Snad jiz finalni verze kapitoly o FFT.

diff --git a/8-fft/8-fft.tex b/8-fft/8-fft.tex
index cd67ba8c113d686b5b6baa94bfdd8ad59054ae60..b8929802b5489d80eed6a1619354d8b36e9cab40 100644 (file)
--- a/8-fft/8-fft.tex
+++ b/8-fft/8-fft.tex
@@ -87,10 +87,8 @@ Pot
 
 
 \s{Definice:}
-\>{\I Diskretní Fourierova transformace (DFT)}
-je funkce $f: { {\bb C} ^n} \rightarrow { {\bb C} ^n}$ pøiøazující ka¾dému vektoru~$x\in {\bb C}^n$
-vektor~$y\in{\bb C}^n$ takový, ¾e pro ka¾dé~$j$ platí:
-$$y_{j} = \sum \limits ^{n-1}_{k=0} x_{k} \cdot \omega ^{jk}.$$
+\>{\I Diskretní Fourierova transformace} $(DFT)$
+je funkce $f: { {\bb C} ^n} \rightarrow { {\bb C} ^n}$, kde $y=f(x) \equiv \forall j \ y_{j} = \sum \limits ^{n-1}_{k=0} x_{k} \cdot \omega ^{k}$.
 
 
 \s{Jak najít inverzní matici?} Víme, ¾e $\Omega =\Omega ^{T}$ proto¾e $\omega ^{jk} = \omega ^{kj}$.
@@ -165,19 +163,10 @@ $\O(n \log n)$ pro vyhodnocen
 \figure{img.eps}{Pøíklad prùbìhu algoritmu na vstupu velikosti 8}{3in}
 
 
-\>Obrázek ukazuje zapojení kombinaèního obvodu pro DFT pro vstup velikosti 8. Èíslo $\log n$ znaèí poèet hladin, tj. u nás $\log 8 = 3$ hladiny.
+\>Obrázek ukazuje zapojení kombinaèního obvodu pro DFT pro vstup velikosti~8. Hladin bude v¾dy $\log_2 n$, tj. v~na¹em pøípadì $\log_2 8 = 3$ hladiny.
 
-\>Základem je kombinaèní obvod tzv. motýlek. (Na obrázku znázornìn dvìma èarami, pøekøí¾enými v jejich støedech). Co motýlek dìlá? Podívejme se na následující obrázek.
-
-\figure{img2.eps}{Kombinaèní obvod tzv. motýlek}{1in}
-
-\>Vstup jsou komplexní èísla $x_1$ a $x_2$ a výstup komplexní èísla $y_1$ a $y_2$, taková ¾e
-\>$y_1 = x_1 + \omega^j \cdot x_2$
-\>$y_2 = x_1 - \omega^j \cdot x_2$
-
-\>kde index $j$ znaèí
-
-\>V¹imìme si poøadí vstupních hodnot (koeficientù). Èísla jsou v binarním tvaru 0-7 pøeètená pozpátku.
+\>Podívejme se na pravou èást obrázku, tedy výstup celého obvodu. Èerná koleèka pøedstavují podobvody, rovnice vedle nich operaci, kterou provádìjí. Hodnoty $y_j$ znaèí hodnotu polynomu $P$ v bodì $\omega^j$ kde $\omega^j$ je $j-tá$ mocnina primitivní $n$-té odmocniny z jednièky. K jejímu spoètení ale potøebujeme znát hodnoty $s_k$ a $l_k$ kde $k$ je z intervalu $[0, {n/2} -1]$ a $s_k$ a $l_k$ jsou hodnoty polynomu stupnì ${n/2}$ v bodì $\omega^{2k}$. V polynomu $s$ jsou sudé koeficienty a v polynomu $l$ liché koeficienty polynomu $P$. Vidíme ze se jedná pøesnì o ná¹ rekurzivní algoritmus pro poèítání FFT a tímto zpùsobem postavíme celou sí».
+\>Tímto obvodem jsme tedy získali nerekurzivní algoritmus pro poèítání FFT. V¹imìme si poøadí vstupních hodnot (koeficientù). Èísla jsou v binárním tvaru 0--7 pøeètená pozpátku. Pro pøedstavu jaké koeficienty polynomu $P$ se objevují v rùzných hladinách, na obrázku jsou naznaèena jejich èísla spolu s pøíslu¹nými mocninami primitivní $n$-té odmocniny z jednièky. 
