/hardware/invensense/6515/libsensors_iio/software/simple_apps/playback/linux/ |
D | datalogger_outputs.c | 49 void inv_get_sensor_type_gyro_raw_short(short *values, inv_time_t *timestamp) in inv_get_sensor_type_gyro_raw_short() argument 53 if (values) in inv_get_sensor_type_gyro_raw_short() 54 memcpy(values, &pg->raw, sizeof(short) * 3); in inv_get_sensor_type_gyro_raw_short() 64 void inv_get_sensor_type_gyro_raw_body_float(float *values, in inv_get_sensor_type_gyro_raw_body_float() argument 76 if (values) { in inv_get_sensor_type_gyro_raw_body_float() 77 values[0] = inv_q16_to_float(raw_body[0]); in inv_get_sensor_type_gyro_raw_body_float() 78 values[1] = inv_q16_to_float(raw_body[1]); in inv_get_sensor_type_gyro_raw_body_float() 79 values[2] = inv_q16_to_float(raw_body[2]); in inv_get_sensor_type_gyro_raw_body_float() 91 void inv_get_sensor_type_gyro_float(float *values, int8_t *accuracy, in inv_get_sensor_type_gyro_float() argument 97 values[0] = (float)gyro[0] / 65536.f; in inv_get_sensor_type_gyro_float() [all …]
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D | datalogger_outputs.h | 23 void inv_get_sensor_type_gyro_float(float *values, int8_t *accuracy, 25 void inv_get_sensor_type_accel_float(float *values, int8_t *accuracy, 28 float *values, int8_t *accuracy, inv_time_t *timestamp); 29 void inv_get_sensor_type_quat_float(float *values, int *accuracy, 31 void inv_get_sensor_type_gravity_float(float *values, int *accuracy, 33 void inv_get_sensor_type_rotation_vector_float(float *values, int *accuracy, 37 void inv_get_sensor_type_gyro_raw_short(short *values, 39 void inv_get_sensor_type_gyro_raw_body_float(float *values, 41 void inv_get_sensor_type_accel_raw_short(short *values, 43 void inv_get_sensor_type_compass_raw_short(short *values,
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/hardware/invensense/65xx/libsensors_iio/software/core/mllite/ |
D | hal_outputs.c | 74 int inv_get_sensor_type_accelerometer(float *values, int8_t *accuracy, in inv_get_sensor_type_accelerometer() argument 83 values[0] = accel[0] * ACCEL_CONVERSION; in inv_get_sensor_type_accelerometer() 84 values[1] = accel[1] * ACCEL_CONVERSION; in inv_get_sensor_type_accelerometer() 85 values[2] = accel[2] * ACCEL_CONVERSION; in inv_get_sensor_type_accelerometer() 90 MPL_LOGV("accel values:%f %f %f -%d -%lld", values[0], values[1], in inv_get_sensor_type_accelerometer() 91 values[2], status, *timestamp); in inv_get_sensor_type_accelerometer() 103 int inv_get_sensor_type_linear_acceleration(float *values, int8_t *accuracy, in inv_get_sensor_type_linear_acceleration() argument 114 values[0] = accel[0] * ACCEL_CONVERSION; in inv_get_sensor_type_linear_acceleration() 115 values[1] = accel[1] * ACCEL_CONVERSION; in inv_get_sensor_type_linear_acceleration() 116 values[2] = accel[2] * ACCEL_CONVERSION; in inv_get_sensor_type_linear_acceleration() [all …]
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D | hal_outputs.h | 16 int inv_get_sensor_type_orientation(float *values, int8_t *accuracy, 18 int inv_get_sensor_type_accelerometer(float *values, int8_t *accuracy, 20 int inv_get_sensor_type_gyroscope(float *values, int8_t *accuracy, 22 int inv_get_sensor_type_gyroscope_raw(float *values, int8_t *accuracy, 24 int inv_get_sensor_type_magnetic_field(float *values, int8_t *accuracy, 26 int inv_get_sensor_type_magnetic_field_raw(float *values, int8_t *accuracy, 28 int inv_get_sensor_type_rotation_vector(float *values, int8_t *accuracy, 31 int inv_get_sensor_type_linear_acceleration(float *values, 34 int inv_get_sensor_type_gravity(float *values, int8_t *accuracy, 37 int inv_get_sensor_type_orientation_6_axis(float *values, int8_t *accuracy, [all …]
