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1 /******************************************************************************
2  *
3  * Copyright (C) 2015 The Android Open Source Project
4  *
5  * Licensed under the Apache License, Version 2.0 (the "License");
6  * you may not use this file except in compliance with the License.
7  * You may obtain a copy of the License at:
8  *
9  * http://www.apache.org/licenses/LICENSE-2.0
10  *
11  * Unless required by applicable law or agreed to in writing, software
12  * distributed under the License is distributed on an "AS IS" BASIS,
13  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14  * See the License for the specific language governing permissions and
15  * limitations under the License.
16  *
17  *****************************************************************************
18  * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore
19 */
20 /**
21 *******************************************************************************
22 * @file
23 *  ideint_api.c
24 *
25 * @brief
26 *  This file contains the definitions of the core  processing of the de-
27 * interlacer.
28 *
29 * @author
30 *  Ittiam
31 *
32 * @par List of Functions:
33 *
34 * @remarks
35 *  None
36 *
37 *******************************************************************************
38 */
39 /*****************************************************************************/
40 /* File Includes                                                             */
41 /*****************************************************************************/
42 /* System include files */
43 #include <stdio.h>
44 #include <stdint.h>
45 #include <string.h>
46 #include <stdlib.h>
47 #include <assert.h>
48 
49 /* User include files */
50 #include "icv_datatypes.h"
51 #include "icv_macros.h"
52 #include "icv_platform_macros.h"
53 #include "icv.h"
54 #include "icv_variance.h"
55 #include "icv_sad.h"
56 #include "ideint.h"
57 
58 #include "ideint_defs.h"
59 #include "ideint_structs.h"
60 
61 #include "ideint_utils.h"
62 #include "ideint_cac.h"
63 #include "ideint_debug.h"
64 #include "ideint_function_selector.h"
65 
66 /**
67 *******************************************************************************
68 *
69 * @brief
70 *  Return deinterlacer context size
71 *
72 * @par   Description
73 *  Return deinterlacer context size, application will allocate this memory
74 *  and send it as context to process call
75 *
76 * @param[in] None
77 *
78 * @returns
79 * Size of deinterlacer context
80 *
81 * @remarks
82 * None
83 *
84 *******************************************************************************
85 */
ideint_ctxt_size(void)86 WORD32 ideint_ctxt_size(void)
87 {
88     return sizeof(ctxt_t);
89 }
90 
91 /**
92 *******************************************************************************
93 *
94 * @brief
95 * Deinterlace given fields and produce a frame
96 *
97 * @par   Description
98 *  Deinterlacer function that deinterlaces given fields and produces a frame
99 *
100 * @param[in] pv_ctxt
101 *  Deinterlacer context returned by ideint_create()
102 *
103 * @param[in] ps_prv_fld
104 *  Previous field (can be null, in which case spatial filtering is done
105 *  unconditionally)
106 *
107 * @param[in] ps_cur_fld
108 *  Current field
109 *
110 * @param[in] ps_nxt_fld
111 *  Next field
112 *
113 * @param[in] ps_out_frm
114 *  Output frame
115 *
116 * @param[in] ps_params
117 *  Parameters
118 *
119 * @param[in] start_row
120 *  Start row
121 *
122 * @param[in] num_rows
123 *  Number of rows to be processed
124 *
125 * @returns
126 *  IDEINT_ERROR_T
127 *
128 * @remarks
129 *
130 *******************************************************************************
131 */
