ARM native string addition.

Review URL: http://codereview.chromium.org/571005 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@3806 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2010-02-05 12:00:42 +00:00 · 2010-02-05 12:00:42 +00:00 · dd85270967
commit dd85270967
parent 2618422ed5
5 changed files with 342 additions and 24 deletions
--- a/src/arm/codegen-arm.cc
+++ b/src/arm/codegen-arm.cc
@ -3551,7 +3551,8 @@ void CodeGenerator::GenerateStringAdd(ZoneList<Expression*>* args) {
  Load(args->at(0));
  Load(args->at(1));
-  frame_->CallRuntime(Runtime::kStringAdd, 2);
+  StringAddStub stub(NO_STRING_ADD_FLAGS);
  frame_->CallStub(&stub, 2);
  frame_->EmitPush(r0);
 }
@ -5332,7 +5333,7 @@ static void HandleBinaryOpSlowCases(MacroAssembler* masm,
    // r1 : first argument
    // r0 : second argument
    // sp[0] : second argument
-    // sp[1] : first argument
+    // sp[4] : first argument
    Label not_strings, not_string1, string1;
    __ tst(r1, Operand(kSmiTagMask));
@ -5347,7 +5348,8 @@ static void HandleBinaryOpSlowCases(MacroAssembler* masm,
    __ b(ge, &string1);
    // First and second argument are strings.
-    __ TailCallRuntime(ExternalReference(Runtime::kStringAdd), 2, 1);
+    StringAddStub stub(NO_STRING_CHECK_IN_STUB);
    __ TailCallStub(&stub);
    // Only first argument is a string.
    __ bind(&string1);
@ -5361,7 +5363,6 @@ static void HandleBinaryOpSlowCases(MacroAssembler* masm,
    __ b(ge, &not_strings);
    // Only second argument is a string.
    __ b(&not_strings);
    __ InvokeBuiltin(Builtins::STRING_ADD_RIGHT, JUMP_JS);
    __ bind(&not_strings);
@ -6841,14 +6842,14 @@ void StringStubBase::GenerateCopyCharacters(MacroAssembler* masm,
  __ b(eq, &done);
  __ bind(&loop);
  __ ldrb(scratch, MemOperand(src, 1, PostIndex));
  // Perform sub between load and dependent store to get the load time to
  // complete.
  __ sub(count, count, Operand(1), SetCC);
-  __ ldrb(scratch, MemOperand(src, count), pl);
+  __ strb(scratch, MemOperand(dest, 1, PostIndex));
  // Move branch between load and dependent store to not waste the cycle for
  // each iteration of the loop. It does cost an extra instruction on the
  // last iteration.
-  __ b(mi, &done);
+  __ b(gt, &loop);
-  __ strb(scratch, MemOperand(dest, count));
+
  __ b(&loop);
  __ bind(&done);
 }
@ -7218,12 +7219,10 @@ void StringCompareStub::Generate(MacroAssembler* masm) {
  Label runtime;
  // Stack frame on entry.
-  //  sp[0]: return address
+  //  sp[0]: right string
-  //  sp[4]: right string
+  //  sp[4]: left string
-  //  sp[8]: left string
+  __ ldr(r0, MemOperand(sp, 1 * kPointerSize));  // left
-
+  __ ldr(r1, MemOperand(sp, 0 * kPointerSize));  // right
  __ ldr(r0, MemOperand(sp, 2 * kPointerSize));  // left
  __ ldr(r1, MemOperand(sp, 1 * kPointerSize));  // right
  Label not_same;
  __ cmp(r0, r1);
@ -7252,6 +7251,220 @@ void StringCompareStub::Generate(MacroAssembler* masm) {
 }
 void StringAddStub::Generate(MacroAssembler* masm) {
  Label string_add_runtime;
  // Stack on entry:
  // sp[0]: second argument.
  // sp[4]: first argument.
  // Load the two arguments.
  __ ldr(r0, MemOperand(sp, 1 * kPointerSize));  // First argument.
  __ ldr(r1, MemOperand(sp, 0 * kPointerSize));  // Second argument.
  // Make sure that both arguments are strings if not known in advance.
  if (string_check_) {
    ASSERT_EQ(0, kSmiTag);
    __ JumpIfEitherSmi(r0, r1, &string_add_runtime);
    // Load instance types.
