/Users/xss/DemoIccMAX-hoyt-master/IccXML/IccLibXML/IccTagXml.cpp

Bug Summary

File:	IccXML/IccLibXML/IccTagXml.cpp
Warning:	line 509, column 15 Value stored to 'unicodeExists' is never read

Annotated Source Code

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clang -cc1 -cc1 -triple x86_64-apple-macosx14.0.0 -Wundef-prefix=TARGET_OS_ -Werror=undef-prefix -Wdeprecated-objc-isa-usage -Werror=deprecated-objc-isa-usage -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name IccTagXml.cpp -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=osx -analyzer-checker=security.insecureAPI.decodeValueOfObjCType -analyzer-checker=deadcode -analyzer-checker=cplusplus -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -mframe-pointer=all -ffp-contract=on -fno-rounding-math -funwind-tables=2 -target-sdk-version=14.0 -fcompatibility-qualified-id-block-type-checking -fvisibility-inlines-hidden-static-local-var -target-cpu penryn -tune-cpu generic -debugger-tuning=lldb -target-linker-version 1015.7 -fprofile-instrument=clang -fcoverage-mapping -fcoverage-compilation-dir=/Users/xss/DemoIccMAX-hoyt-master/build/IccXML -resource-dir /usr/local/Cellar/llvm/17.0.3/lib/clang/17 -isysroot /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX14.0.sdk -D IccXML2_EXPORTS -I /Users/xss/DemoIccMAX-hoyt-master/build/Cmake/../../IccProfLib -I /Library/Developer/CommandLineTools/SDKs/MacOSX12.sdk/usr/include/libxml2 -I /Developer/Headers/FlatCarbon -F/Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX14.0.sdk/System/Library/Frameworks -internal-isystem /usr/local/Cellar/llvm/17.0.3/bin/../include/c++/v1 -internal-isystem /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX14.0.sdk/usr/local/include -internal-isystem /usr/local/Cellar/llvm/17.0.3/lib/clang/17/include -internal-externc-isystem /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX14.0.sdk/usr/include -std=gnu++17 -fdeprecated-macro -fdebug-compilation-dir=/Users/xss/DemoIccMAX-hoyt-master/build/IccXML -ferror-limit 19 -fsanitize=address -fsanitize-system-ignorelist=/usr/local/Cellar/llvm/17.0.3/lib/clang/17/share/asan_ignorelist.txt -fno-sanitize-memory-param-retval -fsanitize-address-use-after-scope -fsanitize-address-globals-dead-stripping -fno-assume-sane-operator-new -stack-protector 1 -fblocks -fencode-extended-block-signature -fregister-global-dtors-with-atexit -fgnuc-version=4.2.1 -fcxx-exceptions -fexceptions -fmax-type-align=16 -analyzer-output=html -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /var/folders/l9/sd9kj1px4yq2wc5_lkwhlt6w0000gn/T/scan-build-2023-10-28-102616-57860-1 -x c++ /Users/xss/DemoIccMAX-hoyt-master/IccXML/IccLibXML/IccTagXml.cpp

1	/** @file
2	File: IccTagXML.cpp
3
4	Contains: Implementation ICC tag XML format conversions
5
6	Version: V1
7
8	Copyright: (c) see ICC Software License
9	*/
10
11	/*
12	* The ICC Software License, Version 0.2
13	*
14	*
15	* Copyright (c) 2003-2012 The International Color Consortium. All rights
16	* reserved.
17	*
18	* Redistribution and use in source and binary forms, with or without
19	* modification, are permitted provided that the following conditions
20	* are met:
21	*
22	* 1. Redistributions of source code must retain the above copyright
23	* notice, this list of conditions and the following disclaimer.
24	*
25	* 2. Redistributions in binary form must reproduce the above copyright
26	* notice, this list of conditions and the following disclaimer in
27	* the documentation and/or other materials provided with the
28	* distribution.
29	*
30	* 3. In the absence of prior written permission, the names "ICC" and "The
31	* International Color Consortium" must not be used to imply that the
32	* ICC organization endorses or promotes products derived from this
33	* software.
34	*
35	*
36	* THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
37	* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
38	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
39	* DISCLAIMED. IN NO EVENT SHALL THE INTERNATIONAL COLOR CONSORTIUM OR
40	* ITS CONTRIBUTING MEMBERS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
41	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
42	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
43	* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
44	* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
45	* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
46	* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
47	* SUCH DAMAGE.
48	* ====================================================================
49	*
50	* This software consists of voluntary contributions made by many
51	* individuals on behalf of the The International Color Consortium.
52	*
53	*
54	* Membership in the ICC is encouraged when this software is used for
55	* commercial purposes.
56	*
57	*
58	* For more information on The International Color Consortium, please
59	* see <http://www.color.org/>.
60	*
61	*
62	*/
63
64	#include "IccTagXml.h"
65	#include "IccMpeXml.h"
66	#include "IccUtil.h"
67	#include "IccUtilXml.h"
68	#include "IccIoXml.h"
69	#include "IccSparseMatrix.h"
70	#include "IccProfileXml.h"
71	#include "IccStructFactory.h"
72	#include "IccArrayFactory.h"
73	#include <cstring> /* C strings strcpy, memcpy ... */
74	#include <set>
75	#include <map>
76	#include <sstream> // Make sure to include this header
77	#include <iomanip> // Include this header for setw and setfill
78
79	typedef std::map<icUInt32Number, icTagSignature> IccOffsetTagSigMap;
80
81	#ifdef USEREFICCMAXNAMESPACE
82	namespace refIccMAX {
83	#endif
84
85
86	bool CIccTagXmlUnknown::ToXml(std::string &xml, std::string blanks/* = ""*/)
87	{
88	xml += blanks + "<UnknownData>\n";
89	icXmlDumpHexData(xml, blanks+" ", m_pData, m_nSize);
90	xml += blanks + "</UnknownData>\n";
91
92	return true;
93	}
94
95
96	bool CIccTagXmlUnknown::ParseXml(xmlNode *pNode, std::string &parseStr)
97	{
98	const char *tagType = icXmlAttrValue(pNode->parent, "type");
99	if (tagType) {
100	m_nType = (icTagTypeSignature)icGetSigVal(tagType);
101	}
102
103	pNode = icXmlFindNode(pNode, "UnknownData");
104
105	if (pNode && pNode->children && pNode->children->content) {
106	m_nSize = icXmlGetHexDataSize((const icChar*)pNode->children->content);
107
108	if (m_pData) {
109	delete [] m_pData;
110	m_pData = NULL__null;
111	}
112	if (m_nSize) {
113	m_pData = new icUInt8Number[m_nSize];
114
115	if (icXmlGetHexData(m_pData, (const icChar*)pNode->children->content, m_nSize)!=m_nSize)
116	return false;
117	}
118	return true;
119	}
120	return false;
121	}
122
123
124	static bool icXmlDumpTextData(std::string &xml, std::string blanks, const char *szText, bool bConvert=true)
125	{
126	if (strstr(szText, "]]>")) {
127	xml += blanks + "<HexTextData>";
128	icXmlDumpHexData(xml, blanks+" ", (void*)szText, (icUInt32Number)strlen(szText));
129	xml += blanks + "</HexTextData>\n";
130	}
131	else {
132	std::string buf;
133
134	xml += blanks + "<TextData>";
135	xml += "<![CDATA[";
136	if (bConvert)
137	xml += icAnsiToUtf8(buf, szText);
138	else
139	xml += szText;
140	xml += "]]></TextData>\n";
141	}
142
143	return true;
144	}
145
146	bool CIccTagXmlText::ToXml(std::string &xml, std::string blanks/* = ""*/)
147	{
148	return icXmlDumpTextData(xml, blanks, m_szText);
149	}
150
151	bool CIccTagXmlUtf8Text::ToXml(std::string &xml, std::string blanks/* = ""*/)
152	{
153	return icXmlDumpTextData(xml, blanks, (icChar*)m_szText, false);
154	}
155
156	bool CIccTagXmlZipUtf8Text::ToXml(std::string &xml, std::string blanks/* = ""*/)
157	{
158	xml += blanks + "<HexCompressedData>\n";
159	icXmlDumpHexData(xml, blanks+" ", m_pZipBuf, m_nBufSize);
160	xml += blanks + "</HexCompressedData>\n";
161
162	return true;
163	}
164
165	bool CIccTagXmlZipXml::ToXml(std::string &xml, std::string blanks/* = ""*/)
166	{
167	xml += blanks + "<HexCompressedData>\n";
168	icXmlDumpHexData(xml, blanks+" ", m_pZipBuf, m_nBufSize);
169	xml += blanks + "</HexCompressedData>\n";
170
171	return true;
172	}
173
174	bool CIccTagXmlUtf16Text::ToXml(std::string &xml, std::string blanks/* = ""*/)
175	{
176	std::string buf;
177	return icXmlDumpTextData(xml, blanks, GetText(buf), false);
178	}
179
180	static std::string icXmlParseTextString(xmlNode *pNode, std::string &parseStr, bool bConvert = true)
181	{
182	std::string str;
183
184	while (pNode) {
185	if (pNode->type==XML_ELEMENT_NODE) {
186	if (!icXmlStrCmp(pNode->name, "HexTextData")strcmp((const char )(pNode->name), (const char)("HexTextData" )) && pNode->children && pNode->children->content) {
187	CIccUInt8Array buf;
188	if (!buf.SetSize(icXmlGetHexDataSize((const icChar*)pNode->children->content) \|\|
189	icXmlGetHexData(buf.GetBuf(), (const icChar*)pNode->children->content, buf.GetSize())!=buf.GetSize()))
190	return str;
191
192	str += (char*)buf.GetBuf();
193	}
194	else if (!icXmlStrCmp(pNode->name, "TextData")strcmp((const char )(pNode->name), (const char)("TextData" )) ) {
195	std::string buf;
196	const icChar *filename = icXmlAttrValue(pNode, "File");
197
198	// file exists
199	if (filename[0]) {
200	CIccIO *file = IccOpenFileIO(filename, "rb");
201	if (!file){
202	parseStr += "Error! - File '";
203	parseStr += filename;
204	parseStr +="' not found.\n";
205	delete file;
206	return str;
207	}
208
209	icUInt32Number fileLength = file->GetLength();
210	char ansiStr = (char )malloc(fileLength+1);
211
212	if (!ansiStr) {
213	perror("Memory Error");
214	parseStr += "'";
215	parseStr += filename;
216	parseStr += "' may not be a valid text file.\n";
217	delete file;
218	return str;
219	}
220	// read the contents of the file
221	if (file->ReadLine(ansiStr, fileLength)!=fileLength) {
222	parseStr += "Error while reading file '";
223	parseStr += filename;
224	parseStr += "'. Size read is not equal to file length. File may not be a valid text file.\n";
225	free(ansiStr);
226	delete file;
227	return str;
228	}
229	// convert utf8 (xml format) to ansi (icc format)
230	if (bConvert)
231	icUtf8ToAnsi(buf, ansiStr);
232	else
233	buf = ansiStr;
234	free(ansiStr);
235	delete file;
236	}
237	// file does not exist
238	else if (pNode->children && pNode->children->content){
239	if (bConvert)
240	icUtf8ToAnsi(buf, (const icChar*)pNode->children->content);
241	else
242	buf = (const icChar*)pNode->children->content;
243	}
244	str += buf;
245	}
246	}
247	pNode = pNode->next;
248	}
249
250	return str;
251	}
252
253	bool CIccTagXmlText::ParseXml(xmlNode *pNode, std::string &parseStr)
254	{
255	std::string str = icXmlParseTextString(pNode, parseStr);
256
257	if (!str.empty()){
258	SetText(str.c_str());
259	return true;
260	}
261	return false;
262	}
263
264	bool CIccTagXmlUtf8Text::ParseXml(xmlNode *pNode, std::string &parseStr)
265	{
266	std::string str = icXmlParseTextString(pNode, parseStr, false);
267
268	if (!str.empty()){
269	SetText(str.c_str());
270	return true;
271	}
272	return false;
273	}
274
275	bool CIccTagXmlZipUtf8Text::ParseXml(xmlNode *pNode, std::string &parseStr)
276	{
277	while (pNode) {
278	if (pNode->type==XML_ELEMENT_NODE) {
279	if (!icXmlStrCmp(pNode->name, "HexCompressedData")strcmp((const char )(pNode->name), (const char)("HexCompressedData" )) && pNode->children && pNode->children->content) {
280	CIccUInt8Array buf;
281	if (!buf.SetSize(icXmlGetHexDataSize((const icChar*)pNode->children->content) \|\|
282	icXmlGetHexData(buf.GetBuf(), (const icChar*)pNode->children->content, buf.GetSize())!=buf.GetSize()))
283	return false;
284
285	AllocBuffer(buf.GetSize());
286	if (m_nBufSize && m_pZipBuf) {
287	memcpy(m_pZipBuf, buf.GetBuf(), m_nBufSize);
288	}
289	return true;
290	}
291	}
292	pNode = pNode->next;
293	}
294
295	std::string str = icXmlParseTextString(pNode, parseStr, false);
296
297	return SetText(str.c_str());
298	}
299
300	bool CIccTagXmlZipXml::ParseXml(xmlNode *pNode, std::string &parseStr)
301	{
302	while (pNode) {
303	if (pNode->type==XML_ELEMENT_NODE) {
304	if (!icXmlStrCmp(pNode->name, "HexCompressedData")strcmp((const char )(pNode->name), (const char)("HexCompressedData" )) && pNode->children && pNode->children->content) {
305	CIccUInt8Array buf;
306	if (!buf.SetSize(icXmlGetHexDataSize((const icChar*)pNode->children->content) \|\|
307	icXmlGetHexData(buf.GetBuf(), (const icChar*)pNode->children->content, buf.GetSize())!=buf.GetSize()))
308	return false;
309
310	AllocBuffer(buf.GetSize());
311	if (m_nBufSize && m_pZipBuf) {
312	memcpy(m_pZipBuf, buf.GetBuf(), m_nBufSize);
313	}
314	return true;
315	}
316	}
317	pNode = pNode->next;
318	}
319
320	std::string str = icXmlParseTextString(pNode, parseStr, false);
321
322	return SetText(str.c_str());
323	}
324
325	bool CIccTagXmlUtf16Text::ParseXml(xmlNode *pNode, std::string &parseStr)
326	{
327	std::string str = icXmlParseTextString(pNode, parseStr, false);
328
329	if (!str.empty()){
330	SetText(str.c_str());
331	return true;
332	}
333	return false;
334	}
335
336	bool CIccTagXmlTextDescription::ToXml(std::string &xml, std::string blanks/* = ""*/)
337	{
338	std::string fix;
339	std::string buf;
340	char data[256]; // Adjust the size as needed
341	std::string datastr;
342
343	icXmlDumpTextData(xml, blanks, m_szText);
344
345	// Added support for <![CData[Insert Text here]]> for Unicode
346	if (m_uzUnicodeText[0]) {
347	if (m_nUnicodeLanguageCode == 0)
348	buf = "<Unicode>";
349	else {
350	icGetSigStr(data, m_nUnicodeLanguageCode);
351	icFixXml(fix, data);
352	buf = "<Unicode LanguageCode=\"" + fix + "\">";
353	}
354	xml += blanks + buf;
355
356	icUtf16ToUtf8(datastr, m_uzUnicodeText);
357	icFixXml(fix, datastr.c_str());
358	buf = "<![CDATA[" + fix + "]]></Unicode>\n";
359	xml += buf;
360	}
361
362	if (m_nScriptSize) {
363	buf = "<MacScript ScriptCode=\"" + std::to_string(m_nScriptCode) + "\">";
364	xml += blanks + buf;
365
366	std::stringstream ss;
367	for (int i = 0; i < m_nScriptSize; i++) {
368	ss << std::hex << std::uppercase << std::setw(2) << std::setfill('0')
369	<< static_cast<int>(static_cast<unsigned char>(m_szScriptText[i]));
370	}
371	buf = ss.str();
372
373	xml += buf;
374	xml += "</MacScript>\n";
375	}
376
377	return true;
378	}
379
380
381	bool CIccTagXmlTextDescription::ParseXml(xmlNode *pNode, std::string &parseStr)
382	{
383	pNode = icXmlFindNode(pNode, "TextData");
384
385	// support for reading desc, dmmd, and dmnd tags from file.
386	// if (!pNode \|\| !pNode->children)
387	if (!pNode)
388	return false;
389
390	// search for "file" attribute in <TextDescription/> tag
391	const icChar *filename = icXmlAttrValue(pNode, "File");
392
393	// file exists
394	if (filename[0]) {
395	CIccIO *file = IccOpenFileIO(filename, "rb");
396
397	if (!file){
398	parseStr += "Error! - File '";
399	parseStr += filename;
400	parseStr +="' not found.\n";
401	delete file;
402	return false;
403	}
404
405	icUInt32Number fileLength = file->GetLength();
406	char buf = (char )malloc(fileLength);
407
408	if (!buf) {
409	perror("Memory Error");
410	parseStr += "'";
411	parseStr += filename;
412	parseStr += "' may not be a valid text file.\n";
413	delete file;
414	return false;
415	}
416
417	if (file->ReadLine(buf, fileLength)!=fileLength) {
418	parseStr += "Error while reading file '";
419	parseStr += filename;
420	parseStr += "'. Size read is not equal to file length. File may not be a valid text file.\n";
421	free(buf);
422	delete file;
423	return false;
424	}
425
426	// set ANSII string
427	std::string ansiStr;
428	icUtf8ToAnsi(ansiStr, buf);
429
430	icUInt32Number nStrSize = (icUInt32Number)ansiStr.size();
431	GetBuffer(nStrSize);
432	if (nStrSize) {
433	memcpy(m_szText, ansiStr.c_str(), nStrSize);
434	m_nASCIISize = nStrSize + 1;
435	}
436	else
437	m_szText[0] = '\0';
438
439	// set Unicode String
440	CIccUTF16String wstr(buf);
441
442	nStrSize = (icUInt32Number)wstr.Size();
443	m_uzUnicodeText = GetUnicodeBuffer(nStrSize);
444
445	if (nStrSize) {
446	// assign each entry in wstr to m_uzUnicodeText
447	for (int i=0; i < (int) nStrSize; i++) {
448	m_uzUnicodeText[i] = wstr[i];
449	}
450
451	// include the null termintor in the string size.
452	m_nUnicodeSize = nStrSize + 1;
453	}
454	else
455	m_uzUnicodeText[0] = 0;
456
457	// Set ScriptCode
458	m_nScriptCode=0;
459	m_nScriptSize = (icUInt8Number) fileLength + 1;
460	memcpy(m_szScriptText, buf, 67);
461
462	delete file;
463	}
464
465	// file does not exist
466	else {
467	std::string str = icXmlParseTextString(pNode, parseStr);
468	icUInt32Number nSize = (icUInt32Number)str.size();
469	icChar *pBuf = GetBuffer(nSize);
470
471	if (nSize) {
472	memcpy(m_szText, str.c_str(), nSize);
473
474	// include the null termintor in the string size.
475	m_nASCIISize = nSize + 1;
476	}
477	else
478	m_szText[0] = '\0';
479
480	Release();
481
482	// support for automatically generating unicode and scriptcode tags if these do not
483	// exist in the XML file.
484	bool unicodeExists = false;
485	bool scriptcodeExists = false;
486	for (;pNode; pNode = pNode->next) {
487	if (pNode->type==XML_ELEMENT_NODE) {
488	if (!icXmlStrCmp(pNode->name, "Unicode")strcmp((const char )(pNode->name), (const char)("Unicode" ))) {
489	const icChar *pRegion = icXmlAttrValue(pNode, "LanguageCode");
490
491	// *pRegion may not have value.
492	if (pRegion && /* pRegion && /pNode->children && pNode->children->content) {
493	CIccUTF16String wstr((const char*)pNode->children->content);
494
495	nSize = (icUInt32Number)wstr.Size();
496
497	// set size of m_uzUnicodeText
498	m_uzUnicodeText = GetUnicodeBuffer(nSize);
499	if (nSize) {
500
501	// assign each entry in wstr to m_uzUnicodeText
502	for (int i=0; i < (int) nSize; i++) {
503	m_uzUnicodeText[i] = wstr[i];
504	}
505
506	// include the null termintor in the string size.
507	m_nUnicodeSize = nSize + 1;
508
509	unicodeExists = true;
	Value stored to 'unicodeExists' is never read
510	}
511	else
512	m_uzUnicodeText[0] = 0;
513	}
514	}
515	else if (!icXmlStrCmp(pNode->name, "MacScript")strcmp((const char )(pNode->name), (const char)("MacScript" ))) {
516	const icChar *pScript = icXmlAttrValue(pNode, "ScriptCode");
517
518	if (pScript && *pScript) {
519	icUInt32Number nCode=0;
520
521	sscanf(pScript, "%x", &nCode);
522	m_nScriptCode = (icUInt16Number)nCode;
523	if (pNode->children && pNode->children->content) {
524	// set m_nScriptSize as receiver the return value of icXmlGetHexData
525	// no need to add 1 since the return value is already exact.
526	m_nScriptSize = (icUInt8Number) icXmlGetHexData(m_szScriptText, (const char*)pNode->children->content, sizeof(m_szScriptText));
527	scriptcodeExists = true;
528	}
529	else
530	m_szScriptText[0] = 0;
531	}
532	}
533	}
534	}
535	#if 0
536	// automatically generate unicode tag in the profile if it does not exist
537	if (!unicodeExists){
538
539	m_uzUnicodeText = GetUnicodeBuffer(nSize);
540
541	if (nSize) {
542	// assign each entry in wstr to m_uzUnicodeText
543	for (int i=0; i < (int) nSize; i++) {
544	m_uzUnicodeText[i] = str[i];
545	}
546
547	// include the null termintor in the string size.
