#include "shellprv.h" #include "prop.h" #include // defines some values used for fmtid and pid #include "findfilter.h" // includes oledb (which defines some values used for fmtid and pid) properly #include "ids.h" #include "imgprop.h" #include // for PropertyTag* definitions #define MAX_UTF8_CHAR_SIZE (sizeof(CHAR) * 3) // FMTID_ExeDllInformation, //// {0CEF7D53-FA64-11d1-A203-0000F81FEDEE} #define PSFMTID_VERSION { 0xcef7d53, 0xfa64, 0x11d1, 0xa2, 0x3, 0x0, 0x0, 0xf8, 0x1f, 0xed, 0xee } #define PIDVSI_FileDescription 0x003 #define PIDVSI_FileVersion 0x004 #define PIDVSI_InternalName 0x005 #define PIDVSI_OriginalFileName 0x006 #define PIDVSI_ProductName 0x007 #define PIDVSI_ProductVersion 0x008 #define TIFFTAG_FAX_END_TIME 40052 #define TIFFTAG_SENDER_NAME 40021 #define TIFFTAG_TSID 40002 #define TIFFTAG_CALLERID 40005 #define TIFFTAG_RECIP_NAME 40006 #define TIFFTAG_RECIP_NUMBER 40007 #define TIFFTAG_CSID 40001 #define TIFFTAG_ROUTING 40004 // Internal PSGUID/PIDs // // Note: // This section was added to allow SCIDs to be defined without exposing them // externally (via public header files). In this way, we can define SCIDs // without having to worry about maintaining external support for them in // future. // {8D72ACA1-0716-419a-9AC1-ACB07B18DC32} #define PSGUID_PRV_STORAGE {0x8d72aca1, 0x716, 0x419a, 0x9a, 0xc1, 0xac, 0xb0, 0x7b, 0x18, 0xdc, 0x32} #define PID_PRV_STG_ATTRIBUTES_DESCRIPTION 2 DEFINE_SCID(SCID_Author , PSGUID_SUMMARYINFORMATION , PIDSI_AUTHOR); DEFINE_SCID(SCID_LastAuthor , PSGUID_SUMMARYINFORMATION , PIDSI_LASTAUTHOR); DEFINE_SCID(SCID_RevNumber , PSGUID_SUMMARYINFORMATION , PIDSI_REVNUMBER); DEFINE_SCID(SCID_AppName , PSGUID_SUMMARYINFORMATION , PIDSI_APPNAME); DEFINE_SCID(SCID_Title , PSGUID_SUMMARYINFORMATION , PIDSI_TITLE); DEFINE_SCID(SCID_Subject , PSGUID_SUMMARYINFORMATION , PIDSI_SUBJECT); DEFINE_SCID(SCID_Category , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_CATEGORY); DEFINE_SCID(SCID_Keywords , PSGUID_SUMMARYINFORMATION , PIDSI_KEYWORDS ); DEFINE_SCID(SCID_Rating , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_RATING ); DEFINE_SCID(SCID_Template , PSGUID_SUMMARYINFORMATION , PIDSI_TEMPLATE ); DEFINE_SCID(SCID_Copyright , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_COPYRIGHT); DEFINE_SCID(SCID_CompanyName , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_COMPANY); DEFINE_SCID(SCID_Manager , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_MANAGER); DEFINE_SCID(SCID_PresFormat , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_PRESFORMAT); DEFINE_SCID(SCID_PageCount , PSGUID_SUMMARYINFORMATION , PIDSI_PAGECOUNT); DEFINE_SCID(SCID_Comment , PSGUID_SUMMARYINFORMATION , PIDSI_COMMENTS); DEFINE_SCID(SCID_DocCreated , PSGUID_SUMMARYINFORMATION , PIDSI_CREATE_DTM); // in the doc, not file system DEFINE_SCID(SCID_WordCount , PSGUID_SUMMARYINFORMATION , PIDSI_WORDCOUNT); DEFINE_SCID(SCID_CharCount , PSGUID_SUMMARYINFORMATION , PIDSI_CHARCOUNT); DEFINE_SCID(SCID_LastSaveDTM , PSGUID_SUMMARYINFORMATION , PIDSI_LASTSAVE_DTM); DEFINE_SCID(SCID_LastPrinted , PSGUID_SUMMARYINFORMATION , PIDSI_LASTPRINTED); DEFINE_SCID(SCID_EditTime , PSGUID_SUMMARYINFORMATION , PIDSI_EDITTIME); DEFINE_SCID(SCID_ByteCount , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_BYTECOUNT); DEFINE_SCID(SCID_LineCount , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_LINECOUNT); DEFINE_SCID(SCID_ParagraphCount , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_PARCOUNT); DEFINE_SCID(SCID_SlideCount , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_SLIDECOUNT); DEFINE_SCID(SCID_NoteCount , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_NOTECOUNT); DEFINE_SCID(SCID_HiddenCount , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_HIDDENCOUNT); DEFINE_SCID(SCID_MMClipCount , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_MMCLIPCOUNT); DEFINE_SCID(SCID_Scale , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_SCALE); DEFINE_SCID(SCID_LinksDirty , PSGUID_DOCUMENTSUMMARYINFORMATION , PIDDSI_LINKSDIRTY); DEFINE_SCID(SCID_TYPE , PSGUID_STORAGE , PID_STG_STORAGETYPE); DEFINE_SCID(SCID_NAME , PSGUID_STORAGE , PID_STG_NAME); DEFINE_SCID(SCID_SIZE , PSGUID_STORAGE , PID_STG_SIZE); DEFINE_SCID(SCID_ATTRIBUTES , PSGUID_STORAGE , PID_STG_ATTRIBUTES); DEFINE_SCID(SCID_WRITETIME , PSGUID_STORAGE , PID_STG_WRITETIME); DEFINE_SCID(SCID_CREATETIME , PSGUID_STORAGE , PID_STG_CREATETIME); DEFINE_SCID(SCID_ACCESSTIME , PSGUID_STORAGE , PID_STG_ACCESSTIME); DEFINE_SCID(SCID_DIRECTORY , PSGUID_STORAGE , PID_STG_DIRECTORY); DEFINE_SCID(SCID_FREESPACE , PSGUID_VOLUME , PID_VOLUME_FREE); DEFINE_SCID(SCID_CAPACITY , PSGUID_VOLUME , PID_VOLUME_CAPACITY); DEFINE_SCID(SCID_FILESYSTEM , PSGUID_VOLUME , PID_VOLUME_FILESYSTEM); DEFINE_SCID(SCID_DELETEDFROM , PSGUID_DISPLACED , PID_DISPLACED_FROM); DEFINE_SCID(SCID_DATEDELETED , PSGUID_DISPLACED , PID_DISPLACED_DATE); DEFINE_SCID(SCID_SYNCCOPYIN , PSGUID_BRIEFCASE , PID_SYNC_COPY_IN); DEFINE_SCID(SCID_RANK , PSGUID_QUERY_D , PID_QUERY_RANK); DEFINE_SCID(SCID_LASTVISITED , PSGUID_INTERNETSITE , PID_INTSITE_LASTVISIT); DEFINE_SCID(SCID_LASTMODIFIED , PSGUID_INTERNETSITE , PID_INTSITE_LASTMOD); DEFINE_SCID(SCID_VISITCOUNT , PSGUID_INTERNETSITE , PID_INTSITE_VISITCOUNT); DEFINE_SCID(SCID_STATUS , PSGUID_INTERNETSITE , PID_INTSITE_FLAGS); DEFINE_SCID(SCID_FINDDATA , PSGUID_SHELLDETAILS , PID_FINDDATA); DEFINE_SCID(SCID_NETRESOURCE , PSGUID_SHELLDETAILS , PID_NETRESOURCE); DEFINE_SCID(SCID_DESCRIPTIONID , PSGUID_SHELLDETAILS , PID_DESCRIPTIONID); DEFINE_SCID(SCID_WHICHFOLDER , PSGUID_SHELLDETAILS , PID_WHICHFOLDER); DEFINE_SCID(SCID_NETWORKLOCATION , PSGUID_SHELLDETAILS , PID_NETWORKLOCATION); DEFINE_SCID(SCID_COMPUTERNAME , PSGUID_SHELLDETAILS , PID_COMPUTERNAME); DEFINE_SCID(SCID_OWNER , PSGUID_MISC , PID_MISC_OWNER); // DEFINE_SCID(SCID_STATUS , PSGUID_MISC , PID_MISC_STATUS); // DEFINE_SCID(SCID_ACCESSCOUNT , PSGUID_MISC , PID_MISC_ACCESSCOUNT); DEFINE_SCID(SCID_DetailsProperties , PSGUID_WEBVIEW , PID_DISPLAY_PROPERTIES); DEFINE_SCID(SCID_FolderIntroText , PSGUID_WEBVIEW , PID_INTROTEXT); DEFINE_SCID(SCID_CONTROLPANELCATEGORY , PSGUID_CONTROLPANEL , PID_CONTROLPANEL_CATEGORY); DEFINE_SCID(SCID_MUSIC_Artist , PSGUID_MUSIC , PIDSI_ARTIST); DEFINE_SCID(SCID_MUSIC_Album , PSGUID_MUSIC , PIDSI_ALBUM); DEFINE_SCID(SCID_MUSIC_Year , PSGUID_MUSIC , PIDSI_YEAR); DEFINE_SCID(SCID_MUSIC_Track , PSGUID_MUSIC , PIDSI_TRACK); DEFINE_SCID(SCID_MUSIC_Genre , PSGUID_MUSIC , PIDSI_GENRE); DEFINE_SCID(SCID_MUSIC_Lyrics , PSGUID_MUSIC , PIDSI_LYRICS); DEFINE_SCID(SCID_DRM_Protected , PSGUID_DRM , PIDDRSI_PROTECTED); DEFINE_SCID(SCID_DRM_Description , PSGUID_DRM , PIDDRSI_DESCRIPTION); DEFINE_SCID(SCID_DRM_PlayCount , PSGUID_DRM , PIDDRSI_PLAYCOUNT); DEFINE_SCID(SCID_DRM_PlayStarts , PSGUID_DRM , PIDDRSI_PLAYSTARTS); DEFINE_SCID(SCID_DRM_PlayExpires , PSGUID_DRM , PIDDRSI_PLAYEXPIRES); DEFINE_SCID(SCID_AUDIO_Duration , PSGUID_AUDIO , PIDASI_TIMELENGTH); //100ns units, not milliseconds. VT_UI8, not VT_UI4 DEFINE_SCID(SCID_AUDIO_Bitrate , PSGUID_AUDIO , PIDASI_AVG_DATA_RATE); // bits per second DEFINE_SCID(SCID_AUDIO_SampleRate , PSGUID_AUDIO , PIDASI_SAMPLE_RATE); // samples per second DEFINE_SCID(SCID_AUDIO_SampleSize , PSGUID_AUDIO , PIDASI_SAMPLE_SIZE); // bits per sample DEFINE_SCID(SCID_AUDIO_ChannelCount , PSGUID_AUDIO , PIDASI_CHANNEL_COUNT); // 1 (mono), 2(stero) DEFINE_SCID(SCID_AUDIO_Format , PSGUID_AUDIO , PIDASI_FORMAT); DEFINE_SCID(SCID_VIDEO_Bitrate , PSGUID_VIDEO , PIDVSI_DATA_RATE); // bits per second DEFINE_SCID(SCID_VIDEO_FrameRate , PSGUID_VIDEO , PIDVSI_FRAME_RATE); // frames per 1000s DEFINE_SCID(SCID_VIDEO_SampleSize , PSGUID_VIDEO , PIDVSI_SAMPLE_SIZE); // bits DEFINE_SCID(SCID_VIDEO_Compression , PSGUID_VIDEO , PIDVSI_COMPRESSION); DEFINE_SCID(SCID_VIDEO_StreamName , PSGUID_VIDEO , PIDVSI_STREAM_NAME); DEFINE_SCID(SCID_FileType , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_FILETYPE); DEFINE_SCID(SCID_ImageCX , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_CX); DEFINE_SCID(SCID_ImageCY , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_CY); DEFINE_SCID(SCID_ResolutionX , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_RESOLUTIONX); DEFINE_SCID(SCID_ResolutionY , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_RESOLUTIONY); DEFINE_SCID(SCID_BitDepth , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_BITDEPTH); DEFINE_SCID(SCID_Colorspace , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_COLORSPACE); DEFINE_SCID(SCID_Compression , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_COMPRESSION); DEFINE_SCID(SCID_Transparency , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_TRANSPARENCY); DEFINE_SCID(SCID_GammaValue , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_GAMMAVALUE); DEFINE_SCID(SCID_FrameCount , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_FRAMECOUNT); DEFINE_SCID(SCID_ImageDimensions , PSGUID_IMAGESUMMARYINFORMATION , PIDISI_DIMENSIONS); DEFINE_SCID(SCID_CameraModel , PSGUID_IMAGEPROPERTIES , PropertyTagEquipModel); DEFINE_SCID(SCID_TagCopyright , PSGUID_IMAGEPROPERTIES , PropertyTagCopyright); DEFINE_SCID(SCID_TagSoftwareUsed , PSGUID_IMAGEPROPERTIES , PropertyTagSoftwareUsed); DEFINE_SCID(SCID_WhenTaken , PSGUID_IMAGEPROPERTIES , PropertyTagExifDTOrig); DEFINE_SCID(SCID_Flash , PSGUID_IMAGEPROPERTIES , PropertyTagExifFlash); DEFINE_SCID(SCID_ColorSpace , PSGUID_IMAGEPROPERTIES , PropertyTagExifColorSpace); DEFINE_SCID(SCID_ShutterSpeed , PSGUID_IMAGEPROPERTIES , PropertyTagExifShutterSpeed); DEFINE_SCID(SCID_Aperture , PSGUID_IMAGEPROPERTIES , PropertyTagExifAperture); DEFINE_SCID(SCID_SubjectDist , PSGUID_IMAGEPROPERTIES , PropertyTagExifSubjectDist); DEFINE_SCID(SCID_FocalLength , PSGUID_IMAGEPROPERTIES , PropertyTagExifFocalLength); DEFINE_SCID(SCID_FNumber , PSGUID_IMAGEPROPERTIES , PropertyTagExifFNumber); DEFINE_SCID(SCID_ExposureTime , PSGUID_IMAGEPROPERTIES , PropertyTagExifExposureTime); DEFINE_SCID(SCID_FlashEnergy , PSGUID_IMAGEPROPERTIES , PropertyTagExifFlashEnergy); DEFINE_SCID(SCID_ISOSpeed , PSGUID_IMAGEPROPERTIES , PropertyTagExifISOSpeed); DEFINE_SCID(SCID_MeteringMode , PSGUID_IMAGEPROPERTIES , PropertyTagExifMeteringMode); DEFINE_SCID(SCID_LightSource , PSGUID_IMAGEPROPERTIES , PropertyTagExifLightSource); DEFINE_SCID(SCID_ExposureProg , PSGUID_IMAGEPROPERTIES , PropertyTagExifExposureProg); DEFINE_SCID(SCID_ExposureBias , PSGUID_IMAGEPROPERTIES , PropertyTagExifExposureBias); DEFINE_SCID(SCID_FaxEndTime , PSGUID_IMAGEPROPERTIES , TIFFTAG_FAX_END_TIME); DEFINE_SCID(SCID_FaxSenderName , PSGUID_IMAGEPROPERTIES , TIFFTAG_SENDER_NAME); DEFINE_SCID(SCID_FaxTSID , PSGUID_IMAGEPROPERTIES , TIFFTAG_TSID); DEFINE_SCID(SCID_FaxCallerId , PSGUID_IMAGEPROPERTIES , TIFFTAG_CALLERID); DEFINE_SCID(SCID_FaxRecipName , PSGUID_IMAGEPROPERTIES , TIFFTAG_RECIP_NAME); DEFINE_SCID(SCID_FaxRecipNumber , PSGUID_IMAGEPROPERTIES , TIFFTAG_RECIP_NUMBER); DEFINE_SCID(SCID_FaxCSID , PSGUID_IMAGEPROPERTIES , TIFFTAG_CSID); DEFINE_SCID(SCID_FaxRouting , PSGUID_IMAGEPROPERTIES , TIFFTAG_ROUTING); DEFINE_SCID(SCID_TagEquipMake , PSGUID_IMAGEPROPERTIES , PropertyTagEquipMake); DEFINE_SCID(SCID_Media_SequenceNumber , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_SEQUENCE_NO); DEFINE_SCID(SCID_Media_Owner , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_OWNER); DEFINE_SCID(SCID_Media_Editor , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_EDITOR); DEFINE_SCID(SCID_Media_Supplier , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_SUPPLIER); DEFINE_SCID(SCID_Media_Source , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_SOURCE); DEFINE_SCID(SCID_Media_Copyright , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_COPYRIGHT); DEFINE_SCID(SCID_Media_Project , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_PROJECT); DEFINE_SCID(SCID_Media_Status , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_STATUS); DEFINE_SCID(SCID_Media_Production , PSGUID_MEDIAFILESUMMARYINFORMATION , PIDMSI_PRODUCTION); DEFINE_SCID(SCID_CSC_STATUS , PSGUID_SHARE , PID_SHARE_CSC_STATUS); DEFINE_SCID(SCID_LINKTARGET , PSGUID_LINK , PID_LINK_TARGET); DEFINE_SCID(SCID_ATTRIBUTES_DESCRIPTION , PSGUID_PRV_STORAGE , PID_PRV_STG_ATTRIBUTES_DESCRIPTION); typedef struct { LPCWSTR pwszName; const SHCOLUMNID *pscid; UINT idDisplayName; UINT idMnemonicName; UINT idHelp; // IDH_ values } PROPUI_INFO; #define PROPUI_ENTRY_NORES(name, scid) {L ## name, &scid, 0, 0, 0}, #define PROPUI_ENTRY(name, scid, idDisplayName, idMnemonicName, idHelp) {L ## name, &scid, idDisplayName, idMnemonicName, idHelp}, const PROPUI_INFO c_rgPropUIInfo[] = { PROPUI_ENTRY("Name" , SCID_NAME , IDS_NAME_COL , IDS_MNEMONIC_NAME_COL , 10114) PROPUI_ENTRY("Type" , SCID_TYPE , IDS_TYPE_COL , IDS_MNEMONIC_TYPE_COL , 10015) PROPUI_ENTRY("Size" , SCID_SIZE , IDS_SIZE_COL , IDS_MNEMONIC_SIZE_COL , 10115) PROPUI_ENTRY("Write" , SCID_WRITETIME , IDS_MODIFIED_COL , IDS_MNEMONIC_MODIFIED_COL , 10016) PROPUI_ENTRY("Attributes" , SCID_ATTRIBUTES , IDS_ATTRIB_COL , IDS_MNEMONIC_ATTRIB_COL , 10019) PROPUI_ENTRY("AttributesDescription", SCID_ATTRIBUTES_DESCRIPTION , IDS_ATTRIB_COL , IDS_MNEMONIC_ATTRIB_COL , 10019) PROPUI_ENTRY("Owner" , SCID_OWNER , IDS_EXCOL_OWNER , IDS_MNEMONIC_EXCOL_OWNER , 10021) PROPUI_ENTRY("Create" , SCID_CREATETIME , IDS_EXCOL_CREATE , IDS_MNEMONIC_EXCOL_CREATE , 10017) PROPUI_ENTRY("Access" , SCID_ACCESSTIME , IDS_EXCOL_ACCESSTIME , IDS_MNEMONIC_EXCOL_ACCESSTIME , 10018) PROPUI_ENTRY("DocCreatedTm" , SCID_DocCreated , IDS_EXCOL_CREATE , IDS_MNEMONIC_EXCOL_CREATE , 10068) PROPUI_ENTRY("DocTitle" , SCID_Title , IDS_EXCOL_TITLE , IDS_MNEMONIC_EXCOL_TITLE , 10023) PROPUI_ENTRY("DocSubject" , SCID_Subject , IDS_EXCOL_SUBJECT , IDS_MNEMONIC_EXCOL_SUBJECT , 10024) PROPUI_ENTRY("DocAuthor" , SCID_Author , IDS_EXCOL_AUTHOR , IDS_MNEMONIC_EXCOL_AUTHOR , 10022) PROPUI_ENTRY("DocLastAuthor" , SCID_LastAuthor , IDS_EXCOL_LASTAUTHOR , IDS_MNEMONIC_EXCOL_LASTAUTHOR , 20010) PROPUI_ENTRY("DocRevNumber" , SCID_RevNumber , IDS_EXCOL_REVNUMBER , IDS_MNEMONIC_EXCOL_REVNUMBER , 20011) PROPUI_ENTRY("DocAppName" , SCID_AppName , IDS_EXCOL_APPNAME , IDS_MNEMONIC_EXCOL_APPNAME , 20012) PROPUI_ENTRY("DocPageCount" , SCID_PageCount , IDS_EXCOL_PAGECOUNT , IDS_MNEMONIC_EXCOL_PAGECOUNT , 10026) PROPUI_ENTRY("DocComments" , SCID_Comment , IDS_EXCOL_COMMENT , IDS_MNEMONIC_EXCOL_COMMENT , 10020) PROPUI_ENTRY("Copyright" , SCID_Copyright , IDS_EXCOL_COPYRIGHT , IDS_MNEMONIC_EXCOL_COPYRIGHT , 10027) PROPUI_ENTRY("DocCategory" , SCID_Category , IDS_EXCOL_CATEGORY , IDS_MNEMONIC_EXCOL_CATEGORY , 10025) PROPUI_ENTRY("DocKeywords" , SCID_Keywords , IDS_EXCOL_KEYWORDS , IDS_MNEMONIC_EXCOL_KEYWORDS , 20013) PROPUI_ENTRY("Rating" , SCID_Rating , IDS_EXCOL_RATING , IDS_MNEMONIC_EXCOL_RATING , 20014) PROPUI_ENTRY("DocTemplate" , SCID_Template , IDS_EXCOL_TEMPLATEPROP , IDS_MNEMONIC_EXCOL_TEMPLATE , 20015) PROPUI_ENTRY("DocWordCount" , SCID_WordCount , IDS_EXCOL_WORDCOUNT , IDS_MNEMONIC_EXCOL_WORDCOUNT , 20016) PROPUI_ENTRY("DocCharCount" , SCID_CharCount , IDS_EXCOL_CHARCOUNT , IDS_MNEMONIC_EXCOL_CHARCOUNT , 20017) PROPUI_ENTRY("DocLastSavedTm" , SCID_LastSaveDTM , IDS_EXCOL_LASTSAVEDTM , IDS_MNEMONIC_EXCOL_LASTSAVEDTM , 20018) PROPUI_ENTRY("DocLastPrinted" , SCID_LastPrinted , IDS_EXCOL_LASTPRINTED , IDS_MNEMONIC_EXCOL_LASTPRINTED , 20019) PROPUI_ENTRY("DocEditTime" , SCID_EditTime , IDS_EXCOL_EDITTIME , IDS_MNEMONIC_EXCOL_EDITTIME , 20020) PROPUI_ENTRY("DocByteCount" , SCID_ByteCount , IDS_EXCOL_BYTECOUNT , IDS_MNEMONIC_EXCOL_BYTECOUNT , 20021) PROPUI_ENTRY("DocLineCount" , SCID_LineCount , IDS_EXCOL_LINECOUNT , IDS_MNEMONIC_EXCOL_LINECOUNT , 20022) PROPUI_ENTRY("DocParaCount" , SCID_ParagraphCount , IDS_EXCOL_PARCOUNT , IDS_MNEMONIC_EXCOL_PARCOUNT , 20023) PROPUI_ENTRY("DocSlideCount" , SCID_SlideCount , IDS_EXCOL_SLIDECOUNT , IDS_MNEMONIC_EXCOL_SLIDECOUNT , 20024) PROPUI_ENTRY("DocNoteCount" , SCID_NoteCount , IDS_EXCOL_NOTECOUNT , IDS_MNEMONIC_EXCOL_NOTECOUNT , 20025) PROPUI_ENTRY("DocHiddenCount" , SCID_HiddenCount , IDS_EXCOL_HIDDENCOUNT , IDS_MNEMONIC_EXCOL_HIDDENCOUNT , 20026) PROPUI_ENTRY("MMClipCount" , SCID_MMClipCount , IDS_EXCOL_MMCLIPCOUNT , IDS_MNEMONIC_EXCOL_MMCLIPCOUNT , 20027) PROPUI_ENTRY("Scale" , SCID_Scale , IDS_EXCOL_SCALE , IDS_MNEMONIC_EXCOL_SCALE , 20028) PROPUI_ENTRY("LinksUpToDate" , SCID_LinksDirty , IDS_EXCOL_LINKSDIRTY , IDS_MNEMONIC_EXCOL_LINKSDIRTY , 20029) PROPUI_ENTRY("CameraModel" , SCID_CameraModel , IDS_EXCOL_CAMERAMODEL , IDS_MNEMONIC_EXCOL_CAMERAMODEL , 10037) PROPUI_ENTRY("Copyright" , SCID_TagCopyright , IDS_EXCOL_COPYRIGHT , IDS_MNEMONIC_EXCOL_COPYRIGHT , 20030) PROPUI_ENTRY("Software" , SCID_TagSoftwareUsed , IDS_EXCOL_SOFTWARE , IDS_MNEMONIC_EXCOL_SOFTWARE , 20031) PROPUI_ENTRY("WhenTaken" , SCID_WhenTaken , IDS_EXCOL_WHENTAKEN , IDS_MNEMONIC_EXCOL_WHENTAKEN , 10038) PROPUI_ENTRY("FileType" , SCID_FileType , IDS_EXCOL_FILETYPE , IDS_MNEMONIC_EXCOL_FILETYPE , 20032) PROPUI_ENTRY("ImageX" , SCID_ImageCX , IDS_EXCOL_IMAGECX , IDS_MNEMONIC_EXCOL_IMAGECX , 20033) PROPUI_ENTRY("ImageY" , SCID_ImageCY , IDS_EXCOL_IMAGECY , IDS_MNEMONIC_EXCOL_IMAGECY , 20034) PROPUI_ENTRY("ResolutionX" , SCID_ResolutionX , IDS_EXCOL_RESOLUTIONX , IDS_MNEMONIC_EXCOL_RESOLUTIONX , 20035) PROPUI_ENTRY("ResolutionY" , SCID_ResolutionY , IDS_EXCOL_RESOLUTIONY , IDS_MNEMONIC_EXCOL_RESOLUTIONY , 20036) PROPUI_ENTRY("BitDepth" , SCID_BitDepth , IDS_EXCOL_BITDEPTH , IDS_MNEMONIC_EXCOL_BITDEPTH , 20037) PROPUI_ENTRY("ColorSpace" , SCID_ColorSpace , IDS_EXCOL_COLORSPACE , IDS_MNEMONIC_EXCOL_COLORSPACE , 20038) PROPUI_ENTRY("ColorSpace" , SCID_Colorspace , IDS_EXCOL_COLORSPACE , IDS_MNEMONIC_EXCOL_COLORSPACE , 20038) PROPUI_ENTRY("Compression" , SCID_Compression , IDS_EXCOL_ACOMPRESSION , IDS_MNEMONIC_EXCOL_ACOMPRESSION , 20039) PROPUI_ENTRY("Transparency" , SCID_Transparency , IDS_EXCOL_TRANSPARENCY , IDS_MNEMONIC_EXCOL_TRANSPARENCY , 20040) PROPUI_ENTRY("Gamma" , SCID_GammaValue , IDS_EXCOL_GAMMAVALUE , IDS_MNEMONIC_EXCOL_GAMMAVALUE , 20041) PROPUI_ENTRY("FrameCount" , SCID_FrameCount , IDS_EXCOL_FRAMECOUNT , IDS_MNEMONIC_EXCOL_FRAMECOUNT , 10046) PROPUI_ENTRY("Dimensions" , SCID_ImageDimensions , IDS_EXCOL_DIMENSIONS , IDS_MNEMONIC_EXCOL_DIMENSIONS , 10059) PROPUI_ENTRY("Flash" , SCID_Flash , IDS_EXCOL_FLASH , IDS_MNEMONIC_EXCOL_FLASH , 20042) PROPUI_ENTRY("ShutterSpeed" , SCID_ShutterSpeed , IDS_EXCOL_SHUTTERSPEED , IDS_NMEMONIC_EXCOL_SHUTTERSPEED , 20043) PROPUI_ENTRY("Aperture" , SCID_Aperture , IDS_EXCOL_APERTURE , IDS_NMEMONIC_EXCOL_APERTURE , 20044) PROPUI_ENTRY("Distance" , SCID_SubjectDist , IDS_EXCOL_DISTANCE , IDS_NMEMONIC_EXCOL_DISTANCE , 20046) PROPUI_ENTRY("FocalLength" , SCID_FocalLength , IDS_EXCOL_FOCALLENGTH , IDS_MNEMONIC_EXCOL_FOCALLENGTH , 20047) PROPUI_ENTRY("FNumber" , SCID_FNumber , IDS_EXCOL_FNUMBER , IDS_MNEMONIC_EXCOL_FNUMBER , 20049) PROPUI_ENTRY("ExposureTime" , SCID_ExposureTime , IDS_EXCOL_EXPOSURETIME , IDS_MNEMONIC_EXCOL_EXPOSURETIME , 20049) PROPUI_ENTRY("FlashEnergy" , SCID_FlashEnergy ,IDS_EXCOL_FLASHENERGY , IDS_MNEMONIC_EXCOL_FLASHENERGY , 20080) PROPUI_ENTRY("ISOSpeed" , SCID_ISOSpeed ,IDS_EXCOL_ISOSPEED , IDS_MNEMONIC_EXCOL_ISOSPEED , 20081) PROPUI_ENTRY("MeteringMode" , SCID_MeteringMode ,IDS_EXCOL_METERINGMODE , IDS_MNEMONIC_EXCOL_METERINGMODE , 20082) PROPUI_ENTRY("LightSource" , SCID_LightSource ,IDS_EXCOL_LIGHTSOURCE , IDS_MNEMONIC_EXCOL_LIGHTSOURCE , 20083) PROPUI_ENTRY("ExposureProg" , SCID_ExposureProg ,IDS_EXCOL_EXPOSUREPROG , IDS_MNEMONIC_EXCOL_EXPOSUREPROG , 20084) PROPUI_ENTRY("ExposureBias" , SCID_ExposureBias ,IDS_EXCOL_EXPOSUREBIAS , IDS_MNEMONIC_EXCOL_EXPOSUREBIAS , 20085) PROPUI_ENTRY("Artist" , SCID_MUSIC_Artist , IDS_EXCOL_ARTIST , IDS_MNEMONIC_EXCOL_ARTIST , 10028) PROPUI_ENTRY("Album" , SCID_MUSIC_Album , IDS_EXCOL_ALBUM , IDS_MNEMONIC_EXCOL_ALBUM , 10029) PROPUI_ENTRY("Year" , SCID_MUSIC_Year , IDS_EXCOL_YEAR , IDS_MNEMONIC_EXCOL_YEAR , 10030) PROPUI_ENTRY("Track" , SCID_MUSIC_Track , IDS_EXCOL_TRACK , IDS_MNEMONIC_EXCOL_TRACK , 10031) PROPUI_ENTRY("Duration" , SCID_AUDIO_Duration , IDS_EXCOL_DURATION , IDS_MNEMONIC_EXCOL_DURATION , 10032) PROPUI_ENTRY("Bitrate" , SCID_AUDIO_Bitrate , IDS_EXCOL_BITRATE , IDS_MNEMONIC_EXCOL_BITRATE , 10033) PROPUI_ENTRY("Sample Rate" , SCID_AUDIO_SampleRate , IDS_EXCOL_SAMPLERATE , IDS_MNEMONIC_EXCOL_SAMPLERATE , 20050) PROPUI_ENTRY("Audio Sample Size" , SCID_AUDIO_SampleSize , IDS_EXCOL_ASAMPLESIZE , IDS_MNEMONIC_EXCOL_ASAMPLESIZE , 10041) PROPUI_ENTRY("Channels" , SCID_AUDIO_ChannelCount , IDS_EXCOL_CHANNELS , IDS_MNEMONIC_EXCOL_CHANNELS , 10047) PROPUI_ENTRY("Audio Format" , SCID_AUDIO_Format , IDS_EXCOL_FORMAT , IDS_MNEMONIC_EXCOL_FORMAT , 10039) PROPUI_ENTRY("Data Rate" , SCID_VIDEO_Bitrate , IDS_EXCOL_DATARATE , IDS_MNEMONIC_EXCOL_DATARATE , 20050) PROPUI_ENTRY("Frame Rate" , SCID_VIDEO_FrameRate , IDS_EXCOL_FRAMERATE , IDS_MNEMONIC_EXCOL_FRAMERATE , 10045) PROPUI_ENTRY("Video Sample Size" , SCID_VIDEO_SampleSize , IDS_EXCOL_VSAMPLESIZE , IDS_MNEMONIC_EXCOL_VSAMPLESIZE , 10044) PROPUI_ENTRY("Compression" , SCID_VIDEO_Compression , IDS_EXCOL_VCOMPRESSION , IDS_MNEMONIC_EXCOL_VCOMPRESSION , 10043) PROPUI_ENTRY("Stream Name" , SCID_VIDEO_StreamName , IDS_EXCOL_STREAMNAME , IDS_MNEMONIC_EXCOL_STREAMNAME , 20051) PROPUI_ENTRY("Genre" , SCID_MUSIC_Genre , IDS_EXCOL_GENRE , IDS_MNEMONIC_EXCOL_GENRE , 20052) PROPUI_ENTRY("Lyrics" , SCID_MUSIC_Lyrics , IDS_EXCOL_LYRICS , IDS_EXCOL_LYRICS , 0) PROPUI_ENTRY("Protected" , SCID_DRM_Protected , IDS_EXCOL_PROTECTED , IDS_MNEMONIC_EXCOL_PROTECTED , 20074) PROPUI_ENTRY("DRM Description" , SCID_DRM_Description , IDS_EXCOL_DRMDESCRIPTION , IDS_MNEMONIC_EXCOL_DRMDESCRIPTION , 20075) PROPUI_ENTRY("Play Count" , SCID_DRM_PlayCount , IDS_EXCOL_PLAYCOUNT , IDS_MNEMONIC_EXCOL_PLAYCOUNT , 20076) PROPUI_ENTRY("Play Starts" , SCID_DRM_PlayStarts , IDS_EXCOL_PLAYSTARTS , IDS_MNEMONIC_EXCOL_PLAYSTARTS , 20077) PROPUI_ENTRY("Play Expires" , SCID_DRM_PlayExpires , IDS_EXCOL_PLAYEXPIRES , IDS_MNEMONIC_EXCOL_PLAYEXPIRES , 20078) PROPUI_ENTRY("FaxTime" , SCID_FaxEndTime , IDS_EXCOL_FAXENDTIME , IDS_MNEMONIC_EXCOL_FAXENDTIME , 20053) PROPUI_ENTRY("FaxSenderName" , SCID_FaxSenderName , IDS_EXCOL_FAXSENDERNAME , IDS_MNEMONIC_EXCOL_FAXSENDERNAME , 20054) PROPUI_ENTRY("FaxTSID" , SCID_FaxTSID , IDS_EXCOL_FAXTSID , IDS_MNEMONIC_EXCOL_FAXTSID , 20055) PROPUI_ENTRY("FaxCallerID" , SCID_FaxCallerId , IDS_EXCOL_FAXCALLERID , IDS_MNEMONIC_EXCOL_FAXCALLERID , 20056) PROPUI_ENTRY("FaxRecipientName" , SCID_FaxRecipName , IDS_EXCOL_FAXRECIPNAME , IDS_MNEMONIC_EXCOL_FAXRECIPNAME , 20057) PROPUI_ENTRY("FaxRecipientNumber" , SCID_FaxRecipNumber , IDS_EXCOL_FAXRECIPNUMBER , IDS_MNEMONIC_EXCOL_FAXRECIPNUMBER , 20058) PROPUI_ENTRY("FaxCSID" , SCID_FaxCSID , IDS_EXCOL_FAXCSID , IDS_MNEMONIC_EXCOL_FAXCSID , 20059) PROPUI_ENTRY("FaxRouting" , SCID_FaxRouting , IDS_EXCOL_FAXROUTING , IDS_MNEMONIC_EXCOL_FAXROUTING , 20060) PROPUI_ENTRY("EquipMake" , SCID_TagEquipMake , IDS_EXCOL_TAGEQUIPMAKE , IDS_MNEMONIC_EXCOL_TAGEQUIPMAKE , 20061) PROPUI_ENTRY("SequenceNo" , SCID_Media_SequenceNumber , IDS_EXCOL_SEQUENCENUMBER , IDS_MNEMONIC_EXCOL_SEQUENCENUMBER , 20062) PROPUI_ENTRY("Owner" , SCID_Media_Owner , IDS_EXCOL_OWNER , IDS_MNEMONIC_EXCOL_OWNER , 20063) PROPUI_ENTRY("Editor" , SCID_Media_Editor , IDS_EXCOL_EDITOR , IDS_MNEMONIC_EXCOL_EDITOR , 20064) PROPUI_ENTRY("Supplier" , SCID_Media_Supplier , IDS_EXCOL_SUPPLIER , IDS_MNEMONIC_EXCOL_SUPPLIER , 20065) PROPUI_ENTRY("Source" , SCID_Media_Source , IDS_EXCOL_SOURCE , IDS_MNEMONIC_EXCOL_SOURCE , 20066) PROPUI_ENTRY("Copyright" , SCID_Media_Copyright , IDS_EXCOL_COPYRIGHT , IDS_MNEMONIC_EXCOL_COPYRIGHT , 20067) PROPUI_ENTRY("Project" , SCID_Media_Project , IDS_EXCOL_PROJECT , IDS_MNEMONIC_EXCOL_PROJECT , 20068) PROPUI_ENTRY("Status" , SCID_Media_Status , IDS_EXCOL_STATUS , IDS_MNEMONIC_EXCOL_STATUS , 20069) PROPUI_ENTRY("Production" , SCID_Media_Production , IDS_EXCOL_PRODUCTION , IDS_MNEMONIC_EXCOL_PRODUCTION , 20070) PROPUI_ENTRY("Company" , SCID_CompanyName , IDS_VN_COMPANYNAME , IDS_MNEMONIC_VN_COMPANYNAME , 10034) PROPUI_ENTRY("Manager" , SCID_Manager , IDS_EXCOL_MANAGER , IDS_MNEMONIC_EXCOL_MANAGER , 20071) PROPUI_ENTRY("PresentationTarget" , SCID_PresFormat , IDS_EXCOL_PRESFORMAT , IDS_MNEMONIC_EXCOL_PRESFORMAT , 20072) PROPUI_ENTRY("FileDescription" , SCID_FileDescription , IDS_VN_FILEDESCRIPTION , IDS_MNEMONIC_VN_FILEDESCRIPTION , 10056) PROPUI_ENTRY("FileVersion" , SCID_FileVersion , IDS_VN_FILEVERSION , IDS_MNEMONIC_VN_FILEVERSION , 10057) PROPUI_ENTRY("ProductName" , SCID_ProductName , IDS_VN_PRODUCTNAME , IDS_MNEMONIC_VN_PRODUCTNAME , 10035) PROPUI_ENTRY("ProductVersion" , SCID_ProductVersion , IDS_VN_PRODUCTVERSION , IDS_MNEMONIC_VN_PRODUCTVERSION , 10036) PROPUI_ENTRY("DeletedFrom" , SCID_DELETEDFROM , IDS_DELETEDFROM_COL , IDS_MNEMONIC_DELETEDFROM_COL , 10048) PROPUI_ENTRY("DateDeleted" , SCID_DATEDELETED , IDS_DATEDELETED_COL , IDS_MNEMONIC_DATEDELETED_COL , 10049) PROPUI_ENTRY("SyncCopyIn" , SCID_SYNCCOPYIN , IDS_SYNCCOPYIN_COL , IDS_MNEMONIC_SYNCCOPYIN_COL , 10060) PROPUI_ENTRY("Status" , SCID_STATUS , IDS_STATUS_COL , IDS_MNEMONIC_STATUS_COL , 0) // do we need help for this? What is it? PROPUI_ENTRY("FreeSpace" , SCID_FREESPACE , IDS_DRIVES_FREE , IDS_MNEMONIC_DRIVES_FREE , 10051) PROPUI_ENTRY("Capacity" , SCID_CAPACITY , IDS_DRIVES_CAPACITY , IDS_MNEMONIC_DRIVES_CAPACITY , 10050) PROPUI_ENTRY("FileSystem" , SCID_FILESYSTEM , IDS_DRIVES_FILESYSTEM , IDS_MNEMONIC_DRIVES_FILESYSTEM , 10062) PROPUI_ENTRY("" , SCID_PRN_QUEUESIZE , IDS_PSD_QUEUESIZE , IDS_MNEMONIC_PSD_QUEUESIZE , 10063) PROPUI_ENTRY("" , SCID_PRN_LOCATION , IDS_PSD_LOCATION , IDS_MNEMONIC_PSD_LOCATION , 10064) PROPUI_ENTRY("" , SCID_PRN_MODEL , IDS_PSD_MODEL , IDS_MNEMONIC_PSD_MODEL , 10066) PROPUI_ENTRY("" , SCID_PRN_STATUS , IDS_PRQ_STATUS , IDS_MNEMONIC_PRQ_STATUS , 10065) PROPUI_ENTRY("Directory" , SCID_DIRECTORY , IDS_PATH_COL , IDS_MNEMONIC_PATH_COL , 10053) PROPUI_ENTRY("Rank" , SCID_RANK , IDS_RANK_COL , IDS_MNEMONIC_RANK_COL , 10054) PROPUI_ENTRY("" , SCID_WHICHFOLDER , IDS_WHICHFOLDER_COL , IDS_MNEMONIC_WHICHFOLDER_COL , 10067) PROPUI_ENTRY("CSCStatus" , SCID_CSC_STATUS , IDS_CSC_STATUS , IDS_MNEMONIC_CSC_STATUS , 20073) PROPUI_ENTRY_NORES("LinkTarget" , SCID_LINKTARGET) }; // String resource mapping block struct STRING_MAP { ULONG uVal; UINT idStr; }; static const STRING_MAP g_cLightSourceStrings[] = { { 1, IDS_PROPERTYUI_IMAGE_DAYLIGHT}, { 2, IDS_PROPERTYUI_IMAGE_FLOURESCENT}, { 3, IDS_PROPERTYUI_IMAGE_TUNGSTEN}, {17, IDS_PROPERTYUI_IMAGE_STANDARDA}, {18, IDS_PROPERTYUI_IMAGE_STANDARDB}, {19, IDS_PROPERTYUI_IMAGE_STANDARDC}, {20, IDS_PROPERTYUI_IMAGE_D55}, {21, IDS_PROPERTYUI_IMAGE_D65}, {22, IDS_PROPERTYUI_IMAGE_D75}, { 0, IDS_PROPERTYUI_IMAGE_UNKNOWN}, // Last entry is default }; static const STRING_MAP g_cExposureProgStrings[] = { {1, IDS_PROPERTYUI_IMAGE_MANUAL}, {2, IDS_PROPERTYUI_IMAGE_NORMAL}, {3, IDS_PROPERTYUI_IMAGE_APERTUREPRI}, {4, IDS_PROPERTYUI_IMAGE_SHUTTERPRI}, {5, IDS_PROPERTYUI_IMAGE_CREATIVE}, {6, IDS_PROPERTYUI_IMAGE_ACTION}, {7, IDS_PROPERTYUI_IMAGE_PORTRAIT}, {8, IDS_PROPERTYUI_IMAGE_LANDSCAPE}, {0, IDS_PROPERTYUI_IMAGE_UNKNOWN}, // Last entry is default }; static const STRING_MAP g_cMeteringModeStrings[] = { {1, IDS_PROPERTYUI_IMAGE_AVERAGE}, {2, IDS_PROPERTYUI_IMAGE_CWA}, {3, IDS_PROPERTYUI_IMAGE_SPOT}, {4, IDS_PROPERTYUI_IMAGE_MULTISPOT}, {5, IDS_PROPERTYUI_IMAGE_PATTERN}, {6, IDS_PROPERTYUI_IMAGE_PARTIAL}, {0, IDS_PROPERTYUI_IMAGE_UNKNOWN}, // Last entry is default }; static const STRING_MAP g_cFlashStrings[] = { {0, IDS_PROPERTYUI_IMAGE_NOFLASH}, {1, IDS_PROPERTYUI_IMAGE_FLASHFIRED}, {5, IDS_PROPERTYUI_IMAGE_NOSTROBERETURN}, {7, IDS_PROPERTYUI_IMAGE_STROBERETURN}, {0, 0}, }; static const STRING_MAP g_cColorStrings[] = { {1, IDS_PROPERTYUI_IMAGE_SRGB}, {0xffff, IDS_PROPERTYUI_IMAGE_UNCALIBRATED}, {0,0}, }; static const STRING_MAP g_cMediaStatus[] = { { PIDMSI_STATUS_NORMAL , IDS_STATUSVAL_NORMAL }, { PIDMSI_STATUS_NEW , IDS_STATUSVAL_NEW }, { PIDMSI_STATUS_PRELIM , IDS_STATUSVAL_PRELIM }, { PIDMSI_STATUS_DRAFT , IDS_STATUSVAL_DRAFT }, { PIDMSI_STATUS_EDIT , IDS_STATUSVAL_EDIT }, { PIDMSI_STATUS_INPROGRESS , IDS_STATUSVAL_INPROGRESS }, { PIDMSI_STATUS_REVIEW , IDS_STATUSVAL_REVIEW }, { PIDMSI_STATUS_PROOF , IDS_STATUSVAL_PROOF }, { PIDMSI_STATUS_FINAL , IDS_STATUSVAL_FINAL }, { PIDMSI_STATUS_OTHER , IDS_STATUSVAL_OTHER }, { 0,0 } }; STDAPI SCIDCannonicalName(SHCOLUMNID *pscid, LPTSTR pszName, int cch) { HRESULT hr = E_FAIL; pszName[0] = 0; for (int i = 0; i < ARRAYSIZE(c_rgPropUIInfo); i++) { if (IsEqualSCID(*pscid, *c_rgPropUIInfo[i].pscid)) { SHUnicodeToTChar(c_rgPropUIInfo[i].pwszName, pszName, cch); hr = S_OK; break; } } return hr; } LPCTSTR TrimLeadingWhiteSpaces(LPCTSTR pszString) { LPCTSTR psz = pszString; while (psz && ((*psz == TEXT(' ')) || (*psz == TEXT('\n')) || (*psz == TEXT('\t')))) { psz++; } return psz; } STDAPI_(BOOL) ParseSCIDString(LPCTSTR pszString, SHCOLUMNID *pscid, UINT *pidRes) { BOOL bRet = FALSE; if (GUIDFromString(pszString, &pscid->fmtid)) { // GUIDSTR_MAX