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/* Copyright (c) 1997 Regents of the University of California */ |
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|
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#ifndef lint |
4 |
static char SCCSid[] = "$SunId$ LBL"; |
5 |
#endif |
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|
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/* |
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* Tone mapping functions. |
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* See tonemap.h for detailed function descriptions. |
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*/ |
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|
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#include <stdio.h> |
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#include <math.h> |
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#include "tmprivat.h" |
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#include "tmerrmsg.h" |
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|
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#define exp10(x) exp(M_LN10*(x)) |
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|
19 |
struct tmStruct *tmTop = NULL; /* current tone mapping stack */ |
20 |
|
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/* our list of conversion packages */ |
22 |
struct tmPackage *tmPkg[TM_MAXPKG]; |
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int tmNumPkgs = 0; /* number of registered packages */ |
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|
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int tmLastError; /* last error incurred by library */ |
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char *tmLastFunction; /* error-generating function name */ |
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|
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|
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int |
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tmErrorReturn(func, err) /* error return (with message) */ |
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char *func; |
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int err; |
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{ |
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tmLastFunction = func; |
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tmLastError = err; |
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if (tmTop != NULL && tmTop->flags & TM_F_NOSTDERR) |
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return(err); |
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fputs(func, stderr); |
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fputs(": ", stderr); |
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fputs(tmErrorMessage[err], stderr); |
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fputs("!\n", stderr); |
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return(err); |
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} |
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|
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|
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struct tmStruct * |
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tmInit(flags, monpri, gamval) /* initialize new tone mapping */ |
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int flags; |
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RGBPRIMP monpri; |
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double gamval; |
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{ |
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static char funcName[] = "tmInit"; |
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COLORMAT cmat; |
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register struct tmStruct *tmnew; |
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register int i; |
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/* allocate structure */ |
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tmnew = (struct tmStruct *)malloc(sizeof(struct tmStruct)); |
58 |
if (tmnew == NULL) |
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return(NULL); |
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|
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tmnew->flags = flags & ~TM_F_UNIMPL; |
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/* set monitor transform */ |
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if (monpri == NULL || monpri == stdprims || tmnew->flags & TM_F_BW) { |
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tmnew->monpri = stdprims; |
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tmnew->clf[RED] = rgb2xyzmat[1][0]; |
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tmnew->clf[GRN] = rgb2xyzmat[1][1]; |
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tmnew->clf[BLU] = rgb2xyzmat[1][2]; |
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} else { |
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comprgb2xyzmat(cmat, tmnew->monpri=monpri); |
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tmnew->clf[RED] = cmat[1][0]; |