    __ ldr(r4, FieldMemOperand(r0, HeapObject::kMapOffset));
    __ ldr(r5, FieldMemOperand(r1, HeapObject::kMapOffset));
    __ ldrb(r4, FieldMemOperand(r4, Map::kInstanceTypeOffset));
    __ ldrb(r5, FieldMemOperand(r5, Map::kInstanceTypeOffset));
    ASSERT_EQ(0, kStringTag);
    // If either is not a string, go to runtime.
    __ tst(r4, Operand(kIsNotStringMask));
    __ tst(r5, Operand(kIsNotStringMask), eq);
    __ b(ne, &string_add_runtime);
  }
  // Both arguments are strings.
  // r0: first string
  // r1: second string
  // r4: first string instance type (if string_check_)
  // r5: second string instance type (if string_check_)
  {
    Label strings_not_empty;
    // Check if either of the strings are empty. In that case return the other.
    __ ldr(r2, FieldMemOperand(r0, String::kLengthOffset));
    __ ldr(r3, FieldMemOperand(r1, String::kLengthOffset));
    __ cmp(r2, Operand(0));  // Test if first string is empty.
    __ mov(r0, Operand(r1), LeaveCC, eq);  // If first is empty, return second.
    __ cmp(r3, Operand(0), ne);  // Else test if second string is empty.
    __ b(ne, &strings_not_empty);  // If either string was empty, return r0.
    __ IncrementCounter(&Counters::string_add_native, 1, r2, r3);
    __ add(sp, sp, Operand(2 * kPointerSize));
    __ Ret();
    __ bind(&strings_not_empty);
  }
  // Both strings are non-empty.
  // r0: first string
  // r1: second string
  // r2: length of first string
  // r3: length of second string
  // r4: first string instance type (if string_check_)
  // r5: second string instance type (if string_check_)
  // Look at the length of the result of adding the two strings.
  Label string_add_flat_result;
  // Adding two lengths can't overflow.
  ASSERT(String::kMaxLength * 2 > String::kMaxLength);
  __ add(r6, r2, Operand(r3));
  // Use the runtime system when adding two one character strings, as it
  // contains optimizations for this specific case using the symbol table.
  __ cmp(r6, Operand(2));
  __ b(eq, &string_add_runtime);
  // Check if resulting string will be flat.
  __ cmp(r6, Operand(String::kMinNonFlatLength));
  __ b(lt, &string_add_flat_result);
  // Handle exceptionally long strings in the runtime system.
  ASSERT((String::kMaxLength & 0x80000000) == 0);
  ASSERT(IsPowerOf2(String::kMaxLength + 1));
  // kMaxLength + 1 is representable as shifted literal, kMaxLength is not.
  __ cmp(r6, Operand(String::kMaxLength + 1));
  __ b(hs, &string_add_runtime);
  // If result is not supposed to be flat, allocate a cons string object.
  // If both strings are ascii the result is an ascii cons string.
  if (!string_check_) {
    __ ldr(r4, FieldMemOperand(r0, HeapObject::kMapOffset));
    __ ldr(r5, FieldMemOperand(r1, HeapObject::kMapOffset));
    __ ldrb(r4, FieldMemOperand(r4, Map::kInstanceTypeOffset));
    __ ldrb(r5, FieldMemOperand(r5, Map::kInstanceTypeOffset));
  }
  Label non_ascii, allocated;
  ASSERT_EQ(0, kTwoByteStringTag);
  __ tst(r4, Operand(kStringEncodingMask));
  __ tst(r5, Operand(kStringEncodingMask), ne);
  __ b(eq, &non_ascii);
  // Allocate an ASCII cons string.
  __ AllocateAsciiConsString(r7, r6, r4, r5, &string_add_runtime);
  __ bind(&allocated);
  // Fill the fields of the cons string.
  __ str(r0, FieldMemOperand(r7, ConsString::kFirstOffset));
  __ str(r1, FieldMemOperand(r7, ConsString::kSecondOffset));
  __ mov(r0, Operand(r7));
  __ IncrementCounter(&Counters::string_add_native, 1, r2, r3);
  __ add(sp, sp, Operand(2 * kPointerSize));
  __ Ret();
  __ bind(&non_ascii);
  // Allocate a two byte cons string.
