diff options
Diffstat (limited to 'nx-X11/lib/X11/cmsColNm.c')
-rw-r--r-- | nx-X11/lib/X11/cmsColNm.c | 1034 |
1 files changed, 1034 insertions, 0 deletions
diff --git a/nx-X11/lib/X11/cmsColNm.c b/nx-X11/lib/X11/cmsColNm.c new file mode 100644 index 000000000..d8c24cdff --- /dev/null +++ b/nx-X11/lib/X11/cmsColNm.c @@ -0,0 +1,1034 @@ +/* $XdotOrg: xc/lib/X11/cmsColNm.c,v 1.4 2005/07/03 07:00:55 daniels Exp $ */ +/* $Xorg: cmsColNm.c,v 1.3 2000/08/17 19:45:09 cpqbld Exp $ */ + +/* + * Code and supporting documentation (c) Copyright 1990 1991 Tektronix, Inc. + * All Rights Reserved + * + * This file is a component of an X Window System-specific implementation + * of Xcms based on the TekColor Color Management System. Permission is + * hereby granted to use, copy, modify, sell, and otherwise distribute this + * software and its documentation for any purpose and without fee, provided + * that this copyright, permission, and disclaimer notice is reproduced in + * all copies of this software and in supporting documentation. TekColor + * is a trademark of Tektronix, Inc. + * + * Tektronix makes no representation about the suitability of this software + * for any purpose. It is provided "as is" and with all faults. + * + * TEKTRONIX DISCLAIMS ALL WARRANTIES APPLICABLE TO THIS SOFTWARE, + * INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A + * PARTICULAR PURPOSE. IN NO EVENT SHALL TEKTRONIX BE LIABLE FOR ANY + * SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER + * RESULTING FROM LOSS OF USE, DATA, OR PROFITS, WHETHER IN AN ACTION OF + * CONTRACT, NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN + * CONNECTION WITH THE USE OR THE PERFORMANCE OF THIS SOFTWARE. + * + * NAME + * XcmsColNm.c + * + * DESCRIPTION + * Source for _XcmsLookupColorName(). + * + * + */ +/* $XFree86: xc/lib/X11/cmsColNm.c,v 3.11 2003/04/13 19:22:20 dawes Exp $ */ + +#ifdef HAVE_CONFIG_H +#include <config.h> +#endif +#include "Xlibint.h" +#include "Xcmsint.h" +#include <X11/Xos.h> +#include <sys/stat.h> +#include <stdio.h> +#include <ctype.h> +#define XK_LATIN1 +#include <X11/keysymdef.h> +#include "Cv.h" + +/* forwards/locals */ +static Status LoadColornameDB(void); + + +/* + * LOCAL DEFINES + * #define declarations local to this package. + */ +#ifndef XCMSDB +#define XCMSDB "/usr/lib/X11/Xcms.txt" +#endif + +#ifndef isgraph +# define isgraph(c) (isprint((c)) && !isspace((c))) +#endif + +#ifndef XCMSDB_MAXLINELEN +# define XCMSDB_MAXLINELEN 256 +#endif + +#define FORMAT_VERSION "0.1" +#define START_TOKEN "XCMS_COLORDB_START" +#define END_TOKEN "XCMS_COLORDB_END" +#define DELIM_CHAR '\t' + +#define NOT_VISITED 0x0 +#define VISITED 0x1 +#define CYCLE 0xFFFF +#define XcmsDbInitNone -1 +#define XcmsDbInitFailure 0 +#define XcmsDbInitSuccess 1 + +/* + * LOCAL TYPEDEFS + */ +typedef struct _XcmsPair { + const char *first; + const char *second; + int flag; +} XcmsPair; + +/* + * LOCAL VARIABLES + */ +static int XcmsColorDbState = XcmsDbInitNone; +static int nEntries; +static char *strings; +static XcmsPair *pairs; +static const char whitePtStr[] = "WhitePoint"; + + +/************************************************************************ + * * + * PRIVATE ROUTINES * + * * + ************************************************************************/ + +/* + * NAME + * _XcmsColorSpaceOfString + * + * SYNOPSIS + */ +static XcmsColorSpace * +_XcmsColorSpaceOfString( + XcmsCCC