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tmnew->clf[GRN] = cmat[1][1]; |
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tmnew->clf[BLU] = cmat[1][2]; |
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} |
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/* set gamma value */ |
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if (gamval < MINGAM) |
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tmnew->mongam = DEFGAM; |
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else |
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tmnew->mongam = gamval; |
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/* set color divisors */ |
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for (i = 0; i < 3; i++) |
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tmnew->cdiv[i] = 256.*pow(tmnew->clf[i], 1./tmnew->mongam); |
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|
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/* set input transform */ |
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tmnew->inppri = tmnew->monpri; |
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tmnew->cmat[0][0] = tmnew->cmat[1][1] = tmnew->cmat[2][2] = |
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tmnew->inpsf = WHTEFFICACY; |
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tmnew->cmat[0][1] = tmnew->cmat[0][2] = tmnew->cmat[1][0] = |
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tmnew->cmat[1][2] = tmnew->cmat[2][0] = tmnew->cmat[2][1] = 0.; |
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tmnew->brmin = tmnew->brmax = 0; |
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tmnew->histo = NULL; |
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tmnew->lumap = NULL; |
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/* zero private data */ |
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for (i = TM_MAXPKG; i--; ) |
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tmnew->pd[i] = NULL; |
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/* make tmnew current */ |
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tmnew->tmprev = tmTop; |
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return(tmTop = tmnew); |
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} |
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|
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|
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int |
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tmSetSpace(pri, sf) /* set input color space for conversions */ |
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RGBPRIMP pri; |
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double sf; |
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{ |
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static char funcName[] = "tmSetSpace"; |
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register int i, j; |
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/* error check */ |
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if (tmTop == NULL) |
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returnErr(TM_E_TMINVAL); |
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if (sf <= 1e-12) |
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returnErr(TM_E_ILLEGAL); |
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/* check if no change */ |
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if (pri == tmTop->inppri && FEQ(sf, tmTop->inpsf)) |
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returnOK; |
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tmTop->inppri = pri; /* let's set it */ |
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tmTop->inpsf = sf; |
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|
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if (tmTop->flags & TM_F_BW) { /* color doesn't matter */ |
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tmTop->monpri = tmTop->inppri; /* eliminate xform */ |
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if (tmTop->inppri == TM_XYZPRIM) { |
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tmTop->clf[CIEX] = tmTop->clf[CIEZ] = 0.; |
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tmTop->clf[CIEY] = 1.; |
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} else { |
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comprgb2xyzmat(tmTop->cmat, tmTop->monpri); |
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tmTop->clf[RED] = tmTop->cmat[1][0]; |
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tmTop->clf[GRN] = tmTop->cmat[1][1]; |
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tmTop->clf[BLU] = tmTop->cmat[1][2]; |
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} |
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tmTop->cmat[0][0] = tmTop->cmat[1][1] = tmTop->cmat[2][2] = |
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tmTop->inpsf; |
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tmTop->cmat[0][1] = tmTop->cmat[0][2] = tmTop->cmat[1][0] = |
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tmTop->cmat[1][2] = tmTop->cmat[2][0] = tmTop->cmat[2][1] = 0.; |
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|
