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gcc/libgo/go/runtime/slice.go
Ian Lance Taylor f8d9fa9e80 libgo, compiler: Upgrade libgo to Go 1.4, except for runtime. 
This upgrades all of libgo other than the runtime package to
the Go 1.4 release.  In Go 1.4 much of the runtime was
rewritten into Go.  Merging that code will take more time and
will not change the API, so I'm putting it off for now.

There are a few runtime changes anyhow, to accomodate other
packages that rely on minor modifications to the runtime
support.

The compiler changes slightly to add a one-bit flag to each
type descriptor kind that is stored directly in an interface,
which for gccgo is currently only pointer types.  Another
one-bit flag (gcprog) is reserved because it is used by the gc
compiler, but gccgo does not currently use it.

There is another error check in the compiler since I ran
across it during testing.

gotools/:
	* Makefile.am (go_cmd_go_files): Sort entries.  Add generate.go.
	* Makefile.in: Rebuild.

From-SVN: r219627
2015-01-15 00:27:56 +00:00

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// Copyright 2009 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.
package runtime
import (
"unsafe"
)
type sliceStruct struct {
array unsafe.Pointer
len int
cap int
}
// TODO: take uintptrs instead of int64s?
func makeslice(t *slicetype, len64 int64, cap64 int64) sliceStruct {
// NOTE: The len > MaxMem/elemsize check here is not strictly necessary,
// but it produces a 'len out of range' error instead of a 'cap out of range' error
// when someone does make([]T, bignumber). 'cap out of range' is true too,
// but since the cap is only being supplied implicitly, saying len is clearer.
// See issue 4085.
len := int(len64)
if len64 < 0 || int64(len) != len64 || t.elem.size > 0 && uintptr(len) > maxmem/uintptr(t.elem.size) {
panic(errorString("makeslice: len out of range"))
}
cap := int(cap64)
if cap < len || int64(cap) != cap64 || t.elem.size > 0 && uintptr(cap) > maxmem/uintptr(t.elem.size) {
panic(errorString("makeslice: cap out of range"))
}
p := newarray(t.elem, uintptr(cap))
return sliceStruct{p, len, cap}
}
// TODO: take uintptr instead of int64?
func growslice(t *slicetype, old sliceStruct, n int64) sliceStruct {
if n < 1 {
panic(errorString("growslice: invalid n"))
}
cap64 := int64(old.cap) + n
cap := int(cap64)
if int64(cap) != cap64 || cap < old.cap || t.elem.size > 0 && uintptr(cap) > maxmem/uintptr(t.elem.size) {
panic(errorString("growslice: cap out of range"))
}
if raceenabled {
callerpc := getcallerpc(unsafe.Pointer(&t))
racereadrangepc(old.array, uintptr(old.len*int(t.elem.size)), callerpc, funcPC(growslice))
}
et := t.elem
if et.size == 0 {
return sliceStruct{old.array, old.len, cap}
}
newcap := old.cap
if newcap+newcap < cap {
newcap = cap
} else {
for {
if old.len < 1024 {
newcap += newcap
} else {
newcap += newcap / 4
}
if newcap >= cap {
break
}
}
}
if uintptr(newcap) >= maxmem/uintptr(et.size) {
panic(errorString("growslice: cap out of range"))
}
lenmem := uintptr(old.len) * uintptr(et.size)
capmem := goroundupsize(uintptr(newcap) * uintptr(et.size))
newcap = int(capmem / uintptr(et.size))
var p unsafe.Pointer
if et.kind&kindNoPointers != 0 {
p = rawmem(capmem)
memclr(add(p, lenmem), capmem-lenmem)
} else {
// Note: can't use rawmem (which avoids zeroing of memory), because then GC can scan unitialized memory
p = newarray(et, uintptr(newcap))
}
memmove(p, old.array, lenmem)
return sliceStruct{p, old.len, newcap}
}
func slicecopy(to sliceStruct, fm sliceStruct, width uintptr) int {
if fm.len == 0 || to.len == 0 || width == 0 {
return 0
}
n := fm.len
if to.len < n {
n = to.len
}
if raceenabled {
callerpc := getcallerpc(unsafe.Pointer(&to))
pc := funcPC(slicecopy)
racewriterangepc(to.array, uintptr(n*int(width)), callerpc, pc)
racereadrangepc(fm.array, uintptr(n*int(width)), callerpc, pc)
}
size := uintptr(n) * width
if size == 1 { // common case worth about 2x to do here
// TODO: is this still worth it with new memmove impl?
*(*byte)(to.array) = *(*byte)(fm.array) // known to be a byte pointer
} else {
memmove(to.array, fm.array, size)
}
return int(n)
}
func slicestringcopy(to []byte, fm string) int {
if len(fm) == 0 || len(to) == 0 {
return 0
}
n := len(fm)
if len(to) < n {
n = len(to)
}
if raceenabled {
callerpc := getcallerpc(unsafe.Pointer(&to))
pc := funcPC(slicestringcopy)
racewriterangepc(unsafe.Pointer(&to[0]), uintptr(n), callerpc, pc)
}
memmove(unsafe.Pointer(&to[0]), unsafe.Pointer((*stringStruct)(unsafe.Pointer(&fm)).str), uintptr(n))
return n
}
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