 
 \s{Z toho:}
 
@@ -189,5 +178,4 @@ a $\O(n)$ hradly na hladin
 
 \endlist
 
-
 \bye

diff --git a/8-fft/img.eps b/8-fft/img.eps
index 5a4b207b16b5d3b5b22f2f7bfe6567c442a79678..577c491763622e222c1f3c6ca45aa85f8395f336 100644 (file)
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+++ b/8-fft/img.eps
@@ -1,518 +1,1072 @@
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+%%BeginResource: procset XaraStudio1Dict\r
+% Copyright (c) 1995,1996 Xara Ltd\r
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+ucurve readcurve exch bcurve readcurve clamp01 3{5 1 roll dup 3 1 roll\r
+sub clamp01}repeat 5 1 roll pop 4 1 roll ycurve readcurve 4 1 roll\r
+mcurve readcurve 4 1 roll ccurve readcurve 4 1 roll}{rgb2cmyk}ifelse}ifelse}def\r
+/rgb2keyG{3 copy dup 3 1 roll eq 3 1 roll eq and{pop pop}{Max3}ifelse\r
+1 exch sub bcurve readcurve clamp01}bd/rgb2key{Max3 1 exch sub bcurve\r
+readcurve clamp01}bd/rgb2cyanG{3 copy dup 3 1 roll eq 3 1 roll eq and{pop\r
+pop pop 0}{rgb2cyan}ifelse}bd/rgb2cyan{3 copy Max3 1 exch sub ucurve\r
+readcurve 4 1 roll pop pop 1 exch sub exch sub ccurve readcurve clamp01}bd\r
+/rgb2magentaG{3 copy dup 3 1 roll eq 3 1 roll eq and{pop pop pop 0}{rgb2magenta}ifelse}bd\r
+/rgb2magenta{3 copy Max3 1 exch sub ucurve readcurve 4 1 roll pop\r
+1 exch sub 3 1 roll pop sub mcurve readcurve clamp01}bd/rgb2yellowG{3\r
+copy dup 3 1 roll eq 3 1 roll eq and{pop pop pop 0}{rgb2yellow}ifelse}bd\r
+/rgb2yellow{3 copy Max3 1 exch sub ucurve readcurve 4 1 roll 1 exch\r
+sub 4 1 roll pop pop sub ycurve readcurve clamp01}bd/rgb2plategray{v_keyg\r
+0 eq v_plate v_cpky eq{{rgb2key}{rgb2keyG}ifelse}{v_plate v_cpyl eq{{rgb2yellow}{rgb2yellowG}ifelse}{v_plate\r
+v_cpmg eq{{rgb2magenta}{rgb2magentaG}ifelse}{v_plate v_cpcy eq{{rgb2cyan}{rgb2cyanG}ifelse}{{rgb2key}{rgb2keyG}ifelse}ifelse}ifelse}ifelse}ifelse\r
+1 exch sub setgray}bd/dc{0 def}bd/aca{/v_cpnone 0 def/v_cpcy 1 def\r
+/v_cpyl 2 def/v_cpmg 3 def/v_cpky 4 def/v_gseps 0 def/v_keyg 0 def\r
+/v_plate v_cpnone def/v_mono 0 def/v_wr dc/v_fc dc/v_fm dc/v_fy dc\r
+/v_fk dc/v_fg dc/v_fr dc/v_fg dc/v_fb dc/v_sc dc/v_sm dc/v_sy dc/v_sk\r
+dc/v_sg dc/v_sr dc/v_sg dc/v_sb dc/v_sct 0 def/v_fct 0 def/v_ft 0 def\r
+/v_cxe 0 def/v_cxm 0 def/v_sa -1 def/v_ea -1 def/sR dc/sG dc/sB dc\r
+/mR dc/mG dc/mB dc/eR dc/eG dc/eB dc/sC dc/sM dc/sY dc/sK dc/eC dc\r
+/eM dc/eY dc/eK dc/sH dc/sS dc/sV dc/eH dc/eS dc/eV dc/sGy dc/eGy\r
+dc/mGy dc/ci_datasrc dc/ci_matrix dc/ci_dataleft dc/ci_buf dc/ci_dataofs\r
+dc/ci_y dc/rciBuf dc/cbslw dc/cmiBuf dc/cPalette dc/cpci_datasrc dc\r
+/cpci_matrix dc/cpci_bpp dc/cpci_y dc/cpci_sampsleft dc/cpci_nextcol\r
+dc/cpci_buf dc/startX dc/startY dc/endX dc/endY dc/endX2 dc/endY2 dc\r
+/fillX dc/urx dc/ury dc/llx dc/lly dc/incD dc/distance dc/slice dc\r
+/startangle dc/Steps dc/incH dc/incS dc/incV dc/incR dc/incG dc/incB\r
+dc/incGy dc 0.25 setlinewidth [] 0 setdash 0 setlinejoin 0 setlinecap}bd\r
