diff options
Diffstat (limited to 'third_party/lcms2-2.6/src/cmstypes.c')
-rw-r--r-- | third_party/lcms2-2.6/src/cmstypes.c | 5564 |
1 files changed, 5564 insertions, 0 deletions
diff --git a/third_party/lcms2-2.6/src/cmstypes.c b/third_party/lcms2-2.6/src/cmstypes.c new file mode 100644 index 0000000000..06742b5ad6 --- /dev/null +++ b/third_party/lcms2-2.6/src/cmstypes.c @@ -0,0 +1,5564 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2014 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Tag Serialization ----------------------------------------------------------------------------- +// This file implements every single tag and tag type as described in the ICC spec. Some types +// have been deprecated, like ncl and Data. There is no implementation for those types as there +// are no profiles holding them. The programmer can also extend this list by defining his own types +// by using the appropiate plug-in. There are three types of plug ins regarding that. First type +// allows to define new tags using any existing type. Next plug-in type allows to define new types +// and the third one is very specific: allows to extend the number of elements in the multiprocessing +// elements special type. +//-------------------------------------------------------------------------------------------------- + +// Some broken types +#define cmsCorbisBrokenXYZtype ((cmsTagTypeSignature) 0x17A505B8) +#define cmsMonacoBrokenCurveType ((cmsTagTypeSignature) 0x9478ee00) + +// This is the linked list that keeps track of the defined types +typedef struct _cmsTagTypeLinkedList_st { + + cmsTagTypeHandler Handler; + struct _cmsTagTypeLinkedList_st* Next; + +} _cmsTagTypeLinkedList; + +// Some macros to define callbacks. +#define READ_FN(x) Type_##x##_Read +#define WRITE_FN(x) Type_##x##_Write +#define FREE_FN(x) Type_##x##_Free +#define DUP_FN(x) Type_##x##_Dup + +// Helper macro to define a handler. Callbacks do have a fixed naming convention. +#define TYPE_HANDLER(t, x) { (t), READ_FN(x), WRITE_FN(x), DUP_FN(x), FREE_FN(x), NULL, 0 } + +// Helper macro to define a MPE handler. Callbacks do have a fixed naming convention +#define TYPE_MPE_HANDLER(t, x) { (t), READ_FN(x), WRITE_FN(x), GenericMPEdup, GenericMPEfree, NULL, 0 } + +// Register a new type handler. This routine is shared between normal types and MPE. LinkedList points to the optional list head +static +cmsBool RegisterTypesPlugin(cmsContext id, cmsPluginBase* Data, _cmsMemoryClient pos) +{ + cmsPluginTagType* Plugin = (cmsPluginTagType*) Data; + _cmsTagTypePluginChunkType* ctx = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(id, pos); + _cmsTagTypeLinkedList *pt; + + // Calling the function with NULL as plug-in would unregister the plug in. + if (Data == NULL) { + + // There is no need to set free the memory, as pool is destroyed as a whole. + ctx ->TagTypes = NULL; + return TRUE; + } + + // Registering happens in plug-in memory pool. + pt = (_cmsTagTypeLinkedList*) _cmsPluginMalloc(id, sizeof(_cmsTagTypeLinkedList)); + if (pt == NULL) return FALSE; + + pt ->Handler = Plugin ->Handler; + pt ->Next = ctx ->TagTypes; + + ctx ->TagTypes = pt; + + return TRUE; +} + +// Return handler for a given type or NULL if not found. Shared between normal types and MPE. It first tries the additons +// made by plug-ins and then the built-in defaults. +static +cmsTagTypeHandler* GetHandler(cmsTagTypeSignature sig, _cmsTagTypeLinkedList* PluginLinkedList, _cmsTagTypeLinkedList* DefaultLinkedList) +{ + _cmsTagTypeLinkedList* pt; + + for (pt = PluginLinkedList; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Handler.Signature) return &pt ->Handler; + } + + for (pt = DefaultLinkedList; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Handler.Signature) return &pt ->Handler; + } + + return NULL; +} + + +// Auxiliar to convert UTF-32 to UTF-16 in some cases +static +cmsBool _cmsWriteWCharArray(cmsIOHANDLER* io, cmsUInt32Number n, const wchar_t* Array) +{ + cmsUInt32Number i; + + _cmsAssert(io != NULL); + _cmsAssert(!(Array == NULL && n > 0)); + + for (i=0; i < n; i++) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) Array[i])) return FALSE; + } + + return TRUE; +} + +// Auxiliar to read an array of wchar_t +static +cmsBool _cmsReadWCharArray(cmsIOHANDLER* io, cmsUInt32Number n, wchar_t* Array) +{ + cmsUInt32Number i; + cmsUInt16Number tmp; + + _cmsAssert(io != NULL); + + for (i=0; i < n; i++) { + + if (Array != NULL) { + + if (!_cmsReadUInt16Number(io, &tmp)) return FALSE; + Array[i] = (wchar_t) tmp; + } + else { + if (!_cmsReadUInt16Number(io, NULL)) return FALSE; + } + + } + return TRUE; +} + +// To deal with position tables +typedef cmsBool (* PositionTableEntryFn)(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag); + +// Helper function to deal with position tables as decribed in ICC spec 4.3 +// A table of n elements is readed, where first comes n records containing offsets and sizes and +// then a block containing the data itself. This allows to reuse same data in more than one entry +static +cmsBool ReadPositionTable(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number Count, + cmsUInt32Number BaseOffset, + void *Cargo, + PositionTableEntryFn ElementFn) +{ + cmsUInt32Number i; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL; + + // Let's take the offsets to each element + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + for (i=0; i < Count; i++) { + + if (!_cmsReadUInt32Number(io, &ElementOffsets[i])) goto Error; + if (!_cmsReadUInt32Number(io, &ElementSizes[i])) goto Error; + + ElementOffsets[i] += BaseOffset; + } + + // Seek to each element and read it + for (i=0; i < Count; i++) { + + if (!io -> Seek(io, ElementOffsets[i])) goto Error; + + // This is the reader callback + if (!ElementFn(self, io, Cargo, i, ElementSizes[i])) goto Error; + } + + // Success + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return FALSE; +} + +// Same as anterior, but for write position tables +static +cmsBool WritePositionTable(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number SizeOfTag, + cmsUInt32Number Count, + cmsUInt32Number BaseOffset, + void *Cargo, + PositionTableEntryFn ElementFn) +{ + cmsUInt32Number i; + cmsUInt32Number DirectoryPos, CurrentPos, Before; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL; + + // Create table + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + // Keep starting position of curve offsets + DirectoryPos = io ->Tell(io); + + // Write a fake directory to be filled latter on + for (i=0; i < Count; i++) { + + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // Offset + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // size + } + + // Write each element. Keep track of the size as well. + for (i=0; i < Count; i++) { + + Before = io ->Tell(io); + ElementOffsets[i] = Before - BaseOffset; + + // Callback to write... + if (!ElementFn(self, io, Cargo, i, SizeOfTag)) goto Error; + + // Now the size + ElementSizes[i] = io ->Tell(io) - Before; + } + + // Write the directory + CurrentPos = io ->Tell(io); + if (!io ->Seek(io, DirectoryPos)) goto Error; + + for (i=0; i < Count; i++) { + if (!_cmsWriteUInt32Number(io, ElementOffsets[i])) goto Error; + if (!_cmsWriteUInt32Number(io, ElementSizes[i])) goto Error; + } + + if (!io ->Seek(io, CurrentPos)) goto Error; + + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return FALSE; +} + + +// ******************************************************************************** +// Type XYZ. Only one value is allowed +// ******************************************************************************** + +//The XYZType contains an array of three encoded values for the XYZ tristimulus +//values. Tristimulus values must be non-negative. The signed encoding allows for +//implementation optimizations by minimizing the number of fixed formats. + + +static +void *Type_XYZ_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsCIEXYZ* xyz; + + *nItems = 0; + xyz = (cmsCIEXYZ*) _cmsMallocZero(self ->ContextID, sizeof(cmsCIEXYZ)); + if (xyz == NULL) return NULL; + + if (!_cmsReadXYZNumber(io, xyz)) { + _cmsFree(self ->ContextID, xyz); + return NULL; + } + + *nItems = 1; + return (void*) xyz; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_XYZ_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + return _cmsWriteXYZNumber(io, (cmsCIEXYZ*) Ptr); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_XYZ_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsCIEXYZ)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_XYZ_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +static +cmsTagTypeSignature DecideXYZtype(cmsFloat64Number ICCVersion, const void *Data) +{ + return cmsSigXYZType; + + cmsUNUSED_PARAMETER(ICCVersion); + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type chromaticity. Only one value is allowed +// ******************************************************************************** +// The chromaticity tag type provides basic chromaticity data and type of +// phosphors or colorants of a monitor to applications and utilities. + +static +void *Type_Chromaticity_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsCIExyYTRIPLE* chrm; + cmsUInt16Number nChans, Table; + + *nItems = 0; + chrm = (cmsCIExyYTRIPLE*) _cmsMallocZero(self ->ContextID, sizeof(cmsCIExyYTRIPLE)); + if (chrm == NULL) return NULL; + + if (!_cmsReadUInt16Number(io, &nChans)) goto Error; + + // Let's recover from a bug introduced in early versions of lcms1 + if (nChans == 0 && SizeOfTag == 32) { + + if (!_cmsReadUInt16Number(io, NULL)) goto Error; + if (!_cmsReadUInt16Number(io, &nChans)) goto Error; + } + + if (nChans != 3) goto Error; + + if (!_cmsReadUInt16Number(io, &Table)) goto Error; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Red.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Red.y)) goto Error; + + chrm ->Red.Y = 1.0; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Green.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Green.y)) goto Error; + + chrm ->Green.Y = 1.0; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Blue.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Blue.y)) goto Error; + + chrm ->Blue.Y = 1.0; + + *nItems = 1; + return (void*) chrm; + +Error: + _cmsFree(self ->ContextID, (void*) chrm); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool SaveOneChromaticity(cmsFloat64Number x, cmsFloat64Number y, cmsIOHANDLER* io) +{ + if (!_cmsWriteUInt32Number(io, _cmsDoubleTo15Fixed16(x))) return FALSE; + if (!_cmsWriteUInt32Number(io, _cmsDoubleTo15Fixed16(y))) return FALSE; + + return TRUE; +} + +static +cmsBool Type_Chromaticity_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsCIExyYTRIPLE* chrm = (cmsCIExyYTRIPLE*) Ptr; + + if (!_cmsWriteUInt16Number(io, 3)) return FALSE; // nChannels + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; // Table + + if (!SaveOneChromaticity(chrm -> Red.x, chrm -> Red.y, io)) return FALSE; + if (!SaveOneChromaticity(chrm -> Green.x, chrm -> Green.y, io)) return FALSE; + if (!SaveOneChromaticity(chrm -> Blue.x, chrm -> Blue.y, io)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Chromaticity_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsCIExyYTRIPLE)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Chromaticity_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigColorantOrderType +// ******************************************************************************** + +// This is an optional tag which specifies the laydown order in which colorants will +// be printed on an n-colorant device. The laydown order may be the same as the +// channel generation order listed in the colorantTableTag or the channel order of a +// colour space such as CMYK, in which case this tag is not needed. When this is not +// the case (for example, ink-towers sometimes use the order KCMY), this tag may be +// used to specify the laydown order of the colorants. + + +static +void *Type_ColorantOrderType_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number* ColorantOrder; + cmsUInt32Number Count; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + if (Count > cmsMAXCHANNELS) return NULL; + + ColorantOrder = (cmsUInt8Number*) _cmsCalloc(self ->ContextID, cmsMAXCHANNELS, sizeof(cmsUInt8Number)); + if (ColorantOrder == NULL) return NULL; + + // We use FF as end marker + memset(ColorantOrder, 0xFF, cmsMAXCHANNELS * sizeof(cmsUInt8Number)); + + if (io ->Read(io, ColorantOrder, sizeof(cmsUInt8Number), Count) != Count) { + + _cmsFree(self ->ContextID, (void*) ColorantOrder); + return NULL; + } + + *nItems = 1; + return (void*) ColorantOrder; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_ColorantOrderType_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt8Number* ColorantOrder = (cmsUInt8Number*) Ptr; + cmsUInt32Number i, sz, Count; + + // Get the length + for (Count=i=0; i < cmsMAXCHANNELS; i++) { + if (ColorantOrder[i] != 0xFF) Count++; + } + + if (!_cmsWriteUInt32Number(io, Count)) return FALSE; + + sz = Count * sizeof(cmsUInt8Number); + if (!io -> Write(io, sz, ColorantOrder)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_ColorantOrderType_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, cmsMAXCHANNELS * sizeof(cmsUInt8Number)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_ColorantOrderType_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigS15Fixed16ArrayType +// ******************************************************************************** +// This type represents an array of generic 4-byte/32-bit fixed point quantity. +// The number of values is determined from the size of the tag. + +static +void *Type_S15Fixed16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsFloat64Number* array_double; + cmsUInt32Number i, n; + + *nItems = 0; + n = SizeOfTag / sizeof(cmsUInt32Number); + array_double = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, n, sizeof(cmsFloat64Number)); + if (array_double == NULL) return NULL; + + for (i=0; i < n; i++) { + + if (!_cmsRead15Fixed16Number(io, &array_double[i])) { + + _cmsFree(self ->ContextID, array_double); + return NULL; + } + } + + *nItems = n; + return (void*) array_double; +} + +static +cmsBool Type_S15Fixed16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsFloat64Number* Value = (cmsFloat64Number*) Ptr; + cmsUInt32Number i; + + for (i=0; i < nItems; i++) { + + if (!_cmsWrite15Fixed16Number(io, Value[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_S15Fixed16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsFloat64Number)); +} + + +static +void Type_S15Fixed16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigU16Fixed16ArrayType +// ******************************************************************************** +// This type represents an array of generic 4-byte/32-bit quantity. +// The number of values is determined from the size of the tag. + + +static +void *Type_U16Fixed16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsFloat64Number* array_double; + cmsUInt32Number v; + cmsUInt32Number i, n; + + *nItems = 0; + n = SizeOfTag / sizeof(cmsUInt32Number); + array_double = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, n, sizeof(cmsFloat64Number)); + if (array_double == NULL) return NULL; + + for (i=0; i < n; i++) { + + if (!_cmsReadUInt32Number(io, &v)) { + _cmsFree(self ->ContextID, (void*) array_double); + return NULL; + } + + // Convert to cmsFloat64Number + array_double[i] = (cmsFloat64Number) (v / 65536.0); + } + + *nItems = n; + return (void*) array_double; +} + +static +cmsBool Type_U16Fixed16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsFloat64Number* Value = (cmsFloat64Number*) Ptr; + cmsUInt32Number i; + + for (i=0; i < nItems; i++) { + + cmsUInt32Number v = (cmsUInt32Number) floor(Value[i]*65536.0 + 0.5); + + if (!_cmsWriteUInt32Number(io, v)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_U16Fixed16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsFloat64Number)); +} + +static +void Type_U16Fixed16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigSignatureType +// ******************************************************************************** +// +// The signatureType contains a four-byte sequence, Sequences of less than four +// characters are padded at the end with spaces, 20h. +// Typically this type is used for registered tags that can be displayed on many +// development systems as a sequence of four characters. + +static +void *Type_Signature_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSignature* SigPtr = (cmsSignature*) _cmsMalloc(self ->ContextID, sizeof(cmsSignature)); + if (SigPtr == NULL) return NULL; + + if (!