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/hardware/invensense/6515/libsensors_iio/software/core/mllite/ |
D | hal_outputs.c | 122 int inv_get_sensor_type_accelerometer(float *values, int8_t *accuracy, in inv_get_sensor_type_accelerometer() argument 131 values[0] = accel[0] * ACCEL_CONVERSION; in inv_get_sensor_type_accelerometer() 132 values[1] = accel[1] * ACCEL_CONVERSION; in inv_get_sensor_type_accelerometer() 133 values[2] = accel[2] * ACCEL_CONVERSION; in inv_get_sensor_type_accelerometer() 138 MPL_LOGV("accel values:%f %f %f -%d -%lld", values[0], values[1], in inv_get_sensor_type_accelerometer() 139 values[2], status, *timestamp); in inv_get_sensor_type_accelerometer() 151 int inv_get_sensor_type_linear_acceleration(float *values, int8_t *accuracy, in inv_get_sensor_type_linear_acceleration() argument 162 values[0] = accel[0] * ACCEL_CONVERSION; in inv_get_sensor_type_linear_acceleration() 163 values[1] = accel[1] * ACCEL_CONVERSION; in inv_get_sensor_type_linear_acceleration() 164 values[2] = accel[2] * ACCEL_CONVERSION; in inv_get_sensor_type_linear_acceleration() [all …]
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D | hal_outputs.h | 16 int inv_get_sensor_type_orientation(float *values, int8_t *accuracy, 18 int inv_get_sensor_type_accelerometer(float *values, int8_t *accuracy, 20 int inv_get_sensor_type_gyroscope(float *values, int8_t *accuracy, 22 int inv_get_sensor_type_gyroscope_raw(float *values, int8_t *accuracy, 24 int inv_get_sensor_type_magnetic_field(float *values, int8_t *accuracy, 26 int inv_get_sensor_type_magnetic_field_raw(float *values, int8_t *accuracy, 28 int inv_get_sensor_type_rotation_vector(float *values, int8_t *accuracy, 31 int inv_get_sensor_type_linear_acceleration(float *values, 34 int inv_get_sensor_type_gravity(float *values, int8_t *accuracy, 37 int inv_get_sensor_type_orientation_6_axis(float *values, int8_t *accuracy, [all …]
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/hardware/qcom/camera/msm8998/QCamera2/stack/mm-jpeg-interface/src/ |
D | mm_jpeg_exif.c | 83 uint8_t *values = (uint8_t *)malloc(count); in addExifEntry() local 84 if (values == NULL) { in addExifEntry() 88 memcpy(values, data, count); in addExifEntry() 89 p_info_data[numOfEntries].tag_entry.data._bytes = values; in addExifEntry() 111 uint16_t *values = (uint16_t *)malloc(count * sizeof(uint16_t)); in addExifEntry() local 112 if (values == NULL) { in addExifEntry() 116 memcpy(values, data, count * sizeof(uint16_t)); in addExifEntry() 117 p_info_data[numOfEntries].tag_entry.data._shorts = values; in addExifEntry() 126 uint32_t *values = (uint32_t *)malloc(count * sizeof(uint32_t)); in addExifEntry() local 127 if (values == NULL) { in addExifEntry() [all …]
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/hardware/interfaces/audio/common/all-versions/util/include/common/all-versions/ |
D | HidlSupport.h | 28 hidl_enum_range<Enum> values; in isValidHidlEnum() local 29 return std::find(values.begin(), values.end(), e) != values.end(); in isValidHidlEnum()
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/hardware/google/av/codec2/vndk/include/util/ |