548	m_nUnicodeSize = nSize + 1;
549	}
550	else
551	m_uzUnicodeText[0] = 0;
552	}
553
554	// automatically generate scriptcode tag in the profile if it does not exist
555	if (!scriptcodeExists){
556	m_nScriptCode=0;
557	m_nScriptSize = (icUInt8Number)m_nASCIISize;
558	memcpy(m_szScriptText, m_szText, 67);
559
560	}
561	#endif
562	}
563
564	return true;
565	}
566
567
568	bool CIccTagXmlSignature::ToXml(std::string &xml, std::string blanks/* = ""*/)
569	{
570	char fix[40];
571	char line[256];
572	char buf[40];
573
574	sprintf(line, "<Signature>%s</Signature>\n", icFixXml(fix, icGetSigStr(buf, m_nSig)));
575
576	xml += blanks + line;
577	return true;
578	}
579
580
581	bool CIccTagXmlSignature::ParseXml(xmlNode *pNode, std::string &parseStr)
582	{
583	if ((pNode = icXmlFindNode(pNode, "Signature"))) {
584	this->SetValue(icGetSigVal(pNode->children ? (const icChar*)pNode->children->content : ""));
585
586	return true;
587	}
588	return false;
589	}
590
591
592	bool CIccTagXmlSpectralDataInfo::ToXml(std::string &xml, std::string blanks/* = ""*/)
593	{
594	char fix[40];
595	char line[256];
596	char buf[40];
597
598	sprintf(line, "<SpectralSpace>%s</SpectralSpace>\n", icFixXml(fix, icGetColorSigStr(buf, m_nSig)));
599	xml += blanks + line;
600
601	xml += blanks + "<SpectralRange>\n";
602	sprintf(line, " <Wavelengths start=\"%f\" end=\"%f\" steps=\"%d\"/>\n", icF16toF(m_spectralRange.start), icF16toF(m_spectralRange.end), m_spectralRange.steps);
603	xml += blanks + line;
604	xml += blanks + "</SpectralRange>\n";
605
606	if (m_biSpectralRange.steps) {
607	xml +=blanks + "<BiSpectralRange>\n";
608	sprintf(line, " <Wavelengths start=\"%f\" end=\"%f\" steps=\"%d\"/>\n", icF16toF(m_biSpectralRange.start), icF16toF(m_biSpectralRange.end), m_biSpectralRange.steps);
609	xml += blanks + line;
610	xml += blanks + "</BiSpectralRange>\n";
611	}
612
613	return true;
614	}
615
616
617	bool CIccTagXmlSpectralDataInfo::ParseXml(xmlNode *pNode, std::string &parseStr)
618	{
619	xmlNode *pChild;
620
621	if (!(pChild = icXmlFindNode(pNode, "SpectralSpace"))) {
622	parseStr += "No SpectralSpace section found\n";
623	return false;
624	}
625	m_nSig = icGetSigVal(pChild->children ? (const icChar*)pChild->children->content : "");
626
627	if (!(pChild = icXmlFindNode(pNode, "SpectralRange"))) {
628	parseStr += "No SpectralRange section found\n";
629	return false;
630	}
631
632	if (!(pChild = icXmlFindNode(pChild->children, "Wavelengths"))) {
633	parseStr += "SpectralRange missing Wavelengths\n";
634	return false;
635	}
636
637	m_spectralRange.start = icFtoF16((icUInt16Number)atof(icXmlAttrValue(pChild, "start")));
638	m_spectralRange.end = icFtoF16((icUInt16Number)atof(icXmlAttrValue(pChild, "end")));
639	m_spectralRange.steps = (icUInt16Number)atoi(icXmlAttrValue(pChild, "steps"));
640
641	pChild = icXmlFindNode(pNode, "BiSpectralRange");
642
643	if (pChild) {
644	if ((pChild = icXmlFindNode(pChild->children, "Wavelengths"))) {
645	m_biSpectralRange.start = icFtoF16((icUInt16Number)atof(icXmlAttrValue(pChild, "start")));
646	m_biSpectralRange.end = icFtoF16((icUInt16Number)atof(icXmlAttrValue(pChild, "end")));
647	m_biSpectralRange.steps = (icUInt16Number)atoi(icXmlAttrValue(pChild, "steps"));
648	}
649	}
650
651	return true;
652	}
653
654
655	bool CIccTagXmlNamedColor2::ToXml(std::string &xml, std::string blanks/* = ""*/)
656	{
657	char fix[256];
658	char line[256];
659	char buf[256];
660	int i, j;
661	std::string str;
662
663	sprintf(line, "<NamedColors VendorFlag=\"%08x\" CountOfDeviceCoords=\"%d\" DeviceEncoding=\"int16\"", m_nVendorFlags, m_nDeviceCoords);
664	xml += blanks + line;
665
666	sprintf(line, " Prefix=\"%s\"", icFixXml(fix, icAnsiToUtf8(str, m_szPrefix)));
667	xml += line;
668
669	sprintf(line, " Suffix=\"%s\">\n", icFixXml(fix, icAnsiToUtf8(str, m_szSufix)));
670	xml += line;
671
672	for (i=0; i<(int)m_nSize; i++) {
673	SIccNamedColorEntry *pEntry= GetEntry(i);
674
675	const char *szNodeName = "";
676
677	if (pEntry) {
678	if (m_csPCS==icSigLabData) {
679	icFloatNumber lab[3];
680
681	Lab2ToLab4(lab, pEntry->pcsCoords);
682	icLabFromPcs(lab);
683	szNodeName = "LabNamedColor";
684	sprintf(line, " <%s Name=\"%s\" L=\"%.8f\" a=\"%.8f\" b=\"%.8f\"", szNodeName,
685	icFixXml(fix, icAnsiToUtf8(str, pEntry->rootName)), lab[0], lab[1], lab[2]);
686	xml += blanks + line;
687	}
688	else {
689	icFloatNumber xyz[3];
690
691	memcpy(xyz, pEntry->pcsCoords, 3*sizeof(icFloatNumber));
692	icXyzFromPcs(xyz);
693	szNodeName = "XYZNamedColor";
694	sprintf(line, " <%s Name=\"%s\" X=\"%.8f\" Y=\"%.8f\" Z=\"%.8f\"", szNodeName,
695	icFixXml(fix, icAnsiToUtf8(str, pEntry->rootName)), xyz[0], xyz[1], xyz[2]);
696	xml += blanks + line;
697	}
698
699	if (!m_nDeviceCoords) {
700	xml += "/>\n";
701	}
702	else {
703	xml += ">";
704	for (j=0; j<(int)m_nDeviceCoords; j++) {
705	if (j)
706	xml+=" ";
707	sprintf(buf, "%d", (int)(pEntry->deviceCoords[j] * 65535.0 + 0.5));
708	xml += buf;
709	}
710	xml += "\n";
711
712	xml += blanks + " </" + szNodeName + ">\n";
713	}
714	}
715	}
716	xml += blanks + " </NamedColors>\n";
717	return true;
718	}
719
720
721	bool CIccTagXmlNamedColor2::ParseXml(xmlNode *pNode, std::string &parseStr)
722	{
723	pNode = icXmlFindNode(pNode, "NamedColors");
724
725	if (pNode) {
726	const icChar *szVendorFlags = icXmlAttrValue(pNode, "VendorFlag");
727	const icChar *szDeviceCoords = icXmlAttrValue(pNode, "CountOfDeviceCoords");
728	const icChar *szDeviceEncoding = icXmlAttrValue(pNode, "DeviceEncoding");
729	const icChar *szPrefix = icXmlAttrValue(pNode, "Prefix");
730	const icChar *szSufix = icXmlAttrValue(pNode, "Suffix");
731
732	if (szVendorFlags && *szVendorFlags &&
733	szDeviceCoords && *szDeviceCoords &&
734	szDeviceEncoding && *szDeviceEncoding &&
735	szPrefix && szSufix) {
736	std::string str;
737
738	sscanf(szVendorFlags, "%x", &m_nVendorFlags);
739
740	strncpy(m_szPrefix, icUtf8ToAnsi(str, szPrefix), sizeof(m_szPrefix));
741	m_szPrefix[sizeof(m_szPrefix)-1] = '\0';
742
743	strncpy(m_szSufix, icUtf8ToAnsi(str, szSufix), sizeof(m_szSufix));
744	m_szSufix[sizeof(m_szSufix)-1] = '\0';
745
746	m_nDeviceCoords = atoi(szDeviceCoords);
747	icUInt32Number n = icXmlNodeCount3(pNode->children, "NamedColor", "LabNamedColor", "XYZNamedColor");
748	SetSize(n, m_nDeviceCoords);
749
750	icUInt32Number i;
751
752	SIccNamedColorEntry *pNamedColor = m_NamedColor;
753
754	for (i=0, pNode=pNode->children; pNode; pNode=pNode->next) {
755	const icChar *szName = NULL__null;
756	if (pNode->type == XML_ELEMENT_NODE &&
757	!icXmlStrCmp(pNode->name, "NamedColor")strcmp((const char )(pNode->name), (const char)("NamedColor" )) &&
758	i<n) {
759	szName = icXmlAttrValue(pNode, "Name");
760	xmlAttr *L = icXmlFindAttr(pNode, "L");
761	xmlAttr *a = icXmlFindAttr(pNode, "a");
762	xmlAttr *b = icXmlFindAttr(pNode, "b");
763
764	if (L && a && b) {
765	pNamedColor->pcsCoords[0] = (icFloatNumber)atof(icXmlAttrValue(L));
766	pNamedColor->pcsCoords[1] = (icFloatNumber)atof(icXmlAttrValue(a));
767	pNamedColor->pcsCoords[2] = (icFloatNumber)atof(icXmlAttrValue(b));
768
769	icLabToPcs(pNamedColor->pcsCoords);
770	Lab4ToLab2(pNamedColor->pcsCoords, pNamedColor->pcsCoords);
771	}
772	else {
773	xmlAttr *x = icXmlFindAttr(pNode, "X");
774	xmlAttr *y = icXmlFindAttr(pNode, "Y");
775	xmlAttr *z = icXmlFindAttr(pNode, "Z");
776
777	if (x && y && z) {
778	pNamedColor->pcsCoords[0] = (icFloatNumber)atof(icXmlAttrValue(x));
779	pNamedColor->pcsCoords[1] = (icFloatNumber)atof(icXmlAttrValue(y));
780	pNamedColor->pcsCoords[2] = (icFloatNumber)atof(icXmlAttrValue(z));
781
782	icXyzToPcs(pNamedColor->pcsCoords);
783	}
784	else
785	return false;
786	}
787	}
788	else if (pNode->type == XML_ELEMENT_NODE &&
789	!icXmlStrCmp(pNode->name, "LabNamedColor")strcmp((const char )(pNode->name), (const char)("LabNamedColor" )) &&
790	i < n) {
791	szName = icXmlAttrValue(pNode, "Name");
792	xmlAttr *L = icXmlFindAttr(pNode, "L");
793	xmlAttr *a = icXmlFindAttr(pNode, "a");
794	xmlAttr *b = icXmlFindAttr(pNode, "b");
795
796	if (L && a && b) {
797	pNamedColor->pcsCoords[0] = (icFloatNumber)atof(icXmlAttrValue(L));
798	pNamedColor->pcsCoords[1] = (icFloatNumber)atof(icXmlAttrValue(a));
799	pNamedColor->pcsCoords[2] = (icFloatNumber)atof(icXmlAttrValue(b));
800
801	icLabToPcs(pNamedColor->pcsCoords);
802	Lab4ToLab2(pNamedColor->pcsCoords, pNamedColor->pcsCoords);
803	}
804	else {
805	return false;
806	}
807	}
808	else if (pNode->type == XML_ELEMENT_NODE &&
809	!icXmlStrCmp(pNode->name, "XYZNamedColor")strcmp((const char )(pNode->name), (const char)("XYZNamedColor" )) &&
810	i < n) {
811	szName = icXmlAttrValue(pNode, "Name");
812	xmlAttr *x = icXmlFindAttr(pNode, "X");
813	xmlAttr *y = icXmlFindAttr(pNode, "Y");
814	xmlAttr *z = icXmlFindAttr(pNode, "Z");
815
816	if (x && y && z) {
817	pNamedColor->pcsCoords[0] = (icFloatNumber)atof(icXmlAttrValue(x));
818	pNamedColor->pcsCoords[1] = (icFloatNumber)atof(icXmlAttrValue(y));
819	pNamedColor->pcsCoords[2] = (icFloatNumber)atof(icXmlAttrValue(z));
820
821	icXyzToPcs(pNamedColor->pcsCoords);
822	}
823	else
824	return false;
825	}
826
827	if (szName) {
828	strncpy(pNamedColor->rootName, icUtf8ToAnsi(str, szName), sizeof(pNamedColor->rootName));
829	pNamedColor->rootName[sizeof(pNamedColor->rootName) - 1] = 0;
830
831	if (m_nDeviceCoords && pNode->children) {
832	if (!strcmp(szDeviceEncoding, "int8")) {
833	CIccUInt8Array coords;
834
835	coords.ParseArray(pNode->children);
836	icUInt8Number *pBuf = coords.GetBuf();
837
838	icUInt32Number j;
839	for (j = 0; j < m_nDeviceCoords && j < coords.GetSize(); j++) {
840	pNamedColor->deviceCoords[j] = (icFloatNumber)pBuf[i] / 255.0f;
841	}
842	}
843	else if (!strcmp(szDeviceEncoding, "int16")) {
844	CIccUInt16Array coords;
845
846	coords.ParseArray(pNode->children);
847	icUInt16Number *pBuf = coords.GetBuf();
848
849	icUInt32Number j;
850	for (j = 0; j < m_nDeviceCoords && j < coords.GetSize(); j++) {
851	pNamedColor->deviceCoords[j] = (icFloatNumber)pBuf[i] / 65535.0f;
852	}
853	}
854	else if (!strcmp(szDeviceEncoding, "float")) {
855	CIccFloatArray coords;
856
857	coords.ParseArray(pNode->children);
858	icFloatNumber *pBuf = coords.GetBuf();
859
860	icUInt32Number j;
861	for (j = 0; j < m_nDeviceCoords && j < coords.GetSize(); j++) {
862	pNamedColor->deviceCoords[j] = (icFloatNumber)pBuf[i];
863	}
864	}
865	else
866	return false;
867	}
868
869	i++;
870	pNamedColor = (SIccNamedColorEntry)((icChar)pNamedColor + m_nColorEntrySize);
871	}
872	}
873	return i==n;
874	}
875	}
876	return false;
877	}
878
879
880	bool CIccTagXmlXYZ::ToXml(std::string &xml, std::string blanks/* = ""*/)
881	{
882	char buf[256];
883	int i;
884
885	for (i=0; i<(int)m_nSize; i++) {
886	sprintf(buf, "<XYZNumber X=\"%.8f\" Y=\"%.8f\" Z=\"%.8f\"/>\n", (float)icFtoD(m_XYZ[i].X),
887	(float)icFtoD(m_XYZ[i].Y),
888	(float)icFtoD(m_XYZ[i].Z));
889	xml += blanks + buf;
890	}
891	return true;
892	}
893
894
895	bool CIccTagXmlXYZ::ParseXml(xmlNode *pNode, std::string &parseStr)
896	{
897	icUInt32Number n = icXmlNodeCount(pNode, "XYZNumber");
898
899	if (n) {
900	icUInt32Number i;
901	SetSize(n);
902
903	for (i=0; pNode; pNode=pNode->next) {
904	if (pNode->type == XML_ELEMENT_NODE &&
905	!icXmlStrCmp(pNode->name, "XYZNumber")strcmp((const char )(pNode->name), (const char)("XYZNumber" )) &&
906	i<n) {
907	xmlAttr *x = icXmlFindAttr(pNode, "X");
908	xmlAttr *y = icXmlFindAttr(pNode, "Y");
909	xmlAttr *z = icXmlFindAttr(pNode, "Z");
910
911	if (x && y && z) {
912	m_XYZ[i].X = icDtoF((icFloatNumber)atof(icXmlAttrValue(x)));
913	m_XYZ[i].Y = icDtoF((icFloatNumber)atof(icXmlAttrValue(y)));
914	m_XYZ[i].Z = icDtoF((icFloatNumber)atof(icXmlAttrValue(z)));
915	i++;
916	}
917	else
918	return false;
919	}
920	}
921	return i==n;
922	}
923	return false;
924	}
925
926
927	bool CIccTagXmlChromaticity::ToXml(std::string &xml, std::string blanks/* = ""*/)
928	{
929	char buf[256];
930	int i;
931
932	CIccInfo info;
933	sprintf(buf, "<Colorant>%s</Colorant>\n",info.GetColorantEncoding((icColorantEncoding)m_nColorantType));
934	xml += blanks + buf;
935
936	for (i=0; i<(int)m_nChannels; i++) {
937	sprintf(buf, " <Channel x=\"%.8f\" y=\"%.8f\"/>\n", (float)icUFtoD(m_xy[i].x),
938	(float)icUFtoD(m_xy[i].y));
939	xml += blanks + buf;
940	}
941
942	return true;
943	}
944
945
946	bool CIccTagXmlChromaticity::ParseXml(xmlNode *pNode, std::string &parseStr)
947	{
948
949	pNode = icXmlFindNode(pNode, "Colorant");
950
951	if (pNode)
952	m_nColorantType = icGetColorantValue(pNode->children ? (const icChar*)pNode->children->content : "");
953
954
955	icUInt16Number n = (icUInt16Number)icXmlNodeCount(pNode, "Channel");
956
957	if (n) {
958	icUInt32Number i;
959	SetSize(n);
960
961	for (i=0; pNode; pNode=pNode->next) {
962	if (pNode->type == XML_ELEMENT_NODE &&
963	!icXmlStrCmp(pNode->name, "Channel")strcmp((const char )(pNode->name), (const char)("Channel" )) &&
964	i<n) {
965	xmlAttr *x = icXmlFindAttr(pNode, "x");
966	xmlAttr *y = icXmlFindAttr(pNode, "y");
967
968	if (x && y) {
969	m_xy[i].x = icDtoUF((icFloatNumber)atof(icXmlAttrValue(x)));
970	m_xy[i].y = icDtoUF((icFloatNumber)atof(icXmlAttrValue(y)));
971	i++;
972	}
973	else
974	return false;
975	}
976	}
977	return i==n;
978	}
979	return false;
980	}
981
982
983	bool CIccTagXmlSparseMatrixArray::ToXml(std::string &xml, std::string blanks/* = ""*/)
984	{
985	char buf[256];
986	int i, j, n;
987
988	sprintf(buf, "<SparseMatrixArray outputChannels=\"%d\" matrixType=\"%d\">\n", m_nChannelsPerMatrix, m_nMatrixType);
989	xml += blanks + buf;
990
991	CIccSparseMatrix mtx;
992	icUInt32Number bytesPerMatrix = GetBytesPerMatrix();
993
994	for (i=0; i<(int)m_nSize; i++) {
995	mtx.Reset(m_RawData+i*bytesPerMatrix, bytesPerMatrix, icSparseMatrixFloatNum((icSparseMatrixType)0x0000), true);
996	sprintf(buf, " <SparseMatrix rows=\"%d\" cols=\"%d\">\n", mtx.Rows(), mtx.Cols());
997	xml += blanks + buf;
998
999	for (j=0; j<(int)mtx.Rows(); j++) {
1000	xml += blanks + " <SparseRow>\n";
1001
1002	n=mtx.GetNumRowColumns(j);
1003
1004	xml += blanks + " <ColIndices>\n";
1005	CIccUInt16Array::DumpArray(xml, blanks+" ", mtx.GetColumnsForRow(j), n, icConvert16Bit, 8);
1006	xml += blanks + " </ColIndices>\n";
1007
1008	xml += blanks + " <ColData>\n";
1009	CIccFloatArray::DumpArray(xml, blanks+" ", (icFloatNumber*)(mtx.GetData()->getPtr(mtx.GetRowOffset(j))), n, icConvertFloat, 8);
1010	xml += blanks + " </ColData>\n";
1011
1012	xml += blanks + " </SparseRow>\n";
1013	}
1014	xml += blanks + " </SparseMatrix>\n";
1015	}
1016
1017	xml += blanks + "</SparseMatrixArray>\n";
1018
1019	return true;
1020	}
1021
1022
1023	bool CIccTagXmlSparseMatrixArray::ParseXml(xmlNode *pNode, std::string &parseStr)
1024	{
1025	pNode = icXmlFindNode(pNode, "SparseMatrixArray");
1026
1027	if (pNode) {
1028	xmlAttr *outputChan = icXmlFindAttr(pNode, "outputChannels");
1029	xmlAttr *matrixType = icXmlFindAttr(pNode, "matrixType");
1030
1031	if (outputChan && matrixType) {
1032	icUInt32Number nChannelsPerMatrix = atoi(icXmlAttrValue(outputChan));
1033	icSparseMatrixType nMatrixType = (icSparseMatrixType)atoi(icXmlAttrValue(matrixType));
1034
1035	xmlNode *pChild;
1036
1037	int n=0;
1038	for (pChild = pNode->children; pChild; pChild=pChild->next) {
1039	if (pChild->type == XML_ELEMENT_NODE &&
1040	(!icXmlStrCmp(pChild->name, "SparseMatrix")strcmp((const char )(pChild->name), (const char)("SparseMatrix" )) \|\| !icXmlStrCmp(pChild->name, "FullMatrix")strcmp((const char )(pChild->name), (const char)("FullMatrix" ))))
1041	n++;
1042
1043	}
1044	Reset(n, (icUInt16Number)nChannelsPerMatrix);
1045	m_nMatrixType = (icSparseMatrixType)nMatrixType;
1046
1047	icUInt32Number bytesPerMatrix = GetBytesPerMatrix();
1048	CIccSparseMatrix mtx;
1049	int i=0;
1050	for (pChild = pNode->children; pChild; pChild=pChild->next) {
1051	if (pChild->type == XML_ELEMENT_NODE) {
1052	if (!icXmlStrCmp(pChild->name, "SparseMatrix")strcmp((const char )(pChild->name), (const char)("SparseMatrix" ))) {
1053	mtx.Reset(m_RawData + i*bytesPerMatrix, bytesPerMatrix, icSparseMatrixFloatNum((icSparseMatrixType)0x0000), false);
1054
1055	xmlAttr *rows = icXmlFindAttr(pChild, "rows");
1056	xmlAttr *cols = icXmlFindAttr(pChild, "cols");
1057
1058	if (rows && cols) {
1059	icUInt16Number nRows, nCols;
1060
1061	nRows = atoi(icXmlAttrValue(rows));
1062	nCols = atoi(icXmlAttrValue(cols));
1063
1064	mtx.Init(nRows, nCols, true);
1065
1066	icUInt16Number *rowstart = mtx.GetRowStart();
1067	icUInt32Number nMaxEntries = mtx.GetMaxEntries();
1068	xmlNode *pRow;
1069	int iRow=0;
1070	icUInt32Number pos = 0;
1071	for (pRow=pChild->children; pRow; pRow=pRow->next) {
1072	if (pRow->type == XML_ELEMENT_NODE && !icXmlStrCmp(pRow->name, "SparseRow")strcmp((const char )(pRow->name), (const char)("SparseRow" ))) {
1073	xmlNode *pIdx = icXmlFindNode(pRow->children, "ColIndices");
1074	xmlNode *pData = icXmlFindNode(pRow->children, "ColData");
1075
1076	if (pIdx && pData) {
1077	CIccUInt16Array idx;
1078	CIccFloatArray data;
1079
1080	if (!idx.ParseTextArray(pIdx) \|\| !data.ParseTextArray(pData)) {
1081	parseStr += "Unable to parse SparseRow index or data values\n";
1082	return false;
1083	}
1084	if (idx.GetSize() != data.GetSize()) {
1085	parseStr += "Mismatch between SparseRow index and data lengths\n";
1086	return false;
1087	}
1088	if (pos+idx.GetSize() > nMaxEntries) {
1089	parseStr += "Exceeded maximum number of sparse matrix entries\n";
1090	return false;
1091	}
1092	rowstart[iRow] = (icUInt16Number)pos;
1093	memcpy(mtx.GetColumnsForRow(iRow), idx.GetBuf(), idx.GetSize()*sizeof(icUInt16Number));
1094	memcpy(mtx.GetData()->getPtr(pos), data.GetBuf(), data.GetSize()*sizeof(icFloatNumber));
1095	pos += idx.GetSize();
1096	}
1097	iRow++;
1098	}
1099	}
1100	while(iRow<nRows) {
1101	rowstart[iRow] = (icUInt16Number)pos;
1102	iRow++;
1103	}
1104	rowstart[iRow] = (icUInt16Number)pos;
1105	}
1106	else {
1107	parseStr += "Cannot find SparseMatrix rows and cols\n";
1108	return false;
1109	}
1110
1111	i++;
1112	}
1113	else if (!icXmlStrCmp(pChild->name, "FullMatrix")strcmp((const char )(pChild->name), (const char)("FullMatrix" ))) {
1114	mtx.Reset(m_RawData + i*bytesPerMatrix, bytesPerMatrix, icSparseMatrixFloatNum((icSparseMatrixType)0x0000), false);
1115
1116	xmlAttr *rows = icXmlFindAttr(pChild, "rows");
1117	xmlAttr *cols = icXmlFindAttr(pChild, "cols");
1118
1119	if (rows && cols) {
1120	icUInt16Number nRows, nCols;
1121
1122	nRows = atoi(icXmlAttrValue(rows));
1123	nCols = atoi(icXmlAttrValue(cols));
1124
1125	mtx.Init(nRows, nCols, true);
1126
1127	CIccFloatArray data;
1128	data.ParseTextArray(pChild);
1129	if (data.GetSize()==nRows*nCols) {
1130	if (!mtx.FillFromFullMatrix(data.GetBuf()))
1131	parseStr += "Exceeded maximum number of sparse matrix entries\n";
1132	}
1133	else {
1134	parseStr += "Invalid FullMatrix data dimensions\n";
1135	return false;
1136	}
1137	}
1138	else {
1139	parseStr += "Cannot find FullMatrix rows and cols\n";
1140	return false;
1141	}
1142	i++;
1143	}
1144	}
1145	}
1146	return true;
1147	}
1148	else {
1149	parseStr += "Cannot find outputChannels and matrixType members\n";
1150	}
1151	}
1152	else {
1153	parseStr += "Cannot find SparseMatrixArray node\n";
1154	}
1155
1156	return false;
1157	}
1158
1159
1160	template <class T, icTagTypeSignature Tsig>
1161	const icChar* CIccTagXmlFixedNum<T, Tsig>::GetClassName() const
1162	{
1163	if (Tsig==icSigS15Fixed16ArrayType)
1164	return "CIccTagXmlS15Fixed16";
1165	else
1166	return "CIccTagXmlU16Fixed16";
1167	}
1168
1169	// for multi-platform support
1170	// added "this->" modifier to data members.
1171	template <class T, icTagTypeSignature Tsig>
1172	bool CIccTagXmlFixedNum<T, Tsig>::ToXml(std::string &xml, std::string blanks/* = ""*/)
1173	{
1174	char buf[256];
1175	int i;
1176
1177	if (Tsig==icSigS15Fixed16ArrayType) {
1178	int n = 8;
1179	xml += blanks + "<Array>\n";
1180	for (i=0; i<(int)this->m_nSize; i++) {
1181	if (!(i%n)) {
1182	if (i)
1183	xml += "\n";
1184	xml += blanks + blanks;
1185	}
1186	else {
1187	xml += " ";
1188	}
1189	sprintf(buf, "%.8f", (float)icFtoD(this->m_Num[i]));
1190	xml += buf;
1191	}
1192
1193	if ((i%n)!=1) {
1194	xml += "\n";
1195	}
1196	}
1197	else {
1198	for (i=0; i<(int)this->m_nSize; i++) {
1199
1200	if (!(i%8)) {
1201	if (i)
1202	xml += "\n";
1203	xml += blanks + blanks;
1204	}
1205	else {
1206	xml += " ";
1207	}
1208	sprintf(buf, "%.8f", (float)icUFtoD(this->m_Num[i]));
1209	xml += buf;
1210	}
1211
1212	if ((i%8)!=1) {
1213	xml += "\n";
1214	}
1215	}
1216	xml += blanks + "</Array>\n";
1217	return true;
1218	}
1219
1220	// for multi-platform support
1221	// added "this->" modifier to data members.
1222	template <class T, icTagTypeSignature Tsig>
1223	bool CIccTagXmlFixedNum<T, Tsig>::ParseXml(xmlNode *pNode, std::string &parseStr)
1224	{
1225	pNode = icXmlFindNode(pNode, "Array");
1226	pNode = pNode->children;
1227
1228	CIccFloatArray a;
1229
1230	if (!a.ParseArray(pNode) \|\| !a.GetSize()) {
1231	return false;
1232	}
1233
1234	icUInt32Number i, n = a.GetSize();
1235	icFloatNumber *buf = a.GetBuf();
1236
1237	this->SetSize(n);
1238
1239	for (i=0; i<n; i++) {
1240	if (Tsig==icSigS15Fixed16ArrayType) {
1241	this->m_Num[i] = icDtoF(buf[i]);
1242	}
1243	else {
1244	this->m_Num[i] = icDtoUF(buf[i]);
1245	}
1246	}
1247	return true;
1248	}
1249
1250
1251	//Make sure typedef classes get built
1252	template class CIccTagXmlFixedNum<icS15Fixed16Number, icSigS15Fixed16ArrayType>;
1253	template class CIccTagXmlFixedNum<icU16Fixed16Number, icSigU16Fixed16ArrayType>;
1254
1255
1256	template <class T, class A, icTagTypeSignature Tsig>
1257	const icChar *CIccTagXmlNum<T, A, Tsig>::GetClassName() const
1258	{
1259	if (sizeof(T)==sizeof(icUInt8Number))
1260	return "CIccTagXmlUInt8";
1261	else if (sizeof(T)==sizeof(icUInt16Number))
1262	return "CIccTagXmlUInt16";
1263	else if (sizeof(T)==sizeof(icUInt32Number))
1264	return "CIccTagXmlUInt32";
1265	else if (sizeof(T)==sizeof(icUInt64Number))
1266	return "CIccTagXmlUInt64";
1267	else
1268	return "CIccTagXmlNum<>";
1269	}
1270
1271	// for multi-platform support
1272	// added "this->" modifier to data members.
