/frameworks/base/core/tests/coretests/src/android/net/ |
D | NetworkTest.java | 112 Network two = new Network(2); in testGetNetworkHandle() local 117 assertNotEqual(0, two.hashCode()); in testGetNetworkHandle() 121 assertNotEqual(one.hashCode(), two.hashCode()); in testGetNetworkHandle() 123 assertNotEqual(two.hashCode(), three.hashCode()); in testGetNetworkHandle() 127 assertNotEqual(0, two.getNetworkHandle()); in testGetNetworkHandle() 131 assertNotEqual(one.getNetworkHandle(), two.getNetworkHandle()); in testGetNetworkHandle() 133 assertNotEqual(two.getNetworkHandle(), three.getNetworkHandle()); in testGetNetworkHandle() 137 assertNotEqual(two.hashCode(), two.getNetworkHandle()); in testGetNetworkHandle() 143 assertEquals(8606370526L, two.getNetworkHandle()); in testGetNetworkHandle()
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/frameworks/av/media/libstagefright/codecs/on2/h264dec/omxdl/arm11/vc/m4p2/src/ |
D | omxVCM4P2_QuantInvInter_I_s.s | 90 two RN 7 label 100 MOV two,#2 107 SMULBB X2,tempVal21,two ;// X2= first val(lower 16 bits of tampVal21)*2 113 SMULTB X3,tempVal21,two ;// X3= second val(top 16 bits of tampVal21)*2 123 SMULBB X2,tempVal43,two ;// X2= first val(lower 16 bits of tampVal43)*2 131 SMULTB X3,tempVal43,two ;// X2= first val(top 16 bits of tampVal21)*2
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/frameworks/compile/mclinker/unittests/ |
D | RTLinearAllocatorTest.h | 38 Data() : one(1), two(2), three(3), four(4) {} in Data() 45 two = pTwo; in Data() 52 two = -2; in ~Data() 58 unsigned int two; member
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D | LinearAllocatorTest.h | 25 Data() : one(1), two(2), three(3), four(4) {} in Data() 32 two = pTwo; in Data() 39 two = -2; in ~Data() 45 unsigned int two; member
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D | LinearAllocatorTest.cpp | 62 ASSERT_TRUE(2 == pointer->two); in TEST_F() 73 ASSERT_TRUE(7 == pointer->two); in TEST_F() 82 ASSERT_TRUE(2 == pointer->two); in TEST_F() 93 ASSERT_TRUE(7 == pointer->two); in TEST_F()
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D | RTLinearAllocatorTest.cpp | 63 ASSERT_TRUE(2 == pointer->two); in TEST_F() 74 ASSERT_TRUE(7 == pointer->two); in TEST_F() 83 ASSERT_TRUE(2 == pointer->two); in TEST_F() 94 ASSERT_TRUE(7 == pointer->two); in TEST_F()
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/frameworks/rs/api/ |
D | rs_vector_math.spec | 45 summary: Cross product of two vectors 47 Computes the cross product of two vectors. 59 summary: Distance between two points 61 Compute the distance between two points. 75 summary: Dot product of two vectors 77 Computes the dot product of two vectors. 89 summary: Approximate distance between two points 91 Computes the approximate distance between two points. 162 summary: Approximate distance between two points 164 Computes the approximate distance between two points.
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D | rs_quaternion.spec | 27 summary: Add two quaternions 29 Adds two quaternions, i.e. <code>*q += *rhs;</code> 55 summary: Dot product of two quaternions 57 Returns the dot product of two quaternions.
