/haiku-fatelf/src/tests/system/kernel/ |
H A D | mtrr_power_test.c | 10 uint64 power = 1UL << 12; local 12 *lower = power; 13 while (value >= power) { 15 *lower = power; 16 power <<= 1; 19 *upper = power;
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/haiku-fatelf/headers/private/device/ |
H A D | power_managment.h | 49 int power; member in struct:__anon625
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/haiku-fatelf/src/bin/coreutils/lib/ |
H A D | xstrtol.c | 64 bkm_scale_by_power (__strtol_t *x, int base, int power) argument 67 while (power--) 141 the base. A suffix "B" (e.g. "100MB") stands for a power 143 a power of 1024. If no suffix (e.g. "100M"), assume 144 power-of-1024. */
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H A D | human.c | 140 so on. Numbers smaller than the power aren't modified. 146 If (OPTS & human_SI), append an SI prefix indicating which power is 150 power of 1024 or of 1000, depending on (OPTS & 275 Use power of BASE notation if requested and if adjusted AMT is 363 uintmax_t power; local 365 for (power = 1; power < to_block_size; power *= base)
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/haiku-fatelf/src/bin/findutils/gnulib/lib/ |
H A D | xstrtol.c | 64 bkm_scale_by_power (__strtol_t *x, int base, int power) argument 67 while (power--) 141 the base. A suffix "B" (e.g. "100MB") stands for a power 143 a power of 1024. If no suffix (e.g. "100M"), assume 144 power-of-1024. */
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H A D | human.c | 140 so on. Numbers smaller than the power aren't modified. 146 If (OPTS & human_SI), append an SI prefix indicating which power is 150 power of 1024 or of 1000, depending on (OPTS & 275 Use power of BASE notation if requested and if adjusted AMT is 363 uintmax_t power; local 365 for (power = 1; power < to_block_size; power *= base)
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/haiku-fatelf/src/bin/pcmcia-cs/ |
H A D | dump_cis.c | 229 static void print_power(char *tag, cistpl_power_t *power) argument 233 if (power->present & (1<<i)) n++; 236 if (power->present & (1<<CISTPL_POWER_VNOM)) { 238 print_volt(power->param[CISTPL_POWER_VNOM]); 240 if (power->present & (1<<CISTPL_POWER_VMIN)) { 242 print_volt(power->param[CISTPL_POWER_VMIN]); 244 if (power->present & (1<<CISTPL_POWER_VMAX)) { 246 print_volt(power->param[CISTPL_POWER_VMAX]); 248 if (power->present & (1<<CISTPL_POWER_ISTATIC)) { 250 print_current(power [all...] |
/haiku-fatelf/src/add-ons/media/plugins/musepack/mpc/ |
H A D | mpc_dec.cpp | 1136 float power[10]; 1144 The implemented EQ utilizes the given frequencies and interpolates the power level. 1154 power[n] = (31-(int)data[n]) * PluginSettings.EQdB/32.f; 1155 power[n] += (31- preamp) * PluginSettings.EQdB/32.f; 1159 set[0] = power[0]; 1160 for ( k = 1; k < 4; k++ ) set [k]= (power[0]*(4 -k) + power[1]*(k- 1)) / 3.f; 1161 for ( k = 4; k < 7; k++ ) set [k]= (power[1]*(7 -k) + power[2]*(k- 4)) / 3.f; 1162 for ( k = 7; k < 14; k++ ) set [k]= (power[ [all...] |
/haiku-fatelf/src/add-ons/accelerants/radeon_hd/ |
H A D | encoder.h | 38 void encoder_dpms_scratch(uint8 crtcID, bool power);
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H A D | encoder.cpp | 1641 encoder_dpms_scratch(uint8 crtcID, bool power) argument 1652 if (power == true) 1658 if (power == true) 1664 if (power == true) 1670 if (power == true) 1676 if (power == true) 1682 if (power == true) 1688 if (power == true) 1694 if (power == true) 1700 if (power [all...] |
/haiku-fatelf/src/bin/bc/lib/ |
H A D | number.c | 1172 /* Raise BASE to the EXPO power, reduced modulo MOD. The result is 1181 bc_num power, exponent, parity, temp; local 1189 power = bc_copy_num (base); 1216 bc_multiply (temp, power, &temp, rscale); 1220 bc_multiply (power, power, &power, rscale); 1221 (void) bc_modulo (power, mod, &power, scale); 1225 bc_free_num (&power); 1241 bc_num temp, power; local [all...] |
/haiku-fatelf/src/add-ons/kernel/drivers/power/enhanced_speedstep/ |
H A D | frequency.cpp | 182 frequencyInfo[0].power = CPUFREQ_VAL_UNKNOWN; 196 frequencyInfo[1].power = CPUFREQ_VAL_UNKNOWN;
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H A D | enhanced_speedstep.cpp | 26 #define EST_MODULE_NAME "drivers/power/enhanced_speedstep/driver_v1" 28 #define EST_DEVICE_MODULE_NAME "drivers/power/enhanced_speedstep/device_v1" 31 #define EST_BASENAME "power/enhanced_speedstep/%d" 61 "Latency %i, id %hu\n", f->frequency, f->volts, f->power, f->id, 70 "Power %i, Latency %i\n", f2->frequency, f2->volts, f2->power, 208 f->frequency, f->volts, f->power, f->id, EST_TRANS_LAT); 216 f2->frequency, f2->volts, f2->power, EST_TRANS_LAT);
