From: Ian Lance Taylor Date: Tue, 19 Mar 2019 18:42:43 +0000 (+0000) Subject: compiler,runtime: pass old slice's ptr/len/cap by value to growslice X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=ea5ac5a69b4b474bb221051e705f98d8599253fa;p=gcc.git compiler,runtime: pass old slice's ptr/len/cap by value to growslice In the C calling convention, on AMD64, and probably a number of other architectures, a 3-word struct argument is passed on stack. This is less efficient than passing in three registers. Further, this may affect the code generation in other part of the program, even if the function is not actually called. Slices are common in Go and append is a common slice operation, which calls growslice in the growing path. To improve the code generation, pass the slice header's three fields as separate values, instead of a struct, to growslice. The drawback is that this makes the runtime implementation slightly diverges from the gc runtime. Reviewed-on: https://go-review.googlesource.com/c/gofrontend/+/168277 From-SVN: r269811 --- diff --git a/gcc/go/gofrontend/MERGE b/gcc/go/gofrontend/MERGE index 006da8c77fe..4a9853ab68c 100644 --- a/gcc/go/gofrontend/MERGE +++ b/gcc/go/gofrontend/MERGE @@ -1,4 +1,4 @@ -069afe85f38c099660c5d81950d65248ed4fc516 +6e5ff227d4e77d340e86bd2c5e045d5532c2d7d7 The first line of this file holds the git revision number of the last merge done from the gofrontend repository. diff --git a/gcc/go/gofrontend/expressions.cc b/gcc/go/gofrontend/expressions.cc index f41647aa4e4..018fdbbec77 100644 --- a/gcc/go/gofrontend/expressions.cc +++ b/gcc/go/gofrontend/expressions.cc @@ -7986,23 +7986,33 @@ Builtin_call_expression::flatten_append(Gogo* gogo, Named_object* function, // Using uint here means that if the computation of ntmp overflowed, // we will call growslice which will panic. - Expression* left = Expression::make_temporary_reference(ntmp, loc); - left = Expression::make_cast(uint_type, left, loc); - Named_object* capfn = gogo->lookup_global("cap"); Expression* capref = Expression::make_func_reference(capfn, NULL, loc); call_args = new Expression_list(); call_args->push_back(Expression::make_temporary_reference(s1tmp, loc)); - Expression* right = Expression::make_call(capref, call_args, false, loc); + Expression* cap = Expression::make_call(capref, call_args, false, loc); + gogo->lower_expression(function, inserter, &cap); + gogo->flatten_expression(function, inserter, &cap); + Temporary_statement* c1tmp = Statement::make_temporary(int_type, cap, loc); + inserter->insert(c1tmp); + + Expression* left = Expression::make_temporary_reference(ntmp, loc); + left = Expression::make_cast(uint_type, left, loc); + Expression* right = Expression::make_temporary_reference(c1tmp, loc); right = Expression::make_cast(uint_type, right, loc); Expression* cond = Expression::make_binary(OPERATOR_GT, left, right, loc); + Type* unsafe_ptr_type = Type::make_pointer_type(Type::make_void_type()); Expression* a1 = Expression::make_type_descriptor(element_type, loc); Expression* a2 = Expression::make_temporary_reference(s1tmp, loc); - Expression* a3 = Expression::make_temporary_reference(ntmp, loc); - Expression* call = Runtime::make_call(Runtime::GROWSLICE, loc, 3, - a1, a2, a3); + a2 = slice_type->array_type()->get_value_pointer(gogo, a2, false); + a2 = Expression::make_cast(unsafe_ptr_type, a2, loc); + Expression* a3 = Expression::make_temporary_reference(l1tmp, loc); + Expression* a4 = Expression::make_temporary_reference(c1tmp, loc); + Expression* a5 = Expression::make_temporary_reference(ntmp, loc); + Expression* call = Runtime::make_call(Runtime::GROWSLICE, loc, 5, + a1, a2, a3, a4, a5); call = Expression::make_unsafe_cast(slice_type, call, loc); ref = Expression::make_temporary_reference(s1tmp, loc); diff --git a/gcc/go/gofrontend/runtime.def b/gcc/go/gofrontend/runtime.def index 273c8604091..83a71528a8c 100644 --- a/gcc/go/gofrontend/runtime.def +++ b/gcc/go/gofrontend/runtime.def @@ -202,7 +202,8 @@ DEF_GO_RUNTIME(TYPEDSLICECOPY, "runtime.typedslicecopy", // Grow a