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D | rs_atomic.spec | 60 Atomicly performs a bitwise and of two values, storing the result back at addr, 179 Atomicly perform a bitwise or two values, storing the result at addr, 218 Atomicly performs a bitwise xor of two values, storing the result at addr,
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/frameworks/rs/scriptc/ |
D | rs_value_types.rsh | 58 * With the example above, the middle two entries can be accessed using 106 * Vector version of the half float type. Provides two half fields packed 258 * A vector of two floats. These two floats are packed into a single 64 bit field 261 * A vector of two floats. These two floats are packed into a single 64 bit field 285 * A vector of two doubles. These two double fields packed into a single 128 bit field 309 * A vector of two uchars. These two uchar fields packed into a single 16 bit field 333 * A vector of two ushorts. These two ushort fields packed into a single 32 bit field 357 * A vector of two uints. These two uints are packed into a single 64 bit field 381 * A vector of two ulongs. These two ulongs are packed into a single 128 bit field 405 * A vector of two chars. These two chars are packed into a single 16 bit field [all …]
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D | rs_vector_math.rsh | 42 * cross: Cross product of two vectors 44 * Computes the cross product of two vectors. 53 * distance: Distance between two points 55 * Compute the distance between two points. 72 * dot: Dot product of two vectors 74 * Computes the dot product of two vectors. 89 * fast_distance: Approximate distance between two points 91 * Computes the approximate distance between two points. 201 * native_distance: Approximate distance between two points 203 * Computes the approximate distance between two points.
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D | rs_quaternion.rsh | 29 * rsQuaternionAdd: Add two quaternions 31 * Adds two quaternions, i.e. *q += *rhs; 61 * rsQuaternionDot: Dot product of two quaternions 63 * Returns the dot product of two quaternions. 238 * rsQuaternionSlerp: Spherical linear interpolation between two quaternions 240 * Performs spherical linear interpolation between two quaternions.
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/frameworks/base/core/tests/coretests/src/android/view/ |
D | CreateViewTest.java | 58 ViewOne two = new ViewOne(mContext); in testLayout3() local 59 vert.addView(two, new LinearLayout.LayoutParams(MATCH_PARENT, MATCH_PARENT, 0)); in testLayout3() 97 TextView two = new TextView(mContext); in testLayout6() local 98 two.setText("M"); in testLayout6() 99 vert.addView(two, new LinearLayout.LayoutParams(MATCH_PARENT, WRAP_CONTENT, 0)); in testLayout6()
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/frameworks/compile/libbcc/tests/debuginfo/host-tests/ |
D | jit.cpp | 21 int two() in two() function 28 return two(); in one()
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/frameworks/data-binding/compiler/src/test/java/android/databinding/ |
D | BindingExpressionParserTest.java | 292 String two = ((PrimaryContext) expression.right).literal().javaLiteral().getText(); in compareBinaryOperators() local 293 assertEquals("2", two); in compareBinaryOperators() 304 String two = ((PrimaryContext) expression.right).literal().javaLiteral().getText(); in compareMathOperators() local 305 assertEquals("2", two); in compareMathOperators() 316 String two = ((PrimaryContext) expression.right).literal().javaLiteral().getText(); in compareBitShiftOperators() local 317 assertEquals("2", two); in compareBitShiftOperators() 328 String two = ((PrimaryContext) expression.right).literal().javaLiteral().getText(); in compareComparisonOperators() local 329 assertEquals("2", two); in compareComparisonOperators() 340 String two = ((PrimaryContext) expression.right).literal().javaLiteral().getText(); in compareAndOrOperators() local 341 assertEquals("2", two); in compareAndOrOperators()
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/frameworks/av/media/libstagefright/codecs/amrwbenc/inc/ |
D | qpisf_2s.tab | 21 * Quantization tables for two-stage of ISFs (split by 2 in 1st stage) 49 * isf codebooks: two-stage VQ with split-by-5 in 2nd stage * 1019 * isf codebooks: two-stage VQ with split-by-3 in 2nd stage *
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/frameworks/base/docs/html/training/transitions/ |