1273	template <class T, class A, icTagTypeSignature Tsig>
1274	bool CIccTagXmlNum<T, A, Tsig>::ToXml(std::string &xml, std::string blanks/* = ""*/)
1275	{
1276	char buf[512];
1277	int i;
1278
1279	xml += blanks + "<Array>\n";
1280	for (i=0; i<(int)this->m_nSize; i++) {
1281	if (!(i%16)) {
1282	if (i)
1283	xml += "\n";
1284	xml += blanks + blanks;
1285	}
1286	else {
1287	xml += " ";
1288	}
1289	if (sizeof(T)==16)
1290	sprintf(buf, "%llu", (icUInt64Number)this->m_Num[i]);
1291	else
1292	sprintf(buf, "%u", (icUInt32Number)this->m_Num[i]);
1293	xml += buf;
1294	}
1295
1296	if ((i%16)!=1) {
1297	xml += "\n";
1298	}
1299
1300	xml += blanks + "</Array>\n";
1301	return true;
1302	return true;
1303	}
1304
1305	// for multi-platform support
1306	// added "this->" modifier to data members.
1307	template <class T, class A, icTagTypeSignature Tsig>
1308	bool CIccTagXmlNum<T, A, Tsig>::ParseXml(xmlNode *pNode, std::string &parseStr)
1309	{
1310	xmlNode *pDataNode = icXmlFindNode(pNode, "Data");
1311	if (!pDataNode) {
1312	pDataNode = icXmlFindNode(pNode, "Array");
1313	}
1314	if (!pDataNode) {
1315	return false;
1316	}
1317
1318	pNode = pDataNode->children;
1319
1320	A a;
1321
1322	if (!a.ParseArray(pNode) \|\| !a.GetSize()) {
1323	return false;
1324	}
1325
1326	icUInt32Number i, n = a.GetSize();
1327	T *buf = a.GetBuf();
1328
1329	this->SetSize(n);
1330
1331	for (i=0; i<n; i++) {
1332	this->m_Num[i] = buf[i];
1333	}
1334
1335	return true;
1336	}
1337
1338	//Make sure typedef classes get built
1339	template class CIccTagXmlNum<icUInt8Number, CIccUInt8Array, icSigUInt8ArrayType>;
1340	template class CIccTagXmlNum<icUInt16Number, CIccUInt16Array, icSigUInt16ArrayType>;
1341	template class CIccTagXmlNum<icUInt32Number, CIccUInt32Array, icSigUInt32ArrayType>;
1342	template class CIccTagXmlNum<icUInt64Number, CIccUInt64Array, icSigUInt64ArrayType>;
1343
1344
1345	template <class T, class A, icTagTypeSignature Tsig>
1346	const icChar *CIccTagXmlFloatNum<T, A, Tsig>::GetClassName() const
1347	{
1348	if (Tsig==icSigFloat16ArrayType)
1349	return "CIccTagXmlFloat32";
1350	else if (Tsig==icSigFloat32ArrayType)
1351	return "CIccTagXmlFloat32";
1352	else if (Tsig==icSigFloat64ArrayType)
1353	return "CIccTagXmlFloat64";
1354	else
1355	return "CIccTagXmlFloatNum<>";
1356	}
1357
1358	// for multi-platform support
1359	// added "this->" modifier to data members.
1360	template <class T, class A, icTagTypeSignature Tsig>
1361	bool CIccTagXmlFloatNum<T, A, Tsig>::ToXml(std::string &xml, std::string blanks/* = ""*/)
1362	{
1363	char buf[512];
1364
1365	if (this->m_nSize==1) {
1366	#ifdef _WIN32
1367	if (sizeof(T)==sizeof(icFloat32Number))
1368	sprintf(buf, "<Data>%.8f</Data>\n", this->m_Num[0]);
1369	else if (sizeof(T)==sizeof(icFloat64Number))
1370	sprintf(buf, "<Data>%.16lf</Data>\n", this->m_Num[0]);
1371	else
1372	#endif
1373	sprintf(buf, "<Data>%.8f</Data>", this->m_Num[0]);
1374	xml += blanks;
1375	xml += buf;
1376	}
1377	else {
1378	int i;
1379	int n = 8;
1380	xml += blanks + "<Data>\n";
1381	for (i=0; i<(int)this->m_nSize; i++) {
1382	if (!(i%n)) {
1383	if (i)
1384	xml += "\n";
1385	xml += blanks + blanks;
1386	}
1387	else {
1388	xml += " ";
1389	}
1390	#ifdef _WIN32
1391	if (sizeof(T)==sizeof(icFloat32Number))
1392	sprintf(buf, "%.8f", this->m_Num[i]);
1393
1394	else if (sizeof(T)==sizeof(icFloat32Number))
1395	sprintf(buf, "%.16lf", this->m_Num[i]);
1396	else
1397	#endif
1398	sprintf(buf, "%.8f", this->m_Num[i]);
1399	xml += buf;
1400	}
1401
1402	if ((i%n)!=1) {
1403	xml += "\n";
1404	xml += blanks + "</Data>\n";
1405	}
1406	else {
1407	xml += " </Data>\n";
1408	}
1409	}
1410	return true;
1411	}
1412
1413	// for multi-platform support
1414	// added "this->" modifier to data members.
1415	template <class T, class A, icTagTypeSignature Tsig>
1416	bool CIccTagXmlFloatNum<T, A, Tsig>::ParseXml(xmlNode *pNode, std::string &parseStr)
1417	{
1418	pNode = icXmlFindNode(pNode, "Data");
1419
1420	const char *filename = icXmlAttrValue(pNode, "Filename", "");
1421	if (!filename[0]) {
1422	filename = icXmlAttrValue(pNode, "File", "");
1423	}
1424
1425	A a;
1426
1427	if (filename[0]) {
1428	CIccIO *file = IccOpenFileIO(filename, "rb");
1429	if (!file){
1430	parseStr += "Error! - File '";
1431	parseStr += filename;
1432	parseStr +="' not found.\n";
1433	delete file;
1434	return false;
1435	}
1436
1437	icUInt32Number len = file->GetLength();
1438
1439	if (!stricmpstrcasecmp(icXmlAttrValue(pNode, "Format", "text"), "text")) {
1440	char fbuf = (char)malloc(len+1);
1441	fbuf[len]=0;
1442	if (!fbuf) {
1443	parseStr += "Memory error!\n";
1444	delete file;
1445	return false;
1446	}
1447
1448	if (file->Read8(fbuf, len)!=len) {
1449	parseStr += "Read error of (";
1450	parseStr += filename;
1451	parseStr += ")!\n";
1452	free(fbuf);
1453	delete file;
1454	return false;
1455	}
1456	delete file;
1457
1458	if (!a.ParseTextArray(fbuf) \|\| !a.GetSize()) {
1459	parseStr += "Parse error of (";
1460	parseStr += filename;
1461	parseStr += ")!\n";
1462	free(fbuf);
1463	return false;
1464	}
1465	free(fbuf);
1466	}
1467	else if (Tsig==icSigFloat16ArrayType && sizeof(T)==sizeof(icFloat16Number)) {
1468	icUInt32Number n = len/sizeof(icFloat16Number);
1469	this->SetSize(n);
1470	if (file->Read16(&this->m_Num[0], n)!=n) {
1471	delete file;
1472	return false;
1473	}
1474	delete file;
1475	return true;
1476	}
1477	else if (Tsig==icSigFloat16ArrayType && sizeof(T)==sizeof(icFloat32Number)) {
1478	icUInt32Number n = len/sizeof(icFloat32Number);
1479	this->SetSize(n);
1480	if (file->ReadFloat16Float(&this->m_Num[0], n)!=n) {
1481	delete file;
1482	return false;
1483	}
1484	delete file;
1485	return true;
1486	}
1487	else if (Tsig==icSigFloat32ArrayType && sizeof(T)==sizeof(icFloat32Number)) {
1488	icUInt32Number n = len/sizeof(icFloat32Number);
1489	this->SetSize(n);
1490	if (file->ReadFloat32Float(&this->m_Num[0], n)!=n) {
1491	delete file;
1492	return false;
1493	}
1494	delete file;
1495	return true;
1496	}
1497	else if (Tsig==icSigFloat64ArrayType && sizeof(T)==sizeof(icFloat64Number)) {
1498	icUInt32Number n = len/sizeof(icFloat64Number);
1499	this->SetSize(n);
1500	if (file->Read64(&this->m_Num[0], n)!=n) {
1501	delete file;
1502	return false;
1503	}
1504	delete file;
1505	return true;
1506
1507	}
1508	else {
1509	delete file;
1510	parseStr += "Unsupported file parsing type!\n";
1511	return false;
1512	}
1513	}
1514	else {
1515	pNode = pNode->children;
1516
1517	if (!a.ParseArray(pNode) \|\| !a.GetSize()) {
1518	return false;
1519	}
1520	}
1521
1522	icUInt32Number i, n = a.GetSize();
1523	T *buf = a.GetBuf();
1524
1525	this->SetSize(n);
1526
1527	for (i=0; i<n; i++) {
1528	this->m_Num[i] = buf[i];
1529	}
1530	return true;
1531	}
1532
1533
1534	//Make sure typedef classes get built
1535	template class CIccTagXmlFloatNum<icFloat32Number, CIccFloat32Array, icSigFloat16ArrayType>;
1536	template class CIccTagXmlFloatNum<icFloat32Number, CIccFloat32Array, icSigFloat32ArrayType>;
1537	template class CIccTagXmlFloatNum<icFloat64Number, CIccFloat64Array, icSigFloat64ArrayType>;
1538
1539
1540	bool CIccTagXmlMeasurement::ToXml(std::string &xml, std::string blanks/* = ""*/)
1541	{
1542	char buf[256];
1543
1544	CIccInfo info;
1545
1546	sprintf(buf,"<StandardObserver>%s</StandardObserver>\n",icGetStandardObserverName(m_Data.stdObserver));
1547	xml += blanks + buf;
1548
1549	sprintf(buf, "<MeasurementBacking X=\"%.8f\" Y=\"%.8f\" Z=\"%.8f\"/>\n", icFtoD(m_Data.backing.X),
1550	icFtoD(m_Data.backing.Y), icFtoD(m_Data.backing.Z));
1551	xml += blanks + buf;
1552
1553	sprintf(buf,"<Geometry>%s</Geometry>\n",info.GetMeasurementGeometryName(m_Data.geometry));
1554	xml += blanks + buf;
1555
1556	sprintf(buf,"<Flare>%s</Flare>\n",info.GetMeasurementFlareName(m_Data.flare));
1557	xml += blanks + buf;
1558
1559	sprintf(buf,"<StandardIlluminant>%s</StandardIlluminant>\n",info.GetIlluminantName(m_Data.illuminant));
1560	xml += blanks + buf;
1561	return true;
1562	}
1563
1564
1565	bool CIccTagXmlMeasurement::ParseXml(xmlNode *pNode, std::string &parseStr)
1566	{
1567	memset(&m_Data, 0, sizeof(m_Data));
1568
1569	pNode = icXmlFindNode(pNode, "StandardObserver");
1570	if (pNode) {
1571	m_Data.stdObserver = icGetNamedStandardObserverValue(pNode->children ? (icChar*)pNode->children->content: "");
1572	}
1573
1574
1575	pNode = icXmlFindNode(pNode, "MeasurementBacking");
1576	if (pNode){
1577	xmlAttr *attr;
1578
1579	attr = icXmlFindAttr(pNode, "X");
1580	if (attr) {
1581	m_Data.backing.X = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1582	}
1583
1584	attr = icXmlFindAttr(pNode, "Y");
1585	if (attr) {
1586	m_Data.backing.Y = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1587	}
1588
1589	attr = icXmlFindAttr(pNode, "Z");
1590	if (attr) {
1591	m_Data.backing.Z = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1592	}
1593	}
1594
1595	pNode = icXmlFindNode(pNode, "Geometry");
1596	if (pNode){
1597	m_Data.geometry = icGeNamedtMeasurementGeometryValue(pNode->children ? (icChar*)pNode->children->content : "");
1598	}
1599
1600	pNode = icXmlFindNode(pNode, "Flare");
1601	if (pNode){
1602	m_Data.flare = icGetNamedMeasurementFlareValue(pNode->children ? (icChar*)pNode->children->content : "");
1603	}
1604
1605	pNode = icXmlFindNode(pNode, "StandardIlluminant");
1606	if (pNode){
1607	m_Data.illuminant = icGetIlluminantValue(pNode->children ? (icChar*)pNode->children->content : "");
1608	}
1609
1610	return true;
1611	}
1612
1613	bool CIccTagXmlMultiLocalizedUnicode::ToXml(std::string &xml, std::string blanks/* = ""*/)
1614	{
1615	std::string xmlbuf;
1616	char data[256];
1617	std::string bufstr;
1618	CIccMultiLocalizedUnicode::iterator i;
1619
1620	if (!m_Strings)
1621	return false;
1622
1623	for (i=m_Strings->begin(); i!=m_Strings->end(); i++) {
1624	xml += blanks + "<LocalizedText LanguageCountry=\"";
1625	xml += icFixXml(xmlbuf, icGetSigStr(data, (i->m_nLanguageCode<<16) + i->m_nCountryCode));
1626	xml += "\"><![CDATA[";
1627	xml += icFixXml(xmlbuf, icUtf16ToUtf8(bufstr, i->GetBuf(), i->GetLength()));
1628	xml += "]]></LocalizedText>\n";
1629	}
1630	return true;
1631	}
1632
1633
1634	bool CIccTagXmlMultiLocalizedUnicode::ParseXml(xmlNode *pNode, std::string &parseStr)
1635	{
1636	xmlAttr *langCode;
1637	int n = 0;
1638
1639	for (pNode = icXmlFindNode(pNode, "LocalizedText"); pNode; pNode = icXmlFindNode(pNode->next, "LocalizedText")) {
1640	if ((langCode = icXmlFindAttr(pNode, "LanguageCountry"))) {
1641	xmlNode *pText;
1642
1643	for (pText = pNode->children; pText; pText = pText->next) {
1644	if (pText->type == XML_TEXT_NODE \|\| pText->type == XML_CDATA_SECTION_NODE)
1645	break;
1646	}
1647
1648	if (pText) {
1649	icUInt32Number lc = icGetSigVal(icXmlAttrValue(langCode));
1650	CIccUTF16String str((const char*)pText->content);
1651
1652	SetText(str.c_str(), (icLanguageCode)(lc>>16), (icCountryCode)(lc & 0xffff));
1653	n++;
1654	}
1655	else {
1656	SetText("");
1657	n++;
1658	}
1659	}
1660	}
1661	return n>0; //We succeed if we parsed at least one string
1662	}
1663
1664
1665	bool CIccTagXmlTagData::ToXml(std::string &xml, std::string blanks/* = ""*/)
1666	{
1667	icUInt8Number *ptr = m_pData;
1668	char buf[60];
1669	std::string szFlag("ASCII");
1670
1671	if (m_nDataFlag == 1)
1672	szFlag = "binary";
1673	sprintf (buf, "<Data Flag=\"%s\">\n", szFlag.c_str());
1674	xml += blanks + buf;
1675	icXmlDumpHexData(xml, blanks+" ", m_pData, m_nSize);
1676	xml += blanks + "</Data>\n";
1677
1678	return true;
1679	}
1680
1681
1682	bool CIccTagXmlTagData::ParseXml(xmlNode *pNode, std::string &parseStr)
1683	{
1684	pNode = icXmlFindNode(pNode, "Data");
1685	if (pNode && pNode->children && pNode->children->content) {
1686	const icChar *szFlag = icXmlAttrValue(pNode, "Flag");
1687	m_nDataFlag = icAsciiData;
1688	if (!strcmp(szFlag,"binary"))
1689	m_nDataFlag = icBinaryData;
1690
1691	icUInt32Number nSize = icXmlGetHexDataSize((const char *)pNode->children->content);
1692	SetSize(nSize, false);
1693	if (nSize) {
1694	icXmlGetHexData(m_pData, (const char*)pNode->children->content, nSize);
1695	}
1696
1697	return true;
1698	}
1699	return false;
1700	}
1701
1702
1703	bool CIccTagXmlDateTime::ToXml(std::string &xml, std::string blanks/* = ""*/)
1704	{
1705	char buf[256];
1706	sprintf(buf, "<DateTime>%d-%02d-%02dT%02d:%02d:%02d</DateTime>\n",
1707	m_DateTime.year, m_DateTime.month, m_DateTime.day, m_DateTime.hours, m_DateTime.minutes, m_DateTime.seconds);
1708	xml += blanks + buf;
1709	return true;
1710	}
1711
1712
1713	bool CIccTagXmlDateTime::ParseXml(xmlNode *pNode, std::string &parseStr)
1714	{
1715	memset(&m_DateTime, 0, sizeof(m_DateTime));
1716
1717	pNode = icXmlFindNode(pNode, "DateTime");
1718	if (pNode) {
1719	m_DateTime = icGetDateTimeValue(pNode->children ? (const char*)pNode->children->content : "");
1720	return true;
1721	}
1722	return false;
1723	}
1724
1725
1726	bool CIccTagXmlColorantOrder::ToXml(std::string &xml, std::string blanks/* = ""*/)
1727	{
1728	char buf[40];
1729	int i;
1730
1731	xml += blanks + "<ColorantOrder>\n"; //+ blanks + " ";
1732	for (i=0; i<(int)m_nCount; i++) {
1733	sprintf(buf, " <n>%d</n>\n", m_pData[i]);
1734	xml += blanks + buf;
1735	}
1736
1737	xml += blanks + "</ColorantOrder>\n";
1738
1739	return true;
1740	}
1741
1742	bool CIccTagXmlColorantOrder::ParseXml(xmlNode *pNode, std::string &parseStr)
1743	{
1744	pNode = icXmlFindNode(pNode, "ColorantOrder");
1745
1746	if (pNode) {
1747	int n = icXmlNodeCount(pNode->children, "n");
1748
1749	if (n) {
1750	SetSize(n);
1751
1752	if (m_pData) {
1753	if (CIccUInt8Array::ParseArray(m_pData, n, pNode->children))
1754	return true;
1755	}
1756	}
1757	}
1758	return false;
1759	}
1760
1761
1762	bool CIccTagXmlColorantTable::ToXml(std::string &xml, std::string blanks/* = ""*/)
1763	{
1764	char buf[256];
1765	char fix[256];
1766	int i;
1767	std::string str;
1768
1769	xml += blanks + "<ColorantTable>\n";
1770	for (i=0; i<(int)m_nCount; i++) {
1771	icFloatNumber lab[3];
1772	lab[0] = icU16toF(m_pData[i].data[0]);
1773	lab[1] = icU16toF(m_pData[i].data[1]);
1774	lab[2] = icU16toF(m_pData[i].data[2]);
1775	icLabFromPcs(lab);
1776	sprintf(buf, " <Colorant Name=\"%s\" Channel1=\"%.8f\" Channel2=\"%.8f\" Channel3=\"%f\"/>\n",
1777	icFixXml(fix, icAnsiToUtf8(str, m_pData[i].name)), lab[0], lab[1], lab[2]);
1778	xml += blanks + buf;
1779	}
1780	//xml += "\n";
1781	xml += blanks + "</ColorantTable>\n";
1782
1783	return true;
1784	}
1785
1786
1787	bool CIccTagXmlColorantTable::ParseXml(xmlNode *pNode, std::string &parseStr)
1788	{
1789	pNode = icXmlFindNode(pNode, "ColorantTable");
1790
1791	if (pNode && pNode->children) {
1792	pNode = pNode->children;
1793
1794	icUInt16Number n = (icUInt16Number)icXmlNodeCount(pNode, "Colorant");
1795
1796	if (n) {
1797	icUInt32Number i;
1798	SetSize(n);
1799
1800	for (i=0; pNode; pNode=pNode->next) {
1801	if (pNode->type == XML_ELEMENT_NODE &&
1802	!icXmlStrCmp(pNode->name, "Colorant")strcmp((const char )(pNode->name), (const char)("Colorant" )) &&
1803	i<n) {
1804	std::string str;
1805	const icChar *name = icXmlAttrValue(pNode, "Name");
1806	xmlAttr *L = icXmlFindAttr(pNode, "Channel1");
1807	xmlAttr *a = icXmlFindAttr(pNode, "Channel2");
1808	xmlAttr *b = icXmlFindAttr(pNode, "Channel3");
1809
1810	if (name && L && a && b) {
1811	strncpy(m_pData[i].name, icUtf8ToAnsi(str, name), sizeof(m_pData[i].name));
1812	m_pData[i].name[sizeof(m_pData[i].name)-1]=0;
1813
1814	icFloatNumber lab[3];
1815
1816	lab[0] = (icFloatNumber)atof(icXmlAttrValue(L));
1817	lab[1] = (icFloatNumber)atof(icXmlAttrValue(a));
1818	lab[2] = (icFloatNumber)atof(icXmlAttrValue(b));
1819
1820	icLabToPcs(lab);
1821	m_pData[i].data[0] = icFtoU16(lab[0]);
1822	m_pData[i].data[1] = icFtoU16(lab[1]);
1823	m_pData[i].data[2] = icFtoU16(lab[2]);
1824
1825	i++;
1826	}
1827	else
1828	return false;
1829	}
1830	}
1831	return i==n;
1832	}
1833	return false;
1834	}
1835	return false;
1836	}
1837
1838
1839	bool CIccTagXmlViewingConditions::ToXml(std::string &xml, std::string blanks/* = ""*/)
1840	{
1841	char buf[256];
1842
1843	sprintf(buf, "<IlluminantXYZ X=\"%.8f\" Y=\"%.8f\" Z=\"%.8f\"/>\n",
1844	icFtoD(m_XYZIllum.X), icFtoD(m_XYZIllum.Y), icFtoD(m_XYZIllum.Z));
1845	xml += blanks + buf;
1846
1847	sprintf(buf, "<SurroundXYZ X=\"%.8f\" Y=\"%.8f\" Z=\"%.8f\"/>\n",
1848	icFtoD(m_XYZSurround.X), icFtoD(m_XYZSurround.Y), icFtoD(m_XYZSurround.Z));
1849	xml += blanks + buf;
1850
1851	CIccInfo info;
1852	sprintf(buf, "<IllumType>%s</IllumType>\n", info.GetIlluminantName(m_illumType));
1853	xml += blanks + buf;
1854
1855	return true;
1856	}
1857
1858	bool CIccTagXmlViewingConditions::ParseXml(xmlNode *pNode, std::string &parseStr)
1859	{
1860	xmlAttr *attr;
1861	xmlNode *pChild;
1862
1863	memset(&m_XYZIllum, 0, sizeof(m_XYZIllum));
1864	memset(&m_XYZSurround, 0, sizeof(m_XYZSurround));
1865	m_illumType = (icIlluminant)0;
1866
1867	pChild = icXmlFindNode(pNode, "IlluminantXYZ");
1868	if (pChild) {
1869
1870	attr = icXmlFindAttr(pChild, "X");
1871	if (attr) {
1872	m_XYZIllum.X = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1873	}
1874
1875	attr = icXmlFindAttr(pChild, "Y");
1876	if (attr) {
1877	m_XYZIllum.Y = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1878	}
1879
1880	attr = icXmlFindAttr(pChild, "Z");
1881	if (attr) {
1882	m_XYZIllum.Z = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1883	}
1884	}
1885
1886	pChild = icXmlFindNode(pNode, "SurroundXYZ");
1887	if (pChild) {
1888	attr = icXmlFindAttr(pChild, "X");
1889	if (attr) {
1890	m_XYZSurround.X = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1891	}
1892
1893	attr = icXmlFindAttr(pChild, "Y");
1894	if (attr) {
1895	m_XYZSurround.Y = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1896	}
1897
1898	attr = icXmlFindAttr(pChild, "Z");
1899	if (attr) {
1900	m_XYZSurround.Z = icDtoF((icFloatNumber)atof(icXmlAttrValue(attr)));
1901	}
1902	}
1903
1904	pChild = icXmlFindNode(pNode, "IllumType");
1905	if (pChild && pChild->children && pChild->children->content) {
1906	m_illumType = icGetIlluminantValue((icChar*)pChild->children->content);
1907	}
1908
1909	return true;
1910	}
1911
1912	bool CIccTagXmlSpectralViewingConditions::ToXml(std::string &xml, std::string blanks/* = ""*/)
1913	{
1914	char buf[256];
1915	int i, j;
1916	icFloatNumber *ptr;
1917	CIccInfo info;
1918
1919	sprintf(buf, "<StdObserver>%s</StdObserver>\n", info.GetStandardObserverName(m_stdObserver));
1920	xml += blanks + buf;
1921
1922	sprintf(buf, "<IlluminantXYZ X=\"%.8f\" Y=\"%.8f\" Z=\"%.8f\"/>\n",
1923	m_illuminantXYZ.X, m_illuminantXYZ.Y, m_illuminantXYZ.Z);