D | C2InterfaceUtils.h | 205 C2SupportedRange(const C2FieldSupportedValues &values); 381 C2SupportedFlags<T>(const C2FieldSupportedValues &values) { 382 if (values.type == C2FieldSupportedValues::FLAGS) { 383 _mValues.insert(_mValues.end(), values.values.begin(), values.values.end()); 438 C2SupportedFlags(std::vector<C2Value::Primitive> &&values) 439 : _mValues(values) { 492 static inline C2SupportedValueSet<T> OneOf(const std::initializer_list<T> values) { 493 return C2SupportedValueSet(values); 501 static inline C2SupportedValueSet<T> OneOf(const std::vector<T> &values) { 502 return C2SupportedValueSet(values); [all …]
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/hardware/google/easel/amber/camera/include/ |
D | HdrPlusTypes.h | 217 void appendVectorOrArrayToString(std::string *strOut, T values); 220 void appendVectorOrArrayToString(std::string *strOut, const char* key, T values); 224 std::vector<std::array<T, SIZE>> values); 228 std::array<T, SIZE> values); 469 void appendVectorOrArrayToString(std::string *strOut, T values) { in appendVectorOrArrayToString() argument 471 for (size_t i = 0; i < values.size(); i++) { in appendVectorOrArrayToString() 472 (*strOut) += std::to_string(values[i]); in appendVectorOrArrayToString() 473 if (i != values.size() - 1) { in appendVectorOrArrayToString() 487 void appendVectorOrArrayToString(std::string *strOut, const char* key, T values) { in appendVectorOrArrayToString() argument 490 appendVectorOrArrayToString(strOut, values); in appendVectorOrArrayToString() [all …]
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/hardware/google/pixel/thermal/utils/ |
D | config_parser.cpp | 119 Json::Value values = sensors[i]["HotThreshold"]; in ParseSensorInfo() local 120 if (values.size() != kThrottlingSeverityCount) { in ParseSensorInfo() 122 << "Sensor[" << name << "]'s HotThreshold count" << values.size(); in ParseSensorInfo() 128 hot_thresholds[j] = getFloatFromValue(values[j]); in ParseSensorInfo() 144 values = sensors[i]["HotHysteresis"]; in ParseSensorInfo() 145 if (values.size() != kThrottlingSeverityCount) { in ParseSensorInfo() 150 hot_hysteresis[j] = getFloatFromValue(values[j]); in ParseSensorInfo() 162 values = sensors[i]["ColdThreshold"]; in ParseSensorInfo() 163 if (values.size() != kThrottlingSeverityCount) { in ParseSensorInfo() 169 cold_thresholds[j] = getFloatFromValue(values[j]); in ParseSensorInfo() [all …]
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/hardware/qcom/display/msm8909/sdm/libs/hwc/ |
D | hwc_display_null.cpp | 101 int32_t *values) { in GetDisplayAttributes() argument 107 values[i] = INT32(1000000000L / NULL_DISPLAY_FPS); in GetDisplayAttributes() 110 values[i] = static_cast<int32_t>(x_res_); in GetDisplayAttributes() 113 values[i] = static_cast<int32_t>(y_res_); in GetDisplayAttributes()
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/hardware/qcom/display/msm8996/sdm/libs/hwc/ |
D | hwc_display_null.cpp | 101 int32_t *values) { in GetDisplayAttributes() argument 107 values[i] = INT32(1000000000L / NULL_DISPLAY_FPS); in GetDisplayAttributes() 110 values[i] = static_cast<int32_t>(x_res_); in GetDisplayAttributes() 113 values[i] = static_cast<int32_t>(y_res_); in GetDisplayAttributes()
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/hardware/qcom/display/msm8909w_3100/sdm/libs/hwc/ |
D | hwc_display_null.cpp | 101 int32_t *values) { in GetDisplayAttributes() argument 107 values[i] = INT32(1000000000L / NULL_DISPLAY_FPS); in GetDisplayAttributes() 110 values[i] = static_cast<int32_t>(x_res_); in GetDisplayAttributes() 113 values[i] = static_cast<int32_t>(y_res_); in GetDisplayAttributes()
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/hardware/libhardware/modules/camera/3_4/metadata/ |
D | array_vector.h | 42 void push_back(const std::array<T, N>& values) { in push_back() argument 43 mItems.insert(mItems.end(), values.begin(), values.end()); in push_back()
