346 lines
6.7 KiB
Go
346 lines
6.7 KiB
Go
package widgets
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import (
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"os/exec"
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"sort"
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"strconv"
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"time"
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ui "github.com/cjbassi/gotop/termui"
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psCPU "github.com/shirou/gopsutil/cpu"
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psProc "github.com/shirou/gopsutil/process"
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)
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const (
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UP = "▲"
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DOWN = "▼"
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)
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// Process represents each process.
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type Process struct {
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PID int32
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Command string
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CPU float64
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Mem float32
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}
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type Proc struct {
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*ui.Table
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cpuCount int
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interval time.Duration
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sortMethod string
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groupedProcs []Process
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ungroupedProcs []Process
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group bool
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KeyPressed chan bool
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}
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func NewProc(loaded, keyPressed chan bool) *Proc {
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cpuCount, _ := psCPU.Counts(false)
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p := &Proc{
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Table: ui.NewTable(),
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interval: time.Second,
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cpuCount: cpuCount,
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sortMethod: "c",
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group: true,
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KeyPressed: keyPressed,
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}
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p.ColResizer = p.ColResize
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p.Label = "Process List"
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p.ColWidths = []int{5, 10, 4, 4}
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p.UniqueCol = 0
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if p.group {
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p.UniqueCol = 1
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}
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p.keyBinds()
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go func() {
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p.update()
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loaded <- true
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}()
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ticker := time.NewTicker(p.interval)
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go func() {
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for range ticker.C {
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p.update()
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}
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}()
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return p
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}
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func (p *Proc) update() {
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psProcesses, _ := psProc.Processes()
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processes := make([]Process, len(psProcesses))
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for i, psProcess := range psProcesses {
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pid := psProcess.Pid
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command, _ := psProcess.Name()
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cpu, _ := psProcess.CPUPercent()
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mem, _ := psProcess.MemoryPercent()
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processes[i] = Process{
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pid,
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command,
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cpu / float64(p.cpuCount),
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mem,
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}
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}
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p.ungroupedProcs = processes
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p.groupedProcs = Group(processes)
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p.Sort()
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}
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// Sort sorts either the grouped or ungrouped []Process based on the sortMethod.
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// Called with every update, when the sort method is changed, and when processes are grouped and ungrouped.
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func (p *Proc) Sort() {
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p.Header = []string{"Count", "Command", "CPU%", "Mem%"}
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if !p.group {
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p.Header[0] = "PID"
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}
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processes := &p.ungroupedProcs
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if p.group {
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processes = &p.groupedProcs
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}
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switch p.sortMethod {
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case "c":
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sort.Sort(sort.Reverse(ProcessByCPU(*processes)))
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p.Header[2] += DOWN
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case "p":
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if p.group {
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sort.Sort(sort.Reverse(ProcessByPID(*processes)))
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} else {
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sort.Sort(ProcessByPID(*processes))
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}
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p.Header[0] += DOWN
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case "m":
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sort.Sort(sort.Reverse(ProcessByMem(*processes)))
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p.Header[3] += DOWN
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}
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p.Rows = FieldsToStrings(*processes)
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}
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// ColResize overrides the default ColResize in the termui table.
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func (p *Proc) ColResize() {
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// calculate gap size based on total width
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p.Gap = 3
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if p.X < 50 {
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p.Gap = 1
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} else if p.X < 75 {
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p.Gap = 2
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}
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p.CellXPos = []int{
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p.Gap,
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p.Gap + p.ColWidths[0] + p.Gap,
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p.X - p.Gap - p.ColWidths[3] - p.Gap - p.ColWidths[2],
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p.X - p.Gap - p.ColWidths[3],
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}
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rowWidth := p.Gap + p.ColWidths[0] + p.Gap + p.ColWidths[1] + p.Gap + p.ColWidths[2] + p.Gap + p.ColWidths[3] + p.Gap
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// only renders a column if it fits
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if p.X < (rowWidth - p.Gap - p.ColWidths[3]) {
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p.ColWidths[2] = 0
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p.ColWidths[3] = 0
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} else if p.X < rowWidth {
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p.CellXPos[2] = p.CellXPos[3]
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p.ColWidths[3] = 0
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}
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}
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func (p *Proc) keyBinds() {
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ui.On("<MouseLeft>", func(e ui.Event) {
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p.Click(e.MouseX, e.MouseY)
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p.KeyPressed <- true
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})
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ui.On("<MouseWheelUp>", "<MouseWheelDown>", func(e ui.Event) {
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switch e.Key {
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case "<MouseWheelDown>":
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p.Down()
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case "<MouseWheelUp>":
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p.Up()
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}
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p.KeyPressed <- true
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})
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ui.On("<up>", "<down>", func(e ui.Event) {
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switch e.Key {
