| Index: test/cctest/test-bitrange.cc
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| diff --git a/test/cctest/test-bitrange.cc b/test/cctest/test-bitrange.cc
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| deleted file mode 100644
|
| index 44e751dbf617db6293518641e3201ea88790e303..0000000000000000000000000000000000000000
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| --- a/test/cctest/test-bitrange.cc
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| +++ /dev/null
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| @@ -1,255 +0,0 @@
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| -// Copyright 2013 the V8 project authors. All rights reserved.
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| -// Redistribution and use in source and binary forms, with or without
|
| -// modification, are permitted provided that the following conditions are
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| -// met:
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| -//
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| -// * Redistributions of source code must retain the above copyright
|
| -// notice, this list of conditions and the following disclaimer.
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| -// * Redistributions in binary form must reproduce the above
|
| -// copyright notice, this list of conditions and the following
|
| -// disclaimer in the documentation and/or other materials provided
|
| -// with the distribution.
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| -// * Neither the name of Google Inc. nor the names of its
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| -// contributors may be used to endorse or promote products derived
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| -// from this software without specific prior written permission.
|
| -//
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| -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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| -// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
|
| -// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
|
| -// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
|
| -// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
|
| -// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
|
| -// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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| -// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
|
| -// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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| -// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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| -// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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| -
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| -#include <stdlib.h>
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| -
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| -#include "v8.h"
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| -
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| -#include "hydrogen-instructions.h"
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| -#include "cctest.h"
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| -
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| -using namespace v8::internal;
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| -
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| -static int32_t GetLo(const BitRange& range) {
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| - int32_t lo = kMaxInt, hi = kMinInt;
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| - range.ExtendRange(&lo, &hi);
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| - return lo;
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| -}
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| -
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| -
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| -static int32_t GetHi(const BitRange& range) {
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| - int32_t lo = kMaxInt, hi = kMinInt;
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| - range.ExtendRange(&lo, &hi);
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| - return hi;
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| -}
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| -
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| -
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| -static void CheckOp(int32_t a_lo, int32_t a_hi,
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| - int32_t b_lo, int32_t b_hi,
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| - BitRange op(BitRange, BitRange),
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| - int32_t expected_lo, int32_t expected_hi) {
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| - BitRange a_range;
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| - BitRange b_range;
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| - BitRange::SetFromRange(&a_range, a_lo, a_hi);
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| - BitRange::SetFromRange(&b_range, b_lo, b_hi);
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| - BitRange result = op(a_range, b_range);
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| - CHECK_EQ(expected_lo, GetLo(result));
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| - CHECK_EQ(expected_hi, GetHi(result));
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| -}
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| -
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| -
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| -TEST(BitRangeConstants) {
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| - // Converting a constant to BitRange and back is lossless.
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| - for (int32_t i = -100; i <= 100; i++) {
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| - BitRange r;
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| - BitRange::SetFromRange(&r, i, i);
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| - int32_t lo = kMaxInt, hi = kMinInt;
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| - r.ExtendRange(&lo, &hi);
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| - CHECK_EQ(i, lo);
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| - CHECK_EQ(i, hi);
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| - }
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| -}
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| -
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| -
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| -TEST(BitRangeConstantOps) {
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| - for (int32_t a = -16; a <= 15; a++) {
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| - for (int32_t b = -16; b <= 15; b++) {
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| - CheckOp(a, a, b, b, &BitRange::And, a & b, a & b);
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| - CheckOp(a, a, b, b, &BitRange::Or, a | b, a | b);
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| - CheckOp(a, a, b, b, &BitRange::Xor, a ^ b, a ^ b);
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| - }
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| - }
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| -}
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| -
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| -
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| -static void CheckConvert(int32_t lo, int32_t hi,
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| - int32_t expected_lo, int32_t expected_hi) {
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| - BitRange range;
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| - BitRange::SetFromRange(&range, lo, hi);
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| - CHECK_EQ(expected_lo, GetLo(range));
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| - CHECK_EQ(expected_hi, GetHi(range));
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| -}
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| -
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| -
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| -TEST(BitRangeConversion) {
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| - // [0, 4] --> 000xxx
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| - CheckConvert(0, 4, 0, 7);
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| - CheckConvert(0, 5, 0, 7);
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| - CheckConvert(0, 6, 0, 7);
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| - CheckConvert(0, 7, 0, 7);
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| -
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| - CheckConvert(1, 4, 0, 7);
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| - CheckConvert(1, 5, 0, 7);
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| - CheckConvert(1, 6, 0, 7);
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| - CheckConvert(1, 7, 0, 7);
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| -}
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| -
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| -
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| -TEST(BitRangeConservativeApproximation) {
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| - // Exhaustive test of 5-bit integers.
