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Issue 12440041: Generalizing remaining Allocate functions in the macro assemblers used in pretenuring. (Closed) Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge
Patch Set: Created 7 years, 9 months ago
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1 // Copyright 2012 the V8 project authors. All rights reserved. 1 // Copyright 2012 the V8 project authors. All rights reserved.
2 // Redistribution and use in source and binary forms, with or without 2 // Redistribution and use in source and binary forms, with or without
3 // modification, are permitted provided that the following conditions are 3 // modification, are permitted provided that the following conditions are
4 // met: 4 // met:
5 // 5 //
6 // * Redistributions of source code must retain the above copyright 6 // * Redistributions of source code must retain the above copyright
7 // notice, this list of conditions and the following disclaimer. 7 // notice, this list of conditions and the following disclaimer.
8 // * Redistributions in binary form must reproduce the above 8 // * Redistributions in binary form must reproduce the above
9 // copyright notice, this list of conditions and the following 9 // copyright notice, this list of conditions and the following
10 // disclaimer in the documentation and/or other materials provided 10 // disclaimer in the documentation and/or other materials provided
(...skipping 1314 matching lines...) Expand 10 before | Expand all | Expand 10 after
1325 } else { 1325 } else {
1326 sub(result, Immediate(object_size)); 1326 sub(result, Immediate(object_size));
1327 } 1327 }
1328 } else if (tag_result) { 1328 } else if (tag_result) {
1329 ASSERT(kHeapObjectTag == 1); 1329 ASSERT(kHeapObjectTag == 1);
1330 inc(result); 1330 inc(result);
1331 } 1331 }
1332 } 1332 }
1333 1333
1334 1334
1335 void MacroAssembler::AllocateInNewSpace( 1335 void MacroAssembler::Allocate(int header_size,
1336 int header_size, 1336 ScaleFactor element_size,
1337 ScaleFactor element_size, 1337 Register element_count,
1338 Register element_count, 1338 RegisterValueType element_count_type,
1339 RegisterValueType element_count_type, 1339 Register result,
1340 Register result, 1340 Register result_end,
1341 Register result_end, 1341 Register scratch,
1342 Register scratch, 1342 Label* gc_required,
1343 Label* gc_required, 1343 AllocationFlags flags) {
1344 AllocationFlags flags) {
1345 ASSERT((flags & SIZE_IN_WORDS) == 0); 1344 ASSERT((flags & SIZE_IN_WORDS) == 0);
1346 ASSERT((flags & PRETENURE_OLD_POINTER_SPACE) == 0);
1347 if (!FLAG_inline_new) { 1345 if (!FLAG_inline_new) {
1348 if (emit_debug_code()) { 1346 if (emit_debug_code()) {
1349 // Trash the registers to simulate an allocation failure. 1347 // Trash the registers to simulate an allocation failure.
1350 mov(result, Immediate(0x7091)); 1348 mov(result, Immediate(0x7091));
1351 mov(result_end, Immediate(0x7191)); 1349 mov(result_end, Immediate(0x7191));
1352 if (scratch.is_valid()) { 1350 if (scratch.is_valid()) {
1353 mov(scratch, Immediate(0x7291)); 1351 mov(scratch, Immediate(0x7291));
1354 } 1352 }
1355 // Register element_count is not modified by the function. 1353 // Register element_count is not modified by the function.
1356 } 1354 }
1357 jmp(gc_required); 1355 jmp(gc_required);
1358 return; 1356 return;
1359 } 1357 }
1360 ASSERT(!result.is(result_end)); 1358 ASSERT(!result.is(result_end));
1361 1359
1362 // Load address of new object into result. 1360 // Load address of new object into result.
1363 LoadAllocationTopHelper(result, scratch, flags); 1361 LoadAllocationTopHelper(result, scratch, flags);
1364 1362
1365 // Align the next allocation. Storing the filler map without checking top is 1363 // Align the next allocation. Storing the filler map without checking top is
1366 // always safe because the limit of the heap is always aligned. 1364 // always safe because the limit of the heap is always aligned.