+aca/setplategray{v_plate v_cpky eq{1 exch sub setgray pop pop pop}{v_plate\r
+v_cpyl eq{pop 1 exch sub setgray pop pop}{v_plate v_cpmg eq{pop pop\r
+1 exch sub setgray pop}{v_plate v_cpcy eq{pop pop pop 1 exch sub setgray}{1\r
+exch sub setgray pop pop pop}ifelse}ifelse}ifelse}ifelse}bd/setplatecolor{v_plate\r
+v_cpky eq{1 exch sub 0 0 0 4 -1 roll setcmykcolor pop pop pop}{v_plate\r
+v_cpyl eq{pop 1 exch sub 0 0 0 4 2 roll setcmykcolor pop pop}{v_plate\r
+v_cpmg eq{pop pop 1 exch sub 0 0 0 4 1 roll setcmykcolor pop}{v_plate\r
+v_cpcy eq{pop pop pop 1 exch sub 0 0 0 setcmykcolor}{1 exch sub 0 0\r
+0 4 -1 roll setcmykcolor pop pop pop}ifelse}ifelse}ifelse}ifelse}bd\r
+/setcmykcolor where{pop}{/setcmykcolor{cmyk2rgb setrgbcolor}bd}ifelse\r
+/setlogcmykcolor{v_gseps 1 eq{v_mono 1 eq{1 exch sub setgray pop pop\r
+pop}{setcmykcolor}ifelse}{v_mono 1 eq{cmyk2rgb rgb2gray setgray}{setcmykcolor}ifelse}ifelse}bd\r
+/setlogrgbcolor{v_gseps 1 eq{v_mono 1 eq{rgbtoplategray}{rgb2devcmyk\r
+setplatecolor}ifelse}{v_mono 1 eq{rgb2gray setgray}{systemdict begin\r
+setrgbcolor end}ifelse}ifelse}bd/setfillcolor{v_fct 0 eq{v_fc v_fm\r
+v_fy v_fk setlogcmykcolor}{v_fr v_fg v_fb setlogrgbcolor}ifelse}bd\r
+/setstrokecolor{v_sct 0 eq{v_sc v_sm v_sy v_sk setlogcmykcolor}{v_sr\r
+v_sg v_sb setlogrgbcolor}ifelse}bd/setgfillcmyk{v_gseps 1 eq{v_mono\r
+1 eq{cmyk2rgb rgb2plategray}{cmyk2rgb rgb2devcmyk setplatecolor}ifelse}{v_mono\r
+1 eq{cmyk2rgb rgb2gray setgray}{setcmykcolor}ifelse}ifelse}bd/setgfillrgb{v_gseps\r
+1 eq{v_mono 1 eq{rgb2plategray}{rgb2devcmyk setplatecolor}ifelse}{v_mono\r
+1 eq{rgb2gray setgray}{systemdict begin setrgbcolor end}ifelse}ifelse}bd\r
+/setgfillhsb{v_gseps 1 eq{v_mono 1 eq{systemdict begin sethsbcolor\r
+currentrgbcolor end rgb2plategray}{systemdict begin sethsbcolor currentrgbcolor\r
+end rgb2devcmyk setplatecolor}ifelse}{v_mono 1 eq{systemdict begin\r
+sethsbcolor currentgray end setgray}{systemdict begin sethsbcolor end}ifelse}ifelse}bd\r
+/Max{2 copy lt{exch}if pop}bd/Max3{2 copy lt{exch}if pop 2 copy lt{exch}if\r
+pop}bd/Min{2 copy gt{exch}if pop}bd/Min3{2 copy gt{exch}if pop 2 copy\r
+gt{exch}if pop}bd/clamp{3 1 roll Max 2 1 roll Min}bd/clamp01{0 Max\r
+1 Min}bd/Pythag{dup mul exch dup mul add sqrt}bd/ssc{DeviceRGB setcolorspace\r
+setcolor}bd/ssg{setgray}bd/p_render{}def/p_count 0 def/vis_flag true\r
+def/DataString 3 string def/DataSrc{currentfile DataString readhexstring\r
+pop}bd/DataStr1 1 string def/DataStr2 1 string def/DataStr3 1 string\r
+def/DataSrc1{DataStr1}bd/DataSrc2{DataStr2}bd/DataSrc3{DataStr3}bd\r
+/colorimage where{pop/ci{colorimage}bd}{/ci{pop pop/ci_datasrc exch\r
+def matrix invertmatrix/ci_matrix exch def pop/ci_dataleft 0 def/ci_buf()def\r
+/ci_dataofs 0 def 0 1 3 -1 roll 1 sub{/ci_y exch def dup 0 1 3 -1\r
+roll 1 sub{0 1 2{pop ci_dataleft 0 eq{ci_datasrc dup length/ci_dataleft\r
+exch def/ci_buf exch def/ci_dataofs 0 def}if ci_buf ci_dataofs get\r
+255 div/ci_dataofs ci_dataofs 1 add def/ci_dataleft ci_dataleft 1 sub\r
