Plan 9 from Bell Labs’s /usr/web/sources/contrib/stallion/root/arm/go/src/cmd/compile/internal/gc/dump.go

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// Copyright 2018 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.

// This file implements textual dumping of arbitrary data structures
// for debugging purposes. The code is customized for Node graphs
// and may be used for an alternative view of the node structure.

package gc

import (
	"cmd/compile/internal/types"
	"cmd/internal/src"
	"fmt"
	"io"
	"os"
	"reflect"
	"regexp"
)

// dump is like fdump but prints to stderr.
func dump(root interface{}, filter string, depth int) {
	fdump(os.Stderr, root, filter, depth)
}

// fdump prints the structure of a rooted data structure
// to w by depth-first traversal of the data structure.
//
// The filter parameter is a regular expression. If it is
// non-empty, only struct fields whose names match filter
// are printed.
//
// The depth parameter controls how deep traversal recurses
// before it returns (higher value means greater depth).
// If an empty field filter is given, a good depth default value
// is 4. A negative depth means no depth limit, which may be fine
// for small data structures or if there is a non-empty filter.
//
// In the output, Node structs are identified by their Op name
// rather than their type; struct fields with zero values or
// non-matching field names are omitted, and "…" means recursion
// depth has been reached or struct fields have been omitted.
func fdump(w io.Writer, root interface{}, filter string, depth int) {
	if root == nil {
		fmt.Fprintln(w, "nil")
		return
	}

	if filter == "" {
		filter = ".*" // default
	}

	p := dumper{
		output:  w,
		fieldrx: regexp.MustCompile(filter),
		ptrmap:  make(map[uintptr]int),
		last:    '\n', // force printing of line number on first line
	}

	p.dump(reflect.ValueOf(root), depth)
	p.printf("\n")
}

type dumper struct {
	output  io.Writer
	fieldrx *regexp.Regexp  // field name filter
	ptrmap  map[uintptr]int // ptr -> dump line number
	lastadr string          // last address string printed (for shortening)

	// output
	indent int  // current indentation level
	last   byte // last byte processed by Write
	line   int  // current line number
}

var indentBytes = []byte(".  ")

func (p *dumper) Write(data []byte) (n int, err error) {
	var m int
	for i, b := range data {
		// invariant: data[0:n] has been written
		if b == '\n' {
			m, err = p.output.Write(data[n : i+1])
			n += m
			if err != nil {
				return
			}
		} else if p.last == '\n' {
			p.line++
			_, err = fmt.Fprintf(p.output, "%6d  ", p.line)
			if err != nil {
				return
			}
			for j := p.indent; j > 0; j-- {
				_, err = p.output.Write(indentBytes)
				if err != nil {
					return
				}
			}
		}
		p.last = b
	}
	if len(data) > n {
		m, err = p.output.Write(data[n:])
		n += m
	}
	return
}

// printf is a convenience wrapper.
func (p *dumper) printf(format string, args ...interface{}) {
	if _, err := fmt.Fprintf(p, format, args...); err != nil {
		panic(err)
	}
}

// addr returns the (hexadecimal) address string of the object
// represented by x (or "?" if x is not addressable), with the
// common prefix between this and the prior address replaced by
// "0x…" to make it easier to visually match addresses.
func (p *dumper) addr(x reflect.Value) string {
	if !x.CanAddr() {
		return "?"
	}
	adr := fmt.Sprintf("%p", x.Addr().Interface())
	s := adr
	if i := commonPrefixLen(p.lastadr, adr); i > 0 {
		s = "0x…" + adr[i:]
	}
	p.lastadr = adr
	return s
}

// dump prints the contents of x.
func (p *dumper) dump(x reflect.Value, depth int) {
	if depth == 0 {
		p.printf("…")
		return
	}

	// special cases
	switch v := x.Interface().(type) {
	case Nodes:
		// unpack Nodes since reflect cannot look inside
		// due to the unexported field in its struct
		x = reflect.ValueOf(v.Slice())

	case src.XPos:
		p.printf("%s", linestr(v))
		return

	case *types.Node:
		x = reflect.ValueOf(asNode(v))
	}

	switch x.Kind() {
	case reflect.String:
		p.printf("%q", x.Interface()) // print strings in quotes

	case reflect.Interface:
		if x.IsNil() {
			p.printf("nil")
			return
		}
		p.dump(x.Elem(), depth-1)

	case reflect.Ptr:
		if x.IsNil() {
			p.printf("nil")
			return
		}

		p.printf("*")
		ptr := x.Pointer()
		if line, exists := p.ptrmap[ptr]; exists {
			p.printf("(@%d)", line)
			return
		}
		p.ptrmap[ptr] = p.line
		p.dump(x.Elem(), depth) // don't count pointer indirection towards depth

	case reflect.Slice:
		if x.IsNil() {
			p.printf("nil")
			return
		}
		p.printf("%s (%d entries) {", x.Type(), x.Len())
		if x.Len() > 0 {
			p.indent++
			p.printf("\n")
			for i, n := 0, x.Len(); i < n; i++ {
				p.printf("%d: ", i)
				p.dump(x.Index(i), depth-1)
				p.printf("\n")
			}
			p.indent--
		}
		p.printf("}")

	case reflect.Struct:
		typ := x.Type()

		isNode := false
		if n, ok := x.Interface().(Node); ok {
			isNode = true
			p.printf("%s %s {", n.Op.String(), p.addr(x))
		} else {
			p.printf("%s {", typ)
		}
		p.indent++

		first := true
		omitted := false
		for i, n := 0, typ.NumField(); i < n; i++ {
			// Exclude non-exported fields because their
			// values cannot be accessed via reflection.
			if name := typ.Field(i).Name; types.IsExported(name) {
				if !p.fieldrx.MatchString(name) {
					omitted = true
					continue // field name not selected by filter
				}

				// special cases
				if isNode && name == "Op" {
					omitted = true
					continue // Op field already printed for Nodes
				}
				x := x.Field(i)
				if isZeroVal(x) {
					omitted = true
					continue // exclude zero-valued fields
				}
				if n, ok := x.Interface().(Nodes); ok && n.Len() == 0 {
					omitted = true
					continue // exclude empty Nodes slices
				}

				if first {
					p.printf("\n")
					first = false
				}
				p.printf("%s: ", name)
				p.dump(x, depth-1)
				p.printf("\n")
			}
		}
		if omitted {
			p.printf("…\n")
		}

		p.indent--
		p.printf("}")

	default:
		p.printf("%v", x.Interface())
	}
}

func isZeroVal(x reflect.Value) bool {
	switch x.Kind() {
	case reflect.Bool:
		return !x.Bool()
	case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
		return x.Int() == 0
	case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
		return x.Uint() == 0
	case reflect.String:
		return x.String() == ""
	case reflect.Interface, reflect.Ptr, reflect.Slice:
		return x.IsNil()
	}
	return false
}

func commonPrefixLen(a, b string) (i int) {
	for i < len(a) && i < len(b) && a[i] == b[i] {
		i++
	}
	return
}

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