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source: thirdparty/SZ/sz/src/szd_uint8.c @ 9ee2ce3

Revision 9ee2ce3, 25.1 KB checked in by Hal Finkel <hfinkel@…>, 6 years ago (diff)
importing new SZ files
Property mode set to `100644`

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1	/**
2	* @file szd_uint8.c
3	* @author Sheng Di
4	* @date Aug, 2017
5	* @brief
6	* (C) 2017 by Mathematics and Computer Science (MCS), Argonne National Laboratory.
7	* See COPYRIGHT in top-level directory.
8	*/
9
10	#include <stdlib.h>
11	#include <stdio.h>
12	#include <string.h>
13	#include <math.h>
14	#include "TightDataPointStorageI.h"
15	#include "sz.h"
16	#include "szd_uint8.h"
17	#include "Huffman.h"
18	#include "utility.h"
19
20	/**
21	*
22	*
23	* @return status SUCCESSFUL (SZ_SCES) or not (other error codes) f
24	* */
25	int SZ_decompress_args_uint8(uint8_t** newData, size_t r5, size_t r4, size_t r3, size_t r2, size_t r1, unsigned char* cmpBytes, size_t cmpSize)
26	{
27	int status = SZ_SCES;
28	size_t dataLength = computeDataLength(r5,r4,r3,r2,r1);
29
30	//unsigned char* tmpBytes;
31	size_t targetUncompressSize = dataLength <<2; //i.e., *4
32	//tmpSize must be "much" smaller than dataLength
33	size_t i, tmpSize = 3+MetaDataByteLength+1+sizeof(uint8_t)+exe_params->SZ_SIZE_TYPE;
34	unsigned char* szTmpBytes;
35
36	if(cmpSize!=4+1+4+MetaDataByteLength && cmpSize!=4+1+8+MetaDataByteLength)
37	{
38	confparams_dec->losslessCompressor = is_lossless_compressed_data(cmpBytes, cmpSize);
39	if(confparams_dec->losslessCompressor!=-1)
40	confparams_dec->szMode = SZ_BEST_COMPRESSION;
41	else
42	confparams_dec->szMode = SZ_BEST_SPEED;
43	if(confparams_dec->szMode==SZ_BEST_SPEED)
44	{
45	tmpSize = cmpSize;
46	szTmpBytes = cmpBytes;
47	}
48	else if(confparams_dec->szMode==SZ_BEST_COMPRESSION \|\| confparams_dec->szMode==SZ_DEFAULT_COMPRESSION)
49	{
50	if(targetUncompressSize<MIN_ZLIB_DEC_ALLOMEM_BYTES) //Considering the minimum size
51	targetUncompressSize = MIN_ZLIB_DEC_ALLOMEM_BYTES;
52	tmpSize = sz_lossless_decompress(confparams_dec->losslessCompressor, cmpBytes, (unsigned long)cmpSize, &szTmpBytes, (unsigned long)targetUncompressSize+4+MetaDataByteLength+exe_params->SZ_SIZE_TYPE);// (unsigned long)targetUncompressSize+8: consider the total length under lossless compression mode is actually 3+4+1+targetUncompressSize
53	//szTmpBytes = (unsigned char)malloc(sizeof(unsigned char)tmpSize);
54	//memcpy(szTmpBytes, tmpBytes, tmpSize);
55	//free(tmpBytes); //release useless memory
56	}
57	else
58	{
59	printf("Wrong value of confparams_dec->szMode in the double compressed bytes.\n");
60	status = SZ_MERR;
61	return status;
62	}
63	}
64	else
65	szTmpBytes = cmpBytes;
66	//TODO: convert szTmpBytes to data array.