D | scenes.jd | 23 The next lesson shows you how to transition between two scenes.</p> 49 <p>The code snippets in the rest of this section show you how to create two different scenes 58 <li>A relative layout for the first scene with two text fields.</li> 59 <li>A relative layout for the second scene with the same two text fields in different order.</li> 106 <p>The layout for the second scene contains the same two text fields (with the same IDs) 127 <p>After you create definitions for the two relative layouts, you can obtain an scene for 128 each of them. This enables you to later transition between the two UI configurations. 132 two {@link android.transition.Scene} objects from the layout files:</p> 147 <p>In the app, there are now two {@link android.transition.Scene} objects based on view
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/frameworks/base/tests/AccessoryDisplay/ |
D | README | 6 There are two applications with two distinct roles: a sink 42 These applications should be installed on two separate Android
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/frameworks/base/libs/hwui/unit_tests/ |
D | LinearAllocatorTests.cpp | 25 int two = 2; member 61 EXPECT_EQ(2, pair->two); in TEST()
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/frameworks/base/docs/html/guide/topics/renderscript/reference/ |
D | rs_vector_math.jd | 32 Cross product of two vectors 40 Distance between two points 48 Dot product of two vectors 56 Approximate distance between two points 88 Approximate distance between two points 121 <span class='normal'>: Cross product of two vectors</span> 138 <p> Computes the cross product of two vectors. 147 <span class='normal'>: Distance between two points</span> 174 <p> Compute the distance between two points. 186 <span class='normal'>: Dot product of two vectors</span> [all …]
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D | rs_quaternion.jd | 17 Add two quaternions 33 Dot product of two quaternions 89 Spherical linear interpolation between two quaternions 98 <span class='normal'>: Add two quaternions</span> 116 <p> Adds two quaternions, i.e. <code>*q += *rhs;</code> 151 <span class='normal'>: Dot product of two quaternions</span> 169 <p> Returns the dot product of two quaternions. 362 <span class='normal'>: Spherical linear interpolation between two quaternions</span> 382 <p> Performs spherical linear interpolation between two quaternions.
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D | rs_value_types.jd | 52 <p> With the example above, the middle two entries can be accessed using 518 <p> A vector of two chars. These two chars are packed into a single 16 bit field 560 <p> A vector of two doubles. These two double fields packed into a single 128 bit field 602 <p> A vector of two floats. These two floats are packed into a single 64 bit field 606 <p> A vector of two floats. These two floats are packed into a single 64 bit field 663 <p> Vector version of the half float type. Provides two half fields packed 720 <p> A vector of two ints. These two ints are packed into a single 64 bit field 761 <p> A vector of four ints. These two fours are packed into a single 128 bit field 804 <p> A vector of two longs. These two longs are packed into a single 128 bit field 922 <p> A vector of two shorts. These two shorts are packed into a single 32 bit field [all …]
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/frameworks/opt/telephony/src/java/com/android/internal/telephony/ |
D | HardwareConfig.java | 201 String two = hw.toString(); in compareTo() local 203 return (one.compareTo(two)); in compareTo()
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/frameworks/base/docs/html/training/multiscreen/ |
D | screensizes.jd | 156 <p>For example, many applications implement the "two pane" pattern for large 167 <li><code>res/layout-large/main.xml</code>, two-pane layout: 189 600 dp, so if you want your UI to have two panes on those screens (but a single 190 list on smaller screens), you can use the same two layouts from the previous section for single 191 and two-pane layouts, but instead of the <code>large</code> size qualifier, use 192 <code>sw600dp</code> to indicate the two-pane layout is for screens on which the smallest-width 200 <li><code>res/layout-sw600dp/main.xml</code>, two-pane layout: 207 600dp will select the <code>layout-sw600dp/main.xml</code> (two-pane) layout, 234 <p>The last two files are identical, because one of them will be matched by 244 <li><code>res/layout/main_twopanes.xml</code>, two-pane layout</li> [all …]
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/frameworks/rs/java/tests/RSTest_CompatLibLegacy/src/com/android/rs/test/ |
D | shared.rsh | 85 /* Calculate the difference in ULPs between the two values. (Return zero on 91 /* Check if two floats are essentially equal. Will fail with some values
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