| /external/autotest/server/cros/chaos_lib/ |
| chaos_parser.py | 83 """Gets the AP band from ssid using channel.
87 @returns the AP band, mode, and channel.
94 # TODO Choose if we want to keep band, we never put it in the
97 band = '2.4GHz'
99 band = '5GHz'
101 'band': band}
184 # Get the router name, band for the AP that failed
|
| /external/opencv3/modules/photo/src/ |
| inpaint.cpp | 65 #define KNOWN 0 //known outside narrow band
66 #define BAND 1 //narrow band (known)
262 CV_MAT_ELEM(*f,uchar,i,j) = BAND;
392 CV_MAT_ELEM(*f,uchar,i,j) = BAND;
504 CV_MAT_ELEM(*f,uchar,i,j) = BAND;
600 CV_MAT_ELEM(*f,uchar,i,j) = BAND;
688 CV_MAT_ELEM(*f,uchar,i,j) = BAND;
731 cv::Ptr<CvMat> mask, band, f, t, out; local
764 band.reset(cvCreateMat(erows, ecols, CV_8UC1))
[all...] |
| /external/autotest/client/bin/net/ |
| net_tc.py | 367 def get_class(self, band):
368 if band > self._bands:
369 raise error.TestError('error inserting %s at band %s' % \
370 (qdisc.name, band))
371 return self._classes[band]
|
| /external/autotest/server/cros/ap_configurators/ |
| ap_configurator.py | 98 Example: returned is a dictionary of band and a list of channels. The
99 band object returned must be one of those defined in the
102 supported_bands = [{'band' : self.band_2GHz,
104 {'band' : ap_spec.BAND_5GHZ,
119 Example: returned is a dictionary of band and a list of modes. The band
123 supported_modes = [{'band' : ap_spec.BAND_2GHZ,
125 {'band' : ap_spec.BAND_5GHZ,
146 def is_band_and_channel_supported(self, band, channel):
148 Returns if a given band and channel are supported
[all...] |
| linksyse2100_ap_configurator.py | 14 def _set_mode(self, mode, band=None):
|
| linksyswrt120n_ap_configurator.py | 35 def _set_mode(self, mode, band=None):
|
| netgearR6200_ap_configurator.py | 46 return [{'band': ap_spec.BAND_2GHZ,
48 {'band': ap_spec.BAND_5GHZ,
53 return [{'band': ap_spec.BAND_2GHZ,
55 {'band': ap_spec.BAND_5GHZ,
86 def _set_mode(self, mode, band=None):
114 logging.debug('Cannot set WEP security for 5GHz band in Netgear '
|
| buffalo_ap_configurator.py | 41 return [{'band':ap_spec.BAND_2GHZ,
48 return [{'band':ap_spec.BAND_2GHZ,
130 def set_mode(self, mode, band=None):
230 def set_band(self, band):
|
| dlink_dir300_ap_configurator.py | 23 return [{'band': ap_spec.BAND_2GHZ,
28 return [{'band': ap_spec.BAND_2GHZ,
91 def set_mode(self, mode, band=None):
92 # Mode overrides the band. So if a band change is made after a mode
150 def set_band(self, band):
|
| levelone_ap_configurator.py | 22 return [{'band': ap_spec.BAND_2GHZ,
28 return [{'band': ap_spec.BAND_2GHZ,
65 def set_mode(self, mode, band=None):
69 def _set_mode(self, mode, band=None):
117 logging.debug('set_band is not supported in Linksys single band AP.')
|
| linksys_ap_configurator.py | 32 return [{'band': ap_spec.BAND_2GHZ,
37 return [{'band': ap_spec.BAND_2GHZ,
76 def set_mode(self, mode, band=None):
136 def set_band(self, band):
|
| linksyse_single_band_configurator.py | 5 """Base class for objects to configure Linksys single band access points
19 """Base class for objects to configure Linksys single band access points
53 return [{'band': ap_spec.BAND_2GHZ,
59 return [{'band': ap_spec.BAND_2GHZ,
113 def set_mode(self, mode, band=None):
117 def _set_mode(self, mode, band=None):
199 logging.debug('set_band is not supported in Linksys single band AP.')
|
| medialink_ap_configurator.py | 51 return [{'band': ap_spec.BAND_2GHZ,
57 return [{'band': ap_spec.BAND_2GHZ,
106 def set_mode(self, mode, band=None):
171 def set_band(self, band):
|
| /hardware/qcom/wlan/qcwcn/wifi_hal/ |
| wifihal_internal.h | 75 u32 band,
|
| /system/core/include/system/ |
| radio.h | 42 /* value for field "type" of radio band described in struct radio_hal_band_config */
44 RADIO_BAND_AM = 0, /* Amplitude Modulation band: LW, MW, SW */
45 RADIO_BAND_FM = 1, /* Frequency Modulation band: FM */
65 /* Region a particular radio band configuration corresponds to. Not used at the HAL.
