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--HG-- rename : jpeg/MOZCHANGES => media/libjpeg/MOZCHANGES rename : jpeg/Makefile.in => media/libjpeg/Makefile.in rename : jpeg/README => media/libjpeg/README rename : jpeg/README-turbo.txt => media/libjpeg/README-turbo.txt rename : jpeg/cderror.h => media/libjpeg/cderror.h rename : jpeg/cdjpeg.h => media/libjpeg/cdjpeg.h rename : jpeg/jaricom.c => media/libjpeg/jaricom.c rename : jpeg/jcapimin.c => media/libjpeg/jcapimin.c rename : jpeg/jcapistd.c => media/libjpeg/jcapistd.c rename : jpeg/jcarith.c => media/libjpeg/jcarith.c rename : jpeg/jccoefct.c => media/libjpeg/jccoefct.c rename : jpeg/jccolor.c => media/libjpeg/jccolor.c rename : jpeg/jcdctmgr.c => media/libjpeg/jcdctmgr.c rename : jpeg/jchuff.c => media/libjpeg/jchuff.c rename : jpeg/jchuff.h => media/libjpeg/jchuff.h rename : jpeg/jcinit.c => media/libjpeg/jcinit.c rename : jpeg/jcmainct.c => media/libjpeg/jcmainct.c rename : jpeg/jcmarker.c => media/libjpeg/jcmarker.c rename : jpeg/jcmaster.c => media/libjpeg/jcmaster.c rename : jpeg/jcomapi.c => media/libjpeg/jcomapi.c rename : jpeg/jconfig.h => media/libjpeg/jconfig.h rename : jpeg/jconfig.h.in => media/libjpeg/jconfig.h.in rename : jpeg/jcparam.c => media/libjpeg/jcparam.c rename : jpeg/jcphuff.c => media/libjpeg/jcphuff.c rename : jpeg/jcprepct.c => media/libjpeg/jcprepct.c rename : jpeg/jcsample.c => media/libjpeg/jcsample.c rename : jpeg/jdapimin.c => media/libjpeg/jdapimin.c rename : jpeg/jdapistd.c => media/libjpeg/jdapistd.c rename : jpeg/jdarith.c => media/libjpeg/jdarith.c rename : jpeg/jdatadst.c => media/libjpeg/jdatadst.c rename : jpeg/jdatasrc.c => media/libjpeg/jdatasrc.c rename : jpeg/jdcoefct.c => media/libjpeg/jdcoefct.c rename : jpeg/jdcolor.c => media/libjpeg/jdcolor.c rename : jpeg/jdct.h => media/libjpeg/jdct.h rename : jpeg/jddctmgr.c => media/libjpeg/jddctmgr.c rename : jpeg/jdhuff.c => media/libjpeg/jdhuff.c rename : jpeg/jdhuff.h => media/libjpeg/jdhuff.h rename : jpeg/jdinput.c => media/libjpeg/jdinput.c rename : 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jpeg/jmemnobs.c => media/libjpeg/jmemnobs.c rename : jpeg/jmemsys.h => media/libjpeg/jmemsys.h rename : jpeg/jmorecfg.h => media/libjpeg/jmorecfg.h rename : jpeg/jpegcomp.h => media/libjpeg/jpegcomp.h rename : jpeg/jpegint.h => media/libjpeg/jpegint.h rename : jpeg/jpeglib.h => media/libjpeg/jpeglib.h rename : jpeg/jquant1.c => media/libjpeg/jquant1.c rename : jpeg/jquant2.c => media/libjpeg/jquant2.c rename : jpeg/jsimd.h => media/libjpeg/jsimd.h rename : jpeg/jsimd_none.c => media/libjpeg/jsimd_none.c rename : jpeg/jsimddct.h => media/libjpeg/jsimddct.h rename : jpeg/jutils.c => media/libjpeg/jutils.c rename : jpeg/jversion.h => media/libjpeg/jversion.h rename : jpeg/simd/Makefile.in => media/libjpeg/simd/Makefile.in rename : jpeg/simd/jcclrmmx.asm => media/libjpeg/simd/jcclrmmx.asm rename : jpeg/simd/jcclrss2-64.asm => media/libjpeg/simd/jcclrss2-64.asm rename : jpeg/simd/jcclrss2.asm => media/libjpeg/simd/jcclrss2.asm rename : jpeg/simd/jccolmmx.asm => 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media/libjpeg/simd/jsimdext.inc rename : jpeg/transupp.h => media/libjpeg/transupp.h
243 lines
8.3 KiB
C
243 lines
8.3 KiB
C
/*
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* jidctflt.c
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*
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* Copyright (C) 1994-1998, Thomas G. Lane.
