c70ff9f9be
The gc compiler has started permitting go:linkname comments with a single argument to mean that a function should be externally visible outside the package. Implement this in the Go frontend. Change the libgo runtime package to use it, rather than repeating the name just to export a function. Remove a couple of unnecessary go:linkname comments on declarations. Reviewed-on: https://go-review.googlesource.com/c/gofrontend/+/192197 From-SVN: r275239
279 lines
5.4 KiB
Go
279 lines
5.4 KiB
Go
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package runtime
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import (
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"runtime/internal/atomic"
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"unsafe"
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)
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// For gccgo, use go:linkname to export compiler-called functions.
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//
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//go:linkname printbool
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//go:linkname printfloat
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//go:linkname printint
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//go:linkname printhex
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//go:linkname printuint
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//go:linkname printcomplex
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//go:linkname printstring
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//go:linkname printpointer
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//go:linkname printiface
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//go:linkname printeface
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//go:linkname printslice
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//go:linkname printnl
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//go:linkname printsp
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//go:linkname printlock
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//go:linkname printunlock
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// Temporary for C code to call:
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//go:linkname gwrite
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//go:linkname printhex
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// The compiler knows that a print of a value of this type
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// should use printhex instead of printuint (decimal).
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type hex uint64
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//go:nowritebarrier
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func bytes(s string) (ret []byte) {
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rp := (*slice)(unsafe.Pointer(&ret))
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sp := stringStructOf(&s)
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rp.array = sp.str
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rp.len = sp.len
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rp.cap = sp.len
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return
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}
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var (
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// printBacklog is a circular buffer of messages written with the builtin
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// print* functions, for use in postmortem analysis of core dumps.
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printBacklog [512]byte
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printBacklogIndex int
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)
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// recordForPanic maintains a circular buffer of messages written by the
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// runtime leading up to a process crash, allowing the messages to be
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// extracted from a core dump.
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//
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// The text written during a process crash (following "panic" or "fatal
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// error") is not saved, since the goroutine stacks will generally be readable
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// from the runtime datastructures in the core file.
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func recordForPanic(b []byte) {
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printlock()
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if atomic.Load(&panicking) == 0 {
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// Not actively crashing: maintain circular buffer of print output.
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for i := 0; i < len(b); {
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n := copy(printBacklog[printBacklogIndex:], b[i:])
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i += n
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printBacklogIndex += n
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printBacklogIndex %= len(printBacklog)
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}
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}
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printunlock()
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}
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var debuglock mutex
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// The compiler emits calls to printlock and printunlock around
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// the multiple calls that implement a single Go print or println
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// statement. Some of the print helpers (printslice, for example)
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// call print recursively. There is also the problem of a crash
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// happening during the print routines and needing to acquire
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// the print lock to print information about the crash.
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// For both these reasons, let a thread acquire the printlock 'recursively'.
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func printlock() {
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mp := getg().m
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mp.locks++ // do not reschedule between printlock++ and lock(&debuglock).
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mp.printlock++
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if mp.printlock == 1 {
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lock(&debuglock)
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}
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mp.locks-- // now we know debuglock is held and holding up mp.locks for us.
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}
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func printunlock() {
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mp := getg().m
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mp.printlock--
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if mp.printlock == 0 {
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unlock(&debuglock)
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}
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}
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// write to goroutine-local buffer if diverting output,
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// or else standard error.
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func gwrite(b []byte) {
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if len(b) == 0 {
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return
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}
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recordForPanic(b)
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gp := getg()
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// Don't use the writebuf if gp.m is dying. We want anything
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// written through gwrite to appear in the terminal rather
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// than be written to in some buffer, if we're in a panicking state.
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// Note that we can't just clear writebuf in the gp.m.dying case
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// because a panic isn't allowed to have any write barriers.
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if gp == nil || gp.writebuf == nil || gp.m.dying > 0 {
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writeErr(b)
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return
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}
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n := copy(gp.writebuf[len(gp.writebuf):cap(gp.writebuf)], b)
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gp.writebuf = gp.writebuf[:len(gp.writebuf)+n]
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}
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func printsp() {
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printstring(" ")
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}
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func printnl() {
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printstring("\n")
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}
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func printbool(v bool) {
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if v {
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printstring("true")
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} else {
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printstring("false")
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}
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}
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func printfloat(v float64) {
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switch {
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case v != v:
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printstring("NaN")
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return
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case v+v == v && v > 0:
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printstring("+Inf")
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return
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case v+v == v && v < 0:
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printstring("-Inf")
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return
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}
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const n = 7 // digits printed
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var buf [n + 7]byte
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buf[0] = '+'
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e := 0 // exp
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if v == 0 {
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if 1/v < 0 {
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buf[0] = '-'
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}
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} else {
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if v < 0 {
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v = -v
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buf[0] = '-'
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}
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// normalize
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for v >= 10 {
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e++
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v /= 10
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}
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for v < 1 {
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e--
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v *= 10
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}
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// round
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h := 5.0
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for i := 0; i < n; i++ {
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h /= 10
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}
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v += h
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if v >= 10 {
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e++
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v /= 10
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}
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}
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// format +d.dddd+edd
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for i := 0; i < n; i++ {
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s := int(v)
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buf[i+2] = byte(s + '0')
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v -= float64(s)
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v *= 10
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}
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buf[1] = buf[2]
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buf[2] = '.'
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buf[n+2] = 'e'
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buf[n+3] = '+'
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if e < 0 {
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e = -e
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buf[n+3] = '-'
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}
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buf[n+4] = byte(e/100) + '0'
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buf[n+5] = byte(e/10)%10 + '0'
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buf[n+6] = byte(e%10) + '0'
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gwrite(buf[:])
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}
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func printcomplex(c complex128) {
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print("(", real(c), imag(c), "i)")
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}
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func printuint(v uint64) {
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var buf [100]byte
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i := len(buf)
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for i--; i > 0; i-- {
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buf[i] = byte(v%10 + '0')
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if v < 10 {
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break
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}
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v /= 10
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}
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gwrite(buf[i:])
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}
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func printint(v int64) {
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if v < 0 {
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printstring("-")
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v = -v
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}
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printuint(uint64(v))
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}
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func printhex(v uint64) {
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const dig = "0123456789abcdef"
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var buf [100]byte
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i := len(buf)
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for i--; i > 0; i-- {
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buf[i] = dig[v%16]
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if v < 16 {
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break
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}
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v /= 16
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}
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i--
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buf[i] = 'x'
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i--
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buf[i] = '0'
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gwrite(buf[i:])
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}
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func printpointer(p unsafe.Pointer) {
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printhex(uint64(uintptr(p)))
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}
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func printstring(s string) {
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gwrite(bytes(s))
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}
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func printslice(s []byte) {
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sp := (*slice)(unsafe.Pointer(&s))
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print("[", len(s), "/", cap(s), "]")
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printpointer(sp.array)
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}
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func printeface(e eface) {
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print("(", e._type, ",", e.data, ")")
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}
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func printiface(i iface) {
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print("(", i.tab, ",", i.data, ")")
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}
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