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| - // The BitRange operation must always include all real possible values.
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| - const int32_t kMin = -16;
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| - const int32_t kMax = 15;
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| -
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| - int count = 0;
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| - int and_precise_count = 0;
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| - int or_precise_count = 0;
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| - int xor_precise_count = 0;
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| -
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| - for (int32_t a_lo = kMin; a_lo <= kMax; a_lo++) {
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| - for (int32_t a_hi = a_lo; a_hi <= kMax; a_hi++) {
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| - for (int32_t b_lo = kMin; b_lo <= kMax; b_lo++) {
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| - for (int32_t b_hi = a_lo; b_hi <= kMax; b_hi++) {
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| - // Compute precise ranges.
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| - int32_t and_lo = kMaxInt, and_hi = kMinInt;
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| - int32_t or_lo = kMaxInt, or_hi = kMinInt;
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| - int32_t xor_lo = kMaxInt, xor_hi = kMinInt;
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| -
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| - for (int32_t a = a_lo; a <= a_hi; a++) {
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| - for (int32_t b = b_lo; b <= b_hi; b++) {
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| - int32_t a_and_b = a & b;
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| - and_lo = Min(and_lo, a_and_b);
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| - and_hi = Max(and_hi, a_and_b);
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| - int32_t a_or_b = a | b;
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| - or_lo = Min(or_lo, a_or_b);
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| - or_hi = Max(or_hi, a_or_b);
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| - int32_t a_xor_b = a ^ b;
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| - xor_lo = Min(xor_lo, a_xor_b);
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| - xor_hi = Max(xor_hi, a_xor_b);
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| - }
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| - }
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| -
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| - BitRange a_range;
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| - BitRange::SetFromRange(&a_range, a_lo, a_hi);
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| - BitRange b_range;
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| - BitRange::SetFromRange(&b_range, b_lo, b_hi);
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| -
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| - ++count;
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| - // Precise range must always be included in approximate result.
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| - BitRange and_range = BitRange::And(a_range, b_range);
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| - CHECK(GetLo(and_range) <= and_lo);
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| - CHECK(GetHi(and_range) >= and_hi);
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| - if (GetLo(and_range) == and_lo && GetHi(and_range) == and_hi) {
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| - ++and_precise_count;
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| - }
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| -
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| - BitRange or_range = BitRange::Or(a_range, b_range);
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| - CHECK(GetLo(or_range) <= or_lo);
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| - CHECK(GetHi(or_range) >= or_hi);
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| - if (GetLo(or_range) == or_lo && GetHi(or_range) == or_hi) {
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| - ++or_precise_count;
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| - }
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| -
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| - BitRange xor_range = BitRange::Xor(a_range, b_range);
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| - CHECK(GetLo(xor_range) <= xor_lo);
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| - CHECK(GetHi(xor_range) >= xor_hi);
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| - if (GetLo(xor_range) == xor_lo && GetHi(xor_range) == xor_hi) {
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| - ++xor_precise_count;
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| - }
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| - }
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| - }
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| - }
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| - }
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| -
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| - CHECK_EQ(366080, count);
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| - CHECK_EQ(35668, and_precise_count);
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| - CHECK_EQ(35668, or_precise_count);
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| - CHECK_EQ(37480, xor_precise_count);
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| -}
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| -
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| -
|
| -TEST(BitRangeMultiRange) {
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| - // Multiple ranges can be unioned with multiple calls to ExtendRange.