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* This file is part of the Independent JPEG Group's software.
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* For conditions of distribution and use, see the accompanying README file.
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*
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* This file contains a floating-point implementation of the
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* inverse DCT (Discrete Cosine Transform). In the IJG code, this routine
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* must also perform dequantization of the input coefficients.
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*
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* This implementation should be more accurate than either of the integer
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* IDCT implementations. However, it may not give the same results on all
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* machines because of differences in roundoff behavior. Speed will depend
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* on the hardware's floating point capacity.
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*
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* A 2-D IDCT can be done by 1-D IDCT on each column followed by 1-D IDCT
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* on each row (or vice versa, but it's more convenient to emit a row at
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* a time). Direct algorithms are also available, but they are much more
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* complex and seem not to be any faster when reduced to code.
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*
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* This implementation is based on Arai, Agui, and Nakajima's algorithm for
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* scaled DCT. Their original paper (Trans. IEICE E-71(11):1095) is in
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* Japanese, but the algorithm is described in the Pennebaker & Mitchell
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* JPEG textbook (see REFERENCES section in file README). The following code
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* is based directly on figure 4-8 in P&M.
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* While an 8-point DCT cannot be done in less than 11 multiplies, it is
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* possible to arrange the computation so that many of the multiplies are
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* simple scalings of the final outputs. These multiplies can then be
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* folded into the multiplications or divisions by the JPEG quantization
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* table entries. The AA&N method leaves only 5 multiplies and 29 adds
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* to be done in the DCT itself.
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* The primary disadvantage of this method is that with a fixed-point
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* implementation, accuracy is lost due to imprecise representation of the
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* scaled quantization values. However, that problem does not arise if
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* we use floating point arithmetic.
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*/
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#define JPEG_INTERNALS
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#include "jinclude.h"
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#include "jpeglib.h"
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#include "jdct.h" /* Private declarations for DCT subsystem */
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#ifdef DCT_FLOAT_SUPPORTED
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/*
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* This module is specialized to the case DCTSIZE = 8.
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*/
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#if DCTSIZE != 8
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Sorry, this code only copes with 8x8 DCTs. /* deliberate syntax err */
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#endif
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/* Dequantize a coefficient by multiplying it by the multiplier-table
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* entry; produce a float result.
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*/
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#define DEQUANTIZE(coef,quantval) (((FAST_FLOAT) (coef)) * (quantval))
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/*
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* Perform dequantization and inverse DCT on one block of coefficients.
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*/
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GLOBAL(void)
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jpeg_idct_float (j_decompress_ptr cinfo, jpeg_component_info * compptr,
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JCOEFPTR coef_block,
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JSAMPARRAY output_buf, JDIMENSION output_col)
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{
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FAST_FLOAT tmp0, tmp1, tmp2, tmp3, tmp4, tmp5, tmp6, tmp7;
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FAST_FLOAT tmp10, tmp11, tmp12, tmp13;
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FAST_FLOAT z5, z10, z11, z12, z13;
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JCOEFPTR inptr;
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FLOAT_MULT_TYPE * quantptr;
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FAST_FLOAT * wsptr;
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JSAMPROW outptr;
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JSAMPLE *range_limit = IDCT_range_limit(cinfo);
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int ctr;
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FAST_FLOAT workspace[DCTSIZE2]; /* buffers data between passes */
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SHIFT_TEMPS
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/* Pass 1: process columns from input, store into work array. */
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inptr = coef_block;
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quantptr = (FLOAT_MULT_TYPE *) compptr->dct_table;
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wsptr = workspace;
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for (ctr = DCTSIZE; ctr > 0; ctr--) {
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/* Due to quantization, we will usually find that many of the input
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* coefficients are zero, especially the AC terms. We can exploit this
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* by short-circuiting the IDCT calculation for any column in which all
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* the AC terms are zero. In that case each output is equal to the
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* DC coefficient (with scale factor as needed).