+def}for setrgbcolor dup ci_y 3 -1 roll 1 add ci_y 1 add 4 copy 5 1\r
+roll 4 2 roll 5 -1 roll 1 1 4{pop ci_matrix transform 8 2 roll}for\r
+m l l l closepath fill}for}for pop}bd}ifelse/rci{/rciBuf 4 index 3\r
+index mul 7 add 8 div floor cvi string def{currentfile rciBuf readhexstring\r
+pop}bind false 3 ci}bd/cbsl{2 eq/cbslL2 xd 5 index/cbslw xd translate\r
+scale 8 [ 3 index 0 0 5 index 0 0 ] cbslL2{/DataStr1 cbslw string def\r
+currentfile/ASCII85Decode filter/RunLengthDecode filter DataStr1 readstring\r
+pop pop/DataStr2 cbslw string def currentfile/ASCII85Decode filter\r
+/RunLengthDecode filter DataStr2 readstring pop pop/DataStr3 cbslw\r
+string def currentfile/ASCII85Decode filter/RunLengthDecode filter\r
+DataStr3 readstring pop pop{DataStr1}bind{DataStr2}bind{DataStr3}bind\r
+true}{/DataSrc load false}ifelse 3 ci}bd/gbsl{2 eq/gbslL2 xd 5 index\r
+/gbslw xd translate scale 8 [ 3 index 0 0 5 index 0 0 ] gbslL2{/DataStr1\r
+gbslw string def currentfile/ASCII85Decode filter/RunLengthDecode filter\r
+DataStr1 readstring pop pop{DataStr1}bind}{/DataStr1 gbslw string def\r
+currentfile DataSrc1 readhexstring pop pop{DataStr1}bind}ifelse image}bd\r
+/cmi{/cmiBuf 4 index 3 index mul 7 add 8 div floor cvi string def{currentfile\r
+cmiBuf readhexstring pop}bind image}bd/cpal{4 mul string/cPalette exch\r
+def currentfile cPalette readhexstring pop}bd/cpci{/cpci_datasrc exch\r
+def matrix invertmatrix/cpci_matrix exch def/cpci_bpp exch def cpci_init\r
+0 1 3 -1 roll 1 sub{/cpci_y exch def dup cpci_bpp 4 eq{cpci_sampsleft\r
+1 eq{/cpci_sampsleft 0 def}if}if 0 1 3 -1 roll 1 sub{cpci_nextcol dup\r
+cpci_y 3 -1 roll 1 add cpci_y 1 add 4 copy 5 1 roll 4 2 roll 5 -1 roll\r
+1 1 4{pop cpci_matrix transform 8 2 roll}for m l l l closepath fill}for}for\r
+pop}bd/cpci_init{/cpci_sampsleft 0 def}bd/cpci_buf 1 string def/cpci_nextcol{cpci_bpp\r
+1 eq{cpci_sampsleft 0 eq{currentfile cpci_buf readhexstring pop pop\r
+/cpci_sampsleft 8 def}if cpci_buf dup 0 get dup 1 and setgray -1 bitshift\r
+1 exch put/cpci_sampsleft cpci_sampsleft 1 sub def}{cpci_bpp 4 eq{cpci_sampsleft\r
+0 eq{currentfile cpci_buf readhexstring pop pop/cpci_sampsleft 2 def}if\r
+cpci_buf 0 get dup 15 and exch -4 bitshift cpci_buf 0 3 -1 roll put\r
+/cpci_sampsleft cpci_sampsleft 1 sub def}{currentfile cpci_buf readhexstring\r
+pop 0 get}ifelse 4 mul dup 2 add cPalette exch get 255 div exch dup\r
+1 add cPalette exch get 255 div exch cPalette exch get 255 div setrgbcolor}ifelse}bd\r
+/setup1asciiproc{[ currentfile mystring/readhexstring cvx/pop cvx\r
+] cvx bind}bd/setup1binaryproc{[ currentfile mystring/readstring cvx\r
+/pop cvx ] cvx bind}bd level2{save/dontloadlevel1 xd}if/iw 0 def/ih\r
+0 def/im_save 0 def/setupimageproc 0 def/polarity 0 def/smoothflag\r
+0 def/mystring 0 def/bpc 0 def/beginimage{/im_save save def dup 0 eq{pop\r
+/setup1binaryproc}{1 eq{/setup1asciiproc}{(error, can't use level2 data acquisition procs for level1)print\r