  __ AllocateTwoByteConsString(r7, r6, r4, r5, &string_add_runtime);
  __ jmp(&allocated);
  // Handle creating a flat result. First check that both strings are
  // sequential and that they have the same encoding.
  // r0: first string
  // r1: second string
  // r2: length of first string
  // r3: length of second string
  // r4: first string instance type (if string_check_)
  // r5: second string instance type (if string_check_)
  // r6: sum of lengths.
  __ bind(&string_add_flat_result);
  if (!string_check_) {
    __ ldr(r4, FieldMemOperand(r0, HeapObject::kMapOffset));
    __ ldr(r5, FieldMemOperand(r1, HeapObject::kMapOffset));
    __ ldrb(r4, FieldMemOperand(r4, Map::kInstanceTypeOffset));
    __ ldrb(r5, FieldMemOperand(r5, Map::kInstanceTypeOffset));
  }
  // Check that both strings are sequential.
  ASSERT_EQ(0, kSeqStringTag);
  __ tst(r4, Operand(kStringRepresentationMask));
  __ tst(r5, Operand(kStringRepresentationMask), eq);
  __ b(ne, &string_add_runtime);
  // Now check if both strings have the same encoding (ASCII/Two-byte).
  // r0: first string.
  // r1: second string.
  // r2: length of first string.
  // r3: length of second string.
  // r6: sum of lengths..
  Label non_ascii_string_add_flat_result;
  ASSERT(IsPowerOf2(kStringEncodingMask));  // Just one bit to test.
  __ eor(r7, r4, Operand(r5));
  __ tst(r7, Operand(kStringEncodingMask));
  __ b(ne, &string_add_runtime);
  // And see if it's ASCII or two-byte.
  __ tst(r4, Operand(kStringEncodingMask));
  __ b(eq, &non_ascii_string_add_flat_result);
  // Both strings are sequential ASCII strings. We also know that they are
  // short (since the sum of the lengths is less than kMinNonFlatLength).
  __ AllocateAsciiString(r7, r6, r4, r5, r9, &string_add_runtime);
  // Locate first character of result.
  __ add(r6, r7, Operand(SeqAsciiString::kHeaderSize - kHeapObjectTag));
  // Locate first character of first argument.
  __ add(r0, r0, Operand(SeqAsciiString::kHeaderSize - kHeapObjectTag));
  // r0: first character of first string.
  // r1: second string.
  // r2: length of first string.
  // r3: length of second string.
  // r6: first character of result.
  // r7: result string.
  GenerateCopyCharacters(masm, r6, r0, r2, r4, true);
  // Load second argument and locate first character.
  __ add(r1, r1, Operand(SeqAsciiString::kHeaderSize - kHeapObjectTag));
  // r1: first character of second string.
  // r3: length of second string.
  // r6: next character of result.
  // r7: result string.
  GenerateCopyCharacters(masm, r6, r1, r3, r4, true);
  __ mov(r0, Operand(r7));
  __ IncrementCounter(&Counters::string_add_native, 1, r2, r3);
  __ add(sp, sp, Operand(2 * kPointerSize));
  __ Ret();
  __ bind(&non_ascii_string_add_flat_result);
  // Both strings are sequential two byte strings.
  // r0: first string.
  // r1: second string.
  // r2: length of first string.
  // r3: length of second string.
  // r6: sum of length of strings.
  __ AllocateTwoByteString(r7, r6, r4, r5, r9, &string_add_runtime);
  // r0: first string.
  // r1: second string.
  // r2: length of first string.
  // r3: length of second string.
  // r7: result string.
  // Locate first character of result.
  __ add(r6, r7, Operand(SeqTwoByteString::kHeaderSize - kHeapObjectTag));
  // Locate first character of first argument.
  __ add(r0, r0, Operand(SeqTwoByteString::kHeaderSize - kHeapObjectTag));
  // r0: first character of first string.
  // r1: second string.
  // r2: length of first string.
  // r3: length of second string.
  // r6: first character of result.
  // r7: result string.