1924	xml += blanks + buf;
1925
1926	if (m_observer) {
1927	sprintf(buf, "<ObserverFuncs start=\"%.8f\" end=\"%.8f\" steps=\"%d\"",
1928	icF16toF(m_observerRange.start), icF16toF(m_observerRange.end), m_observerRange.steps);
1929	xml += blanks + buf;
1930
1931	if (m_reserved2) {
1932	sprintf(buf, " Reserved=\"%d\"", m_reserved2);
1933	xml += buf;
1934	}
1935	xml += ">\n";
1936
1937	ptr = &m_observer[0];
1938
1939	for (j=0; j<3; j++) {
1940	xml += blanks;
1941	for (i=0; i<m_observerRange.steps; i++) {
1942	if (i && !(i%8)) {
1943	xml += "\n";
1944	xml += blanks;
1945	}
1946	sprintf(buf, " %.8f", *ptr);
1947	ptr++;
1948	xml += buf;
1949	}
1950	xml += "\n";
1951	}
1952	xml += blanks + "</ObserverFuncs>\n";
1953	}
1954
1955	sprintf(buf, "<StdIlluminant>%s</StdIlluminant>\n", info.GetIlluminantName(m_stdIlluminant));
1956	xml += blanks + buf;
1957
1958	sprintf(buf, "<ColorTemperature>%.8f</ColorTemperature>\n", m_colorTemperature);
1959	xml += blanks + buf;
1960
1961	if (m_illuminant) {
1962	sprintf(buf, "<IlluminantSPD start=\"%.8f.\" end=\"%.8f\" steps=\"%d\"",
1963	icF16toF(m_illuminantRange.start), icF16toF(m_illuminantRange.end), m_illuminantRange.steps);
1964	xml += blanks + buf;
1965
1966	if (m_reserved3) {
1967	sprintf(buf, " Reserved=\"%d\"", m_reserved3);
1968	xml += buf;
1969	}
1970	xml += ">\n";
1971
1972	ptr = &m_illuminant[0];
1973
1974	xml += blanks;
1975	for (i=0; i<m_illuminantRange.steps; i++) {
1976	if (i && !(i%8)) {
1977	xml += "\n";
1978	xml += blanks;
1979	}
1980	sprintf(buf, " %.8f", *ptr);
1981	ptr++;
1982	xml += buf;
1983	}
1984	xml += "\n";
1985
1986	xml += blanks + "</IlluminantSPD>\n";
1987	}
1988
1989	sprintf(buf, "<SurroundXYZ X=\"%.8f\" Y=\"%.8f\" Z=\"%.8f\"/>\n",
1990	m_surroundXYZ.X, m_surroundXYZ.Y, m_surroundXYZ.Z);
1991	xml += blanks + buf;
1992
1993
1994	return true;
1995	}
1996
1997	bool CIccTagXmlSpectralViewingConditions::ParseXml(xmlNode *pNode, std::string &parseStr)
1998	{
1999	xmlNode *pChild;
2000	xmlAttr *attr;
2001
2002	memset(&m_illuminantXYZ, 0, sizeof(m_illuminantXYZ));
2003	memset(&m_surroundXYZ, 0, sizeof(m_surroundXYZ));
2004	m_stdIlluminant = icIlluminantUnknown;
2005	m_stdObserver = icStdObsUnknown;
2006	m_colorTemperature = 0;
2007	m_reserved2 = 0;
2008	m_reserved3 = 0;
2009
2010	pChild = icXmlFindNode(pNode, "StdObserver");
2011	if (pChild && pChild->children && pChild->children->content) {
2012	m_stdObserver = icGetNamedStandardObserverValue((icChar*)pChild->children->content);
2013	}
2014
2015	pChild = icXmlFindNode(pNode, "IlluminantXYZ");
2016	if (pChild) {
2017
2018	attr = icXmlFindAttr(pChild, "X");
2019	if (attr) {
2020	m_illuminantXYZ.X = (icFloatNumber)atof(icXmlAttrValue(attr));
2021	}
2022
2023	attr = icXmlFindAttr(pChild, "Y");
2024	if (attr) {
2025	m_illuminantXYZ.Y = (icFloatNumber)atof(icXmlAttrValue(attr));
2026	}
2027
2028	attr = icXmlFindAttr(pChild, "Z");
2029	if (attr) {
2030	m_illuminantXYZ.Z = (icFloatNumber)atof(icXmlAttrValue(attr));
2031	}
2032	}
2033
2034	pChild = icXmlFindNode(pNode, "ObserverFuncs");
2035	if (pChild) {
2036	attr = icXmlFindAttr(pChild, "start");
2037	if (attr) {
2038	m_observerRange.start =icFtoF16((icFloatNumber)atof(icXmlAttrValue(attr)));
2039	}
2040	attr = icXmlFindAttr(pChild, "end");
2041	if (attr) {
2042	m_observerRange.end = icFtoF16((icFloatNumber)atoi(icXmlAttrValue(attr)));
2043	}
2044	attr = icXmlFindAttr(pChild, "steps");
2045	if (attr) {
2046	m_observerRange.steps = (icUInt16Number)atoi(icXmlAttrValue(attr));
2047	}
2048	attr = icXmlFindAttr(pChild, "reserved");
2049	if (attr) {
2050	m_reserved2 = (icUInt16Number)atoi(icXmlAttrValue(attr));
2051	}
2052
2053	if (pChild->children && pChild->children->content) {
2054	CIccFloatArray vals;
2055	vals.ParseTextArray((icChar*)pChild->children->content);
2056	if (vals.GetSize()!=m_observerRange.steps*3)
2057	return false;
2058	m_observer = (icFloatNumber)malloc(m_observerRange.steps3*sizeof(icFloatNumber));
2059	if (!m_observer)
2060	return false;
2061	icFloatNumber *pBuf = vals.GetBuf();
2062	memcpy(m_observer, pBuf, m_observerRange.steps3sizeof(icFloatNumber));
2063	}
2064	}
2065
2066	pChild = icXmlFindNode(pNode, "StdIlluminant");
2067	if (pChild && pChild->children && pChild->children->content) {
2068	m_stdIlluminant = icGetIlluminantValue((icChar*)pChild->children->content);
2069	}
2070
2071	pChild = icXmlFindNode(pNode, "ColorTemperature");
2072	if (pChild && pChild->children && pChild->children->content) {
2073	m_colorTemperature = (icFloatNumber)atof((icChar*)pChild->children->content);
2074	}
2075
2076	pChild = icXmlFindNode(pNode, "IlluminantSPD");
2077	if (pChild) {
2078	attr = icXmlFindAttr(pChild, "start");
2079	if (attr) {
2080	m_illuminantRange.start = icFtoF16((icFloatNumber)atof(icXmlAttrValue(attr)));
2081	}
2082	attr = icXmlFindAttr(pChild, "end");
2083	if (attr) {
2084	m_illuminantRange.end = icFtoF16((icFloatNumber)atof(icXmlAttrValue(attr)));
2085	}
2086	attr = icXmlFindAttr(pChild, "steps");
2087	if (attr) {
2088	m_illuminantRange.steps = (icUInt16Number)atoi(icXmlAttrValue(attr));
2089	}
2090	attr = icXmlFindAttr(pChild, "reserved");
2091	if (attr) {
2092	m_reserved3 = (icUInt16Number)atoi(icXmlAttrValue(attr));
2093	}
2094
2095	if (pChild->children && pChild->children->content && m_illuminantRange.steps) {
2096	CIccFloatArray vals;
2097	vals.ParseTextArray((icChar*)pChild->children->content);
2098	if (vals.GetSize()!=m_illuminantRange.steps)
2099	return false;
2100	m_illuminant = (icFloatNumber)malloc(m_illuminantRange.steps sizeof(icFloatNumber));
2101	if (!m_illuminant)
2102	return false;
2103	icFloatNumber *pBuf = vals.GetBuf();
2104	memcpy(m_illuminant, pBuf, m_illuminantRange.steps * sizeof(icFloatNumber));
2105	}
2106	else {
2107	setIlluminant(m_stdIlluminant, m_illuminantRange, NULL__null, m_colorTemperature);
2108	}
2109	}
2110
2111	pChild = icXmlFindNode(pChild, "SurroundXYZ");
2112	if (pChild) {
2113	attr = icXmlFindAttr(pChild, "X");
2114	if (attr) {
2115	m_surroundXYZ.X = (icFloatNumber)atof(icXmlAttrValue(attr));
2116	}
2117
2118	attr = icXmlFindAttr(pChild, "Y");
2119	if (attr) {
2120	m_surroundXYZ.Y = (icFloatNumber)atof(icXmlAttrValue(attr));
2121	}
2122
2123	attr = icXmlFindAttr(pChild, "Z");
2124	if (attr) {
2125	m_surroundXYZ.Z = (icFloatNumber)atof(icXmlAttrValue(attr));
2126	}
2127	}
2128
2129	return true;
2130	}
2131
2132
2133
2134	bool icProfDescToXml(std::string &xml, CIccProfileDescStruct &p, std::string blanks = "")
2135	{
2136	char fix[256];
2137	char buf[256];
2138	char data[256];
2139
2140	sprintf(buf, "<ProfileDesc>\n");
2141	xml += blanks + buf;
2142
2143	sprintf(buf, "<DeviceManufacturerSignature>%s</DeviceManufacturerSignature>\n", icFixXml(fix, icGetSigStr(data, p.m_deviceMfg)));
2144	xml += blanks + blanks + buf;
2145
2146	sprintf(buf, "<DeviceModelSignature>%s</DeviceModelSignature>\n", icFixXml(fix, icGetSigStr(data, p.m_deviceModel)));
2147	xml += blanks + blanks + buf;
2148
2149	std::string szAttributes = icGetDeviceAttrName(p.m_attributes);
2150	//sprintf(buf, "<DeviceAttributes>\"%016lX\" technology=\"%s\">\n", p.m_attributes, icFixXml(fix, icGetSigStr(data, p.m_technology)));
2151	//xml += buf;
2152	xml += blanks + blanks + icGetDeviceAttrName(p.m_attributes);
2153
2154	sprintf(buf, "<Technology>%s</Technology>\n", icFixXml(fix, icGetSigStr(data, p.m_technology)));
2155	xml += blanks + blanks + buf;
2156
2157	CIccTag *pTag = p.m_deviceMfgDesc.GetTag();
2158	CIccTagXml *pExt;
2159
2160	if (pTag) {
2161
2162	pExt = (CIccTagXml*)(pTag->GetExtension());
2163
2164	if (!pExt \|\| !pExt->GetExtClassName() \|\| strcmp(pExt->GetExtClassName(), "CIccTagXml"))
2165	return false;
2166
2167	xml += blanks + blanks + "<DeviceManufacturer>\n";
2168
2169	const icChar* tagSig = icGetTagSigTypeName(pTag->GetType());
2170	sprintf(buf, "<%s>\n", tagSig);
2171	xml += blanks + blanks + blanks + buf;
2172
2173	if (!pExt->ToXml(xml, blanks + " "))
2174	return false;
2175
2176	sprintf(buf, "</%s>\n", tagSig);
2177	xml += blanks + blanks + blanks + buf;
2178
2179	xml += blanks + blanks +"</DeviceManufacturer>\n";
2180	}
2181
2182	pTag = p.m_deviceModelDesc.GetTag();
2183
2184	if (pTag) {
2185	pExt = (CIccTagXml*)(pTag->GetExtension());
2186
2187	if (!pExt \|\| !pExt->GetExtClassName() \|\| strcmp(pExt->GetExtClassName(), "CIccTagXml"))
2188	return false;
2189
2190	xml += blanks + blanks + "<DeviceModel>\n";
2191
2192	const icChar* tagSig = icGetTagSigTypeName(pTag->GetType());
2193	sprintf(buf, "<%s>\n", tagSig);
2194	xml += blanks + blanks + blanks + buf;
2195
2196	if (!pExt->ToXml(xml, blanks + " "))
2197	return false;
2198
2199	sprintf(buf, "</%s>\n", tagSig);
2200	xml += blanks + blanks + blanks + buf;
2201
2202	xml += blanks + " </DeviceModel>\n";
2203	}
2204
2205	xml += blanks + "</ProfileDesc>\n";
2206
2207	return true;
2208	}
2209
2210	bool icXmlParseProfDesc(xmlNode *pNode, CIccProfileDescStruct &p, std::string &parseStr)
2211	{
2212	if (pNode->type==XML_ELEMENT_NODE && !icXmlStrCmp(pNode->name, "ProfileDesc")strcmp((const char )(pNode->name), (const char)("ProfileDesc" ))) {
2213	xmlNode *pDescNode;
2214
2215	for (pDescNode = pNode->children; pDescNode; pDescNode=pDescNode->next) {
2216	if (pDescNode->type == XML_ELEMENT_NODE) {
2217	if (!icXmlStrCmp(pDescNode->name, "DeviceManufacturerSignature")strcmp((const char )(pDescNode->name), (const char)("DeviceManufacturerSignature" ))){
2218	p.m_deviceMfg = icXmlStrToSig(pDescNode->children ? (const icChar*)pDescNode->children->content: "");
2219	}
2220	else if (!icXmlStrCmp(pDescNode->name, "DeviceModelSignature")strcmp((const char )(pDescNode->name), (const char)("DeviceModelSignature" ))){
2221	p.m_deviceModel = icXmlStrToSig(pDescNode->children ? (const icChar*)pDescNode->children->content : "");
2222	}
2223	else if (!icXmlStrCmp(pDescNode->name, "DeviceAttributes")strcmp((const char )(pDescNode->name), (const char)("DeviceAttributes" ))){
2224	p.m_attributes = icGetDeviceAttrValue(pDescNode);
2225	}
2226	else if (!icXmlStrCmp(pDescNode->name, "Technology")strcmp((const char )(pDescNode->name), (const char)("Technology" ))){
2227	p.m_technology = (icTechnologySignature)icXmlStrToSig(pDescNode->children ? (const icChar*)pDescNode->children->content : "");
2228	}
2229	else if (!icXmlStrCmp(pDescNode->name, "DeviceManufacturer")strcmp((const char )(pDescNode->name), (const char)("DeviceManufacturer" ))) {
2230	xmlNode *pDevManNode = icXmlFindNode(pDescNode->children, "multiLocalizedUnicodeType");
2231
2232	if (!pDevManNode){
2233	pDevManNode = icXmlFindNode(pDescNode->children, "textDescriptionType");
2234	}
2235
2236	if (pDevManNode){
2237	icTagTypeSignature tagSig = icGetTypeNameTagSig ((icChar*) pDevManNode->name);
2238
2239	if (!p.m_deviceMfgDesc.SetType(tagSig)){
2240	return false;
2241	}
2242	CIccTag *pTag = p.m_deviceMfgDesc.GetTag();
2243
2244	if (!pTag)
2245	return false;
2246
2247	CIccTagXml pExt = (CIccTagXml)(pTag->GetExtension());
2248
2249	if (!pExt \|\| !pExt->GetExtClassName() \|\| strcmp(pExt->GetExtClassName(), "CIccTagXml"))
2250	return false;
2251
2252	pExt->ParseXml(pDevManNode->children, parseStr);
2253	}
2254	}
2255	else if (!icXmlStrCmp(pDescNode->name, "DeviceModel")strcmp((const char )(pDescNode->name), (const char)("DeviceModel" ))) {
2256	xmlNode *pDevModNode = icXmlFindNode(pDescNode->children, "multiLocalizedUnicodeType");
2257
2258	if (!pDevModNode){
2259	pDevModNode = icXmlFindNode(pDescNode->children, "textDescriptionType");
2260	}
2261
2262	if (pDevModNode){
2263	icTagTypeSignature tagSig = icGetTypeNameTagSig ((icChar*) pDevModNode->name);
2264
2265	if (!p.m_deviceModelDesc.SetType(tagSig)) {
2266	return false;
2267	}
2268	CIccTag *pTag = p.m_deviceModelDesc.GetTag();
2269
2270	if (!pTag)
2271	return false;
2272
2273	CIccTagXml pExt = (CIccTagXml)(pTag->GetExtension());
2274
2275	if (!pExt \|\| !pExt->GetExtClassName() \|\| strcmp(pExt->GetExtClassName(), "CIccTagXml"))
2276	return false;
2277
2278	pExt->ParseXml(pDevModNode->children, parseStr);
2279	}
2280	}
2281	}
2282	}
2283	}
2284	else
2285	return false;
2286
2287	if (!p.m_deviceMfgDesc.GetTag() \|\| !p.m_deviceModelDesc.GetTag())
2288	return false;
2289
2290	return true;
2291	}
2292
2293
2294	bool CIccTagXmlProfileSeqDesc::ToXml(std::string &xml, std::string blanks/* = ""*/)
2295	{
2296	CIccProfileSeqDesc::iterator i;
2297	if (!m_Descriptions)
2298	return false;
2299
2300	xml += blanks + "<ProfileSequence>\n";
2301	for (i=m_Descriptions->begin(); i!=m_Descriptions->end(); i++) {
2302	if (!icProfDescToXml(xml, *i, blanks + " "))
2303	return false;
2304	}
2305	xml += blanks + "</ProfileSequence>\n";
2306	return true;
2307	}
2308
2309
2310	bool CIccTagXmlProfileSeqDesc::ParseXml(xmlNode *pNode, std::string &parseStr)
2311	{
2312	pNode = icXmlFindNode(pNode, "ProfileSequence");
2313
2314	if (!m_Descriptions)
2315	return false;
2316
2317	m_Descriptions->clear();
2318
2319	if (pNode) {
2320	for (pNode = pNode->children; pNode; pNode=pNode->next) {
2321	if (pNode->type==XML_ELEMENT_NODE && !icXmlStrCmp(pNode->name, "ProfileDesc")strcmp((const char )(pNode->name), (const char)("ProfileDesc" ))) {
2322	CIccProfileDescStruct ProfileDescStruct;
2323
2324	if (!icXmlParseProfDesc(pNode, ProfileDescStruct, parseStr))
2325	return false;
2326
2327	m_Descriptions->push_back(ProfileDescStruct);
2328	}
2329	}
2330	}
2331	return true;
2332	}
2333
2334
2335	bool CIccTagXmlResponseCurveSet16::ToXml(std::string &xml, std::string blanks/* = ""*/)
2336	{
2337	char line[80];
2338	int i;
2339
2340	CIccInfo info;
2341
2342	sprintf(line, "<CountOfChannels>%d</CountOfChannels>\n", m_nChannels);
2343	xml += blanks + line;
2344
2345	CIccResponseCurveStruct *pCurves=GetFirstCurves();
2346	while (pCurves) {
2347	sprintf(line, "<ResponseCurve MeasUnitSignature=\"%s\">\n", info.GetMeasurementUnit(pCurves->GetMeasurementType()));
2348	xml += blanks + line;
2349	for (i=0; i<pCurves->GetNumChannels(); i++) {
2350	CIccResponse16List *pResponseList = pCurves->GetResponseList(i);
2351	icXYZNumber *pXYZ = pCurves->GetXYZ(i);
2352	sprintf(line, " <ChannelResponses X=\"%.8f\" Y=\"%.8f\" Z=\"%.8f\" >\n", icFtoD(pXYZ->X), icFtoD(pXYZ->Y), icFtoD(pXYZ->Z));
2353	xml += blanks + line;
2354
2355	CIccResponse16List::iterator j;
2356	for (j=pResponseList->begin(); j!=pResponseList->end(); j++) {
2357	sprintf(line, " <Measurement DeviceCode=\"%d\" MeasValue=\"%.8f\"", j->deviceCode, icFtoD(j->measurementValue));
2358	xml += blanks + line;
2359
2360	if (j->reserved) {
2361	sprintf(line, " Reserved=\"%d\"", j->reserved);
2362	xml += line;
2363	}
2364	xml += "/>\n";
2365	}
2366
2367	xml += blanks + " </ChannelResponses>\n";
2368	}
2369	xml += blanks + " </ResponseCurve>\n";
2370	pCurves = GetNextCurves();
2371	}
2372
2373	return true;
2374	}
2375
2376
2377	bool CIccTagXmlResponseCurveSet16::ParseXml(xmlNode *pNode, std::string &parseStr)
2378	{
2379	pNode = icXmlFindNode(pNode, "CountOfChannels");
2380
2381	if(!pNode)
2382	return false;
2383
2384	int nChannels = atoi((const char*)pNode->children->content);
2385	SetNumChannels(nChannels);
2386
2387	if (!m_ResponseCurves)
2388	return false;
2389
2390	if (!m_ResponseCurves->empty())
2391	m_ResponseCurves->clear();
2392
2393	for (pNode = pNode->next; pNode; pNode = pNode->next) {
2394	if (pNode->type==XML_ELEMENT_NODE && !icXmlStrCmp(pNode->name, "ResponseCurve")strcmp((const char )(pNode->name), (const char)("ResponseCurve" ))) {
2395	const icChar *szMeasurmentType = icXmlAttrValue(pNode, "MeasUnitSignature");
2396
2397	if (nChannels != icXmlNodeCount(pNode->children, "ChannelResponses"))
2398	return false;
2399
2400	CIccResponseCurveStruct curves(icGetMeasurementValue(szMeasurmentType), nChannels);
2401	xmlNode pChild, pMeasurement;
2402	int i;
2403
2404	for (i=0, pChild = pNode->children; pChild; pChild = pChild->next) {
2405	if (pChild->type == XML_ELEMENT_NODE && !icXmlStrCmp(pChild->name, "ChannelResponses")strcmp((const char )(pChild->name), (const char)("ChannelResponses" ))) {
2406	CIccResponse16List *pResponseList = curves.GetResponseList(i);
2407	icXYZNumber *pXYZ = curves.GetXYZ(i);
2408	icResponse16Number response;
2409
2410	const icChar *szX = icXmlAttrValue(pChild, "X");
2411	const icChar *szY = icXmlAttrValue(pChild, "Y");
2412	const icChar *szZ = icXmlAttrValue(pChild, "Z");
2413
2414	if (!szX \|\| !szY \|\| !szZ \|\| !szX \|\| !szY \|\| !*szZ)
2415	return false;
2416
2417	pXYZ->X = icDtoF((icFloatNumber)atof(szX));
2418	pXYZ->Y = icDtoF((icFloatNumber)atof(szY));
2419	pXYZ->Z = icDtoF((icFloatNumber)atof(szZ));
2420
2421	for (pMeasurement = pChild->children; pMeasurement; pMeasurement = pMeasurement->next) {
2422	if (pMeasurement->type == XML_ELEMENT_NODE && !icXmlStrCmp(pMeasurement->name, "Measurement")strcmp((const char )(pMeasurement->name), (const char)("Measurement" ))) {
2423	const icChar *szDeviceCode = icXmlAttrValue(pMeasurement, "DeviceCode");
2424	const icChar *szValue = icXmlAttrValue(pMeasurement, "MeasValue");
2425	const icChar *szReserved = icXmlAttrValue(pMeasurement, "Reserved");
2426
2427	if (!szDeviceCode \|\| !szValue \|\| !szDeviceCode \|\| !szValue)
2428	return false;
2429
2430	response.deviceCode = (icUInt16Number)atoi(szDeviceCode);
2431	response.measurementValue = icDtoF((icFloatNumber)atof(szValue));
2432
2433	if (szReserved && *szReserved)
2434	response.reserved = atoi(szReserved);
2435
2436	pResponseList->push_back(response);
2437	}
2438	}
2439	i++;
2440	}
2441	}
2442	m_ResponseCurves->push_back(curves);
2443	}
2444	}
2445
2446	return true;
2447	}
2448
2449
2450	bool CIccTagXmlCurve::ToXml(std::string &xml, std::string blanks/* = ""*/)
2451	{
2452	return ToXml(xml, icConvert16Bit, blanks);
2453	}
2454
2455
2456	bool CIccTagXmlCurve::ToXml(std::string &xml, icConvertType nType, std::string blanks/= ""/)
2457	{
2458	char buf[40];
2459	int i;
2460
2461	if (!m_nSize) {
2462	xml += blanks + "<Curve/>\n";
2463	}
2464	else if (IsIdentity()) {
2465	xml += blanks + "<Curve IdentitySize=\"";
2466	sprintf(buf, "%d", m_nSize);
2467	xml += buf;
2468	xml += "\"/>\n";
2469	}
2470	else if (nType==icConvert8Bit) {
2471	xml += blanks + "<Curve>\n" + blanks;
2472	for (i=0; i<(int)m_nSize; i++) {
2473	if ( i && !(i%16)) {
2474	xml += "\n";
2475	xml += blanks;
2476	}
2477	sprintf(buf, " %3u", (int)(m_Curve[i] * 255.0 + 0.5));
2478	xml += buf;
2479	}
2480	xml += "\n";
2481	xml += blanks + "</Curve>\n";
2482	}
2483	else if (nType==icConvert16Bit \|\| nType==icConvertVariable) {
2484	xml += blanks + "<Curve>\n" + blanks;
2485	for (i=0; i<(int)m_nSize; i++) {
