runtime/vm/bitmap.cc - sdk.git - Git at Google

 // Copyright (c) 2012, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/bitmap.h"

 #include "platform/assert.h"
 #include "vm/object.h"

 namespace dart {

 void BitmapBuilder::SetLength(intptr_t new_length) {
   // When this function is used to shorten the length, affected bits in the
   // backing store need to be cleared because the implementation assumes it.
   if (new_length < length_) {
     // Byte offset containing the first bit to be cleared.
     intptr_t byte_offset = new_length >> kBitsPerByteLog2;
     if (byte_offset < data_size_in_bytes_) {
       // First bit index (in the byte) to be cleared.
       intptr_t bit_index = new_length & (kBitsPerByte - 1);
       intptr_t mask = (1 << bit_index) - 1;
       data_[byte_offset] &= mask;
       // Clear the rest.
       ++byte_offset;
       if (byte_offset < data_size_in_bytes_) {
         memset(&data_[byte_offset], 0, data_size_in_bytes_ - byte_offset);
       }
     }
   }
   length_ = new_length;
 }

 bool BitmapBuilder::Get(intptr_t bit_offset) const {
   if (!InRange(bit_offset)) {
     return false;
   }
   intptr_t byte_offset = bit_offset >> kBitsPerByteLog2;
   // Bits not covered by the backing store are implicitly false.
   return (byte_offset < data_size_in_bytes_) && GetBit(bit_offset);
 }

 void BitmapBuilder::Set(intptr_t bit_offset, bool value) {
   if (!InRange(bit_offset)) {
     length_ = bit_offset + 1;
     // Bits not covered by the backing store are implicitly false.
     if (!value) return;
     // Grow the backing store if necessary.
     intptr_t byte_offset = bit_offset >> kBitsPerByteLog2;
     if (byte_offset >= data_size_in_bytes_) {
       uint8_t* old_data = data_;
       intptr_t old_size = data_size_in_bytes_;
       data_size_in_bytes_ =
           Utils::RoundUp(byte_offset + 1, kIncrementSizeInBytes);
       ASSERT(data_size_in_bytes_ > 0);
       data_ = Thread::Current()->zone()->Alloc<uint8_t>(data_size_in_bytes_);
       ASSERT(data_ != NULL);
       memmove(data_, old_data, old_size);
       memset(&data_[old_size], 0, (data_size_in_bytes_ - old_size));
     }
   }
   SetBit(bit_offset, value);
 }

 void BitmapBuilder::SetRange(intptr_t min, intptr_t max, bool value) {
   for (intptr_t i = min; i <= max; i++) {
     Set(i, value);
   }
 }

 void BitmapBuilder::Print() const {
   for (intptr_t i = 0; i < Length(); i++) {
     if (Get(i)) {
       OS::PrintErr("1");
     } else {
       OS::PrintErr("0");
     }
   }
 }

 void BitmapBuilder::AppendAsBytesTo(BaseWriteStream* stream) const {
   // Early return if there are no bits in the payload to copy.
   if (Length() == 0) return;

   const intptr_t total_size =
       Utils::RoundUp(Length(), kBitsPerByte) / kBitsPerByte;
   intptr_t payload_size;
   intptr_t extra_size;
   if (total_size > data_size_in_bytes_) {
     // A [BitmapBuilder] does not allocate storage for the trailing 0 bits in
     // the backing store, so we need to add additional empty bytes here.
     payload_size = data_size_in_bytes_;
     extra_size = total_size - data_size_in_bytes_;
   } else {
     payload_size = total_size;
     extra_size = 0;
   }
 #if defined(DEBUG)
   // Make sure any bits in the payload beyond the bit length if we're not
   // appending trailing zeroes are cleared to ensure deterministic snapshots.
   if (extra_size == 0 && Length() % kBitsPerByte != 0) {
     const int8_t mask = (1 << (Length() % kBitsPerByte)) - 1;
     ASSERT_EQUAL(data_[payload_size - 1], (data_[payload_size - 1] & mask));
   }
 #endif
   for (intptr_t i = 0; i < payload_size; i++) {
     stream->WriteByte(data_[i]);
   }
   for (intptr_t i = 0; i < extra_size; i++) {
     stream->WriteByte(0U);
   }
 }

 bool BitmapBuilder::GetBit(intptr_t bit_offset) const {
   if (!InRange(bit_offset)) {
     return false;
   }
   intptr_t byte_offset = bit_offset >> kBitsPerByteLog2;
   ASSERT(byte_offset < data_size_in_bytes_);
   intptr_t bit_remainder = bit_offset & (kBitsPerByte - 1);
   uint8_t mask = 1U << bit_remainder;
   ASSERT(data_ != NULL);
   return ((data_[byte_offset] & mask) != 0);
 }

 void BitmapBuilder::SetBit(intptr_t bit_offset, bool value) {
   if (!InRange(bit_offset)) {
     FATAL1(
         "Fatal error in BitmapBuilder::SetBit :"
         " invalid bit_offset, %" Pd "\n",
         bit_offset);
   }
   intptr_t byte_offset = bit_offset >> kBitsPerByteLog2;
   ASSERT(byte_offset < data_size_in_bytes_);
   intptr_t bit_remainder = bit_offset & (kBitsPerByte - 1);
   uint8_t mask = 1U << bit_remainder;
   ASSERT(data_ != NULL);
   if (value) {
     data_[byte_offset] |= mask;
   } else {
     data_[byte_offset] &= ~mask;
   }
 }

