/frameworks/base/media/libstagefright/codecs/amrnb/common/include/ |
H A D | mac_32.h | 107 Word16 L_var1_lo, 119 product = mult(L_var1_lo, L_var2_hi, pOverflow); 127 Word16 L_var1_lo, 135 product = mult(L_var1_lo, var2, pOverflow); 105 Mac_32(Word32 L_var3, Word16 L_var1_hi, Word16 L_var1_lo, Word16 L_var2_hi, Word16 L_var2_lo, Flag *pOverflow) argument 125 Mac_32_16(Word32 L_var3, Word16 L_var1_hi, Word16 L_var1_lo, Word16 var2, Flag *pOverflow) argument
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H A D | mpy_32_16.h | 94 Word16 L_var1_lo, 107 __asm {SMULBB result, L_var1_lo, var2} local 116 Word16 L_var1_lo, 122 register Word32 rb = L_var1_lo; 160 Word16 L_var1_lo, 180 result = ((Word32)L_var1_lo * var2) >> 15; 93 Mpy_32_16(Word16 L_var1_hi, Word16 L_var1_lo, Word16 var2, Flag *pOverflow) argument 115 Mpy_32_16(Word16 L_var1_hi, Word16 L_var1_lo, Word16 var2, Flag *pOverflow) argument 159 Mpy_32_16(Word16 L_var1_hi, Word16 L_var1_lo, Word16 var2, Flag *pOverflow) argument
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H A D | mpy_32.h | 108 Word16 L_var1_lo, 133 __asm {SMULBB product32, L_var1_lo, L_var2_hi} local 142 Word16 L_var1_lo, 151 register Word32 rb = L_var1_lo; 207 Word16 L_var1_lo, 244 /* result = mult (L_var1_lo, L_var2_hi, pOverflow); */ 245 product32 = ((Word32) L_var1_lo * L_var2_hi) >> 15; 107 Mpy_32(Word16 L_var1_hi, Word16 L_var1_lo, Word16 L_var2_hi, Word16 L_var2_lo, Flag *pOverflow) argument 141 Mpy_32(Word16 L_var1_hi, Word16 L_var1_lo, Word16 L_var2_hi, Word16 L_var2_lo, Flag *pOverflow) argument 206 Mpy_32(Word16 L_var1_hi, Word16 L_var1_lo, Word16 L_var2_hi, Word16 L_var2_lo, Flag *pOverflow) argument
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H A D | basic_op.h | 148 L_var1_lo = 16 bit short signed integer (Word16) whose value falls in 166 Word16 L_var1_lo, 178 product = mult(L_var1_lo, L_var2_hi, pOverflow); 195 L_var1_lo = 16 bit short signed integer (Word16) whose value falls in 210 Word16 L_var1_lo, 218 product = mult(L_var1_lo, var2, pOverflow); 164 Mac_32(Word32 L_var3, Word16 L_var1_hi, Word16 L_var1_lo, Word16 L_var2_hi, Word16 L_var2_lo, Flag *pOverflow) argument 208 Mac_32_16(Word32 L_var3, Word16 L_var1_hi, Word16 L_var1_lo, Word16 var2, Flag *pOverflow) argument
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H A D | basic_op_arm_gcc_v5.h | 317 L_var1_lo = least significant word of first input (Word16). 330 Word16 L_var1_lo, 339 register Word32 rb = L_var1_lo; 402 L_var1_lo = least significant 16 bits of 32-bit input (Word16). 414 Word16 L_var1_lo, 420 register Word32 rb = L_var1_lo; 329 Mpy_32(Word16 L_var1_hi, Word16 L_var1_lo, Word16 L_var2_hi, Word16 L_var2_lo, Flag *pOverflow) argument 413 Mpy_32_16(Word16 L_var1_hi, Word16 L_var1_lo, Word16 var2, Flag *pOverflow) argument
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H A D | basic_op_arm_v5.h | 287 L_var1_lo = least significant word of first input (Word16). 299 __inline Word32 Mpy_32(Word16 L_var1_hi, Word16 L_var1_lo, Word16 L_var2_hi, argument 324 SMULBB product32, L_var1_lo, L_var2_hi local 342 L_var1_lo = least significant 16 bits of 32-bit input (Word16). 354 Word16 L_var1_lo, 367 __asm {SMULBB result, L_var1_lo, var2} local 353 Mpy_32_16(Word16 L_var1_hi, Word16 L_var1_lo, Word16 var2, Flag *pOverflow) argument
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H A D | basic_op_c_equivalent.h | 309 L_var1_lo = least significant word of first input (Word16). 322 Word16 L_var1_lo, 359 /* result = mult (L_var1_lo, L_var2_hi, pOverflow); */ 360 product32 = ((Word32) L_var1_lo * L_var2_hi) >> 15; 383 L_var1_lo = least significant 16 bits of 32-bit input (Word16). 396 Word16 L_var1_lo, 416 result = ((Word32)L_var1_lo * var2) >> 15; 321 Mpy_32(Word16 L_var1_hi, Word16 L_var1_lo, Word16 L_var2_hi, Word16 L_var2_lo, Flag *pOverflow) argument 395 Mpy_32_16(Word16 L_var1_hi, Word16 L_var1_lo, Word16 var2, Flag *pOverflow) argument
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