2486	if (i && !(i%16)) {
2487	xml += "\n";
2488	xml += blanks + " ";
2489	}
2490	sprintf(buf, " %5u", (int)(m_Curve[i] * 65535.0 + 0.5));
2491	xml += buf;
2492	}
2493	xml += "\n";
2494	xml += blanks + "</Curve>\n";
2495	}
2496	else if (nType==icConvertFloat) {
2497	xml += blanks + "<Curve>\n" + blanks + " ";
2498	for (i=0; i<(int)m_nSize; i++) {
2499	if (i && !(i%16)) {
2500	xml += "\n";
2501	xml += blanks + " ";
2502	}
2503	sprintf(buf, " %13.8f", m_Curve[i]);
2504	xml += buf;
2505	}
2506	xml += "\n";
2507	xml += blanks + "</Curve>\n";
2508	}
2509	else
2510	return false;
2511
2512	return true;
2513	}
2514
2515
2516	bool CIccTagXmlCurve::ParseXml(xmlNode *pNode, std::string &parseStr )
2517	{
2518	return ParseXml(pNode, icConvert16Bit, parseStr);
2519	}
2520
2521
2522
2523	bool CIccTagXmlCurve::ParseXml(xmlNode *pNode, icConvertType nType, std::string &parseStr)
2524	{
2525	xmlNode *pCurveNode;
2526	pCurveNode = icXmlFindNode(pNode, "Curve");
2527
2528	if(pCurveNode){
2529	const char *filename = icXmlAttrValue(pCurveNode, "File");
2530
2531	// file exists
2532	if (filename[0]) {
2533	CIccIO *file = IccOpenFileIO(filename, "rb");
2534	if (!file){
2535	parseStr += "Error! - File '";
2536	parseStr += filename;
2537	parseStr +="' not found.\n";
2538	delete file;
2539	return false;
2540	}
2541
2542	const char *format = icXmlAttrValue(pCurveNode, "Format");
2543
2544	// format is text
2545	if (!strcmp(format, "text")) {
2546	icUInt32Number num = file->GetLength();
2547	char buf = (char ) new char[num];
2548
2549	if (!buf) {
2550	perror("Memory Error");
2551	parseStr += "'";
2552	parseStr += filename;
2553	parseStr += "' may not be a valid text file.\n";
2554	free(buf);
2555	delete file;
2556	return false;
2557	}
2558
2559	if (file->Read8(buf, num) !=num) {
2560	perror("Read-File Error");
2561	parseStr += "'";
2562	parseStr += filename;
2563	parseStr += "' may not be a valid text file.\n";
2564	free(buf);
2565	delete file;
2566	return false;
2567	}
2568
2569	// lut8type
2570	if (nType == icConvert8Bit) {
2571	CIccUInt8Array data;
2572
2573	//if (!data.ParseTextArray(buf)) {
2574	if (!data.ParseTextArrayNum(buf, num, parseStr)){
2575	parseStr += "File '";
2576	parseStr += filename;
2577	parseStr += "' is not a valid text file.\n";
2578	SetSize(0);
2579	free(buf);
2580	delete file;
2581	return false;
2582	}
2583
2584	else {
2585	SetSize(data.GetSize());
2586	icUInt8Number *src = data.GetBuf();
2587	icFloatNumber *dst = GetData(0);
2588
2589	icUInt32Number i;
2590	for (i=0; i<data.GetSize(); i++) {
2591	dst = (icFloatNumber)(src) / 255.0f;
2592	dst++;
2593	src++;
2594	}
2595
2596	//if (i!=256) {
2597	//printf("Error! - Input/Output table does not have 256 entries.\n");
2598	//SetSize(0);
2599	//return false;
2600	//}
2601	delete file;
2602	return true;
2603	}
2604	}
2605
2606	//lut16type
2607	else if (nType == icConvert16Bit \|\| nType == icConvertVariable) {
2608	CIccUInt16Array data;
2609
2610	//if (!data.ParseTextArray(buf)) {
2611	if (!data.ParseTextArrayNum(buf, num, parseStr)){
2612	parseStr += "File '";
2613	parseStr += filename;
2614	parseStr += "' is not a valid text file.\n";
2615	SetSize(0);
2616	free(buf);
2617	delete file;
2618	return false;
2619	}
2620
2621	else {
2622	SetSize(data.GetSize());
2623
2624	icUInt16Number *src = data.GetBuf();
2625	icFloatNumber *dst = GetData(0);
2626
2627	icUInt32Number i;
2628	for (i=0; i<data.GetSize(); i++) {
2629	dst = (icFloatNumber)(src) / 65535.0f;
2630	dst++;
2631	src++;
2632	}
2633	}
2634	delete file;
2635	return true;
2636	}
2637
2638	//float type
2639	else if (nType == icConvertFloat){
2640	CIccFloatArray data;
2641
2642	//if (!data.ParseTextArray(buf)) {
2643	if (!data.ParseTextArrayNum(buf, num, parseStr)){
2644	parseStr += "File '";
2645	parseStr += filename;
2646	parseStr += "' is not a valid text file.\n";
2647	SetSize(0);
2648	free(buf);
2649	delete file;
2650	return false;
2651	}
2652
2653	else {
2654	SetSize(data.GetSize());
2655	icFloatNumber *src = data.GetBuf();
2656	icFloatNumber *dst = GetData(0);
2657
2658	icUInt32Number i;
2659	for (i=0; i<data.GetSize(); i++) {
2660	dst = src;
2661	dst++;
2662	src++;
2663	}
2664	}
2665	delete file;
2666	return true;
2667	}
2668	else {
2669	delete file;
2670	return false;
2671	}
2672	}
2673	// format is binary
2674	else if (!strcmp(format, "binary")) {
2675	const char *order = icXmlAttrValue(pCurveNode, "Endian");
2676	bool little_endian = !strcmp(order, "little");
2677
2678	if (nType == icConvert8Bit){
2679	icUInt32Number num = file->GetLength();
2680	icUInt8Number value;
2681
2682	SetSize(num);
2683	icFloatNumber *dst = GetData(0);
2684	icUInt32Number i;
2685	for (i=0; i<num; i++) {
2686	if (!file->Read8(&value)) {
2687	perror("Read-File Error");
2688	parseStr += "'";
2689	parseStr += filename;
2690	parseStr += "' may not be a valid binary file.\n";
2691	delete file;
2692	return false;
2693	}
2694	*dst++ = (icFloatNumber)value / 255.0f;
2695	}
2696	delete file;
2697	return true;
2698	}
2699	else if (nType == icConvert16Bit \|\| nType == icConvertVariable){
2700	icUInt32Number num = file->GetLength() / sizeof(icUInt16Number);
2701	icUInt16Number value;
2702	icUInt8Number ptr = (icUInt8Number)&value;
2703
2704	SetSize(num);
2705	icFloatNumber *dst = GetData(0);
2706	icUInt32Number i;
2707	for (i=0; i<num; i++) {
2708	if (!file->Read16(&value)) { //this assumes data is big endian
2709	perror("Read-File Error");
2710	parseStr += "'";
2711	parseStr += filename;
2712	parseStr += "' may not be a valid binary file.\n";
2713	delete file;
2714	return false;
2715	}
2716	#ifdef ICC_BYTE_ORDER_LITTLE_ENDIAN
2717	if (little_endian) {
2718	#else
2719	if (!little_endian) {
2720	#endif
2721	icUInt8Number t = ptr[0];
2722	ptr[0] = ptr[1];
2723	ptr[1] = t;
2724	}
2725	*dst++ = (icFloatNumber)value / 65535.0f;
2726	}
2727	delete file;
2728	return true;
2729	}
2730	else if (nType == icConvertFloat) {
2731	icUInt32Number num = file->GetLength()/sizeof(icFloat32Number);
2732	icFloat32Number value;
2733	icUInt8Number ptr = (icUInt8Number)&value;
2734
2735	SetSize(num);
2736	icFloatNumber *dst = GetData(0);
2737
2738	icUInt32Number i;
2739	for (i=0; i<num; i++) {
2740	if (!file->ReadFloat32Float(&value)) { //assumes data is big endian
2741	perror("Read-File Error");
2742	parseStr += "'";
2743	parseStr += filename;
2744	parseStr += "' may not be a valid binary file.\n";
2745	delete file;
2746	return false;
2747	}
2748	#ifdef ICC_BYTE_ORDER_LITTLE_ENDIAN
2749	if (little_endian) {
2750	#else
2751	if (!little_endian) {
2752	#endif
2753	icUInt8Number tmp;
2754	tmp = ptr[0]; ptr[0] = ptr[3]; ptr[3] = tmp;
2755	tmp = ptr[1]; ptr[1] = ptr[2]; ptr[2] = tmp;
2756	}
2757	*dst++ = value;
2758	}
2759	delete file;
2760	return true;
2761	}
2762	else { //not 8bit/16bit/float
2763	delete file;
2764	return false;
2765	}
2766	}
2767	else {//not text/binary
2768	delete file;
2769	return false;
2770	}
2771	}
2772	// no file
2773	else{
2774	if (nType == icConvert8Bit){
2775	CIccUInt8Array data;
2776
2777	if (!data.ParseArray(pCurveNode->children)) {
2778	const char *szSize = icXmlAttrValue(pCurveNode, "IdentitySize");
2779
2780	if (szSize && *szSize) {
2781	icUInt32Number nSize = (icUInt32Number)atol(szSize);
2782	SetSize(nSize);
2783
2784	if (m_nSize == nSize) {
2785	icUInt32Number j;
2786	icFloatNumber *dst = GetData(0);
2787	for (j=0; j<nSize; j++) {
2788	*dst = (icFloatNumber)(j) / (icFloatNumber)(nSize-1);
2789	dst++;
2790	}
2791	}
2792	else
2793	return false;
2794	}
2795	else { //Identity curve with size=0
2796	SetSize(0);
2797	}
2798	}
2799	else {
2800	SetSize(data.GetSize());
2801
2802	icUInt32Number j;
2803	icUInt8Number *src = data.GetBuf();
2804	icFloatNumber *dst = GetData(0);
2805	for (j=0; j<data.GetSize(); j++) {
2806	dst = (icFloatNumber)(src) / 255.0f;
2807	dst++;
2808	src++;
2809	}
2810
2811	//if (j!=256) {
2812	//printf("Error! - Input/Output table does not have 256 entries.\n");
2813	//SetSize(0);
2814	//return false;
2815	//}
2816	}
2817	return true;
2818	}
2819
2820	else if (nType == icConvert16Bit \|\| nType == icConvertVariable){
2821	CIccUInt16Array data;
2822
2823	if (!data.ParseArray(pCurveNode->children)) {
2824	const char *szSize = icXmlAttrValue(pCurveNode, "IdentitySize");
2825
2826	if (szSize && *szSize) {
2827	icUInt32Number nSize = (icUInt32Number)atol(szSize);
2828	SetSize(nSize);
2829
2830	if (m_nSize == nSize) {
2831	icUInt32Number j;
2832	icFloatNumber *dst = GetData(0);
2833	for (j=0; j<nSize; j++) {
2834	*dst = (icFloatNumber)(j) / (icFloatNumber)(nSize-1);
2835	dst++;
2836	}
2837	}
2838	else
2839	return false;
2840	}
2841	else { //Identity curve with size=0
2842	SetSize(0);
2843	}
2844	}
2845	else {
2846	SetSize(data.GetSize());
2847
2848	icUInt32Number j;
2849	icUInt16Number *src = data.GetBuf();
2850	icFloatNumber *dst = GetData(0);
2851	for (j=0; j<data.GetSize(); j++) {
2852	dst = (icFloatNumber)(src) / 65535.0f;
2853	dst++;
2854	src++;
2855	}
2856	}
2857	return true;
2858	}
2859	else if (nType == icConvertFloat){
2860	CIccFloatArray data;
2861
2862	if (!data.ParseArray(pCurveNode->children)) {
2863	const char *szSize = icXmlAttrValue(pCurveNode, "IdentitySize");
2864
2865	if (szSize && *szSize) {
2866	icUInt32Number nSize = (icUInt32Number)atol(szSize);
2867
2868	SetSize(nSize);
2869
2870	if (m_nSize == nSize) {
2871	icUInt32Number j;
2872	icFloatNumber *dst = GetData(0);
2873	for (j=0; j<nSize; j++) {
2874	*dst = (icFloatNumber)(j) / (icFloatNumber)(nSize-1);
2875	dst++;
2876	}
2877	}
2878	else
2879	return false;
2880	}
2881	else { //Identity curve with size=0
2882	SetSize(0);
2883	}
2884	}
2885	else {
2886	SetSize(data.GetSize());
2887
2888	icUInt32Number j;
2889	icFloatNumber *src = data.GetBuf();
2890	icFloatNumber *dst = GetData(0);
2891	for (j=0; j<data.GetSize(); j++) {
2892	dst = src;
2893	dst++;
2894	src++;
2895	}
2896	}
2897	return true;
2898	}
2899	// unsupported encoding
2900	else
2901	return false;
2902	}
2903	}
2904	return false;
2905	}
2906
2907
2908	bool CIccTagXmlParametricCurve::ToXml(std::string &xml, std::string blanks/* = ""*/)
2909	{
2910	char buf[80];
2911	int i;
2912
2913	sprintf(buf, "<ParametricCurve FunctionType=\"%d\"", m_nFunctionType);
2914	xml += blanks + buf;
2915
2916	if (m_nReserved2) {
2917	sprintf(buf, " Reserved=\"%d\"", m_nReserved2);
2918	xml += buf;
2919	}
2920	xml += ">\n";
2921	xml += blanks + " ";
2922
2923	for (i=0; i<(int)m_nNumParam; i++) {
2924	sprintf(buf, " %.8f", m_dParam[i]);
2925	xml += buf;
2926	}
2927	xml += "\n";
2928
2929	sprintf(buf, "</ParametricCurve>\n");
2930	xml += blanks + buf;
2931
2932	return true;
2933	}
2934
2935	bool CIccTagXmlParametricCurve::ToXml(std::string &xml, icConvertType nType, std::string blanks/* = */)
2936	{
2937	return ToXml(xml, blanks);
2938	}
2939
2940	bool CIccTagXmlParametricCurve::ParseXml(xmlNode *pNode, icConvertType nType, std::string &parseStr)
2941	{
2942	return ParseXml (pNode, parseStr);
2943	}
2944
2945	bool CIccTagXmlParametricCurve::ParseXml(xmlNode *pNode, std::string &parseStr)
2946	{
2947	xmlNode *pCurveNode = icXmlFindNode(pNode->children, "ParametricCurve");
2948
2949	for (pCurveNode = pNode; pCurveNode; pCurveNode=pCurveNode->next) {
2950	if (pCurveNode->type==XML_ELEMENT_NODE) {
2951	if (!icXmlStrCmp(pCurveNode->name, "ParametricCurve")strcmp((const char )(pCurveNode->name), (const char)("ParametricCurve" ))) {
2952
2953	const char *functionType = icXmlAttrValue(pCurveNode, "FunctionType");
2954
2955	if (!functionType)
2956	return false;
2957
2958	if (!SetFunctionType(atoi(functionType))){
2959	return false;
2960	}
2961	CIccFloatArray data;
2962
2963	if (!data.ParseArray(pCurveNode->children)){
2964	return false;
2965	}
2966
2967	if (data.GetSize()!=GetNumParam()){
2968	return false;
2969	}
2970
2971	icUInt32Number j;
2972	icFloatNumber *dParams = GetParams();
2973	icFloatNumber *dataBuf = data.GetBuf();
2974	for (j=0; j<data.GetSize(); j++) {
2975	dParams[j] = dataBuf[j];
2976	}
2977
2978	xmlAttr *reserved2 = icXmlFindAttr(pCurveNode, "Reserved");
2979
2980	if (reserved2) {
2981	m_nReserved2 = (icUInt16Number)atoi(icXmlAttrValue(reserved2));
2982	}
2983	return true;
2984	}
2985	}
2986	}
2987	return false;
2988	}
2989
2990
2991	bool icCurvesToXml(std::string &xml, const char szName, CIccCurve *pCurves, int numCurve, icConvertType nType, std::string blanks)
2992	{
2993	if (pCurves) {
2994	int i;
2995
2996	xml += blanks + "<" + szName + ">\n";
2997	for (i=0; i<numCurve; i++) {
2998	IIccExtensionTag *pTag = pCurves[i]->GetExtension();
2999	if (!pTag \|\| strcmp(pTag->GetExtDerivedClassName(), "CIccCurveXml"))
3000	return false;
3001
3002	if (!((CIccCurveXml *)pTag)->ToXml(xml, nType, blanks + " "))
3003	return false;
3004	}
3005	xml += blanks + "</" + szName + ">\n";
3006	}
3007	return true;
3008	}
3009
3010
3011	bool CIccTagXmlSegmentedCurve::ToXml(std::string &xml, std::string blanks/* = ""*/)
3012	{
3013	if (m_pCurve)
3014	return ((CIccSegmentedCurveXml*)m_pCurve)->ToXml(xml, blanks);
3015
3016	return true;
3017	}
3018
3019
3020	bool CIccTagXmlSegmentedCurve::ToXml(std::string &xml, icConvertType nType, std::string blanks/* = */)
3021	{
3022	return ToXml(xml, blanks);
3023	}
3024
3025
3026	bool CIccTagXmlSegmentedCurve::ParseXml(xmlNode *pNode, std::string &parseStr )
3027	{
3028	xmlNode *pCurveNode = icXmlFindNode(pNode, "SegmentedCurve");
3029	if (pCurveNode) {
3030	CIccSegmentedCurveXml *pCurve = new CIccSegmentedCurveXml();
3031
3032	if (pCurve) {
3033	if (pCurve->ParseXml(pCurveNode, parseStr)) {
3034	SetCurve(pCurve);
3035	return true;
3036	}
3037	else {
3038	delete pCurve;
3039	return false;
3040	}
3041	}
3042	parseStr += "Unable to allocate Segmented Curve\n";
3043	return false;
3044	}
3045	parseStr += "Unable to find Segmented Curve\n";
3046	return false;
3047	}
3048
3049
3050	bool CIccTagXmlSegmentedCurve::ParseXml(xmlNode *pNode, icConvertType nType, std::string &parseStr)
3051	{
3052	return ParseXml(pNode, parseStr);
3053	}
3054
3055
3056	bool icMatrixToXml(std::string &xml, CIccMatrix *pMatrix, std::string blanks)
3057	{
3058	char buf[128];
3059	xml += blanks + "<Matrix\n";
3060
3061	sprintf(buf, " e1=\"%.8f\" e2=\"%.8f\" e3=\"%.8f\"\n", pMatrix->m_e[0], pMatrix->m_e[1], pMatrix->m_e[2]);
3062	xml += blanks + buf;
3063
3064	sprintf(buf, " e4=\"%.8f\" e5=\"%.8f\" e6=\"%.8f\"\n", pMatrix->m_e[3], pMatrix->m_e[4], pMatrix->m_e[5]);
3065	xml += blanks + buf;
3066
3067	sprintf(buf, " e7=\"%.8f\" e8=\"%.8f\" e9=\"%.8f\"", pMatrix->m_e[6], pMatrix->m_e[7], pMatrix->m_e[8]);
3068	xml += blanks + buf;
3069
3070	if (pMatrix->m_bUseConstants) {
3071	xml += "\n";
3072	sprintf(buf, " e10=\"%.8f\" e11=\"%.8f\" e12=\"%.8f\"", pMatrix->m_e[9], pMatrix->m_e[10], pMatrix->m_e[11]);
3073	xml += blanks + buf;
3074	}
3075	xml += "/>\n";
3076	return true;
3077	}
3078
3079	// for luts
3080	bool icMBBToXml(std::string &xml, CIccMBB *pMBB, icConvertType nType, std::string blanks="", bool bSaveGridPoints=false)
3081	{
3082	//blanks += " ";
3083	char buf[256];
3084
3085	sprintf(buf, "<Channels InputChannels=\"%d\" OutputChannels=\"%d\"/>\n", pMBB->InputChannels(), pMBB->OutputChannels());
3086	xml += blanks + buf;
3087
3088	if (pMBB->IsInputMatrix()) {
3089	if (pMBB->SwapMBCurves()) {
3090	if (pMBB->GetMatrix()) {
3091	// added if-statement
3092	if (!icMatrixToXml(xml, pMBB->GetMatrix(), blanks)) {
3093	return false;
3094	}
3095	}
3096
3097	if (pMBB->GetCurvesB()) {
3098	// added if-statement
3099	if (!icCurvesToXml(xml, "BCurves", pMBB->GetCurvesM(), pMBB->InputChannels(), nType, blanks)) {
3100	return false;
3101	}
3102	}
3103	}
3104	else {
3105	if (pMBB->GetCurvesB()) {
3106	// added if-statement
3107	if (!icCurvesToXml(xml, "BCurves", pMBB->GetCurvesB(), pMBB->InputChannels(), nType, blanks)) {
3108	return false;
3109	}
3110	}
3111
3112	if (pMBB->GetMatrix()) {
3113	// added if-statement
3114	if (!icMatrixToXml(xml, pMBB->GetMatrix(), blanks)) {
3115	return false;
3116	}
3117	}
3118
3119	if (pMBB->GetCurvesM()) {
3120	// added if-statement
3121	if (!icCurvesToXml(xml, "MCurves", pMBB->GetCurvesM(), 3, nType, blanks)){
3122	return false;
3123	}
3124	}
3125	}
3126
3127	if (pMBB->GetCLUT()) {
3128	// added if-statement
3129	if (!icCLUTToXml(xml, pMBB->GetCLUT(), nType, blanks, bSaveGridPoints)){
3130	return false;
3131	}
3132	}
3133
3134	if (pMBB->GetCurvesA()) {
3135	// added if-statement
3136	if (!icCurvesToXml(xml, "ACurves", pMBB->GetCurvesA(), pMBB->OutputChannels(), nType, blanks)){
3137	return false;
3138	}
3139	}
3140	}
3141	else {
3142	if (pMBB->GetCurvesA()) {
3143	// added if-statement
3144	if (!icCurvesToXml(xml, "ACurves", pMBB->GetCurvesA(), pMBB->InputChannels(), nType, blanks)){
3145	return false;
3146	}
3147	}
3148
3149	if (pMBB->GetCLUT()) {
3150	// added if-statement
3151	if (!icCLUTToXml(xml, pMBB->GetCLUT(), nType, blanks, bSaveGridPoints)){
3152	return false;
3153	}
3154	}
3155
3156	if (pMBB->GetCurvesM()) {
3157	// added if-statement
3158	if (!icCurvesToXml(xml, "MCurves", pMBB->GetCurvesM(), 3, nType, blanks)){
3159	return false;
3160	}
3161	}
3162
3163	if (pMBB->GetMatrix()) {
3164	// added if-statement
3165	if (!icMatrixToXml(xml, pMBB->GetMatrix(), blanks)) {
3166	return false;
3167	}
3168	}
3169
3170	if (pMBB->GetCurvesB()) {
3171	// added if-statement
3172	if (!icCurvesToXml(xml, "BCurves", pMBB->GetCurvesB(), pMBB->OutputChannels(), nType, blanks)){
3173	return false;
3174	}
3175	}
3176	}
3177	return true;
3178	}
3179
3180
3181	bool icCurvesFromXml(LPIccCurve pCurve, icUInt32Number nChannels, xmlNode pNode, icConvertType nType, std::string &parseStr)
3182	{
3183	icUInt32Number i;
3184	xmlNode *pCurveNode;
3185
3186	for (i=0, pCurveNode = pNode; i<nChannels && pCurveNode; pCurveNode=pCurveNode->next) {
3187	if (pCurveNode->type==XML_ELEMENT_NODE) {
3188	CIccCurve *pCurveTag = NULL__null;
3189	if (!icXmlStrCmp(pCurveNode->name, "Curve")strcmp((const char )(pCurveNode->name), (const char)("Curve" ))) {
3190	pCurveTag = new CIccTagXmlCurve;
3191	}
3192	else if (!icXmlStrCmp(pCurveNode->name, "ParametricCurve")strcmp((const char )(pCurveNode->name), (const char)("ParametricCurve" ))) {
3193	pCurveTag = new CIccTagXmlParametricCurve();
3194	}
3195
3196	if (pCurveTag) {
3197	IIccExtensionTag *pExt = pCurveTag->GetExtension();
3198
3199	if (pExt) {
3200	if (!strcmp(pExt->GetExtDerivedClassName(), "CIccCurveXml")) {
3201	CIccCurveXml pCurveXml = (CIccCurveXml )pExt;
3202
3203	if (pCurveXml->ParseXml(pCurveNode, nType, parseStr)) {
3204	pCurve[i] = pCurveTag;
3205	i++;
3206	}
3207	// added else statement
3208	else {