67	TightDataPointStorageI* tdps;
68	int errBoundMode = new_TightDataPointStorageI_fromFlatBytes(&tdps, szTmpBytes, tmpSize);
69	//writeByteData(tdps->typeArray, tdps->typeArray_size, "decompress-typebytes.tbt");
70	int dim = computeDimension(r5,r4,r3,r2,r1);
71	int intSize = sizeof(uint8_t);
72	if(tdps->isLossless)
73	{
74	newData = (uint8_t)malloc(intSize*dataLength);
75	if(sysEndianType==BIG_ENDIAN_SYSTEM)
76	{
77	memcpy(newData, szTmpBytes+4+MetaDataByteLength+exe_params->SZ_SIZE_TYPE, dataLengthintSize);
78	}
79	else
80	{
81	unsigned char* p = szTmpBytes+4+MetaDataByteLength+exe_params->SZ_SIZE_TYPE;
82	for(i=0;i<dataLength;i++,p+=intSize)
83	(newData)[i] = p;
84	}
85	}
86	else if (dim == 1)
87	getSnapshotData_uint8_1D(newData,r1,tdps, errBoundMode);
88	else
89	if (dim == 2)
90	getSnapshotData_uint8_2D(newData,r2,r1,tdps, errBoundMode);
91	else
92	if (dim == 3)
93	getSnapshotData_uint8_3D(newData,r3,r2,r1,tdps, errBoundMode);
94	else
95	if (dim == 4)
96	getSnapshotData_uint8_4D(newData,r4,r3,r2,r1,tdps, errBoundMode);
97	else
98	{
99	printf("Error: currently support only at most 4 dimensions!\n");
100	status = SZ_DERR;
101	}
102	free_TightDataPointStorageI2(tdps);
103	if(confparams_dec->szMode!=SZ_BEST_SPEED && cmpSize!=4+sizeof(uint8_t)+exe_params->SZ_SIZE_TYPE+MetaDataByteLength)
104	free(szTmpBytes);
105	return status;
106	}
107
108
109	void decompressDataSeries_uint8_1D(uint8_t** data, size_t dataSeriesLength, TightDataPointStorageI* tdps)
110	{
111	updateQuantizationInfo(tdps->intervals);
112	size_t i;
113	double interval = tdps->realPrecision*2;
114
115	data = (uint8_t)malloc(sizeof(uint8_t)*dataSeriesLength);
116
117	int* type = (int)malloc(dataSeriesLengthsizeof(int));
118
119	HuffmanTree* huffmanTree = createHuffmanTree(tdps->stateNum);
120	decode_withTree(huffmanTree, tdps->typeArray, dataSeriesLength, type);
121	SZ_ReleaseHuffman(huffmanTree);
122
123	//sdi:Debug
124	//writeUShortData(type, dataSeriesLength, "decompressStateBytes.sb");
125
126	long predValue, tmp;
127	uint8_t minValue, exactData;
128
129	minValue = tdps->minValue;
130
131	int exactByteSize = tdps->exactByteSize;
132	unsigned char* exactDataBytePointer = tdps->exactDataBytes;
133
134	unsigned char curBytes[8] = {0,0,0,0,0,0,0,0};
135
136	int rightShiftBits = computeRightShiftBits(exactByteSize, SZ_UINT8);
137	if(rightShiftBits<0)
138	{
139	printf("Error: rightShift < 0!\n");
140	exit(0);
141	}
142	int type_;
143	for (i = 0; i < dataSeriesLength; i++) {
144	type_ = type[i];
145	switch (type_) {
146	case 0:
147	// recover the exact data
148	memcpy(curBytes, exactDataBytePointer, exactByteSize);
149	exactData = curBytes[0];
150	exactData = (uint8_t)exactData >> rightShiftBits;
151	exactDataBytePointer += exactByteSize;
152	(*data)[i] = exactData + minValue;
153	break;
154	default:
155	//predValue = 2 * (data)[i-1] - (data)[i-2];
156	predValue = (*data)[i-1];
157	tmp = predValue + (type_-exe_params->intvRadius)*interval;
158	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
159	(*data)[i] = tmp;
160	else if(tmp < SZ_UINT8_MIN)
161	(*data)[i] = SZ_UINT8_MIN;
162	else
163	(*data)[i] = SZ_UINT8_MAX;
164	break;
165	}
166	//printf("%.30G\n",(*data)[i]);
167	}
168	free(type);
169	return;
170	}
171
172	void decompressDataSeries_uint8_2D(uint8_t** data, size_t r1, size_t r2, TightDataPointStorageI* tdps)
173	{
174	updateQuantizationInfo(tdps->intervals);
175	//printf("tdps->intervals=%d, exe_params->intvRadius=%d\n", tdps->intervals, exe_params->intvRadius);
176