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* With typical images and quantization tables, half or more of the
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* column DCT calculations can be simplified this way.
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*/
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if (inptr[DCTSIZE*1] == 0 && inptr[DCTSIZE*2] == 0 &&
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inptr[DCTSIZE*3] == 0 && inptr[DCTSIZE*4] == 0 &&
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inptr[DCTSIZE*5] == 0 && inptr[DCTSIZE*6] == 0 &&
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inptr[DCTSIZE*7] == 0) {
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/* AC terms all zero */
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FAST_FLOAT dcval = DEQUANTIZE(inptr[DCTSIZE*0], quantptr[DCTSIZE*0]);
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wsptr[DCTSIZE*0] = dcval;
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wsptr[DCTSIZE*1] = dcval;
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wsptr[DCTSIZE*2] = dcval;
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wsptr[DCTSIZE*3] = dcval;
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wsptr[DCTSIZE*4] = dcval;
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wsptr[DCTSIZE*5] = dcval;
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wsptr[DCTSIZE*6] = dcval;
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wsptr[DCTSIZE*7] = dcval;
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inptr++; /* advance pointers to next column */
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quantptr++;
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wsptr++;
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continue;
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}
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/* Even part */
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tmp0 = DEQUANTIZE(inptr[DCTSIZE*0], quantptr[DCTSIZE*0]);
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tmp1 = DEQUANTIZE(inptr[DCTSIZE*2], quantptr[DCTSIZE*2]);
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tmp2 = DEQUANTIZE(inptr[DCTSIZE*4], quantptr[DCTSIZE*4]);
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tmp3 = DEQUANTIZE(inptr[DCTSIZE*6], quantptr[DCTSIZE*6]);
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tmp10 = tmp0 + tmp2; /* phase 3 */
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tmp11 = tmp0 - tmp2;
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tmp13 = tmp1 + tmp3; /* phases 5-3 */
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tmp12 = (tmp1 - tmp3) * ((FAST_FLOAT) 1.414213562) - tmp13; /* 2*c4 */
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tmp0 = tmp10 + tmp13; /* phase 2 */
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tmp3 = tmp10 - tmp13;
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tmp1 = tmp11 + tmp12;
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tmp2 = tmp11 - tmp12;
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/* Odd part */
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tmp4 = DEQUANTIZE(inptr[DCTSIZE*1], quantptr[DCTSIZE*1]);
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tmp5 = DEQUANTIZE(inptr[DCTSIZE*3], quantptr[DCTSIZE*3]);
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tmp6 = DEQUANTIZE(inptr[DCTSIZE*5], quantptr[DCTSIZE*5]);
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tmp7 = DEQUANTIZE(inptr[DCTSIZE*7], quantptr[DCTSIZE*7]);
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z13 = tmp6 + tmp5; /* phase 6 */
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z10 = tmp6 - tmp5;
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z11 = tmp4 + tmp7;
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z12 = tmp4 - tmp7;
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tmp7 = z11 + z13; /* phase 5 */
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tmp11 = (z11 - z13) * ((FAST_FLOAT) 1.414213562); /* 2*c4 */
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z5 = (z10 + z12) * ((FAST_FLOAT) 1.847759065); /* 2*c2 */
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tmp10 = ((FAST_FLOAT) 1.082392200) * z12 - z5; /* 2*(c2-c6) */
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tmp12 = ((FAST_FLOAT) -2.613125930) * z10 + z5; /* -2*(c2+c6) */
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tmp6 = tmp12 - tmp7; /* phase 2 */
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tmp5 = tmp11 - tmp6;
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tmp4 = tmp10 + tmp5;
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wsptr[DCTSIZE*0] = tmp0 + tmp7;
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wsptr[DCTSIZE*7] = tmp0 - tmp7;
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wsptr[DCTSIZE*1] = tmp1 + tmp6;
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wsptr[DCTSIZE*6] = tmp1 - tmp6;
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wsptr[DCTSIZE*2] = tmp2 + tmp5;
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wsptr[DCTSIZE*5] = tmp2 - tmp5;
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wsptr[DCTSIZE*4] = tmp3 + tmp4;
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wsptr[DCTSIZE*3] = tmp3 - tmp4;
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inptr++; /* advance pointers to next column */
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quantptr++;
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wsptr++;
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}
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/* Pass 2: process rows from work array, store into output array. */
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/* Note that we must descale the results by a factor of 8 == 2**3. */
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wsptr = workspace;
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for (ctr = 0; ctr < DCTSIZE; ctr++) {
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outptr = output_buf[ctr] + output_col;
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/* Rows of zeroes can be exploited in the same way as we did with columns.