1367 if ((flags & DOUBLE_ALIGNMENT) != 0) { 1365 if ((flags & DOUBLE_ALIGNMENT) != 0) {
1366 ASSERT((flags & PRETENURE_OLD_POINTER_SPACE) == 0);
1368 ASSERT(kPointerAlignment * 2 == kDoubleAlignment); 1367 ASSERT(kPointerAlignment * 2 == kDoubleAlignment);
1369 Label aligned; 1368 Label aligned;
1370 test(result, Immediate(kDoubleAlignmentMask)); 1369 test(result, Immediate(kDoubleAlignmentMask));
1371 j(zero, &aligned, Label::kNear); 1370 j(zero, &aligned, Label::kNear);
1372 mov(Operand(result, 0), 1371 mov(Operand(result, 0),
1373 Immediate(isolate()->factory()->one_pointer_filler_map())); 1372 Immediate(isolate()->factory()->one_pointer_filler_map()));
1374 add(result, Immediate(kDoubleSize / 2)); 1373 add(result, Immediate(kDoubleSize / 2));
1375 bind(&aligned); 1374 bind(&aligned);
1376 } 1375 }
1377 1376
1378 // Calculate new top and bail out if new space is exhausted. 1377 // Calculate new top and bail out if space is exhausted.
1379 ExternalReference new_space_allocation_limit = 1378 ExternalReference allocation_limit =
1380 ExternalReference::new_space_allocation_limit_address(isolate()); 1379 AllocationUtils::GetAllocationLimitReference(isolate(), flags);
1381 1380
1382 // We assume that element_count*element_size + header_size does not 1381 // We assume that element_count*element_size + header_size does not
1383 // overflow. 1382 // overflow.
1384 if (element_count_type == REGISTER_VALUE_IS_SMI) { 1383 if (element_count_type == REGISTER_VALUE_IS_SMI) {
1385 STATIC_ASSERT(static_cast<ScaleFactor>(times_2 - 1) == times_1); 1384 STATIC_ASSERT(static_cast<ScaleFactor>(times_2 - 1) == times_1);
1386 STATIC_ASSERT(static_cast<ScaleFactor>(times_4 - 1) == times_2); 1385 STATIC_ASSERT(static_cast<ScaleFactor>(times_4 - 1) == times_2);
1387 STATIC_ASSERT(static_cast<ScaleFactor>(times_8 - 1) == times_4); 1386 STATIC_ASSERT(static_cast<ScaleFactor>(times_8 - 1) == times_4);
1388 ASSERT(element_size >= times_2); 1387 ASSERT(element_size >= times_2);
1389 ASSERT(kSmiTagSize == 1); 1388 ASSERT(kSmiTagSize == 1);
1390 element_size = static_cast<ScaleFactor>(element_size - 1); 1389 element_size = static_cast<ScaleFactor>(element_size - 1);
1391 } else { 1390 } else {
1392 ASSERT(element_count_type == REGISTER_VALUE_IS_INT32); 1391 ASSERT(element_count_type == REGISTER_VALUE_IS_INT32);
1393 } 1392 }
1394 lea(result_end, Operand(element_count, element_size, header_size)); 1393 lea(result_end, Operand(element_count, element_size, header_size));
1395 add(result_end, result); 1394 add(result_end, result);
1396 j(carry, gc_required); 1395 j(carry, gc_required);
1397 cmp(result_end, Operand::StaticVariable(new_space_allocation_limit)); 1396 cmp(result_end, Operand::StaticVariable(allocation_limit));
1398 j(above, gc_required); 1397 j(above, gc_required);
1399 1398
1400 if ((flags & TAG_OBJECT) != 0) { 1399 if ((flags & TAG_OBJECT) != 0) {
1401 ASSERT(kHeapObjectTag == 1); 1400 ASSERT(kHeapObjectTag == 1);
1402 inc(result); 1401 inc(result);
1403 } 1402 }
1404 1403
1405 // Update allocation top. 1404 // Update allocation top.
