mirror of
https://github.com/cgrates/cgrates.git
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218 lines
8.8 KiB
Go
218 lines
8.8 KiB
Go
/*
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Real-time Online/Offline Charging System (OCS) for Telecom & ISP environments
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Copyright (C) ITsysCOM GmbH
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>
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*/
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package engine
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import (
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"fmt"
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"sort"
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"strings"
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"github.com/cgrates/cgrates/config"
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"github.com/cgrates/cgrates/utils"
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)
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// SupplierReply represents one supplier in
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type SortedSupplier struct {
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SupplierID string
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SupplierParameters string
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SortingData map[string]interface{} // store here extra info like cost or stats
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}
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// SuppliersReply is returned as part of GetSuppliers call
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type SortedSuppliers struct {
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ProfileID string // Profile matched
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Sorting string // Sorting algorithm
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Count int // number of suppliers returned
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SortedSuppliers []*SortedSupplier // list of supplier IDs and SortingData data
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}
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// SupplierIDs returns list of suppliers
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func (sSpls *SortedSuppliers) SupplierIDs() (sIDs []string) {
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sIDs = make([]string, len(sSpls.SortedSuppliers))
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for i, spl := range sSpls.SortedSuppliers {
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sIDs[i] = spl.SupplierID
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}
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return
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}
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// SupplierIDs returns list of suppliers
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func (sSpls *SortedSuppliers) SuppliersWithParams() (sPs []string) {
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sPs = make([]string, len(sSpls.SortedSuppliers))
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for i, spl := range sSpls.SortedSuppliers {
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sPs[i] = spl.SupplierID
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if spl.SupplierParameters != "" {
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sPs[i] += utils.InInFieldSep + spl.SupplierParameters
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}
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}
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return
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}
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// SortWeight is part of sort interface, sort based on Weight
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func (sSpls *SortedSuppliers) SortWeight() {
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sort.Slice(sSpls.SortedSuppliers, func(i, j int) bool {
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return sSpls.SortedSuppliers[i].SortingData[utils.Weight].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.Weight].(float64)
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})
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}
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// SortLeastCost is part of sort interface,
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// sort ascendent based on Cost with fallback on Weight
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func (sSpls *SortedSuppliers) SortLeastCost() {
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sort.Slice(sSpls.SortedSuppliers, func(i, j int) bool {
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if sSpls.SortedSuppliers[i].SortingData[utils.Cost].(float64) == sSpls.SortedSuppliers[j].SortingData[utils.Cost].(float64) {
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return sSpls.SortedSuppliers[i].SortingData[utils.Weight].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.Weight].(float64)
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}
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return sSpls.SortedSuppliers[i].SortingData[utils.Cost].(float64) < sSpls.SortedSuppliers[j].SortingData[utils.Cost].(float64)
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})
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}
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// SortHighestCost is part of sort interface,
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// sort descendent based on Cost with fallback on Weight
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func (sSpls *SortedSuppliers) SortHighestCost() {
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sort.Slice(sSpls.SortedSuppliers, func(i, j int) bool {
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if sSpls.SortedSuppliers[i].SortingData[utils.Cost].(float64) == sSpls.SortedSuppliers[j].SortingData[utils.Cost].(float64) {
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return sSpls.SortedSuppliers[i].SortingData[utils.Weight].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.Weight].(float64)
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}
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return sSpls.SortedSuppliers[i].SortingData[utils.Cost].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.Cost].(float64)
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})
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}
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// SortQOS is part of sort interface,
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// sort based on Stats
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func (sSpls *SortedSuppliers) SortQOS(params []string) {
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//sort suppliers
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sort.Slice(sSpls.SortedSuppliers, func(i, j int) bool {
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for _, param := range params {
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//in case we have the same value for the current param we skip to the next one
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if sSpls.SortedSuppliers[i].SortingData[param].(float64) == sSpls.SortedSuppliers[j].SortingData[param].(float64) {
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continue
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}
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switch param {
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default:
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if sSpls.SortedSuppliers[i].SortingData[param].(float64) > sSpls.SortedSuppliers[j].SortingData[param].(float64) {
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return true
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}
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return false
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case utils.MetaPDD: //in case of pdd the smalles value if the best
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if sSpls.SortedSuppliers[i].SortingData[param].(float64) < sSpls.SortedSuppliers[j].SortingData[param].(float64) {
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return true
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}
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return false
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}
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}
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//in case that we have the same value for all params we sort base on weight
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return sSpls.SortedSuppliers[i].SortingData[utils.Weight].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.Weight].(float64)