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/haiku-fatelf/src/bin/diffutils/lib/ |
H A D | xstrtol.c | 108 bkm_scale_by_power (__strtol_t *x, int base, int power) argument 110 while (power--) 180 the base. A suffix "B" (e.g. "100MB") stands for a power 182 a power of 1024. If no suffix (e.g. "100M"), assume 183 power-of-1024. */
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/haiku-fatelf/headers/cpp/ |
H A D | algo.h | 105 using __STD::power;
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H A D | stl_numeric.h | 208 // Alias for the internal name __power. Note that power is an extension, 212 inline _Tp power(_Tp __x, _Integer __n, _MonoidOperation __oper) function 218 inline _Tp power(_Tp __x, _Integer __n) function
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/haiku-fatelf/src/add-ons/kernel/drivers/input/usb_hid/ |
H A D | HIDParser.cpp | 549 float power = 1; local 552 power /= 10; 555 power *= 10; 558 float divisor = (physicalMaximum - physicalMinimum) * power;
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/haiku-fatelf/src/system/libroot/posix/malloc/ |
H A D | heap.cpp | 113 int power = 0; local 115 // Invariant: 2^power == n. 118 power++; 120 return power;
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/haiku-fatelf/src/add-ons/kernel/drivers/network/wlan/iprowifi3945/dev/wpi/ |
H A D | if_wpivar.h | 111 int8_t power; member in struct:wpi_power_sample
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/haiku-fatelf/src/bin/gdb/bfd/ |
H A D | linker.c | 1180 unsigned int power; 1212 power = bfd_log2 (size); 1213 if (power > 4) 1214 power = 4; 1215 h->u.c.p->alignment_power = power; 1667 unsigned int power; 1669 power = bfd_log2 (value); 1670 if (power > 4) 1671 power = 4; 1672 h->u.c.p->alignment_power = power; 1176 unsigned int power; local 1662 unsigned int power; local 1713 unsigned int power; local [all...] |
/haiku-fatelf/src/tools/docbook/libxslt/libexslt/ |
H A D | math.c | 617 * @power: a double 619 * Implements the EXSLT - Math power() function: 620 * number math:power (number, number) 622 * Returns the power base and power arguments, or xmlXPathNAN 623 * if either @base or @power is Nan. 626 exsltMathPower (double base, double power) { argument 629 if ((xmlXPathIsNaN(base) || xmlXPathIsNaN(power))) 631 ret = pow(base, power); 654 /* power */ [all...] |
/haiku-fatelf/src/add-ons/kernel/drivers/network/wlan/ralinkwifi/dev/ral/ |
H A D | rt2661.c | 1990 int8_t power; local 2002 power = sc->txpow[i]; 2003 if (power < 0) { 2004 bbp94 += power; 2005 power = 0; 2006 } else if (power > 31) { 2007 bbp94 += power - 31; 2008 power = 31; 2023 rt2661_rf_write(sc, RAL_RF3, rfprog[i].r3 | power << 7); 2030 rt2661_rf_write(sc, RAL_RF3, rfprog[i].r3 | power << [all...] |
H A D | rt2560.c | 2105 uint8_t power, tmp; local 2112 power = min(sc->txpow[chan - 1], 31); 2114 power = 31; 2117 power -= (100 - ic->ic_txpowlimit) / 8; 2119 DPRINTFN(sc, 2, "setting channel to %u, txpower to %u\n", chan, power); 2125 rt2560_rf_write(sc, RAL_RF3, power << 7 | 0x00040); 2131 rt2560_rf_write(sc, RAL_RF3, power << 7 | 0x38044); 2138 rt2560_rf_write(sc, RAL_RF3, power << 7 | 0x00040); 2145 rt2560_rf_write(sc, RAL_RF3, power << 7 | 0x18044); 2150 rt2560_rf_write(sc, RAL_RF3, power << [all...] |
/haiku-fatelf/src/add-ons/kernel/drivers/network/wlan/atheroswifi/dev/ath/ath_hal/ar5212/ |
H A D | ar5112.c | 51 int16_t *power, int16_t maxPower, int16_t *retVals); 309 /* Adjust params for Derby TX power control */ 339 * Read the transmit power levels from the structures taken from EEPROM 340 * Interpolate read transmit power values for this channel 341 * Organize the transmit power values into a table for writing into the hardware 532 * Move 5112 rates to match power tables where the max 533 * power table entry corresponds with maxPower. 607 getFullPwrTable(uint16_t numPcdacs, uint16_t *pcdacs, int16_t *power, int16_t maxPower, int16_t *retVals) argument 625 pcdacs[idxL], pcdacs[idxR], power[idxL], power[idx [all...] |
/haiku-fatelf/headers/private/firewire/ |
H A D | firewirereg.h | 77 uint8_t power; member in struct:fw_device
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