1406 UpdateAllocationTopHelper(result_end, scratch, flags); 1405 UpdateAllocationTopHelper(result_end, scratch, flags);
1407 } 1406 }
1408 1407
1409 1408
1410 void MacroAssembler::AllocateInNewSpace(Register object_size, 1409 void MacroAssembler::Allocate(Register object_size,
1411 Register result, 1410 Register result,
1412 Register result_end, 1411 Register result_end,
1413 Register scratch, 1412 Register scratch,
1414 Label* gc_required, 1413 Label* gc_required,
1415 AllocationFlags flags) { 1414 AllocationFlags flags) {
1416 ASSERT((flags & (RESULT_CONTAINS_TOP | SIZE_IN_WORDS)) == 0); 1415 ASSERT((flags & (RESULT_CONTAINS_TOP | SIZE_IN_WORDS)) == 0);
1417 ASSERT((flags & PRETENURE_OLD_POINTER_SPACE) == 0);
1418 if (!FLAG_inline_new) { 1416 if (!FLAG_inline_new) {
1419 if (emit_debug_code()) { 1417 if (emit_debug_code()) {
1420 // Trash the registers to simulate an allocation failure. 1418 // Trash the registers to simulate an allocation failure.
1421 mov(result, Immediate(0x7091)); 1419 mov(result, Immediate(0x7091));
1422 mov(result_end, Immediate(0x7191)); 1420 mov(result_end, Immediate(0x7191));
1423 if (scratch.is_valid()) { 1421 if (scratch.is_valid()) {
1424 mov(scratch, Immediate(0x7291)); 1422 mov(scratch, Immediate(0x7291));
1425 } 1423 }
1426 // object_size is left unchanged by this function. 1424 // object_size is left unchanged by this function.
1427 } 1425 }
1428 jmp(gc_required); 1426 jmp(gc_required);
1429 return; 1427 return;
1430 } 1428 }
1431 ASSERT(!result.is(result_end)); 1429 ASSERT(!result.is(result_end));
1432 1430
1433 // Load address of new object into result. 1431 // Load address of new object into result.
1434 LoadAllocationTopHelper(result, scratch, flags); 1432 LoadAllocationTopHelper(result, scratch, flags);
1435 1433
1436 // Align the next allocation. Storing the filler map without checking top is 1434 // Align the next allocation. Storing the filler map without checking top is
1437 // always safe because the limit of the heap is always aligned. 1435 // always safe because the limit of the heap is always aligned.
1438 if ((flags & DOUBLE_ALIGNMENT) != 0) { 1436 if ((flags & DOUBLE_ALIGNMENT) != 0) {
1437 ASSERT((flags & PRETENURE_OLD_POINTER_SPACE) == 0);
1439 ASSERT(kPointerAlignment * 2 == kDoubleAlignment); 1438 ASSERT(kPointerAlignment * 2 == kDoubleAlignment);
1440 Label aligned; 1439 Label aligned;
1441 test(result, Immediate(kDoubleAlignmentMask)); 1440 test(result, Immediate(kDoubleAlignmentMask));
1442 j(zero, &aligned, Label::kNear); 1441 j(zero, &aligned, Label::kNear);
1443 mov(Operand(result, 0), 1442 mov(Operand(result, 0),
1444 Immediate(isolate()->factory()->one_pointer_filler_map())); 1443 Immediate(isolate()->factory()->one_pointer_filler_map()));
1445 add(result, Immediate(kDoubleSize / 2)); 1444 add(result, Immediate(kDoubleSize / 2));
1446 bind(&aligned); 1445 bind(&aligned);
1447 } 1446 }
1448 1447
1449 // Calculate new top and bail out if new space is exhausted. 1448 // Calculate new top and bail out if space is exhausted.
