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Stylistic changes for RangeMap (#24). r=bryner
http://groups.google.com/group/airbag-dev/browse_thread/thread/97c378bd175ab7c0 git-svn-id: http://google-breakpad.googlecode.com/svn/trunk@25 4c0a9323-5329-0410-9bdc-e9ce6186880e
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@ -32,9 +32,6 @@
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namespace google_airbag {
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using std::map;
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template<typename AddressType, typename EntryType>
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class RangeMap {
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public:
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@ -43,13 +40,13 @@ class RangeMap {
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// Inserts a range into the map. Returns false for a parameter error,
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// or if the location of the range would conflict with a range already
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// stored in the map.
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bool StoreRange(const AddressType& base,
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const AddressType& size,
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const EntryType& entry);
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bool StoreRange(const AddressType &base,
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const AddressType &size,
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const EntryType &entry);
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// Locates the range encompassing the supplied address. If there is
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// no such range, or if there is a parameter error, returns false.
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bool RetrieveRange(const AddressType& address, EntryType* entry) const;
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bool RetrieveRange(const AddressType &address, EntryType *entry) const;
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// Empties the range map, restoring it to the state it was when it was
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// initially created.
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@ -58,7 +55,7 @@ class RangeMap {
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private:
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class Range {
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public:
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Range(const AddressType& base, const EntryType& entry)
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Range(const AddressType &base, const EntryType &entry)
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: base_(base), entry_(entry) {}
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AddressType base() const { return base_; }
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@ -69,13 +66,12 @@ class RangeMap {
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// be stored, because RangeMap uses it as the key to the map.
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const AddressType base_;
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// The entry, owned by the Range object.
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const EntryType entry_;
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// The entry corresponding to a range.
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const EntryType entry_;
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};
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typedef map<AddressType, Range> AddressToRangeMap;
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// Can't depend on implicit typenames in a template
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// Convenience types.
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typedef std::map<AddressType, Range> AddressToRangeMap;
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typedef typename AddressToRangeMap::const_iterator const_iterator;
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typedef typename AddressToRangeMap::value_type value_type;
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@ -85,9 +81,9 @@ class RangeMap {
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template<typename AddressType, typename EntryType>
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bool RangeMap<AddressType, EntryType>::StoreRange(const AddressType& base,
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const AddressType& size,
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const EntryType& entry) {
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bool RangeMap<AddressType, EntryType>::StoreRange(const AddressType &base,
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const AddressType &size,
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const EntryType &entry) {
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AddressType high = base + size - 1;
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// Check for undersize or overflow.
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@ -124,8 +120,7 @@ bool RangeMap<AddressType, EntryType>::StoreRange(const AddressType& base,
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template<typename AddressType, typename EntryType>
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bool RangeMap<AddressType, EntryType>::RetrieveRange(
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const AddressType& address,
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EntryType* entry) const {
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const AddressType &address, EntryType *entry) const {
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if (!entry)
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return false;
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@ -152,7 +147,7 @@ void RangeMap<AddressType, EntryType>::Clear() {
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}
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} // namespace google_airbag
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} // namespace google_airbag
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#endif // PROCESSOR_RANGE_MAP_H__
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#endif // PROCESSOR_RANGE_MAP_H__
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@ -17,9 +17,8 @@
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// Author: Mark Mentovai
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#include <stdio.h>
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#include <climits>
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#include <cstdio>
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#include <memory>
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#include "processor/range_map.h"
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@ -33,8 +32,8 @@ using google_airbag::RangeMap;
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// allocated CountedObjects is maintained to help test memory management.
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class CountedObject {
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public:
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CountedObject(int id) : id_(id) { ++count_; }
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CountedObject(const CountedObject& that) : id_(that.id_) { ++count_; }
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explicit CountedObject(int id) : id_(id) { ++count_; }
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CountedObject(const CountedObject &that) : id_(that.id_) { ++count_; }
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~CountedObject() { --count_; }
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static int count() { return count_; }
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@ -42,7 +41,7 @@ class CountedObject {
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private:
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static int count_;
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int id_;
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int id_;
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};
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int CountedObject::count_;
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@ -62,10 +61,10 @@ struct RangeTest {
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AddressType size;
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// Unique ID of range - unstorable ranges must have unique IDs too
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int id;
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int id;
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// Whether this range is expected to be stored successfully or not
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bool expect_storable;
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bool expect_storable;
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};
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@ -73,17 +72,17 @@ struct RangeTest {
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// sequence on the same RangeMap.