_cmsReadUInt32Number(io, SigPtr)) return NULL; + *nItems = 1; + + return SigPtr; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_Signature_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSignature* SigPtr = (cmsSignature*) Ptr; + + return _cmsWriteUInt32Number(io, *SigPtr); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Signature_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsSignature)); +} + +static +void Type_Signature_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigTextType +// ******************************************************************************** +// +// The textType is a simple text structure that contains a 7-bit ASCII text string. +// The length of the string is obtained by subtracting 8 from the element size portion +// of the tag itself. This string must be terminated with a 00h byte. + +static +void *Type_Text_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + char* Text = NULL; + cmsMLU* mlu = NULL; + + // Create a container + mlu = cmsMLUalloc(self ->ContextID, 1); + if (mlu == NULL) return NULL; + + *nItems = 0; + + // We need to store the "\0" at the end, so +1 + if (SizeOfTag == UINT_MAX) goto Error; + + Text = (char*) _cmsMalloc(self ->ContextID, SizeOfTag + 1); + if (Text == NULL) goto Error; + + if (io -> Read(io, Text, sizeof(char), SizeOfTag) != SizeOfTag) goto Error; + + // Make sure text is properly ended + Text[SizeOfTag] = 0; + *nItems = 1; + + // Keep the result + if (!cmsMLUsetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text)) goto Error; + + _cmsFree(self ->ContextID, Text); + return (void*) mlu; + +Error: + if (mlu != NULL) + cmsMLUfree(mlu); + if (Text != NULL) + _cmsFree(self ->ContextID, Text); + + return NULL; +} + +// The conversion implies to choose a language. So, we choose the actual language. +static +cmsBool Type_Text_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + cmsUInt32Number size; + cmsBool rc; + char* Text; + + // Get the size of the string. Note there is an extra "\0" at the end + size = cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, NULL, 0); + if (size == 0) return FALSE; // Cannot be zero! + + // Create memory + Text = (char*) _cmsMalloc(self ->ContextID, size); + if (Text == NULL) return FALSE; + + cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text, size); + + // Write it, including separator + rc = io ->Write(io, size, Text); + + _cmsFree(self ->ContextID, Text); + return rc; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_Text_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_Text_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + cmsMLUfree(mlu); + return; + + cmsUNUSED_PARAMETER(self); +} + +static +cmsTagTypeSignature DecideTextType(cmsFloat64Number ICCVersion, const void *Data) +{ + if (ICCVersion >= 4.0) + return cmsSigMultiLocalizedUnicodeType; + + return cmsSigTextType; + + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type cmsSigDataType +// ******************************************************************************** + +// General purpose data type +static +void *Type_Data_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCData* BinData; + cmsUInt32Number LenOfData; + + *nItems = 0; + + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + + LenOfData = SizeOfTag - sizeof(cmsUInt32Number); + if (LenOfData > INT_MAX) return NULL; + + BinData = (cmsICCData*) _cmsMalloc(self ->ContextID, sizeof(cmsICCData) + LenOfData - 1); + if (BinData == NULL) return NULL; + + BinData ->len = LenOfData; + if (!_cmsReadUInt32Number(io, &BinData->flag)) { + _cmsFree(self ->ContextID, BinData); + return NULL; + } + + if (io -> Read(io, BinData ->data, sizeof(cmsUInt8Number), LenOfData) != LenOfData) { + + _cmsFree(self ->ContextID, BinData); + return NULL; + } + + *nItems = 1; + + return (void*) BinData; +} + + +static +cmsBool Type_Data_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCData* BinData = (cmsICCData*) Ptr; + + if (!_cmsWriteUInt32Number(io, BinData ->flag)) return FALSE; + + return io ->Write(io, BinData ->len, BinData ->data); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Data_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsICCData* BinData = (cmsICCData*) Ptr; + + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsICCData) + BinData ->len - 1); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Data_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigTextDescriptionType +// ******************************************************************************** + +static +void *Type_Text_Description_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + char* Text = NULL; + cmsMLU* mlu = NULL; + cmsUInt32Number AsciiCount; + cmsUInt32Number i, UnicodeCode, UnicodeCount; + cmsUInt16Number ScriptCodeCode, Dummy; + cmsUInt8Number ScriptCodeCount; + + *nItems = 0; + + // One dword should be there + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + + // Read len of ASCII + if (!_cmsReadUInt32Number(io, &AsciiCount)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Check for size + if (SizeOfTag < AsciiCount) return NULL; + + // All seems Ok, allocate the container + mlu = cmsMLUalloc(self ->ContextID, 1); + if (mlu == NULL) return NULL; + + // As many memory as size of tag + Text = (char*) _cmsMalloc(self ->ContextID, AsciiCount + 1); + if (Text == NULL) goto Error; + + // Read it + if (io ->Read(io, Text, sizeof(char), AsciiCount) != AsciiCount) goto Error; + SizeOfTag -= AsciiCount; + + // Make sure there is a terminator + Text[AsciiCount] = 0; + + // Set the MLU entry. From here we can be tolerant to wrong types + if (!cmsMLUsetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text)) goto Error; + _cmsFree(self ->ContextID, (void*) Text); + Text = NULL; + + // Skip Unicode code + if (SizeOfTag < 2* sizeof(cmsUInt32Number)) goto Done; + if (!_cmsReadUInt32Number(io, &UnicodeCode)) goto Done; + if (!_cmsReadUInt32Number(io, &UnicodeCount)) goto Done; + SizeOfTag -= 2* sizeof(cmsUInt32Number); + + if (SizeOfTag < UnicodeCount*sizeof(cmsUInt16Number)) goto Done; + + for (i=0; i < UnicodeCount; i++) { + if (!io ->Read(io, &Dummy, sizeof(cmsUInt16Number), 1)) goto Done; + } + SizeOfTag -= UnicodeCount*sizeof(cmsUInt16Number); + + // Skip ScriptCode code if present. Some buggy profiles does have less + // data that stricttly required. We need to skip it as this type may come + // embedded in other types. + + if (SizeOfTag >= sizeof(cmsUInt16Number) + sizeof(cmsUInt8Number) + 67) { + + if (!_cmsReadUInt16Number(io, &ScriptCodeCode)) goto Done; + if (!_cmsReadUInt8Number(io, &ScriptCodeCount)) goto Done; + + // Skip rest of tag + for (i=0; i < 67; i++) { + if (!io ->Read(io, &Dummy, sizeof(cmsUInt8Number), 1)) goto Error; + } + } + +Done: + + *nItems = 1; + return mlu; + +Error: + if (Text) _cmsFree(self ->ContextID, (void*) Text); + if (mlu) cmsMLUfree(mlu); + return NULL; +} + + +// This tag can come IN UNALIGNED SIZE. In order to prevent issues, we force zeros on description to align it +static +cmsBool Type_Text_Description_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + char *Text = NULL; + wchar_t *Wide = NULL; + cmsUInt32Number len, len_aligned, len_filler_alignment; + cmsBool rc = FALSE; + char Filler[68]; + + // Used below for writting zeroes + memset(Filler, 0, sizeof(Filler)); + + // Get the len of string + len = cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, NULL, 0); + + // From ICC3.4: It has been found that textDescriptionType can contain misaligned data + //(see clause 4.1 for the definition of “aligned?. Because the Unicode language + // code and Unicode count immediately follow the ASCII description, their + // alignment is not correct if the ASCII count is not a multiple of four. The + // ScriptCode code is misaligned when the ASCII count is odd. Profile reading and + // writing software must be written carefully in order to handle these alignment + // problems. + + // Compute an aligned size + len_aligned = _cmsALIGNLONG(len); + len_filler_alignment = len_aligned - len; + + // Null strings + if (len <= 0) { + + Text = (char*) _cmsDupMem(self ->ContextID, "", sizeof(char)); + Wide = (wchar_t*) _cmsDupMem(self ->ContextID, L"", sizeof(wchar_t)); + } + else { + // Create independent buffers + Text = (char*) _cmsCalloc(self ->ContextID, len, sizeof(char)); + if (Text == NULL) goto Error; + + Wide = (wchar_t*) _cmsCalloc(self ->ContextID, len, sizeof(wchar_t)); + if (Wide == NULL) goto Error; + + // Get both representations. + cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text, len * sizeof(char)); + cmsMLUgetWide(mlu, cmsNoLanguage, cmsNoCountry, Wide, len * sizeof(wchar_t)); + } + + // * cmsUInt32Number count; * Description length + // * cmsInt8Number desc[count] * NULL terminated ascii string + // * cmsUInt32Number ucLangCode; * UniCode language code + // * cmsUInt32Number ucCount; * UniCode description length + // * cmsInt16Number ucDesc[ucCount];* The UniCode description + // * cmsUInt16Number scCode; * ScriptCode code + // * cmsUInt8Number scCount; * ScriptCode count + // * cmsInt8Number scDesc[67]; * ScriptCode Description + + if (!_cmsWriteUInt32Number(io, len_aligned)) goto Error; + if (!io ->Write(io, len, Text)) goto Error; + if (!io ->Write(io, len_filler_alignment, Filler)) goto Error; + + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // ucLanguageCode + + // This part is tricky: we need an aligned tag size, and the ScriptCode part + // takes 70 bytes, so we need 2 extra bytes to do the alignment + + if (!_cmsWriteUInt32Number(io, len_aligned+1)) goto Error; + + // Note that in some compilers sizeof(cmsUInt16Number) != sizeof(wchar_t) + if (!_cmsWriteWCharArray(io, len, Wide)) goto Error; + if (!_cmsWriteUInt16Array(io, len_filler_alignment+1, (cmsUInt16Number*) Filler)) goto Error; + + // ScriptCode Code & count (unused) + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + if (!_cmsWriteUInt8Number(io, 0)) goto Error; + + if (!io ->Write(io, 67, Filler)) goto Error; + + rc = TRUE; + +Error: + if (Text) _cmsFree(self ->ContextID, Text); + if (Wide) _cmsFree(self ->ContextID, Wide); + + return rc; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_Text_Description_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_Text_Description_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + + cmsMLUfree(mlu); + return; + + cmsUNUSED_PARAMETER(self); +} + + +static +cmsTagTypeSignature DecideTextDescType(cmsFloat64Number ICCVersion, const void *Data) +{ + if (ICCVersion >= 4.0) + return cmsSigMultiLocalizedUnicodeType; + + return cmsSigTextDescriptionType; + + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type cmsSigCurveType +// ******************************************************************************** + +static +void *Type_Curve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number Count; + cmsToneCurve* NewGamma; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + switch (Count) { + + case 0: // Linear. + { + cmsFloat64Number SingleGamma = 1.0; + + NewGamma = cmsBuildParametricToneCurve(self ->ContextID, 1, &SingleGamma); + if (!NewGamma) return NULL; + *nItems = 1; + return NewGamma; + } + + case 1: // Specified as the exponent of gamma function + { + cmsUInt16Number SingleGammaFixed; + cmsFloat64Number SingleGamma; + + if (!_cmsReadUInt16Number(io, &SingleGammaFixed)) return NULL; + SingleGamma = _cms8Fixed8toDouble(SingleGammaFixed); + + *nItems = 1; + return cmsBuildParametricToneCurve(self ->ContextID, 1, &SingleGamma); + } + + default: // Curve + + if (Count > 0x7FFF) + return NULL; // This is to prevent bad guys for doing bad things + + NewGamma = cmsBuildTabulatedToneCurve16(self ->ContextID, Count, NULL); + if (!NewGamma) return NULL; + + if (!_cmsReadUInt16Array(io, Count, NewGamma -> Table16)) return NULL; + + *nItems = 1; + return NewGamma; + } + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Curve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Ptr; + + if (Curve ->nSegments == 1 && Curve ->Segments[0].Type == 1) { + + // Single gamma, preserve number + cmsUInt16Number SingleGammaFixed = _cmsDoubleTo8Fixed8(Curve ->Segments[0].Params[0]); + + if (!_cmsWriteUInt32Number(io, 1)) return FALSE; + if (!_cmsWriteUInt16Number(io, SingleGammaFixed)) return FALSE; + return TRUE; + + } + + if (!_cmsWriteUInt32Number(io, Curve ->nEntries)) return FALSE; + return _cmsWriteUInt16Array(io, Curve ->nEntries, Curve ->Table16); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Curve_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupToneCurve((cmsToneCurve*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_Curve_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsToneCurve* gamma = (cmsToneCurve*) Ptr; + + cmsFreeToneCurve(gamma); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigParametricCurveType +// ******************************************************************************** + + +// Decide which curve type to use on writting +static +cmsTagTypeSignature DecideCurveType(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Data; + + if (ICCVersion < 4.0) return cmsSigCurveType; + if (Curve ->nSegments != 1) return cmsSigCurveType; // Only 1-segment curves can be saved as parametric + if (Curve ->Segments[0].Type < 0) return cmsSigCurveType; // Only non-inverted curves + if (Curve ->Segments[0].Type > 5) return cmsSigCurveType; // Only ICC parametric curves + + return cmsSigParametricCurveType; +} + +static +void *Type_ParametricCurve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + static const int ParamsByType[] = { 1, 3, 4, 5, 7 }; + cmsFloat64Number Params[10]; + cmsUInt16Number Type; + int i, n; + cmsToneCurve* NewGamma; + + if (!_cmsReadUInt16Number(io, &Type)) return NULL; + if (!_cmsReadUInt16Number(io, NULL)) return NULL; // Reserved + + if (Type > 4) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown parametric curve type '%d'", Type); + return NULL; + } + + memset(Params, 0, sizeof(Params)); + n = ParamsByType[Type]; + + for (i=0; i < n; i++) { + + if (!_cmsRead15Fixed16Number(io, &Params[i])) return NULL; + } + + NewGamma = cmsBuildParametricToneCurve(self ->ContextID, Type+1, Params); + + *nItems = 1; + return NewGamma; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_ParametricCurve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Ptr; + int i, nParams, typen; + static const int ParamsByType[] = { 0, 1, 3, 4, 5, 7 }; + + typen = Curve -> Segments[0].Type; + + if (Curve ->nSegments > 1 || typen < 1) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Multisegment or Inverted parametric curves cannot be written"); + return FALSE; + } + + if (typen > 5) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported parametric curve"); + return FALSE; + } + + nParams = ParamsByType[typen]; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) (Curve ->Segments[0].Type - 1))) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; // Reserved + + for (i=0; i < nParams; i++) { + + if (!_cmsWrite15Fixed16Number(io, Curve -> Segments[0].Params[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_ParametricCurve_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupToneCurve((cmsToneCurve*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ParametricCurve_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsToneCurve* gamma = (cmsToneCurve*) Ptr; + + cmsFreeToneCurve(gamma); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigDateTimeType +// ******************************************************************************** + +// A 12-byte value representation of the time and date, where the byte usage is assigned +// as specified in table 1. The actual values are encoded as 16-bit unsigned integers +// (uInt16Number - see 5.1.6). +// +// All the dateTimeNumber values in a profile shall be in Coordinated Universal Time +// (UTC, also known as GMT or ZULU Time). Profile writers are required to convert local +// time to UTC when setting these values. Programmes that display these values may show +// the dateTimeNumber as UTC, show the equivalent local time (at current locale), or +// display both UTC and local versions of the dateTimeNumber. + +static +void *Type_DateTime_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsDateTimeNumber timestamp; + struct tm * NewDateTime; + + *nItems = 0; + NewDateTime = (struct tm*) _cmsMalloc(self ->ContextID, sizeof(struct tm)); + if (NewDateTime == NULL) return NULL; + + if (io->Read(io, ×tamp, sizeof(cmsDateTimeNumber), 1) != 1) return NULL; + + _cmsDecodeDateTimeNumber(×tamp, NewDateTime); + + *nItems = 1; + return NewDateTime; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_DateTime_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + struct tm * DateTime = (struct tm*) Ptr; + cmsDateTimeNumber timestamp; + + _cmsEncodeDateTimeNumber(×tamp, DateTime); + if (!io ->Write(io, sizeof(cmsDateTimeNumber), ×tamp)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_DateTime_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(struct tm)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_DateTime_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + + +// ******************************************************************************** +// Type icMeasurementType +// ******************************************************************************** + +/* +The measurementType information refers only to the internal profile data and is +meant to provide profile makers an alternative to the default measurement +specifications. +*/ + +static +void *Type_Measurement_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCMeasurementConditions mc; + + + memset(&mc, 0, sizeof(mc)); + + if (!_cmsReadUInt32Number(io, &mc.Observer)) return NULL; + if (!_cmsReadXYZNumber(io, &mc.Backing)) return NULL; + if (!_cmsReadUInt32Number(io, &mc.Geometry)) return NULL; + if (!_cmsRead15Fixed16Number(io, &mc.Flare)) return NULL; + if (!_cmsReadUInt32Number(io, &mc.IlluminantType)) return NULL; + + *nItems = 1; + return _cmsDupMem(self ->ContextID, &mc, sizeof(cmsICCMeasurementConditions)); + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Measurement_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCMeasurementConditions* mc =(cmsICCMeasurementConditions*) Ptr; + + if (!_cmsWriteUInt32Number(io, mc->Observer)) return FALSE; + if (!_cmsWriteXYZNumber(io, &mc->Backing)) return FALSE; + if (!_cmsWriteUInt32Number(io, mc->Geometry)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, mc->Flare)) return FALSE; + if (!_cmsWriteUInt32Number(io, mc->IlluminantType)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Measurement_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsICCMeasurementConditions)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Measurement_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigMultiLocalizedUnicodeType +// ******************************************************************************** +// +// Do NOT trust SizeOfTag as there is an issue on the definition of profileSequenceDescTag. See the TechNote from +// Max Derhak and Rohit Patil about this: basically the size of the string table should be guessed and cannot be +// taken from the size of tag if this tag is embedded as part of bigger structures (profileSequenceDescTag, for instance) +// + +static +void *Type_MLU_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsMLU* mlu; + cmsUInt32Number Count, RecLen, NumOfWchar; + cmsUInt32Number SizeOfHeader; + cmsUInt32Number Len, Offset; + cmsUInt32Number i; + wchar_t* Block; + cmsUInt32Number BeginOfThisString, EndOfThisString, LargestPosition; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + if (!