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251 lines
8.6 KiB
ArmAsm
251 lines
8.6 KiB
ArmAsm
//******************************************************************************
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//*
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//* Copyright (C) 2015 The Android Open Source Project
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//*
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//* Licensed under the Apache License, Version 2.0 (the "License");
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//* you may not use this file except in compliance with the License.
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//* You may obtain a copy of the License at:
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//*
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//* http://www.apache.org/licenses/LICENSE-2.0
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//*
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//* Unless required by applicable law or agreed to in writing, software
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//* distributed under the License is distributed on an "AS IS" BASIS,
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//* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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//* See the License for the specific language governing permissions and
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//* limitations under the License.
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//*
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//*****************************************************************************
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//* Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore
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//*/
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///**
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// *******************************************************************************
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// * @file
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// * ih264_ihadamard_scaling_av8.s
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// *
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// * @brief
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// * Contains function definitions for inverse hadamard transform on 4x4 DC outputs
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// * of 16x16 intra-prediction
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// *
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// * @author
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// * Mohit
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// *
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// * @par List of Functions:
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// * - ih264_ihadamard_scaling_4x4_av8()
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// *
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// * @remarks
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// * None
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// *
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.include "ih264_neon_macros.s"
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// *******************************************************************************
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// */
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// * @brief This function performs a 4x4 inverse hadamard transform on the 4x4 DC coefficients
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// * of a 16x16 intra prediction macroblock, and then performs scaling.
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// * prediction buffer
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// *
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// * @par Description:
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// * The DC coefficients pass through a 2-stage inverse hadamard transform.
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// * This inverse transformed content is scaled to based on Qp value.
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// *
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// * @param[in] pi2_src
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// * input 4x4 block of DC coefficients
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// *
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// * @param[out] pi2_out
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// * output 4x4 block
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// *
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// * @param[in] pu2_iscal_mat
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// * pointer to scaling list
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// *
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// * @param[in] pu2_weigh_mat
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// * pointer to weight matrix
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// *
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// * @param[in] u4_qp_div_6
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// * Floor (qp/6)
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// *
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// * @param[in] pi4_tmp
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// * temporary buffer of size 1*16
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// *
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// * @returns none
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// *
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// * @remarks none
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// *
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// *******************************************************************************
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// */
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// *
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// *******************************************************************************
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// */
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// void ih264_ihadamard_scaling_4x4(word16* pi2_src,
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// word16* pi2_out,
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// const uword16 *pu2_iscal_mat,
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// const uword16 *pu2_weigh_mat,
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// uword32 u4_qp_div_6,
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// word32* pi4_tmp)
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//**************variables vs registers*****************************************
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//x0 => *pi2_src
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//x1 => *pi2_out
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//x2 => *pu2_iscal_mat
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//x3 => *pu2_weigh_mat
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//x4=> u4_qp_div_6
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.text
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.p2align 2
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.global ih264_ihadamard_scaling_4x4_av8
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ih264_ihadamard_scaling_4x4_av8:
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//only one shift is done in horizontal inverse because,
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//if u4_qp_div_6 is lesser than 4 then shift value will be neagative and do negative left shift, in this case rnd_factor has value
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//if u4_qp_div_6 is greater than 4 then shift value will be positive and do left shift, here rnd_factor is 0
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push_v_regs
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//=======================inverse hadamard transform================================
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ld4 {v0.4h-v3.4h}, [x0] //load x4,x5,x6,x7
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dup v14.4s, w4 // populate the u4_qp_div_6
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ld1 {v15.h}[0], [x3] // pu2_weigh_mat
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ld1 {v16.h}[0], [x2] //pu2_iscal_mat
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saddl v4.4s, v0.4h, v3.4h //x0 = x4 + x7
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saddl v5.4s, v1.4h, v2.4h //x1 = x5 + x6
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ssubl v6.4s, v1.4h, v2.4h //x2 = x5 - x6
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ssubl v7.4s, v0.4h, v3.4h //x3 = x4 - x7
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add v0.4s, v4.4s, v5.4s //pi4_tmp_ptr[0] = x0 + x1
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add v1.4s, v7.4s, v6.4s //pi4_tmp_ptr[1] = x3 + x2
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sub v2.4s, v4.4s, v5.4s //pi4_tmp_ptr[2] = x0 - x1
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sub v3.4s, v7.4s, v6.4s //pi4_tmp_ptr[3] = x3 - x2
