2018-06-20 14:51:55 +00:00
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package memsize
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import (
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"bytes"
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"fmt"
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"reflect"
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"sort"
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"strings"
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"text/tabwriter"
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"unsafe"
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)
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// Scan traverses all objects reachable from v and counts how much memory
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// is used per type. The value must be a non-nil pointer to any value.
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func Scan(v interface{}) Sizes {
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rv := reflect.ValueOf(v)
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if rv.Kind() != reflect.Ptr || rv.IsNil() {
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panic("value to scan must be non-nil pointer")
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}
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stopTheWorld("memsize scan")
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defer startTheWorld()
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ctx := newContext()
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ctx.scan(invalidAddr, rv, false)
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ctx.s.BitmapSize = ctx.seen.size()
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ctx.s.BitmapUtilization = ctx.seen.utilization()
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return *ctx.s
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}
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// Sizes is the result of a scan.
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type Sizes struct {
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Total uintptr
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ByType map[reflect.Type]*TypeSize
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// Internal stats (for debugging)
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BitmapSize uintptr
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BitmapUtilization float32
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}
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type TypeSize struct {
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Total uintptr
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Count uintptr
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}
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func newSizes() *Sizes {
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return &Sizes{ByType: make(map[reflect.Type]*TypeSize)}
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}
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// Report returns a human-readable report.
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func (s Sizes) Report() string {
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type typLine struct {
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name string
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count uintptr
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total uintptr
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}
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tab := []typLine{{"ALL", 0, s.Total}}
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for _, typ := range s.ByType {
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tab[0].count += typ.Count
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}
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maxname := 0
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for typ, s := range s.ByType {
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line := typLine{typ.String(), s.Count, s.Total}
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tab = append(tab, line)
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if len(line.name) > maxname {
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maxname = len(line.name)
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}
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}
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sort.Slice(tab, func(i, j int) bool { return tab[i].total > tab[j].total })
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buf := new(bytes.Buffer)
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w := tabwriter.NewWriter(buf, 0, 0, 0, ' ', tabwriter.AlignRight)
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for _, line := range tab {
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namespace := strings.Repeat(" ", maxname-len(line.name))
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fmt.Fprintf(w, "%s%s\t %v\t %s\t\n", line.name, namespace, line.count, HumanSize(line.total))
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}
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w.Flush()
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return buf.String()
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}
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// addValue is called during scan and adds the memory of given object.
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func (s *Sizes) addValue(v reflect.Value, size uintptr) {
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s.Total += size
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rs := s.ByType[v.Type()]
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if rs == nil {
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rs = new(TypeSize)
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s.ByType[v.Type()] = rs
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}
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rs.Total += size
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rs.Count++
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}
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type context struct {
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// We track previously scanned objects to prevent infinite loops
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// when scanning cycles and to prevent counting objects more than once.
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seen *bitmap
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tc typCache
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s *Sizes
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}
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func newContext() *context {
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return &context{seen: newBitmap(), tc: make(typCache), s: newSizes()}
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}
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2019-06-09 07:24:20 +00:00
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// scan walks all objects below v, determining their size. All scan* functions return the
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// amount of 'extra' memory (e.g. slice data) that is referenced by the object.
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2018-06-20 14:51:55 +00:00
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func (c *context) scan(addr address, v reflect.Value, add bool) (extraSize uintptr) {
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size := v.Type().Size()
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var marked uintptr
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if addr.valid() {
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marked = c.seen.countRange(uintptr(addr), size)
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if marked == size {
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return 0 // Skip if we have already seen the whole object.