includes space for the terminating NULL LPCTSTR pszPid = &pszString[GUIDSTR_MAX - 1]; // Skip past any leading white space pszPid = TrimLeadingWhiteSpaces(pszPid); pscid->pid = StrToInt(pszPid); bRet = TRUE; if (pidRes) *pidRes = 0; } else { WCHAR szName[64]; SHTCharToUnicode(pszString, szName, ARRAYSIZE(szName)); for (int i = 0; i < ARRAYSIZE(c_rgPropUIInfo); i++) { if (StrCmpIW(szName, c_rgPropUIInfo[i].pwszName) == 0) { *pscid = *c_rgPropUIInfo[i].pscid; if (pidRes) *pidRes = c_rgPropUIInfo[i].idDisplayName; bRet = TRUE; break; } } } return bRet; } // // Function converts a SCID into a string. // The string format is "{scid.fmtid} scid.pid" (There is a space in between) // So for example, SCID_Category will yield the following string - // "{d5cdd502-2e9c-101b-9397-08002b2cf9ae} 2" // // See ParseSCIDString() above for the the complimentary function. // Also see CFolderItem::ExtendedProperty() in sdflditm.cpp if you are curious // as to where is ParseSCIDString() used and see CtrlFldr.cpp and RegFldr.cpp for // usage of StringFromSCID(). // STDAPI_(int) StringFromSCID(const SHCOLUMNID *pscid, LPTSTR psz, UINT cch) { TCHAR ach[GUIDSTR_MAX]; if (0 != SHStringFromGUID(pscid->fmtid, ach, ARRAYSIZE(ach))) { return wnsprintf(psz, cch, TEXT("%s %d"), ach, pscid->pid); } *psz = 0; return 0; } STDAPI MapColumnToSCIDImpl(const COLUMN_INFO* pcol, UINT nCols, UINT iColumn, SHCOLUMNID* pscid) { HRESULT hr; if (iColumn < nCols) { *pscid = *pcol[iColumn].pscid; hr = S_OK; } else { ZeroMemory(pscid, sizeof(*pscid)); hr = E_INVALIDARG; } return hr; } STDAPI_(int) FindSCID(const COLUMN_INFO* pcol, UINT nCols, const SHCOLUMNID* pscid) { for (UINT i = 0; i < nCols; i++) { if (IsEqualSCID(*pscid, *pcol[i].pscid)) return (int)i; } return -1; } STDAPI GetDetailsOfInfo(const COLUMN_INFO* pcol_data, UINT nCols, UINT iColumn, SHELLDETAILS *pdi) { HRESULT hr; if (iColumn < nCols) { pdi->fmt = pcol_data[iColumn].fmt; pdi->cxChar = pcol_data[iColumn].cChars; hr = ResToStrRet(pcol_data[iColumn].idTitle, &pdi->str); } else { hr = E_NOTIMPL; // we don't support his column } return hr; } // dead export STDAPI SHStgOpenStorageW(LPCWSTR pwszPath, DWORD grfMode, DWORD grfAttr, DWORD grfFileAttr, REFIID riid, void **ppv) { *ppv = NULL; return E_NOTIMPL; } // dead export STDAPI SHStgOpenStorageA(LPCSTR pwszPath, DWORD grfMode, DWORD grfAttr, DWORD grfFileAttr, REFIID riid, void **ppv) { *ppv = NULL; return E_NOTIMPL; } const PROPSPEC codepage_spec = { PRSPEC_PROPID, PID_CODEPAGE } ; // Retrieves the codepage value from an existing property set storage. STDAPI SHPropStgReadCP(IPropertyStorage* ppss, UINT* puCodePage) { *puCodePage = 0; // CP_ACP == 0, assume failure here PROPVARIANT varCP; if (S_OK == ppss->ReadMultiple(1, &codepage_spec, &varCP)) { if (VT_I2 == varCP.vt) { *puCodePage = (UINT)MAKELONG(varCP.iVal, 0); } } return (0 == *puCodePage) ? E_FAIL : S_OK; } // Modifies the property set codepage on a new property set storage. // // Note: this function will fail if the property set already // contains properties. STDAPI SHPropStgWriteCP(IPropertyStorage* ppss, IN UINT uCodePage) { PROPVARIANT varCP; varCP.iVal = (SHORT)uCodePage; varCP.vt = VT_I2; return ppss->WriteMultiple(1, &codepage_spec, &varCP, PID_CODEPAGE); } // IPropertySetStorage::Open/Create wrapper. // The wrap properly retrieves/assigns the set's codepage value. STDAPI SHPropStgCreate( IPropertySetStorage* psstg, // Address of IPropertySetStorage vtable REFFMTID fmtid, // property set ID CLSID* pclsid, // class ID associated with the set. This can be NULL DWORD grfFlags, // PROPSETFLAG_xxx. All sets containing ansi bytes should be created with // PROPSETFLAG_ANSI, otherwise PROPSETFLAG_DEFAULT DWORD grfMode, // STGM_ flags. Must contain STGM_DIRECT|STGM_EXCLUSIVE. DWORD dwDisposition, // OPEN_EXISTING. OPEN_ALWAYS, CREATE_NEW, CREATE_ALWAYS OUT IPropertyStorage** ppstg, // Address to receive requested vtable OUT UINT* puCodePage) // Optional address to receive the code page ID for the set. { ASSERT(psstg); ASSERT(ppstg); if (puCodePage) *puCodePage = 0; *ppstg = NULL; // Check legacy sets. These MUST be flagged ANSI if (IsEqualGUID(fmtid, FMTID_SummaryInformation) || IsEqualGUID(fmtid, FMTID_DocSummaryInformation) || IsEqualGUID(fmtid, FMTID_UserDefinedProperties)) { grfFlags |= PROPSETFLAG_ANSI; // these legacy sets MUST be ansi. } // Attempt opening the set HRESULT hr = psstg->Open(fmtid, grfMode, ppstg); if (SUCCEEDED(hr)) // opened the set { // If a new set was requested, fail. if (CREATE_NEW == dwDisposition) { (*ppstg)->Release(); *ppstg = NULL; return STG_E_FILEALREADYEXISTS; } // If the request was to overwrite any existing set, delete the current one. if (CREATE_ALWAYS == dwDisposition) { (*ppstg)->Release(); *ppstg = NULL; if (FAILED((hr = psstg->Delete(fmtid)))) return