ccc, + const char *color_string) +/* + * DESCRIPTION + * Returns a pointer to the color space structure + * (XcmsColorSpace) associated with the specified color string. + * + * RETURNS + * Pointer to matching XcmsColorSpace structure if found; + * otherwise NULL. + * + * CAVEATS + * + */ +{ + XcmsColorSpace **papColorSpaces; + int n; + char *pchar; + + if ((pchar = strchr(color_string, ':')) == NULL) { + return(XcmsFailure); + } + n = (int)(pchar - color_string); + + if (ccc == NULL) { + return(NULL); + } + + /* + * First try Device-Independent color spaces + */ + papColorSpaces = _XcmsDIColorSpaces; + if (papColorSpaces != NULL) { + while (*papColorSpaces != NULL) { + if (strncmp((*papColorSpaces)->prefix, color_string, n) == 0 && + !((*papColorSpaces)->prefix)[n]) { + return(*papColorSpaces); + } + papColorSpaces++; + } + } + + /* + * Next try Device-Dependent color spaces + */ + papColorSpaces = ((XcmsFunctionSet *)ccc->pPerScrnInfo->functionSet)->DDColorSpaces; + if (papColorSpaces != NULL) { + while (*papColorSpaces != NULL) { + if (strncmp((*papColorSpaces)->prefix, color_string, n) == 0 && + !((*papColorSpaces)->prefix)[n]) { + return(*papColorSpaces); + } + papColorSpaces++; + } + } + + return(NULL); +} + + +/* + * NAME + * _XcmsParseColorString + * + * SYNOPSIS + */ +static int +_XcmsParseColorString( + XcmsCCC ccc, + const char *color_string, + XcmsColor *pColor) +/* + * DESCRIPTION + * Assuming color_string contains a numerical string color + * specification, attempts to parse a string into an + * XcmsColor structure. + * + * RETURNS + * 0 if failed; otherwise non-zero. + * + * CAVEATS + * A color string containing a numerical color specification + * must be in ISO Latin-1 encoding! + */ +{ + XcmsColorSpace *pColorSpace; + char string_buf[64]; + char *string_lowered; + int len; + int res; + + if (ccc == NULL) { + return(0); + } + + /* + * While copying color_string to string_lowered, convert to lowercase + */ + if ((len = strlen(color_string)) >= sizeof(string_buf)) { + string_lowered = (char *) Xmalloc(len+1); + } else { + string_lowered = string_buf; + } + + _XcmsCopyISOLatin1Lowered(string_lowered, color_string); + + if (*string_lowered == '#') { + if ((pColorSpace = _XcmsColorSpaceOfString(ccc, "rgb:")) != NULL) { + res = (*pColorSpace->parseString)(string_lowered, pColor); + if (len >= sizeof(string_buf)) Xfree(string_lowered); + return res; + } + } + + if ((pColorSpace = _XcmsColorSpaceOfString(ccc, string_lowered)) != NULL) { + res = (*pColorSpace->parseString)(string_lowered, pColor); + if (len >= sizeof(string_buf)) Xfree(string_lowered); + return res; + } + + if (len >= sizeof(string_buf)) Xfree(string_lowered); + return(0); +} + + +/* + * NAME + * FirstCmp - Compare color names of pair recs + * + * SYNOPSIS + */ +static int +FirstCmp(const void *p1, const void *p2) +/* + * DESCRIPTION + * Compares the color names of XcmsColorTuples. + * This routine is public to allow access from qsort???. + * + * RETURNS + * 0 if equal; + * < 0 if first precedes second, + * > 0 if first succeeds second. + * + */ +{ + return(strcmp(((XcmsPair *)p1)->first, ((XcmsPair *)p2)->first)); +} + + + +/* + * NAME + * stringSectionSize - determine memory needed for strings + * + * SYNOPSIS + */ +static void +SetNoVisit(void) +/* + * DESCRIPTION + * + * RETURNS + * void + * + */ +{ + int i; + XcmsPair *pair = pairs; + + for (i = 0; i < nEntries; i++, pair++) { + if (pair->flag != CYCLE) { + pair->flag = NOT_VISITED; + } + } +} + + + + +/* + * NAME + * field2 - extract two fields + * + * SYNOPSIS + */ +static int +field2( + char *pBuf, + char delim, /* in: field delimiter */ + char **p1, /* in/out: pointer to pointer to field 1 */ + char **p2) /* in/out: pointer to pointer to field 2 */ +/* + * DESCRIPTION + * Extracts two fields from a "record". + * + * RETURNS + * XcmsSuccess if succeeded, otherwise XcmsFailure. + * + */ +{ + *p1 = *p2 = NULL; + + /* Find Field 1 */ + while (!isgraph(*pBuf)) { + if ((*pBuf != '\n') || (*pBuf != '\0')) { + return(XcmsFailure); + } + if (isspace(*pBuf) || (*pBuf == delim)) { + pBuf++; + } + } + *p1 = pBuf; + + /* Find end of Field 2 */ + while (isprint(*pBuf) && (*pBuf != delim)) { + pBuf++; + } + if ((*pBuf == '\n') || (*pBuf == '\0')) { + return(XcmsFailure); + } + if ((*pBuf == ' ') || (*pBuf == delim)) { + *pBuf++ = '\0'; /* stuff end of string character */ + } else { + return(XcmsFailure); + } + + /* Find Field 2 */ + while (!isgraph(*pBuf)) { + if ((*pBuf == '\n') || (*pBuf == '\0')) { + return(XcmsFailure); + } + if (isspace(*pBuf) || (*pBuf == delim)) { + pBuf++; + } + } + *p2 = pBuf; + + /* Find end of Field 2 */ + while (isprint(*pBuf) && (*pBuf != delim)) { + pBuf++; + } + if (*pBuf != '\0') { + *pBuf = '\0'; /* stuff end of string character */ + } + + return(XcmsSuccess); +} + + +/* + * NAME + * _XcmsLookupColorName - Lookup DB entry for a color name + * + * SYNOPSIS + */ +static Status +_XcmsLookupColorName( + XcmsCCC ccc, + const char **name, + XcmsColor *pColor) +/* + * DESCRIPTION + * Searches for an entry in the Device-Independent Color Name + * Database for the specified string. + * + * RETURNS + * XcmsFailure if failed to find a matching entry in + * the database. + * XcmsSuccess if succeeded in converting color name to + * XcmsColor. + * _XCMS_NEWNAME if succeeded in converting color string (which + * is a color name to yet another color name. Note + * that the new name is passed back via 'name'. + */ + { + Status retval = 0; + char name_lowered_64[64]; + char *name_lowered; + register int i, j, left, right; + int len; + const char *tmpName; + XcmsPair *pair = NULL; + + /* + * Check state of Database: + * XcmsDbInitNone + * XcmsDbInitSuccess + * XcmsDbInitFailure + */ + if (XcmsColorDbState == XcmsDbInitFailure) { + return(XcmsFailure); + } + if (XcmsColorDbState == XcmsDbInitNone) { + if (!LoadColornameDB()) { + return(XcmsFailure); + } + } + + SetNoVisit(); + + /* + * While copying name to name_lowered, convert to lowercase + */ + + tmpName = *name; + +Retry: + if ((len = strlen(tmpName)) > 63) { + name_lowered = (char *) Xmalloc(len+1); + } else { + name_lowered = name_lowered_64; + } + + _XcmsCopyISOLatin1Lowered(name_lowered, tmpName); + + /* + * Now, remove spaces. + */ + for (i = 0, j = 0; j < len; j++) { + if (!isspace(name_lowered[j])) { + name_lowered[i++] = name_lowered[j]; + } + } + name_lowered[i] = '\0'; + + left = 0; + right = nEntries - 1; + while (left <= right) { + i = (left + right) >> 1; + pair = &pairs[i]; + j = strcmp(name_lowered, pair->first); + if (j < 0) + right = i - 1; + else if (j > 0) + left = i + 1; + else { + break; + } + } + if (len > 63) Xfree(name_lowered); + + if (left > right) { + if (retval == 2) { + if (*name != tmpName) { + *name = tmpName; + } + return(_XCMS_NEWNAME); + } + return(XcmsFailure); + } + + if (pair->flag == CYCLE) { + return(XcmsFailure); + } + if (pair->flag == VISITED) { + pair->flag = CYCLE; + return(XcmsFailure); + } + + if (_XcmsParseColorString(ccc, pair->second, pColor) == XcmsSuccess) { + /* f2 contains a numerical string specification */ + return(XcmsSuccess); + } else { + /* f2 does not contain a numerical string specification */ + tmpName = pair->second; + pair->flag = VISITED; + retval = 2; + goto Retry; + } +} + + +/* + * NAME + * RemoveSpaces + * + * SYNOPSIS + */ +static int +RemoveSpaces( + char *pString) +/* + * DESCRIPTION + * Removes spaces from string. + * + * RETURNS + * Void + * + */ +{ + int i, count = 0; + char *cptr; + + /* REMOVE SPACES */ + cptr = pString; + for (i = strlen(pString); i; i--, cptr++) { + if (!isspace(*cptr)) { + *pString++ = *cptr; + count++; + } + } + *pString = '\0'; + return(count); +} + + +/* + * NAME + * stringSectionSize - determine memory needed for strings + * + * SYNOPSIS + */ +static int +stringSectionSize( + FILE *stream, + int *pNumEntries, + int *pSectionSize) +/* + * DESCRIPTION + * Determines the amount of memory required to store the + * color name strings and also the number of strings. + * + * RETURNS + * XcmsSuccess if succeeded, otherwise XcmsFailure. + * + */ +{ + char buf[XCMSDB_MAXLINELEN]; + char token[XCMSDB_MAXLINELEN]; + char token2[XCMSDB_MAXLINELEN]; + char *pBuf; + char *f1; + char *f2; + int i; + + *pNumEntries = 0; + *pSectionSize = 0; + + /* + * Advance to START_TOKEN + * Anything before is just considered as comments. + */ + + while((pBuf = fgets(buf, XCMSDB_MAXLINELEN, stream)) != NULL) { + if ((sscanf(buf, "%s %s", token, token2)) + && (strcmp(token, START_TOKEN) == 0)) { + if (strcmp(token2, FORMAT_VERSION) != 0) { + /* text file not in the right format */ + return(XcmsFailure); + } + break; + } /* else it was just a blank line or comment */ + } + + if (pBuf == NULL) { + return(XcmsFailure); + } + + while((pBuf = fgets(buf, XCMSDB_MAXLINELEN, stream)) != NULL) { + if ((sscanf(buf, "%s", token)) && (strcmp(token, END_TOKEN) == 0)) { + break; + } + + if (field2(buf, DELIM_CHAR, &f1, &f2) != XcmsSuccess) { + return(XcmsFailure); + } + + (*pNumEntries)++; + + (*pSectionSize) += (i = strlen(f1)) + 1; + for (; i; i--, f1++) { + /* REMOVE SPACES FROM COUNT */ + if (isspace(*f1)) { + (*pSectionSize)--; + } + } + + (*pSectionSize) += (i = strlen(f2)) + 1; + for (; i; i--, f2++) { + /* REMOVE SPACES FROM COUNT */ + if (isspace(*f2)) { + (*pSectionSize)--; + } + } + + } + + return(XcmsSuccess); +} + + +/* + * NAME + * ReadColornameDB - Read the Color Name Database + * + * SYNOPSIS + */ +static Status +ReadColornameDB( + FILE *stream, + XcmsPair *pRec, + char *pString) +/* + * DESCRIPTION + * Loads the Color Name Database from a text file. + * + * RETURNS + * XcmsSuccess if succeeded, otherwise XcmsFailure. + * + */ +{ + char buf[XCMSDB_MAXLINELEN]; + char token[XCMSDB_MAXLINELEN]; + char token2[XCMSDB_MAXLINELEN]; + char *f1; + char *f2; + char *pBuf; + + /* + * Advance to START_TOKEN + * Anything before is just considered as comments. + */ + + while((pBuf = fgets(buf, XCMSDB_MAXLINELEN, stream)) != NULL) { + if ((sscanf(buf, "%s %s", token, token2)) + && (strcmp(token, START_TOKEN) == 0)) { + if (strcmp(token2, FORMAT_VERSION) != 0) { + /* text file not in the right format */ + return(XcmsFailure); + } + break; + } /* else it was just a blank line or comment */ + } + + if (pBuf == NULL) { + return(XcmsFailure); + } + + /* + * Process lines between START_TOKEN to END_TOKEN + */ + + while ((pBuf = fgets(buf, XCMSDB_MAXLINELEN, stream)) != NULL) { + if ((sscanf(buf, "%s", token)) && (strcmp(token, END_TOKEN) == 0)) { + /* + * Found END_TOKEN so break out of for loop + */ + break; + } + + /* + * Get pairs + */ + if (field2(buf, DELIM_CHAR, &f1, &f2) != XcmsSuccess) { + /* Invalid line */ + continue; + } + + /* + * Add strings + */ + + /* Left String */ + pRec->first = pString; + _XcmsCopyISOLatin1Lowered(pString, f1); + pString += (1 + RemoveSpaces(pString)); + pRec->second = pString; + /* Right String */ + _XcmsCopyISOLatin1Lowered(pString, f2); + pString += RemoveSpaces(pString) + 1; + pRec++; + + } + + return(XcmsSuccess); +} + + +/* + * NAME + * LoadColornameDB - Load the Color Name Database + * + * SYNOPSIS + */ +static Status +LoadColornameDB(void) +/* + * DESCRIPTION + * Loads the Color Name Database from a text file. + * + * RETURNS + * XcmsSuccess if succeeded, otherwise XcmsFailure. + * + */ +{ + int size; + FILE *stream; + char *pathname; + struct stat txt; + int length; + + /* use and name of this env var is not part of the standard */ + /* implementation-dependent feature */ + if ((pathname = getenv("XCMSDB")) == NULL) { + pathname = XCMSDB; + } +#ifdef __UNIXOS2__ + pathname = __XOS2RedirRoot(pathname); +#endif + + length = strlen(pathname); + if ((length == 0) || (length >= (BUFSIZ - 5))){ + XcmsColorDbState = XcmsDbInitFailure; + return(XcmsFailure); + } + + if (stat(pathname, &txt)) { + /* can't stat file */ + XcmsColorDbState = XcmsDbInitFailure; + return(XcmsFailure); + } + + if ((stream = _XFopenFile (pathname, "r")) == NULL) { + return(XcmsFailure); + } + + stringSectionSize(stream, &nEntries, &size); + rewind(stream); + + strings = (char *) Xmalloc(size); + pairs = (XcmsPair *)Xcalloc(nEntries, sizeof(XcmsPair)); + + ReadColornameDB(stream, pairs, strings); + (void) fclose(stream); + + /* + * sort the pair recs + */ + qsort((char *)pairs, nEntries, sizeof(XcmsPair), FirstCmp); + + XcmsColorDbState = XcmsDbInitSuccess; + return(XcmsSuccess); +} + + +/************************************************************************ + * * + * API PRIVATE ROUTINES * + * * + ************************************************************************/ + +/* + * NAME + * _XcmsCopyISOLatin1Lowered + * + * SYNOPSIS + */ +void +_XcmsCopyISOLatin1Lowered( + char *dst, + const char *src) +/* + * DESCRIPTION + * ISO Latin-1 case conversion routine + * Identical to XmuCopyISOLatin1Lowered() but provided here + * to eliminate need to link with libXmu.a. + * + * IMPLEMENTORS NOTE: + * This routine is also used in XcmsFormatOfPrefix. + * + * RETURNS + * Void + * + */ +{ + register unsigned char *dest; + register const unsigned char *source; + + for (dest = (unsigned char *)dst, source = (const unsigned char *)src; + *source; + source++, dest++) + { + if ((*source >= XK_A) && (*source <= XK_Z)) + *dest = *source + (XK_a - XK_A); + else if ((*source >= XK_Agrave) && (*source <= XK_Odiaeresis)) + *dest = *source + (XK_agrave - XK_Agrave); + else if ((*source >= XK_Ooblique) && (*source <= XK_Thorn)) + *dest = *source + (XK_oslash - XK_Ooblique); + else + *dest = *source; + } + *dest = '\0'; +} + + +/* + * NAME + * _XcmsResolveColorString - + * + * SYNOPSIS + */ +Status +_XcmsResolveColorString ( + XcmsCCC