void SubStringStub::Generate(MacroAssembler* masm) {
- Label sub_string_runtime;
+ Label runtime;
// Stack frame on entry.
// ra: return address
// sp[0]: to
static const int kFromOffset = 1 * kPointerSize;
static const int kStringOffset = 2 * kPointerSize;
- Register to = t2;
- Register from = t3;
-
- // Check bounds and smi-ness.
- __ lw(to, MemOperand(sp, kToOffset));
- __ lw(from, MemOperand(sp, kFromOffset));
+ __ lw(a2, MemOperand(sp, kToOffset));
+ __ lw(a3, MemOperand(sp, kFromOffset));
STATIC_ASSERT(kFromOffset == kToOffset + 4);
STATIC_ASSERT(kSmiTag == 0);
STATIC_ASSERT(kSmiTagSize + kSmiShiftSize == 1);
- __ JumpIfNotSmi(from, &sub_string_runtime);
- __ JumpIfNotSmi(to, &sub_string_runtime);
+ // Utilize delay slots. SmiUntag doesn't emit a jump, everything else is
+ // safe in this case.
+ __ JumpIfSmi(a2, &runtime, at, USE_DELAY_SLOT);
+ __ SmiUntag(a2);
+ __ JumpIfSmi(a3, &runtime, at, USE_DELAY_SLOT);
+ __ SmiUntag(a3);
- __ sra(a3, from, kSmiTagSize); // Remove smi tag.
- __ sra(t5, to, kSmiTagSize); // Remove smi tag.
+ // Both a2 and a3 are untagged integers.
- // a3: from index (untagged smi)
- // t5: to index (untagged smi)
-
- __ Branch(&sub_string_runtime, lt, a3, Operand(zero_reg)); // From < 0.
+ __ Branch(&runtime, lt, a3, Operand(zero_reg)); // From < 0.
__ subu(a2, t5, a3);
- __ Branch(&sub_string_runtime, gt, a3, Operand(t5)); // Fail if from > to.
-
- // Special handling of sub-strings of length 1 and 2. One character strings
- // are handled in the runtime system (looked up in the single character
- // cache). Two character strings are looked for in the symbol cache in
- // generated code.
- __ Branch(&sub_string_runtime, lt, a2, Operand(2));
-
- // Both to and from are smis.
-
- // a2: result string length
- // a3: from index (untagged smi)
- // t2: (a.k.a. to): to (smi)
- // t3: (a.k.a. from): from offset (smi)
- // t5: to index (untagged smi)
+ __ Branch(&runtime, gt, a3, Operand(t5)); // Fail if from > to.
- // Make sure first argument is a sequential (or flat) string.
+ // Make sure first argument is a string.
__ lw(v0, MemOperand(sp, kStringOffset));
- __ Branch(&sub_string_runtime, eq, v0, Operand(kSmiTagMask));
+ __ Branch(&runtime, eq, v0, Operand(kSmiTagMask));
__ lw(a1, FieldMemOperand(v0, HeapObject::kMapOffset));
__ lbu(a1, FieldMemOperand(a1, Map::kInstanceTypeOffset));
__ And(t4, v0, Operand(kIsNotStringMask));
- __ Branch(&sub_string_runtime, ne, t4, Operand(zero_reg));
+ __ Branch(&runtime, ne, t4, Operand(zero_reg));
// Short-cut for the case of trivial substring.
Label return_v0;
__ sra(t0, t0, 1);
__ Branch(&return_v0, eq, a2, Operand(t0));
- Label create_slice;
- if (FLAG_string_slices) {
- __ Branch(&create_slice, ge, a2, Operand(SlicedString::kMinLength));
- }
-
- // v0: original string
- // a1: instance type
- // a2: result string length
- // a3: from index (untagged smi)
- // t2: (a.k.a. to): to (smi)
- // t3: (a.k.a. from): from offset (smi)
- // t5: to index (untagged smi)
-
- Label seq_string;
- __ And(t0, a1, Operand(kStringRepresentationMask));
- STATIC_ASSERT(kSeqStringTag < kConsStringTag);
- STATIC_ASSERT(kConsStringTag < kExternalStringTag);
- STATIC_ASSERT(kConsStringTag < kSlicedStringTag);
-
- // Slices and external strings go to runtime.
