp.QuoteMeta(text)
ex = strings.ReplaceAll(ex, "%", ".*")
ex = strings.ReplaceAll(ex, "_", ".")
ex = "^" + ex + "$"
if caseInsensitive {
ex = "(?i)^" + ex
}
return regexp.MustCompile(ex)
}
func (x *conditionRHS) eval(t *term, ctx context) (*value, error) {
r := false
switch {
case x.Compare != nil:
return x.Compare.eval(t, ctx)
case x.Between != nil:
if x.Not {
return not(x.Between.eval(t, ctx))
} else {
return x.Between.eval(t, ctx)
}
case x.In != nil:
if x.Not {
return not(x.In.eval(t, ctx))
} else {
return x.In.eval(t, ctx)
}
}
// *like
// assume regex is static
if x.likeCache == nil {
switch {
case x.Like != nil:
v2, err := x.Like.eval(ctx)
if err != nil {
return nil, err
}
x.likeCache = likeToRegex(v2.String(), false)
case x.Ilike != nil:
v2, err := x.Ilike.eval(ctx)
if err != nil {
return nil, err
}
x.likeCache = likeToRegex(v2.String(), true)
case x.Rlike != nil:
v2, err := x.Rlike.eval(ctx)
if err != nil {
return nil, err
}
x.likeCache = regexp.MustCompile(v2.String())
}
}
v1, err := t.eval(ctx)
if err != nil {
return nil, err
}
r = x.likeCache.MatchString(v1.String())
if x.Not {
r = !r
}
return boolValue(r), nil
}
func (x *conditionOperand) eval(ctx context) (*value, error) {
if x.ConditionRHS != nil {
return x.ConditionRHS.eval(x.Operand, ctx)
} else {
return x.Operand.eval(ctx)
}
}
func (x *condition) eval(ctx context) (*value, error) {
switch {
case x.Operand != nil:
return x.Operand.eval(ctx)
default:
if v, err := x.Not.eval(ctx); err != nil {
return nil, err
} else {
return boolValue(!v.Bool()), nil
}
}
}
func (x *andCondition) eval(ctx context) (*value, error) {
r := true
for _, o := range x.And {
if v, err := o.eval(ctx); err != nil {
return nil, err
} else {
r = r && v.Bool()
}
}
return boolValue(r), nil
}
func (x *expression) eval(ctx context) (*value, error) {
r := false
for _, o := range x.Or {
if v, err := o.eval(ctx); err != nil {
return nil, err
} else {
r = r || v.Bool()
}
}
return boolValue(r), nil
}
// FilterExpression is a parsed and compiled representation of a filter string.
// It can be used to efficiently test whether a set of variables matches the filter.
type FilterExpression struct {
expression *expression
}
// Test tests whether the set of variables provided by the getter function matches
// the filter expression. It returns a boolean value indicating whether the variables
// match the filter, as well as an error value if there was a problem evaluating the
// expression, like a type mismatch or a missing variable.
func (x *FilterExpression) Test(getter VariableGetter) (bool, error) {
ctx := context{get: getter}
if r, err := x.expression.eval(ctx); err != nil {
return false, err
} else {
return r.Bool(), nil
}
}
// CreateFilter parses the given filter string and returns a compiled FilterExpression
// that can be used to efficiently test the filter. If the filter string is not valid,
// an error is returned.
func CreateFilter(filter string) (*FilterExpression, error) {
if expr, err := parser.ParseString("", filter); err != nil {
return nil, err
} else {
return &FilterExpression{expression: expr}, nil
}
}
|