_cmsReadUInt32Number(io, &RecLen)) return NULL; + + if (RecLen != 12) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "multiLocalizedUnicodeType of len != 12 is not supported."); + return NULL; + } + + mlu = cmsMLUalloc(self ->ContextID, Count); + if (mlu == NULL) return NULL; + + mlu ->UsedEntries = Count; + + SizeOfHeader = 12 * Count + sizeof(_cmsTagBase); + LargestPosition = 0; + + for (i=0; i < Count; i++) { + + if (!_cmsReadUInt16Number(io, &mlu ->Entries[i].Language)) goto Error; + if (!_cmsReadUInt16Number(io, &mlu ->Entries[i].Country)) goto Error; + + // Now deal with Len and offset. + if (!_cmsReadUInt32Number(io, &Len)) goto Error; + if (!_cmsReadUInt32Number(io, &Offset)) goto Error; + + // Check for overflow + if (Offset < (SizeOfHeader + 8)) goto Error; + + // True begin of the string + BeginOfThisString = Offset - SizeOfHeader - 8; + + // Ajust to wchar_t elements + mlu ->Entries[i].Len = (Len * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + mlu ->Entries[i].StrW = (BeginOfThisString * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + + // To guess maximum size, add offset + len + EndOfThisString = BeginOfThisString + Len; + if (EndOfThisString > LargestPosition) + LargestPosition = EndOfThisString; + } + + // Now read the remaining of tag and fill all strings. Substract the directory + SizeOfTag = (LargestPosition * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + if (SizeOfTag == 0) + { + Block = NULL; + NumOfWchar = 0; + + } + else + { + Block = (wchar_t*) _cmsMalloc(self ->ContextID, SizeOfTag); + if (Block == NULL) goto Error; + NumOfWchar = SizeOfTag / sizeof(wchar_t); + if (!_cmsReadWCharArray(io, NumOfWchar, Block)) goto Error; + } + + mlu ->MemPool = Block; + mlu ->PoolSize = SizeOfTag; + mlu ->PoolUsed = SizeOfTag; + + *nItems = 1; + return (void*) mlu; + +Error: + if (mlu) cmsMLUfree(mlu); + return NULL; +} + +static +cmsBool Type_MLU_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu =(cmsMLU*) Ptr; + cmsUInt32Number HeaderSize; + cmsUInt32Number Len, Offset; + int i; + + if (Ptr == NULL) { + + // Empty placeholder + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 12)) return FALSE; + return TRUE; + } + + if (!_cmsWriteUInt32Number(io, mlu ->UsedEntries)) return FALSE; + if (!_cmsWriteUInt32Number(io, 12)) return FALSE; + + HeaderSize = 12 * mlu ->UsedEntries + sizeof(_cmsTagBase); + + for (i=0; i < mlu ->UsedEntries; i++) { + + Len = mlu ->Entries[i].Len; + Offset = mlu ->Entries[i].StrW; + + Len = (Len * sizeof(cmsUInt16Number)) / sizeof(wchar_t); + Offset = (Offset * sizeof(cmsUInt16Number)) / sizeof(wchar_t) + HeaderSize + 8; + + if (!_cmsWriteUInt16Number(io, mlu ->Entries[i].Language)) return FALSE; + if (!_cmsWriteUInt16Number(io, mlu ->Entries[i].Country)) return FALSE; + if (!_cmsWriteUInt32Number(io, Len)) return FALSE; + if (!_cmsWriteUInt32Number(io, Offset)) return FALSE; + } + + if (!_cmsWriteWCharArray(io, mlu ->PoolUsed / sizeof(wchar_t), (wchar_t*) mlu ->MemPool)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_MLU_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_MLU_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLUfree((cmsMLU*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigLut8Type +// ******************************************************************************** + +// Decide which LUT type to use on writting +static +cmsTagTypeSignature DecideLUTtypeA2B(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsPipeline* Lut = (cmsPipeline*) Data; + + if (ICCVersion < 4.0) { + if (Lut ->SaveAs8Bits) return cmsSigLut8Type; + return cmsSigLut16Type; + } + else { + return cmsSigLutAtoBType; + } +} + +static +cmsTagTypeSignature DecideLUTtypeB2A(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsPipeline* Lut = (cmsPipeline*) Data; + + if (ICCVersion < 4.0) { + if (Lut ->SaveAs8Bits) return cmsSigLut8Type; + return cmsSigLut16Type; + } + else { + return cmsSigLutBtoAType; + } +} + +/* +This structure represents a colour transform using tables of 8-bit precision. +This type contains four processing elements: a 3 by 3 matrix (which shall be +the identity matrix unless the input colour space is XYZ), a set of one dimensional +input tables, a multidimensional lookup table, and a set of one dimensional output +tables. Data is processed using these elements via the following sequence: +(matrix) -> (1d input tables) -> (multidimensional lookup table - CLUT) -> (1d output tables) + +Byte Position Field Length (bytes) Content Encoded as... +8 1 Number of Input Channels (i) uInt8Number +9 1 Number of Output Channels (o) uInt8Number +10 1 Number of CLUT grid points (identical for each side) (g) uInt8Number +11 1 Reserved for padding (fill with 00h) + +12..15 4 Encoded e00 parameter s15Fixed16Number +*/ + + +// Read 8 bit tables as gamma functions +static +cmsBool Read8bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsPipeline* lut, int nChannels) +{ + cmsUInt8Number* Temp = NULL; + int i, j; + cmsToneCurve* Tables[cmsMAXCHANNELS]; + + if (nChannels > cmsMAXCHANNELS) return FALSE; + if (nChannels <= 0) return FALSE; + + memset(Tables, 0, sizeof(Tables)); + + Temp = (cmsUInt8Number*) _cmsMalloc(ContextID, 256); + if (Temp == NULL) return FALSE; + + for (i=0; i < nChannels; i++) { + Tables[i] = cmsBuildTabulatedToneCurve16(ContextID, 256, NULL); + if (Tables[i] == NULL) goto Error; + } + + for (i=0; i < nChannels; i++) { + + if (io ->Read(io, Temp, 256, 1) != 1) goto Error; + + for (j=0; j < 256; j++) + Tables[i]->Table16[j] = (cmsUInt16Number) FROM_8_TO_16(Temp[j]); + } + + _cmsFree(ContextID, Temp); + Temp = NULL; + + if (!cmsPipelineInsertStage(lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, nChannels, Tables))) + goto Error; + + for (i=0; i < nChannels; i++) + cmsFreeToneCurve(Tables[i]); + + return TRUE; + +Error: + for (i=0; i < nChannels; i++) { + if (Tables[i]) cmsFreeToneCurve(Tables[i]); + } + + if (Temp) _cmsFree(ContextID, Temp); + return FALSE; +} + + +static +cmsBool Write8bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsUInt32Number n, _cmsStageToneCurvesData* Tables) +{ + int j; + cmsUInt32Number i; + cmsUInt8Number val; + + for (i=0; i < n; i++) { + + if (Tables) { + + // Usual case of identity curves + if ((Tables ->TheCurves[i]->nEntries == 2) && + (Tables->TheCurves[i]->Table16[0] == 0) && + (Tables->TheCurves[i]->Table16[1] == 65535)) { + + for (j=0; j < 256; j++) { + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) j)) return FALSE; + } + } + else + if (Tables ->TheCurves[i]->nEntries != 256) { + cmsSignalError(ContextID, cmsERROR_RANGE, "LUT8 needs 256 entries on prelinearization"); + return FALSE; + } + else + for (j=0; j < 256; j++) { + + if (Tables != NULL) + val = (cmsUInt8Number) FROM_16_TO_8(Tables->TheCurves[i]->Table16[j]); + else + val = (cmsUInt8Number) j; + + if (!_cmsWriteUInt8Number(io, val)) return FALSE; + } + } + } + return TRUE; +} + + +// Check overflow +static +cmsUInt32Number uipow(cmsUInt32Number n, cmsUInt32Number a, cmsUInt32Number b) +{ + cmsUInt32Number rv = 1, rc; + + if (a == 0) return 0; + if (n == 0) return 0; + + for (; b > 0; b--) { + + rv *= a; + + // Check for overflow + if (rv > UINT_MAX / a) return (cmsUInt32Number) -1; + + } + + rc = rv * n; + + if (rv != rc / n) return (cmsUInt32Number) -1; + return rc; +} + + +// That will create a MPE LUT with Matrix, pre tables, CLUT and post tables. +// 8 bit lut may be scaled easely to v4 PCS, but we need also to properly adjust +// PCS on BToAxx tags and AtoB if abstract. We need to fix input direction. + +static +void *Type_LUT8_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number InputChannels, OutputChannels, CLUTpoints; + cmsUInt8Number* Temp = NULL; + cmsPipeline* NewLUT = NULL; + cmsUInt32Number nTabSize, i; + cmsFloat64Number Matrix[3*3]; + + *nItems = 0; + + if (!_cmsReadUInt8Number(io, &InputChannels)) goto Error; + if (!_cmsReadUInt8Number(io, &OutputChannels)) goto Error; + if (!_cmsReadUInt8Number(io, &CLUTpoints)) goto Error; + + if (CLUTpoints == 1) goto Error; // Impossible value, 0 for no CLUT and then 2 at least + + // Padding + if (!_cmsReadUInt8Number(io, NULL)) goto Error; + + // Do some checking + if (InputChannels > cmsMAXCHANNELS) goto Error; + if (OutputChannels > cmsMAXCHANNELS) goto Error; + + // Allocates an empty Pipeline + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChannels, OutputChannels); + if (NewLUT == NULL) goto Error; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &Matrix[0])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[1])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[2])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[3])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[4])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[5])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[6])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[7])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[8])) goto Error; + + + // Only operates if not identity... + if ((InputChannels == 3) && !_cmsMAT3isIdentity((cmsMAT3*) Matrix)) { + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_BEGIN, cmsStageAllocMatrix(self ->ContextID, 3, 3, Matrix, NULL))) + goto Error; + } + + // Get input tables + if (!Read8bitTables(self ->ContextID, io, NewLUT, InputChannels)) goto Error; + + // Get 3D CLUT. Check the overflow.... + nTabSize = uipow(OutputChannels, CLUTpoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) goto Error; + if (nTabSize > 0) { + + cmsUInt16Number *PtrW, *T; + + PtrW = T = (cmsUInt16Number*) _cmsCalloc(self ->ContextID, nTabSize, sizeof(cmsUInt16Number)); + if (T == NULL) goto Error; + + Temp = (cmsUInt8Number*) _cmsMalloc(self ->ContextID, nTabSize); + if (Temp == NULL) { + _cmsFree(self ->ContextID, T); + goto Error; + } + + if (io ->Read(io, Temp, nTabSize, 1) != 1) { + _cmsFree(self ->ContextID, T); + _cmsFree(self ->ContextID, Temp); + goto Error; + } + + for (i = 0; i < nTabSize; i++) { + + *PtrW++ = FROM_8_TO_16(Temp[i]); + } + _cmsFree(self ->ContextID, Temp); + Temp = NULL; + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocCLut16bit(self ->ContextID, CLUTpoints, InputChannels, OutputChannels, T))) + goto Error; + _cmsFree(self ->ContextID, T); + } + + + // Get output tables + if (!Read8bitTables(self ->ContextID, io, NewLUT, OutputChannels)) goto Error; + + *nItems = 1; + return NewLUT; + +Error: + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// We only allow a specific MPE structure: Matrix plus prelin, plus clut, plus post-lin. +static +cmsBool Type_LUT8_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number j, nTabSize; + cmsUInt8Number val; + cmsPipeline* NewLUT = (cmsPipeline*) Ptr; + cmsStage* mpe; + _cmsStageToneCurvesData* PreMPE = NULL, *PostMPE = NULL; + _cmsStageMatrixData* MatMPE = NULL; + _cmsStageCLutData* clut = NULL; + int clutPoints; + + // Disassemble the LUT into components. + mpe = NewLUT -> Elements; + if (mpe ->Type == cmsSigMatrixElemType) { + + MatMPE = (_cmsStageMatrixData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PreMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCLutElemType) { + clut = (_cmsStageCLutData*) mpe -> Data; + mpe = mpe ->Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PostMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + // That should be all + if (mpe != NULL) { + cmsSignalError(mpe->ContextID, cmsERROR_UNKNOWN_EXTENSION, "LUT is not suitable to be saved as LUT8"); + return FALSE; + } + + + if (clut == NULL) + clutPoints = 0; + else + clutPoints = clut->Params->nSamples[0]; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) NewLUT ->InputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) NewLUT ->OutputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) clutPoints)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; // Padding + + + if (MatMPE != NULL) { + + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[8])) return FALSE; + + } + else { + + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + } + + // The prelinearization table + if (!Write8bitTables(self ->ContextID, io, NewLUT ->InputChannels, PreMPE)) return FALSE; + + nTabSize = uipow(NewLUT->OutputChannels, clutPoints, NewLUT ->InputChannels); + if (nTabSize == (cmsUInt32Number) -1) return FALSE; + if (nTabSize > 0) { + + // The 3D CLUT. + if (clut != NULL) { + + for (j=0; j < nTabSize; j++) { + + val = (cmsUInt8Number) FROM_16_TO_8(clut ->Tab.T[j]); + if (!_cmsWriteUInt8Number(io, val)) return FALSE; + } + } + } + + // The postlinearization table + if (!Write8bitTables(self ->ContextID, io, NewLUT ->OutputChannels, PostMPE)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_LUT8_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUT8_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// ******************************************************************************** +// Type cmsSigLut16Type +// ******************************************************************************** + +// Read 16 bit tables as gamma functions +static +cmsBool Read16bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsPipeline* lut, int nChannels, int nEntries) +{ + int i; + cmsToneCurve* Tables[cmsMAXCHANNELS]; + + // Maybe an empty table? (this is a lcms extension) + if (nEntries <= 0) return TRUE; + + // Check for malicious profiles + if (nEntries < 2) return FALSE; + if (nChannels > cmsMAXCHANNELS) return FALSE; + + // Init table to zero + memset(Tables, 0, sizeof(Tables)); + + for (i=0; i < nChannels; i++) { + + Tables[i] = cmsBuildTabulatedToneCurve16(ContextID, nEntries, NULL); + if (Tables[i] == NULL) goto Error; + + if (!_cmsReadUInt16Array(io, nEntries, Tables[i]->Table16)) goto Error; + } + + + // Add the table (which may certainly be an identity, but this is up to the optimizer, not the reading code) + if (!cmsPipelineInsertStage(lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, nChannels, Tables))) + goto Error; + + for (i=0; i < nChannels; i++) + cmsFreeToneCurve(Tables[i]); + + return TRUE; + +Error: + for (i=0; i < nChannels; i++) { + if (Tables[i]) cmsFreeToneCurve(Tables[i]); + } + + return FALSE; +} + +static +cmsBool Write16bitTables(cmsContext ContextID, cmsIOHANDLER* io, _cmsStageToneCurvesData* Tables) +{ + int j; + cmsUInt32Number i; + cmsUInt16Number val; + int nEntries; + + _cmsAssert(Tables != NULL); + + nEntries = Tables->TheCurves[0]->nEntries; + + for (i=0; i < Tables ->nCurves; i++) { + + for (j=0; j < nEntries; j++) { + + val = Tables->TheCurves[i]->Table16[j]; + if (!_cmsWriteUInt16Number(io, val)) return FALSE; + } + } + return TRUE; + + cmsUNUSED_PARAMETER(ContextID); +} + +static +void *Type_LUT16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number InputChannels, OutputChannels, CLUTpoints; + cmsPipeline* NewLUT = NULL; + cmsUInt32Number nTabSize; + cmsFloat64Number Matrix[3*3]; + cmsUInt16Number InputEntries, OutputEntries; + + *nItems = 0; + + if (!_cmsReadUInt8Number(io, &InputChannels)) return NULL; + if (!_cmsReadUInt8Number(io, &OutputChannels)) return NULL; + if (!_cmsReadUInt8Number(io, &CLUTpoints)) return NULL; // 255 maximum + + // Padding + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + + // Do some checking + if (InputChannels > cmsMAXCHANNELS) goto Error; + if (OutputChannels > cmsMAXCHANNELS) goto Error; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChannels, OutputChannels); + if (NewLUT == NULL) goto Error; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &Matrix[0])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[1])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[2])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[3])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[4])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[5])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[6])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[7])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[8])) goto Error; + + + // Only operates on 3 channels + if ((InputChannels == 3) && !_cmsMAT3isIdentity((cmsMAT3*) Matrix)) { + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocMatrix(self ->ContextID, 3, 3, Matrix, NULL))) + goto Error; + } + + if (!_cmsReadUInt16Number(io, &InputEntries)) goto Error; + if (!_cmsReadUInt16Number(io, &OutputEntries)) goto Error; + + if (InputEntries > 0x7FFF || OutputEntries > 0x7FFF) goto Error; + if (CLUTpoints == 1) goto Error; // Impossible value, 0 for no CLUT and then 2 at least + + // Get input tables + if (!Read16bitTables(self ->ContextID, io, NewLUT, InputChannels, InputEntries)) goto Error; + + // Get 3D CLUT + nTabSize = uipow(OutputChannels, CLUTpoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) goto Error; + if (nTabSize > 0) { + + cmsUInt16Number *T; + + T = (cmsUInt16Number*) _cmsCalloc(self ->ContextID, nTabSize, sizeof(cmsUInt16Number)); + if (T == NULL) goto Error; + + if (!