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} else if (tmTop->inppri == TM_XYZPRIM) /* input is XYZ */ |
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compxyz2rgbmat(tmTop->cmat, tmTop->monpri); |
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|
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else { /* input is RGB */ |
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if (tmTop->inppri != tmTop->monpri && |
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PRIMEQ(tmTop->inppri, tmTop->monpri)) |
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tmTop->inppri = tmTop->monpri; /* no xform */ |
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comprgb2rgbmat(tmTop->cmat, tmTop->inppri, tmTop->monpri); |
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} |
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for (i = 0; i < 3; i++) |
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for (j = 0; j < 3; j++) |
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tmTop->cmat[i][j] *= tmTop->inpsf; |
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/* set color divisors */ |
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for (i = 0; i < 3; i++) |
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if (tmTop->clf[i] > .001) |
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tmTop->cdiv[i] = |
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256.*pow(tmTop->clf[i], 1./tmTop->mongam); |
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else |
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tmTop->cdiv[i] = 1; |
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/* notify packages */ |
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for (i = tmNumPkgs; i--; ) |
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if (tmTop->pd[i] != NULL && tmPkg[i]->NewSpace != NULL) |
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(*tmPkg[i]->NewSpace)(tmTop); |
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returnOK; |
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} |
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|
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|
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void |
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tmClearHisto() /* clear current histogram */ |
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{ |
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if (tmTop == NULL || tmTop->histo == NULL) |
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return; |
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free((MEM_PTR)tmTop->histo); |
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tmTop->histo = NULL; |
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} |
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|
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|
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int |
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tmCvColors(ls, cs, scan, len) /* convert float colors */ |
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TMbright *ls; |
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BYTE *cs; |
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COLOR *scan; |
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int len; |
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{ |
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static char funcName[] = "tmCvColors"; |
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static COLOR csmall = {1e-6, 1e-6, 1e-6}; |
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COLOR cmon; |
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double lum, slum; |
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register double d; |
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register int i; |
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|
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if (tmTop == NULL) |
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returnErr(TM_E_TMINVAL); |
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if (ls == NULL | scan == NULL | len <= 0) |
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returnErr(TM_E_ILLEGAL); |
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for (i = len; i--; ) { |
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if (tmNeedMatrix(tmTop)) /* get monitor RGB */ |
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colortrans(cmon, tmTop->cmat, scan[i]); |
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else { |
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cmon[RED] = tmTop->inpsf*scan[i][RED]; |
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cmon[GRN] = tmTop->inpsf*scan[i][GRN]; |
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cmon[BLU] = tmTop->inpsf*scan[i][BLU]; |
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} |
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/* world luminance */ |
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lum = tmTop->clf[RED]*cmon[RED] + |
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tmTop->clf[GRN]*cmon[GRN] + |