177	size_t dataSeriesLength = r1*r2;
178	// printf ("%d %d\n", r1, r2);
179
180	double realPrecision = tdps->realPrecision;
181
182	data = (uint8_t)malloc(sizeof(uint8_t)*dataSeriesLength);
183
184	int* type = (int)malloc(dataSeriesLengthsizeof(int));
185
186	HuffmanTree* huffmanTree = createHuffmanTree(tdps->stateNum);
187	decode_withTree(huffmanTree, tdps->typeArray, dataSeriesLength, type);
188	SZ_ReleaseHuffman(huffmanTree);
189
190	uint8_t minValue, exactData;
191
192	minValue = tdps->minValue;
193
194	int exactByteSize = tdps->exactByteSize;
195	unsigned char* exactDataBytePointer = tdps->exactDataBytes;
196
197	unsigned char curBytes[8] = {0,0,0,0,0,0,0,0};
198
199	int rightShiftBits = computeRightShiftBits(exactByteSize, SZ_UINT8);
200
201	long pred1D, pred2D, tmp;
202	size_t ii, jj;
203
204	/* Process Row-0, data 0 */
205
206	// recover the exact data
207	memcpy(curBytes, exactDataBytePointer, exactByteSize);
208	exactData = curBytes[0];
209	exactData = (uint8_t)exactData >> rightShiftBits;
210	exactDataBytePointer += exactByteSize;
211	(*data)[0] = exactData + minValue;
212
213	/* Process Row-0, data 1 */
214	int type_ = type[1];
215	if (type_ != 0)
216	{
217	pred1D = (*data)[0];
218	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
219	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
220	(*data)[1] = tmp;
221	else if(tmp < SZ_UINT8_MIN)
222	(*data)[1] = SZ_UINT8_MIN;
223	else
224	(*data)[1] = SZ_UINT8_MAX;
225
226	}
227	else
228	{
229	// recover the exact data
230	memcpy(curBytes, exactDataBytePointer, exactByteSize);
231	exactData = curBytes[0];
232	exactData = (uint8_t)exactData >> rightShiftBits;
233	exactDataBytePointer += exactByteSize;
234	(*data)[1] = exactData + minValue;
235	}
236
237	/* Process Row-0, data 2 --> data r2-1 */
238	for (jj = 2; jj < r2; jj++)
239	{
240	type_ = type[jj];
241	if (type_ != 0)
242	{
243	pred1D = 2(data)[jj-1] - (*data)[jj-2];
244	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
245	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
246	(*data)[jj] = tmp;
247	else if(tmp < SZ_UINT8_MIN)
248	(*data)[jj] = SZ_UINT8_MIN;
249	else
250	(*data)[jj] = SZ_UINT8_MAX;
251	}
252	else
253	{
254	// recover the exact data
255	memcpy(curBytes, exactDataBytePointer, exactByteSize);
256	exactData = curBytes[0];
257	exactData = (uint8_t)exactData >> rightShiftBits;
258	exactDataBytePointer += exactByteSize;
259	(*data)[jj] = exactData + minValue;
260	}
261	}
262
263	size_t index;
264	/* Process Row-1 --> Row-r1-1 */
265	for (ii = 1; ii < r1; ii++)
266	{
267	/* Process row-ii data 0 */
268	index = ii*r2;
269
270	type_ = type[index];
271	if (type_ != 0)
272	{
273	pred1D = (*data)[index-r2];
274	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
275	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
276	(*data)[index] = tmp;
277	else if(tmp < SZ_UINT8_MIN)
278	(*data)[index] = SZ_UINT8_MIN;
279	else
280	(*data)[index] = SZ_UINT8_MAX;
281	}
282	else
283	{
284	// recover the exact data
285	memcpy(curBytes, exactDataBytePointer, exactByteSize);
286	exactData = curBytes[0];
287	exactData = (uint8_t)exactData >> rightShiftBits;
288	exactDataBytePointer += exactByteSize;
289	(*data)[index] = exactData + minValue;
290	}
291
292	/* Process row-ii data 1 --> r2-1*/
293	for (jj = 1; jj < r2; jj++)
294	{
295	index = ii*r2+jj;
296	pred2D = (data)[index-1] + (data)[index-r2] - (*data)[index-r2-1];
297
298	type_ = type[index];
299	if (type_ != 0)
300	{
301	tmp = pred2D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