_cmsReadUInt16Array(io, nTabSize, T)) { + _cmsFree(self ->ContextID, T); + goto Error; + } + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocCLut16bit(self ->ContextID, CLUTpoints, InputChannels, OutputChannels, T))) { + _cmsFree(self ->ContextID, T); + goto Error; + } + _cmsFree(self ->ContextID, T); + } + + + // Get output tables + if (!Read16bitTables(self ->ContextID, io, NewLUT, OutputChannels, OutputEntries)) goto Error; + + *nItems = 1; + return NewLUT; + +Error: + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// We only allow some specific MPE structures: Matrix plus prelin, plus clut, plus post-lin. +// Some empty defaults are created for missing parts + +static +cmsBool Type_LUT16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number nTabSize; + cmsPipeline* NewLUT = (cmsPipeline*) Ptr; + cmsStage* mpe; + _cmsStageToneCurvesData* PreMPE = NULL, *PostMPE = NULL; + _cmsStageMatrixData* MatMPE = NULL; + _cmsStageCLutData* clut = NULL; + int i, InputChannels, OutputChannels, clutPoints; + + // Disassemble the LUT into components. + mpe = NewLUT -> Elements; + if (mpe != NULL && mpe ->Type == cmsSigMatrixElemType) { + + MatMPE = (_cmsStageMatrixData*) mpe ->Data; + mpe = mpe -> Next; + } + + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PreMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCLutElemType) { + clut = (_cmsStageCLutData*) mpe -> Data; + mpe = mpe ->Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PostMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + // That should be all + if (mpe != NULL) { + cmsSignalError(mpe->ContextID, cmsERROR_UNKNOWN_EXTENSION, "LUT is not suitable to be saved as LUT16"); + return FALSE; + } + + InputChannels = cmsPipelineInputChannels(NewLUT); + OutputChannels = cmsPipelineOutputChannels(NewLUT); + + if (clut == NULL) + clutPoints = 0; + else + clutPoints = clut->Params->nSamples[0]; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) InputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) OutputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) clutPoints)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; // Padding + + + if (MatMPE != NULL) { + + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[8])) return FALSE; + } + else { + + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + } + + + if (PreMPE != NULL) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) PreMPE ->TheCurves[0]->nEntries)) return FALSE; + } else { + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + } + + if (PostMPE != NULL) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) PostMPE ->TheCurves[0]->nEntries)) return FALSE; + } else { + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + + } + + // The prelinearization table + + if (PreMPE != NULL) { + if (!Write16bitTables(self ->ContextID, io, PreMPE)) return FALSE; + } + else { + for (i=0; i < InputChannels; i++) { + + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0xffff)) return FALSE; + } + } + + nTabSize = uipow(OutputChannels, clutPoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) return FALSE; + if (nTabSize > 0) { + // The 3D CLUT. + if (clut != NULL) { + if (!_cmsWriteUInt16Array(io, nTabSize, clut->Tab.T)) return FALSE; + } + } + + // The postlinearization table + if (PostMPE != NULL) { + if (!Write16bitTables(self ->ContextID, io, PostMPE)) return FALSE; + } + else { + for (i=0; i < OutputChannels; i++) { + + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0xffff)) return FALSE; + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_LUT16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUT16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigLutAToBType +// ******************************************************************************** + + +// V4 stuff. Read matrix for LutAtoB and LutBtoA + +static +cmsStage* ReadMatrix(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset) +{ + cmsFloat64Number dMat[3*3]; + cmsFloat64Number dOff[3]; + cmsStage* Mat; + + // Go to address + if (!io -> Seek(io, Offset)) return NULL; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &dMat[0])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[1])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[2])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[3])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[4])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[5])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[6])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[7])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[8])) return NULL; + + if (!_cmsRead15Fixed16Number(io, &dOff[0])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dOff[1])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dOff[2])) return NULL; + + Mat = cmsStageAllocMatrix(self ->ContextID, 3, 3, dMat, dOff); + + return Mat; +} + + + + +// V4 stuff. Read CLUT part for LutAtoB and LutBtoA + +static +cmsStage* ReadCLUT(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset, int InputChannels, int OutputChannels) +{ + cmsUInt8Number gridPoints8[cmsMAXCHANNELS]; // Number of grid points in each dimension. + cmsUInt32Number GridPoints[cmsMAXCHANNELS], i; + cmsUInt8Number Precision; + cmsStage* CLUT; + _cmsStageCLutData* Data; + + if (!io -> Seek(io, Offset)) return NULL; + if (io -> Read(io, gridPoints8, cmsMAXCHANNELS, 1) != 1) return NULL; + + + for (i=0; i < cmsMAXCHANNELS; i++) { + + if (gridPoints8[i] == 1) return NULL; // Impossible value, 0 for no CLUT and then 2 at least + GridPoints[i] = gridPoints8[i]; + } + + if (!_cmsReadUInt8Number(io, &Precision)) return NULL; + + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + + CLUT = cmsStageAllocCLut16bitGranular(self ->ContextID, GridPoints, InputChannels, OutputChannels, NULL); + if (CLUT == NULL) return NULL; + + Data = (_cmsStageCLutData*) CLUT ->Data; + + // Precision can be 1 or 2 bytes + if (Precision == 1) { + + cmsUInt8Number v; + + for (i=0; i < Data ->nEntries; i++) { + + if (io ->Read(io, &v, sizeof(cmsUInt8Number), 1) != 1) return NULL; + Data ->Tab.T[i] = FROM_8_TO_16(v); + } + + } + else + if (Precision == 2) { + + if (!_cmsReadUInt16Array(io, Data->nEntries, Data ->Tab.T)) { + cmsStageFree(CLUT); + return NULL; + } + } + else { + cmsStageFree(CLUT); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown precision of '%d'", Precision); + return NULL; + } + + return CLUT; +} + +static +cmsToneCurve* ReadEmbeddedCurve(struct _cms_typehandler_struct* self, cmsIOHANDLER* io) +{ + cmsTagTypeSignature BaseType; + cmsUInt32Number nItems; + + BaseType = _cmsReadTypeBase(io); + switch (BaseType) { + + case cmsSigCurveType: + return (cmsToneCurve*) Type_Curve_Read(self, io, &nItems, 0); + + case cmsSigParametricCurveType: + return (cmsToneCurve*) Type_ParametricCurve_Read(self, io, &nItems, 0); + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) BaseType); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve type '%s'", String); + } + return NULL; + } +} + + +// Read a set of curves from specific offset +static +cmsStage* ReadSetOfCurves(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset, cmsUInt32Number nCurves) +{ + cmsToneCurve* Curves[cmsMAXCHANNELS]; + cmsUInt32Number i; + cmsStage* Lin = NULL; + + if (nCurves > cmsMAXCHANNELS) return FALSE; + + if (!io -> Seek(io, Offset)) return FALSE; + + for (i=0; i < nCurves; i++) + Curves[i] = NULL; + + for (i=0; i < nCurves; i++) { + + Curves[i] = ReadEmbeddedCurve(self, io); + if (Curves[i] == NULL) goto Error; + if (!_cmsReadAlignment(io)) goto Error; + + } + + Lin = cmsStageAllocToneCurves(self ->ContextID, nCurves, Curves); + +Error: + for (i=0; i < nCurves; i++) + cmsFreeToneCurve(Curves[i]); + + return Lin; +} + + +// LutAtoB type + +// This structure represents a colour transform. The type contains up to five processing +// elements which are stored in the AtoBTag tag in the following order: a set of one +// dimensional curves, a 3 by 3 matrix with offset terms, a set of one dimensional curves, +// a multidimensional lookup table, and a set of one dimensional output curves. +// Data are processed using these elements via the following sequence: +// +//("A" curves) -> (multidimensional lookup table - CLUT) -> ("M" curves) -> (matrix) -> ("B" curves). +// +/* +It is possible to use any or all of these processing elements. At least one processing element +must be included.Only the following combinations are allowed: + +B +M - Matrix - B +A - CLUT - B +A - CLUT - M - Matrix - B + +*/ + +static +void* Type_LUTA2B_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number BaseOffset; + cmsUInt8Number inputChan; // Number of input channels + cmsUInt8Number outputChan; // Number of output channels + cmsUInt32Number offsetB; // Offset to first "B" curve + cmsUInt32Number offsetMat; // Offset to matrix + cmsUInt32Number offsetM; // Offset to first "M" curve + cmsUInt32Number offsetC; // Offset to CLUT + cmsUInt32Number offsetA; // Offset to first "A" curve + cmsPipeline* NewLUT = NULL; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt8Number(io, &inputChan)) return NULL; + if (!_cmsReadUInt8Number(io, &outputChan)) return NULL; + + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (!_cmsReadUInt32Number(io, &offsetB)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetMat)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetM)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetC)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetA)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, inputChan, outputChan); + if (NewLUT == NULL) return NULL; + + if (offsetA!= 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetA, inputChan))) + goto Error; + } + + if (offsetC != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadCLUT(self, io, BaseOffset + offsetC, inputChan, outputChan))) + goto Error; + } + + if (offsetM != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetM, outputChan))) + goto Error; + } + + if (offsetMat != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadMatrix(self, io, BaseOffset + offsetMat))) + goto Error; + } + + if (offsetB != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetB, outputChan))) + goto Error; + } + + *nItems = 1; + return NewLUT; +Error: + cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// Write a set of curves +static +cmsBool WriteMatrix(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsStage* mpe) +{ + _cmsStageMatrixData* m = (_cmsStageMatrixData*) mpe -> Data; + + // Write the Matrix + if (!_cmsWrite15Fixed16Number(io, m -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[8])) return FALSE; + + if (m ->Offset != NULL) { + + if (!_cmsWrite15Fixed16Number(io, m -> Offset[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Offset[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Offset[2])) return FALSE; + } + else { + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + + } + + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + + +// Write a set of curves +static +cmsBool WriteSetOfCurves(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsTagTypeSignature Type, cmsStage* mpe) +{ + cmsUInt32Number i, n; + cmsTagTypeSignature CurrentType; + cmsToneCurve** Curves; + + + n = cmsStageOutputChannels(mpe); + Curves = _cmsStageGetPtrToCurveSet(mpe); + + for (i=0; i < n; i++) { + + // If this is a table-based curve, use curve type even on V4 + CurrentType = Type; + + if ((Curves[i] ->nSegments == 0)|| + ((Curves[i]->nSegments == 2) && (Curves[i] ->Segments[1].Type == 0)) ) + CurrentType = cmsSigCurveType; + else + if (Curves[i] ->Segments[0].Type < 0) + CurrentType = cmsSigCurveType; + + if (!_cmsWriteTypeBase(io, CurrentType)) return FALSE; + + switch (CurrentType) { + + case cmsSigCurveType: + if (!Type_Curve_Write(self, io, Curves[i], 1)) return FALSE; + break; + + case cmsSigParametricCurveType: + if (!Type_ParametricCurve_Write(self, io, Curves[i], 1)) return FALSE; + break; + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) Type); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve type '%s'", String); + } + return FALSE; + } + + if (!_cmsWriteAlignment(io)) return FALSE; + } + + + return TRUE; +} + + +static +cmsBool WriteCLUT(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt8Number Precision, cmsStage* mpe) +{ + cmsUInt8Number gridPoints[cmsMAXCHANNELS]; // Number of grid points in each dimension. + cmsUInt32Number i; + _cmsStageCLutData* CLUT = ( _cmsStageCLutData*) mpe -> Data; + + if (CLUT ->HasFloatValues) { + cmsSignalError(self ->ContextID, cmsERROR_NOT_SUITABLE, "Cannot save floating point data, CLUT are 8 or 16 bit only"); + return FALSE; + } + + memset(gridPoints, 0, sizeof(gridPoints)); + for (i=0; i < (cmsUInt32Number) CLUT ->Params ->nInputs; i++) + gridPoints[i] = (cmsUInt8Number) CLUT ->Params ->nSamples[i]; + + if (!io -> Write(io, cmsMAXCHANNELS*sizeof(cmsUInt8Number), gridPoints)) return FALSE; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) Precision)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + + // Precision can be 1 or 2 bytes + if (Precision == 1) { + + for (i=0; i < CLUT->nEntries; i++) { + + if (!_cmsWriteUInt8Number(io, FROM_16_TO_8(CLUT->Tab.T[i]))) return FALSE; + } + } + else + if (Precision == 2) { + + if (!_cmsWriteUInt16Array(io, CLUT->nEntries, CLUT ->Tab.T)) return FALSE; + } + else { + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown precision of '%d'", Precision); + return FALSE; + } + + if (!_cmsWriteAlignment(io)) return FALSE; + + return TRUE; +} + + + + +static +cmsBool Type_LUTA2B_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsPipeline* Lut = (cmsPipeline*) Ptr; + int inputChan, outputChan; + cmsStage *A = NULL, *B = NULL, *M = NULL; + cmsStage * Matrix = NULL; + cmsStage * CLUT = NULL; + cmsUInt32Number offsetB = 0, offsetMat = 0, offsetM = 0, offsetC = 0, offsetA = 0; + cmsUInt32Number BaseOffset, DirectoryPos, CurrentPos; + + // Get the base for all offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (Lut ->Elements != NULL) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 1, cmsSigCurveSetElemType, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, &M, &Matrix, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, &A, &CLUT, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 5, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, + cmsSigMatrixElemType, cmsSigCurveSetElemType, &A, &CLUT, &M, &Matrix, &B)) { + + cmsSignalError(self->ContextID, cmsERROR_NOT_SUITABLE, "LUT is not suitable to be saved as LutAToB"); + return FALSE; + } + + // Get input, output channels + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + + // Write channel count + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) inputChan)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) outputChan)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + + // Keep directory to be filled latter + DirectoryPos = io ->Tell(io); + + // Write the directory + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + + if (A != NULL) { + + offsetA = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, A)) return FALSE; + } + + if (CLUT != NULL) { + offsetC = io ->Tell(io) - BaseOffset; + if (!WriteCLUT(self, io, Lut ->SaveAs8Bits ? 1 : 2, CLUT)) return FALSE; + + } + if (M != NULL) { + + offsetM = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, M)) return FALSE; + } + + if (Matrix != NULL) { + offsetMat = io ->Tell(io) - BaseOffset; + if (!WriteMatrix(self, io, Matrix)) return FALSE; + } + + if (B != NULL) { + + offsetB = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, B)) return FALSE; + } + + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) return FALSE; + + if (!_cmsWriteUInt32Number(io, offsetB)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetMat)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetM)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetC)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetA)) return FALSE; + + if (!io ->Seek(io, CurrentPos)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_LUTA2B_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUTA2B_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// LutBToA type + +static +void* Type_LUTB2A_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number inputChan; // Number of input channels + cmsUInt8Number outputChan; // Number of output channels + cmsUInt32Number BaseOffset; // Actual position in file + cmsUInt32Number offsetB; // Offset to first "B" curve + cmsUInt32Number offsetMat; // Offset to matrix + cmsUInt32Number offsetM; // Offset to first "M" curve + cmsUInt32Number offsetC; // Offset to CLUT + cmsUInt32Number offsetA; // Offset to first "A" curve + cmsPipeline* NewLUT = NULL; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt8Number(io, &inputChan)) return NULL; + if (!_cmsReadUInt8Number(io, &outputChan)) return NULL; + + // Padding + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (!_cmsReadUInt32Number(io, &offsetB)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetMat)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetM)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetC)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetA)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, inputChan, outputChan); + if (NewLUT == NULL) return NULL; + + if (offsetB != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetB, inputChan))) + goto Error; + } + + if (offsetMat != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadMatrix(self, io, BaseOffset + offsetMat))) + goto Error; + } + + if (offsetM != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetM, inputChan))) + goto Error; + } + + if (offsetC != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadCLUT(self, io, BaseOffset + offsetC, inputChan, outputChan))) + goto Error; + } + + if (offsetA!= 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetA, outputChan))) + goto Error; + } + + *nItems = 1; + return NewLUT; +Error: + cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +/* +B +B - Matrix - M +B - CLUT - A +B - Matrix - M - CLUT - A +*/ + +static +cmsBool Type_LUTB2A_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsPipeline* Lut = (cmsPipeline*) Ptr; + int inputChan, outputChan; + cmsStage *A = NULL, *B = NULL, *M = NULL; + cmsStage *Matrix = NULL; + cmsStage *CLUT = NULL; + cmsUInt32Number offsetB = 0, offsetMat = 0, offsetM = 0, offsetC = 0, offsetA = 0; + cmsUInt32Number BaseOffset, DirectoryPos, CurrentPos; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!cmsPipelineCheckAndRetreiveStages(Lut, 1, cmsSigCurveSetElemType, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, &B, &Matrix, &M)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, &B, &CLUT, &A)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 5, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, + cmsSigCLutElemType, cmsSigCurveSetElemType, &B, &Matrix, &M, &CLUT, &A)) { + cmsSignalError(self->ContextID, cmsERROR_NOT_SUITABLE, "LUT is not suitable to be saved as LutBToA"); + return FALSE; + } + + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) inputChan)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) outputChan)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + + DirectoryPos = io ->Tell(io); + + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + + if (A != NULL) { + + offsetA = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, A)) return FALSE; + } + + if (CLUT != NULL) { + offsetC = io ->Tell(io) - BaseOffset; + if (!WriteCLUT(self, io, Lut ->SaveAs8Bits ? 