  GenerateCopyCharacters(masm, r6, r0, r2, r4, false);
  // Locate first character of second argument.
  __ add(r1, r1, Operand(SeqTwoByteString::kHeaderSize - kHeapObjectTag));
  // r1: first character of second string.
  // r3: length of second string.
  // r6: next character of result (after copy of first string).
  // r7: result string.
  GenerateCopyCharacters(masm, r6, r1, r3, r4, false);
  __ mov(r0, Operand(r7));
  __ IncrementCounter(&Counters::string_add_native, 1, r2, r3);
  __ add(sp, sp, Operand(2 * kPointerSize));
  __ Ret();
  // Just jump to runtime to add the two strings.
  __ bind(&string_add_runtime);
  __ TailCallRuntime(ExternalReference(Runtime::kStringAdd), 2, 1);
 }
 #undef __
 } }  // namespace v8::internal
--- a/src/arm/codegen-arm.h
+++ b/src/arm/codegen-arm.h
@ -537,6 +537,7 @@ class StringStubBase: public CodeStub {
  // be used in places where the number of characters is small and the
  // additional setup and checking in GenerateCopyCharactersLong adds too much
  // overhead. Copying of overlapping regions is not supported.
  // Dest register ends at the position after the last character written.
  void GenerateCopyCharacters(MacroAssembler* masm,
                              Register dest,
                              Register src,
@ -547,6 +548,7 @@ class StringStubBase: public CodeStub {
  // Generate code for copying a large number of characters. This function
  // is allowed to spend extra time setting up conditions to make copying
  // faster. Copying of overlapping regions is not supported.
  // Dest register ends at the position after the last character written.
  void GenerateCopyCharactersLong(MacroAssembler* masm,
                                  Register dest,
                                  Register src,
@ -567,6 +569,23 @@ enum StringAddFlags {
 };
 class StringAddStub: public StringStubBase {
 public:
  explicit StringAddStub(StringAddFlags flags) {
    string_check_ = ((flags & NO_STRING_CHECK_IN_STUB) == 0);
  }
 private:
  Major MajorKey() { return StringAdd; }
  int MinorKey() { return string_check_ ? 0 : 1; }
  void Generate(MacroAssembler* masm);
  // Should the stub check whether arguments are strings?
  bool string_check_;
 };
 class SubStringStub: public StringStubBase {
 public:
  SubStringStub() {}
--- a/src/arm/macro-assembler-arm.cc
+++ b/src/arm/macro-assembler-arm.cc
@ -1009,6 +1009,44 @@ void MacroAssembler::AllocateAsciiString(Register result,
 }
 void MacroAssembler::AllocateTwoByteConsString(Register result,
                                               Register length,
                                               Register scratch1,
                                               Register scratch2,
                                               Label* gc_required) {
  AllocateInNewSpace(ConsString::kSize / kPointerSize,
                     result,
                     scratch1,
                     scratch2,
                     gc_required,
                     TAG_OBJECT);
  LoadRoot(scratch1, Heap::kConsStringMapRootIndex);
  mov(scratch2, Operand(String::kEmptyHashField));
  str(length, FieldMemOperand(result, String::kLengthOffset));
  str(scratch1, FieldMemOperand(result, HeapObject::kMapOffset));
  str(scratch2, FieldMemOperand(result, String::kHashFieldOffset));
 }
 void MacroAssembler::AllocateAsciiConsString(Register result,
                                             Register length,
                                             Register scratch1,
                                             Register scratch2,
                                             Label* gc_required) {
  AllocateInNewSpace(ConsString::kSize / kPointerSize,
                     result,
                     scratch1,
                     scratch2,
                     gc_required,
                     TAG_OBJECT);
  LoadRoot(scratch1, Heap::kConsAsciiStringMapRootIndex);
  mov(scratch2, Operand(String::kEmptyHashField));
  str(length, FieldMemOperand(result, String::kLengthOffset));
  str(scratch1, FieldMemOperand(result, HeapObject::kMapOffset));
  str(scratch2, FieldMemOperand(result, String::kHashFieldOffset));
