//.include "ihevc_neon_macros.s"
.macro push_v_regs
stp X8, X9, [sp, #-16]!
stp X10, X11, [sp, #-16]!
stp X12, X13, [sp, #-16]!
stp X14, X15, [sp, #-16]!
stp X16, X17, [sp, #-16]!
stp x19, x20, [sp, #-16]!
stp x21, x22, [sp, #-16]!
stp X29, X30, [sp, #-16]!
.endm
.macro pop_v_regs
ldp X29, X30, [sp], #16
ldp x21, x22, [sp], #16
ldp x19, x20, [sp], #16
ldp X16, X17, [sp], #16
ldp X14, X15, [sp], #16
ldp X12, X13, [sp], #16
ldp X10, X11, [sp], #16
ldp X8, X9, [sp], #16
.endm
.text
.p2align 2
.global ixheaacd_scale_factor_process_armv8
ixheaacd_scale_factor_process_armv8:
push_v_regs
MOV x9, x4
MOV x21, x6
MOV x22, x7
CMP x2, #0 // Tbands
BGT lbl17
pop_v_regs
ret
lbl17:
MOV x10, #0
CMP x5, #2
BGT ADD_34
MOV x11, #0x25
B TBANDS_LOOP
ADD_34:
MOV x11, #0x22
// MOV x11, #0x25 // temp=37
TBANDS_LOOP:
LDRSH x5, [x1], #2 // scale_factor = *Scfactor++;
LDRB w4, [x3], #1 //Offset [1]
sxtw x4, w4
CMP x5, #0x18 //if(scale_factor < 24)
BGE SCALE_FACTOR_GE_12 //
CMP x4, #0
BLE OFFSET_ZERO
SCALE_FACTOR_LT_12:
STR x10, [x0], #8
STR x10, [x0], #8
SUBS x4, x4, #4
BGT SCALE_FACTOR_LT_12
B OFFSET_ZERO
SCALE_FACTOR_GE_12:
SUBS x6, x11, x5, ASR #2 // 37-(scale_factor >> 2)
AND x5, x5, #3 // scale_factor & 0x0003
//ADD x5,x9,x5,LSL #1 ; scale_table_ptr[(scale_factor & 0x0003)];
LDR w5, [x9, x5, LSL #2] // scale_short = scale_table_ptr[(scale_factor & 0x0003)];
sxtw x5, w5
AND w17, w5, #0x0000FFFF
sxth w17, w17 //16-bit value stored as 32-bit,so SMULWB can still be used
BLE SHIFT_LE_ZERO // if shift less than or equal to zero
SUB x14, x6, #1 //dont do that extra LSL #1 in SMULWB
SHIFT_POSITIVE: //loop over sfbWidth a multiple of 4
LDP w6, w7 , [x0, #0] // temp1 = *x_invquant
LDP w19, w20, [x0, #8]
//SMULWB x6, x6, x5 // buffex1 = mult32x16in32(temp1, scale_short);
SMULL x6, w6, w17
SMULL x7, w7, w17
SMULL x19, w19, w17
SMULL x20, w20, w17
ASR x6, x6, #16
ASR x7, x7 , #16
ASR x19, x19 , #16
ASR x20, x20 , #16
ASR x6, x6, x14 // buffex1 = shx32(buffex1, shift);
ASR x7, x7, x14
ASR x19, x19, x14
ASR x20, x20, x14
stp w6, w7, [x0], #8
stp w19, w20, [x0], #8
SUBS x4, x4, #4
BGT SHIFT_POSITIVE
B OFFSET_ZERO
SHIFT_LE_ZERO:
//RSBS x14, x6, #0 //-shift
NEGS x14, x6
BGT SHIFT_NEGTIVE1
SHIFT_ZERO: //loop over sfbWidth a multiple of 4
LDP w6, w7, [x0, #0] // temp1 = *x_invquant;
//SMULWB x6, x6, x5 // buffex1 = mult32x16in32(temp1, scale_short);
SMULL x6, w6, w17
SMULL x7, w7, w17
ASR x6, x6, #16
ASR x7, x7, #16
LSL x6, x6, #1
LSL x7, x7, #1
STP w6, w7, [x0], #8 // *x_invquant++ = buffex1;
SUBS x4, x4, #2
BGT SHIFT_ZERO
B OFFSET_ZERO
SHIFT_NEGTIVE1:
SUB x14, x14, #1
SHIFT_NEGTIVE: //;loop over sfbWidth a multiple of 4
LDP w6, w7, [x0, #0]
LSL w6, w6, w14 // buffex1 = shl32(buffex1, shift-1);
LSL w7, w7, w14 // buffex1 = shl32(buffex1, shift-1);
//SMULWB x6, x6, x5 // buffex1 = mult32x16in32(temp1, scale_short);
SMULL x6, w6, w17
SMULL x7, w7, w17
ASR x6, x6, #16
ASR x7, x7, #16
LSL x6, x6, #2 // shl for fixmul_32x16b and shl32(buffer,1)
LSL x7, x7, #2 // shl for fixmul_32x16b and shl32(buffer,1)
STP w6, w7, [x0], #8 // *x_invquant++ = buffex1;
SUBS x4, x4, #2
BGT SHIFT_NEGTIVE
OFFSET_ZERO:
SUBS x2, x2, #1
BGT TBANDS_LOOP
pop_v_regs
ret