302	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
303	(*data)[index] = tmp;
304	else if(tmp < SZ_UINT8_MIN)
305	(*data)[index] = SZ_UINT8_MIN;
306	else
307	(*data)[index] = SZ_UINT8_MAX;
308	}
309	else
310	{
311	// recover the exact data
312	memcpy(curBytes, exactDataBytePointer, exactByteSize);
313	exactData = curBytes[0];
314	exactData = (uint8_t)exactData >> rightShiftBits;
315	exactDataBytePointer += exactByteSize;
316	(*data)[index] = exactData + minValue;
317	}
318	}
319	}
320
321	free(type);
322	return;
323	}
324
325	void decompressDataSeries_uint8_3D(uint8_t** data, size_t r1, size_t r2, size_t r3, TightDataPointStorageI* tdps)
326	{
327	updateQuantizationInfo(tdps->intervals);
328	size_t dataSeriesLength = r1r2r3;
329	size_t r23 = r2*r3;
330	// printf ("%d %d %d\n", r1, r2, r3);
331	double realPrecision = tdps->realPrecision;
332
333	data = (uint8_t)malloc(sizeof(uint8_t)*dataSeriesLength);
334	int* type = (int)malloc(dataSeriesLengthsizeof(int));
335
336	HuffmanTree* huffmanTree = createHuffmanTree(tdps->stateNum);
337	decode_withTree(huffmanTree, tdps->typeArray, dataSeriesLength, type);
338	SZ_ReleaseHuffman(huffmanTree);
339
340	uint8_t minValue, exactData;
341
342	minValue = tdps->minValue;
343
344	int exactByteSize = tdps->exactByteSize;
345	unsigned char* exactDataBytePointer = tdps->exactDataBytes;
346
347	unsigned char curBytes[8] = {0,0,0,0,0,0,0,0};
348
349	int rightShiftBits = computeRightShiftBits(exactByteSize, SZ_UINT8);
350
351	long pred1D, pred2D, pred3D, tmp;
352	size_t ii, jj, kk;
353
354	/////////////////////////// Process layer-0 ///////////////////////////
355	/* Process Row-0 data 0*/
356
357	// recover the exact data
358	memcpy(curBytes, exactDataBytePointer, exactByteSize);
359	exactData = curBytes[0];
360	exactData = (uint8_t)exactData >> rightShiftBits;
361	exactDataBytePointer += exactByteSize;
362	(*data)[0] = exactData + minValue;
363
364	/* Process Row-0, data 1 */
365	pred1D = (*data)[0];
366
367	int type_ = type[1];
368	if (type_ != 0)
369	{
370	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
371	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
372	(*data)[1] = tmp;
373	else if(tmp < SZ_UINT8_MIN)
374	(*data)[1] = SZ_UINT8_MIN;
375	else
376	(*data)[1] = SZ_UINT8_MAX;
377	}
378	else
379	{
380	memcpy(curBytes, exactDataBytePointer, exactByteSize);
381	exactData = curBytes[0];
382	exactData = (uint8_t)exactData >> rightShiftBits;
383	exactDataBytePointer += exactByteSize;
384	(*data)[1] = exactData + minValue;
385	}
386	/* Process Row-0, data 2 --> data r3-1 */
387	for (jj = 2; jj < r3; jj++)
388	{
389	pred1D = 2(data)[jj-1] - (*data)[jj-2];
390
391	type_ = type[jj];
392	if (type_ != 0)
393	{
394	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
395	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
396	(*data)[jj] = tmp;
397	else if(tmp < SZ_UINT8_MIN)
398	(*data)[jj] = SZ_UINT8_MIN;
399	else
400	(*data)[jj] = SZ_UINT8_MAX; }
401	else
402	{
403	memcpy(curBytes, exactDataBytePointer, exactByteSize);
404	exactData = curBytes[0];
405	exactData = (uint8_t)exactData >> rightShiftBits;
406	exactDataBytePointer += exactByteSize;
407	(*data)[jj] = exactData + minValue;
408	}
409	}
410
411	size_t index;
412	/* Process Row-1 --> Row-r2-1 */
413	for (ii = 1; ii < r2; ii++)
414	{
415	/* Process row-ii data 0 */
416	index = ii*r3;
417	pred1D = (*data)[index-r3];
418
419	type_ = type[index];
420	if (type_ != 0)
421	{
422	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