 }
 void MacroAssembler::CompareObjectType(Register function,
                                       Register map,
                                       Register type_reg,
@ -1079,10 +1117,17 @@ void MacroAssembler::CallStub(CodeStub* stub, Condition cond) {
 }
 void MacroAssembler::TailCallStub(CodeStub* stub, Condition cond) {
  ASSERT(allow_stub_calls());  // stub calls are not allowed in some stubs
  Jump(stub->GetCode(), RelocInfo::CODE_TARGET, cond);
 }
 void MacroAssembler::StubReturn(int argc) {
  ASSERT(argc >= 1 && generating_stub());
-  if (argc > 1)
+  if (argc > 1) {
    add(sp, sp, Operand((argc - 1) * kPointerSize));
  }
  Ret();
 }
@ -1319,6 +1364,26 @@ void MacroAssembler::LoadContext(Register dst, int context_chain_length) {
 }
 void MacroAssembler::JumpIfNotBothSmi(Register reg1,
                                      Register reg2,
                                      Label* on_not_both_smi) {
  ASSERT_EQ(0, kSmiTag);
  tst(reg1, Operand(kSmiTagMask));
  tst(reg2, Operand(kSmiTagMask), eq);
  b(ne, on_not_both_smi);
 }
 void MacroAssembler::JumpIfEitherSmi(Register reg1,
                                     Register reg2,
                                     Label* on_either_smi) {
  ASSERT_EQ(0, kSmiTag);
  tst(reg1, Operand(kSmiTagMask));
  tst(reg2, Operand(kSmiTagMask), ne);
  b(eq, on_either_smi);
 }
 void MacroAssembler::JumpIfNonSmisNotBothSequentialAsciiStrings(
    Register first,
    Register second,
--- a/src/arm/macro-assembler-arm.h
+++ b/src/arm/macro-assembler-arm.h
@ -223,6 +223,16 @@ class MacroAssembler: public Assembler {
                           Register scratch2,
                           Register scratch3,
                           Label* gc_required);
  void AllocateTwoByteConsString(Register result,
                                 Register length,
                                 Register scratch1,
                                 Register scratch2,
                                 Label* gc_required);
  void AllocateAsciiConsString(Register result,
                               Register length,
                               Register scratch1,
                               Register scratch2,
                               Label* gc_required);
  // ---------------------------------------------------------------------------
@ -302,6 +312,9 @@ class MacroAssembler: public Assembler {
  // Call a code stub.
  void CallStub(CodeStub* stub, Condition cond = al);
  // Call a code stub.
  void TailCallStub(CodeStub* stub, Condition cond = al);
  // Return from a code stub after popping its arguments.
  void StubReturn(int argc);
@ -370,6 +383,14 @@ class MacroAssembler: public Assembler {
  void set_allow_stub_calls(bool value) { allow_stub_calls_ = value; }
  bool allow_stub_calls() { return allow_stub_calls_; }
  // ---------------------------------------------------------------------------
  // Smi utilities
  // Jump if either of the registers contain a non-smi.
  void JumpIfNotBothSmi(Register reg1, Register reg2, Label* on_not_both_smi);
  // Jump if either of the registers contain a smi.
  void JumpIfEitherSmi(Register reg1, Register reg2, Label* on_either_smi);
  // ---------------------------------------------------------------------------
  // String utilities
--- a/src/ia32/codegen-ia32.h
+++ b/src/ia32/codegen-ia32.h
@ -745,13 +745,6 @@ class GenericBinaryOpStub: public CodeStub {
 };
 // Flag that indicates how to generate code for the stub StringAddStub.
 enum StringAddFlags {
  NO_STRING_ADD_FLAGS = 0,
  NO_STRING_CHECK_IN_STUB = 1 << 0  // Omit string check in stub.
 };
 class StringStubBase: public CodeStub {
 public:
  // Generate code for copying characters using a simple loop. This should only
@ -777,6 +770,13 @@ class StringStubBase: public CodeStub {
 };
 // Flag that indicates how to generate code for the stub StringAddStub.
 enum StringAddFlags {
  NO_STRING_ADD_FLAGS = 0,
  NO_STRING_CHECK_IN_STUB = 1 << 0  // Omit string check in stub.
 };
 class StringAddStub: public StringStubBase {
 public:
  explicit StringAddStub(StringAddFlags flags) {