 }  // namespace dart
	// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/bitmap.h"

	#include "platform/assert.h"
	#include "vm/object.h"

	namespace dart {

	void BitmapBuilder::SetLength(intptr_t new_length) {
	// When this function is used to shorten the length, affected bits in the
	// backing store need to be cleared because the implementation assumes it.
	if (new_length < length_) {
	// Byte offset containing the first bit to be cleared.
	intptr_t byte_offset = new_length >> kBitsPerByteLog2;
	if (byte_offset < data_size_in_bytes_) {
	// First bit index (in the byte) to be cleared.
	intptr_t bit_index = new_length & (kBitsPerByte - 1);
	intptr_t mask = (1 << bit_index) - 1;
	data_[byte_offset] &= mask;
	// Clear the rest.
	++byte_offset;
	if (byte_offset < data_size_in_bytes_) {
	memset(&data_[byte_offset], 0, data_size_in_bytes_ - byte_offset);
	}
	}
	}
	length_ = new_length;
	}

	bool BitmapBuilder::Get(intptr_t bit_offset) const {
	if (!InRange(bit_offset)) {
	return false;
	}
	intptr_t byte_offset = bit_offset >> kBitsPerByteLog2;
	// Bits not covered by the backing store are implicitly false.
	return (byte_offset < data_size_in_bytes_) && GetBit(bit_offset);
	}

	void BitmapBuilder::Set(intptr_t bit_offset, bool value) {
	if (!InRange(bit_offset)) {
	length_ = bit_offset + 1;
	// Bits not covered by the backing store are implicitly false.
	if (!value) return;
	// Grow the backing store if necessary.
	intptr_t byte_offset = bit_offset >> kBitsPerByteLog2;
	if (byte_offset >= data_size_in_bytes_) {
	uint8_t* old_data = data_;
	intptr_t old_size = data_size_in_bytes_;
	data_size_in_bytes_ =
	Utils::RoundUp(byte_offset + 1, kIncrementSizeInBytes);
	ASSERT(data_size_in_bytes_ > 0);
	data_ = Thread::Current()->zone()->Alloc<uint8_t>(data_size_in_bytes_);
	ASSERT(data_ != NULL);
	memmove(data_, old_data, old_size);
	memset(&data_[old_size], 0, (data_size_in_bytes_ - old_size));
	}
	}
	SetBit(bit_offset, value);
	}

	void BitmapBuilder::SetRange(intptr_t min, intptr_t max, bool value) {
	for (intptr_t i = min; i <= max; i++) {
	Set(i, value);
	}
	}

	void BitmapBuilder::Print() const {
	for (intptr_t i = 0; i < Length(); i++) {
	if (Get(i)) {
	OS::PrintErr("1");
	} else {
	OS::PrintErr("0");
	}
	}
	}

	void BitmapBuilder::AppendAsBytesTo(BaseWriteStream* stream) const {
	// Early return if there are no bits in the payload to copy.
	if (Length() == 0) return;

	const intptr_t total_size =
	Utils::RoundUp(Length(), kBitsPerByte) / kBitsPerByte;
	intptr_t payload_size;
	intptr_t extra_size;
	if (total_size > data_size_in_bytes_) {
	// A [BitmapBuilder] does not allocate storage for the trailing 0 bits in
	// the backing store, so we need to add additional empty bytes here.
	payload_size = data_size_in_bytes_;
	extra_size = total_size - data_size_in_bytes_;
	} else {
	payload_size = total_size;
	extra_size = 0;
	}
	#if defined(DEBUG)
	// Make sure any bits in the payload beyond the bit length if we're not
	// appending trailing zeroes are cleared to ensure deterministic snapshots.
	if (extra_size == 0 && Length() % kBitsPerByte != 0) {
	const int8_t mask = (1 << (Length() % kBitsPerByte)) - 1;
	ASSERT_EQUAL(data_[payload_size - 1], (data_[payload_size - 1] & mask));
	}
	#endif
	for (intptr_t i = 0; i < payload_size; i++) {
	stream->WriteByte(data_[i]);
	}
	for (intptr_t i = 0; i < extra_size; i++) {
	stream->WriteByte(0U);
	}
	}

	bool BitmapBuilder::GetBit(intptr_t bit_offset) const {
	if (!InRange(bit_offset)) {
	return false;
	}
	intptr_t byte_offset = bit_offset >> kBitsPerByteLog2;
	ASSERT(byte_offset < data_size_in_bytes_);
	intptr_t bit_remainder = bit_offset & (kBitsPerByte - 1);
	uint8_t mask = 1U << bit_remainder;
	ASSERT(data_ != NULL);
	return ((data_[byte_offset] & mask) != 0);
	}

	void BitmapBuilder::SetBit(intptr_t bit_offset, bool value) {
	if (!InRange(bit_offset)) {
	FATAL1(
	"Fatal error in BitmapBuilder::SetBit :"
	" invalid bit_offset, %" Pd "\n",
	bit_offset);
	}
	intptr_t byte_offset = bit_offset >> kBitsPerByteLog2;
	ASSERT(byte_offset < data_size_in_bytes_);
	intptr_t bit_remainder = bit_offset & (kBitsPerByte - 1);
	uint8_t mask = 1U << bit_remainder;
	ASSERT(data_ != NULL);
	if (value) {
	data_[byte_offset] \|= mask;
	} else {
	data_[byte_offset] &= ~mask;
	}
	}

	} // namespace dart