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struct RangeTestSet {
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// An array of RangeTests
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const RangeTest* range_tests;
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const RangeTest *range_tests;
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// The number of tests in the set
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unsigned int range_test_count;
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unsigned int range_test_count;
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};
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// StoreTest uses the data in a RangeTest and calls StoreRange on the
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// test RangeMap. It returns true if the expected result occurred, and
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// false if something else happened.
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bool StoreTest(TestMap* range_map, const RangeTest* range_test) {
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bool StoreTest(TestMap *range_map, const RangeTest *range_test) {
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CountedObject object(range_test->id);
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bool stored = range_map->StoreRange(range_test->address,
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range_test->size,
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@ -107,7 +106,7 @@ bool StoreTest(TestMap* range_map, const RangeTest* range_test) {
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// map entry at the specified range,) it returns true, otherwise, it returns
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// false. RetrieveTest will check the values around the base address and
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// the high address of a range to guard against off-by-one errors.
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bool RetrieveTest(TestMap* range_map, const RangeTest* range_test) {
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bool RetrieveTest(TestMap *range_map, const RangeTest *range_test) {
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for (unsigned int side = 0; side <= 1; ++side) {
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// When side == 0, check the low side (base address) of each range.
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// When side == 1, check the high side (base + size) of each range.
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@ -122,10 +121,10 @@ bool RetrieveTest(TestMap* range_map, const RangeTest* range_test) {
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AddressType low_offset = -1;
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AddressType high_offset = 1;
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if (range_test->size == 1) {
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if (!side) // when checking the low side,
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high_offset = 0; // don't check one over the target
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else // when checking the high side,
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low_offset = 0; // don't check one under the target
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if (!side) // When checking the low side,
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high_offset = 0; // don't check one over the target.
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else // When checking the high side,
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low_offset = 0; // don't check one under the target.
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}
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for (AddressType offset = low_offset; offset <= high_offset; ++offset) {
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@ -134,14 +133,14 @@ bool RetrieveTest(TestMap* range_map, const RangeTest* range_test) {
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(!side ? range_test->address :
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range_test->address + range_test->size - 1);
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bool expected_result = false; // correct for tests not stored
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bool expected_result = false; // This is correct for tests not stored.
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if (range_test->expect_storable) {
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if (offset == 0) // when checking target,
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expected_result = true; // should always succeed
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else if (offset == -1) // when checking one below target,
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expected_result = side; // should fail low and succeed high
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else // when checking one above target,
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expected_result = !side; // should succeed low and fail high
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if (offset == 0) // When checking the target address,
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expected_result = true; // test should always succeed.
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else if (offset == -1) // When checking one below the target,
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expected_result = side; // should fail low and succeed high.
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else // When checking one above the target,
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expected_result = !side; // should succeed low and fail high.
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}
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CountedObject object(-1);
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@ -149,7 +148,7 @@ bool RetrieveTest(TestMap* range_map, const RangeTest* range_test) {
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bool observed_result = retrieved && object.id() == range_test->id;
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if (observed_result != expected_result) {
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if (observed_result != expected_result) {
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fprintf(stderr, "FAILED: "
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"RetrieveRange id %d, side %d, offset %d, "
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"expected %s, observed %s\n",
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@ -267,7 +266,7 @@ bool RunTests() {
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for (unsigned int range_test_set_index = 0;
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range_test_set_index < range_test_set_count;
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++range_test_set_index) {
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const RangeTest* range_tests =
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const RangeTest *range_tests =
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range_test_sets[range_test_set_index].range_tests;
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unsigned int range_test_count =
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range_test_sets[range_test_set_index].range_test_count;
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@ -278,7 +277,7 @@ bool RunTests() {
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for (unsigned int range_test_index = 0;
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range_test_index < range_test_count;
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++range_test_index) {
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const RangeTest* range_test = &range_tests[range_test_index];
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const RangeTest *range_test = &range_tests[range_test_index];
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if (!StoreTest(range_map.get(), range_test))
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return false;
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@ -301,7 +300,7 @@ bool RunTests() {
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for (unsigned int range_test_index = 0;
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range_test_index < range_test_count;
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++range_test_index) {
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const RangeTest* range_test = &range_tests[range_test_index];
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const RangeTest *range_test = &range_tests[range_test_index];
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if (!RetrieveTest(range_map.get(), range_test))
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return false;
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}
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@ -329,6 +328,6 @@ bool RunTests() {
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return true;
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}
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int main(int argc, char** argv) {
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int main(int argc, char **argv) {
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return RunTests() ? 0 : 1;
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}
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