3209	char num[40];
3210	parseStr += "Unable to parse curve at Line";
3211	sprintf(num, "%d\n", pCurveNode->line);
3212	parseStr += num;
3213	return false;
3214	}
3215	}
3216	else if (!strcmp(pExt->GetExtClassName(), "CIccTagXml")) {
3217	CIccTagXml pXmlTag = (CIccTagXml )pExt;
3218
3219	if (pXmlTag->ParseXml(pCurveNode, parseStr)) {
3220	pCurve[i] = pCurveTag;
3221	i++;
3222	}
3223	// added else statement
3224	else {
3225	char num[40];
3226	parseStr += "Unable to parse curve tag at Line";
3227	sprintf(num, "%d\n", pCurveNode->line);
3228	parseStr += num;
3229	return false;
3230	}
3231	}
3232	}
3233	}
3234	}
3235	}
3236	if (!i != nChannels) {
3237	parseStr += "Channel number mismatch!\n";
3238	}
3239	return i==nChannels;
3240	}
3241
3242	bool icMatrixFromXml(CIccMatrix pMatrix, xmlNode pNode)
3243	{
3244	memset(pMatrix->m_e, 0, sizeof(pMatrix->m_e));
3245	pMatrix->m_bUseConstants = false;
3246
3247	char attrName[15];
3248	int i;
3249
3250	for (i=0; i<9; i++) {
3251	sprintf(attrName, "e%d", i+1);
3252	xmlAttr *attr = icXmlFindAttr(pNode, attrName);
3253	if (attr) {
3254	pMatrix->m_e[i] = (icFloatNumber)atof(icXmlAttrValue(attr));
3255	}
3256	}
3257	for (i=9; i<12; i++) {
3258	sprintf(attrName, "e%d", i+1);
3259	xmlAttr *attr = icXmlFindAttr(pNode, attrName);
3260	if (attr) {
3261	pMatrix->m_e[i] = (icFloatNumber)atof(icXmlAttrValue(attr));
3262	pMatrix->m_bUseConstants = true;
3263	}
3264	}
3265	return true;
3266	}
3267
3268	CIccCLUT icCLutFromXml(xmlNode pNode, int nIn, int nOut, icConvertType nType, std::string &parseStr)
3269	{
3270	CIccCLUT *pCLUT = NULL__null;
3271
3272	int nPrecision = 2;
3273	if (nType == icConvert8Bit)
3274	nPrecision = 1;
3275
3276	icUInt8Number nInput = (icUInt8Number)nIn;
3277	icUInt16Number nOutput = (icUInt16Number)nOut;
3278
3279	pCLUT = new CIccCLUT(nInput, nOutput, nPrecision);
3280
3281	if (!pCLUT){
3282	parseStr += "Error in creating CLUT Table. Check values of Precision, InputChannel, or OutputChannels.\n";
3283	return NULL__null;
3284	}
3285
3286	xmlNode *grid = icXmlFindNode(pNode->children, "GridPoints");
3287	if (grid) {
3288	CIccUInt8Array points;
3289
3290	if (points.ParseArray(grid->children)) {
3291	if (!pCLUT->Init(points.GetBuf())) {
3292	parseStr += "Error in setting the size of GridPoints. Check values of GridPoints, InputChannel, or OutputChannels.\n";
3293	delete pCLUT;
3294	return NULL__null;
3295	}
3296	}
3297	else {
3298	parseStr += "Error parsing GridPoints.\n";
3299	delete pCLUT;
3300	return NULL__null;
3301	}
3302	}
3303	else {
3304	icUInt8Number nGridGranularity;
3305
3306	xmlAttr *gridGranularity = icXmlFindAttr(pNode, "GridGranularity");
3307
3308	if (gridGranularity) {
3309	nGridGranularity = (icUInt8Number)atoi(icXmlAttrValue(gridGranularity));
3310	}
3311	else {
3312	delete pCLUT;
3313	return NULL__null;
3314	}
3315	if (!pCLUT->Init(nGridGranularity)) {
3316	parseStr += "Error in setting the size of GridGranularity. Check values of GridGranularity, InputChannel, or OutputChannels.\n";
3317	delete pCLUT;
3318	return NULL__null;
3319	}
3320	}
3321
3322	xmlNode *table = icXmlFindNode(pNode->children, "TableData");
3323
3324	if (table) {
3325	if (nType == icConvertVariable) {
3326	const char *precision = icXmlAttrValue(table, "Precision");
3327	if (precision && atoi(precision) == 1) {
3328	nType = icConvert8Bit;
3329	pCLUT->SetPrecision(1);
3330	}
3331	else {
3332	nType = icConvert16Bit;
3333	pCLUT->SetPrecision(2);
3334	}
3335	}
3336
3337	const char *filename = icXmlAttrValue(table, "Filename");
3338	if (!filename \|\| !filename[0]) {
3339	filename = icXmlAttrValue(table, "File");
3340	}
3341
3342	if (filename[0]) {
3343	CIccIO *file = IccOpenFileIO(filename, "rb");
3344
3345	if (!file) {
3346	// added error message
3347	parseStr += "Error! - File '";
3348	parseStr += filename;
3349	parseStr +="' not found.\n";
3350	delete pCLUT;
3351	return NULL__null;
3352	}
3353
3354	const char *format = icXmlAttrValue(table, "Format");
3355
3356	if (!strcmp(format, "text")) {
3357	icUInt32Number num = file->GetLength();
3358	char buf = (char )malloc(num);
3359
3360	if (!buf) {
3361	perror("Memory Error");
3362	parseStr += "'";
3363	parseStr += filename;
3364	parseStr += "' may not be a valid text file.\n";
3365	delete file;
3366	delete pCLUT;
3367	return NULL__null;
3368	}
3369
3370	//Allow for different encoding in text file than implied by the table type
3371	const char *encoding = icXmlAttrValue(table, "FileEncoding");
3372
3373	if (!strcmp(encoding, "int8"))
3374	nType = icConvert8Bit;
3375	else if (!strcmp(encoding, "int16"))
3376	nType = icConvert16Bit;
3377	else if (!strcmp(encoding, "float"))
3378	nType = icConvertFloat;
3379	else if (encoding[0]) {
3380	parseStr+= "Unknown encoding \"";
3381	parseStr+= encoding;
3382	parseStr+= "\" - using default encoding\n";
3383	}
3384
3385	if (file->Read8(buf, num)!=num) {
3386	perror("Read-File Error");
3387	parseStr += "'";
3388	parseStr += filename;
3389	parseStr += "' may not be a valid text file.\n";
3390	free(buf);
3391	delete file;
3392	delete pCLUT;
3393	return NULL__null;
3394	}
3395
3396	if (nType == icConvert8Bit) {
3397	CIccUInt8Array data;
3398
3399	if (!data.ParseTextArrayNum(buf, num, parseStr)) {
3400	parseStr += "File '";
3401	parseStr += filename;
3402	parseStr += "' is not a valid text file.\n";
3403	free(buf);
3404	delete file;
3405	delete pCLUT;
3406	return NULL__null;
3407	}
3408
3409	if (data.GetSize()!=pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3410	parseStr += "Error! - Number of entries in file '";
3411	parseStr += filename;
3412	parseStr += "'is not equal to the size of the CLUT Table.\n";
3413	parseStr += " a. Check values of GridGranularity/GridPoints, InputChannel, or OutputChannels.\n";
3414	parseStr += " b. File may not be a valid text file.\n";
3415	free(buf);
3416	delete file;
3417	delete pCLUT;
3418	return NULL__null;
3419	}
3420	icUInt8Number *src = data.GetBuf();
3421	icFloatNumber *dst = pCLUT->GetData(0);
3422
3423	icUInt32Number i;
3424	for (i=0; i<data.GetSize(); i++) {
3425	dst++ = (icFloatNumber)(src++) / 255.0f;
3426	}
3427	}
3428	else if (nType == icConvert16Bit) {
3429	CIccUInt16Array data;
3430
3431	if (!data.ParseTextArrayNum(buf, num, parseStr)) {
3432	parseStr += "File '";
3433	parseStr += filename;
3434	parseStr += "' is not a valid text file.\n";
3435	free(buf);
3436	delete file;
3437	delete pCLUT;
3438	return NULL__null;
3439	}
3440
3441	if (data.GetSize()!=pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3442	parseStr += "Error! - Number of entries in file '";
3443	parseStr += filename;
3444	parseStr += "'is not equal to the size of the CLUT Table.\n";
3445	parseStr += " a. Check values of GridGranularity/GridPoints, InputChannel, or OutputChannels.\n";
3446	parseStr += " b. File may not be a valid text file.\n";
3447	free(buf);
3448	delete file;
3449	delete pCLUT;
3450	return NULL__null;
3451	}
3452	icUInt16Number *src = data.GetBuf();
3453	icFloatNumber *dst = pCLUT->GetData(0);
3454
3455	icUInt32Number i;
3456	for (i=0; i<data.GetSize(); i++) {
3457	dst++ = (icFloatNumber)(src++) / 65535.0f;
3458	}
3459	}
3460	else if (nType == icConvertFloat) {
3461	CIccFloatArray data;
3462
3463	if (!data.ParseTextArrayNum(buf, num, parseStr)) {
3464	parseStr += "File '";
3465	parseStr += filename;
3466	parseStr += "' is not a valid text file.\n";
3467	free(buf);
3468	delete file;
3469	delete pCLUT;
3470	return NULL__null;
3471	}
3472
3473	if (data.GetSize()!=pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3474	parseStr += "Error! - Number of entries in file '";
3475	parseStr += filename;
3476	parseStr += "'is not equal to the size of the CLUT Table.\n";
3477	parseStr += " a. Check values of GridGranularity/GridPoints, InputChannel, or OutputChannels.\n";
3478	parseStr += " b. File may not be a valid text file.\n";
3479	free(buf);
3480	delete file;
3481	delete pCLUT;
3482	return NULL__null;
3483	}
3484	icFloatNumber *src = data.GetBuf();
3485	icFloatNumber *dst = pCLUT->GetData(0);
3486
3487	icUInt32Number i;
3488	for (i=0; i<data.GetSize(); i++) {
3489	dst++ = src++;
3490	}
3491	}
3492	else {
3493	parseStr += "Error! Unknown text data type.\n";
3494	free(buf);
3495	delete file;
3496	delete pCLUT;
3497	return NULL__null;
3498	}
3499	free(buf);
3500	}
3501	else if (!strcmp(format, "binary")) {
3502	const char *order = icXmlAttrValue(table, "Endian");
3503	bool little_endian = !strcmp(order, "little");
3504
3505	if (nType==icConvertVariable) {
3506	//Allow encoding to be defined
3507	const char *encoding = icXmlAttrValue(table, "FileEncoding");
3508
3509	if (!strcmp(encoding, "int8"))
3510	nType = icConvert8Bit;
3511	else if (!strcmp(encoding, "int16"))
3512	nType = icConvert16Bit;
3513	else if (!strcmp(encoding, "float"))
3514	nType = icConvertFloat;
3515	else if (encoding[0]) {
3516	parseStr+= "Unknown encoding \"";
3517	parseStr+= encoding;
3518	parseStr+= "\" - using int16.\n";
3519	nType = icConvert16Bit;
3520	}
3521	else {
3522	parseStr+= "CLUT TableData Encoding type not specified.\n";
3523	}
3524	}
3525
3526	if (nType == icConvert8Bit){
3527	icUInt32Number num = file->GetLength();
3528	icUInt8Number value;
3529	// if number of entries in file is not equal to size of CLUT table, flag as error
3530	if (num!=pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3531	parseStr += "Error! - Number of entries in file '";
3532	parseStr += filename;
3533	parseStr += "'is not equal to the size of the CLUT Table.\n";
3534	parseStr += " a. Check values of GridGranularity/GridPoints, InputChannel, or OutputChannels.\n";
3535	parseStr += " b. File may not be a valid binary file.\n";
3536	delete file;
3537	delete pCLUT;
3538	return NULL__null;
3539	}
3540	icFloatNumber *dst = pCLUT->GetData(0);
3541	icUInt32Number i;
3542	for (i=0; i<num; i++) {
3543	if (!file->Read8(&value)) {
3544	perror("Read-File Error");
3545	parseStr += "'";
3546	parseStr += filename;
3547	parseStr += "' may not be a valid binary file.\n";
3548	delete file;
3549	delete pCLUT;
3550	return NULL__null;
3551	}
3552	*dst++ = (icFloatNumber)value / 255.0f;
3553	}
3554	}
3555	else if (nType == icConvert16Bit){
3556	icUInt32Number num = file->GetLength() / sizeof(icUInt16Number);
3557	icUInt16Number value;
3558	icUInt8Number ptr = (icUInt8Number)&value;
3559
3560	if (num<pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3561	parseStr += "Error! - Number of entries in file '";
3562	parseStr += filename;
3563	parseStr += "'is not equal to the size of the CLUT Table.\n";
3564	parseStr += " a. Check values of GridGranularity/GridPoints, InputChannel, or OutputChannels.\n";
3565	parseStr += " b. File may not be a valid binary file.\n";
3566	delete file;
3567	delete pCLUT;
3568	return NULL__null;
3569	}
3570	icFloatNumber *dst = pCLUT->GetData(0);
3571
3572	icUInt32Number i;
3573	for (i=0; i<num; i++) {
3574	if (!file->Read16(&value)) { //this assumes data is big endian
3575	perror("Read-File Error");
3576	parseStr += "'";
3577	parseStr += filename;
3578	parseStr += "' may not be a valid binary file.\n";
3579	delete file;
3580	delete pCLUT;
3581	return NULL__null;
3582	}
3583	#ifdef ICC_BYTE_ORDER_LITTLE_ENDIAN
3584	if (little_endian) {
3585	#else
3586	if (!little_endian) {
3587	#endif
3588	icUInt8Number t = ptr[0];
3589	ptr[0] = ptr[1];
3590	ptr[1] = t;
3591	}
3592	*dst++ = (icFloatNumber)value / 65535.0f;
3593	}
3594	}
3595	else if (nType == icConvertFloat){
3596	icUInt32Number num = file->GetLength()/sizeof(icFloat32Number);
3597	icFloat32Number value;
3598	icUInt8Number ptr = (icUInt8Number)&value;
3599
3600	if (num<pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3601	parseStr += "Error! - Number of entries in file '";
3602	parseStr += filename;
3603	parseStr += "'is not equal to the size of the CLUT Table.\n";
3604	parseStr += " a. Check values of GridGranularity/GridPoints, InputChannel, or OutputChannels.\n";
3605	parseStr += " b. File may not be a valid binary file.\n";
3606	delete file;
3607	delete pCLUT;
3608	return NULL__null;
3609	}
3610	icFloatNumber *dst = pCLUT->GetData(0);
3611
3612	icUInt32Number i;
3613	for (i=0; i<num; i++) {
3614	if (!file->ReadFloat32Float(&value)) { //this assumes data is big endian
3615	perror("Read-File Error");
3616	parseStr += "'";
3617	parseStr += filename;
3618	parseStr += "' may not be a valid binary file.\n";
3619	delete file;
3620	delete pCLUT;
3621	return NULL__null;
3622	}
3623	#ifdef ICC_BYTE_ORDER_LITTLE_ENDIAN
3624	if (little_endian) {
3625	#else
3626	if (!little_endian) {
3627	#endif
3628	icUInt8Number tmp;
3629	tmp = ptr[0]; ptr[0] = ptr[3]; ptr[3] = tmp;
3630	tmp = ptr[1]; ptr[1] = ptr[2]; ptr[2] = tmp;
3631	}
3632	*dst++ = value;
3633	}
3634	}
3635	else {
3636	parseStr += "Error! Unknown binary data type.\n";
3637	delete file;
3638	delete pCLUT;
3639	return NULL__null;
3640	}
3641
3642	}
3643	else {
3644	parseStr += "Error! Unknown Format type.\n";
3645	delete pCLUT;
3646	return NULL__null;
3647	}
3648
3649	delete file;
3650	}
3651	else { // no file
3652	if (nType == icConvert8Bit) {
3653	CIccUInt8Array data;
3654
3655	if (!data.ParseArray(table->children)) {
3656	parseStr += "Error! - unable to parse data in CLUT.\n";
3657	delete pCLUT;
3658	return NULL__null;
3659	}
3660
3661	if (data.GetSize()!=pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3662	parseStr += "Error! - Number of entries is not equal to the size of the CLUT Table.\n";
3663	delete pCLUT;
3664	return NULL__null;
3665	}
3666	icUInt8Number *src = data.GetBuf();
3667	icFloatNumber *dst = pCLUT->GetData(0);
3668
3669	icUInt32Number i;
3670	for (i=0; i<data.GetSize(); i++) {
3671	dst++ = (icFloatNumber)(src++) / 255.0f;
3672	}
3673	}
3674	else if (nType == icConvert16Bit \|\| nType==icConvertVariable) {
3675	CIccUInt16Array data;
3676
3677	if (!data.ParseArray(table->children)) {
3678	parseStr += "Error! - unable to parse data in CLUT.\n";
3679	delete pCLUT;
3680	return NULL__null;
3681	}
3682
3683	if (data.GetSize()!=pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3684	parseStr += "Error! - Number of entries is not equal to the size of the CLUT Table.\n";
3685	delete pCLUT;
3686	return NULL__null;
3687	}
3688	icUInt16Number *src = data.GetBuf();
3689	icFloatNumber *dst = pCLUT->GetData(0);
3690
3691	icUInt32Number i;
3692	for (i=0; i<data.GetSize(); i++) {
3693	dst++ = (icFloatNumber)(src++) / 65535.0f;
3694	}
3695	}
3696	else if (nType == icConvertFloat){
3697	CIccFloatArray data;
3698
3699	if (!data.ParseArray(table->children)) {
3700	parseStr += "Error! - unable to parse data in CLUT.\n";
3701	delete pCLUT;
3702	return NULL__null;
3703	}
3704
3705	if (data.GetSize()!=pCLUT->NumPoints()*pCLUT->GetOutputChannels()) {
3706	parseStr += "Error! - Number of entries is not equal to the size of the CLUT Table.\n";
3707	delete pCLUT;
3708	return NULL__null;
3709	}
3710	icFloatNumber *src = data.GetBuf();
3711	icFloatNumber *dst = pCLUT->GetData(0);
3712
3713	icUInt32Number i;
3714	for (i=0; i<data.GetSize(); i++) {
3715	dst++ = src++;
3716	}
3717	}
3718	else {
3719	parseStr += "Error! Unknown table data type.";
3720	delete pCLUT;
3721	return NULL__null;
3722	}
3723	}
3724	}
3725	else {
3726	parseStr += "Error! Cannot find table data.";
3727	delete pCLUT;
3728	return NULL__null;
3729	}
3730
3731	return pCLUT;
3732	}
3733
3734	bool icMBBFromXml(CIccMBB pMBB, xmlNode pNode, icConvertType nType, std::string &parseStr)
3735	{
3736	xmlNode *pChannels = icXmlFindNode(pNode, "Channels");
3737
3738	if (!pChannels)
3739	return false;
3740
3741	xmlAttr *in = icXmlFindAttr(pChannels, "InputChannels");
3742	xmlAttr *out = icXmlFindAttr(pChannels, "OutputChannels");
3743
3744	if (!in \|\| !out)
3745	return false;
3746
3747	int nIn = atoi(icXmlAttrValue(in));
3748	int nOut = atoi(icXmlAttrValue(out));
3749
3750	pMBB->Init(nIn, nOut);
3751
3752	for (; pNode; pNode = pNode->next) {
3753	if (pNode->type == XML_ELEMENT_NODE) {
3754	if (!icXmlStrCmp(pNode->name, "ACurves")strcmp((const char )(pNode->name), (const char)("ACurves" )) && !pMBB->GetCurvesA()) {
3755	LPIccCurve *pCurves = pMBB->NewCurvesA();
3756	if (!icCurvesFromXml(pCurves, !pMBB->IsInputB() ? nIn : nOut, pNode->children, nType, parseStr)) {
3757	parseStr += "Error! - Failed to parse ACurves.\n";
3758	return false;
3759	}
3760	}
3761	else if (!icXmlStrCmp(pNode->name, "BCurves")strcmp((const char )(pNode->name), (const char)("BCurves" )) && !pMBB->GetCurvesB()) {
3762	LPIccCurve *pCurves = pMBB->NewCurvesB();
3763	if (!icCurvesFromXml(pCurves, pMBB->IsInputB() ? nIn : nOut, pNode->children, nType, parseStr)) {
3764	parseStr += "Error! - Failed to parse BCurves.\n";
3765	return false;
3766	}
3767	}
3768	else if (!icXmlStrCmp(pNode->name, "MCurves")strcmp((const char )(pNode->name), (const char)("MCurves" )) && !pMBB->GetCurvesM()) {
3769	LPIccCurve *pCurves = pMBB->NewCurvesM();
3770	if (!icCurvesFromXml(pCurves, !pMBB->IsInputMatrix() ? nIn : nOut, pNode->children, nType, parseStr)) {
3771	parseStr += "Error! - Failed to parse MCurves.\n";
3772	return false;
3773	}
3774	}
3775	else if (!icXmlStrCmp(pNode->name, "Matrix")strcmp((const char )(pNode->name), (const char)("Matrix" )) && !pMBB->GetMatrix()) {
3776	CIccMatrix *pMatrix = pMBB->NewMatrix();
3777	if (!icMatrixFromXml(pMatrix, pNode)) {
3778	parseStr += "Error! - Failed to parse Matrix.\n";
3779	return false;
3780	}
3781	}
3782	else if (!icXmlStrCmp(pNode->name, "CLUT")strcmp((const char )(pNode->name), (const char)("CLUT")) && !pMBB->GetCLUT()) {
3783	CIccCLUT *pCLUT = icCLutFromXml(pNode, nIn, nOut, nType, parseStr);
3784	if (pCLUT) {
3785	if (!pMBB->SetCLUT(pCLUT)) {
3786	parseStr += "Error! - Failed to set CLUT to LUT.\n";
3787	return false;
3788	}
3789	}
3790	else {
3791	parseStr += "Error! - Failed to parse CLUT.\n";
3792	return false;
3793	}
3794	}
3795	}
3796	}
3797
3798	return true;
3799	}
3800
3801	bool CIccTagXmlLutAtoB::ToXml(std::string &xml, std::string blanks/* = ""*/)
3802	{
3803	std::string info;
3804
3805	bool rv = icMBBToXml(xml, this, icConvertVariable, blanks, true);
3806
3807	return rv;
3808	}
3809
3810
3811	bool CIccTagXmlLutAtoB::ParseXml(xmlNode *pNode, std::string &parseStr)
3812	{
3813
3814	if (pNode) {
3815	return icMBBFromXml(this, pNode, icConvertVariable, parseStr);
3816	}
3817
3818	return false;
3819	}
3820
3821
3822	bool CIccTagXmlLutBtoA::ToXml(std::string &xml, std::string blanks/* = ""*/)
3823	{
3824	std::string info;
3825
3826	bool rv = icMBBToXml(xml, this, icConvertVariable, blanks, true);
3827
3828	return rv;
3829	}
3830
3831
