/frameworks/native/opengl/libs/tools/ |
H A D | glapigen | 53 my $len = scalar(@args);
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/frameworks/rs/tests/java_api/ImageProcessing/src/com/android/rs/image/ |
H A D | fisheye.rsh | 53 const float scalar = radian * factor * inv_dist; 54 const float2 new_coord = mad(coord, scalar, center);
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H A D | fisheye_approx.rsh | 53 const float scalar = radian * factor * inv_dist; 54 const float2 new_coord = mad(coord, scalar, center);
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/frameworks/rs/tests/java_api/ImageProcessing2/src/com/android/rs/image/ |
H A D | fisheye.rsh | 53 const float scalar = radian * factor * inv_dist; 54 const float2 new_coord = mad(coord, scalar, center);
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H A D | fisheye_approx.rsh | 53 const float scalar = radian * factor * inv_dist; 54 const float2 new_coord = mad(coord, scalar, center);
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/frameworks/rs/tests/java_api/ImageProcessing_jb/src/com/android/rs/image/ |
H A D | fisheye.rsh | 53 const float scalar = radian * factor * inv_dist; 54 const float2 new_coord = mad(coord, scalar, center);
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H A D | fisheye_approx.rsh | 53 const float scalar = radian * factor * inv_dist; 54 const float2 new_coord = mad(coord, scalar, center);
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/frameworks/rs/tests/java_api/ScriptGroupTest/src/com/android/rs/sgtest/ |
H A D | fisheye_approx_f.rsh | 55 const float scalar = radian * factor * inv_dist; 56 const float2 new_coord = mad(coord, scalar, center);
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/frameworks/ml/nn/runtime/test/ |
H A D | TestValidateOperations.cpp | 339 ANeuralNetworksOperandType scalar = {.type = ANEURALNETWORKS_INT32, local 344 ANeuralNetworksOperandType padLeft = scalar; 345 ANeuralNetworksOperandType padRight = scalar; 346 ANeuralNetworksOperandType padTop = scalar; 347 ANeuralNetworksOperandType padBottom = scalar; 348 ANeuralNetworksOperandType strideWidth = scalar; 349 ANeuralNetworksOperandType strideHeight = scalar; 350 ANeuralNetworksOperandType filterWidth = scalar; 351 ANeuralNetworksOperandType filterHeight = scalar; 352 ANeuralNetworksOperandType activation = scalar; 565 ANeuralNetworksOperandType scalar = {.type = ANEURALNETWORKS_INT32, local 637 ANeuralNetworksOperandType scalar = {.type = ANEURALNETWORKS_INT32, local [all...] |
/frameworks/native/libs/math/include/math/ |
H A D | TQuatHelpers.h | 63 /* compound assignment products by a scalar 116 /* For quaternions, we use explicit "by a scalar" products because it's much faster 129 constexpr QUATERNION<T> PURE operator *(QUATERNION<T> q, T scalar) { argument 131 return q *= scalar; 134 constexpr QUATERNION<T> PURE operator *(T scalar, QUATERNION<T> q) { argument 136 return q *= scalar; 140 constexpr QUATERNION<T> PURE operator /(QUATERNION<T> q, T scalar) { argument 142 return q /= scalar;
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/frameworks/rs/driver/runtime/ |
H A D | rs_quaternion.c | 109 rsQuaternionMultiply(rs_quaternion* q, float scalar) { argument 110 q->w *= scalar; 111 q->x *= scalar; 112 q->y *= scalar; 113 q->z *= scalar;
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/frameworks/opt/net/wifi/service/java/com/android/server/wifi/util/ |
H A D | Matrix.java | 155 * Forms a scalar product 157 * @param scalar is the value to multiply by 158 * @return newly allocated matrix representing the product this and scalar 160 public Matrix times(double scalar) { argument 161 return times(scalar, new Matrix(n, m)); 165 * Forms a scalar product 167 * @param scalar is the value to multiply by 172 public Matrix times(double scalar, Matrix result) { argument 177 result.mem[i] = this.mem[i] * scalar;
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/frameworks/rs/script_api/include/ |
H A D | rs_quaternion.rsh | 225 * rsQuaternionMultiply: Multiply a quaternion by a scalar or another quaternion 227 * Multiplies a quaternion by a scalar or by another quaternion, e.g 228 * *q = *q * scalar; or *q = *q * *rhs;. 232 * scalar: Scalar to multiply the quaternion by. 237 rsQuaternionMultiply(rs_quaternion* q, float scalar) { 238 q->w *= scalar; 239 q->x *= scalar; 240 q->y *= scalar; 241 q->z *= scalar; 361 rsQuaternionMultiply(rs_quaternion* q, float scalar); [all...] |
/frameworks/native/services/surfaceflinger/tests/hwc2/ |
H A D | Hwc2TestProperties.cpp | 83 for (auto scalar : mScalars) { 84 mBufferAreas.push_back({static_cast<int32_t>(scalar * mDisplayArea.width), 85 static_cast<int32_t>(scalar * mDisplayArea.height)});
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/frameworks/rs/script_api/ |
H A D | rs_value_types.spec | 22 RenderScript supports the following scalar numerical types:
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H A D | GenerateTestFiles.cpp | 96 void writeJavaArgumentClass(bool scalar, set<string>* javaGeneratedArgumentClasses) const; 222 if (test == "scalar" || test == "limited") { 239 void PermutationWriter::writeJavaArgumentClass(bool scalar, argument 242 if (scalar) { 254 bool isFieldArray = !scalar && p->mVectorSize != "1";
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H A D | rs_quaternion.spec | 204 arg: float scalar, "Scalar to multiply the quaternion by." 205 summary: Multiply a quaternion by a scalar or another quaternion 207 Multiplies a quaternion by a scalar or by another quaternion, e.g 208 <code>*q = *q * scalar;</code> or <code>*q = *q * *rhs;</code>. 210 q->w *= scalar; 211 q->x *= scalar; 212 q->y *= scalar; 213 q->z *= scalar; 373 arg: float scalar
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H A D | rs_allocation_create.spec | 146 create Allocations of scalar and vector numerical types without creating
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/frameworks/native/include/ui/ |
H A D | ColorSpace.h | 27 #include <math/scalar.h>
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/frameworks/native/libs/ui/include/ui/ |
H A D | ColorSpace.h | 27 #include <math/scalar.h>
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/frameworks/native/libs/ui/include_vndk/ui/ |
H A D | ColorSpace.h | 27 #include <math/scalar.h>
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