- __ Branch(&sub_string_runtime, gt, t0, Operand(kConsStringTag));
-
- // Sequential strings are handled directly.
- __ Branch(&seq_string, lt, t0, Operand(kConsStringTag));
-
- // Cons string. Try to recurse (once) on the first substring.
- // (This adds a little more generality than necessary to handle flattened
- // cons strings, but not much).
- __ lw(v0, FieldMemOperand(v0, ConsString::kFirstOffset));
- __ lw(t0, FieldMemOperand(v0, HeapObject::kMapOffset));
- __ lbu(a1, FieldMemOperand(t0, Map::kInstanceTypeOffset));
- STATIC_ASSERT(kSeqStringTag == 0);
- // Cons, slices and external strings go to runtime.
- __ Branch(&sub_string_runtime, ne, a1, Operand(kStringRepresentationMask));
-
- // Definitly a sequential string.
- __ bind(&seq_string);
-
- // v0: original string
- // a1: instance type
- // a2: result string length
- // a3: from index (untagged smi)
- // t2: (a.k.a. to): to (smi)
- // t3: (a.k.a. from): from offset (smi)
- // t5: to index (untagged smi)
-
- __ lw(t0, FieldMemOperand(v0, String::kLengthOffset));
- __ Branch(&sub_string_runtime, lt, t0, Operand(to)); // Fail if to > length.
- to = no_reg;
-
- // v0: original string or left hand side of the original cons string.
- // a1: instance type
- // a2: result string length
- // a3: from index (untagged smi)
- // t3: (a.k.a. from): from offset (smi)
- // t5: to index (untagged smi)
-
- // Check for flat ASCII string.
- Label non_ascii_flat;
- STATIC_ASSERT(kTwoByteStringTag == 0);
-
- __ And(t4, a1, Operand(kStringEncodingMask));
- __ Branch(&non_ascii_flat, eq, t4, Operand(zero_reg));
Label result_longer_than_two;
- __ Branch(&result_longer_than_two, gt, a2, Operand(2));
+ // Check for special case of two character ascii string, in which case
+ // we do a lookup in the symbol table first.
+ __ li(t0, 2);
+ __ Branch(&result_longer_than_two, gt, a2, Operand(t0));
+ __ Branch(&runtime, lt, a2, Operand(t0));
+
+ __ JumpIfInstanceTypeIsNotSequentialAscii(a1, a1, &runtime);
- // Sub string of length 2 requested.
// Get the two characters forming the sub string.
__ Addu(v0, v0, Operand(a3));
__ lbu(a3, FieldMemOperand(v0, SeqAsciiString::kHeaderSize));
Label make_two_character_string;
StringHelper::GenerateTwoCharacterSymbolTableProbe(
masm, a3, t0, a1, t1, t2, t3, t4, &make_two_character_string);
- Counters* counters = masm->isolate()->counters();
__ jmp(&return_v0);
// a2: result string length.
// a3: two characters combined into halfword in little endian byte order.
__ bind(&make_two_character_string);
- __ AllocateAsciiString(v0, a2, t0, t1, t4, &sub_string_runtime);
+ __ AllocateAsciiString(v0, a2, t0, t1, t4, &runtime);
__ sh(a3, FieldMemOperand(v0, SeqAsciiString::kHeaderSize));
__ jmp(&return_v0);
__ bind(&result_longer_than_two);
- // Locate 'from' character of string.
- __ Addu(t1, v0, Operand(SeqAsciiString::kHeaderSize - kHeapObjectTag));
- __ sra(t4, from, 1);
- __ Addu(t1, t1, t4);
+ // Deal with different string types: update the index if necessary
+ // and put the underlying string into t1.