ideint_process(void * pv_ctxt,icv_pic_t * ps_prv_fld,icv_pic_t * ps_cur_fld,icv_pic_t * ps_nxt_fld,icv_pic_t * ps_out_frm,ideint_params_t * ps_params,WORD32 start_row,WORD32 num_rows)132 IDEINT_ERROR_T ideint_process(void *pv_ctxt,
133                               icv_pic_t *ps_prv_fld,
134                               icv_pic_t *ps_cur_fld,
135                               icv_pic_t *ps_nxt_fld,
136                               icv_pic_t *ps_out_frm,
137                               ideint_params_t *ps_params,
138                               WORD32 start_row,
139                               WORD32 num_rows)
140 {
141     ctxt_t *ps_ctxt;
142     WORD32 num_blks_x, num_blks_y;
143     WORD32 num_comp;
144     WORD32 i, row, col;
145     WORD32 rows_remaining;
146 
147     if(NULL == pv_ctxt)
148         return IDEINT_INVALID_CTXT;
149 
150     ps_ctxt = (ctxt_t *)pv_ctxt;
151 
152     /* Copy the parameters */
153     if(ps_params)
154     {
155         ps_ctxt->s_params = *ps_params;
156     }
157     else
158     {
159         /* Use default params if ps_params is NULL */
160         ps_ctxt->s_params.i4_cur_fld_top = 1;
161         ps_ctxt->s_params.e_mode = IDEINT_MODE_SPATIAL;
162         ps_ctxt->s_params.e_arch = ideint_default_arch();
163         ps_ctxt->s_params.e_soc = ICV_SOC_GENERIC;
164         ps_ctxt->s_params.i4_disable_weave = 0;
165         ps_ctxt->s_params.pf_aligned_alloc = NULL;
166         ps_ctxt->s_params.pf_aligned_free = NULL;
167     }
168 
169     /* Start row has to be multiple of 8 */
170     if(start_row & 0x7)
171     {
172         return IDEINT_START_ROW_UNALIGNED;
173     }
174 
175     /* Initialize variances */
176     ps_ctxt->ai4_vrnc_avg_fb[0] = VAR_AVG_LUMA;
177     ps_ctxt->ai4_vrnc_avg_fb[1] = VAR_AVG_CHROMA;
178     ps_ctxt->ai4_vrnc_avg_fb[2] = VAR_AVG_CHROMA;
179 
180     ideint_init_function_ptr(ps_ctxt);
181 
182     rows_remaining = ps_out_frm->ai4_ht[0] - start_row;
183     num_rows = MIN(num_rows,
184                                         rows_remaining);
185 
186     IDEINT_CORRUPT_PIC(ps_out_frm, 0xCD);
187 
188     //Weave two fields to get a frame
189     if(IDEINT_MODE_WEAVE == ps_ctxt->s_params.e_mode)
190     {
191         if(0 == ps_ctxt->s_params.i4_disable_weave)
192         {
193             if(ps_ctxt->s_params.i4_cur_fld_top)
194                 ideint_weave_pic(ps_cur_fld, ps_nxt_fld, ps_out_frm,
195                                  start_row,
196                                  num_rows);
197             else
198                 ideint_weave_pic(ps_nxt_fld, ps_cur_fld, ps_out_frm,
199                                  start_row,
200                                  num_rows);
201         }
202         return IDEINT_ERROR_NONE;
203     }
204 
205     num_comp = 3;
206 
207     for(i = 0; i < num_comp; i++)
208     {
209         UWORD8 *pu1_prv = NULL, *pu1_out;
210         UWORD8 *pu1_top, *pu1_bot, *pu1_dst;
211         WORD32 cur_strd, out_strd, dst_strd;
212 
213         WORD32 st_thresh;
214         WORD32 vrnc_avg_st;
215         WORD32 disable_cac_sad;
216         WORD32 comp_row_start, comp_row_end;
217         num_blks_x = ALIGN8(ps_out_frm->ai4_wd[i]) >> 3;
218         num_blks_y = ALIGN8(ps_out_frm->ai4_ht[i]) >> 3;
219         comp_row_start = start_row;
220         comp_row_end = comp_row_start + num_rows;
221 
222         if(i)
223         {
224             comp_row_start >>= 1;
225             comp_row_end >>= 1;
226         }
227 
228         comp_row_end = MIN(comp_row_end, ps_out_frm->ai4_ht[i]);
229 
230         comp_row_start =  ALIGN8(comp_row_start) >> 3;
231         comp_row_end  = ALIGN8(comp_row_end) >> 3;
232         st_thresh        = ST_THRESH;
233         vrnc_avg_st      = VAR_AVG_LUMA;
234 
235         if(i)
236         {
237             st_thresh = ST_THRESH >> 1;