+flush}ifelse}ifelse/setupimageproc exch ld/polarity xd/smoothflag xd\r
+/imat xd/mystring exch string def/bpc xd/ih xd/iw xd}bd/endimage{im_save\r
+restore}bd/1bitbwcopyimage{1 setgray 0 0 moveto 0 1 rlineto 1 0 rlineto\r
+0 -1 rlineto closepath fill 0 setgray iw ih polarity imat setupimageproc\r
+imagemask}bd/1bitcopyimage{setrgbcolor 0 0 moveto 0 1 rlineto 1 0 rlineto\r
+0 -1 rlineto closepath fill setrgbcolor iw ih polarity imat setupimageproc\r
+imagemask}bd/1bitmaskimage{setrgbcolor iw ih polarity [iw 0 0 ih 0\r
+0] setupimageproc imagemask}bd level2{dontloadlevel1 restore}if level2\r
+not{save/dontloadlevel2 xd}if/setup2asciiproc{currentfile/ASCII85Decode\r
+filter/RunLengthDecode filter}bd/setup2binaryproc{currentfile/RunLengthDecode\r
+filter}bd/myimagedict 9 dict dup begin/ImageType 1 def/MultipleDataSource\r
+false def end def/im_save 0 def/setupimageproc 0 def/polarity 0 def\r
+/smoothflag 0 def/mystring 0 def/bpc 0 def/ih 0 def/iw 0 def/beginimage{\r
+/im_save save def dup 2 eq{pop/setup2binaryproc}{dup 3 eq{pop/setup2asciiproc}{0\r
+eq{/setup1binaryproc}{/setup1asciiproc}ifelse}ifelse}ifelse/setupimageproc\r
+exch ld{[ 1 0 ]}{[ 0 1 ]}ifelse/polarity xd/smoothflag xd/imat xd/mystring\r
+exch string def/bpc xd/ih xd/iw xd}bd/endimage{im_save restore}bd/1bitbwcopyimage{1\r
+ssg 0 0 moveto 0 1 rlineto 1 0 rlineto 0 -1 rlineto closepath fill\r
+0 ssg myimagedict dup begin/Width iw def/Height ih def/Decode polarity\r
+def/ImageMatrix imat def/DataSource setupimageproc def/BitsPerComponent\r
+1 def/Interpolate smoothflag def end imagemask}bd/1bitcopyimage{ssc\r
+0 0 moveto 0 1 rlineto 1 0 rlineto 0 -1 rlineto closepath fill ssc\r
+myimagedict dup begin/Width iw def/Height ih def/Decode polarity def\r
+/ImageMatrix imat def/DataSource setupimageproc def/BitsPerComponent\r
+1 def/Interpolate smoothflag def end imagemask}bd/1bitmaskimage{ssc\r
+myimagedict dup begin/Width iw def/Height ih def/Decode polarity def\r
+/ImageMatrix imat def/DataSource setupimageproc def/BitsPerComponent\r
+1 def/Interpolate smoothflag def end imagemask}bd level2 not{dontloadlevel2\r
+restore}if\r
+level2{save/dontloadlevel1 xd}if/startnoload{{/noload save def}if}bd\r
+/endnoload{{noload restore}if}bd/testsystemdict{where{systemdict eq{true}{false}ifelse}{false}ifelse}bd\r
+/ncolors 1 def/colorimage where{pop true}{false}ifelse{/ncolors 0\r
+statusdict begin/processcolors where{pop pop processcolors}{/deviceinfo\r
+where{pop deviceinfo/Colors known{pop{deviceinfo/Colors get}}if}if}ifelse\r
+end def ncolors 0 ne{/colorimage testsystemdict/setcolortransfer testsystemdict\r
+/currentcolortransfer testsystemdict/currentcmykcolor testsystemdict\r
+and and and not{/ncolors 0 def}if}if}if ncolors dup 1 ne exch dup 3\r
+ne exch 4 ne and and{/ncolors 0 def}if ncolors 1 eq dup dup not startnoload{\r
+/expandbw{expandfactor mul round cvi bwclut exch get 255 div}bd/doclutimage{bwclut\r