ccc, + const char **color_string, + XcmsColor *pColor_exact_return, + XcmsColorFormat result_format) +/* + * DESCRIPTION + * The XcmsLookupColor function finds the color specification + * associated with a color name in the Device-Independent Color + * Name Database. + * RETURNS + * XcmsFailure if failed to convert valid color string. + * XcmsSuccess if succeeded in converting color string to + * XcmsColor. + * _XCMS_NEWNAME if failed to parse the string or find it in + * the database, or if succeeded in looking it up and + * found another name which is not in the database. + * Note that the new name is returned in color_string. + * + * This function returns both the color specification found in the + * database (db specification) and the color specification for the + * color displayable by the specified screen (screen + * specification). The calling routine sets the format for these + * returned specifications in the XcmsColor format component. + * If XcmsUndefinedFormat, the specification is returned in the + * format used to store the color in the database. + */ +{ + XcmsColor dbWhitePt; /* whitePt associated with pColor_exact_return*/ + /* the screen's white point */ + XcmsColor *pClientWhitePt; + int retval; + const char *strptr = whitePtStr; + +/* + * 0. Check for invalid arguments. + */ + if (ccc == NULL || (*color_string)[0] == '\0' || pColor_exact_return == NULL) { + return(XcmsFailure); + } + +/* + * 1. First attempt to parse the string + * If successful, then convert the specification to the target format + * and return. + */ + if (_XcmsParseColorString(ccc, *color_string, pColor_exact_return) + == 1) { + if (result_format != XcmsUndefinedFormat + && pColor_exact_return->format != result_format) { + /* need to be converted to the target format */ + return(XcmsConvertColors(ccc, pColor_exact_return, 1, + result_format, (Bool *)NULL)); + } else { + return(XcmsSuccess); + } + } + +/* + * 2. Attempt to find it in the DI Color Name Database + */ + + /* + * a. Convert String into a XcmsColor structure + * Attempt to extract the specification for color_string from the + * DI Database (pColor_exact_return). If the DI Database does not + * have this entry, then return failure. + */ + retval = _XcmsLookupColorName(ccc, color_string, pColor_exact_return); + + if (retval != XcmsSuccess) { + /* color_string replaced with a color name, or not found */ + return(_XCMS_NEWNAME); + } + + if (pColor_exact_return->format == XcmsUndefinedFormat) { + return(XcmsFailure); + } + + /* + * b. If result_format not defined, then assume target format + * is the exact format. + */ + if (result_format == XcmsUndefinedFormat) { + result_format = pColor_exact_return->format; + } + + if ((ClientWhitePointOfCCC(ccc))->format == XcmsUndefinedFormat) { + pClientWhitePt = ScreenWhitePointOfCCC(ccc); + } else { + pClientWhitePt = ClientWhitePointOfCCC(ccc); + } + + /* + * c. Convert to the target format, making adjustments for white + * point differences as necessary. + */ + if (XCMS_DD_ID(pColor_exact_return->format)) { + /* + * The spec format is Device-Dependent, therefore assume the + * its white point is the Screen White Point. + */ + if (XCMS_DD_ID(result_format)) { + /* + * Target format is Device-Dependent + * Therefore, DD --> DD conversion + */ + return(_XcmsDDConvertColors(ccc, pColor_exact_return, + 1, result_format, (Bool *) NULL)); + } else { + /* + * Target format is Device-Independent + * Therefore, DD --> DI conversion + */ + if (ccc->whitePtAdjProc && !