/frameworks/av/media/libstagefright/codecs/aacenc/inc/ |
band_nrg.h | 30 void CalcBandEnergy(const Word32 *mdctSpectrum, 33 Word32 *bandEnergy, 34 Word32 *bandEnergySum); 37 void CalcBandEnergyMS(const Word32 *mdctSpectrumLeft, 38 const Word32 *mdctSpectrumRight, 41 Word32 *bandEnergyMid, 42 Word32 *bandEnergyMidSum, 43 Word32 *bandEnergySide, 44 Word32 *bandEnergySideSum);
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ms_stereo.h | 27 void MsStereoProcessing(Word32 *sfbEnergyLeft, 28 Word32 *sfbEnergyRight, 29 const Word32 *sfbEnergyMid, 30 const Word32 *sfbEnergySide, 31 Word32 *mdctSpectrumLeft, 32 Word32 *mdctSpectrumRight, 33 Word32 *sfbThresholdLeft, 34 Word32 *sfbThresholdRight, 35 Word32 *sfbSpreadedEnLeft, 36 Word32 *sfbSpreadedEnRight [all...] |
pre_echo_control.h | 28 void InitPreEchoControl(Word32 *pbThresholdnm1, 30 Word32 *pbThresholdQuiet); 33 void PreEchoControl(Word32 *pbThresholdNm1, 35 Word32 maxAllowedIncreaseFactor, 37 Word32 *pbThreshold,
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psy_data.h | 34 Word32 sfbLong[MAX_GROUPED_SFB]; 35 Word32 sfbShort[TRANS_FAC][MAX_SFB_SHORT]; 39 Word32 sfbLong[MAX_GROUPED_SFB]; 40 Word32 sfbShort[TRANS_FAC][MAX_SFB_SHORT]; 44 Word32 sfbLong; 45 Word32 sfbShort[TRANS_FAC]; 52 Word32 sfbThresholdnm1[MAX_SFB]; /* PreEchoControl */ 62 Word32 *mdctSpectrum; /* mdct spectrum [FRAME_LEN_LONG] */
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/frameworks/av/media/libstagefright/codecs/amrnb/common/include/ |
l_abs.h | 100 Word32 L_abs(Word32 L_var1);
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l_negate.h | 103 Word32 L_negate(Word32 L_var1);
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l_add_c.h | 104 Word32 L_add_c(Word32 L_var1, Word32 L_var2, Flag *pOverflow, Flag *pCarry);
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basic_op_arm_gcc_v5.h | 106 L_var1 = 32 bit long signed integer (Word32) whose value falls 109 L_var2 = 32 bit long signed integer (Word32) whose value falls 118 L_sum = 32-bit sum of L_var1 and L_var2 (Word32) 121 __inline Word32 L_add(register Word32 L_var1, register Word32 L_var2, Flag *pOverflow) 123 register Word32 ra = L_var1; 124 register Word32 rb = L_var2; 125 Word32 result; 144 L_var1 = 32 bit long signed integer (Word32) whose value fall [all...] |
l_add.h | 111 __inline Word32 L_add(register Word32 L_var1, register Word32 L_var2, Flag *pOverflow) 113 Word32 result; 125 __inline Word32 L_add(register Word32 L_var1, register Word32 L_var2, Flag *pOverflow) 127 register Word32 ra = L_var1; 128 register Word32 rb = L_var2; 129 Word32 result [all...] |
l_sub.h | 109 __inline Word32 L_sub(Word32 L_var1, Word32 L_var2, Flag *pOverflow) 111 Word32 result; 126 __inline Word32 L_sub(Word32 L_var1, Word32 L_var2, Flag *pOverflow) 128 register Word32 ra = L_var1; 129 register Word32 rb = L_var2; 130 Word32 result [all...] |
basic_op_c_equivalent.h | 104 L_var1 = 32 bit long signed integer (Word32) whose value falls 107 L_var2 = 32 bit long signed integer (Word32) whose value falls 116 L_sum = 32-bit sum of L_var1 and L_var2 (Word32) 119 static inline Word32 L_add(Word32 L_var1, Word32 L_var2, Flag *pOverflow) 121 Word32 L_sum; 144 L_var1 = 32 bit long signed integer (Word32) whose value falls 147 L_var2 = 32 bit long signed integer (Word32) whose value falls 156 L_diff = 32-bit difference of L_var1 and L_var2 (Word32) [all...] |
div_32.h | 104 Word32 Div_32(Word32 L_num,
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inv_sqrt.h | 105 Word32 Inv_sqrt( /* (o) : output value */ 106 Word32 L_x, /* (i) : input value */
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l_shl.h | 104 Word32 L_shl(Word32 L_var1, Word16 var2, Flag *pOverflow);