1 : 2, CLUT)) return FALSE; + + } + if (M != NULL) { + + offsetM = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, M)) return FALSE; + } + + if (Matrix != NULL) { + offsetMat = io ->Tell(io) - BaseOffset; + if (!WriteMatrix(self, io, Matrix)) return FALSE; + } + + if (B != NULL) { + + offsetB = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, B)) return FALSE; + } + + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) return FALSE; + + if (!_cmsWriteUInt32Number(io, offsetB)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetMat)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetM)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetC)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetA)) return FALSE; + + if (!io ->Seek(io, CurrentPos)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + + +static +void* Type_LUTB2A_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUTB2A_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + + +// ******************************************************************************** +// Type cmsSigColorantTableType +// ******************************************************************************** +/* +The purpose of this tag is to identify the colorants used in the profile by a +unique name and set of XYZ or L*a*b* values to give the colorant an unambiguous +value. The first colorant listed is the colorant of the first device channel of +a lut tag. The second colorant listed is the colorant of the second device channel +of a lut tag, and so on. +*/ + +static +void *Type_ColorantTable_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number i, Count; + cmsNAMEDCOLORLIST* List; + char Name[34]; + cmsUInt16Number PCS[3]; + + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + if (Count > cmsMAXCHANNELS) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many colorants '%d'", Count); + return NULL; + } + + List = cmsAllocNamedColorList(self ->ContextID, Count, 0, "", ""); + for (i=0; i < Count; i++) { + + if (io ->Read(io, Name, 32, 1) != 1) goto Error; + Name[33] = 0; + + if (!_cmsReadUInt16Array(io, 3, PCS)) goto Error; + + if (!cmsAppendNamedColor(List, Name, PCS, NULL)) goto Error; + + } + + *nItems = 1; + return List; + +Error: + *nItems = 0; + cmsFreeNamedColorList(List); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + + +// Saves a colorant table. It is using the named color structure for simplicity sake +static +cmsBool Type_ColorantTable_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) Ptr; + int i, nColors; + + nColors = cmsNamedColorCount(NamedColorList); + + if (!_cmsWriteUInt32Number(io, nColors)) return FALSE; + + for (i=0; i < nColors; i++) { + + char root[33]; + cmsUInt16Number PCS[3]; + + if (!cmsNamedColorInfo(NamedColorList, i, root, NULL, NULL, PCS, NULL)) return 0; + root[32] = 0; + + if (!io ->Write(io, 32, root)) return FALSE; + if (!_cmsWriteUInt16Array(io, 3, PCS)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_ColorantTable_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*) Ptr; + return (void*) cmsDupNamedColorList(nc); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_ColorantTable_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeNamedColorList((cmsNAMEDCOLORLIST*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigNamedColor2Type +// ******************************************************************************** +// +//The namedColor2Type is a count value and array of structures that provide color +//coordinates for 7-bit ASCII color names. For each named color, a PCS and optional +//device representation of the color are given. Both representations are 16-bit values. +//The device representation corresponds to the header’s “color space of data?field. +//This representation should be consistent with the “number of device components?//field in the namedColor2Type. If this field is 0, device coordinates are not provided. +//The PCS representation corresponds to the header’s PCS field. The PCS representation +//is always provided. Color names are fixed-length, 32-byte fields including null +//termination. In order to maintain maximum portability, it is strongly recommended +//that special characters of the 7-bit ASCII set not be used. + +static +void *Type_NamedColor_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + + cmsUInt32Number vendorFlag; // Bottom 16 bits for ICC use + cmsUInt32Number count; // Count of named colors + cmsUInt32Number nDeviceCoords; // Num of device coordinates + char prefix[32]; // Prefix for each color name + char suffix[32]; // Suffix for each color name + cmsNAMEDCOLORLIST* v; + cmsUInt32Number i; + + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &vendorFlag)) return NULL; + if (!_cmsReadUInt32Number(io, &count)) return NULL; + if (!_cmsReadUInt32Number(io, &nDeviceCoords)) return NULL; + + if (io -> Read(io, prefix, 32, 1) != 1) return NULL; + if (io -> Read(io, suffix, 32, 1) != 1) return NULL; + + prefix[31] = suffix[31] = 0; + + v = cmsAllocNamedColorList(self ->ContextID, count, nDeviceCoords, prefix, suffix); + if (v == NULL) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many named colors '%d'", count); + return NULL; + } + + if (nDeviceCoords > cmsMAXCHANNELS) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many device coordinates '%d'", nDeviceCoords); + return 0; + } + for (i=0; i < count; i++) { + + cmsUInt16Number PCS[3]; + cmsUInt16Number Colorant[cmsMAXCHANNELS]; + char Root[33]; + + memset(Colorant, 0, sizeof(Colorant)); + if (io -> Read(io, Root, 32, 1) != 1) return NULL; + if (!_cmsReadUInt16Array(io, 3, PCS)) goto Error; + if (!_cmsReadUInt16Array(io, nDeviceCoords, Colorant)) goto Error; + + if (!cmsAppendNamedColor(v, Root, PCS, Colorant)) goto Error; + } + + *nItems = 1; + return (void*) v ; + +Error: + cmsFreeNamedColorList(v); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// Saves a named color list into a named color profile +static +cmsBool Type_NamedColor_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) Ptr; + char prefix[32]; // Prefix for each color name + char suffix[32]; // Suffix for each color name + int i, nColors; + + nColors = cmsNamedColorCount(NamedColorList); + + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, nColors)) return FALSE; + if (!_cmsWriteUInt32Number(io, NamedColorList ->ColorantCount)) return FALSE; + + strncpy(prefix, (const char*) NamedColorList->Prefix, 32); + strncpy(suffix, (const char*) NamedColorList->Suffix, 32); + + suffix[31] = prefix[31] = 0; + + if (!io ->Write(io, 32, prefix)) return FALSE; + if (!io ->Write(io, 32, suffix)) return FALSE; + + for (i=0; i < nColors; i++) { + + cmsUInt16Number PCS[3]; + cmsUInt16Number Colorant[cmsMAXCHANNELS]; + char Root[33]; + + if (!cmsNamedColorInfo(NamedColorList, i, Root, NULL, NULL, PCS, Colorant)) return 0; + if (!io ->Write(io, 32 , Root)) return FALSE; + if (!_cmsWriteUInt16Array(io, 3, PCS)) return FALSE; + if (!_cmsWriteUInt16Array(io, NamedColorList ->ColorantCount, Colorant)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_NamedColor_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*) Ptr; + + return (void*) cmsDupNamedColorList(nc); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_NamedColor_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeNamedColorList((cmsNAMEDCOLORLIST*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigProfileSequenceDescType +// ******************************************************************************** + +// This type is an array of structures, each of which contains information from the +// header fields and tags from the original profiles which were combined to create +// the final profile. The order of the structures is the order in which the profiles +// were combined and includes a structure for the final profile. This provides a +// description of the profile sequence from source to destination, +// typically used with the DeviceLink profile. + +static +cmsBool ReadEmbeddedText(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU** mlu, cmsUInt32Number SizeOfTag) +{ + cmsTagTypeSignature BaseType; + cmsUInt32Number nItems; + + BaseType = _cmsReadTypeBase(io); + + switch (BaseType) { + + case cmsSigTextType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*)Type_Text_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + case cmsSigTextDescriptionType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*) Type_Text_Description_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + /* + TBD: Size is needed for MLU, and we have no idea on which is the available size + */ + + case cmsSigMultiLocalizedUnicodeType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*) Type_MLU_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + default: return FALSE; + } +} + + +static +void *Type_ProfileSequenceDesc_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq; + cmsUInt32Number i, Count; + + *nItems = 0; + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + + OutSeq = cmsAllocProfileSequenceDescription(self ->ContextID, Count); + if (OutSeq == NULL) return NULL; + + OutSeq ->n = Count; + + // Get structures as well + + for (i=0; i < Count; i++) { + + cmsPSEQDESC* sec = &OutSeq -> seq[i]; + + if (!_cmsReadUInt32Number(io, &sec ->deviceMfg)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!_cmsReadUInt32Number(io, &sec ->deviceModel)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!_cmsReadUInt64Number(io, &sec ->attributes)) goto Error; + if (SizeOfTag < sizeof(cmsUInt64Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt64Number); + + if (!_cmsReadUInt32Number(io, (cmsUInt32Number *)&sec ->technology)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!ReadEmbeddedText(self, io, &sec ->Manufacturer, SizeOfTag)) goto Error; + if (!ReadEmbeddedText(self, io, &sec ->Model, SizeOfTag)) goto Error; + } + + *nItems = 1; + return OutSeq; + +Error: + cmsFreeProfileSequenceDescription(OutSeq); + return NULL; +} + + +// Aux--Embed a text description type. It can be of type text description or multilocalized unicode +// and it depends of the version number passed on cmsTagDescriptor structure instead of stack +static +cmsBool SaveDescription(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* Text) +{ + if (self ->ICCVersion < 0x4000000) { + + if (!_cmsWriteTypeBase(io, cmsSigTextDescriptionType)) return FALSE; + return Type_Text_Description_Write(self, io, Text, 1); + } + else { + if (!_cmsWriteTypeBase(io, cmsSigMultiLocalizedUnicodeType)) return FALSE; + return Type_MLU_Write(self, io, Text, 1); + } +} + + +static +cmsBool Type_ProfileSequenceDesc_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSEQ* Seq = (cmsSEQ*) Ptr; + cmsUInt32Number i; + + if (!_cmsWriteUInt32Number(io, Seq->n)) return FALSE; + + for (i=0; i < Seq ->n; i++) { + + cmsPSEQDESC* sec = &Seq -> seq[i]; + + if (!_cmsWriteUInt32Number(io, sec ->deviceMfg)) return FALSE; + if (!_cmsWriteUInt32Number(io, sec ->deviceModel)) return FALSE; + if (!_cmsWriteUInt64Number(io, &sec ->attributes)) return FALSE; + if (!_cmsWriteUInt32Number(io, sec ->technology)) return FALSE; + + if (!SaveDescription(self, io, sec ->Manufacturer)) return FALSE; + if (!SaveDescription(self, io, sec ->Model)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_ProfileSequenceDesc_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupProfileSequenceDescription((cmsSEQ*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ProfileSequenceDesc_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeProfileSequenceDescription((cmsSEQ*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigProfileSequenceIdType +// ******************************************************************************** +/* +In certain workflows using ICC Device Link Profiles, it is necessary to identify the +original profiles that were combined to create the Device Link Profile. +This type is an array of structures, each of which contains information for +identification of a profile used in a sequence +*/ + + +static +cmsBool ReadSeqID(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq = (cmsSEQ*) Cargo; + cmsPSEQDESC* seq = &OutSeq ->seq[n]; + + if (io -> Read(io, seq ->ProfileID.ID8, 16, 1) != 1) return FALSE; + if (!ReadEmbeddedText(self, io, &seq ->Description, SizeOfTag)) return FALSE; + + return TRUE; +} + + + +static +void *Type_ProfileSequenceId_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq; + cmsUInt32Number Count; + cmsUInt32Number BaseOffset; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Get table count + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Allocate an empty structure + OutSeq = cmsAllocProfileSequenceDescription(self ->ContextID, Count); + if (OutSeq == NULL) return NULL; + + + // Read the position table + if (!ReadPositionTable(self, io, Count, BaseOffset, OutSeq, ReadSeqID)) { + + cmsFreeProfileSequenceDescription(OutSeq); + return NULL; + } + + // Success + *nItems = 1; + return OutSeq; + +} + + +static +cmsBool WriteSeqID(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsSEQ* Seq = (cmsSEQ*) Cargo; + + if (!io ->Write(io, 16, Seq ->seq[n].ProfileID.ID8)) return FALSE; + + // Store here the MLU + if (!SaveDescription(self, io, Seq ->seq[n].Description)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_ProfileSequenceId_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSEQ* Seq = (cmsSEQ*) Ptr; + cmsUInt32Number BaseOffset; + + // Keep the base offset + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // This is the table count + if (!_cmsWriteUInt32Number(io, Seq ->n)) return FALSE; + + // This is the position table and content + if (!WritePositionTable(self, io, 0, Seq ->n, BaseOffset, Seq, WriteSeqID)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_ProfileSequenceId_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupProfileSequenceDescription((cmsSEQ*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ProfileSequenceId_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeProfileSequenceDescription((cmsSEQ*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigUcrBgType +// ******************************************************************************** +/* +This type contains curves representing the under color removal and black +generation and a text string which is a general description of the method used +for the ucr/bg. +*/ + +static +void *Type_UcrBg_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUcrBg* n = (cmsUcrBg*) _cmsMallocZero(self ->ContextID, sizeof(cmsUcrBg)); + cmsUInt32Number CountUcr, CountBg; + char* ASCIIString; + + *nItems = 0; + if (n == NULL) return NULL; + + // First curve is Under color removal + if (!_cmsReadUInt32Number(io, &CountUcr)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + n ->Ucr = cmsBuildTabulatedToneCurve16(self ->ContextID, CountUcr, NULL); + if (n ->Ucr == NULL) return NULL; + + if (!_cmsReadUInt16Array(io, CountUcr, n ->Ucr->Table16)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= CountUcr * sizeof(cmsUInt16Number); + + // Second curve is Black generation + if (!_cmsReadUInt32Number(io, &CountBg)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + n ->Bg = cmsBuildTabulatedToneCurve16(self ->ContextID, CountBg, NULL); + if (n ->Bg == NULL) return NULL; + if (!_cmsReadUInt16Array(io, CountBg, n ->Bg->Table16)) return NULL; + if (SizeOfTag < CountBg * sizeof(cmsUInt16Number)) return NULL; + SizeOfTag -= CountBg * sizeof(cmsUInt16Number); + if (SizeOfTag == UINT_MAX) return NULL; + + // Now comes the text. The length is specified by the tag size + n ->Desc = cmsMLUalloc(self ->ContextID, 1); + if (n ->Desc == NULL) return NULL; + + ASCIIString = (char*) _cmsMalloc(self ->ContextID, SizeOfTag + 1); + if (io ->Read(io, ASCIIString, sizeof(char), SizeOfTag) != SizeOfTag) return NULL; + ASCIIString[SizeOfTag] = 0; + cmsMLUsetASCII(n ->Desc, cmsNoLanguage, cmsNoCountry, ASCIIString); + _cmsFree(self ->ContextID, ASCIIString); + + *nItems = 1; + return (void*) n; +} + +static +cmsBool Type_UcrBg_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUcrBg* Value = (cmsUcrBg*) Ptr; + cmsUInt32Number TextSize; + char* Text; + + // First curve is Under color removal + if (!_cmsWriteUInt32Number(io, Value ->Ucr ->nEntries)) return FALSE; + if (!_cmsWriteUInt16Array(io, Value ->Ucr ->nEntries, Value ->Ucr ->Table16)) return FALSE; + + // Then black generation + if (!_cmsWriteUInt32Number(io, Value ->Bg ->nEntries)) return FALSE; + if (!