+colorclut pop/bwclut xd bpc dup 8 eq{pop 255}{4 eq{15}{3}ifelse}ifelse\r
+/expandfactor xd [/expandbw load/exec load dup currenttransfer exch\r
+] cvx bind settransfer iw ih bpc imat setupimageproc image}bd}if not\r
+endnoload ncolors dup 3 eq exch 4 eq or dup dup not startnoload{/nullproc{{}}def\r
+/concatutil{/exec load 7 -1 roll/exec load}bd/defsubclut{1 add getinterval\r
+def}bd/spconcattransfer{/Dclut exch def/Cclut exch def/Bclut exch def\r
+/Aclut exch def/ncompute exch ld currentcolortransfer [{Aclut ncompute}concatutil\r
+] cvx [{Bclut ncompute}concatutil ] cvx [{Cclut ncompute}concatutil\r
+] cvx [{Dclut ncompute}concatutil ] cvx setcolortransfer}bd/setuprgbcluts{\r
+/bit3x rgbclut length 3 sub def/bit1x bit3x 3 idiv def/rclut rgbclut\r
+def/gclut rclut 1 bit3x defsubclut/bclut rclut 2 bit3x defsubclut}bd}if\r
+not endnoload ncolors 3 eq dup dup not startnoload{/3compute{exch bit3x\r
+mul round cvi get 255 div}bd/doclutimage{/rgbclut xd pop setuprgbcluts\r
+/3compute rclut gclut bclut dup spconcattransfer iw ih bpc imat [\r
+setupimageproc/exec load/dup load dup ] cvx nullproc nullproc true\r
+3 colorimage}bd}if not endnoload ncolors 4 eq dup dup not startnoload{\r
+/stuffclut{cmykindex 3 -1 roll put}bd/ftoint{1 exch sub 255 mul round\r
+cvi}bd/4compute{exch bit4x mul round cvi get 255 div}bd/computecmykclut{setuprgbcluts\r
+/bit4x rgbclut length 3 idiv 4 mul 4 sub def/cmykclut bit4x 4 add\r
+string def/cclut cmykclut def/mclut cclut 1 bit4x defsubclut/yclut\r
+cclut 2 bit4x defsubclut/kclut cclut 3 bit4x defsubclut/cmykindex 0\r
+def 0 1 bit1x{dup/cmykindex exch bit1x exch sub 4 mul def 3 mul dup\r
+rclut exch get 255 div exch dup gclut exch get 255 div exch bclut exch\r
+get 255 div setrgbcolor currentcmykcolor ftoint kclut stuffclut ftoint\r
+yclut stuffclut ftoint mclut stuffclut ftoint cclut stuffclut}for}bd\r
+/doclutimage{/rgbclut xd pop invalidcolortable?{computecmykclut}if\r
+/4compute cclut mclut yclut kclut spconcattransfer iw ih bpc imat\r
+[ setupimageproc/exec load/dup load dup dup ] cvx nullproc nullproc\r
+nullproc true 4 colorimage}bd}if not endnoload ncolors 0 eq dup dup\r
+not startnoload{/lookupandstore{3 mul 3 getinterval putinterval exch\r
+3 add exch 3 copy}bd/8lookup/lookupandstore ld/4lookup{/byte 1 index\r
+def -4 bitshift lookupandstore byte 15 and lookupandstore}bd/2lookup{\r
+/byte 1 index def -6 bitshift lookupandstore byte -4 bitshift 3 and\r
+lookupandstore byte -2 bitshift 3 and lookupandstore byte 3 and lookupandstore}bd\r
+/colorexpand{mystringexp 0 rgbclut 3 copy 7 -1 roll/mylookup load\r
+forall pop pop pop pop pop}bd/createexpandstr{/mystringexp exch mystring\r
+length mul string def}bd/doclutimage{/rgbclut xd pop/mylookup bpc 8\r
+eq{3 createexpandstr/8lookup}{bpc 4 eq{6 createexpandstr/4lookup}{12\r
+createexpandstr/2lookup}ifelse}ifelse ld iw ih bpc imat [ setupimageproc\r
+/exec load/colorexpand load/exec load] cvx false 3 colorimage}bd}if\r