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/hardware/google/av/codec2/vndk/util/ |
D | C2InterfaceUtils.cpp | 71 C2SupportedRange<T>::C2SupportedRange(const C2FieldSupportedValues &values) { in C2SupportedRange() argument 72 if (values.type == C2FieldSupportedValues::RANGE) { in C2SupportedRange() 73 _mMin = values.range.min.ref<ValueType>(); in C2SupportedRange() 74 _mMax = values.range.max.ref<ValueType>(); in C2SupportedRange() 75 _mStep = values.range.step.ref<ValueType>(); in C2SupportedRange() 76 _mNum = values.range.num.ref<ValueType>(); in C2SupportedRange() 77 _mDenom = values.range.denom.ref<ValueType>(); in C2SupportedRange() 170 std::vector<C2Value::Primitive> values; in limitedTo() local 171 return C2SupportedFlags(std::move(values)); in limitedTo() 213 std::vector<C2Value::Primitive> values = _mValues; // make a copy in limitedTo() local [all …]
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/hardware/google/pixel/pixelstats/ |
D | UeventListener.cpp | 146 std::vector<VendorAtom::Value> values(charge_stats_fields.size()); in ReportChargeStats() local 158 values[charge_stats_fields[i] - kVendorAtomOffset] = val; in ReportChargeStats() 163 .values = values}; in ReportChargeStats() 186 std::vector<VendorAtom::Value> values(voltage_tier_stats_fields.size()); in ReportVoltageTierStats() local 199 values[voltage_tier_stats_fields[0] - kVendorAtomOffset] = val; in ReportVoltageTierStats() 201 values[voltage_tier_stats_fields[1] - kVendorAtomOffset] = val; in ReportVoltageTierStats() 204 values[voltage_tier_stats_fields[i] - kVendorAtomOffset] = val; in ReportVoltageTierStats() 209 .values = values}; in ReportVoltageTierStats()
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/hardware/google/interfaces/media/c2/1.0/ |
D | types.hal | 151 // Generic way to describe supported numeric values for Codec 2.0 interfaces. 160 * Generic supported values for a field. 162 * This can be either a range or a set of values. The range can be linear or 163 * geometric with clear minimum and maximum values, and can have an optional 176 /** No supported values */ 180 /** List of values */ 188 * Type of the supported values. The framework may not recognize `OTHER`. 192 * Codec2.0 type code of the supported values. 196 * * For all other values of #type, #typeOther is not used. 206 * If #type = RANGE, #range will specify the range of possible values. [all …]
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/hardware/qcom/neuralnetworks/hvxservice/1.0/ |
D | HexagonModel.h | 105 const std::vector<Type>& values); 108 hexagon_nn_input createValues(const std::vector<Type>& values); 177 const std::vector<Type>& values) { in createTensor() argument 178 return createTensorInternal(B, H, W, D, reinterpret_cast<const uint8_t*>(values.data()), in createTensor() 179 values.size() * sizeof(Type)); in createTensor() 183 hexagon_nn_input Model::createValues(const std::vector<Type>& values) { in createValues() argument 184 return createTensor(1, 1, 1, values.size(), values); in createValues()
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/hardware/interfaces/wifi/supplicant/1.2/ |
D | ISupplicantStaNetwork.hal | 29 /** Possble mask of values for KeyMgmt param. */ 50 /** Possble mask of values for PairwiseCipher param. */ 56 /** Possble mask of values for GroupCipher param. */ 62 /** Possble mask of values for GroupMgmtCipher param. */ 78 * Combination of |KeyMgmtMask| values. 95 * @return keyMgmtMask Combination of |KeyMgmtMask| values. 104 * Combination of |PairwiseCipherMask| values. 122 * @return pairwiseCipherMask Combination of |PairwiseCipherMask| values. 132 * Combination of |GroupCipherMask| values. 150 * @return groupCipherMask Combination of |GroupCipherMask| values. [all …]