_cmsWriteUInt16Array(io, Value ->Bg ->nEntries, Value ->Bg ->Table16)) return FALSE; + + // Now comes the text. The length is specified by the tag size + TextSize = cmsMLUgetASCII(Value ->Desc, cmsNoLanguage, cmsNoCountry, NULL, 0); + Text = (char*) _cmsMalloc(self ->ContextID, TextSize); + if (cmsMLUgetASCII(Value ->Desc, cmsNoLanguage, cmsNoCountry, Text, TextSize) != TextSize) return FALSE; + + if (!io ->Write(io, TextSize, Text)) return FALSE; + _cmsFree(self ->ContextID, Text); + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_UcrBg_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsUcrBg* Src = (cmsUcrBg*) Ptr; + cmsUcrBg* NewUcrBg = (cmsUcrBg*) _cmsMallocZero(self ->ContextID, sizeof(cmsUcrBg)); + + if (NewUcrBg == NULL) return NULL; + + NewUcrBg ->Bg = cmsDupToneCurve(Src ->Bg); + NewUcrBg ->Ucr = cmsDupToneCurve(Src ->Ucr); + NewUcrBg ->Desc = cmsMLUdup(Src ->Desc); + + return (void*) NewUcrBg; + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_UcrBg_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsUcrBg* Src = (cmsUcrBg*) Ptr; + + if (Src ->Ucr) cmsFreeToneCurve(Src ->Ucr); + if (Src ->Bg) cmsFreeToneCurve(Src ->Bg); + if (Src ->Desc) cmsMLUfree(Src ->Desc); + + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigCrdInfoType +// ******************************************************************************** + +/* +This type contains the PostScript product name to which this profile corresponds +and the names of the companion CRDs. Recall that a single profile can generate +multiple CRDs. It is implemented as a MLU being the language code "PS" and then +country varies for each element: + + nm: PostScript product name + #0: Rendering intent 0 CRD name + #1: Rendering intent 1 CRD name + #2: Rendering intent 2 CRD name + #3: Rendering intent 3 CRD name +*/ + + + +// Auxiliar, read an string specified as count + string +static +cmsBool ReadCountAndSting(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* mlu, cmsUInt32Number* SizeOfTag, const char* Section) +{ + cmsUInt32Number Count; + char* Text; + + if (*SizeOfTag < sizeof(cmsUInt32Number)) return FALSE; + + if (!_cmsReadUInt32Number(io, &Count)) return FALSE; + + if (Count > UINT_MAX - sizeof(cmsUInt32Number)) return FALSE; + if (*SizeOfTag < Count + sizeof(cmsUInt32Number)) return FALSE; + + Text = (char*) _cmsMalloc(self ->ContextID, Count+1); + if (Text == NULL) return FALSE; + + if (io ->Read(io, Text, sizeof(cmsUInt8Number), Count) != Count) { + _cmsFree(self ->ContextID, Text); + return FALSE; + } + + Text[Count] = 0; + + cmsMLUsetASCII(mlu, "PS", Section, Text); + _cmsFree(self ->ContextID, Text); + + *SizeOfTag -= (Count + sizeof(cmsUInt32Number)); + return TRUE; +} + +static +cmsBool WriteCountAndSting(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* mlu, const char* Section) +{ + cmsUInt32Number TextSize; + char* Text; + + TextSize = cmsMLUgetASCII(mlu, "PS", Section, NULL, 0); + Text = (char*) _cmsMalloc(self ->ContextID, TextSize); + + if (!_cmsWriteUInt32Number(io, TextSize)) return FALSE; + + if (cmsMLUgetASCII(mlu, "PS", Section, Text, TextSize) == 0) return FALSE; + + if (!io ->Write(io, TextSize, Text)) return FALSE; + _cmsFree(self ->ContextID, Text); + + return TRUE; +} + +static +void *Type_CrdInfo_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsMLU* mlu = cmsMLUalloc(self ->ContextID, 5); + + *nItems = 0; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "nm")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#0")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#1")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#2")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#3")) goto Error; + + *nItems = 1; + return (void*) mlu; + +Error: + cmsMLUfree(mlu); + return NULL; + +} + +static +cmsBool Type_CrdInfo_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + + cmsMLU* mlu = (cmsMLU*) Ptr; + + if (!WriteCountAndSting(self, io, mlu, "nm")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#0")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#1")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#2")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#3")) goto Error; + + return TRUE; + +Error: + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_CrdInfo_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_CrdInfo_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsMLUfree((cmsMLU*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// ******************************************************************************** +// Type cmsSigScreeningType +// ******************************************************************************** +// +//The screeningType describes various screening parameters including screen +//frequency, screening angle, and spot shape. + +static +void *Type_Screening_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsScreening* sc = NULL; + cmsUInt32Number i; + + sc = (cmsScreening*) _cmsMallocZero(self ->ContextID, sizeof(cmsScreening)); + if (sc == NULL) return NULL; + + *nItems = 0; + + if (!_cmsReadUInt32Number(io, &sc ->Flag)) goto Error; + if (!_cmsReadUInt32Number(io, &sc ->nChannels)) goto Error; + + if (sc ->nChannels > cmsMAXCHANNELS - 1) + sc ->nChannels = cmsMAXCHANNELS - 1; + + for (i=0; i < sc ->nChannels; i++) { + + if (!_cmsRead15Fixed16Number(io, &sc ->Channels[i].Frequency)) goto Error; + if (!_cmsRead15Fixed16Number(io, &sc ->Channels[i].ScreenAngle)) goto Error; + if (!_cmsReadUInt32Number(io, &sc ->Channels[i].SpotShape)) goto Error; + } + + + *nItems = 1; + + return (void*) sc; + +Error: + if (sc != NULL) + _cmsFree(self ->ContextID, sc); + + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Screening_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsScreening* sc = (cmsScreening* ) Ptr; + cmsUInt32Number i; + + if (!_cmsWriteUInt32Number(io, sc ->Flag)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->nChannels)) return FALSE; + + for (i=0; i < sc ->nChannels; i++) { + + if (!_cmsWrite15Fixed16Number(io, sc ->Channels[i].Frequency)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, sc ->Channels[i].ScreenAngle)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->Channels[i].SpotShape)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Screening_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsScreening)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_Screening_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigViewingConditionsType +// ******************************************************************************** +// +//This type represents a set of viewing condition parameters including: +//CIE ’absolute?illuminant white point tristimulus values and CIE ’absolute?//surround tristimulus values. + +static +void *Type_ViewingConditions_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCViewingConditions* vc = NULL; + + vc = (cmsICCViewingConditions*) _cmsMallocZero(self ->ContextID, sizeof(cmsICCViewingConditions)); + if (vc == NULL) return NULL; + + *nItems = 0; + + if (!_cmsReadXYZNumber(io, &vc ->IlluminantXYZ)) goto Error; + if (!_cmsReadXYZNumber(io, &vc ->SurroundXYZ)) goto Error; + if (!_cmsReadUInt32Number(io, &vc ->IlluminantType)) goto Error; + + *nItems = 1; + + return (void*) vc; + +Error: + if (vc != NULL) + _cmsFree(self ->ContextID, vc); + + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_ViewingConditions_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCViewingConditions* sc = (cmsICCViewingConditions* ) Ptr; + + if (!_cmsWriteXYZNumber(io, &sc ->IlluminantXYZ)) return FALSE; + if (!_cmsWriteXYZNumber(io, &sc ->SurroundXYZ)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->IlluminantType)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_ViewingConditions_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsScreening)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_ViewingConditions_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigMultiProcessElementType +// ******************************************************************************** + + +static +void* GenericMPEdup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsStageDup((cmsStage*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void GenericMPEfree(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsStageFree((cmsStage*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// Each curve is stored in one or more curve segments, with break-points specified between curve segments. +// The first curve segment always starts at –Infinity, and the last curve segment always ends at +Infinity. The +// first and last curve segments shall be specified in terms of a formula, whereas the other segments shall be +// specified either in terms of a formula, or by a sampled curve. + + +// Read an embedded segmented curve +static +cmsToneCurve* ReadSegmentedCurve(struct _cms_typehandler_struct* self, cmsIOHANDLER* io) +{ + cmsCurveSegSignature ElementSig; + cmsUInt32Number i, j; + cmsUInt16Number nSegments; + cmsCurveSegment* Segments; + cmsToneCurve* Curve; + cmsFloat32Number PrevBreak = -1E22F; // - infinite + + // Take signature and channels for each element. + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) return NULL; + + // That should be a segmented curve + if (ElementSig != cmsSigSegmentedCurve) return NULL; + + if (!_cmsReadUInt32Number(io, NULL)) return NULL; + if (!_cmsReadUInt16Number(io, &nSegments)) return NULL; + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (nSegments < 1) return NULL; + Segments = (cmsCurveSegment*) _cmsCalloc(self ->ContextID, nSegments, sizeof(cmsCurveSegment)); + if (Segments == NULL) return NULL; + + // Read breakpoints + for (i=0; i < (cmsUInt32Number) nSegments - 1; i++) { + + Segments[i].x0 = PrevBreak; + if (!_cmsReadFloat32Number(io, &Segments[i].x1)) goto Error; + PrevBreak = Segments[i].x1; + } + + Segments[nSegments-1].x0 = PrevBreak; + Segments[nSegments-1].x1 = 1E22F; // A big cmsFloat32Number number + + // Read segments + for (i=0; i < nSegments; i++) { + + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) goto Error; + if (!_cmsReadUInt32Number(io, NULL)) goto Error; + + switch (ElementSig) { + + case cmsSigFormulaCurveSeg: { + + cmsUInt16Number Type; + cmsUInt32Number ParamsByType[] = {4, 5, 5 }; + + if (!_cmsReadUInt16Number(io, &Type)) goto Error; + if (!_cmsReadUInt16Number(io, NULL)) goto Error; + + Segments[i].Type = Type + 6; + if (Type > 2) goto Error; + + for (j=0; j < ParamsByType[Type]; j++) { + + cmsFloat32Number f; + if (!_cmsReadFloat32Number(io, &f)) goto Error; + Segments[i].Params[j] = f; + } + } + break; + + + case cmsSigSampledCurveSeg: { + cmsUInt32Number Count; + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + Segments[i].nGridPoints = Count; + Segments[i].SampledPoints = (cmsFloat32Number*) _cmsCalloc(self ->ContextID, Count, sizeof(cmsFloat32Number)); + if (Segments[i].SampledPoints == NULL) goto Error; + + for (j=0; j < Count; j++) { + if (!_cmsReadFloat32Number(io, &Segments[i].SampledPoints[j])) goto Error; + } + } + break; + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve element type '%s' found.", String); + } + return NULL; + + } + } + + Curve = cmsBuildSegmentedToneCurve(self ->ContextID, nSegments, Segments); + + for (i=0; i < nSegments; i++) { + if (Segments[i].SampledPoints) _cmsFree(self ->ContextID, Segments[i].SampledPoints); + } + _cmsFree(self ->ContextID, Segments); + return Curve; + +Error: + if (Segments) _cmsFree(self ->ContextID, Segments); + return NULL; +} + + +static +cmsBool ReadMPECurve(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsToneCurve** GammaTables = ( cmsToneCurve**) Cargo; + + GammaTables[n] = ReadSegmentedCurve(self, io); + return (GammaTables[n] != NULL); + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +void *Type_MPEcurve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe = NULL; + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number i, BaseOffset; + cmsToneCurve** GammaTables; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + if (InputChans != OutputChans) return NULL; + + GammaTables = (cmsToneCurve**) _cmsCalloc(self ->ContextID, InputChans, sizeof(cmsToneCurve*)); + if (GammaTables == NULL) return NULL; + + if (ReadPositionTable(self, io, InputChans, BaseOffset, GammaTables, ReadMPECurve)) { + + mpe = cmsStageAllocToneCurves(self ->ContextID, InputChans, GammaTables); + } + else { + mpe = NULL; + } + + for (i=0; i < InputChans; i++) { + if (GammaTables[i]) cmsFreeToneCurve(GammaTables[i]); + } + + _cmsFree(self ->ContextID, GammaTables); + *nItems = (mpe != NULL) ? 1 : 0; + return mpe; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// Write a single segmented curve. NO CHECK IS PERFORMED ON VALIDITY +static +cmsBool WriteSegmentedCurve(cmsIOHANDLER* io, cmsToneCurve* g) +{ + cmsUInt32Number i, j; + cmsCurveSegment* Segments = g ->Segments; + cmsUInt32Number nSegments = g ->nSegments; + + if (!_cmsWriteUInt32Number(io, cmsSigSegmentedCurve)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) nSegments)) goto Error; + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + + // Write the break-points + for (i=0; i < nSegments - 1; i++) { + if (!_cmsWriteFloat32Number(io, Segments[i].x1)) goto Error; + } + + // Write the segments + for (i=0; i < g ->nSegments; i++) { + + cmsCurveSegment* ActualSeg = Segments + i; + + if (ActualSeg -> Type == 0) { + + // This is a sampled curve + if (!_cmsWriteUInt32Number(io, (cmsUInt32Number) cmsSigSampledCurveSeg)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + if (!_cmsWriteUInt32Number(io, ActualSeg -> nGridPoints)) goto Error; + + for (j=0; j < g ->Segments[i].nGridPoints; j++) { + if (!_cmsWriteFloat32Number(io, ActualSeg -> SampledPoints[j])) goto Error; + } + + } + else { + int Type; + cmsUInt32Number ParamsByType[] = { 4, 5, 5 }; + + // This is a formula-based + if (!_cmsWriteUInt32Number(io, (cmsUInt32Number) cmsSigFormulaCurveSeg)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + + // We only allow 1, 2 and 3 as types + Type = ActualSeg ->Type - 6; + if (Type > 2 || Type < 0) goto Error; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) Type)) goto Error; + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + + for (j=0; j < ParamsByType[Type]; j++) { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) ActualSeg ->Params[j])) goto Error; + } + } + + // It seems there is no need to align. Code is here, and for safety commented out + // if (!_cmsWriteAlignment(io)) goto Error; + } + + return TRUE; + +Error: + return FALSE; +} + + +static +cmsBool WriteMPECurve(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + _cmsStageToneCurvesData* Curves = (_cmsStageToneCurvesData*) Cargo; + + return WriteSegmentedCurve(io, Curves ->TheCurves[n]); + + cmsUNUSED_PARAMETER(SizeOfTag); + cmsUNUSED_PARAMETER(self); +} + +// Write a curve, checking first for validity +static +cmsBool Type_MPEcurve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number BaseOffset; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageToneCurvesData* Curves = (_cmsStageToneCurvesData*) mpe ->Data; + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Write the header. Since those are curves, input and output channels are same + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + + if (!WritePositionTable(self, io, 0, + mpe ->InputChannels, BaseOffset, Curves, WriteMPECurve)) return FALSE; + + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + + +// The matrix is organized as an array of PxQ+Q elements, where P is the number of input channels to the +// matrix, and Q is the number of output channels. The matrix elements are each float32Numbers. The array +// is organized as follows: +// array = [e11, e12, ? e1P, e21, e22, ? e2P, ? eQ1, eQ2, ? eQP, e1, e2, ? eQ] + +static +void *Type_MPEmatrix_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe; + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number nElems, i; + cmsFloat64Number* Matrix; + cmsFloat64Number* Offsets; + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + + nElems = InputChans * OutputChans; + + // Input and output chans may be ANY (up to 0xffff) + Matrix = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, nElems, sizeof(cmsFloat64Number)); + if (Matrix == NULL) return NULL; + + Offsets = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, OutputChans, sizeof(cmsFloat64Number)); + if (Offsets == NULL) { + + _cmsFree(self ->ContextID, Matrix); + return NULL; + } + + for (i=0; i < nElems; i++) { + + cmsFloat32Number v; + + if (!_cmsReadFloat32Number(io, &v)) return NULL; + Matrix[i] = v; + } + + + for (i=0; i < OutputChans; i++) { + + cmsFloat32Number v; + + if (!_cmsReadFloat32Number(io, &v)) return NULL; + Offsets[i] = v; + } + + + mpe = cmsStageAllocMatrix(self ->ContextID, OutputChans, InputChans, Matrix, Offsets); + _cmsFree(self ->ContextID, Matrix); + _cmsFree(self ->ContextID, Offsets); + + *nItems = 1; + + return mpe; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_MPEmatrix_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number i, nElems; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageMatrixData* Matrix = (_cmsStageMatrixData*) mpe ->Data; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->OutputChannels)) return FALSE; + + nElems = mpe ->InputChannels * mpe ->OutputChannels; + + for (i=0; i < nElems; i++) { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) Matrix->Double[i])) return FALSE; + } + + + for (i=0; i < mpe ->OutputChannels; i++) { + + if (Matrix ->Offset == NULL) { + + if (!_cmsWriteFloat32Number(io, 0)) return FALSE; + } + else { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) Matrix->Offset[i])) return FALSE; + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + + +static +void *Type_MPEclut_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe = NULL; + cmsUInt16Number InputChans, OutputChans; + cmsUInt8Number Dimensions8[16]; + cmsUInt32Number i, nMaxGrids, GridPoints[MAX_INPUT_DIMENSIONS]; + _cmsStageCLutData* clut; + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + if (InputChans == 0) goto Error; + if (OutputChans == 0) goto Error; + + if (io ->Read(io, Dimensions8, sizeof(cmsUInt8Number), 16) != 16) + goto Error; + + // Copy MAX_INPUT_DIMENSIONS at most. Expand to cmsUInt32Number + nMaxGrids = InputChans > MAX_INPUT_DIMENSIONS ? MAX_INPUT_DIMENSIONS : InputChans; + for (i=0; i < nMaxGrids; i++) GridPoints[i] = (cmsUInt32Number) Dimensions8[i]; + + // Allocate the true CLUT + mpe = cmsStageAllocCLutFloatGranular(self ->ContextID, GridPoints, InputChans, OutputChans, NULL); + if (mpe == NULL) goto Error; + + // Read the data + clut = (_cmsStageCLutData*) mpe ->Data; + for (i=0; i < clut ->nEntries; i++) { + + if (!