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tmTop->clf[BLU]*cmon[BLU] ; |
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/* check range */ |
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if (clipgamut(cmon, lum, CGAMUT_LOWER, csmall, cwhite)) |
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lum = tmTop->clf[RED]*cmon[RED] + |
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tmTop->clf[GRN]*cmon[GRN] + |
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tmTop->clf[BLU]*cmon[BLU] ; |
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if (lum < MINLUM) { |
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ls[i] = MINBRT-1; /* bogus value */ |
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lum = MINLUM; |
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} else { |
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d = TM_BRTSCALE*log(lum); /* encode it */ |
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ls[i] = d>0. ? (int)(d+.5) : (int)(d-.5); |
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} |
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if (cs == TM_NOCHROM) /* no color? */ |
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continue; |
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if (tmTop->flags & TM_F_MESOPIC && lum < LMESUPPER) { |
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slum = scotlum(cmon); /* mesopic adj. */ |
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if (lum < LMESLOWER) |
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cmon[RED] = cmon[GRN] = cmon[BLU] = slum; |
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else { |
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d = (lum - LMESLOWER)/(LMESUPPER - LMESLOWER); |
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if (tmTop->flags & TM_F_BW) |
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cmon[RED] = cmon[GRN] = |
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cmon[BLU] = d*lum; |
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else |
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scalecolor(cmon, d); |
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d = (1.-d)*slum; |
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cmon[RED] += d; |
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cmon[GRN] += d; |
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cmon[BLU] += d; |
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} |
232 |
} else if (tmTop->flags & TM_F_BW) { |
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cmon[RED] = cmon[GRN] = cmon[BLU] = lum; |
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} |
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d = tmTop->clf[RED]*cmon[RED]/lum; |
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cs[3*i ] = d>=.999 ? 255 : |
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(int)(256.*pow(d, 1./tmTop->mongam)); |
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d = tmTop->clf[GRN]*cmon[GRN]/lum; |
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cs[3*i+1] = d>=.999 ? 255 : |
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(int)(256.*pow(d, 1./tmTop->mongam)); |
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d = tmTop->clf[BLU]*cmon[BLU]/lum; |
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cs[3*i+2] = d>=.999 ? 255 : |
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(int)(256.*pow(d, 1./tmTop->mongam)); |
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} |
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returnOK; |
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} |
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|
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|
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int |
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tmAddHisto(ls, len, wt) /* add values to histogram */ |
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register TMbright *ls; |
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int len; |
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int wt; |
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{ |
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static char funcName[] = "tmAddHisto"; |
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int sum, oldorig, oldlen, horig, hlen; |
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register int i, j; |
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|
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if (len <= 0) |
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returnErr(TM_E_ILLEGAL); |
261 |
if (tmTop == NULL) |
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returnErr(TM_E_TMINVAL); |
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/* first, grow limits */ |
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if (tmTop->histo == NULL) { |
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for (i = len; i-- && ls[i] < MINBRT; ) |
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; |
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if (i < 0) |
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returnOK; |
269 |