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/hardware/google/av/media/codecs/base/ |
D | SimpleC2Interface.cpp | 149 .withFields({ C2F(mInputAllocators, m.values[0]).any(), in BaseParams() 150 C2F(mInputAllocators, m.values).inRange(0, 1) }) in BaseParams() 157 .withFields({ C2F(mOutputAllocators, m.values[0]).any(), in BaseParams() 158 C2F(mOutputAllocators, m.values).inRange(0, 1) }) in BaseParams() 165 .withFields({ C2F(mOutputPoolIds, m.values[0]).any(), in BaseParams() 166 C2F(mOutputPoolIds, m.values).inRange(0, 1) }) in BaseParams() 174 .withFields({ C2F(mSubscribedParamIndices, m.values[0]).any(), in BaseParams() 175 C2F(mSubscribedParamIndices, m.values).any() }) in BaseParams()
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/hardware/ti/am57x/libhwcomposer/ |
D | display.cpp | 240 int HWCDisplay::get_display_attributes(uint32_t cfg, const uint32_t* attributes, int32_t* values) in get_display_attributes() argument 242 if (!attributes || !values) in get_display_attributes() 255 values[i] = 1000000000 / config->fps; in get_display_attributes() 258 values[i] = config->xres; in get_display_attributes() 261 values[i] = config->yres; in get_display_attributes() 264 values[i] = 1000 * config->xdpi; in get_display_attributes() 267 values[i] = 1000 * config->ydpi; in get_display_attributes()
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/hardware/interfaces/drm/1.1/ |
D | types.hal | 42 * values[0] { 47 * values[1] { 73 * The type field indicates which of the following values is used. 82 * A value of the metric. A metric may have multiple values. The 90 * The type field indicates which of the following values is used. 106 // A Metric may have one or more values. Multiple values are useful 109 vec<Value> values;
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/hardware/interfaces/graphics/common/1.1/ |
D | types.hal | 33 * The component values are unsigned normalized to the range [0, 1], whose 42 * The component values are unsigned normalized to the range [0, 1], whose 51 * The depth component values are unsigned normalized to the range [0, 1], 52 * whose interpretation is defined by the dataspace. The stencil values are 60 * The component values are signed floats, whose interpretation is defined 69 * The depth component values are signed floats, whose interpretation is 78 * The component values are unsigned integers, whose interpretation is 106 * The component values are unsigned normalized to the range [0, 1], whose 144 * counterparts is that, with legacy dataspaces, the pixel values may have 150 * is allowed, the pixel values can be interpreted freely by [all …]
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/hardware/interfaces/camera/metadata/3.2/ |
D | types.hal | 211 * calculated values.</p> 265 * latest calculated values.</p> 348 * <p>Maximum and minimum exposure compensation values for 786 * <p>List of aperture size values for ANDROID_LENS_APERTURE that are 795 * <p>List of neutral density filter values for 910 * values.</p> 1208 * <p>A matrix that transforms color values from CIE XYZ color space to 1215 * <p>A matrix that transforms color values from CIE XYZ color space to 1781 * to its current values, or is free to vary.</p> 1865 /** android.colorCorrection.mode enumeration values [all …]
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