_cmsReadFloat32Number(io, &clut ->Tab.TFloat[i])) goto Error; + } + + *nItems = 1; + return mpe; + +Error: + *nItems = 0; + if (mpe != NULL) cmsStageFree(mpe); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// Write a CLUT in floating point +static +cmsBool Type_MPEclut_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt8Number Dimensions8[16]; + cmsUInt32Number i; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageCLutData* clut = (_cmsStageCLutData*) mpe ->Data; + + // Check for maximum number of channels + if (mpe -> InputChannels > 15) return FALSE; + + // Only floats are supported in MPE + if (clut ->HasFloatValues == FALSE) return FALSE; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->OutputChannels)) return FALSE; + + memset(Dimensions8, 0, sizeof(Dimensions8)); + + for (i=0; i < mpe ->InputChannels; i++) + Dimensions8[i] = (cmsUInt8Number) clut ->Params ->nSamples[i]; + + if (!io ->Write(io, 16, Dimensions8)) return FALSE; + + for (i=0; i < clut ->nEntries; i++) { + + if (!_cmsWriteFloat32Number(io, clut ->Tab.TFloat[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + + +// This is the list of built-in MPE types +static _cmsTagTypeLinkedList SupportedMPEtypes[] = { + +{{ (cmsTagTypeSignature) cmsSigBAcsElemType, NULL, NULL, NULL, NULL, NULL, 0 }, &SupportedMPEtypes[1] }, // Ignore those elements for now +{{ (cmsTagTypeSignature) cmsSigEAcsElemType, NULL, NULL, NULL, NULL, NULL, 0 }, &SupportedMPEtypes[2] }, // (That's what the spec says) + +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigCurveSetElemType, MPEcurve), &SupportedMPEtypes[3] }, +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigMatrixElemType, MPEmatrix), &SupportedMPEtypes[4] }, +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigCLutElemType, MPEclut), NULL }, +}; + +_cmsTagTypePluginChunkType _cmsMPETypePluginChunk = { NULL }; + +static +cmsBool ReadMPEElem(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsStageSignature ElementSig; + cmsTagTypeHandler* TypeHandler; + cmsUInt32Number nItems; + cmsPipeline *NewLUT = (cmsPipeline *) Cargo; + _cmsTagTypePluginChunkType* MPETypePluginChunk = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(self->ContextID, MPEPlugin); + + + // Take signature and channels for each element. + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) return FALSE; + + // The reserved placeholder + if (!_cmsReadUInt32Number(io, NULL)) return FALSE; + + // Read diverse MPE types + TypeHandler = GetHandler((cmsTagTypeSignature) ElementSig, MPETypePluginChunk ->TagTypes, SupportedMPEtypes); + if (TypeHandler == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + + // An unknown element was found. + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown MPE type '%s' found.", String); + return FALSE; + } + + // If no read method, just ignore the element (valid for cmsSigBAcsElemType and cmsSigEAcsElemType) + // Read the MPE. No size is given + if (TypeHandler ->ReadPtr != NULL) { + + // This is a real element which should be read and processed + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, (cmsStage*) TypeHandler ->ReadPtr(self, io, &nItems, SizeOfTag))) + return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(SizeOfTag); + cmsUNUSED_PARAMETER(n); +} + + +// This is the main dispatcher for MPE +static +void *Type_MPE_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number ElementCount; + cmsPipeline *NewLUT = NULL; + cmsUInt32Number BaseOffset; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Read channels and element count + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChans, OutputChans); + if (NewLUT == NULL) return NULL; + + if (!_cmsReadUInt32Number(io, &ElementCount)) return NULL; + + if (!ReadPositionTable(self, io, ElementCount, BaseOffset, NewLUT, ReadMPEElem)) { + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + *nItems = 0; + return NULL; + } + + // Success + *nItems = 1; + return NewLUT; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + + +// This one is a liitle bit more complex, so we don't use position tables this time. +static +cmsBool Type_MPE_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number i, BaseOffset, DirectoryPos, CurrentPos; + int inputChan, outputChan; + cmsUInt32Number ElemCount; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL, Before; + cmsStageSignature ElementSig; + cmsPipeline* Lut = (cmsPipeline*) Ptr; + cmsStage* Elem = Lut ->Elements; + cmsTagTypeHandler* TypeHandler; + _cmsTagTypePluginChunkType* MPETypePluginChunk = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(self->ContextID, MPEPlugin); + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + ElemCount = cmsPipelineStageCount(Lut); + + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(self ->ContextID, ElemCount, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(self ->ContextID, ElemCount, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + // Write the head + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) inputChan)) goto Error; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) outputChan)) goto Error; + if (!_cmsWriteUInt32Number(io, (cmsUInt16Number) ElemCount)) goto Error; + + DirectoryPos = io ->Tell(io); + + // Write a fake directory to be filled latter on + for (i=0; i < ElemCount; i++) { + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // Offset + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // size + } + + // Write each single tag. Keep track of the size as well. + for (i=0; i < ElemCount; i++) { + + ElementOffsets[i] = io ->Tell(io) - BaseOffset; + + ElementSig = Elem ->Type; + + TypeHandler = GetHandler((cmsTagTypeSignature) ElementSig, MPETypePluginChunk->TagTypes, SupportedMPEtypes); + if (TypeHandler == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + + // An unknow element was found. + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Found unknown MPE type '%s'", String); + goto Error; + } + + if (!_cmsWriteUInt32Number(io, ElementSig)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + Before = io ->Tell(io); + if (!TypeHandler ->WritePtr(self, io, Elem, 1)) goto Error; + if (!_cmsWriteAlignment(io)) goto Error; + + ElementSizes[i] = io ->Tell(io) - Before; + + Elem = Elem ->Next; + } + + // Write the directory + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) goto Error; + + for (i=0; i < ElemCount; i++) { + if (!_cmsWriteUInt32Number(io, ElementOffsets[i])) goto Error; + if (!_cmsWriteUInt32Number(io, ElementSizes[i])) goto Error; + } + + if (!io ->Seek(io, CurrentPos)) goto Error; + + if (ElementOffsets != NULL) _cmsFree(self ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(self ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(self ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(self ->ContextID, ElementSizes); + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_MPE_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_MPE_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigVcgtType +// ******************************************************************************** + + +#define cmsVideoCardGammaTableType 0 +#define cmsVideoCardGammaFormulaType 1 + +// Used internally +typedef struct { + double Gamma; + double Min; + double Max; +} _cmsVCGTGAMMA; + + +static +void *Type_vcgt_Read(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number* nItems, + cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number TagType, n, i; + cmsToneCurve** Curves; + + *nItems = 0; + + // Read tag type + if (!_cmsReadUInt32Number(io, &TagType)) return NULL; + + // Allocate space for the array + Curves = ( cmsToneCurve**) _cmsCalloc(self ->ContextID, 3, sizeof(cmsToneCurve*)); + if (Curves == NULL) return NULL; + + // There are two possible flavors + switch (TagType) { + + // Gamma is stored as a table + case cmsVideoCardGammaTableType: + { + cmsUInt16Number nChannels, nElems, nBytes; + + // Check channel count, which should be 3 (we don't support monochrome this time) + if (!_cmsReadUInt16Number(io, &nChannels)) goto Error; + + if (nChannels != 3) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported number of channels for VCGT '%d'", nChannels); + goto Error; + } + + // Get Table element count and bytes per element + if (!_cmsReadUInt16Number(io, &nElems)) goto Error; + if (!_cmsReadUInt16Number(io, &nBytes)) goto Error; + + // Adobe's quirk fixup. Fixing broken profiles... + if (nElems == 256 && nBytes == 1 && SizeOfTag == 1576) + nBytes = 2; + + + // Populate tone curves + for (n=0; n < 3; n++) { + + Curves[n] = cmsBuildTabulatedToneCurve16(self ->ContextID, nElems, NULL); + if (Curves[n] == NULL) goto Error; + + // On depending on byte depth + switch (nBytes) { + + // One byte, 0..255 + case 1: + for (i=0; i < nElems; i++) { + + cmsUInt8Number v; + + if (!_cmsReadUInt8Number(io, &v)) goto Error; + Curves[n] ->Table16[i] = FROM_8_TO_16(v); + } + break; + + // One word 0..65535 + case 2: + if (!_cmsReadUInt16Array(io, nElems, Curves[n]->Table16)) goto Error; + break; + + // Unsupported + default: + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported bit depth for VCGT '%d'", nBytes * 8); + goto Error; + } + } // For all 3 channels + } + break; + + // In this case, gamma is stored as a formula + case cmsVideoCardGammaFormulaType: + { + _cmsVCGTGAMMA Colorant[3]; + + // Populate tone curves + for (n=0; n < 3; n++) { + + double Params[10]; + + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Gamma)) goto Error; + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Min)) goto Error; + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Max)) goto Error; + + // Parametric curve type 5 is: + // Y = (aX + b)^Gamma + e | X >= d + // Y = cX + f | X < d + + // vcgt formula is: + // Y = (Max ?Min) * (X ^ Gamma) + Min + + // So, the translation is + // a = (Max ?Min) ^ ( 1 / Gamma) + // e = Min + // b=c=d=f=0 + + Params[0] = Colorant[n].Gamma; + Params[1] = pow((Colorant[n].Max - Colorant[n].Min), (1.0 / Colorant[n].Gamma)); + Params[2] = 0; + Params[3] = 0; + Params[4] = 0; + Params[5] = Colorant[n].Min; + Params[6] = 0; + + Curves[n] = cmsBuildParametricToneCurve(self ->ContextID, 5, Params); + if (Curves[n] == NULL) goto Error; + } + } + break; + + // Unsupported + default: + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported tag type for VCGT '%d'", TagType); + goto Error; + } + + *nItems = 1; + return (void*) Curves; + +// Regret, free all resources +Error: + + cmsFreeToneCurveTriple(Curves); + _cmsFree(self ->ContextID, Curves); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// We don't support all flavors, only 16bits tables and formula +static +cmsBool Type_vcgt_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve** Curves = (cmsToneCurve**) Ptr; + cmsUInt32Number i, j; + + if (cmsGetToneCurveParametricType(Curves[0]) == 5 && + cmsGetToneCurveParametricType(Curves[1]) == 5 && + cmsGetToneCurveParametricType(Curves[2]) == 5) { + + if (!_cmsWriteUInt32Number(io, cmsVideoCardGammaFormulaType)) return FALSE; + + // Save parameters + for (i=0; i < 3; i++) { + + _cmsVCGTGAMMA v; + + v.Gamma = Curves[i] ->Segments[0].Params[0]; + v.Min = Curves[i] ->Segments[0].Params[5]; + v.Max = pow(Curves[i] ->Segments[0].Params[1], v.Gamma) + v.Min; + + if (!_cmsWrite15Fixed16Number(io, v.Gamma)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, v.Min)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, v.Max)) return FALSE; + } + } + + else { + + // Always store as a table of 256 words + if (!_cmsWriteUInt32Number(io, cmsVideoCardGammaTableType)) return FALSE; + if (!_cmsWriteUInt16Number(io, 3)) return FALSE; + if (!_cmsWriteUInt16Number(io, 256)) return FALSE; + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + + for (i=0; i < 3; i++) { + for (j=0; j < 256; j++) { + + cmsFloat32Number v = cmsEvalToneCurveFloat(Curves[i], (cmsFloat32Number) (j / 255.0)); + cmsUInt16Number n = _cmsQuickSaturateWord(v * 65535.0); + + if (!_cmsWriteUInt16Number(io, n)) return FALSE; + } + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_vcgt_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsToneCurve** OldCurves = (cmsToneCurve**) Ptr; + cmsToneCurve** NewCurves; + + NewCurves = ( cmsToneCurve**) _cmsCalloc(self ->ContextID, 3, sizeof(cmsToneCurve*)); + if (NewCurves == NULL) return NULL; + + NewCurves[0] = cmsDupToneCurve(OldCurves[0]); + NewCurves[1] = cmsDupToneCurve(OldCurves[1]); + NewCurves[2] = cmsDupToneCurve(OldCurves[2]); + + return (void*) NewCurves; + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_vcgt_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeToneCurveTriple((cmsToneCurve**) Ptr); + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigDictType +// ******************************************************************************** + +// Single column of the table can point to wchar or MLUC elements. Holds arrays of data +typedef struct { + cmsContext ContextID; + cmsUInt32Number *Offsets; + cmsUInt32Number *Sizes; +} _cmsDICelem; + +typedef struct { + _cmsDICelem Name, Value, DisplayName, DisplayValue; + +} _cmsDICarray; + +// Allocate an empty array element +static +cmsBool AllocElem(cmsContext ContextID, _cmsDICelem* e, cmsUInt32Number Count) +{ + e->Offsets = (cmsUInt32Number *) _cmsCalloc(ContextID, Count, sizeof(cmsUInt32Number)); + if (e->Offsets == NULL) return FALSE; + + e->Sizes = (cmsUInt32Number *) _cmsCalloc(ContextID, Count, sizeof(cmsUInt32Number)); + if (e->Sizes == NULL) { + + _cmsFree(ContextID, e -> Offsets); + return FALSE; + } + + e ->ContextID = ContextID; + return TRUE; +} + +// Free an array element +static +void FreeElem(_cmsDICelem* e) +{ + if (e ->Offsets != NULL) _cmsFree(e -> ContextID, e -> Offsets); + if (e ->Sizes != NULL) _cmsFree(e -> ContextID, e -> Sizes); + e->Offsets = e ->Sizes = NULL; +} + +// Get rid of whole array +static +void FreeArray( _cmsDICarray* a) +{ + if (a ->Name.Offsets != NULL) FreeElem(&a->Name); + if (a ->Value.Offsets != NULL) FreeElem(&a ->Value); + if (a ->DisplayName.Offsets != NULL) FreeElem(&a->DisplayName); + if (a ->DisplayValue.Offsets != NULL) FreeElem(&a ->DisplayValue); +} + + +// Allocate whole array +static +cmsBool AllocArray(cmsContext ContextID, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length) +{ + // Empty values + memset(a, 0, sizeof(_cmsDICarray)); + + // On depending on record size, create column arrays + if (!AllocElem(ContextID, &a ->Name, Count)) goto Error; + if (!AllocElem(ContextID, &a ->Value, Count)) goto Error; + + if (Length > 16) { + if (!AllocElem(ContextID, &a -> DisplayName, Count)) goto Error; + + } + if (Length > 24) { + if (!AllocElem(ContextID, &a ->DisplayValue, Count)) goto Error; + } + return TRUE; + +Error: + FreeArray(a); + return FALSE; +} + +// Read one element +static +cmsBool ReadOneElem(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, cmsUInt32Number BaseOffset) +{ + if (!_cmsReadUInt32Number(io, &e->Offsets[i])) return FALSE; + if (!_cmsReadUInt32Number(io, &e ->Sizes[i])) return FALSE; + + // An offset of zero has special meaning and shal be preserved + if (e ->Offsets[i] > 0) + e ->Offsets[i] += BaseOffset; + return TRUE; +} + + +static +cmsBool ReadOffsetArray(cmsIOHANDLER* io, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number i; + + // Read column arrays + for (i=0; i < Count; i++) { + + if (!ReadOneElem(io, &a -> Name, i, BaseOffset)) return FALSE; + if (!ReadOneElem(io, &a -> Value, i, BaseOffset)) return FALSE; + + if (Length > 16) { + + if (!ReadOneElem(io, &a ->DisplayName, i, BaseOffset)) return FALSE; + + } + + if (Length > 24) { + + if (!ReadOneElem(io, & a -> DisplayValue, i, BaseOffset)) return FALSE; + } + } + return TRUE; +} + + +// Write one element +static +cmsBool WriteOneElem(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i) +{ + if (!_cmsWriteUInt32Number(io, e->Offsets[i])) return FALSE; + if (!_cmsWriteUInt32Number(io, e ->Sizes[i])) return FALSE; + + return TRUE; +} + +static +cmsBool WriteOffsetArray(cmsIOHANDLER* io, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length) +{ + cmsUInt32Number i; + + for (i=0; i < Count; i++) { + + if (!WriteOneElem(io, &a -> Name, i)) return FALSE; + if (!WriteOneElem(io, &a -> Value, i)) return FALSE; + + if (Length > 16) { + + if (!WriteOneElem(io, &a -> DisplayName, i)) return FALSE; + } + + if (Length > 24) { + + if (!WriteOneElem(io, &a -> DisplayValue, i)) return FALSE; + } + } + + return TRUE; +} + +static +cmsBool ReadOneWChar(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, wchar_t ** wcstr) +{ + + cmsUInt32Number nChars; + + // Special case for undefined strings (see ICC Votable + // Proposal Submission, Dictionary Type and Metadata TAG Definition) + if (e -> Offsets[i] == 0) { + + *wcstr = NULL; + return TRUE; + } + + if (!io -> Seek(io, e -> Offsets[i])) return FALSE; + + nChars = e ->Sizes[i] / sizeof(cmsUInt16Number); + + + *wcstr = (wchar_t*) _cmsMallocZero(e ->ContextID, (nChars + 1) * sizeof(wchar_t)); + if (*wcstr == NULL) return FALSE; + + if (!_cmsReadWCharArray(io, nChars, *wcstr)) { + _cmsFree(e ->ContextID, *wcstr); + return FALSE; + } + + // End of string marker + (*wcstr)[nChars] = 0; + return TRUE; +} + +static +cmsUInt32Number mywcslen(const wchar_t *s) +{ + const wchar_t *p; + + p = s; + while (*p) + p++; + + return (cmsUInt32Number)(p - s); +} + +static +cmsBool WriteOneWChar(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, const wchar_t * wcstr, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number Before = io ->Tell(io); + cmsUInt32Number n; + + e ->Offsets[i] = Before - BaseOffset; + + if (wcstr == NULL) { + e ->Sizes[i] = 0; + e ->Offsets[i] = 0; + return TRUE; + } + + n = mywcslen(wcstr); + if (!