+ // v0: original string
+ // a1: instance type
+ // a2: length
+ // a3: from index (untagged)
+ Label underlying_unpacked, sliced_string, seq_or_external_string;
+ // If the string is not indirect, it can only be sequential or external.
+ STATIC_ASSERT(kIsIndirectStringMask == (kSlicedStringTag & kConsStringTag));
+ STATIC_ASSERT(kIsIndirectStringMask != 0);
+ __ And(t0, a1, Operand(kIsIndirectStringMask));
+ __ Branch(USE_DELAY_SLOT, &seq_or_external_string, eq, t0, Operand(zero_reg));
+
+ __ And(t0, a1, Operand(kSlicedNotConsMask));
+ __ Branch(&sliced_string, ne, t0, Operand(zero_reg));
+ // Cons string. Check whether it is flat, then fetch first part.
+ __ lw(t1, FieldMemOperand(v0, ConsString::kSecondOffset));
+ __ LoadRoot(t0, Heap::kEmptyStringRootIndex);
+ __ Branch(&runtime, ne, t1, Operand(t0));
+ __ lw(t1, FieldMemOperand(v0, ConsString::kFirstOffset));
+ // Update instance type.
+ __ lw(a1, FieldMemOperand(t1, HeapObject::kMapOffset));
+ __ lbu(a1, FieldMemOperand(a1, Map::kInstanceTypeOffset));
+ __ jmp(&underlying_unpacked);
+
+ __ bind(&sliced_string);
+ // Sliced string. Fetch parent and correct start index by offset.
+ __ lw(t1, FieldMemOperand(v0, SlicedString::kOffsetOffset));
+ __ sra(t1, t1, 1);
+ __ Addu(a3, a3, t1);
+ __ lw(t1, FieldMemOperand(v0, SlicedString::kParentOffset));
+ // Update instance type.
+ __ lw(a1, FieldMemOperand(t1, HeapObject::kMapOffset));
+ __ lbu(a1, FieldMemOperand(a1, Map::kInstanceTypeOffset));
+ __ jmp(&underlying_unpacked);
- // Allocate the result.
- __ AllocateAsciiString(v0, a2, t4, t0, a1, &sub_string_runtime);
+ __ bind(&seq_or_external_string);
+ // Sequential or external string. Just move string to the expected register.
+ __ mov(t1, v0);
+
+ __ bind(&underlying_unpacked);
+
+ if (FLAG_string_slices) {
+ Label copy_routine;
+ // t1: underlying subject string
+ // a1: instance type of underlying subject string
+ // a2: length
+ // a3: adjusted start index (untagged)
+ // Short slice. Copy instead of slicing.
+ __ Branch(©_routine, lt, a2, Operand(SlicedString::kMinLength));
+ // Allocate new sliced string. At this point we do not reload the instance
+ // type including the string encoding because we simply rely on the info
+ // provided by the original string. It does not matter if the original
+ // string's encoding is wrong because we always have to recheck encoding of
+ // the newly created string's parent anyways due to externalized strings.
+ Label two_byte_slice, set_slice_header;
+ STATIC_ASSERT((kStringEncodingMask & kAsciiStringTag) != 0);
+ STATIC_ASSERT((kStringEncodingMask & kTwoByteStringTag) == 0);
+ __ And(t0, a1, Operand(kStringEncodingMask));
+ __ Branch(&two_byte_slice, eq, t0, Operand(zero_reg));
+ __ AllocateAsciiSlicedString(v0, a2, t2, t3, &runtime);
+ __ jmp(&set_slice_header);
+ __ bind(&two_byte_slice);
+ __ AllocateTwoByteSlicedString(v0, a2, t2, t3, &runtime);
+ __ bind(&set_slice_header);
+ __ sll(a3, a3, 1);
+ __ sw(a3, FieldMemOperand(v0, SlicedString::kOffsetOffset));
+ __ sw(t1, FieldMemOperand(v0, SlicedString::kParentOffset));
+ __ jmp(&return_v0);
+
+ __ bind(©_routine);
+ }
+
+ // t1: underlying subject string
+ // a1: instance type of underlying subject string
+ // a2: length
+ // a3: adjusted start index (untagged)
+ Label two_byte_sequential, sequential_string, allocate_result;
+ STATIC_ASSERT(kExternalStringTag != 0);
+ STATIC_ASSERT(kSeqStringTag == 0);
+ __ And(t0, a1, Operand(kExternalStringTag));
+ __ Branch(&sequential_string, eq, t0, Operand(zero_reg));
+
+ // Handle external string.