423	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
424	(*data)[index] = tmp;
425	else if(tmp < SZ_UINT8_MIN)
426	(*data)[index] = SZ_UINT8_MIN;
427	else
428	(*data)[index] = SZ_UINT8_MAX;
429	}
430	else
431	{
432	memcpy(curBytes, exactDataBytePointer, exactByteSize);
433	exactData = curBytes[0];
434	exactData = (uint8_t)exactData >> rightShiftBits;
435	exactDataBytePointer += exactByteSize;
436	(*data)[index] = exactData + minValue;
437	}
438
439	/* Process row-ii data 1 --> r3-1*/
440	for (jj = 1; jj < r3; jj++)
441	{
442	index = ii*r3+jj;
443	pred2D = (data)[index-1] + (data)[index-r3] - (*data)[index-r3-1];
444
445	type_ = type[index];
446	if (type_ != 0)
447	{
448	tmp = pred2D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
449	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
450	(*data)[index] = tmp;
451	else if(tmp < SZ_UINT8_MIN)
452	(*data)[index] = SZ_UINT8_MIN;
453	else
454	(*data)[index] = SZ_UINT8_MAX;
455	}
456	else
457	{
458	memcpy(curBytes, exactDataBytePointer, exactByteSize);
459	exactData = curBytes[0];
460	exactData = (uint8_t)exactData >> rightShiftBits;
461	exactDataBytePointer += exactByteSize;
462	(*data)[index] = exactData + minValue;
463	}
464	}
465	}
466
467	/////////////////////////// Process layer-1 --> layer-r1-1 ///////////////////////////
468
469	for (kk = 1; kk < r1; kk++)
470	{
471	/* Process Row-0 data 0*/
472	index = kk*r23;
473	pred1D = (*data)[index-r23];
474
475	type_ = type[index];
476	if (type_ != 0)
477	{
478	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
479	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
480	(*data)[index] = tmp;
481	else if(tmp < SZ_UINT8_MIN)
482	(*data)[index] = SZ_UINT8_MIN;
483	else
484	(*data)[index] = SZ_UINT8_MAX;
485	}
486	else
487	{
488	memcpy(curBytes, exactDataBytePointer, exactByteSize);
489	exactData = curBytes[0];
490	exactData = (uint8_t)exactData >> rightShiftBits;
491	exactDataBytePointer += exactByteSize;
492	(*data)[index] = exactData + minValue;
493	}
494
495	/* Process Row-0 data 1 --> data r3-1 */
496	for (jj = 1; jj < r3; jj++)
497	{
498	index = kk*r23+jj;
499	pred2D = (data)[index-1] + (data)[index-r23] - (*data)[index-r23-1];
500
501	type_ = type[index];
502	if (type_ != 0)
503	{
504	tmp = pred2D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
505	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
506	(*data)[index] = tmp;
507	else if(tmp < SZ_UINT8_MIN)
508	(*data)[index] = SZ_UINT8_MIN;
509	else
510	(*data)[index] = SZ_UINT8_MAX;
511	}
512	else
513	{
514	memcpy(curBytes, exactDataBytePointer, exactByteSize);
515	exactData = curBytes[0];
516	exactData = (uint8_t)exactData >> rightShiftBits;
517	exactDataBytePointer += exactByteSize;
518	(*data)[index] = exactData + minValue;
519	}
520	}
521
522	/* Process Row-1 --> Row-r2-1 */
523	for (ii = 1; ii < r2; ii++)
524	{
525	/* Process Row-i data 0 */
526	index = kkr23 + iir3;
527	pred2D = (data)[index-r3] + (data)[index-r23] - (*data)[index-r23-r3];
528
529	type_ = type[index];
530	if (type_ != 0)
531	{
532	tmp = pred2D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
533	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
534	(*data)[index] = tmp;
535	else if(tmp < SZ_UINT8_MIN)
536	(*data)[index] = SZ_UINT8_MIN;
537	else
538	(*data)[index] = SZ_UINT8_MAX;
539	}
540	else
541	{
542	memcpy(curBytes, exactDataBytePointer, exactByteSize);
543	exactData = curBytes[0];
544	exactData = (uint8_t)exactData >> rightShiftBits;
545	exactDataBytePointer += exactByteSize;
546	(*data)[index] = exactData + minValue;