_cmsWriteWCharArray(io, n, wcstr)) return FALSE; + + e ->Sizes[i] = io ->Tell(io) - Before; + return TRUE; +} + +static +cmsBool ReadOneMLUC(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, cmsMLU** mlu) +{ + cmsUInt32Number nItems = 0; + + // A way to get null MLUCs + if (e -> Offsets[i] == 0 || e ->Sizes[i] == 0) { + + *mlu = NULL; + return TRUE; + } + + if (!io -> Seek(io, e -> Offsets[i])) return FALSE; + + *mlu = (cmsMLU*) Type_MLU_Read(self, io, &nItems, e ->Sizes[i]); + return *mlu != NULL; +} + +static +cmsBool WriteOneMLUC(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, const cmsMLU* mlu, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number Before; + + // Special case for undefined strings (see ICC Votable + // Proposal Submission, Dictionary Type and Metadata TAG Definition) + if (mlu == NULL) { + e ->Sizes[i] = 0; + e ->Offsets[i] = 0; + return TRUE; + } + + Before = io ->Tell(io); + e ->Offsets[i] = Before - BaseOffset; + + if (!Type_MLU_Write(self, io, (void*) mlu, 1)) return FALSE; + + e ->Sizes[i] = io ->Tell(io) - Before; + return TRUE; +} + + +static +void *Type_Dictionary_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsHANDLE hDict; + cmsUInt32Number i, Count, Length; + cmsUInt32Number BaseOffset; + _cmsDICarray a; + wchar_t *NameWCS = NULL, *ValueWCS = NULL; + cmsMLU *DisplayNameMLU = NULL, *DisplayValueMLU=NULL; + cmsBool rc; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Get name-value record count + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Get rec length + if (!_cmsReadUInt32Number(io, &Length)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Check for valid lengths + if (Length != 16 && Length != 24 && Length != 32) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown record length in dictionary '%d'", Length); + return NULL; + } + + // Creates an empty dictionary + hDict = cmsDictAlloc(self -> ContextID); + if (hDict == NULL) return NULL; + + // On depending on record size, create column arrays + if (!AllocArray(self -> ContextID, &a, Count, Length)) goto Error; + + // Read column arrays + if (!ReadOffsetArray(io, &a, Count, Length, BaseOffset)) goto Error; + + // Seek to each element and read it + for (i=0; i < Count; i++) { + + if (!ReadOneWChar(io, &a.Name, i, &NameWCS)) goto Error; + if (!ReadOneWChar(io, &a.Value, i, &ValueWCS)) goto Error; + + if (Length > 16) { + if (!ReadOneMLUC(self, io, &a.DisplayName, i, &DisplayNameMLU)) goto Error; + } + + if (Length > 24) { + if (!ReadOneMLUC(self, io, &a.DisplayValue, i, &DisplayValueMLU)) goto Error; + } + + if (NameWCS == NULL || ValueWCS == NULL) { + + cmsSignalError(self->ContextID, cmsERROR_CORRUPTION_DETECTED, "Bad dictionary Name/Value"); + rc = FALSE; + } + else { + + rc = cmsDictAddEntry(hDict, NameWCS, ValueWCS, DisplayNameMLU, DisplayValueMLU); + } + + if (NameWCS != NULL) _cmsFree(self ->ContextID, NameWCS); + if (ValueWCS != NULL) _cmsFree(self ->ContextID, ValueWCS); + if (DisplayNameMLU != NULL) cmsMLUfree(DisplayNameMLU); + if (DisplayValueMLU != NULL) cmsMLUfree(DisplayValueMLU); + + if (!rc) goto Error; + } + + FreeArray(&a); + *nItems = 1; + return (void*) hDict; + +Error: + FreeArray(&a); + cmsDictFree(hDict); + return NULL; +} + + +static +cmsBool Type_Dictionary_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsHANDLE hDict = (cmsHANDLE) Ptr; + const cmsDICTentry* p; + cmsBool AnyName, AnyValue; + cmsUInt32Number i, Count, Length; + cmsUInt32Number DirectoryPos, CurrentPos, BaseOffset; + _cmsDICarray a; + + if (hDict == NULL) return FALSE; + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Let's inspect the dictionary + Count = 0; AnyName = FALSE; AnyValue = FALSE; + for (p = cmsDictGetEntryList(hDict); p != NULL; p = cmsDictNextEntry(p)) { + + if (p ->DisplayName != NULL) AnyName = TRUE; + if (p ->DisplayValue != NULL) AnyValue = TRUE; + Count++; + } + + Length = 16; + if (AnyName) Length += 8; + if (AnyValue) Length += 8; + + if (!_cmsWriteUInt32Number(io, Count)) return FALSE; + if (!_cmsWriteUInt32Number(io, Length)) return FALSE; + + // Keep starting position of offsets table + DirectoryPos = io ->Tell(io); + + // Allocate offsets array + if (!AllocArray(self ->ContextID, &a, Count, Length)) goto Error; + + // Write a fake directory to be filled latter on + if (!WriteOffsetArray(io, &a, Count, Length)) goto Error; + + // Write each element. Keep track of the size as well. + p = cmsDictGetEntryList(hDict); + for (i=0; i < Count; i++) { + + if (!WriteOneWChar(io, &a.Name, i, p ->Name, BaseOffset)) goto Error; + if (!WriteOneWChar(io, &a.Value, i, p ->Value, BaseOffset)) goto Error; + + if (p ->DisplayName != NULL) { + if (!WriteOneMLUC(self, io, &a.DisplayName, i, p ->DisplayName, BaseOffset)) goto Error; + } + + if (p ->DisplayValue != NULL) { + if (!WriteOneMLUC(self, io, &a.DisplayValue, i, p ->DisplayValue, BaseOffset)) goto Error; + } + + p = cmsDictNextEntry(p); + } + + // Write the directory + CurrentPos = io ->Tell(io); + if (!io ->Seek(io, DirectoryPos)) goto Error; + + if (!WriteOffsetArray(io, &a, Count, Length)) goto Error; + + if (!io ->Seek(io, CurrentPos)) goto Error; + + FreeArray(&a); + return TRUE; + +Error: + FreeArray(&a); + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_Dictionary_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDictDup((cmsHANDLE) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_Dictionary_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsDictFree((cmsHANDLE) Ptr); + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type support main routines +// ******************************************************************************** + + +// This is the list of built-in types +static _cmsTagTypeLinkedList SupportedTagTypes[] = { + +{TYPE_HANDLER(cmsSigChromaticityType, Chromaticity), &SupportedTagTypes[1] }, +{TYPE_HANDLER(cmsSigColorantOrderType, ColorantOrderType), &SupportedTagTypes[2] }, +{TYPE_HANDLER(cmsSigS15Fixed16ArrayType, S15Fixed16), &SupportedTagTypes[3] }, +{TYPE_HANDLER(cmsSigU16Fixed16ArrayType, U16Fixed16), &SupportedTagTypes[4] }, +{TYPE_HANDLER(cmsSigTextType, Text), &SupportedTagTypes[5] }, +{TYPE_HANDLER(cmsSigTextDescriptionType, Text_Description), &SupportedTagTypes[6] }, +{TYPE_HANDLER(cmsSigCurveType, Curve), &SupportedTagTypes[7] }, +{TYPE_HANDLER(cmsSigParametricCurveType, ParametricCurve), &SupportedTagTypes[8] }, +{TYPE_HANDLER(cmsSigDateTimeType, DateTime), &SupportedTagTypes[9] }, +{TYPE_HANDLER(cmsSigLut8Type, LUT8), &SupportedTagTypes[10] }, +{TYPE_HANDLER(cmsSigLut16Type, LUT16), &SupportedTagTypes[11] }, +{TYPE_HANDLER(cmsSigColorantTableType, ColorantTable), &SupportedTagTypes[12] }, +{TYPE_HANDLER(cmsSigNamedColor2Type, NamedColor), &SupportedTagTypes[13] }, +{TYPE_HANDLER(cmsSigMultiLocalizedUnicodeType, MLU), &SupportedTagTypes[14] }, +{TYPE_HANDLER(cmsSigProfileSequenceDescType, ProfileSequenceDesc), &SupportedTagTypes[15] }, +{TYPE_HANDLER(cmsSigSignatureType, Signature), &SupportedTagTypes[16] }, +{TYPE_HANDLER(cmsSigMeasurementType, Measurement), &SupportedTagTypes[17] }, +{TYPE_HANDLER(cmsSigDataType, Data), &SupportedTagTypes[18] }, +{TYPE_HANDLER(cmsSigLutAtoBType, LUTA2B), &SupportedTagTypes[19] }, +{TYPE_HANDLER(cmsSigLutBtoAType, LUTB2A), &SupportedTagTypes[20] }, +{TYPE_HANDLER(cmsSigUcrBgType, UcrBg), &SupportedTagTypes[21] }, +{TYPE_HANDLER(cmsSigCrdInfoType, CrdInfo), &SupportedTagTypes[22] }, +{TYPE_HANDLER(cmsSigMultiProcessElementType, MPE), &SupportedTagTypes[23] }, +{TYPE_HANDLER(cmsSigScreeningType, Screening), &SupportedTagTypes[24] }, +{TYPE_HANDLER(cmsSigViewingConditionsType, ViewingConditions), &SupportedTagTypes[25] }, +{TYPE_HANDLER(cmsSigXYZType, XYZ), &SupportedTagTypes[26] }, +{TYPE_HANDLER(cmsCorbisBrokenXYZtype, XYZ), &SupportedTagTypes[27] }, +{TYPE_HANDLER(cmsMonacoBrokenCurveType, Curve), &SupportedTagTypes[28] }, +{TYPE_HANDLER(cmsSigProfileSequenceIdType, ProfileSequenceId), &SupportedTagTypes[29] }, +{TYPE_HANDLER(cmsSigDictType, Dictionary), &SupportedTagTypes[30] }, +{TYPE_HANDLER(cmsSigVcgtType, vcgt), NULL } +}; + + +_cmsTagTypePluginChunkType _cmsTagTypePluginChunk = { NULL }; + + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupTagTypeList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src, + int loc) +{ + _cmsTagTypePluginChunkType newHead = { NULL }; + _cmsTagTypeLinkedList* entry; + _cmsTagTypeLinkedList* Anterior = NULL; + _cmsTagTypePluginChunkType* head = (_cmsTagTypePluginChunkType*) src->chunks[loc]; + + // Walk the list copying all nodes + for (entry = head->TagTypes; + entry != NULL; + entry = entry ->Next) { + + _cmsTagTypeLinkedList *newEntry = ( _cmsTagTypeLinkedList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsTagTypeLinkedList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.TagTypes == NULL) + newHead.TagTypes = newEntry; + } + + ctx ->chunks[loc] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsTagTypePluginChunkType)); +} + + +void _cmsAllocTagTypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Duplicate the LIST + DupTagTypeList(ctx, src, TagTypePlugin); + } + else { + static _cmsTagTypePluginChunkType TagTypePluginChunk = { NULL }; + ctx ->chunks[TagTypePlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagTypePluginChunk, sizeof(_cmsTagTypePluginChunkType)); + } +} + +void _cmsAllocMPETypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Duplicate the LIST + DupTagTypeList(ctx, src, MPEPlugin); + } + else { + static _cmsTagTypePluginChunkType TagTypePluginChunk = { NULL }; + ctx ->chunks[MPEPlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagTypePluginChunk, sizeof(_cmsTagTypePluginChunkType)); + } + +} + + +// Both kind of plug-ins share same structure +cmsBool _cmsRegisterTagTypePlugin(cmsContext id, cmsPluginBase* Data) +{ + return RegisterTypesPlugin(id, Data, TagTypePlugin); +} + +cmsBool _cmsRegisterMultiProcessElementPlugin(cmsContext id, cmsPluginBase* Data) +{ + return RegisterTypesPlugin(id, Data,MPEPlugin); +} + + +// Wrapper for tag types +cmsTagTypeHandler* _cmsGetTagTypeHandler(cmsContext ContextID, cmsTagTypeSignature sig) +{ + _cmsTagTypePluginChunkType* ctx = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(ContextID, TagTypePlugin); + + return GetHandler(sig, ctx->TagTypes, SupportedTagTypes); +} + +// ******************************************************************************** +// Tag support main routines +// ******************************************************************************** + +typedef struct _cmsTagLinkedList_st { + + cmsTagSignature Signature; + cmsTagDescriptor Descriptor; + struct _cmsTagLinkedList_st* Next; + +} _cmsTagLinkedList; + +// This is the list of built-in tags +static _cmsTagLinkedList SupportedTags[] = { + + { cmsSigAToB0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[1]}, + { cmsSigAToB1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[2]}, + { cmsSigAToB2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[3]}, + { cmsSigBToA0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[4]}, + { cmsSigBToA1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[5]}, + { cmsSigBToA2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[6]}, + + // Allow corbis and its broken XYZ type + { cmsSigRedColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[7]}, + { cmsSigGreenColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[8]}, + { cmsSigBlueColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[9]}, + + { cmsSigRedTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[10]}, + { cmsSigGreenTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[11]}, + { cmsSigBlueTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[12]}, + + { cmsSigCalibrationDateTimeTag, { 1, 1, { cmsSigDateTimeType }, NULL}, &SupportedTags[13]}, + { cmsSigCharTargetTag, { 1, 1, { cmsSigTextType }, NULL}, &SupportedTags[14]}, + + { cmsSigChromaticAdaptationTag, { 9, 1, { cmsSigS15Fixed16ArrayType }, NULL}, &SupportedTags[15]}, + { cmsSigChromaticityTag, { 1, 1, { cmsSigChromaticityType }, NULL}, &SupportedTags[16]}, + { cmsSigColorantOrderTag, { 1, 1, { cmsSigColorantOrderType }, NULL}, &SupportedTags[17]}, + { cmsSigColorantTableTag, { 1, 1, { cmsSigColorantTableType }, NULL}, &SupportedTags[18]}, + { cmsSigColorantTableOutTag, { 1, 1, { cmsSigColorantTableType }, NULL}, &SupportedTags[19]}, + + { cmsSigCopyrightTag, { 1, 3, { cmsSigTextType, cmsSigMultiLocalizedUnicodeType, cmsSigTextDescriptionType}, DecideTextType}, &SupportedTags[20]}, + { cmsSigDateTimeTag, { 1, 1, { cmsSigDateTimeType }, NULL}, &SupportedTags[21]}, + + { cmsSigDeviceMfgDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[22]}, + { cmsSigDeviceModelDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[23]}, + + { cmsSigGamutTag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[24]}, + + { cmsSigGrayTRCTag, { 1, 2, { cmsSigCurveType, cmsSigParametricCurveType }, DecideCurveType}, &SupportedTags[25]}, + { cmsSigLuminanceTag, { 1, 1, { cmsSigXYZType }, NULL}, &SupportedTags[26]}, + + { cmsSigMediaBlackPointTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, NULL}, &SupportedTags[27]}, + { cmsSigMediaWhitePointTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, NULL}, &SupportedTags[28]}, + + { cmsSigNamedColor2Tag, { 1, 1, { cmsSigNamedColor2Type }, NULL}, &SupportedTags[29]}, + + { cmsSigPreview0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[30]}, + { cmsSigPreview1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[31]}, + { cmsSigPreview2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[32]}, + + { cmsSigProfileDescriptionTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[33]}, + { cmsSigProfileSequenceDescTag, { 1, 1, { cmsSigProfileSequenceDescType }, NULL}, &SupportedTags[34]}, + { cmsSigTechnologyTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[35]}, + + { cmsSigColorimetricIntentImageStateTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[36]}, + { cmsSigPerceptualRenderingIntentGamutTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[37]}, + { cmsSigSaturationRenderingIntentGamutTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[38]}, + + { cmsSigMeasurementTag, { 1, 1, { cmsSigMeasurementType }, NULL}, &SupportedTags[39]}, + + { cmsSigPs2CRD0Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[40]}, + { cmsSigPs2CRD1Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[41]}, + { cmsSigPs2CRD2Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[42]}, + { cmsSigPs2CRD3Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[43]}, + { cmsSigPs2CSATag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[44]}, + { cmsSigPs2RenderingIntentTag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[45]}, + + { cmsSigViewingCondDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[46]}, + + { cmsSigUcrBgTag, { 1, 1, { cmsSigUcrBgType}, NULL}, &SupportedTags[47]}, + { cmsSigCrdInfoTag, { 1, 1, { cmsSigCrdInfoType}, NULL}, &SupportedTags[48]}, + + { cmsSigDToB0Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[49]}, + { cmsSigDToB1Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[50]}, + { cmsSigDToB2Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[51]}, + { cmsSigDToB3Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[52]}, + { cmsSigBToD0Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[53]}, + { cmsSigBToD1Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[54]}, + { cmsSigBToD2Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[55]}, + { cmsSigBToD3Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[56]}, + + { cmsSigScreeningDescTag, { 1, 1, { cmsSigTextDescriptionType }, NULL}, &SupportedTags[57]}, + { cmsSigViewingConditionsTag, { 1, 1, { cmsSigViewingConditionsType }, NULL}, &SupportedTags[58]}, + + { cmsSigScreeningTag, { 1, 1, { cmsSigScreeningType}, NULL }, &SupportedTags[59]}, + { cmsSigVcgtTag, { 1, 1, { cmsSigVcgtType}, NULL }, &SupportedTags[60]}, + { cmsSigMetaTag, { 1, 1, { cmsSigDictType}, NULL }, &SupportedTags[61]}, + { cmsSigProfileSequenceIdTag, { 1, 1, { cmsSigProfileSequenceIdType}, NULL }, &SupportedTags[62]}, + { cmsSigProfileDescriptionMLTag,{ 1, 1, { cmsSigMultiLocalizedUnicodeType}, NULL}, NULL} + + +}; + +/* + Not supported Why + ======================= ========================================= + cmsSigOutputResponseTag ==> WARNING, POSSIBLE PATENT ON THIS SUBJECT! + cmsSigNamedColorTag ==> Deprecated + cmsSigDataTag ==> Ancient, unused + cmsSigDeviceSettingsTag ==> Deprecated, useless +*/ + + +_cmsTagPluginChunkType _cmsTagPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupTagList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsTagPluginChunkType newHead = { NULL }; + _cmsTagLinkedList* entry; + _cmsTagLinkedList* Anterior = NULL; + _cmsTagPluginChunkType* head = (_cmsTagPluginChunkType*) src->chunks[TagPlugin]; + + // Walk the list copying all nodes + for (entry = head->Tag; + entry != NULL; + entry = entry ->Next) { + + _cmsTagLinkedList *newEntry = ( _cmsTagLinkedList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsTagLinkedList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.Tag == NULL) + newHead.Tag = newEntry; + } + + ctx ->chunks[TagPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsTagPluginChunkType)); +} + +void _cmsAllocTagPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + DupTagList(ctx, src); + } + else { + static _cmsTagPluginChunkType TagPluginChunk = { NULL }; + ctx ->chunks[TagPlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagPluginChunk, sizeof(_cmsTagPluginChunkType)); + } + +} + +cmsBool _cmsRegisterTagPlugin(cmsContext id, cmsPluginBase* Data) +{ + cmsPluginTag* Plugin = (cmsPluginTag*) Data; + _cmsTagLinkedList *pt; + _cmsTagPluginChunkType* TagPluginChunk = ( _cmsTagPluginChunkType*) _cmsContextGetClientChunk(id, TagPlugin); + + if (Data == NULL) { + + TagPluginChunk->Tag = NULL; + return TRUE; + } + + pt = (_cmsTagLinkedList*) _cmsPluginMalloc(id, sizeof(_cmsTagLinkedList)); + if (pt == NULL) return FALSE; + + pt ->Signature = Plugin ->Signature; + pt ->Descriptor = Plugin ->Descriptor; + pt ->Next = TagPluginChunk ->Tag; + + TagPluginChunk ->Tag = pt; + + return TRUE; +} + +// Return a descriptor for a given tag or NULL +cmsTagDescriptor* _cmsGetTagDescriptor(cmsContext ContextID, cmsTagSignature sig) +{ + _cmsTagLinkedList* pt; + _cmsTagPluginChunkType* TagPluginChunk = ( _cmsTagPluginChunkType*) _cmsContextGetClientChunk(ContextID, TagPlugin); + + for (pt = TagPluginChunk->Tag; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Signature) return &pt ->Descriptor; + } + + for (pt = SupportedTags; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Signature) return &pt ->Descriptor; + } + + return NULL; +} |