238             vrnc_avg_st = VAR_AVG_CHROMA;
239         }
240 
241         out_strd = ps_out_frm->ai4_strd[i];
242         if(ps_ctxt->s_params.i4_cur_fld_top)
243         {
244             cur_strd = ps_cur_fld->ai4_strd[i];
245         }
246         else
247         {
248             cur_strd = ps_nxt_fld->ai4_strd[i];
249         }
250 
251 
252         disable_cac_sad = 0;
253         /* If previous field is not provided, then change to SPATIAL mode */
254         if(ps_prv_fld->apu1_buf[i] == NULL)
255         {
256             disable_cac_sad = 1;
257         }
258         for(row = comp_row_start; row < comp_row_end; row++)
259         {
260             pu1_out = ps_out_frm->apu1_buf[i];
261             pu1_out += (ps_out_frm->ai4_strd[i] * row << 3);
262 
263             if(0 == disable_cac_sad)
264             {
265                 pu1_prv = ps_prv_fld->apu1_buf[i];
266                 pu1_prv += (ps_prv_fld->ai4_strd[i] * row << 2);
267             }
268 
269             if(ps_ctxt->s_params.i4_cur_fld_top)
270             {
271                 pu1_top = ps_cur_fld->apu1_buf[i];
272                 pu1_bot = ps_nxt_fld->apu1_buf[i];
273             }
274             else
275             {
276                 pu1_top = ps_nxt_fld->apu1_buf[i];
277                 pu1_bot = ps_cur_fld->apu1_buf[i];
278             }
279             pu1_top += (cur_strd * row << 2);
280             pu1_bot += (cur_strd * row << 2);
281 
282             for(col = 0; col < num_blks_x; col++)
283             {
284                 WORD32 cac, sad, vrnc;
285                 WORD32 th_num, th_den;
286                 UWORD8 au1_dst[BLK_WD * BLK_HT];
287                 WORD32 blk_wd, blk_ht;
288                 WORD32 input_boundary;
289                 cac = 0;
290                 sad = 0;
291                 th_den = 0;
292                 th_num = st_thresh;
293                 vrnc = 0;
294 
295                 disable_cac_sad = 0;
296                 /* If previous field is not provided, then change to SPATIAL mode */
297                 if(ps_prv_fld->apu1_buf[i] == NULL)
298                 {
299                     disable_cac_sad = 1;
300                 }
301                 /* For boundary blocks when input dimensions are not multiple of 8,
302                  * then change to spatial mode */
303                 input_boundary = 0;
304 
305                 blk_wd = BLK_WD;
306                 blk_ht = BLK_HT;
307 
308                 if((((num_blks_x - 1) == col) && (ps_out_frm->ai4_wd[i] & 0x7)) ||
309                     (((num_blks_y - 1) == row) && (ps_out_frm->ai4_ht[i] & 0x7)))
310                 {
311                     disable_cac_sad = 1;
312                     input_boundary = 1;
313 
314                     if(((num_blks_x - 1) == col) && (ps_out_frm->ai4_wd[i] & 0x7))
315                         blk_wd = (ps_out_frm->ai4_wd[i] & 0x7);
316 
317                     if(((num_blks_y - 1) == row) && (ps_out_frm->ai4_ht[i] & 0x7))
318                         blk_ht = (ps_out_frm->ai4_ht[i] & 0x7);
319 
320                 }
321 
322                 if(0 == disable_cac_sad)
323                 {
324                     /* Compute SAD */
325                     PROFILE_DISABLE_SAD
326                     sad = ps_ctxt->pf_sad_8x4(pu1_prv, pu1_bot, cur_strd,
327                                               cur_strd,
328                                               BLK_WD,
329                                               BLK_HT >> 1);
330                     /* Compute Variance */
331                     PROFILE_DISABLE_VARIANCE
332                     vrnc = ps_ctxt->pf_variance_8x4(pu1_top, cur_strd, BLK_WD,
333                                                     BLK_HT >> 1);
334 
335                     th_num = st_thresh;
