// Code generated by github.com/99designs/gqlgen, DO NOT EDIT. package model import ( "fmt" "io" "strconv" "time" "github.com/ClusterCockpit/cc-backend/schema" ) type Accelerator struct { ID string `json:"id"` Type string `json:"type"` Model string `json:"model"` } type FilterRanges struct { Duration *IntRangeOutput `json:"duration"` NumNodes *IntRangeOutput `json:"numNodes"` StartTime *TimeRangeOutput `json:"startTime"` } type FloatRange struct { From float64 `json:"from"` To float64 `json:"to"` } type HistoPoint struct { Count int `json:"count"` Value int `json:"value"` } type IntRange struct { From int `json:"from"` To int `json:"to"` } type IntRangeOutput struct { From int `json:"from"` To int `json:"to"` } type JobFilter struct { Tags []string `json:"tags"` JobID *StringInput `json:"jobId"` User *StringInput `json:"user"` Project *StringInput `json:"project"` Cluster *StringInput `json:"cluster"` Duration *IntRange `json:"duration"` NumNodes *IntRange `json:"numNodes"` StartTime *TimeRange `json:"startTime"` State []schema.JobState `json:"state"` FlopsAnyAvg *FloatRange `json:"flopsAnyAvg"` MemBwAvg *FloatRange `json:"memBwAvg"` LoadAvg *FloatRange `json:"loadAvg"` MemUsedMax *FloatRange `json:"memUsedMax"` } type JobMetricWithName struct { Name string `json:"name"` Metric *schema.JobMetric `json:"metric"` } type JobResultList struct { Items []*schema.Job `json:"items"` Offset *int `json:"offset"` Limit *int `json:"limit"` Count *int `json:"count"` } type JobsStatistics struct { ID string `json:"id"` TotalJobs int `json:"totalJobs"` ShortJobs int `json:"shortJobs"` TotalWalltime int `json:"totalWalltime"` TotalCoreHours int `json:"totalCoreHours"` HistWalltime []*HistoPoint `json:"histWalltime"` HistNumNodes []*HistoPoint `json:"histNumNodes"` } type MetricConfig struct { Name string `json:"name"` Unit string `json:"unit"` Scope schema.MetricScope `json:"scope"` Timestep int `json:"timestep"` Peak float64 `json:"peak"` Normal float64 `json:"normal"` Caution float64 `json:"caution"` Alert float64 `json:"alert"` } type MetricFootprints struct { Name string `json:"name"` Footprints []schema.Float `json:"footprints"` } type NodeMetric struct { Name string `json:"name"` Data []schema.Float `json:"data"` } type NodeMetrics struct { ID string `json:"id"` Metrics []*NodeMetric `json:"metrics"` } type OrderByInput struct { Field string `json:"field"` Order SortDirectionEnum `json:"order"` } type PageRequest struct { ItemsPerPage int `json:"itemsPerPage"` Page int `json:"page"` } type Partition struct { Name string `json:"name"` ProcessorType string `json:"processorType"` SocketsPerNode int `json:"socketsPerNode"` CoresPerSocket int `json:"coresPerSocket"` ThreadsPerCore int `json:"threadsPerCore"` FlopRateScalar int `json:"flopRateScalar"` FlopRateSimd int `json:"flopRateSimd"` MemoryBandwidth int `json:"memoryBandwidth"` Topology *Topology `json:"topology"` } type StringInput struct { Eq *string `json:"eq"` Contains *string `json:"contains"` StartsWith *string `json:"startsWith"` EndsWith *string `json:"endsWith"` } type TimeRange struct { From *time.Time `json:"from"` To *time.Time `json:"to"` } type TimeRangeOutput struct { From time.Time `json:"from"` To time.Time `json:"to"` } type Topology struct { Node []int `json:"node"` Socket [][]int `json:"socket"` MemoryDomain [][]int `json:"memoryDomain"` Die [][]int `json:"die"` Core [][]int `json:"core"` Accelerators []*Accelerator `json:"accelerators"` } type Aggregate string const ( AggregateUser Aggregate = "USER" AggregateProject Aggregate = "PROJECT" AggregateCluster Aggregate = "CLUSTER" ) var AllAggregate = []Aggregate{ AggregateUser, AggregateProject, AggregateCluster, } func (e Aggregate) IsValid() bool { switch e { case AggregateUser, AggregateProject, AggregateCluster: return true } return false } func (e Aggregate) String() string { return string(e) } func (e *Aggregate) UnmarshalGQL(v interface{}) error { str, ok := v.(string) if !ok { return fmt.Errorf("enums must be strings") } *e = Aggregate(str) if !e.IsValid() { return fmt.Errorf("%s is not a valid Aggregate", str) } return nil } func (e Aggregate) MarshalGQL(w io.Writer) { fmt.Fprint(w, strconv.Quote(e.String())) } type SortDirectionEnum string const ( SortDirectionEnumDesc SortDirectionEnum = "DESC" SortDirectionEnumAsc SortDirectionEnum = "ASC" ) var AllSortDirectionEnum = []SortDirectionEnum{ SortDirectionEnumDesc, SortDirectionEnumAsc, } func (e SortDirectionEnum) IsValid() bool { switch e { case SortDirectionEnumDesc, SortDirectionEnumAsc: return true } return false } func (e SortDirectionEnum) String() string { return string(e) } func (e *SortDirectionEnum) UnmarshalGQL(v interface{}) error { str, ok := v.(string) if !ok { return fmt.Errorf("enums must be strings") } *e = SortDirectionEnum(str) if !e.IsValid() { return fmt.Errorf("%s is not a valid SortDirectionEnum", str) } return nil } func (e SortDirectionEnum) MarshalGQL(w io.Writer) { fmt.Fprint(w, strconv.Quote(e.String())) }