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umull v15.4s, v15.4h, v16.4h
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dup v15.4s, v15.s[0] //pu2_weigh_mat[0]*pu2_iscal_mat[0]
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//transpose
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trn1 v4.4s, v0.4s, v1.4s
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trn2 v5.4s, v0.4s, v1.4s
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trn1 v6.4s, v2.4s, v3.4s
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trn2 v7.4s, v2.4s, v3.4s
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trn1 v0.2d, v4.2d, v6.2d
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trn2 v2.2d, v4.2d, v6.2d
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trn1 v1.2d, v5.2d, v7.2d
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trn2 v3.2d, v5.2d, v7.2d
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//end transpose
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add v4.4s, v0.4s, v3.4s //x0 = x4+x7
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add v5.4s, v1.4s, v2.4s //x1 = x5+x6
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sub v6.4s, v1.4s, v2.4s //x2 = x5-x6
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sub v7.4s, v0.4s, v3.4s //x3 = x4-x7
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add v0.4s, v4.4s, v5.4s //pi4_tmp_ptr[0] = x0 + x1
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add v1.4s, v7.4s, v6.4s //pi4_tmp_ptr[1] = x3 + x2
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sub v2.4s, v4.4s, v5.4s //pi4_tmp_ptr[2] = x0 - x1
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sub v3.4s, v7.4s, v6.4s //pi4_tmp_ptr[3] = x3 - x2
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mul v0.4s, v0.4s, v15.4s // q0 = p[i] = (x[i] * trns_coeff[i]) where i = 0..3
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mul v1.4s, v1.4s, v15.4s // q1 = p[i] = (x[i] * trns_coeff[i]) where i = 4..7
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mul v2.4s, v2.4s, v15.4s // q2 = p[i] = (x[i] * trns_coeff[i]) where i = 8..11
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mul v3.4s, v3.4s, v15.4s // q3 = p[i] = (x[i] * trns_coeff[i]) where i = 12..15
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sshl v0.4s, v0.4s, v14.4s // q0 = q[i] = (p[i] << (qp/6)) where i = 0..3
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sshl v1.4s, v1.4s, v14.4s // q1 = q[i] = (p[i] << (qp/6)) where i = 4..7
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sshl v2.4s, v2.4s, v14.4s // q2 = q[i] = (p[i] << (qp/6)) where i = 8..11
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sshl v3.4s, v3.4s, v14.4s // q3 = q[i] = (p[i] << (qp/6)) where i = 12..15
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sqrshrn v0.4h, v0.4s, #6 // d0 = c[i] = ((q[i] + 32) >> 4) where i = 0..3
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sqrshrn v1.4h, v1.4s, #6 // d1 = c[i] = ((q[i] + 32) >> 4) where i = 4..7
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sqrshrn v2.4h, v2.4s, #6 // d2 = c[i] = ((q[i] + 32) >> 4) where i = 8..11
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sqrshrn v3.4h, v3.4s, #6 // d3 = c[i] = ((q[i] + 32) >> 4) where i = 12..15
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st1 {v0.4h-v3.4h}, [x1] //store the result
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pop_v_regs
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ret
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// *******************************************************************************
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// */
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// * @brief This function performs a 2x2 inverse hadamard transform for chroma block
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// *
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// * @par Description:
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// * The DC coefficients pass through a 2-stage inverse hadamard transform.
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// * This inverse transformed content is scaled to based on Qp value.
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// * Both DC blocks of U and v blocks are processesd
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// *
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// * @param[in] pi2_src
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// * input 1x8 block of ceffs. First 4 are from U and next from V
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// *
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// * @param[out] pi2_out
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// * output 1x8 block
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// *
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// * @param[in] pu2_iscal_mat
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// * pointer to scaling list
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// *
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// * @param[in] pu2_weigh_mat
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// * pointer to weight matrix
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// *
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// * @param[in] u4_qp_div_6
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// * Floor (qp/6)
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// *
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// * @returns none
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// *
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// * @remarks none
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// *
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// *******************************************************************************
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// */
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// *
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// *******************************************************************************
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// */
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// void ih264_ihadamard_scaling_2x2_uv(WORD16* pi2_src,
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// WORD16* pi2_out,
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// const UWORD16 *pu2_iscal_mat,
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// const UWORD16 *pu2_weigh_mat,
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// UWORD32 u4_qp_div_6,
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.global ih264_ihadamard_scaling_2x2_uv_av8
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ih264_ihadamard_scaling_2x2_uv_av8:
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//Registers used
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// x0 : *pi2_src
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// x1 : *pi2_out
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// x2 : *pu2_iscal_mat
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// x3 : *pu2_weigh_mat
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// x4 : u4_qp_div_6
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push_v_regs
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ld1 {v26.h}[0], [x2]
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ld1 {v27.h}[0], [x3]
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sub w4, w4, #5 //qp/6 - 4
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dup v28.4s, w4 //load qp/6
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ld2 {v0.4h, v1.4h}, [x0] //load 8 dc coeffs
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//i2_x4,i2_x6,i2_y4,i1_y6 -> d0
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//i2_x5,i2_x7,i2_y5,i1_y6 -> d1
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saddl v2.4s, v0.4h, v1.4h //i4_x0 = i4_x4 + i4_x5;...x2
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ssubl v4.4s, v0.4h, v1.4h //i4_x1 = i4_x4 - i4_x5;...x3
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umull v30.4s, v26.4h, v27.4h //pu2_iscal_mat[0]*pu2_weigh_mat[0]
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dup v30.4s, v30.s[0]
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trn1 v0.4s, v2.4s, v4.4s
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trn2 v1.4s, v2.4s, v4.4s //i4_x0 i4_x1 -> q1
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add v2.4s, v0.4s, v1.4s //i4_x4 = i4_x0+i4_x2;.. i4_x5
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sub v3.4s, v0.4s, v1.4s //i4_x6 = i4_x0-i4_x2;.. i4_x7
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mul v2.4s, v2.4s, v30.4s
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mul v3.4s, v3.4s, v30.4s
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sshl v2.4s, v2.4s, v28.4s
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sshl v3.4s, v3.4s, v28.4s
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xtn v0.4h, v2.4s //i4_x4 i4_x5 i4_y4 i4_y5
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xtn v1.4h, v3.4s //i4_x6 i4_x7 i4_y6 i4_y7
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st2 {v0.4s-v1.4s}, [x1]
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pop_v_regs
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ret
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