178e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar/* 278e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * Copyright (C) 2007-2008 ARM Limited 378e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * 478e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * Licensed under the Apache License, Version 2.0 (the "License"); 578e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * you may not use this file except in compliance with the License. 678e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * You may obtain a copy of the License at 778e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * 878e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * http://www.apache.org/licenses/LICENSE-2.0 978e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * 1078e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * Unless required by applicable law or agreed to in writing, software 1178e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * distributed under the License is distributed on an "AS IS" BASIS, 1278e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 1378e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * See the License for the specific language governing permissions and 1478e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * limitations under the License. 1578e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar * 1678e52bfac041d71ce53b5b13c2abf78af742b09dLajos Molnar */ 170c1bc742181ded4930842b46e9507372f0b1b963James Dong/** 180c1bc742181ded4930842b46e9507372f0b1b963James Dong * 190c1bc742181ded4930842b46e9507372f0b1b963James Dong * File Name: armVCM4P10_InterpolateHalfDiag_Luma.c 200c1bc742181ded4930842b46e9507372f0b1b963James Dong * OpenMAX DL: v1.0.2 210c1bc742181ded4930842b46e9507372f0b1b963James Dong * Revision: 9641 220c1bc742181ded4930842b46e9507372f0b1b963James Dong * Date: Thursday, February 7, 2008 230c1bc742181ded4930842b46e9507372f0b1b963James Dong * 240c1bc742181ded4930842b46e9507372f0b1b963James Dong * 250c1bc742181ded4930842b46e9507372f0b1b963James Dong * 260c1bc742181ded4930842b46e9507372f0b1b963James Dong * Description: 270c1bc742181ded4930842b46e9507372f0b1b963James Dong * This functions will help to calculate Half Pel luma interpolation 280c1bc742181ded4930842b46e9507372f0b1b963James Dong * 290c1bc742181ded4930842b46e9507372f0b1b963James Dong */ 300c1bc742181ded4930842b46e9507372f0b1b963James Dong 310c1bc742181ded4930842b46e9507372f0b1b963James Dong#include "omxtypes.h" 320c1bc742181ded4930842b46e9507372f0b1b963James Dong#include "armOMX.h" 330c1bc742181ded4930842b46e9507372f0b1b963James Dong#include "omxVC.h" 340c1bc742181ded4930842b46e9507372f0b1b963James Dong 350c1bc742181ded4930842b46e9507372f0b1b963James Dong#include "armCOMM.h" 360c1bc742181ded4930842b46e9507372f0b1b963James Dong#include "armVC.h" 370c1bc742181ded4930842b46e9507372f0b1b963James Dong 380c1bc742181ded4930842b46e9507372f0b1b963James Dong 390c1bc742181ded4930842b46e9507372f0b1b963James Dong/** 400c1bc742181ded4930842b46e9507372f0b1b963James Dong * Function: armVCM4P10_InterpolateHalfDiag_Luma 410c1bc742181ded4930842b46e9507372f0b1b963James Dong * 420c1bc742181ded4930842b46e9507372f0b1b963James Dong * Description: 430c1bc742181ded4930842b46e9507372f0b1b963James Dong * This function performs interpolation for (1/2, 1/2) positions 440c1bc742181ded4930842b46e9507372f0b1b963James Dong * around a full-pel position. 450c1bc742181ded4930842b46e9507372f0b1b963James Dong * 460c1bc742181ded4930842b46e9507372f0b1b963James Dong * Remarks: 470c1bc742181ded4930842b46e9507372f0b1b963James Dong * 480c1bc742181ded4930842b46e9507372f0b1b963James Dong * [in] pSrc Pointer to top-left corner of block used to interpolate 490c1bc742181ded4930842b46e9507372f0b1b963James Dong * in the reconstructed frame plane 500c1bc742181ded4930842b46e9507372f0b1b963James Dong * [in] iSrcStep Step of the source buffer. 510c1bc742181ded4930842b46e9507372f0b1b963James Dong * [in] iDstStep Step of the destination(interpolation) buffer. 520c1bc742181ded4930842b46e9507372f0b1b963James Dong * [in] iWidth Width of the current block 530c1bc742181ded4930842b46e9507372f0b1b963James Dong * [in] iHeight Height of the current block 540c1bc742181ded4930842b46e9507372f0b1b963James Dong * [out] pDst Pointer to the interpolation buffer of the (1/2,1/2)-pel 550c1bc742181ded4930842b46e9507372f0b1b963James Dong * 560c1bc742181ded4930842b46e9507372f0b1b963James Dong * Return Value: 570c1bc742181ded4930842b46e9507372f0b1b963James Dong * Standard OMXResult value. 