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}
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c.seen.markRange(uintptr(addr), size)
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}
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// fmt.Printf("%v: %v ⮑ (marked %d)\n", addr, v.Type(), marked)
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if c.tc.needScan(v.Type()) {
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extraSize = c.scanContent(addr, v)
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}
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// fmt.Printf("%v: %v %d (add %v, size %d, marked %d, extra %d)\n", addr, v.Type(), size+extraSize, add, v.Type().Size(), marked, extraSize)
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if add {
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2019-06-09 07:24:20 +00:00
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size -= marked
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size += extraSize
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2018-06-20 14:51:55 +00:00
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c.s.addValue(v, size)
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}
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2019-06-09 07:24:20 +00:00
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return extraSize
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2018-06-20 14:51:55 +00:00
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}
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func (c *context) scanContent(addr address, v reflect.Value) uintptr {
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switch v.Kind() {
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case reflect.Array:
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return c.scanArray(addr, v)
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case reflect.Chan:
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return c.scanChan(v)
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case reflect.Func:
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// can't do anything here
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return 0
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case reflect.Interface:
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return c.scanInterface(v)
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case reflect.Map:
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return c.scanMap(v)
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case reflect.Ptr:
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if !v.IsNil() {
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c.scan(address(v.Pointer()), v.Elem(), true)
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}
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return 0
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case reflect.Slice:
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return c.scanSlice(v)
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case reflect.String:
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return uintptr(v.Len())
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case reflect.Struct:
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return c.scanStruct(addr, v)
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default:
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unhandledKind(v.Kind())
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return 0
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}
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}
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func (c *context) scanChan(v reflect.Value) uintptr {
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etyp := v.Type().Elem()
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extra := uintptr(0)
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if c.tc.needScan(etyp) {
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// Scan the channel buffer. This is unsafe but doesn't race because
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// the world is stopped during scan.
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hchan := unsafe.Pointer(v.Pointer())
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for i := uint(0); i < uint(v.Cap()); i++ {
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addr := chanbuf(hchan, i)
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elem := reflect.NewAt(etyp, addr).Elem()
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extra += c.scanContent(address(addr), elem)
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}
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}
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return uintptr(v.Cap())*etyp.Size() + extra
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}
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func (c *context) scanStruct(base address, v reflect.Value) uintptr {
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extra := uintptr(0)
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for i := 0; i < v.NumField(); i++ {
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f := v.Type().Field(i)
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if c.tc.needScan(f.Type) {
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addr := base.addOffset(f.Offset)
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extra += c.scanContent(addr, v.Field(i))
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}
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}
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return extra
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}
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func (c *context) scanArray(addr address, v reflect.Value) uintptr {
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esize := v.Type().Elem().Size()
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extra := uintptr(0)
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for i := 0; i < v.Len(); i++ {
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extra += c.scanContent(addr, v.Index(i))
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addr = addr.addOffset(esize)
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}
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return extra
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}
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func (c *context) scanSlice(v reflect.Value) uintptr {
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slice := v.Slice(0, v.Cap())
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esize := slice.Type().Elem().Size()
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base := slice.Pointer()
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// Add size of the unscanned portion of the backing array to extra.
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blen := uintptr(slice.Len()) * esize
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marked := c.seen.countRange(base, blen)
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extra := blen - marked
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c.seen.markRange(uintptr(base), blen)
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if c.tc.needScan(slice.Type().Elem()) {
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// Elements may contain pointers, scan them individually.
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addr := address(base)
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for i := 0; i < slice.Len(); i++ {
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extra += c.scanContent(addr, slice.Index(i))
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addr = addr.addOffset(esize)
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}
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}
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return extra
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}
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func (c *context) scanMap(v reflect.Value) uintptr {
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var (
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typ = v.Type()
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len = uintptr(v.Len())
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extra = uintptr(0)
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)
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if c.tc.needScan(typ.Key()) || c.tc.needScan(typ.Elem()) {
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for _, k := range v.MapKeys() {
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extra += c.scan(invalidAddr, k, false)
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extra += c.scan(invalidAddr, v.MapIndex(k), false)
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}
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}
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2019-06-09 07:24:20 +00:00
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return len*typ.Key().Size() + len*typ.Elem().Size() + extra
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2018-06-20 14:51:55 +00:00
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}
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func (c *context) scanInterface(v reflect.Value) uintptr {
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elem := v.Elem()
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if !elem.IsValid() {
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return 0 // nil interface
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}
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2019-06-09 07:24:20 +00:00
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c.scan(invalidAddr, elem, false)
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if !c.tc.isPointer(elem.Type()) {
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// Account for non-pointer size of the value.
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return elem.Type().Size()
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2018-06-20 14:51:55 +00:00
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}
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2019-06-09 07:24:20 +00:00
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return 0
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2018-06-20 14:51:55 +00:00
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}
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