547	}
548
549	/* Process Row-i data 1 --> data r3-1 */
550	for (jj = 1; jj < r3; jj++)
551	{
552	index = kkr23 + iir3 + jj;
553	pred3D = (data)[index-1] + (data)[index-r3] + (*data)[index-r23]
554	- (data)[index-r3-1] - (data)[index-r23-r3] - (data)[index-r23-1] + (data)[index-r23-r3-1];
555
556	type_ = type[index];
557	if (type_ != 0)
558	{
559	tmp = pred3D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
560	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
561	(*data)[index] = tmp;
562	else if(tmp < SZ_UINT8_MIN)
563	(*data)[index] = SZ_UINT8_MIN;
564	else
565	(*data)[index] = SZ_UINT8_MAX;
566	}
567	else
568	{
569	memcpy(curBytes, exactDataBytePointer, exactByteSize);
570	exactData = curBytes[0];
571	exactData = (uint8_t)exactData >> rightShiftBits;
572	exactDataBytePointer += exactByteSize;
573	(*data)[index] = exactData + minValue;
574	}
575	}
576	}
577	}
578
579	free(type);
580	return;
581	}
582
583
584	void decompressDataSeries_uint8_4D(uint8_t** data, size_t r1, size_t r2, size_t r3, size_t r4, TightDataPointStorageI* tdps)
585	{
586	updateQuantizationInfo(tdps->intervals);
587	size_t dataSeriesLength = r1r2r3*r4;
588	size_t r234 = r2r3r4;
589	size_t r34 = r3*r4;
590
591	double realPrecision = tdps->realPrecision;
592
593	data = (uint8_t)malloc(sizeof(uint8_t)*dataSeriesLength);
594	int* type = (int)malloc(dataSeriesLengthsizeof(int));
595
596	HuffmanTree* huffmanTree = createHuffmanTree(tdps->stateNum);
597	decode_withTree(huffmanTree, tdps->typeArray, dataSeriesLength, type);
598	SZ_ReleaseHuffman(huffmanTree);
599
600	uint8_t minValue, exactData;
601
602	minValue = tdps->minValue;
603
604	int exactByteSize = tdps->exactByteSize;
605	unsigned char* exactDataBytePointer = tdps->exactDataBytes;
606
607	unsigned char curBytes[8] = {0,0,0,0,0,0,0,0};
608
609	int rightShiftBits = computeRightShiftBits(exactByteSize, SZ_UINT8);
610
611	int type_;
612
613	long pred1D, pred2D, pred3D, tmp;
614	size_t ii, jj, kk, ll;
615	size_t index;
616
617	for (ll = 0; ll < r1; ll++)
618	{
619	/////////////////////////// Process layer-0 ///////////////////////////
620	/* Process Row-0 data 0*/
621	index = ll*r234;
622	// recover the exact data
623	memcpy(curBytes, exactDataBytePointer, exactByteSize);
624	exactData = curBytes[0];
625	exactData = (uint8_t)exactData >> rightShiftBits;
626	exactDataBytePointer += exactByteSize;
627	(*data)[index] = exactData + minValue;
628
629	/* Process Row-0, data 1 */
630	index = ll*r234+1;
631
632	pred1D = (*data)[index-1];
633
634	type_ = type[index];
635	if (type_ != 0)
636	{
637	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
638	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
639	(*data)[index] = tmp;
640	else if(tmp < SZ_UINT8_MIN)
641	(*data)[index] = SZ_UINT8_MIN;
642	else
643	(*data)[index] = SZ_UINT8_MAX;
644	}
645	else
646	{
647	memcpy(curBytes, exactDataBytePointer, exactByteSize);
648	exactData = curBytes[0];
649	exactData = (uint8_t)exactData >> rightShiftBits;
650	exactDataBytePointer += exactByteSize;
651	(*data)[index] = exactData + minValue;
652	}
653
654	/* Process Row-0, data 2 --> data r4-1 */
655	for (jj = 2; jj < r4; jj++)
656	{
657	index = ll*r234+jj;
658
659	pred1D = 2(data)[index-1] - (*data)[index-2];
660
661	type_ = type[index];
662	if (type_ != 0)
663	{
664	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
665	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
666	(*data)[index] = tmp;
667	else if(tmp < SZ_UINT8_MIN)
668	(*data)[index] = SZ_UINT8_MIN;
669	else