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* However, the column calculation has created many nonzero AC terms, so
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* the simplification applies less often (typically 5% to 10% of the time).
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* And testing floats for zero is relatively expensive, so we don't bother.
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*/
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/* Even part */
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tmp10 = wsptr[0] + wsptr[4];
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tmp11 = wsptr[0] - wsptr[4];
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tmp13 = wsptr[2] + wsptr[6];
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tmp12 = (wsptr[2] - wsptr[6]) * ((FAST_FLOAT) 1.414213562) - tmp13;
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tmp0 = tmp10 + tmp13;
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tmp3 = tmp10 - tmp13;
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tmp1 = tmp11 + tmp12;
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tmp2 = tmp11 - tmp12;
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/* Odd part */
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z13 = wsptr[5] + wsptr[3];
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z10 = wsptr[5] - wsptr[3];
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z11 = wsptr[1] + wsptr[7];
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z12 = wsptr[1] - wsptr[7];
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tmp7 = z11 + z13;
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tmp11 = (z11 - z13) * ((FAST_FLOAT) 1.414213562);
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z5 = (z10 + z12) * ((FAST_FLOAT) 1.847759065); /* 2*c2 */
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tmp10 = ((FAST_FLOAT) 1.082392200) * z12 - z5; /* 2*(c2-c6) */
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tmp12 = ((FAST_FLOAT) -2.613125930) * z10 + z5; /* -2*(c2+c6) */
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tmp6 = tmp12 - tmp7;
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tmp5 = tmp11 - tmp6;
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tmp4 = tmp10 + tmp5;
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/* Final output stage: scale down by a factor of 8 and range-limit */
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outptr[0] = range_limit[(int) DESCALE((INT32) (tmp0 + tmp7), 3)
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& RANGE_MASK];
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outptr[7] = range_limit[(int) DESCALE((INT32) (tmp0 - tmp7), 3)
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& RANGE_MASK];
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outptr[1] = range_limit[(int) DESCALE((INT32) (tmp1 + tmp6), 3)
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& RANGE_MASK];
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outptr[6] = range_limit[(int) DESCALE((INT32) (tmp1 - tmp6), 3)
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& RANGE_MASK];
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outptr[2] = range_limit[(int) DESCALE((INT32) (tmp2 + tmp5), 3)
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& RANGE_MASK];
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outptr[5] = range_limit[(int) DESCALE((INT32) (tmp2 - tmp5), 3)
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& RANGE_MASK];
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outptr[4] = range_limit[(int) DESCALE((INT32) (tmp3 + tmp4), 3)
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& RANGE_MASK];
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outptr[3] = range_limit[(int) DESCALE((INT32) (tmp3 - tmp4), 3)
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& RANGE_MASK];
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wsptr += DCTSIZE; /* advance pointer to next row */
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}
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}
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#endif /* DCT_FLOAT_SUPPORTED */
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