tmTop->brmin = tmTop->brmax = ls[i]; |
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oldlen = 0; |
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} else { |
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oldorig = (tmTop->brmin-MINBRT)/HISTEP; |
273 |
oldlen = (tmTop->brmax-MINBRT)/HISTEP + 1 - oldorig; |
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} |
275 |
for (i = len; i--; ) { |
276 |
if ((j = ls[i]) < MINBRT) |
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continue; |
278 |
if (j < tmTop->brmin) |
279 |
tmTop->brmin = j; |
280 |
else if (j > tmTop->brmax) |
281 |
tmTop->brmax = j; |
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} |
283 |
horig = (tmTop->brmin-MINBRT)/HISTEP; |
284 |
hlen = (tmTop->brmax-MINBRT)/HISTEP + 1 - horig; |
285 |
if (hlen > oldlen) { /* (re)allocate histogram */ |
286 |
register int *newhist = (int *)calloc(hlen, sizeof(int)); |
287 |
if (newhist == NULL) |
288 |
returnErr(TM_E_NOMEM); |
289 |
if (oldlen) { /* copy and free old */ |
290 |
for (i = oldlen, j = i+oldorig-horig; i; ) |
291 |
newhist[--j] = tmTop->histo[--i]; |
292 |
free((MEM_PTR)tmTop->histo); |
293 |
} |
294 |
tmTop->histo = newhist; |
295 |
if (tmTop->lumap != NULL) { /* invalid tone map */ |
296 |
free((MEM_PTR)tmTop->lumap); |
297 |
tmTop->lumap = NULL; |
298 |
} |
299 |
} |
300 |
if (wt == 0) |
301 |
returnOK; |
302 |
for (i = len; i--; ) /* add in new counts */ |
303 |
if (ls[i] >= MINBRT) |
304 |
tmTop->histo[ (ls[i]-MINBRT)/HISTEP - horig ] += wt; |
305 |
returnOK; |
306 |
} |
307 |
|
308 |
|
309 |
static double |
310 |
htcontrs(La) /* human threshold contrast sensitivity, dL(La) */ |
311 |
double La; |
312 |
{ |
313 |
double l10La, l10dL; |
314 |
/* formula taken from Ferwerda et al. [SG96] */ |
315 |
if (La < 1.148e-4) |
316 |
return(1.38e-3); |
317 |
l10La = log10(La); |
318 |
if (l10La < -1.44) /* rod response regime */ |
319 |
l10dL = pow(.405*l10La + 1.6, 2.18) - 2.86; |
320 |
else if (l10La < -.0184) |
321 |
l10dL = l10La - .395; |
322 |
else if (l10La < 1.9) /* cone response regime */ |
323 |
l10dL = pow(.249*l10La + .65, 2.7) - .72; |
324 |
else |
325 |
l10dL = l10La - 1.255; |
326 |
|
327 |
return(exp10(l10dL)); |
328 |
} |
329 |
|
330 |
|
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int |
332 |
tmComputeMapping(gamval, Lddyn, Ldmax) |
333 |
double gamval; |
334 |
double Lddyn; |
335 |
double Ldmax; |
336 |
{ |
337 |
static char funcName[] = "tmComputeMapping"; |
338 |
int *histo; |
339 |
float *cumf; |
340 |
int brt0, histlen, histot, threshold, ceiling, trimmings; |
341 |
double logLddyn, Ldmin, Ldavg, Lwavg, Tr, Lw, Ld; |
342 |
int4 sum; |
343 |
register double d; |
344 |
register int i, j; |
345 |
|
346 |
if (tmTop == NULL || tmTop->histo == NULL) |
347 |
returnErr(TM_E_TMINVAL); |
348 |
/* check arguments */ |
349 |
if (Lddyn < MINLDDYN) Lddyn = DEFLDDYN; |
350 |
if (Ldmax < MINLDMAX) Ldmax = DEFLDMAX; |
351 |
if (gamval < MINGAM) gamval = tmTop->mongam; |
352 |
/* compute handy values */ |
353 |
Ldmin = Ldmax/Lddyn; |
354 |
logLddyn = log(Lddyn); |
355 |
Ldavg = sqrt(Ldmax*Ldmin); |
356 |
i = (tmTop->brmin-MINBRT)/HISTEP; |
357 |
brt0 = MINBRT + HISTEP/2 + i*HISTEP; |
358 |
histlen = (tmTop->brmax-MINBRT)/HISTEP + 1 - i; |
359 |
/* histogram total and mean */ |
360 |
histot = 0; sum = 0; |
361 |
j = brt0 + histlen*HISTEP; |
362 |
for (i = histlen; i--; ) { |
363 |
histot += tmTop->histo[i]; |
364 |
sum += (j -= HISTEP) * tmTop->histo[i]; |
365 |
} |
366 |
threshold = histot*.025 + .5; |
367 |
if (threshold < 4) |
368 |
returnErr(TM_E_TMFAIL); |
369 |
Lwavg = tmLuminance( (double)sum / histot ); |
370 |
if (!(tmTop->flags & TM_F_LINEAR)) { /* clamp histogram */ |
371 |
histo = (int *)malloc(histlen*sizeof(int)); |
372 |
cumf = (float *)malloc((histlen+1)*sizeof(float)); |
373 |
if (histo == NULL | cumf == NULL) |
374 |
returnErr(TM_E_NOMEM); |
375 |
for (i = histlen; i--; ) /* make malleable copy */ |
376 |
histo[i] = tmTop->histo[i]; |
377 |
do { /* iterate to solution */ |
378 |
sum = 0; /* cumulative probability */ |
379 |
for (i = 0; i < histlen; i++) { |
380 |
cumf[i] = (double)sum/histot; |
381 |
sum += histo[i]; |
382 |
} |
383 |
cumf[i] = 1.; |
384 |
Tr = histot * (double)(tmTop->brmax - tmTop->brmin) / |
385 |
((double)histlen*TM_BRTSCALE) / logLddyn; |
386 |
ceiling = Tr + 1.; |
387 |
trimmings = 0; /* clip to envelope */ |
388 |
for (i = histlen; i--; ) { |
389 |
if (tmTop->flags & TM_F_HCONTR) { |
390 |
Lw = tmLuminance(brt0 + i*HISTEP); |
391 |
Ld = Ldmin * exp( logLddyn * |
392 |
.5*(cumf[i]+cumf[i+1]) ); |
393 |
ceiling = Tr * (htcontrs(Ld) * Lw) / |
394 |
(htcontrs(Lw) * Ld) + 1.; |
395 |
} |
396 |
if (histo[i] > ceiling) { |
397 |
trimmings += histo[i] - ceiling; |
398 |
histo[i] = ceiling; |
399 |
} |
400 |
} |
401 |
} while ((histot -= trimmings) > threshold && |
402 |
trimmings > threshold); |
403 |
} |
404 |
/* allocate luminance map */ |
405 |
if (tmTop->lumap == NULL) { |
406 |
tmTop->lumap = (unsigned short *)malloc( |
407 |
(tmTop->brmax-tmTop->brmin+1)*sizeof(unsigned short) ); |
408 |
if (tmTop->lumap == NULL) |
409 |
returnErr(TM_E_NOMEM); |
410 |
} |
411 |
if (tmTop->flags & TM_F_LINEAR || histot <= threshold) { |
412 |