+ // Rule out short external strings.
+ STATIC_CHECK(kShortExternalStringTag != 0);
+ __ And(t0, a1, Operand(kShortExternalStringTag));
+ __ Branch(&runtime, ne, t0, Operand(zero_reg));
+ __ lw(t1, FieldMemOperand(t1, ExternalString::kResourceDataOffset));
+ // t1 already points to the first character of underlying string.
+ __ jmp(&allocate_result);
+
+ __ bind(&sequential_string);
+ // Locate first character of underlying subject string.
+ STATIC_ASSERT(SeqTwoByteString::kHeaderSize == SeqAsciiString::kHeaderSize);
+ __ Addu(t1, t1, Operand(SeqAsciiString::kHeaderSize - kHeapObjectTag));
+
+ __ bind(&allocate_result);
+ // Sequential acii string. Allocate the result.
+ STATIC_ASSERT((kAsciiStringTag & kStringEncodingMask) != 0);
+ __ And(t0, a1, Operand(kStringEncodingMask));
+ __ Branch(&two_byte_sequential, eq, t0, Operand(zero_reg));
+
+ // Allocate and copy the resulting ascii string.
+ __ AllocateAsciiString(v0, a2, t0, t2, t3, &runtime);
+
+ // Locate first character of substring to copy.
+ __ Addu(t1, t1, a3);
- // v0: result string
- // a2: result string length
- // a3: from index (untagged smi)
- // t1: first character of substring to copy
- // t3: (a.k.a. from): from offset (smi)
// Locate first character of result.
__ Addu(a1, v0, Operand(SeqAsciiString::kHeaderSize - kHeapObjectTag));
masm, a1, t1, a2, a3, t0, t2, t3, t4, COPY_ASCII | DEST_ALWAYS_ALIGNED);
__ jmp(&return_v0);
- __ bind(&non_ascii_flat);
- // a2: result string length
- // t1: string
- // t3: (a.k.a. from): from offset (smi)
- // Check for flat two byte string.
-
- // Locate 'from' character of string.
- __ Addu(t1, v0, Operand(SeqTwoByteString::kHeaderSize - kHeapObjectTag));
- // As "from" is a smi it is 2 times the value which matches the size of a two
- // byte character.
- STATIC_ASSERT(kSmiTagSize == 1 && kSmiTag == 0);
- __ Addu(t1, t1, Operand(from));
-
- // Allocate the result.
- __ AllocateTwoByteString(v0, a2, a1, a3, t0, &sub_string_runtime);
+ // Allocate and copy the resulting two-byte string.
+ __ bind(&two_byte_sequential);
+ __ AllocateTwoByteString(v0, a2, t0, t2, t3, &runtime);
- // v0: result string
- // a2: result string length
- // t1: first character of substring to copy
+ // Locate first character of substring to copy.
+ STATIC_ASSERT(kSmiTagSize == 1 && kSmiTag == 0);
+ __ sll(t0, a3, 1);
+ __ Addu(t1, t1, t0);
// Locate first character of result.
__ Addu(a1, v0, Operand(SeqTwoByteString::kHeaderSize - kHeapObjectTag));
- from = no_reg;
-
// v0: result string.
// a1: first character of result.
// a2: result length.