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l_shr.h | 103 Word32 L_shr(Word32 L_var1, Word16 var2, Flag *pOverflow);
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/frameworks/av/media/libstagefright/codecs/amrnb/common/src/ |
l_deposit_h.cpp | 57 var1 = deposit of var1 into MSWord of 32 bit value (Word32) 87 Word32 L_deposit_h (Word16 var1) 89 Word32 L_var_out; 91 L_var_out = (Word32) var1 << 16; 163 Word32 L_deposit_h(Word16 var1) 176 return ((Word32) var1 << 16);
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l_deposit_l.cpp | 57 var1 = deposit of var1 into LSWord of 32 bit value (Word32) 87 Word32 L_deposit_l (Word16 var1) 89 Word32 L_var_out; 91 L_var_out = (Word32) var1; 163 Word32 L_deposit_l(Word16 var1) 176 return ((Word32) var1);
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l_abs.cpp | 47 L_var1 = 32 bit long signed integer (Word32 ) whose value falls 57 L_var1 = absolute value of input (Word32) 87 Word32 L_abs (Word32 L_var1) 89 Word32 L_var_out; 179 Word32 L_abs(register Word32 L_var1) 189 Word32 y = L_var1 - (L_var1 < 0);
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mult_r.cpp | 139 Word32 L_product_arr; 141 L_product_arr = (Word32) var1 *(Word32) var2; 142 L_product_arr += (Word32) 0x00004000L; 143 L_product_arr &= (Word32) 0xffff8000L; 146 if (L_product_arr & (Word32) 0x00010000L) 148 L_product_arr |= (Word32) 0xffff0000L; 193 Word32 L_product_arr; 195 L_product_arr = ((Word32) var1) * var2; /* product */ 196 L_product_arr += (Word32) 0x00004000L; /* round * [all...] |
/frameworks/av/media/libstagefright/codecs/amrnb/enc/src/ |
l_negate.cpp | 34 L_var1 = 32 bit long signed integer (Word32) whose value falls 74 Word32 L_negate (Word32 L_var1) 76 Word32 L_var_out; 150 Word32 L_negate(Word32 L_var1)
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calc_cor.cpp | 110 lags. (Word32) 114 lags. (Word32) 155 Word32 corr[]) // o : correlation of selected lag 159 Word32 t0; 205 Word32 corr[]) /* o : correlation of selected lag */ 227 Word32 t1; 228 Word32 t2; 229 Word32 t3; 230 Word32 t4; 248 t1 = amrnb_fxp_mac_16_by_16bb((Word32) * (p), (Word32) * (p1++), t1) [all...] |
convolve.cpp | 169 Word32 s; 216 Word32 s1, s2; 224 s2 = ((Word32) * (x)) * *(h--); 225 s1 = ((Word32) * (x++)) * *(h); 229 s2 = amrnb_fxp_mac_16_by_16bb((Word32) * (x), (Word32) * (h--), s2); 230 s1 = amrnb_fxp_mac_16_by_16bb((Word32) * (x++), (Word32) * (h), s1); 231 s2 = amrnb_fxp_mac_16_by_16bb((Word32) * (x), (Word32) * (h--), s2) [all...] |
/frameworks/av/media/libstagefright/codecs/aacenc/basic_op/ |
oper_32b.h | 35 void L_Extract (Word32 L_32, Word16 *hi, Word16 *lo); 36 Word32 L_Comp (Word16 hi, Word16 lo); 37 Word32 Mpy_32 (Word16 hi1, Word16 lo1, Word16 hi2, Word16 lo2); 38 Word32 Mpy_32_16 (Word16 hi, Word16 lo, Word16 n); 39 Word32 Div_32 (Word32 L_num, Word32 denom); 40 Word16 iLog4(Word32 value); 41 Word32 rsqrt(Word32 value, Word32 accuracy) [all...] |
/frameworks/av/media/libstagefright/codecs/amrwbenc/inc/ |
math_op.h | 27 Word32 Isqrt( /* (o) Q31 : output value (range: 0<=val<1) */ 28 Word32 L_x /* (i) Q0 : input value (range: 0<=val<=7fffffff) */ 32 Word32 * frac, /* (i/o) Q31: normalized value (1.0 < frac <= 0.5) */ 36 Word32 Pow2( /* (o) Q0 : result (range: 0<=val<=0x7fffffff) */ 41 Word32 Dot_product12( /* (o) Q31: normalized result (1 < val <= -1) */ 48 Word32 Dot_product12_asm( /* (o) Q31: normalized result (1 < val <= -1) */
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oper_32b.h | 24 void VO_L_Extract (Word32 L_32, Word16 *hi, Word16 *lo); 25 Word32 L_Comp (Word16 hi, Word16 lo); 26 Word32 Mpy_32 (Word16 hi1, Word16 lo1, Word16 hi2, Word16 lo2); 27 Word32 Mpy_32_16 (Word16 hi, Word16 lo, Word16 n); 28 Word32 Div_32 (Word32 L_num, Word16 denom_hi, Word16 denom_lo);
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