/* linear tone mapping */ |
413 |
if (tmTop->flags & TM_F_HCONTR) |
414 |
d = htcontrs(Ldavg) / htcontrs(Lwavg); |
415 |
else |
416 |
d = Ldavg / Lwavg; |
417 |
d = log(d/Ldmax); |
418 |
for (i = tmTop->brmax-tmTop->brmin+1; i--; ) |
419 |
tmTop->lumap[i] = 256. * exp( |
420 |
( d + (tmTop->brmin+i)/(double)TM_BRTSCALE ) |
421 |
/ gamval ); |
422 |
} else { |
423 |
/* histogram adjustment */ |
424 |
for (i = tmTop->brmax-tmTop->brmin+1; i--; ) { |
425 |
j = d = (double)i/(tmTop->brmax-tmTop->brmin)*histlen; |
426 |
d -= (double)j; |
427 |
Ld = Ldmin*exp(logLddyn*((1.-d)*cumf[j]+d*cumf[j+1])); |
428 |
d = (Ld - Ldmin)/(Ldmax - Ldmin); |
429 |
tmTop->lumap[i] = 256.*pow(d, 1./gamval); |
430 |
} |
431 |
} |
432 |
if (!(tmTop->flags & TM_F_LINEAR)) { |
433 |
free((MEM_PTR)histo); |
434 |
free((MEM_PTR)cumf); |
435 |
} |
436 |
returnOK; |
437 |
} |
438 |
|
439 |
|
440 |
int |
441 |
tmMapPixels(ps, ls, cs, len) |
442 |
register BYTE *ps; |
443 |
TMbright *ls; |
444 |
register BYTE *cs; |
445 |
int len; |
446 |
{ |
447 |
static char funcName[] = "tmMapPixels"; |
448 |
register int4 li, pv; |
449 |
|
450 |
if (tmTop == NULL || tmTop->lumap == NULL) |
451 |
returnErr(TM_E_TMINVAL); |
452 |
if (ps == NULL | ls == NULL | len <= 0) |
453 |
returnErr(TM_E_ILLEGAL); |
454 |
while (len--) { |
455 |
if ((li = *ls++) < tmTop->brmin) |
456 |
li = tmTop->brmin; |
457 |
else if (li > tmTop->brmax) |
458 |
li = tmTop->brmax; |
459 |
li = tmTop->lumap[li - tmTop->brmin]; |
460 |
if (cs == TM_NOCHROM) |
461 |
*ps++ = li>255 ? 255 : li; |
462 |
else { |
463 |
pv = *cs++ * li / tmTop->cdiv[RED]; |
464 |
*ps++ = pv>255 ? 255 : pv; |
465 |
pv = *cs++ * li / tmTop->cdiv[GRN]; |
466 |
*ps++ = pv>255 ? 255 : pv; |
467 |
pv = *cs++ * li / tmTop->cdiv[BLU]; |
468 |
*ps++ = pv>255 ? 255 : pv; |
469 |
} |
470 |
} |
471 |
returnOK; |
472 |
} |
473 |
|
474 |
|
475 |
struct tmStruct * |
476 |
tmPop() /* pop top tone mapping off stack */ |
477 |
{ |
478 |
register struct tmStruct *tms; |
479 |
|
480 |
if ((tms = tmTop) != NULL) |
481 |
tmTop = tms->tmprev; |
482 |
return(tms); |
483 |
} |
484 |
|
485 |
|
486 |
int |
487 |
tmPull(tms) /* pull a tone mapping from stack */ |
488 |
register struct tmStruct *tms; |
489 |
{ |
490 |
register struct tmStruct *tms2; |
491 |
/* special cases first */ |
492 |
if (tms == NULL | tmTop == NULL) |
493 |
return(0); |
494 |
if (tms == tmTop) { |
495 |
tmTop = tms->tmprev; |
496 |
tms->tmprev = NULL; |
497 |
return(1); |
498 |
} |
499 |
for (tms2 = tmTop; tms2->tmprev != NULL; tms2 = tms2->tmprev) |
500 |
if (tms == tms2->tmprev) { /* remove it */ |
501 |
tms2->tmprev = tms->tmprev; |
502 |
tms->tmprev = NULL; |
503 |
return(1); |
504 |
} |
505 |
return(0); /* not found on stack */ |
506 |
} |
507 |
|
508 |
|
509 |
struct tmStruct * |
510 |
tmDup() /* duplicate top tone mapping */ |
511 |
{ |
512 |
int len; |
513 |
register int i; |
514 |
register struct tmStruct *tmnew; |
515 |
|
516 |
if (tmTop == NULL) /* anything to duplicate? */ |
517 |
return(NULL); |
518 |
tmnew = (struct tmStruct *)malloc(sizeof(struct tmStruct)); |
519 |
if (tmnew == NULL) |
520 |
return(NULL); |
521 |
*tmnew = *tmTop; /* copy everything */ |
522 |
if (tmnew->histo != NULL) { /* duplicate histogram */ |
523 |
len = (tmnew->brmax-MINBRT)/HISTEP + 1 - |
524 |
(tmnew->brmin-MINBRT)/HISTEP; |
525 |
tmnew->histo = (int *)malloc(len*sizeof(int)); |
526 |
if (tmnew->histo != NULL) |
527 |
for (i = len; i--; ) |
528 |
tmnew->histo[i] = tmTop->histo[i]; |
529 |
} |
530 |
if (tmnew->lumap != NULL) { /* duplicate luminance mapping */ |
531 |
len = tmnew->brmax-tmnew->brmin+1; |
532 |
tmnew->lumap = (unsigned short *)malloc( |
533 |
len*sizeof(unsigned short) ); |
534 |
if (tmnew->lumap != NULL) |
535 |
for (i = len; i--; ) |
536 |
tmnew->lumap[i] = tmTop->lumap[i]; |
537 |
} |
538 |
/* clear package data */ |
539 |
for (i = tmNumPkgs; i--; ) |
540 |
tmnew->pd[i] = NULL; |
541 |
tmnew->tmprev = tmTop; /* make copy current */ |
542 |
return(tmTop = tmnew); |
543 |
} |
544 |
|
545 |
|
546 |
int |
547 |
tmPush(tms) /* push tone mapping on top of stack */ |
548 |
register struct tmStruct *tms; |
549 |
{ |
550 |
static char funcName[] = "tmPush"; |
551 |
/* check validity */ |
552 |
if (tms == NULL) |
553 |
returnErr(TM_E_ILLEGAL); |
554 |
if (tms == tmTop) /* check necessity */ |
555 |
returnOK; |
556 |
/* pull if already in stack */ |
557 |
(void)tmPull(tms); |
558 |
/* push it on top */ |
559 |
tms->tmprev = tmTop; |
560 |
tmTop = tms; |
561 |
returnOK; |
562 |
} |
563 |
|
564 |
|
565 |
void |
566 |
tmDone(tms) /* done with tone mapping -- destroy it */ |
567 |
register struct tmStruct *tms; |
568 |
{ |
569 |
register int i; |
570 |
/* NULL arg. is equiv. to tmTop */ |
571 |
if (tms == NULL && (tms = tmTop) == NULL) |
572 |
return; |
573 |
/* take out of stack if present */ |
574 |
(void)tmPull(tms); |
575 |
/* free tables */ |
576 |
if (tms->histo != NULL) |
577 |
free((MEM_PTR)tms->histo); |
578 |
if (tms->lumap != NULL) |
579 |
free((MEM_PTR)tms->lumap); |
580 |
/* free private data */ |
581 |
for (i = tmNumPkgs; i--; ) |
582 |
if (tms->pd[i] != NULL) |
583 |
(*tmPkg[i]->Free)(tms->pd[i]); |
584 |
free((MEM_PTR)tms); /* free basic structure */ |
585 |
} |