_XcmsEqualWhitePts(ccc, + pClientWhitePt, ScreenWhitePointOfCCC(ccc))) { + return((*ccc->whitePtAdjProc)(ccc, ScreenWhitePointOfCCC(ccc), + pClientWhitePt, result_format, + pColor_exact_return, 1, (Bool *) NULL)); + } else { + if (_XcmsDDConvertColors(ccc, pColor_exact_return, 1, + XcmsCIEXYZFormat, (Bool *) NULL) == XcmsFailure) { + return(XcmsFailure); + } + return(_XcmsDIConvertColors(ccc, pColor_exact_return, + pClientWhitePt, 1, result_format)); + } + } + } else { + /* + * The spec format is Device-Independent, therefore attempt + * to find a database white point. + * + * If the Database does not have a white point, then assume the + * database white point is the same as the Screen White Point. + */ + + if (_XcmsLookupColorName(ccc, &strptr, &dbWhitePt) != 1) { + memcpy((char *)&dbWhitePt, + (char *)&ccc->pPerScrnInfo->screenWhitePt, + sizeof(XcmsColor)); + } + if (XCMS_DD_ID(result_format)) { + /* + * Target format is Device-Dependent + * Therefore, DI --> DD conversion + */ + if (ccc->whitePtAdjProc && !_XcmsEqualWhitePts(ccc, + &dbWhitePt, ScreenWhitePointOfCCC(ccc))) { + return((*ccc->whitePtAdjProc)(ccc, &dbWhitePt, + ScreenWhitePointOfCCC(ccc), result_format, + pColor_exact_return, 1, (Bool *)NULL)); + } else { + if (pColor_exact_return->format != XcmsCIEXYZFormat) { + if (_XcmsDIConvertColors(ccc, pColor_exact_return, + &dbWhitePt, 1, XcmsCIEXYZFormat) == XcmsFailure) { + return(XcmsFailure); + } + } + return (_XcmsDDConvertColors(ccc, pColor_exact_return, 1, + result_format, (Bool *)NULL)); + } + } else { + /* + * Target format is Device-Independent + * Therefore, DI --> DI conversion + */ + if (ccc->whitePtAdjProc && !_XcmsEqualWhitePts(ccc, + &dbWhitePt, pClientWhitePt)) { + /* + * The calling routine wants to resolve this color + * in terms if it's white point (i.e. Client White Point). + * Therefore, apply white adjustment for the displacement + * between dbWhitePt to clientWhitePt. + */ + return((*ccc->whitePtAdjProc)(ccc, &dbWhitePt, + pClientWhitePt, result_format, + pColor_exact_return, 1, (Bool *)NULL)); + } else if (_XcmsEqualWhitePts(ccc, + &dbWhitePt, pClientWhitePt)) { + /* + * Can use either dbWhitePt or pClientWhitePt to + * convert to the result_format. + */ + if (pColor_exact_return->format == result_format) { + return(XcmsSuccess); + } else { + return (_XcmsDIConvertColors(ccc, pColor_exact_return, + &dbWhitePt, 1, result_format)); + } + } else { + /* + * Need to convert to a white point independent color + * space (let's choose CIEXYZ) then convert to the + * target color space. Why? Lets assume that + * pColor_exact_return->format and result format + * are white point dependent format (e.g., CIELUV, CIELAB, + * TekHVC ... same or any combination). If so, we'll + * need to convert the color with dbWhitePt to an absolute + * spec (i.e. non-white point dependent) then convert that + * absolute value with clientWhitePt to the result_format. + */ + if (pColor_exact_return->format != XcmsCIEXYZFormat) { + if (_XcmsDIConvertColors(ccc, pColor_exact_return, + &dbWhitePt, 1, XcmsCIEXYZFormat) == XcmsFailure) { + return(XcmsFailure); + } + } + if (result_format == XcmsCIEXYZFormat) { + return(XcmsSuccess); + } else { + return(_XcmsDIConvertColors(ccc, pColor_exact_return, + pClientWhitePt, 1, result_format)); + } + } + } + } +} |