66 * Derived by the framework when converting the band descriptors retrieved from the HAL to
67 * individual band descriptors for each supported region. */
90 /* Additional attributes for an FM band configuration */
100 /* Additional attributes for an AM band configuration */
105 /* Radio band configuration. Describes a given band supported by the radio module
125 radio_hal_band_config_t band; member in struct:radio_band_config
[all...] |
| /external/aac/libSBRenc/src/ |
| tran_det.cpp | 198 /* Energy change in current band */
205 /* Weighting with amplitude ratio of this band */
234 The input values Energies[0] (low-band) are scaled by the factor
236 The input values Energies[1] (high-band) are scaled by the factor
282 is 1 SBR-band. Therefore the data to be fed into the spectralChange
457 * Calculate transient energy threshold for each QMF band
843 dBf = (10^(0.002266f/10*bw(slot)))^(band)
909 int timeSlot, band; local
[all...] |
| sbr_encoder.cpp | 888 INT band; local
935 INT band; local
[all...] |
| /external/aac/libSBRdec/src/ |
| env_calc.cpp | 97 one or more QMF-subbands are grouped to one SBR-band. An envelope contains
98 reference energies for each SBR-band.
224 The bitstream carries only 1 sine flag per band and frame.
236 static void mapSineFlags(UCHAR *freqBandTable, /*!< Band borders (there's only 1 flag per band) */
241 SCHAR *sineMapped) /*!< Resulting vector of sine start positions for each QMF band */
258 The lowest bit of the first word corresponds to the _highest_ sfb band in use.
259 This is ensures that each flag is mapped to the same QMF band even after a
271 int ui = *freqBandTable--; /* Upper limit of the current scale factor band. */
272 int li = *freqBandTable; /* Lower limit of the current scale factor band. *
1205 int band; local
[all...] |
| /external/pdfium/third_party/libopenjpeg20/ |
| t2.c | 577 opj_tcd_band_t *band = 00; local
605 band = res->bands;
608 opj_tcd_precinct_t *prc = &band->precincts[precno];
618 opj_tgt_setvalue(prc->imsbtree, cblkno, band->numbps - (OPJ_INT32)cblk->numbps);
620 ++band;
633 band = res->bands;
635 opj_tcd_precinct_t *prc = &band->precincts[precno];
718 ++band;
751 band = res->bands;
753 opj_tcd_precinct_t *prc = &band->precincts[precno]
[all...] |
| /external/autotest/server/site_tests/network_WiFi_RegDomain/ |
| network_WiFi_RegDomain.py | 70 for band in phy.bands:
71 for frequency, flags in band.frequency_flags.iteritems():
|
| /frameworks/base/wifi/java/android/net/wifi/ |
| IWifiManager.aidl | 100 void setFrequencyBand(int band, boolean persist);
|
| /toolchain/binutils/binutils-2.25/gas/testsuite/gas/sh/ |
| sh2a.s | 5 band.b #7,@(4095,r3)
|
| /external/freetype/src/smooth/ |
| ftgrays.c | 1014 /* short-cut the arc that crosses the current band */
1761 TCoord* band; local
[all...] |
| /frameworks/av/media/libeffects/testlibs/ |
| EffectEqualizer.cpp | 437 ALOGV("Equalizer_getParameter() EQ_PARAM_BAND_LEVEL band %d, level %d",
448 ALOGV("Equalizer_getParameter() EQ_PARAM_CENTER_FREQ band %d, frequency %d",
459 ALOGV("Equalizer_getParameter() EQ_PARAM_BAND_FREQ_RANGE band %d, min %d, max %d",
466 ALOGV("Equalizer_getParameter() EQ_PARAM_GET_BAND frequency %d, band %d",
536 int32_t band; local
554 band = *pParam;
556 ALOGV("setParameter() EQ_PARAM_BAND_LEVEL band %d, level %d", band, level);
557 if (band >= kNumBands) {
561 pEqualizer->setGain(band, level)
[all...] |
| /tools/test/connectivity/acts/framework/acts/test_utils/wifi/ |
| wifi_test_utils.py | 208 WIFI_BAND_24_GHZ = 1 # 2.4 GHz band
209 WIFI_BAND_5_GHZ = 2 # 5 GHz band without DFS channels
210 WIFI_BAND_5_GHZ_DFS_ONLY = 4 # 5 GHz band with DFS channels
211 WIFI_BAND_5_GHZ_WITH_DFS = 6 # 5 GHz band with DFS channels
375 def band_to_freq(self, band):
384 return _band_to_frequencies[band]
583 def start_wifi_tethering(ad, ssid, password, band=None):
590 band: The band the soft AP should be set on. It should be either
602 if band
[all...] |