+not endnoload/colorimage where{pop true}{false}ifelse dup{/do24image{iw\r
+ih 8 imat setupimageproc false 3 colorimage}bd}if dup dup startnoload\r
+not{/rgbtogray{/str xd/len str length def/smlen len 3 idiv def/rstr\r
+str def/gstr str 1 len 1 sub getinterval def/bstr str 2 len 2 sub getinterval\r
+def str dup 0 1 smlen 1 sub{dup 3 mul rstr 1 index get .3 mul gstr\r
+2 index get .59 mul add bstr 3 -1 roll get .11 mul add round cvi put\r
+dup}for pop 0 smlen getinterval}bd/do24image{iw ih 8 imat [ setupimageproc\r
+/exec load/rgbtogray load/exec load ] cvx bind image}bd}if endnoload\r
+/doimage{iw ih 8 imat setupimageproc image}bd level2{dontloadlevel1\r
+restore}if level2 not{save/dontloadlevel2 xd}if/myappcolorspace/DeviceRGB\r
+def/rgbclut 0 def/doclutimage{/rgbclut xd pop bpc dup 8 eq{pop 255}{4\r
+eq{15}{3}ifelse}ifelse/hival xd [/Indexed myappcolorspace hival rgbclut]\r
+setcolorspace myimagedict dup begin/Width iw def/Height ih def/Decode\r
+[0 hival] def/ImageMatrix imat def/DataSource setupimageproc def/BitsPerComponent\r
+bpc def/Interpolate smoothflag def end image}bd/do24image{myappcolorspace\r
+setcolorspace myimagedict dup begin/Width iw def/Height ih def/Decode\r
+[0 1 0 1 0 1] def/ImageMatrix imat def/DataSource setupimageproc def\r
+/BitsPerComponent 8 def/Interpolate smoothflag def end image}bd level2\r
+not{dontloadlevel2 restore}if\r
+/NumSteps{dtransform matrix defaultmatrix idtransform Pythag currentscreen\r
+pop pop 72 exch div div}bd/FindMinSteps{v_ft 4 eq{urx startX sub abs\r
+llx startX sub abs Max ury startY sub abs lly startY sub abs Max Pythag\r
+2 3.14159265 mul mul 0}{v_ft 2 eq{endY startY sub endX startX sub Pythag\r
+endY2 startY sub endX2 startX sub Pythag gt{endY startY sub endX startX\r
+sub}{endY2 startY sub endX2 startX sub}ifelse}{endY startY sub endX\r
+startX sub}ifelse}ifelse NumSteps}bd/cxe{/v_cxe exch def}bd/cxm{pop\r
+/v_cxm exch def}bd/cxmt{pop pop}bd/cxt{pop}bd/S_eoclip{currentflat{{eoclip}stopped{dup\r
+currentflat exch sub 20 gt{([Error: PathTooComplex; OffendingCommand: eoclip]\n)print\r
+flush exit}{currentflat 2 add setflat}ifelse}{exit}ifelse}loop setflat}bd\r
+/S_clip{currentflat{{clip}stopped{dup currentflat exch sub 20 gt{([Error: PathTooComplex; OffendingCommand: clip]\n)print\r
+flush exit}{currentflat 2 add setflat}ifelse}{exit}ifelse}loop setflat}bd\r
+/S_eofill{currentflat{{eofill}stopped{dup currentflat exch sub 20\r
+gt{([Error: PathTooComplex; OffendingCommand: eofill]\n)print flush\r
+exit}{currentflat 2 add setflat}ifelse}{exit}ifelse}loop setflat}bd\r
+/gpbbx{pathbbox/ury exch def/urx exch def/lly exch def/llx exch def}bd\r
+/lineargfill{initgfill{false initgfx/distance endX startX sub endY\r
+startY sub Pythag def/incD distance Steps div def endY startY sub endX\r
+startX sub atan newpath llx lly urx ury Bx startX startY translate\r
+rotate gpbbx eGy ssg newpath llx lly urx ury Bx S_eofill sGy ssg newpath\r