1450 ExternalReference new_space_allocation_limit = 1449 ExternalReference allocation_limit =
1451 ExternalReference::new_space_allocation_limit_address(isolate()); 1450 AllocationUtils::GetAllocationLimitReference(isolate(), flags);
1451
1452 if (!object_size.is(result_end)) { 1452 if (!object_size.is(result_end)) {
1453 mov(result_end, object_size); 1453 mov(result_end, object_size);
1454 } 1454 }
1455 add(result_end, result); 1455 add(result_end, result);
1456 j(carry, gc_required); 1456 j(carry, gc_required);
1457 cmp(result_end, Operand::StaticVariable(new_space_allocation_limit)); 1457 cmp(result_end, Operand::StaticVariable(allocation_limit));
1458 j(above, gc_required); 1458 j(above, gc_required);
1459 1459
1460 // Tag result if requested. 1460 // Tag result if requested.
1461 if ((flags & TAG_OBJECT) != 0) { 1461 if ((flags & TAG_OBJECT) != 0) {
1462 ASSERT(kHeapObjectTag == 1); 1462 ASSERT(kHeapObjectTag == 1);
1463 inc(result); 1463 inc(result);
1464 } 1464 }
1465 1465
1466 // Update allocation top. 1466 // Update allocation top.
1467 UpdateAllocationTopHelper(result_end, scratch, flags); 1467 UpdateAllocationTopHelper(result_end, scratch, flags);
(...skipping 36 matching lines...) Expand 10 before | Expand all | Expand 10 after
1504 Label* gc_required) { 1504 Label* gc_required) {
1505 // Calculate the number of bytes needed for the characters in the string while 1505 // Calculate the number of bytes needed for the characters in the string while
1506 // observing object alignment. 1506 // observing object alignment.
1507 ASSERT((SeqTwoByteString::kHeaderSize & kObjectAlignmentMask) == 0); 1507 ASSERT((SeqTwoByteString::kHeaderSize & kObjectAlignmentMask) == 0);
1508 ASSERT(kShortSize == 2); 1508 ASSERT(kShortSize == 2);
1509 // scratch1 = length * 2 + kObjectAlignmentMask. 1509 // scratch1 = length * 2 + kObjectAlignmentMask.
1510 lea(scratch1, Operand(length, length, times_1, kObjectAlignmentMask)); 1510 lea(scratch1, Operand(length, length, times_1, kObjectAlignmentMask));
1511 and_(scratch1, Immediate(~kObjectAlignmentMask)); 1511 and_(scratch1, Immediate(~kObjectAlignmentMask));
1512 1512
1513 // Allocate two byte string in new space. 1513 // Allocate two byte string in new space.
1514 AllocateInNewSpace(SeqTwoByteString::kHeaderSize, 1514 Allocate(SeqTwoByteString::kHeaderSize,
1515 times_1, 1515 times_1,
1516 scratch1, 1516 scratch1,
1517 REGISTER_VALUE_IS_INT32, 1517 REGISTER_VALUE_IS_INT32,
1518 result, 1518 result,
1519 scratch2, 1519 scratch2,
1520 scratch3, 1520 scratch3,
1521 gc_required, 1521 gc_required,
1522 TAG_OBJECT); 1522 TAG_OBJECT);
1523 1523
1524 // Set the map, length and hash field. 1524 // Set the map, length and hash field.
