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range.go
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range.go
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// Copyright (c) 2020 Uber Technologies, Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package dosa
import (
"bytes"
"github.com/pkg/errors"
)
const (
// AdaptiveRangeLimit is a sentinel value that is used to indicate an intent
// to range over data in a partition as fast as possible. The server will
// determine an appropriate limit to use to range over the partition as fast
// as possible while ensuring the server remains healthy.
AdaptiveRangeLimit = -1
)
// RangeOp is used to specify constraints to Range calls
type RangeOp struct {
pager
conditioner
}
// NewRangeOp returns a new RangeOp instance
func NewRangeOp(object DomainObject) *RangeOp {
rop := &RangeOp{
conditioner: conditioner{
object: object,
conditions: map[string][]*Condition{},
},
}
return rop
}
// Limit sets the number of rows returned per call. Default is 100
func (r *RangeOp) Limit(n int) *RangeOp {
r.limit = n
return r
}
// Offset sets the pagination token. If not set, an empty token would be used.
func (r *RangeOp) Offset(token string) *RangeOp {
r.token = token
return r
}
// Fields list the non-key fields users want to fetch.
// PrimaryKey fields are always fetched.
func (r *RangeOp) Fields(fields []string) *RangeOp {
r.fieldsToRead = fields
return r
}
// String satisfies the Stringer interface
func (r *RangeOp) String() string {
result := &bytes.Buffer{}
result.WriteString(ConditionsString(r.conditions))
addLimitTokenString(result, r.limit, r.token)
return result.String()
}
// Eq is used to express an equality constraint for a range query
func (r *RangeOp) Eq(fieldName string, value interface{}) *RangeOp {
r.appendOp(Eq, fieldName, value)
return r
}
// Gt is used to express an "greater than" constraint for a range query
func (r *RangeOp) Gt(fieldName string, value interface{}) *RangeOp {
r.appendOp(Gt, fieldName, value)
return r
}
// GtOrEq is used to express an "greater than or equal" constraint for a
// range query
func (r *RangeOp) GtOrEq(fieldName string, value interface{}) *RangeOp {
r.appendOp(GtOrEq, fieldName, value)
return r
}
// Lt is used to express a "less than" constraint for a range query
func (r *RangeOp) Lt(fieldName string, value interface{}) *RangeOp {
r.appendOp(Lt, fieldName, value)
return r
}
// LtOrEq is used to express a "less than or equal" constraint for a
// range query
func (r *RangeOp) LtOrEq(fieldName string, value interface{}) *RangeOp {
r.appendOp(LtOrEq, fieldName, value)
return r
}
// Conditions returns all conditions embedded in the range operator
func (r *RangeOp) Conditions() map[string][]*Condition {
return r.conditions
}
// LimitRows returns number of rows to return per call
func (r *RangeOp) LimitRows() int {
return r.limit
}
// IndexFromConditions returns the name of the index or the base table to use, along with the key info
// for that index. If no suitable index could be found, an error is returned
func (ei *EntityInfo) IndexFromConditions(conditions map[string][]*Condition, searchIndexes bool) (name string, key *PrimaryKey, err error) {
// see if we match the primary key for this table
var baseTableError error
if baseTableError = EnsureValidRangeConditions(ei.Def, ei.Def.Key, conditions, nil); baseTableError == nil {
return ei.Def.Name, ei.Def.Key, nil
}
if searchIndexes == false || len(ei.Def.Indexes) == 0 {
return "", nil, baseTableError
}
// see if we match an index on this table
var indexDef *IndexDefinition
for name, indexDef = range ei.Def.Indexes {
key = indexDef.Key
// we check the range conditions before adding the uniqueness columns
if err := EnsureValidRangeConditions(ei.Def, key, conditions, nil); err == nil {
return name, ei.Def.UniqueKey(key), nil
}
}
// none of the indexes work, so fail
return "", nil, errors.Wrapf(baseTableError, "No index matches specified conditions")
}