+llx lly 0 ury Bx S_eofill/fillX 0 def 0 1 Steps 1 sub{stepgfx newpath\r
+fillX lly fillX incD add dup/fillX exch def ury Bx S_eofill pop}for}if}bd\r
+/radialgfill{initgfill{false initgfx/distance endX startX sub endY\r
+startY sub Pythag def/incD distance Steps div def eGy ssg newpath llx\r
+lly urx ury Bx S_eofill/distance 0 def 0 1 Steps 1 sub{stepgfx newpath\r
+startX startY distance 0 360 arc closepath distance incD add dup/distance\r
+exch def 0 rmoveto startX startY distance 0 360 arc closepath S_eofill\r
+pop}for}if}bd/ellipticgfill{initgfill{true initgfx sGy ssg newpath\r
+llx lly urx ury Bx S_eofill [ endX startX sub endY startY sub endX2\r
+startX sub endY2 startY sub startX startY ] concat Steps 1 sub -1 0{stepgfx\r
+/i exch def 0 0 moveto 0 0 i Steps div 0 360 arc fill}for}if}bd/conicalgfill{initgfill{urx\r
+startX sub abs llx startX sub abs Max ury startY sub abs lly startY\r
+sub abs Max Pythag startY endY sub startX endX sub Pythag div/radius\r
+exch def true initgfx [ endX startX sub endY startY sub startY endY\r
+sub endX startX sub startX startY ] concat/slice 180 Steps div def\r
+/startangle 0 def Steps -1 0{pop stepgfx 0 0 moveto 0 0 radius startangle\r
+neg dup slice add arc fill 0 0 moveto 0 0 radius startangle dup slice\r
+add dup/startangle exch def arc fill}for}if}bd/initgfill{gpbbx{S_eoclip}{S_clip}ifelse\r
+startX endX eq startY endY eq and sGy eGy eq or dup{sGy ssg newpath\r
+llx lly urx ury Bx S_eofill}if not}bd/initgfx{/flag exch def flag{sGy\r
+eGy/sGy exch def/eGy exch def}if eGy sGy sub abs 256 mul FindMinSteps\r
+Min 256 Min ceiling 1 Max/Steps exch def eGy sGy sub Steps div/incGy\r
+exch def sGy/mGy exch def}bd/stepgfx{mGy ssg mGy incGy add/mGy exch\r
+def}bd/linearfill{initfill{false initfx endX startX sub endY startY\r
+sub Pythag/distance exch def/incD distance Steps div def endY startY\r
+sub endX startX sub atan newpath llx lly urx ury Bx startX startY translate\r
+rotate gpbbx v_cxe 0 eq{eR eG eB setgfillrgb}{eH eS eV setgfillhsb}ifelse\r
+newpath llx lly urx ury Bx S_eofill v_cxe 0 eq{sR sG sB setgfillrgb}{sH\r
+sS sV setgfillhsb}ifelse newpath llx lly 0 ury Bx S_eofill/fillX 0\r
+def 0 1 Steps 1 sub{stepfx newpath fillX lly fillX incD add dup/fillX\r
+exch def ury Bx S_eofill pop}for}if}bd/radialfill{initfill{false initfx\r
+endX startX sub endY startY sub Pythag/distance exch def/incD distance\r
+Steps div def v_cxe 0 eq{eR eG eB setgfillrgb}{eH eS eV setgfillhsb}ifelse\r
+newpath llx lly urx ury Bx S_eofill/distance 0 def 0 1 Steps 1 sub{stepfx\r
+newpath startX startY distance 0 360 arc closepath distance incD add\r
+dup/distance exch def 0 rmoveto startX startY distance 0 360 arc closepath\r
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diff --git a/8-fft/img.xar b/8-fft/img.xar
index 6c8d6879a61c8373f852ef43ac19f37e871fa3b7..92e4c9adb04c6c6cf539a332f9513f562b2ac131 100644 (file)
Binary files a/8-fft/img.xar and b/8-fft/img.xar differ