670	(*data)[index] = SZ_UINT8_MAX;
671	}
672	else
673	{
674	memcpy(curBytes, exactDataBytePointer, exactByteSize);
675	exactData = curBytes[0];
676	exactData = (uint8_t)exactData >> rightShiftBits;
677	exactDataBytePointer += exactByteSize;
678	(*data)[index] = exactData + minValue;
679	}
680	}
681
682	/* Process Row-1 --> Row-r3-1 */
683	for (ii = 1; ii < r3; ii++)
684	{
685	/* Process row-ii data 0 */
686	index = llr234+iir4;
687
688	pred1D = (*data)[index-r4];
689
690	type_ = type[index];
691	if (type_ != 0)
692	{
693	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
694	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
695	(*data)[index] = tmp;
696	else if(tmp < SZ_UINT8_MIN)
697	(*data)[index] = SZ_UINT8_MIN;
698	else
699	(*data)[index] = SZ_UINT8_MAX;
700	}
701	else
702	{
703	memcpy(curBytes, exactDataBytePointer, exactByteSize);
704	exactData = curBytes[0];
705	exactData = (uint8_t)exactData >> rightShiftBits;
706	exactDataBytePointer += exactByteSize;
707	(*data)[index] = exactData + minValue;
708	}
709
710	/* Process row-ii data 1 --> r4-1*/
711	for (jj = 1; jj < r4; jj++)
712	{
713	index = llr234+iir4+jj;
714
715	pred2D = (data)[index-1] + (data)[index-r4] - (*data)[index-r4-1];
716
717	type_ = type[index];
718	if (type_ != 0)
719	{
720	tmp = pred2D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
721	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
722	(*data)[index] = tmp;
723	else if(tmp < SZ_UINT8_MIN)
724	(*data)[index] = SZ_UINT8_MIN;
725	else
726	(*data)[index] = SZ_UINT8_MAX;
727	}
728	else
729	{
730	memcpy(curBytes, exactDataBytePointer, exactByteSize);
731	exactData = curBytes[0];
732	exactData = (uint8_t)exactData >> rightShiftBits;
733	exactDataBytePointer += exactByteSize;
734	(*data)[index] = exactData + minValue;
735	}
736	}
737	}
738
739	/////////////////////////// Process layer-1 --> layer-r2-1 ///////////////////////////
740
741	for (kk = 1; kk < r2; kk++)
742	{
743	/* Process Row-0 data 0*/
744	index = llr234+kkr34;
745
746	pred1D = (*data)[index-r34];
747
748	type_ = type[index];
749	if (type_ != 0)
750	{
751	tmp = pred1D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
752	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
753	(*data)[index] = tmp;
754	else if(tmp < SZ_UINT8_MIN)
755	(*data)[index] = SZ_UINT8_MIN;
756	else
757	(*data)[index] = SZ_UINT8_MAX;
758	}
759	else
760	{
761	memcpy(curBytes, exactDataBytePointer, exactByteSize);
762	exactData = curBytes[0];
763	exactData = (uint8_t)exactData >> rightShiftBits;
764	exactDataBytePointer += exactByteSize;
765	(*data)[index] = exactData + minValue;
766	}
767
768	/* Process Row-0 data 1 --> data r4-1 */
769	for (jj = 1; jj < r4; jj++)
770	{
771	index = llr234+kkr34+jj;
772
773	pred2D = (data)[index-1] + (data)[index-r34] - (*data)[index-r34-1];
774
775	type_ = type[index];
776	if (type_ != 0)
777	{
778	tmp = pred2D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
779	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
780	(*data)[index] = tmp;
781	else if(tmp < SZ_UINT8_MIN)
782	(*data)[index] = SZ_UINT8_MIN;
783	else
784	(*data)[index] = SZ_UINT8_MAX;
785	}
786	else
787	{
788	memcpy(curBytes, exactDataBytePointer, exactByteSize);
789	exactData = curBytes[0];
790	exactData = (uint8_t)exactData >> rightShiftBits;
791	exactDataBytePointer += exactByteSize;
792	(*data)[index] = exactData + minValue;
793	}
794	}
795
796	/* Process Row-1 --> Row-r3-1 */
797	for (ii = 1; ii < r3; ii++)
798	{
799	/* Process Row-i data 0 */
800	index = llr234+kkr34+ii*r4;