3832	bool CIccTagXmlLutBtoA::ParseXml(xmlNode *pNode, std::string &parseStr)
3833	{
3834	if (pNode) {
3835	return icMBBFromXml(this, pNode, icConvertVariable, parseStr);
3836	}
3837
3838	return false;
3839	}
3840
3841
3842	bool CIccTagXmlLut8::ToXml(std::string &xml, std::string blanks/* = ""*/)
3843	{
3844	std::string info;
3845
3846	bool rv = icMBBToXml(xml, this, icConvert8Bit, blanks, false);
3847
3848	return rv;
3849	}
3850
3851
3852	bool CIccTagXmlLut8::ParseXml(xmlNode *pNode, std::string &parseStr)
3853	{
3854
3855	if (pNode) {
3856	return icMBBFromXml(this, pNode, icConvert8Bit, parseStr);
3857	}
3858	return false;
3859	}
3860
3861
3862	bool CIccTagXmlLut16::ToXml(std::string &xml, std::string blanks/* = ""*/)
3863	{
3864	std::string info;
3865
3866	bool rv = icMBBToXml(xml, this, icConvert16Bit, blanks, false);
3867
3868	return rv;
3869	}
3870
3871
3872	bool CIccTagXmlLut16::ParseXml(xmlNode *pNode, std::string &parseStr)
3873	{
3874	if (pNode) {
3875	return icMBBFromXml(this, pNode, icConvert16Bit, parseStr);
3876	}
3877	return false;
3878	}
3879
3880
3881	bool CIccTagXmlMultiProcessElement::ToXml(std::string &xml, std::string blanks/* = ""*/)
3882	{
3883	std::string info;
3884	char line[256];
3885
3886	CIccMultiProcessElementList::iterator i;
3887
3888	sprintf(line, "<MultiProcessElements InputChannels=\"%d\" OutputChannels=\"%d\">\n", NumInputChannels(), NumOutputChannels());
3889	xml += blanks + line;
3890
3891	for (i=m_list->begin(); i!=m_list->end(); i++) {
3892	if (i->ptr) {
3893	CIccMultiProcessElement *pMpe = i->ptr;
3894
3895	IIccExtensionMpe *pMpeExt = pMpe->GetExtension();
3896
3897	if (pMpeExt) {
3898	if (!strcmp(pMpeExt->GetExtClassName(), "CIccMpeXml")) {
3899	CIccMpeXml pMpeXml = (CIccMpeXml)pMpeExt;
3900
3901	pMpeXml->ToXml(xml, blanks + " ");
3902	}
3903	else {
3904	return false;
3905	}
3906	}
3907	else {
3908	return false;
3909	}
3910	}
3911	}
3912	xml += blanks + "</MultiProcessElements>\n";
3913	return true;
3914	}
3915
3916
3917	CIccMultiProcessElement CIccTagXmlMultiProcessElement::CreateElement(const icChar szElementNodeName)
3918	{
3919	if (!strcmp(szElementNodeName, "UnknownElement")) {
3920	return new CIccMpeXmlUnknown;
3921	}
3922	if (!strcmp(szElementNodeName, "CurveSetElement")) {
3923	return new CIccMpeXmlCurveSet;
3924	}
3925	if (!strcmp(szElementNodeName, "MatrixElement")) {
3926	return new CIccMpeXmlMatrix;
3927	}
3928	if (!strcmp(szElementNodeName, "CLutElement")) {
3929	return new CIccMpeXmlCLUT;
3930	}
3931	if (!strcmp(szElementNodeName, "ExtCLutElement")) {
3932	return new CIccMpeXmlExtCLUT;
3933	}
3934	if (!strcmp(szElementNodeName, "BAcsElement")) {
3935	return new CIccMpeXmlBAcs;
3936	}
3937	if (!strcmp(szElementNodeName, "EAcsElement")) {
3938	return new CIccMpeXmlEAcs;
3939	}
3940	if (!strcmp(szElementNodeName, "CalculatorElement")) {
3941	return new CIccMpeXmlCalculator;
3942	}
3943	if (!strcmp(szElementNodeName, "JabToXYZElement")) {
3944	return new CIccMpeXmlJabToXYZ;
3945	}
3946	if (!strcmp(szElementNodeName, "XYZToJabElement")) {
3947	return new CIccMpeXmlXYZToJab;
3948	}
3949	if (!strcmp(szElementNodeName, "TintArrayElement")) {
3950	return new CIccMpeXmlTintArray;
3951	}
3952	if (!strcmp(szElementNodeName, "EmissionMatrixElement")) {
3953	return new CIccMpeXmlEmissionMatrix;
3954	}
3955	if (!strcmp(szElementNodeName, "InvEmissionMatrixElement")) {
3956	return new CIccMpeXmlInvEmissionMatrix;
3957	}
3958	if (!strcmp(szElementNodeName, "EmissionCLutElement")) {
3959	return new CIccMpeXmlEmissionCLUT;
3960	}
3961	if (!strcmp(szElementNodeName, "ReflectanceCLutElement")) {
3962	return new CIccMpeXmlReflectanceCLUT;
3963	}
3964	if (!strcmp(szElementNodeName, "EmissionObserverElement")) {
3965	return new CIccMpeXmlEmissionObserver;
3966	}
3967	if (!strcmp(szElementNodeName, "ReflectanceObserverElement")) {
3968	return new CIccMpeXmlReflectanceObserver;
3969	}
3970	return NULL__null;
3971	}
3972
3973
3974	bool CIccTagXmlMultiProcessElement::ParseElement(xmlNode *pNode, std::string &parseStr)
3975	{
3976	xmlAttr *attr;
3977
3978	if (pNode->type != XML_ELEMENT_NODE) {
3979	return false;
3980	}
3981
3982	CIccMultiProcessElement pMpe = CreateElement((const icChar)pNode->name);
3983
3984	if (!pMpe) {
3985	parseStr += std::string("Unknown Element Type (") + (const icChar*)pNode->name + ")\n";
3986	return false;
3987	}
3988
3989	CIccMultiProcessElementPtr ptr;
3990
3991	IIccExtensionMpe *pExt = pMpe->GetExtension();
3992
3993	if (pExt) {
3994	if (!strcmp(pExt->GetExtClassName(), "CIccMpeXml")) {
3995	CIccMpeXml* pXmlMpe = (CIccMpeXml*)pExt;
3996
3997	if (pXmlMpe->ParseXml(pNode, parseStr)) {
3998	if ((attr=icXmlFindAttr(pNode, "Reserved"))) {
3999	sscanf(icXmlAttrValue(attr), "%u", &pMpe->m_nReserved);
4000	}
4001
4002	ptr.ptr = pMpe;
4003	m_list->push_back(ptr);
4004	}
4005	else {
4006	parseStr += std::string("Unable to parse element of type ") + pMpe->GetClassName() + "\n";
4007	delete pMpe;
4008	return false;
4009	}
4010	}
4011	else {
4012	parseStr += std::string("Element ") + pMpe->GetClassName() + "isn't of type CIccMpeXml\n";
4013	delete pMpe;
4014	return false;
4015	}
4016	}
4017	else {
4018	parseStr += std::string("Element ") + pMpe->GetClassName() + "isn't of type CIccMpeXml\n";
4019	delete pMpe;
4020	return false;
4021	}
4022
4023	return true;
4024	}
4025
4026
4027	bool CIccTagXmlMultiProcessElement::ParseXml(xmlNode *pNode, std::string &parseStr)
4028	{
4029	pNode = icXmlFindNode(pNode, "MultiProcessElements");
4030
4031	if (!pNode) {
4032	parseStr += "Cannot Find MultiProcessElements\r\n";
4033	return false;
4034	}
4035
4036	xmlAttr *pInputChannels = icXmlFindAttr(pNode, "InputChannels");
4037	xmlAttr *pOutputChannels = icXmlFindAttr(pNode, "OutputChannels");
4038
4039	if (!pInputChannels \|\| !pOutputChannels) {
4040	parseStr += "Invalid channels in MultiProcessElements\r\n";
4041	return false;
4042	}
4043
4044	m_nInputChannels = atoi(icXmlAttrValue(pInputChannels));
4045	m_nOutputChannels = atoi(icXmlAttrValue(pOutputChannels));
4046
4047	if (!m_list) {
4048	m_list = new CIccMultiProcessElementList();
4049	}
4050	else {
4051	m_list->clear();
4052	}
4053
4054	xmlNode *elemNode;
4055	for (elemNode = pNode->children; elemNode; elemNode = elemNode->next) {
4056	if (elemNode->type == XML_ELEMENT_NODE) {
4057	if (!ParseElement(elemNode, parseStr)) {
4058	char str[100];
4059	parseStr += "Unable to parse element (";
4060	parseStr += (char*)elemNode->name;
4061	sprintf(str, ") starting on line %d\r\n", elemNode->line);
4062	parseStr += str;
4063	return false;
4064	}
4065	}
4066	}
4067
4068	return true;
4069	}
4070
4071
4072	bool CIccTagXmlProfileSequenceId::ToXml(std::string &xml, std::string blanks/* = ""*/)
4073	{
4074	std::string info;
4075
4076	xml += blanks + "<ProfileSequenceId>\n";
4077
4078	CIccProfileIdDescList::iterator pid;
4079
4080	for (pid=m_list->begin(); pid!=m_list->end(); pid++) {
4081	char buf[256];
4082	char data[256];
4083	char fix[256];
4084	std::string bufstr;
4085	int n;
4086
4087	for (n=0; n<16; n++) {
4088	sprintf(buf + n*2, "%02X", pid->m_profileID.ID8[n]);
4089	}
4090	buf[n*2]='\0';
4091	xml += blanks + " <ProfileIdDesc id=\"";
4092	xml += buf;
4093	xml += "\">\n";
4094
4095	if (pid->m_desc.m_Strings) {
4096	CIccMultiLocalizedUnicode::iterator i;
4097
4098	for (i=pid->m_desc.m_Strings->begin(); i!=pid->m_desc.m_Strings->end(); i++) {
4099	sprintf(buf, "<LocalizedText LanguangeCountry=\"%s\"", icFixXml(fix, icGetSigStr(data, (i->m_nLanguageCode<<16) + i->m_nCountryCode)));
4100	xml += blanks + buf;
4101
4102	sprintf(buf, ">%s</LocalizedText>\n", icFixXml(fix, icUtf16ToUtf8(bufstr, i->GetBuf(), i->GetLength())));
4103	xml += buf;
4104	}
4105	}
4106	xml += blanks + " </ProfileIdDesc>\n";
4107	}
4108
4109	xml += blanks + "</ProfileSequenceId>\n";
4110	return true;
4111	}
4112
4113
4114	bool CIccTagXmlProfileSequenceId::ParseXml(xmlNode *pNode, std::string &parseStr)
4115	{
4116	pNode = icXmlFindNode(pNode, "ProfileSequenceId");
4117
4118	if (!pNode)
4119	return false;
4120
4121	m_list->clear();
4122
4123	for (pNode = icXmlFindNode(pNode->children, "ProfileIdDesc"); pNode; pNode = icXmlFindNode(pNode->next, "ProfileIdDesc")) {
4124	CIccProfileIdDesc desc;
4125	const icChar *szDesc = icXmlAttrValue(pNode, "id");
4126
4127	if (szDesc && *szDesc)
4128	icXmlGetHexData(&desc.m_profileID, szDesc, sizeof(desc.m_profileID));
4129
4130	xmlAttr *langCode;
4131
4132	for (pNode = icXmlFindNode(pNode, "LocalizedText"); pNode; pNode = icXmlFindNode(pNode->next, "LocalizedText")) {
4133	if ((langCode = icXmlFindAttr(pNode, "languageCountry")) &&
4134	pNode->children) {
4135	xmlNode *pText;
4136
4137	for (pText = pNode->children; pText && pText->type != XML_TEXT_NODE; pText = pText->next);
4138
4139	if (pText) {
4140	icUInt32Number lc = icGetSigVal(icXmlAttrValue(langCode));
4141	CIccUTF16String str((const char*)pText->content);
4142	desc.m_desc.SetText(str.c_str(), (icLanguageCode)(lc>>16), (icCountryCode)(lc & 0xffff));
4143	}
4144	else {
4145	desc.m_desc.SetText("");
4146	}
4147	}
4148	}
4149	m_list->push_back(desc);
4150	}
4151
4152	return false;
4153	}
4154
4155
4156	bool CIccTagXmlDict::ToXml(std::string &xml, std::string blanks/* = ""*/)
4157	{
4158	std::string info;
4159
4160	CIccNameValueDict::iterator nvp;
4161
4162	for (nvp=m_Dict->begin(); nvp!=m_Dict->end(); nvp++) {
4163	CIccDictEntry *nv = nvp->ptr;
4164	if (!nv)
4165	continue;
4166
4167	char buf[256];
4168	char data[256];
4169	char fix[256];
4170	std::string bufstr;
4171
4172	xml += blanks + " <DictEntry Name=\"";
4173	xml += icFixXml(fix, icUtf16ToUtf8(bufstr, (icUInt16Number*)nv->GetName().c_str(), (int)nv->GetName().size()));
4174	xml += "\"";
4175
4176	if (nv->IsValueSet()) {
4177	xml += " Value=\"";
4178	xml += icFixXml(fix, icUtf16ToUtf8(bufstr, (icUInt16Number*)nv->GetValue().c_str(), (int)nv->GetValue().size()));
4179	xml += "\"";
4180	}
4181
4182	if (!nv->GetNameLocalized() && !nv->GetValueLocalized()) {
4183	xml += "/>\n";
4184	}
4185	else {
4186	xml += "\n";
4187
4188	if (nv->GetNameLocalized()) {
4189	CIccMultiLocalizedUnicode::iterator i;
4190
4191	for (i=nv->GetNameLocalized()->m_Strings->begin(); i!=nv->GetNameLocalized()->m_Strings->end(); i++) {
4192	sprintf(buf, " <LocalizedName LanguageCountry=\"%s\"", icFixXml(fix, icGetSigStr(data, (i->m_nLanguageCode<<16) + i->m_nCountryCode)));
4193	xml += blanks + buf;
4194
4195	sprintf(buf, "><![CDATA[%s]]></LocalizedName>\n", icFixXml(fix, icUtf16ToUtf8(bufstr, i->GetBuf(), i->GetLength())));
4196	xml += buf;
4197	}
4198	}
4199	if (nv->GetValueLocalized()) {
4200	CIccMultiLocalizedUnicode::iterator i;
4201
4202	for (i=nv->GetValueLocalized()->m_Strings->begin(); i!=nv->GetValueLocalized()->m_Strings->end(); i++) {
4203	sprintf(buf, " <LocalizedValue LanguageCountry=\"%s\"", icFixXml(fix, icGetSigStr(data, (i->m_nLanguageCode<<16) + i->m_nCountryCode)));
4204	xml += blanks + buf;
4205
4206	sprintf(buf, "><![CDATA[%s]]></LocalizedValue>\n", icFixXml(fix, icUtf16ToUtf8(bufstr, i->GetBuf(), i->GetLength())));
4207	xml += buf;
4208	}
4209	}
4210	xml += blanks + " </DictEntry>\n";
4211	}
4212	}
4213	return true;
4214	}
4215
4216
4217	bool CIccTagXmlDict::ParseXml(xmlNode *pNode, std::string &parseStr)
4218	{
4219	m_Dict->clear();
4220
4221	for (pNode = icXmlFindNode(pNode, "DictEntry"); pNode; pNode = icXmlFindNode(pNode->next, "DictEntry")) {
4222	CIccDictEntryPtr ptr;
4223	CIccDictEntry *pDesc = new CIccDictEntry();
4224	xmlAttr *pAttr;
4225	CIccUTF16String str;
4226
4227	if (!pDesc)
4228	return false;
4229	ptr.ptr = pDesc;
4230
4231	str = icXmlAttrValue(pNode, "Name", "");
4232	str.ToWString(pDesc->GetName());
4233
4234	pAttr = icXmlFindAttr(pNode, "Value");
4235	if (pAttr) {
4236	std::wstring wstr;
4237	str = icXmlAttrValue(pAttr, "");
4238	str.ToWString(wstr);
4239
4240	pDesc->SetValue(wstr);
4241	}
4242
4243	xmlNode *pChild;
4244
4245	for (pChild = pNode->children; pChild; pChild = pChild->next) {
4246	if (pChild->type == XML_ELEMENT_NODE && !icXmlStrCmp(pChild->name, "LocalizedName")strcmp((const char )(pChild->name), (const char)("LocalizedName" ))) {
4247	CIccTagMultiLocalizedUnicode *pTag = pDesc->GetNameLocalized();
4248	if (!pTag) {
4249	pTag = new CIccTagMultiLocalizedUnicode();
4250	pDesc->SetNameLocalized(pTag);
4251	}
4252
4253	if ((pAttr = icXmlFindAttr(pChild, "LanguageCountry")) && pChild->children) {
4254	xmlNode *pText;
4255	icUInt32Number lc = icGetSigVal(icXmlAttrValue(pAttr));
4256
4257	for (pText = pChild->children; pText && pText->type != XML_TEXT_NODE && pText->type != XML_CDATA_SECTION_NODE; pText = pText->next);
4258
4259	if (pText) {
4260	CIccUTF16String str((const char*)pText->content);
4261
4262	pTag->SetText(str.c_str(), (icLanguageCode)(lc>>16), (icCountryCode)(lc & 0xffff));
4263	}
4264	else {
4265	pTag->SetText("");
4266	}
4267	}
4268	}
4269	else if (pChild->type == XML_ELEMENT_NODE && !icXmlStrCmp(pChild->name, "LocalizedValue")strcmp((const char )(pChild->name), (const char)("LocalizedValue" ))) {
4270	CIccTagMultiLocalizedUnicode *pTag = pDesc->GetValueLocalized();
4271	if (!pTag) {
4272	pTag = new CIccTagMultiLocalizedUnicode();
4273	pDesc->SetValueLocalized(pTag);
4274	}
4275
4276	if ((pAttr = icXmlFindAttr(pChild, "LanguageCountry")) && pChild->children) {
4277	xmlNode *pText;
4278	icUInt32Number lc = icGetSigVal(icXmlAttrValue(pAttr));
4279
4280	for (pText = pChild->children; pText && pText->type != XML_TEXT_NODE && pText->type != XML_CDATA_SECTION_NODE; pText = pText->next);
4281
4282	if (pText) {
4283	CIccUTF16String str((const char*)pText->content);
4284	pTag->SetText(str.c_str(), (icLanguageCode)(lc>>16), (icCountryCode)(lc & 0xffff));
4285	}
4286	else {
4287	pTag->SetText("");
4288	}
4289	}
4290	}
4291	}
4292
4293	m_Dict->push_back(ptr);
4294	}
4295
4296	return true;
4297	}
4298
4299
4300	bool CIccTagXmlStruct::ToXml(std::string &xml, std::string blanks/* = ""*/)
4301	{
4302	std::string info;
4303	char buf[256], fix[256], line[256];
4304	IIccStruct *pStruct = GetStructHandler();
4305
4306	const icChar *structName = ((pStruct != NULL__null) ? pStruct->GetDisplayName() : NULL__null);
4307	blanks += " ";
4308
4309	if (structName && strcmp(structName, "privateStruct")) {
4310	sprintf(line, "<%s> <MemberTags>\n", structName);
4311	}
4312	else {
4313	// print out the struct signature
4314	sprintf(line, "<privateStruct StructSignature=\"%s\"/> <MemberTags>\n", icFixXml(fix, icGetSigStr(buf, m_sigStructType)));
4315	structName = "privateStruct";
4316	}
4317
4318	xml += blanks + line;
4319	TagEntryList::iterator i, j;
4320	std::set<icTagSignature> sigSet;
4321	CIccInfo Fmt;
4322	IccOffsetTagSigMap offsetTags;
4323
4324	for (i=m_ElemEntries->begin(); i!=m_ElemEntries->end(); i++) {
4325	if (sigSet.find(i->TagInfo.sig)==sigSet.end()) {
4326	CIccTag *pTag = FindElem(i->TagInfo.sig);
4327
4328	if (pTag) {
4329	CIccTagXml pTagXml = (CIccTagXml)(pTag->GetExtension());
4330	if (pTagXml) {
4331	IccOffsetTagSigMap::iterator prevTag = offsetTags.find(i->TagInfo.offset);
4332	std::string tagName = ((pStruct!=NULL__null) ? pStruct->GetElemName((icSignature)i->TagInfo.sig) : "");
4333	if (prevTag == offsetTags.end()) {
4334	const icChar* tagSig = icGetTagSigTypeName(pTag->GetType());
4335
4336	if (tagName.size() && strncmp(tagName.c_str(), "PrivateSubTag", 13)) {
4337	sprintf(line, " <%s>", icFixXml(fix, tagName.c_str()));
4338	}
4339	else {
4340	sprintf(line, " <PrivateSubTag TagSignature=\"%s\">", icFixXml(fix, icGetSigStr(buf, i->TagInfo.sig)));
4341	tagName = "PrivateSubTag";
4342	}
4343	xml += blanks + line;
4344
4345	// PrivateType - a type that does not belong to the list in the icc specs - custom for vendor.
4346	if (!strcmp("PrivateType", tagSig))
4347	sprintf(line, " <PrivateType type=\"%s\">\n", icFixXml(fix, icGetSigStr(buf, pTag->GetType())));
4348	else
4349	sprintf(line, " <%s>\n", tagSig); //parent node is the tag type
4350
4351	xml += line;
4352	j = i;
4353	#if 0
4354	// print out the tag signature (there is at least one)
4355	sprintf(line, " <TagSignature>%s</TagSignature>\n", icFixXml(fix, icGetSigStr(buf, i->TagInfo.sig)));
4356	xml += blanks + line;
4357
4358	sigSet.insert(i->TagInfo.sig);
4359
4360	// print out the rest of the tag signatures
4361	for (j++; j != m_ElemEntries->end(); j++) {
4362	if (j->pTag == i->pTag \|\| j->TagInfo.offset == i->TagInfo.offset) {
4363	sprintf(line, " <TagSignature>%s</TagSignature>\n", icFixXml(fix, icGetSigStr(buf, j->TagInfo.sig)));
4364	xml += blanks + line;
4365	sigSet.insert(j->TagInfo.sig);
4366	}
4367	}
4368	// if (pTag->m_nReserved) {
4369	// sprintf(line, " Reserved=\"%08x\"", pTag->m_nReserved);
4370	// xml += line;
4371	// }
4372	// xml += ">\n";
4373	#endif
4374	//convert the rest of the tag to xml
4375	if (!pTagXml->ToXml(xml, blanks + " ")) {
4376	printf("Unable to output sub-tag with type %s\n", icGetSigStr(buf, i->TagInfo.sig));
4377	return false;
4378	}
4379	sprintf(line, " </%s> </%s>\n", tagSig, tagName.c_str());
4380	xml += blanks + line;
4381	offsetTags[i->TagInfo.offset] = i->TagInfo.sig;
4382	}
4383	else {
4384	std::string prevTagName = ((pStruct != NULL__null) ? pStruct->GetElemName(prevTag->second) : "");
4385	char fix2[200];
4386
4387	if (tagName.size() && strncmp(tagName.c_str(), "PrivateSubTag", 13))
4388	sprintf(line, " <%s SameAs=\"%s\"", icFixXml(fix, tagName.c_str()), icFixXml(fix2, prevTagName.c_str())); //parent node is the tag type
4389	else
4390	sprintf(line, " <PrivateSubTag TagSignature=\"%s\" SameAs=\"%s\"", icFixXml(fix2, icGetSigStr(buf, i->TagInfo.sig)), icFixXml(fix, prevTagName.c_str()));
4391
4392	xml += line;
4393	if (prevTagName.size() \|\| !strncmp(prevTagName.c_str(), "PrivateSubTag", 13)) {
4394	sprintf(line, " SameAsSignature=\"%s\"", icFixXml(fix2, icGetSigStr(buf, prevTag->second)));
4395	xml += line;
4396	}
4397
4398	xml += "/>\n";
4399	}
4400	}
4401	else {
4402	printf("Non XML tag in list with type %s!\n", icGetSigStr(buf, i->TagInfo.sig));
4403	return false;
4404	}
4405	}
4406	else {
4407	printf("Unable to find tag with type %s!\n", icGetSigStr(buf, i->TagInfo.sig));
4408	return false;
4409	}
4410	}
4411	}
4412
4413	xml += blanks + "</MemberTags> </" + structName + ">\n";
4414	return true;
4415	}
4416
4417	/**
4418	******************************************************************************
4419	* Name: CIccTagXmlStruct::ParseTag
4420	*
4421	* Purpose: This will load from the indicated IO object and associate a tag
4422	* object to a tag directory entry. Nothing happens if tag directory entry
4423	* is associated with a tag object.