336 
337                     th_num *= vrnc_avg_st +
338                               ((MOD_IDX_ST_NUM * vrnc) >> MOD_IDX_ST_SHIFT);
339 
340                     th_den = vrnc +
341                              ((MOD_IDX_ST_NUM * vrnc_avg_st) >> MOD_IDX_ST_SHIFT);
342 
343                     if((sad * th_den) <= th_num)
344                     {
345                         /* Calculate Combing Artifact if SAD test fails */
346                         PROFILE_DISABLE_CAC
347                         cac = ps_ctxt->pf_cac_8x8(pu1_top, pu1_bot, cur_strd, cur_strd);
348                     }
349                 }
350 
351                 pu1_dst = pu1_out;
352                 dst_strd = out_strd;
353 
354                 /* In case boundary blocks are not complete (dimensions non-multiple of 8)
355                  * Use intermediate buffer as destination and copy required pixels to output
356                  * buffer later
357                  */
358                 if(input_boundary)
359                 {
360                     pu1_dst = au1_dst;
361                     dst_strd = BLK_WD;
362                     ideint_weave_blk(pu1_top, pu1_bot, pu1_dst, dst_strd,
363                                      cur_strd, blk_wd, blk_ht);
364                 }
365 
366                 /* Weave the two fields unconditionally */
367                 if(0 == ps_ctxt->s_params.i4_disable_weave)
368                 {
369                     ideint_weave_blk(pu1_top, pu1_bot, pu1_dst, dst_strd,
370                                      cur_strd, blk_wd, blk_ht);
371                 }
372 
373                 if(disable_cac_sad || cac || (sad * th_den > th_num))
374                 {
375                     /* Pad the input fields in an intermediate buffer if required */
376                     if((0 == row) || (0 == col) ||
377                        ((num_blks_x - 1) == col) || ((num_blks_y - 1) == row))
378                     {
379                         UWORD8 *pu1_dst_top;
380                         UWORD8 au1_pad[(BLK_HT + 4) * (BLK_WD + 4)];
381 
382                         ideint_pad_blk(pu1_top, pu1_bot, au1_pad, cur_strd, row,
383                                        col, num_blks_y, num_blks_x, blk_wd, blk_ht);
384 
385                         pu1_dst_top = au1_pad + 2 * (BLK_WD + 4) + 2;
386 
387                         PROFILE_DISABLE_SPATIAL
388                         ps_ctxt->pf_spatial_filter(pu1_dst_top, pu1_dst + dst_strd,
389                                                    (BLK_WD + 4) * 2,
390                                                    dst_strd * 2);
391                     }
392                     else
393                     {
394                         PROFILE_DISABLE_SPATIAL
395                         ps_ctxt->pf_spatial_filter(pu1_top, pu1_dst + dst_strd,
396                                                    cur_strd, dst_strd * 2);
397 
398                     }
399                 }
400 
401                 /* copy required pixels to output buffer for boundary blocks
402                  * when dimensions are not multiple of 8
403                  */
404                 if(input_boundary)
405                 {
406                     WORD32 j;
407 
408                     for(j = 0; j < blk_ht; j++)
409                     {
410                         memcpy(pu1_out + j * out_strd, au1_dst + j * BLK_WD, blk_wd);
411                     }
412                 }
413                 if(NULL != pu1_prv)
414                 {
415                     pu1_prv += 8;
416                 }
417                 pu1_top += 8;
418                 pu1_bot += 8;
419                 pu1_out += 8;
420             }
421         }
422     }
423     return IDEINT_ERROR_NONE;
424 }
425