1525 mov(FieldOperand(result, HeapObject::kMapOffset), 1525 mov(FieldOperand(result, HeapObject::kMapOffset),
1526 Immediate(isolate()->factory()->string_map())); 1526 Immediate(isolate()->factory()->string_map()));
1527 mov(scratch1, length); 1527 mov(scratch1, length);
1528 SmiTag(scratch1); 1528 SmiTag(scratch1);
1529 mov(FieldOperand(result, String::kLengthOffset), scratch1); 1529 mov(FieldOperand(result, String::kLengthOffset), scratch1);
1530 mov(FieldOperand(result, String::kHashFieldOffset), 1530 mov(FieldOperand(result, String::kHashFieldOffset),
1531 Immediate(String::kEmptyHashField)); 1531 Immediate(String::kEmptyHashField));
1532 } 1532 }
1533 1533
1534 1534
1535 void MacroAssembler::AllocateAsciiString(Register result, 1535 void MacroAssembler::AllocateAsciiString(Register result,
1536 Register length, 1536 Register length,
1537 Register scratch1, 1537 Register scratch1,
1538 Register scratch2, 1538 Register scratch2,
1539 Register scratch3, 1539 Register scratch3,
1540 Label* gc_required) { 1540 Label* gc_required) {
1541 // Calculate the number of bytes needed for the characters in the string while 1541 // Calculate the number of bytes needed for the characters in the string while
1542 // observing object alignment. 1542 // observing object alignment.
1543 ASSERT((SeqOneByteString::kHeaderSize & kObjectAlignmentMask) == 0); 1543 ASSERT((SeqOneByteString::kHeaderSize & kObjectAlignmentMask) == 0);
1544 mov(scratch1, length); 1544 mov(scratch1, length);
1545 ASSERT(kCharSize == 1); 1545 ASSERT(kCharSize == 1);
1546 add(scratch1, Immediate(kObjectAlignmentMask)); 1546 add(scratch1, Immediate(kObjectAlignmentMask));
1547 and_(scratch1, Immediate(~kObjectAlignmentMask)); 1547 and_(scratch1, Immediate(~kObjectAlignmentMask));
1548 1548
1549 // Allocate ASCII string in new space. 1549 // Allocate ASCII string in new space.
1550 AllocateInNewSpace(SeqOneByteString::kHeaderSize, 1550 Allocate(SeqOneByteString::kHeaderSize,
1551 times_1, 1551 times_1,
1552 scratch1, 1552 scratch1,
1553 REGISTER_VALUE_IS_INT32, 1553 REGISTER_VALUE_IS_INT32,
1554 result, 1554 result,
1555 scratch2, 1555 scratch2,
1556 scratch3, 1556 scratch3,
1557 gc_required, 1557 gc_required,
1558 TAG_OBJECT); 1558 TAG_OBJECT);
1559 1559
1560 // Set the map, length and hash field. 1560 // Set the map, length and hash field.
1561 mov(FieldOperand(result, HeapObject::kMapOffset), 1561 mov(FieldOperand(result, HeapObject::kMapOffset),
1562 Immediate(isolate()->factory()->ascii_string_map())); 1562 Immediate(isolate()->factory()->ascii_string_map()));
1563 mov(scratch1, length); 1563 mov(scratch1, length);
1564 SmiTag(scratch1); 1564 SmiTag(scratch1);
1565 mov(FieldOperand(result, String::kLengthOffset), scratch1); 1565 mov(FieldOperand(result, String::kLengthOffset), scratch1);
1566 mov(FieldOperand(result, String::kHashFieldOffset), 1566 mov(FieldOperand(result, String::kHashFieldOffset),
1567 Immediate(String::kEmptyHashField)); 1567 Immediate(String::kEmptyHashField));
1568 } 1568 }
(...skipping 1528 matching lines...) Expand 10 before | Expand all | Expand 10 after
3097 j(greater, &no_info_available); 3097 j(greater, &no_info_available);
3098 cmp(MemOperand(scratch_reg, -AllocationSiteInfo::kSize), 3098 cmp(MemOperand(scratch_reg, -AllocationSiteInfo::kSize),
3099 Immediate(Handle<Map>(isolate()->heap()->allocation_site_info_map()))); 3099 Immediate(Handle<Map>(isolate()->heap()->allocation_site_info_map())));
3100 bind(&no_info_available); 3100 bind(&no_info_available);
3101 } 3101 }
3102 3102
3103 3103
3104 } } // namespace v8::internal 3104 } } // namespace v8::internal
3105 3105
3106 #endif // V8_TARGET_ARCH_IA32 3106 #endif // V8_TARGET_ARCH_IA32
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