STATIC_ASSERT((SeqTwoByteString::kHeaderSize & kObjectAlignmentMask) == 0);
StringHelper::GenerateCopyCharactersLong(
masm, a1, t1, a2, a3, t0, t2, t3, t4, DEST_ALWAYS_ALIGNED);
- __ jmp(&return_v0);
-
- if (FLAG_string_slices) {
- __ bind(&create_slice);
- // v0: original string
- // a1: instance type
- // a2: length
- // a3: from index (untagged smi)
- // t2 (a.k.a. to): to (smi)
- // t3 (a.k.a. from): from offset (smi)
- Label allocate_slice, sliced_string, seq_or_external_string;
- // If the string is not indirect, it can only be sequential or external.
- STATIC_ASSERT(kIsIndirectStringMask == (kSlicedStringTag & kConsStringTag));
- STATIC_ASSERT(kIsIndirectStringMask != 0);
- __ And(t4, a1, Operand(kIsIndirectStringMask));
- // External string. Jump to runtime.
- __ Branch(&seq_or_external_string, eq, t4, Operand(zero_reg));
-
- __ And(t4, a1, Operand(kSlicedNotConsMask));
- __ Branch(&sliced_string, ne, t4, Operand(zero_reg));
- // Cons string. Check whether it is flat, then fetch first part.
- __ lw(t1, FieldMemOperand(v0, ConsString::kSecondOffset));
- __ LoadRoot(t5, Heap::kEmptyStringRootIndex);
- __ Branch(&sub_string_runtime, ne, t1, Operand(t5));
- __ lw(t1, FieldMemOperand(v0, ConsString::kFirstOffset));
- __ jmp(&allocate_slice);
-
- __ bind(&sliced_string);
- // Sliced string. Fetch parent and correct start index by offset.
- __ lw(t1, FieldMemOperand(v0, SlicedString::kOffsetOffset));
- __ addu(t3, t3, t1);
- __ lw(t1, FieldMemOperand(v0, SlicedString::kParentOffset));
- __ jmp(&allocate_slice);
-
- __ bind(&seq_or_external_string);
- // Sequential or external string. Just move string to the correct register.
- __ mov(t1, v0);
-
- __ bind(&allocate_slice);
- // a1: instance type of original string
- // a2: length
- // t1: underlying subject string
- // t3 (a.k.a. from): from offset (smi)
- // Allocate new sliced string. At this point we do not reload the instance
- // type including the string encoding because we simply rely on the info
- // provided by the original string. It does not matter if the original
- // string's encoding is wrong because we always have to recheck encoding of
- // the newly created string's parent anyways due to externalized strings.
- Label two_byte_slice, set_slice_header;
- STATIC_ASSERT((kStringEncodingMask & kAsciiStringTag) != 0);
- STATIC_ASSERT((kStringEncodingMask & kTwoByteStringTag) == 0);
- __ And(t4, a1, Operand(kStringEncodingMask));
- __ Branch(&two_byte_slice, eq, t4, Operand(zero_reg));
- __ AllocateAsciiSlicedString(v0, a2, a3, t0, &sub_string_runtime);
- __ jmp(&set_slice_header);
- __ bind(&two_byte_slice);
- __ AllocateTwoByteSlicedString(v0, a2, a3, t0, &sub_string_runtime);
- __ bind(&set_slice_header);
- __ sw(t3, FieldMemOperand(v0, SlicedString::kOffsetOffset));
- __ sw(t1, FieldMemOperand(v0, SlicedString::kParentOffset));
- }
__ bind(&return_v0);
+ Counters* counters = masm->isolate()->counters();
__ IncrementCounter(counters->sub_string_native(), 1, a3, t0);
- __ Addu(sp, sp, Operand(3 * kPointerSize));
- __ Ret();
+ __ DropAndRet(3);
// Just jump to runtime to create the sub string.
- __ bind(&sub_string_runtime);
+ __ bind(&runtime);
__ TailCallRuntime(Runtime::kSubString, 3, 1);
}
projects / platform / upstream / v8.git / commitdiff