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| - //
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| - // HBitWise::InferRange is a 1x1 decomposition. Each input range is
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| - // 'decomposed' into 1 BitRange. It is possible to do a more precise
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| - // decompostion into several BitRanges. 2 BitRanges might be the sweet-spot
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| - // since it prevents change-of-sign polluting the result.
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| - //
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| - // E.g. [-2,3] = {xxxxxxxx} as one BitRange, but is {1111111x, 000000xx} as
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| - // two.
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| - //
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| - // [-2,3] ^ [-1,5] = {xxxxxxxx} ^ {xxxxxxxx} = xxxxxxxx
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| - //
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| - // With a 2x2 decomposition, there are 4 intermediate results.
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| - //
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| - // [-2,3] ^ [-1,5] = {1111111x, 000000xx} ^ {11111111, 00000xxx}
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| - // result11 = 1111111x ^ 11111111 = 0000000x
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| - // result12 = 1111111x ^ 00000xxx = 11111xxx
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| - // result21 = 000000xx ^ 11111111 = 111111xx
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| - // result22 = 000000xx ^ 00000xxx = 00000xxx
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| - //
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| - // These can be accumulated into a range as follows:
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| - //
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| - // result11.ExtendRange(&lower, &upper); // 0, 1
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| - // result12.ExtendRange(&lower, &upper); // -8, 1
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| - // result21.ExtendRange(&lower, &upper); // -8, 1
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| - // result22.ExtendRange(&lower, &upper); // -8, 7
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| - // = [-8,7]
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| -
|
| - {
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| - BitRange r1(~0x000C, 0x0022); // 0010xx10
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| - BitRange r2(~0x0003, 0x0004); // 0000x1xx
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| - int32_t lo = kMaxInt, hi = kMinInt;
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| - r1.ExtendRange(&lo, &hi);
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| - CHECK_EQ(0x22, lo);
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| - CHECK_EQ(0x2E, hi);
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| -
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| - r2.ExtendRange(&lo, &hi);
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| - CHECK_EQ(0x04, lo);
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| - CHECK_EQ(0x2E, hi);
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| - }
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| -
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| - {
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| - BitRange r1(~0, -1); // 11111111
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| - BitRange r2(~1, 0); // 0000000x
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| - int32_t lo = kMaxInt, hi = kMinInt;
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| - r1.ExtendRange(&lo, &hi);
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| - CHECK_EQ(-1, lo);
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| - CHECK_EQ(-1, hi);
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| -
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| - r2.ExtendRange(&lo, &hi);
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| - CHECK_EQ(-1, lo);
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| - CHECK_EQ(1, hi);
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| - }
|
| -}
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| -
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| -
|
| -TEST(BitRangeOps) {
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| - // xxxx & 000x => 000x
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| - CheckOp(kMinInt, kMaxInt, 0, 1, &BitRange::And, 0, 1);
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| -
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| - CheckOp(3, 7, 0, 0, &BitRange::Or, 0, 7);
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| - CheckOp(4, 5, 0, 0, &BitRange::Or, 4, 5);
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| - CheckOp(3, 7, 4, 4, &BitRange::Or, 4, 7);
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| - CheckOp(0, 99, 4, 4, &BitRange::Or, 4, 127);
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| -
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| - // 01xx ^ 0100 -> 00xx
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| - CheckOp(4, 7, 4, 4, &BitRange::Xor, 0, 3);
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| - // 00xx ^ 0100 -> 01xx
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| - CheckOp(0, 3, 4, 4, &BitRange::Xor, 4, 7);
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| -}
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|
|
Chromium Code Reviews
Issue 17093005:
Revert "Improved range analysis for bitwise operations." (Closed)
Base URL: https://v8.googlecode.com/svn/branches/bleeding_edge