580c1bc742181ded4930842b46e9507372f0b1b963James Dong * 590c1bc742181ded4930842b46e9507372f0b1b963James Dong */ 600c1bc742181ded4930842b46e9507372f0b1b963James Dong 610c1bc742181ded4930842b46e9507372f0b1b963James DongOMXResult armVCM4P10_InterpolateHalfDiag_Luma( 620c1bc742181ded4930842b46e9507372f0b1b963James Dong const OMX_U8* pSrc, 630c1bc742181ded4930842b46e9507372f0b1b963James Dong OMX_U32 iSrcStep, 640c1bc742181ded4930842b46e9507372f0b1b963James Dong OMX_U8* pDst, 650c1bc742181ded4930842b46e9507372f0b1b963James Dong OMX_U32 iDstStep, 660c1bc742181ded4930842b46e9507372f0b1b963James Dong OMX_U32 iWidth, 670c1bc742181ded4930842b46e9507372f0b1b963James Dong OMX_U32 iHeight 680c1bc742181ded4930842b46e9507372f0b1b963James Dong) 690c1bc742181ded4930842b46e9507372f0b1b963James Dong{ 700c1bc742181ded4930842b46e9507372f0b1b963James Dong OMX_S32 HalfCoeff, pos; 710c1bc742181ded4930842b46e9507372f0b1b963James Dong OMX_S16 Buf [21 * 16]; /* 21 rows by 16 pixels per row */ 720c1bc742181ded4930842b46e9507372f0b1b963James Dong OMX_U32 y, x; 730c1bc742181ded4930842b46e9507372f0b1b963James Dong 740c1bc742181ded4930842b46e9507372f0b1b963James Dong /* check for argument error */ 750c1bc742181ded4930842b46e9507372f0b1b963James Dong armRetArgErrIf(pSrc == NULL, OMX_Sts_BadArgErr) 760c1bc742181ded4930842b46e9507372f0b1b963James Dong armRetArgErrIf(pDst == NULL, OMX_Sts_BadArgErr) 770c1bc742181ded4930842b46e9507372f0b1b963James Dong 780c1bc742181ded4930842b46e9507372f0b1b963James Dong /* 790c1bc742181ded4930842b46e9507372f0b1b963James Dong * Intermediate values will be 1/2 pel at Horizontal direction 800c1bc742181ded4930842b46e9507372f0b1b963James Dong * Starting at (0.5, -2) at top extending to (0.5, height + 3) at bottom 810c1bc742181ded4930842b46e9507372f0b1b963James Dong * Buf contains a 2D array of size (iWidth)X(iHeight + 5) 820c1bc742181ded4930842b46e9507372f0b1b963James Dong */ 830c1bc742181ded4930842b46e9507372f0b1b963James Dong for (y = 0; y < iHeight + 5; y++) 840c1bc742181ded4930842b46e9507372f0b1b963James Dong { 850c1bc742181ded4930842b46e9507372f0b1b963James Dong for (x = 0; x < iWidth; x++) 860c1bc742181ded4930842b46e9507372f0b1b963James Dong { 870c1bc742181ded4930842b46e9507372f0b1b963James Dong pos = (y-2) * iSrcStep + x; 880c1bc742181ded4930842b46e9507372f0b1b963James Dong HalfCoeff = 890c1bc742181ded4930842b46e9507372f0b1b963James Dong pSrc [pos - 2] - 900c1bc742181ded4930842b46e9507372f0b1b963James Dong 5 * pSrc [pos - 1] + 910c1bc742181ded4930842b46e9507372f0b1b963James Dong 20 * pSrc [pos] + 920c1bc742181ded4930842b46e9507372f0b1b963James Dong 20 * pSrc [pos + 1] - 930c1bc742181ded4930842b46e9507372f0b1b963James Dong 5 * pSrc [pos + 2] + 940c1bc742181ded4930842b46e9507372f0b1b963James Dong pSrc [pos + 3]; 950c1bc742181ded4930842b46e9507372f0b1b963James Dong Buf [y * iWidth + x] = (OMX_S16)HalfCoeff; 960c1bc742181ded4930842b46e9507372f0b1b963James Dong } /* x */ 970c1bc742181ded4930842b46e9507372f0b1b963James Dong } /* y */ 980c1bc742181ded4930842b46e9507372f0b1b963James Dong 990c1bc742181ded4930842b46e9507372f0b1b963James Dong /* Vertical interpolate */ 1000c1bc742181ded4930842b46e9507372f0b1b963James Dong for (y = 0; y < iHeight; y++) 1010c1bc742181ded4930842b46e9507372f0b1b963James Dong { 1020c1bc742181ded4930842b46e9507372f0b1b963James Dong for (x = 0; x < iWidth; x++) 1030c1bc742181ded4930842b46e9507372f0b1b963James Dong { 1040c1bc742181ded4930842b46e9507372f0b1b963James Dong pos = y * iWidth + x; 1050c1bc742181ded4930842b46e9507372f0b1b963James Dong HalfCoeff = 1060c1bc742181ded4930842b46e9507372f0b1b963James Dong Buf [pos] - 1070c1bc742181ded4930842b46e9507372f0b1b963James Dong 5 * Buf [pos + 1 * iWidth] + 1080c1bc742181ded4930842b46e9507372f0b1b963James Dong 20 * Buf [pos + 2 * iWidth] + 1090c1bc742181ded4930842b46e9507372f0b1b963James Dong 20 * Buf [pos + 3 * iWidth] - 1100c1bc742181ded4930842b46e9507372f0b1b963James Dong 5 * Buf [pos + 4 * iWidth] + 1110c1bc742181ded4930842b46e9507372f0b1b963James Dong Buf [pos + 5 * iWidth]; 1120c1bc742181ded4930842b46e9507372f0b1b963James Dong 1130c1bc742181ded4930842b46e9507372f0b1b963James Dong HalfCoeff = (HalfCoeff + 512) >> 10; 1140c1bc742181ded4930842b46e9507372f0b1b963James Dong HalfCoeff = armClip(0, 255, HalfCoeff); 1150c1bc742181ded4930842b46e9507372f0b1b963James Dong 1160c1bc742181ded4930842b46e9507372f0b1b963James Dong pDst [y * iDstStep + x] = (OMX_U8) HalfCoeff; 1170c1bc742181ded4930842b46e9507372f0b1b963James Dong } 1180c1bc742181ded4930842b46e9507372f0b1b963James Dong } 1190c1bc742181ded4930842b46e9507372f0b1b963James Dong 1200c1bc742181ded4930842b46e9507372f0b1b963James Dong return OMX_Sts_NoErr; 1210c1bc742181ded4930842b46e9507372f0b1b963James Dong} 122