slice for append. -DEF_GO_RUNTIME(GROWSLICE, "runtime.growslice", P3(TYPE, SLICE, INT), R1(SLICE)) +DEF_GO_RUNTIME(GROWSLICE, "runtime.growslice", + P5(TYPE, POINTER, INT, INT, INT), R1(SLICE)) // Register roots (global variables) for the garbage collector. diff --git a/libgo/go/runtime/slice.go b/libgo/go/runtime/slice.go index 335532d126b..9137951bfe9 100644 --- a/libgo/go/runtime/slice.go +++ b/libgo/go/runtime/slice.go @@ -77,31 +77,31 @@ func makeslice64(et *_type, len64, cap64 int64) unsafe.Pointer { // and it returns a new slice with at least that capacity, with the old data // copied into it. // The new slice's length is set to the requested capacity. -func growslice(et *_type, old slice, cap int) slice { +func growslice(et *_type, oldarray unsafe.Pointer, oldlen, oldcap, cap int) slice { if raceenabled { callerpc := getcallerpc() - racereadrangepc(old.array, uintptr(old.len*int(et.size)), callerpc, funcPC(growslice)) + racereadrangepc(oldarray, uintptr(oldlen*int(et.size)), callerpc, funcPC(growslice)) } if msanenabled { - msanread(old.array, uintptr(old.len*int(et.size))) + msanread(oldarray, uintptr(oldlen*int(et.size))) } - if cap < old.cap { + if cap < oldcap { panic(errorString("growslice: cap out of range")) } if et.size == 0 { // append should not create a slice with nil pointer but non-zero len. - // We assume that append doesn't need to preserve old.array in this case. + // We assume that append doesn't need to preserve oldarray in this case. return slice{unsafe.Pointer(&zerobase), cap, cap} } - newcap := old.cap + newcap := oldcap doublecap := newcap + newcap if cap > doublecap { newcap = cap } else { - if old.len < 1024 { + if oldlen < 1024 { newcap = doublecap } else { // Check 0 < newcap to detect overflow @@ -125,13 +125,13 @@ func growslice(et *_type, old slice, cap int) slice { // For powers of 2, use a variable shift. switch { case et.size == 1: - lenmem = uintptr(old.len) + lenmem = uintptr(oldlen) newlenmem = uintptr(cap) capmem = roundupsize(uintptr(newcap)) overflow = uintptr(newcap) > maxAlloc newcap = int(capmem) case et.size == sys.PtrSize: - lenmem = uintptr(old.len) * sys.PtrSize + lenmem = uintptr(oldlen) * sys.PtrSize newlenmem = uintptr(cap) * sys.PtrSize capmem = roundupsize(uintptr(newcap) * sys.PtrSize) overflow = uintptr(newcap) > maxAlloc/sys.PtrSize @@ -144,13 +144,13 @@ func growslice(et *_type, old slice, cap int) slice { } else { shift = uintptr(sys.Ctz32(uint32(et.size))) & 31 } - lenmem = uintptr(old.len) << shift + lenmem = uintptr(oldlen) << shift newlenmem = uintptr(cap) << shift capmem = roundupsize(uintptr(newcap) << shift) overflow = uintptr(newcap) > (maxAlloc >> shift) newcap = int(capmem >> shift) default: - lenmem = uintptr(old.len) * et.size + lenmem = uintptr(oldlen) * et.size newlenmem = uintptr(cap) * et.size capmem, overflow = math.MulUintptr(et.size, uintptr(newcap)) capmem = roundupsize(capmem) @@ -177,19 +177,19 @@ func growslice(et *_type, old slice, cap int) slice { var p unsafe.Pointer if et.kind&kindNoPointers != 0 { p = mallocgc(capmem, nil, false) - // The append() that calls growslice is going to overwrite from old.len to cap (which will be the new length). + // The append() that calls growslice is going to overwrite from oldlen to cap (which will be the new length). // Only clear the part that will not be overwritten. memclrNoHeapPointers(add(p, newlenmem), capmem-newlenmem) } else { // Note: can't use rawmem (which avoids zeroing of memory), because then GC can scan uninitialized memory. p = mallocgc(capmem, et, true) if writeBarrier.enabled { - // Only shade the pointers in old.array since we know the destination slice p + // Only shade the pointers in oldarray since we know the destination slice p // only contains nil pointers because it has been cleared during alloc. - bulkBarrierPreWriteSrcOnly(uintptr(p), uintptr(old.array), lenmem) + bulkBarrierPreWriteSrcOnly(uintptr(p), uintptr(oldarray), lenmem) } } - memmove(p, old.array, lenmem) + memmove(p, oldarray, lenmem) return slice{p, cap, newcap} }