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case "<up>":
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p.Up()
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case "<down>":
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p.Down()
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}
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p.KeyPressed <- true
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})
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viKeys := []string{"j", "k", "gg", "G", "<C-d>", "<C-u>", "<C-f>", "<C-b>"}
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ui.On(viKeys, func(e ui.Event) {
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switch e.Key {
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case "j":
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p.Down()
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case "k":
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p.Up()
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case "gg":
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p.Top()
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case "G":
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p.Bottom()
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case "<C-d>":
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p.HalfPageDown()
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case "<C-u>":
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p.HalfPageUp()
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case "<C-f>":
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p.PageDown()
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case "<C-b>":
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p.PageUp()
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}
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p.KeyPressed <- true
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})
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ui.On("dd", func(e ui.Event) {
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p.Kill()
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})
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ui.On("<tab>", func(e ui.Event) {
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p.group = !p.group
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if p.group {
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p.UniqueCol = 1
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} else {
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p.UniqueCol = 0
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}
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p.sortMethod = "c"
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p.Sort()
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p.Top()
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p.KeyPressed <- true
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})
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ui.On("m", "c", "p", func(e ui.Event) {
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if p.sortMethod != e.Key {
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p.sortMethod = e.Key
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p.Top()
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p.Sort()
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p.KeyPressed <- true
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}
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})
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}
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// Group groupes a []Process based on command name.
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// The first field changes from PID to count.
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// CPU and Mem are added together for each Process.
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func Group(P []Process) []Process {
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groupedP := make(map[string]Process)
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for _, process := range P {
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val, ok := groupedP[process.Command]
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if ok {
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groupedP[process.Command] = Process{
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val.PID + 1,
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val.Command,
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val.CPU + process.CPU,
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val.Mem + process.Mem,
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}
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} else {
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groupedP[process.Command] = Process{
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1,
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process.Command,
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process.CPU,
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process.Mem,
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}
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}
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}
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groupList := make([]Process, len(groupedP))
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var i int
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for _, val := range groupedP {
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groupList[i] = val
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i++
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}
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return groupList
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}
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// FieldsToStrings converts a []Process to a [][]string
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func FieldsToStrings(P []Process) [][]string {
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strings := make([][]string, len(P))
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for i, p := range P {
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strings[i] = make([]string, 4)
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strings[i][0] = strconv.Itoa(int(p.PID))
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strings[i][1] = p.Command
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strings[i][2] = strconv.FormatFloat(p.CPU, 'f', 1, 64)
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strings[i][3] = strconv.FormatFloat(float64(p.Mem), 'f', 1, 32)
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}
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return strings
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}
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// Kill kills process or group of processes.
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func (p *Proc) Kill() {
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p.SelectedItem = ""
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command := "kill"
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if p.UniqueCol == 1 {
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command = "pkill"
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}
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cmd := exec.Command(command, p.Rows[p.SelectedRow][p.UniqueCol])
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cmd.Start()
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}
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/////////////////////////////////////////////////////////////////////////////////
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// []Process Sorting //
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/////////////////////////////////////////////////////////////////////////////////
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type ProcessByCPU []Process
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// Len implements Sort interface
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func (P ProcessByCPU) Len() int {
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return len(P)
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}
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// Swap implements Sort interface
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func (P ProcessByCPU) Swap(i, j int) {
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P[i], P[j] = P[j], P[i]
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}
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// Less implements Sort interface
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func (P ProcessByCPU) Less(i, j int) bool {
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return P[i].CPU < P[j].CPU
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}
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type ProcessByPID []Process
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// Len implements Sort interface
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func (P ProcessByPID) Len() int {
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return len(P)
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}
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// Swap implements Sort interface
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func (P ProcessByPID) Swap(i, j int) {
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P[i], P[j] = P[j], P[i]
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}
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// Less implements Sort interface
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func (P ProcessByPID) Less(i, j int) bool {
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return P[i].PID < P[j].PID
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}
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type ProcessByMem []Process
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// Len implements Sort interface
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func (P ProcessByMem) Len() int {
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return len(P)
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}
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// Swap implements Sort interface
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func (P ProcessByMem) Swap(i, j int) {
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P[i], P[j] = P[j], P[i]
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}
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// Less implements Sort interface
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func (P ProcessByMem) Less(i, j int) bool {
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return P[i].Mem < P[j].Mem
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}
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