content/common/inter_process_time_ticks_converter.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "content/common/inter_process_time_ticks_converter.h"

 #include "base/logging.h"
 #include "base/strings/string_number_conversions.h"

 namespace content {

 InterProcessTimeTicksConverter::InterProcessTimeTicksConverter(
     const LocalTimeTicks& local_lower_bound,
     const LocalTimeTicks& local_upper_bound,
     const RemoteTimeTicks& remote_lower_bound,
     const RemoteTimeTicks& remote_upper_bound)
     : remote_lower_bound_(remote_lower_bound.value_),
       remote_upper_bound_(remote_upper_bound.value_) {
   int64 target_range = local_upper_bound.value_ - local_lower_bound.value_;
   int64 source_range = remote_upper_bound.value_ - remote_lower_bound.value_;
   DCHECK_GE(target_range, 0);
   DCHECK_GE(source_range, 0);
   if (source_range <= target_range) {
     // We fit!  Center the source range on the target range.
     numerator_ = 1;
     denominator_ = 1;
     local_base_time_ =
         local_lower_bound.value_ + (target_range - source_range) / 2;
     // When converting times, remote bounds should fall within local bounds.
     DCHECK_LE(local_lower_bound.value_,
               ToLocalTimeTicks(remote_lower_bound).value_);
     DCHECK_GE(local_upper_bound.value_,
               ToLocalTimeTicks(remote_upper_bound).value_);
     return;
   }

   // Interpolate values so that remote range will be will exactly fit into the
   // local range, if possible.
   numerator_ = target_range;
   denominator_ = source_range;
   local_base_time_ = local_lower_bound.value_;
   // When converting times, remote bounds should equal local bounds.
   DCHECK_EQ(local_lower_bound.value_,
             ToLocalTimeTicks(remote_lower_bound).value_);
   DCHECK_EQ(local_upper_bound.value_,
             ToLocalTimeTicks(remote_upper_bound).value_);
   DCHECK_EQ(target_range, Convert(source_range));
 }

 LocalTimeTicks InterProcessTimeTicksConverter::ToLocalTimeTicks(
     const RemoteTimeTicks& remote_ms) const {
   // If input time is "null", return another "null" time.
   if (remote_ms.value_ == 0)
     return LocalTimeTicks(0);
   DCHECK_LE(remote_lower_bound_, remote_ms.value_);
   DCHECK_GE(remote_upper_bound_, remote_ms.value_);
   RemoteTimeDelta remote_delta = remote_ms - remote_lower_bound_;
   return LocalTimeTicks(local_base_time_ +
                         ToLocalTimeDelta(remote_delta).value_);
 }

 LocalTimeDelta InterProcessTimeTicksConverter::ToLocalTimeDelta(
     const RemoteTimeDelta& remote_delta) const {
   DCHECK_GE(remote_upper_bound_, remote_lower_bound_ + remote_delta.value_);
   return LocalTimeDelta(Convert(remote_delta.value_));
 }

 int64 InterProcessTimeTicksConverter::Convert(int64 value) const {
   if (value <= 0) {
     return value;
   }
   return numerator_ * value / denominator_;
 }

 }  // namespace content
	// Copyright (c) 2011 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "content/common/inter_process_time_ticks_converter.h"

	#include "base/logging.h"
	#include "base/strings/string_number_conversions.h"

	namespace content {

	InterProcessTimeTicksConverter::InterProcessTimeTicksConverter(
	const LocalTimeTicks& local_lower_bound,
	const LocalTimeTicks& local_upper_bound,
	const RemoteTimeTicks& remote_lower_bound,
	const RemoteTimeTicks& remote_upper_bound)
	: remote_lower_bound_(remote_lower_bound.value_),
	remote_upper_bound_(remote_upper_bound.value_) {
	int64 target_range = local_upper_bound.value_ - local_lower_bound.value_;
	int64 source_range = remote_upper_bound.value_ - remote_lower_bound.value_;
	DCHECK_GE(target_range, 0);
	DCHECK_GE(source_range, 0);
	if (source_range <= target_range) {
	// We fit! Center the source range on the target range.
	numerator_ = 1;
	denominator_ = 1;
	local_base_time_ =
	local_lower_bound.value_ + (target_range - source_range) / 2;
	// When converting times, remote bounds should fall within local bounds.
	DCHECK_LE(local_lower_bound.value_,
	ToLocalTimeTicks(remote_lower_bound).value_);
	DCHECK_GE(local_upper_bound.value_,
	ToLocalTimeTicks(remote_upper_bound).value_);
	return;
	}

	// Interpolate values so that remote range will be will exactly fit into the
	// local range, if possible.
	numerator_ = target_range;
	denominator_ = source_range;
	local_base_time_ = local_lower_bound.value_;
	// When converting times, remote bounds should equal local bounds.
	DCHECK_EQ(local_lower_bound.value_,
	ToLocalTimeTicks(remote_lower_bound).value_);
	DCHECK_EQ(local_upper_bound.value_,
	ToLocalTimeTicks(remote_upper_bound).value_);
	DCHECK_EQ(target_range, Convert(source_range));
	}

	LocalTimeTicks InterProcessTimeTicksConverter::ToLocalTimeTicks(
	const RemoteTimeTicks& remote_ms) const {
	// If input time is "null", return another "null" time.
	if (remote_ms.value_ == 0)
	return LocalTimeTicks(0);
	DCHECK_LE(remote_lower_bound_, remote_ms.value_);
	DCHECK_GE(remote_upper_bound_, remote_ms.value_);
	RemoteTimeDelta remote_delta = remote_ms - remote_lower_bound_;
	return LocalTimeTicks(local_base_time_ +
	ToLocalTimeDelta(remote_delta).value_);
	}

	LocalTimeDelta InterProcessTimeTicksConverter::ToLocalTimeDelta(
	const RemoteTimeDelta& remote_delta) const {
	DCHECK_GE(remote_upper_bound_, remote_lower_bound_ + remote_delta.value_);
	return LocalTimeDelta(Convert(remote_delta.value_));
	}

	int64 InterProcessTimeTicksConverter::Convert(int64 value) const {
	if (value <= 0) {
	return value;
	}
	return numerator_ * value / denominator_;
	}

	} // namespace content