801
802	pred2D = (data)[index-r4] + (data)[index-r34] - (*data)[index-r34-r4];
803
804	type_ = type[index];
805	if (type_ != 0)
806	{
807	tmp = pred2D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
808	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
809	(*data)[index] = tmp;
810	else if(tmp < SZ_UINT8_MIN)
811	(*data)[index] = SZ_UINT8_MIN;
812	else
813	(*data)[index] = SZ_UINT8_MAX;
814	}
815	else
816	{
817	memcpy(curBytes, exactDataBytePointer, exactByteSize);
818	exactData = curBytes[0];
819	exactData = (uint8_t)exactData >> rightShiftBits;
820	exactDataBytePointer += exactByteSize;
821	(*data)[index] = exactData + minValue;
822	}
823
824	/* Process Row-i data 1 --> data r4-1 */
825	for (jj = 1; jj < r4; jj++)
826	{
827	index = llr234+kkr34+ii*r4+jj;
828
829	pred3D = (data)[index-1] + (data)[index-r4] + (*data)[index-r34]
830	- (data)[index-r4-1] - (data)[index-r34-r4] - (data)[index-r34-1] + (data)[index-r34-r4-1];
831
832	type_ = type[index];
833	if (type_ != 0)
834	{
835	tmp = pred3D + 2 * (type_ - exe_params->intvRadius) * realPrecision;
836	if(tmp >= SZ_UINT8_MIN&&tmp<SZ_UINT8_MAX)
837	(*data)[index] = tmp;
838	else if(tmp < SZ_UINT8_MIN)
839	(*data)[index] = SZ_UINT8_MIN;
840	else
841	(*data)[index] = SZ_UINT8_MAX;
842	}
843	else
844	{
845	memcpy(curBytes, exactDataBytePointer, exactByteSize);
846	exactData = curBytes[0];
847	exactData = (uint8_t)exactData >> rightShiftBits;
848	exactDataBytePointer += exactByteSize;
849	(*data)[index] = exactData + minValue;
850	}
851	}
852	}
853	}
854	}
855
856	free(type);
857	return;
858	}
859
860	void getSnapshotData_uint8_1D(uint8_t** data, size_t dataSeriesLength, TightDataPointStorageI* tdps, int errBoundMode)
861	{
862	size_t i;
863
864	if (tdps->allSameData) {
865	uint8_t value = tdps->exactDataBytes[0];
866	data = (uint8_t)malloc(sizeof(uint8_t)*dataSeriesLength);
867	for (i = 0; i < dataSeriesLength; i++)
868	(*data)[i] = value;
869	} else {
870	decompressDataSeries_uint8_1D(data, dataSeriesLength, tdps);
871	}
872	}
873
874	void getSnapshotData_uint8_2D(uint8_t** data, size_t r1, size_t r2, TightDataPointStorageI* tdps, int errBoundMode)
875	{
876	size_t i;
877	size_t dataSeriesLength = r1*r2;
878	if (tdps->allSameData) {
879	uint8_t value = tdps->exactDataBytes[0];
880	data = (uint8_t)malloc(sizeof(uint8_t)*dataSeriesLength);
881	for (i = 0; i < dataSeriesLength; i++)
882	(*data)[i] = value;
883	} else {
884	decompressDataSeries_uint8_2D(data, r1, r2, tdps);
885	}
886	}
887
888	void getSnapshotData_uint8_3D(uint8_t** data, size_t r1, size_t r2, size_t r3, TightDataPointStorageI* tdps, int errBoundMode)
889	{
890	size_t i;
891	size_t dataSeriesLength = r1r2r3;
892	if (tdps->allSameData) {
893	uint8_t value = tdps->exactDataBytes[0];
894	data = (uint8_t)malloc(sizeof(uint8_t)*dataSeriesLength);
895	for (i = 0; i < dataSeriesLength; i++)
896	(*data)[i] = value;
897	} else {
898	decompressDataSeries_uint8_3D(data, r1, r2, r3, tdps);
899	}
900	}
901
902	void getSnapshotData_uint8_4D(uint8_t** data, size_t r1, size_t r2, size_t r3, size_t r4, TightDataPointStorageI* tdps, int errBoundMode)
903	{
904	size_t i;
905	size_t dataSeriesLength = r1r2r3*r4;
906	if (tdps->allSameData) {
907	uint8_t value = tdps->exactDataBytes[0];
908	data = (uint8_t)malloc(sizeof(uint8_t)*dataSeriesLength);
909	for (i = 0; i < dataSeriesLength; i++)
910	(*data)[i] = value;
911	} else {
912	decompressDataSeries_uint8_4D(data, r1, r2, r3, r4, tdps);
913	}
914	}

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