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})
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}
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// SortResourceAscendent is part of sort interface,
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// sort ascendent based on ResourceUsage with fallback on Weight
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func (sSpls *SortedSuppliers) SortResourceAscendent() {
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sort.Slice(sSpls.SortedSuppliers, func(i, j int) bool {
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if sSpls.SortedSuppliers[i].SortingData[utils.ResourceUsage].(float64) == sSpls.SortedSuppliers[j].SortingData[utils.ResourceUsage].(float64) {
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return sSpls.SortedSuppliers[i].SortingData[utils.Weight].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.Weight].(float64)
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}
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return sSpls.SortedSuppliers[i].SortingData[utils.ResourceUsage].(float64) < sSpls.SortedSuppliers[j].SortingData[utils.ResourceUsage].(float64)
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})
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}
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// SortResourceDescendent is part of sort interface,
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// sort descendent based on ResourceUsage with fallback on Weight
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func (sSpls *SortedSuppliers) SortResourceDescendent() {
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sort.Slice(sSpls.SortedSuppliers, func(i, j int) bool {
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if sSpls.SortedSuppliers[i].SortingData[utils.ResourceUsage].(float64) == sSpls.SortedSuppliers[j].SortingData[utils.ResourceUsage].(float64) {
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return sSpls.SortedSuppliers[i].SortingData[utils.Weight].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.Weight].(float64)
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}
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return sSpls.SortedSuppliers[i].SortingData[utils.ResourceUsage].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.ResourceUsage].(float64)
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})
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}
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// SortLoadDistribution is part of sort interface,
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// sort based on the following formula (float64(ratio + metricVal) / float64(ratio)) -1 with fallback on Weight
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func (sSpls *SortedSuppliers) SortLoadDistribution() {
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sort.Slice(sSpls.SortedSuppliers, func(i, j int) bool {
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splIVal := ((sSpls.SortedSuppliers[i].SortingData[utils.Ratio].(float64)+sSpls.SortedSuppliers[i].SortingData[utils.LoadValue].(float64))/sSpls.SortedSuppliers[i].SortingData[utils.Ratio].(float64) - 1.0)
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splJVal := ((sSpls.SortedSuppliers[j].SortingData[utils.Ratio].(float64)+sSpls.SortedSuppliers[j].SortingData[utils.LoadValue].(float64))/sSpls.SortedSuppliers[j].SortingData[utils.Ratio].(float64) - 1.0)
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if splIVal == splJVal {
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return sSpls.SortedSuppliers[i].SortingData[utils.Weight].(float64) > sSpls.SortedSuppliers[j].SortingData[utils.Weight].(float64)
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}
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return splIVal < splJVal
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})
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}
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// Digest returns list of supplierIDs + parameters for easier outside access
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// format suppl1:suppl1params,suppl2:suppl2params
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func (sSpls *SortedSuppliers) Digest() string {
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return strings.Join(sSpls.SuppliersWithParams(), utils.FIELDS_SEP)
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}
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func (sSpls *SortedSuppliers) AsNavigableMap() (nm *config.NavigableMap) {
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mp := map[string]interface{}{
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"ProfileID": sSpls.ProfileID,
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"Sorting": sSpls.Sorting,
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"Count": sSpls.Count,
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}
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sm := make([]map[string]interface{}, len(sSpls.SortedSuppliers))
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for i, ss := range sSpls.SortedSuppliers {
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sm[i] = map[string]interface{}{
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"SupplierID": ss.SupplierID,
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"SupplierParameters": ss.SupplierParameters,
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"SortingData": ss.SortingData,
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}
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}
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mp["SortedSuppliers"] = sm
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return config.NewNavigableMap(mp)
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}
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type SupplierWithParams struct {
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SupplierName string
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SupplierParams string
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}
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// SuppliersSorter is the interface which needs to be implemented by supplier sorters
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type SuppliersSorter interface {
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SortSuppliers(string, []*Supplier, *utils.CGREvent, *optsGetSuppliers) (*SortedSuppliers, error)
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}
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// NewSupplierSortDispatcher constructs SupplierSortDispatcher
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func NewSupplierSortDispatcher(lcrS *SupplierService) (ssd SupplierSortDispatcher, err error) {
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ssd = make(map[string]SuppliersSorter)
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ssd[utils.MetaWeight] = NewWeightSorter(lcrS)
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ssd[utils.MetaLC] = NewLeastCostSorter(lcrS)
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ssd[utils.MetaHC] = NewHighestCostSorter(lcrS)
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ssd[utils.MetaQOS] = NewQOSSupplierSorter(lcrS)
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ssd[utils.MetaReas] = NewResourceAscendetSorter(lcrS)
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ssd[utils.MetaReds] = NewResourceDescendentSorter(lcrS)
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ssd[utils.MetaLoad] = NewLoadDistributionSorter(lcrS)
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return
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}
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// SupplierStrategyHandler will initialize strategies
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// and dispatch requests to them
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type SupplierSortDispatcher map[string]SuppliersSorter
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func (ssd SupplierSortDispatcher) SortSuppliers(prflID, strategy string,
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suppls []*Supplier, suplEv *utils.CGREvent, extraOpts *optsGetSuppliers) (sortedSuppls *SortedSuppliers, err error) {
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sd, has := ssd[strategy]
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if !has {
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return nil, fmt.Errorf("unsupported sorting strategy: %s", strategy)
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}
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return sd.SortSuppliers(prflID, suppls, suplEv, extraOpts)
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}
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