4424	*
4425	* Args:
4426	* pNode - pointer to xmlNode object to parse from
4427	*
4428	* Return:
4429	* true - tag from node successfully parsed,
4430	* false - failure
4431	*******************************************************************************
4432	*/
4433	bool CIccTagXmlStruct::ParseTag(xmlNode *pNode, std::string &parseStr)
4434	{
4435	xmlAttr *attr;
4436
4437	if (pNode->type != XML_ELEMENT_NODE) {// \|\| icXmlStrCmp(pNode->name, "Tag")) {
4438	parseStr += "Invalid Tag Node: ";
4439	parseStr += (const char *)pNode->name;
4440	parseStr += "\n";
4441	return false;
4442	}
4443
4444	CIccTag *pTag = NULL__null;
4445
4446	std::string nodeName = (icChar*)pNode->name;
4447	icSignature sigTag;
4448	if (m_pStruct)
4449	sigTag = m_pStruct->GetElemSig(nodeName.c_str());
4450	else
4451	sigTag = 0;
4452
4453	if (sigTag != 0 \|\| nodeName == "PrivateSubTag") { //Parsing of XML tags by name
4454	if (nodeName == "PrivateSubTag") {
4455	const char *tagSig = icXmlAttrValue(pNode, "TagSignature", "");
4456	if (tagSig[0]) {
4457	sigTag = (icTagSignature)icGetSigVal(tagSig);
4458	}
4459	else {
4460	parseStr += "Invalid TagSignature for PrivateSubTag\n";
4461	return false;
4462	}
4463	}
4464
4465	const char *sameAs = icXmlAttrValue(pNode, "SameAs", "");
4466
4467	if (sameAs[0]) {
4468	icTagSignature sigParentTag = icGetTagNameSig(sameAs);
4469	if (!strcmp(sameAs, "PrivateSubTag") \|\| sigParentTag == icSigUnknownTag((icTagSignature) 0x3f3f3f3f)) {
4470	const char *sameAsSig = icXmlAttrValue(pNode, "SameAsSignature", "");
4471	if (sameAsSig[0]) {
4472	sigParentTag = (icTagSignature)icGetSigVal(sameAsSig);
4473	}
4474	else {
4475	parseStr += "Invalid SameAsSignature for PrivateSubTag\n";
4476	return false;
4477	}
4478	}
4479	pTag = this->FindElem(sigParentTag);
4480	if (pTag) {
4481	AttachElem(sigTag, pTag);
4482	}
4483	else {
4484	parseStr += "SameAs tag ";
4485	parseStr += sameAs;
4486	parseStr += " for ";
4487	parseStr += nodeName + " does not exist\n";
4488	return false;
4489	}
4490
4491	return true;
4492	}
4493	else { //Parse the type node as the first child
4494	xmlNode *pTypeNode;
4495	for (pTypeNode = pNode->children; pTypeNode; pTypeNode = pTypeNode->next) {
4496	if (pTypeNode->type == XML_ELEMENT_NODE) {
4497	break;
4498	}
4499	}
4500
4501	if (!pTypeNode) {
4502	parseStr += "No tag type node defined for ";
4503	parseStr += nodeName;
4504	parseStr += "\n";
4505	return false;
4506	}
4507
4508	// get the tag type signature
4509	icTagTypeSignature sigType = icGetTypeNameTagSig((const icChar*)pTypeNode->name);
4510
4511	if (sigType == icSigUnknownType((icTagTypeSignature) 0x3f3f3f3f)) {
4512	xmlAttr *attr = icXmlFindAttr(pTypeNode, "type");
4513	sigType = (icTagTypeSignature)icGetSigVal((icChar*)icXmlAttrValue(attr));
4514	}
4515
4516	CIccInfo info;
4517
4518	// create a tag based on the signature
4519	pTag = CIccTag::Create(sigType);
4520
4521	IIccExtensionTag *pExt;
4522
4523	if (pTag && (pExt = pTag->GetExtension()) && !strcmp(pExt->GetExtClassName(), "CIccTagXml")) {
4524	CIccTagXml* pXmlTag = (CIccTagXml*)pExt;
4525
4526	if (pXmlTag->ParseXml(pTypeNode->children, parseStr)) {
4527	if ((attr = icXmlFindAttr(pTypeNode, "reserved"))) {
4528	sscanf(icXmlAttrValue(attr), "%u", &pTag->m_nReserved);
4529	}
4530	AttachElem(sigTag, pTag);
4531	}
4532	else {
4533	parseStr += "Unable to Parse \"";
4534	parseStr += (const char*)pTypeNode->name;
4535	parseStr += "\" (";
4536	parseStr += nodeName;
4537	parseStr += ") Tag\n";
4538	return false;
4539	}
4540	}
4541	else {
4542	parseStr += "Invalid tag extension for \"";
4543	parseStr += (const char*)pTypeNode->name;
4544	parseStr += "\" (";
4545	parseStr += nodeName;
4546	parseStr += ") Tag\n";
4547	return false;
4548	}
4549	}
4550	}
4551	else { //Legacy parsing of XML tags by type
4552	sigTag = (icTagSignature)0;
4553	// get the tag type signature
4554	icTagTypeSignature sigType = icGetTypeNameTagSig(nodeName.c_str());
4555
4556	if (sigType == icSigUnknownType((icTagTypeSignature) 0x3f3f3f3f)) {
4557	xmlAttr *attr = icXmlFindAttr(pNode, "type");
4558	sigType = (icTagTypeSignature)icGetSigVal((icChar*)icXmlAttrValue(attr));
4559	}
4560
4561	CIccInfo info;
4562
4563	// create a tag based on the signature
4564	pTag = CIccTag::Create(sigType);
4565
4566	IIccExtensionTag *pExt;
4567
4568	if (pTag && (pExt = pTag->GetExtension()) && !strcmp(pExt->GetExtClassName(), "CIccTagXml")) {
4569	CIccTagXml* pXmlTag = (CIccTagXml*)pExt;
4570
4571	if (pXmlTag->ParseXml(pNode->children, parseStr)) {
4572	if ((attr = icXmlFindAttr(pNode, "reserved"))) {
4573	sscanf(icXmlAttrValue(attr), "%u", &pTag->m_nReserved);
4574	}
4575
4576	for (xmlNode *tagSigNode = pNode->children; tagSigNode; tagSigNode = tagSigNode->next) {
4577	if (tagSigNode->type == XML_ELEMENT_NODE && !icXmlStrCmp(tagSigNode->name, "TagSignature")strcmp((const char )(tagSigNode->name), (const char)("TagSignature" ))) {
4578	sigTag = (icTagSignature)icGetSigVal((const icChar*)tagSigNode->children->content);
4579	AttachElem(sigTag, pTag);
4580	}
4581	}
4582	}
4583	else {
4584	parseStr += "Unable to Parse \"";
4585	parseStr += info.GetTagTypeSigName(sigType);
4586	parseStr += "\" (";
4587	parseStr += nodeName;
4588	parseStr += ") Tag\n";
4589	return false;
4590	}
4591	}
4592	else {
4593	parseStr += "Invalid tag extension for \"";
4594	parseStr += info.GetTagTypeSigName(sigType);
4595	parseStr += "\" (";
4596	parseStr += nodeName;
4597	parseStr += ") Tag\n";
4598	return false;
4599	}
4600	}
4601
4602	return true;
4603	}
4604
4605
4606	bool CIccTagXmlStruct::ParseXml(xmlNode *pNode, std::string &parseStr)
4607	{
4608	// parse each tag
4609	xmlNode tagNode, firstNode=pNode;
4610
4611	for (; pNode; pNode = pNode->next) {
4612	if (pNode->type == XML_ELEMENT_NODE)
4613	break;
4614	}
4615	if (!pNode) {
4616	parseStr += "Invalid Tag Structure: ";
4617	parseStr += (const char *)firstNode->name;
4618	parseStr += "\n";
4619	return false;
4620	}
4621
4622	std::string nodeName = (icChar*)pNode->name;
4623	icStructSignature sigStruct = CIccStructCreator::GetStructSig(nodeName.c_str());
4624
4625	if (sigStruct) {
4626	m_sigStructType = sigStruct;
4627	m_pStruct = CIccStructCreator::CreateStruct(m_sigStructType, this);
4628	pNode = pNode->children;
4629	}
4630	else {
4631	tagNode = icXmlFindNode(firstNode, "StructureSignature");
4632	if (!tagNode) {
4633	parseStr += "Unable to find StructureSignature\r\n";
4634	return false;
4635	}
4636
4637	if (tagNode->type == XML_ELEMENT_NODE && tagNode->children && tagNode->children->content) {
4638	m_sigStructType = (icStructSignature)icGetSigVal(tagNode->children ? (const icChar*)tagNode->children->content : "");
4639	m_pStruct = CIccStructCreator::CreateStruct(m_sigStructType, this);
4640	}
4641	else {
4642	parseStr += "Invalid XNode type for StructureSignature\r\n";
4643	return false;
4644	}
4645	}
4646
4647	tagNode = icXmlFindNode(pNode, "MemberTags");
4648	if (!tagNode) {
4649	parseStr += "Unable to find structure MemberTags\r\n";
4650	return false;
4651	}
4652
4653	for (tagNode = tagNode->children; tagNode; tagNode = tagNode->next) {
4654	if (tagNode->type == XML_ELEMENT_NODE) {
4655	if (!ParseTag(tagNode, parseStr)) {
4656	parseStr += "Failed to parse tag member (";
4657	parseStr += (char*)tagNode->name;
4658	parseStr += ")\r\n";
4659	return false;
4660	}
4661	}
4662	}
4663
4664	return true;
4665	}
4666
4667	bool CIccTagXmlArray::ToXml(std::string &xml, std::string blanks/* = ""*/)
4668	{
4669	std::string info;
4670	char buf[256], fix[256], line[256];
4671
4672	std::string arrayName;
4673	std::string arrayBlanks = "";
4674	bool found = CIccArrayCreator::GetArraySigName(arrayName, m_sigArrayType, false);
4675
4676	if (found) {
4677	sprintf(line, "<%s> ", arrayName.c_str());
4678	arrayBlanks = " ";
4679	}
4680	else {
4681	// print out the struct signature
4682	sprintf(line, "<privateArray StructSignature=\"%s\"/> ", icFixXml(fix, icGetSigStr(buf, m_sigArrayType)));
4683	arrayName = "privateArray";
4684	}
4685
4686	xml += blanks + line + "<ArrayTags>\n";
4687	int i;
4688
4689	for (i=0; i<(int)m_nSize; i++) {
4690	CIccTag* pTag = m_TagVals[i].ptr;
4691	if (pTag) {
4692	CIccTagXml pTagXml = (CIccTagXml)(pTag->GetExtension());
4693	if (pTagXml) {
4694	const icChar* tagSig = icGetTagSigTypeName(pTag->GetType());
4695
4696	// PrivateType - a type that does not belong to the list in the icc specs - custom for vendor.
4697	if ( !strcmp("PrivateType", tagSig) )
4698	sprintf(line, " <PrivateType type=\"%s\">\n", icFixXml(fix, icGetSigStr(buf, pTag->GetType())));
4699	else
4700	sprintf(line, " <%s>\n", tagSig); //parent node is the tag type
4701
4702	xml += blanks + arrayBlanks + line;
4703
4704	//convert the rest of the tag to xml
4705	if (!pTagXml->ToXml(xml, blanks + arrayBlanks + " ")) {
4706	printf("Unable to output tag with type %s\n", icGetSigStr(buf, pTag->GetType()));
4707	return false;
4708	}
4709	sprintf(line, " </%s>\n\n", tagSig);
4710	xml += blanks + arrayBlanks + line;
4711	}
4712	else {
4713	printf("Non XML tag in list with type %s!\n", icGetSigStr(buf, pTag->GetType()));
4714	return false;
4715	}
4716	}
4717	}
4718	xml += blanks + "</ArrayTags> </" + arrayName + ">\n";
4719
4720	return true;
4721	}
4722
4723
4724	bool CIccTagXmlArray::ParseXml(xmlNode *pNode, std::string &parseStr)
4725	{
4726	// parse each tag
4727	xmlNode tagNode, indexNode, *firstNode = pNode;;
4728	xmlAttr *attr;
4729
4730	for (; pNode; pNode = pNode->next) {
4731	if (pNode->type == XML_ELEMENT_NODE)
4732	break;
4733	}
4734	if (!pNode) {
4735	parseStr += "Invalid Tag Array: ";
4736	parseStr += (const char *)firstNode->name;
4737	parseStr += "\n";
4738	return false;
4739	}
4740
4741	std::string nodeName = (icChar*)pNode->name;
4742	icArraySignature sigArray = CIccArrayCreator::GetArraySig(nodeName.c_str());
4743
4744	if (sigArray) {
4745	m_sigArrayType = sigArray;
4746	m_pArray = CIccArrayCreator::CreateArray(m_sigArrayType, this);
4747	pNode = pNode->children;
4748	}
4749	else {
4750	tagNode = icXmlFindNode(firstNode, "ArraySignature");
4751	if (!tagNode) {
4752	parseStr += "Unable to find ArraySignature\r\n";
4753	return false;
4754	}
4755
4756	if (tagNode->type == XML_ELEMENT_NODE && tagNode->children && tagNode->children->content) {
4757	m_sigArrayType = (icArraySignature)icGetSigVal(tagNode->children ? (const icChar*)tagNode->children->content : "");
4758	m_pArray = CIccArrayCreator::CreateArray(m_sigArrayType, this);
4759	}
4760	else {
4761	parseStr += "Invalid XNode type for ArraySignature\r\n";
4762	return false;
4763	}
4764	}
4765
4766	indexNode = icXmlFindNode(pNode, "ArrayTags");
4767	if (!indexNode)
4768	return false;
4769
4770	int nMaxIndex = 0, n=0;
4771	for (tagNode = indexNode->children; tagNode; tagNode = tagNode->next) {
4772	if (tagNode->type == XML_ELEMENT_NODE) {
4773	nMaxIndex++;
4774	}
4775	}
4776	if (!SetSize(nMaxIndex))
4777	return false;
4778
4779	n=0;
4780	for (tagNode = indexNode->children; tagNode; tagNode = tagNode->next) {
4781	if (tagNode->type == XML_ELEMENT_NODE) {
4782	CIccTag *pTag = NULL__null;
4783	icSignature sigTag = (icSignature)0;
4784
4785	// get the tag signature
4786	icTagTypeSignature sigType = icGetTypeNameTagSig ((icChar*) tagNode->name);
4787
4788	if (sigType==icSigUnknownType((icTagTypeSignature) 0x3f3f3f3f)){
4789	xmlAttr *attr = icXmlFindAttr(pNode, "type");
4790	sigType = (icTagTypeSignature)icGetSigVal((icChar*) icXmlAttrValue(attr));
4791	}
4792
4793	CIccInfo info;
4794
4795	// create a tag based on the signature
4796	pTag = CIccTag::Create(sigType);
4797
4798	IIccExtensionTag *pExt;
4799
4800	if (pTag && (pExt = pTag->GetExtension()) && !strcmp(pExt->GetExtClassName(), "CIccTagXml")) {
4801	CIccTagXml* pXmlTag = (CIccTagXml*)pExt;
4802
4803	if (pXmlTag->ParseXml(tagNode->children, parseStr)) {
4804	if ((attr=icXmlFindAttr(pNode, "reserved"))) {
4805	sscanf(icXmlAttrValue(attr), "%u", &pTag->m_nReserved);
4806	}
4807
4808	if (!m_TagVals[n].ptr)
4809	m_TagVals[n].ptr = pTag;
4810	else {
4811	parseStr += "Tag Array Index ";
4812	parseStr += n;
4813	parseStr += " already filled!\r\n";
4814	return false;
4815	}
4816	}
4817	else {
4818	parseStr += "Unable to Parse xml node named \"";
4819	parseStr += (icChar*)tagNode->name;
4820	parseStr += "\"\n\r";
4821	return false;
4822	}
4823	}
4824	n++;
4825	}
4826	}
4827
4828	for (n=0; n<(int)m_nSize; n++) {
4829	if (!m_TagVals[n].ptr) {
4830	parseStr += "Undefined Array Tag at index ";
4831	parseStr += n;
4832	parseStr += "\n";
4833	return false;
4834	}
4835	}
4836
4837	return true;
4838	}
4839
4840	bool CIccTagXmlGamutBoundaryDesc::ToXml(std::string &xml, std::string blanks/* = ""*/)
4841	{
4842	std::string info;
4843	char line[256];
4844	int i;
4845
4846	if (m_NumberOfVertices && (m_PCSValues \|\| m_DeviceValues)) {
4847	xml += blanks + "<Vertices>\n";
4848
4849	if (m_PCSValues) {
4850	sprintf(line, " <PCSValues channels=\"%d\">\n", m_nPCSChannels);
4851	xml += blanks + line;
4852	CIccFloatArray::DumpArray(xml, blanks+" ", m_PCSValues, m_NumberOfVertices*m_nPCSChannels, icConvertFloat, 9);
4853	xml += blanks + " </PCSValues>\n";
4854	}
4855	if (m_DeviceValues) {
4856	sprintf(line, " <DeviceValues channels=\"%d\">\n", m_nDeviceChannels);
4857	xml += blanks + line;
4858	CIccFloatArray::DumpArray(xml, blanks+" ", m_DeviceValues, m_NumberOfVertices*m_nDeviceChannels, icConvertFloat, 8);
4859	xml += blanks + " </DeviceValues>\n";
4860	}
4861	xml += blanks + "</Vertices>\n";
4862	}
4863
4864	if (m_Triangles && m_NumberOfTriangles) {
4865	xml += blanks + "<Triangles>\n";
4866
4867	for (i=0; i<m_NumberOfTriangles; i++) {
4868	sprintf(line, " <T>%u %u %u</T>\n", m_Triangles[i].m_VertexNumbers[0], m_Triangles[i].m_VertexNumbers[1], m_Triangles[i].m_VertexNumbers[2]);
4869	xml += blanks + line;
4870	}
4871
4872	xml += blanks + "</Triangles>\n";
4873	}
4874
4875	return true;
4876	}
4877
4878
4879	bool CIccTagXmlGamutBoundaryDesc::ParseXml(xmlNode *pNode, std::string &parseStr)
4880	{
4881	// parse each tag
4882	xmlNode childNode, subNode;
4883
4884	childNode = icXmlFindNode(pNode, "Vertices");
4885	if (!childNode) {
4886	parseStr += "Cannot find Vertices\n";
4887	return false;
4888	}
4889
4890	subNode = icXmlFindNode(childNode->children, "PCSValues");
4891
4892	if (subNode) {
4893	m_nPCSChannels = atoi(icXmlAttrValue(subNode, "channels", "0"));
4894
4895	if (!m_nPCSChannels) {
4896	parseStr += "Bad PCSValues channels\n";
4897	return false;
4898	}
4899
4900	CIccFloatArray vals;
4901	if (!vals.ParseArray(subNode->children)) {
4902	parseStr += "Unable to parse GamutBoundaryDesc PCSValues\n";
4903	return false;
4904	}
4905
4906	m_NumberOfVertices = vals.GetSize() / m_nPCSChannels;
4907
4908	if (m_NumberOfVertices<4) {
4909	parseStr += "Must have at least 4 PCSValues vertices\n";
4910	return false;
4911	}
4912
4913	m_PCSValues = new icFloatNumber[m_NumberOfVertices * m_nPCSChannels];
4914
4915	if (!m_PCSValues)
4916	return false;
4917
4918	memcpy(m_PCSValues, vals.GetBuf(), m_NumberOfVertices * m_nPCSChannels*sizeof(icFloatNumber));
4919	}
4920	else {
4921	parseStr += "Cannot find PCSValues\n";
4922	return false;
4923	}
4924
4925	subNode = icXmlFindNode(childNode->children, "DeviceValues");
4926
4927	if (subNode) {
4928	m_nDeviceChannels = atoi(icXmlAttrValue(subNode, "channels", "0"));
4929
4930	if (!m_nDeviceChannels) {
4931	parseStr += "Bad DeviceValues channels\n";
4932	return false;
4933	}
4934
4935	CIccFloatArray vals;
4936	if (!vals.ParseArray(subNode->children)) {
4937	parseStr += "Unable to parse GamutBoundaryDesc DeviceValues\n";
4938	return false;
4939	}
4940
4941	int nVertices = vals.GetSize() / m_nDeviceChannels;
4942
4943	if (m_NumberOfVertices != nVertices) {
4944	parseStr += "Number of Device vertices doesn't match PCS verticies\n";
4945	return false;
4946	}
4947
4948	m_DeviceValues = new icFloatNumber[m_NumberOfVertices * m_nDeviceChannels];
4949
4950	if (!m_DeviceValues)
4951	return false;
4952
4953	memcpy(m_DeviceValues, vals.GetBuf(), m_NumberOfVertices * m_nDeviceChannels * sizeof(icFloatNumber));
4954	}
4955	else if (!m_PCSValues)
4956	m_NumberOfVertices = 0;
4957
4958	childNode = icXmlFindNode(pNode, "Triangles");
4959	if (!childNode) {
4960	parseStr += "Cannot find Triangles\n";
4961	return false;
4962	}
4963
4964	int nMaxIndex = 0, n=0;
4965	for (subNode = childNode->children; subNode; subNode = subNode->next) {
4966	if (subNode->type == XML_ELEMENT_NODE && !strcmp((icChar*)subNode->name, "T")) {
4967	nMaxIndex++;
4968	}
4969	}
4970	m_NumberOfTriangles = nMaxIndex;
4971	m_Triangles = new icGamutBoundaryTriangle[m_NumberOfTriangles];
4972
4973	n=0;
4974	for (subNode = childNode->children; subNode && n<nMaxIndex; subNode = subNode->next) {
4975	if (subNode->type == XML_ELEMENT_NODE && !strcmp((icChar*)subNode->name, "T")) {
4976	CIccUInt32Array ids;
4977
4978	if (!ids.ParseArray(subNode->children) \|\| ids.GetSize()!=3) {
4979	parseStr += "Invalid Triangle entry\n";
4980	return false;
4981	}
4982	icUInt32Number *v = ids.GetBuf();
4983
4984	m_Triangles[n].m_VertexNumbers[0] = v[0];
4985	m_Triangles[n].m_VertexNumbers[1] = v[1];
4986	m_Triangles[n].m_VertexNumbers[2] = v[2];
4987
4988	n++;
4989	}
4990	}
4991
4992	return true;
4993	}
4994
4995	bool CIccTagXmlEmbeddedProfile::ParseXml(xmlNode *pNode, std::string &parseStr)
4996	{
4997	// parse each tag
4998	xmlNode *tagNode;
4999
5000	tagNode = icXmlFindNode(pNode, "IccProfile");
5001	if (!tagNode)
5002	return false;
5003
5004	if (m_pProfile) {
5005	delete m_pProfile;
5006	}
5007
5008	CIccProfileXml *pProfile = new CIccProfileXml();
5009	m_pProfile = pProfile;
5010
5011	if (!pProfile->ParseXml(tagNode, parseStr)) {
5012	delete m_pProfile;
5013	m_pProfile = NULL__null;
5014	return false;
5015	}
5016	return true;
5017	}
5018
5019	bool CIccTagXmlEmbeddedProfile::ToXml(std::string &xml, std::string blanks/* = ""*/)
5020	{
5021	if (!m_pProfile \|\| strcmp(m_pProfile->GetClassName(), "CIccProfileXml")) {
5022	return false;
5023	}
5024
5025	CIccProfileXml pProfile = (CIccProfileXml)m_pProfile;
5026
5027	return pProfile->ToXmlWithBlanks(xml, blanks);
5028	}
5029
5030	bool CIccTagXmlEmbeddedHeightImage::ParseXml(xmlNode *pNode, std::string &parseStr)
5031	{
5032	// parse tag
5033	xmlNode *tagNode;
5034
5035	tagNode = icXmlFindNode(pNode, "HeightImage");
5036	if (!tagNode)
5037	return false;
5038
5039	m_nSeamlesIndicator = atoi(icXmlAttrValue(tagNode, "SeamlessIndicator", "0"));
5040	m_nEncodingFormat = (icImageEncodingType)atoi(icXmlAttrValue(tagNode, "EncodingFormat", "0"));
5041	m_fMetersMinPixelValue = (icFloatNumber)atof(icXmlAttrValue(tagNode, "MetersMinPixelValue", "0.0"));
5042	m_fMetersMaxPixelValue = (icFloatNumber)atof(icXmlAttrValue(tagNode, "MetersMaxPixelValue", "0.0"));
5043
5044	xmlNode *pImageNode;
5045	pImageNode = icXmlFindNode(tagNode->children, "Image");
5046
5047	if (pImageNode) {
5048	const char *filename = icXmlAttrValue(pImageNode, "File");
5049	if (!filename \|\| !filename[0]) {
5050	filename = icXmlAttrValue(pImageNode, "Filename");
5051	}
5052
5053	// file exists
5054	if (filename[0]) {
5055	CIccIO *file = IccOpenFileIO(filename, "rb");
5056	if (!file) {
5057	parseStr += "Error! - File '";
5058	parseStr += filename;
5059	parseStr += "' not found.\n";
5060	delete file;
5061	return false;
5062	}
5063
5064	icUInt32Number num = file->GetLength();
5065
5066	SetSize(num);
5067	icUInt8Number *dst = GetData(0);
5068	if (file->Read8(dst, num)!=num) {
5069	perror("Read-File Error");
5070	parseStr += "'";
5071	parseStr += filename;
5072	parseStr += "' may not be a valid binary file.\n";
5073	delete file;
5074	return false;
5075	}
5076	delete file;
5077	return true;
5078	}
5079	// no file
5080	else if (pImageNode->children && pImageNode->children->content){
5081	unsigned long nSize = icXmlGetHexDataSize((const icChar*)pImageNode->children->content);
5082
5083	SetSize(nSize);
5084	if (m_pData) {
5085	if (icXmlGetHexData(m_pData, (const icChar*)pImageNode->children->content, m_nSize) != m_nSize)
5086	return false;
5087	}
5088
5089	return true;
5090	}
5091	}
5092	return false;
5093	}
5094
5095	bool CIccTagXmlEmbeddedHeightImage::ToXml(std::string &xml, std::string blanks/= ""/)
5096	{
5097	char buf[200];
5098
5099	xml += blanks + "<HeightImage";
5100	sprintf(buf, " SeamlessIndicator=\"%d\"", m_nSeamlesIndicator);
5101	xml += buf;
5102
5103	sprintf(buf, " EncodingFormat=\"%d\"", m_nEncodingFormat);
5104	xml += buf;
5105
5106	sprintf(buf, " MetersMinPixelValue=\"%.12f\"", m_fMetersMinPixelValue);
5107	xml += buf;
5108
5109	sprintf(buf, " MetersMaxPixelValue=\"%.12f\"", m_fMetersMaxPixelValue);
5110	xml += buf;
5111
5112	if (!m_nSize) {
5113	xml += blanks + "/>\n";
5114	}
5115	else {
5116	xml += ">\n";
5117	xml += blanks + " <Image>\n";
5118	icXmlDumpHexData(xml, blanks + " ", m_pData, m_nSize);
5119	xml += blanks + " </Image>\n";
5120	xml += blanks + "</HeightImage>\n";
5121	}
5122
5123	return true;
5124	}
5125
5126	bool CIccTagXmlEmbeddedNormalImage::ParseXml(xmlNode *pNode, std::string &parseStr)
5127	{
5128	// parse tag
5129	xmlNode *tagNode;
5130
5131	tagNode = icXmlFindNode(pNode, "NormalImage");
5132	if (!tagNode)
5133	return false;
5134
5135	m_nSeamlesIndicator = atoi(icXmlAttrValue(tagNode, "SeamlessIndicator", "0"));
5136	m_nEncodingFormat = (icImageEncodingType)atoi(icXmlAttrValue(tagNode, "EncodingFormat", "0"));
5137
5138	xmlNode *pImageNode;
5139	pImageNode = icXmlFindNode(tagNode->children, "Image");
5140
5141	if (pImageNode) {
5142	const char *filename = icXmlAttrValue(pImageNode, "File");
5143	if (!filename \|\| !filename[0]) {
5144	filename = icXmlAttrValue(pImageNode, "Filename");
5145	}
5146
5147	// file exists
5148	if (filename[0]) {
5149	CIccIO *file = IccOpenFileIO(filename, "rb");
5150	if (!file) {
5151	parseStr += "Error! - File '";
5152	parseStr += filename;
5153	parseStr += "' not found.\n";
5154	delete file;
5155	return false;
5156	}
5157
5158	icUInt32Number num = file->GetLength();
5159
5160	SetSize(num);
5161	icUInt8Number *dst = GetData(0);
5162	if (file->Read8(dst, num) != num) {
5163	perror("Read-File Error");
5164	parseStr += "'";
5165	parseStr += filename;
5166	parseStr += "' may not be a valid binary file'.\n";
5167	delete file;
5168	return false;
5169	}
5170	delete file;
5171	return true;
5172	}
5173	// no file
5174	else if (pImageNode->children && pImageNode->children->content) {
5175	unsigned long nSize = icXmlGetHexDataSize((const icChar*)pImageNode->children->content);
5176
5177	SetSize(nSize);
5178	if (m_pData) {
5179	if (icXmlGetHexData(m_pData, (const icChar*)pImageNode->children->content, m_nSize) != m_nSize)
5180	return false;
5181	}
5182	return true;
5183	}
5184	}
5185	return false;
5186	}
5187
5188	bool CIccTagXmlEmbeddedNormalImage::ToXml(std::string &xml, std::string blanks/= ""/)
5189	{
5190	char buf[200];
5191
5192	xml += blanks + "<NormalImage";
5193	sprintf(buf, " SeamlessIndicator=\"%d\"", m_nSeamlesIndicator);
5194	xml += buf;
5195
5196	sprintf(buf, " EncodingFormat=\"%d\"", m_nEncodingFormat);
5197	xml += buf;
5198
5199	if (!m_nSize) {
5200	xml += blanks + "/>\n";
5201	}
5202	else {
5203	xml += ">\n";
5204	xml += blanks + " <Image>\n";
5205	icXmlDumpHexData(xml, blanks + " ", m_pData, m_nSize);
5206	xml += blanks + " </Image>\n";
5207	xml += blanks + "</NormalImage>\n";
5208	}
5209
5210	return true;
5211	}
5212
5213
5214	#ifdef USEREFICCMAXNAMESPACE
5215	}
5216	#endif