hr; hr = STG_E_FILENOTFOUND; // falls through to create } } else // failed to open the set { // if an existing set is requested, fail if (OPEN_EXISTING == dwDisposition) return hr; } if (STG_E_FILENOTFOUND == hr) // set doesn't exist, so create it. { hr = psstg->Create(fmtid, pclsid, grfFlags, grfMode, ppstg); } // If we haven't assigned a codepage, then read it from PID_CODEPAGE. if (SUCCEEDED(hr) && puCodePage) { ASSERT(*ppstg); SHPropStgReadCP(*ppstg, puCodePage); } return hr; } STDAPI_(BOOL) _IsAnsiPropertySet(REFFMTID fmtid); STDAPI_(BOOL) _DoesStringRoundTripCPW(UINT uCodePage, LPCWSTR pwszIn, LPSTR pszOut, UINT cchOut); STDAPI _DoLegacyPropertiesRoundTrip(REFFMTID fmtid, UINT uCodePage, ULONG cvar, PROPVARIANT rgvar[]); STDAPI _UniversalizeSet(IPropertyStorage* pstg, IN OUT UINT* puCodePage, PROPID propidNameFirst); STDAPI _LegacyPropertiesToUnicode(REFFMTID fmtid, UINT uCodePage, ULONG cpspec, PROPSPEC const rgpspec[], PROPVARIANT rgvar[]); STDAPI _LegacyPropertiesToAnsi(REFFMTID fmtid, UINT uCodePage, ULONG cpspec, PROPSPEC const rgpspec[], PROPVARIANT rgvar[]); // IPropertyStorage::ReadMultiple wrap // // The wrap ensures ANSI/UNICODE translations are handled properly for // legacy property sets. STDAPI SHPropStgReadMultiple( IPropertyStorage* pps, // address of IPropertyStorage vtable. UINT uCodePage, // Code page value retrieved from SHCreatePropertySet ULONG cpspec, // Count of properties being read PROPSPEC const rgpspec[], // Array of the properties to be read PROPVARIANT rgvar[]) // Array of PROPVARIANTs containing the // property values on return { // read the requested properties HRESULT hr = pps->ReadMultiple(cpspec, rgpspec, rgvar); if (S_OK == hr) { HRESULT hrTmp = S_OK; // grab the set's ANSI codepage if not provided. if (0 == uCodePage) { hrTmp = SHPropStgReadCP(pps, &uCodePage); } if (SUCCEEDED(hrTmp)) { STATPROPSETSTG stat; if (SUCCEEDED(pps->Stat(&stat))) { hr = _LegacyPropertiesToUnicode(stat.fmtid, uCodePage, cpspec, rgpspec, rgvar); } } } return hr; } // IPropertyStorage::WriteMultiple wrap // // The wrap ensures ANSI/UNICODE translations are handled properly for // legacy property sets. STDAPI SHPropStgWriteMultiple( IPropertyStorage* pps, // address of IPropertyStorage vtable. UINT* puCodePage, // code page retrieved from SHCreatePropertySet. ULONG cpspec, // The number of properties being set PROPSPEC const rgpspec[], // Property specifiers PROPVARIANT rgvar[], // Array of PROPVARIANT values PROPID propidNameFirst) // Minimum value for property identifiers // when they must be allocated { UINT uCodePage = 0; if (!puCodePage) puCodePage = &uCodePage; ASSERT(propidNameFirst >= PID_FIRST_USABLE); // you're walking on OLE PIDs. STATPROPSETSTG stat; HRESULT hr = pps->Stat(&stat); // need the FMTID if (SUCCEEDED(hr)) { // read in the codepage if it isn't provided. if (0 == *puCodePage) { hr = SHPropStgReadCP(pps, puCodePage); } if (SUCCEEDED(hr) ) { // test for round-trippability hr = _DoLegacyPropertiesRoundTrip(stat.fmtid, *puCodePage, cpspec, rgvar); if (SUCCEEDED(hr)) { if (S_FALSE == hr) { hr = _UniversalizeSet(pps, puCodePage, propidNameFirst); } if (SUCCEEDED(hr)) { // convert legacy properties back to ansi hr = _LegacyPropertiesToAnsi(stat.fmtid, *puCodePage, cpspec, rgpspec, rgvar); if (SUCCEEDED(hr)) { // write em. hr = pps->WriteMultiple(cpspec, rgpspec, rgvar, propidNameFirst); if (FAILED(hr)) _LegacyPropertiesToUnicode(stat.fmtid, *puCodePage, cpspec, rgpspec, rgvar); } } } } } return hr; } // Helper: converts LPWSTR to LPSTR using the indicated codepage and returns // TRUE if the LPSTR can be converted back to LPWSTR without unacceptible data loss STDAPI_(BOOL) _DoesStringRoundTripCPW(UINT uCodePage, LPCWSTR pwszIn, LPSTR pszOut, UINT cchOut) { BOOL fRet = FALSE; // if we're being asked to roundtrip UTF8, don't bother test, it'll work. if (CP_UTF8 == uCodePage) { SHUnicodeToAnsiCP(uCodePage, pwszIn, pszOut, cchOut); fRet = TRUE; } else { WCHAR wszTemp[MAX_PATH]; LPWSTR pwszTemp = wszTemp; UINT cchTemp = ARRAYSIZE(wszTemp); // We better have enough room for the buffer. if (ARRAYSIZE(wszTemp) < cchOut) { pwszTemp = (LPWSTR)LocalAlloc(LPTR, cchOut*sizeof(WCHAR)); cchTemp = cchOut; } if (pwszTemp) { SHUnicodeToAnsiCP(uCodePage, pwszIn, pszOut, cchOut); SHAnsiToUnicodeCP(uCodePage, pszOut, pwszTemp, cchTemp); fRet = StrCmpW(pwszIn, pwszTemp) == 0; // are they the same? if (pwszTemp != wszTemp) { LocalFree(pwszTemp); } } } return fRet; } // Helper: determines whether the specified string properties of the indicate property set // can round-trip to ansi and back. // Returns S_OK if all strings can round-trip, S_FALSE if not all strings can round trip, // or an error code. STDAPI _DoLegacyPropertiesRoundTrip( REFFMTID fmtid, UINT uCodePage, ULONG cvar, PROPVARIANT rgvar[]) { ASSERT(uCodePage); HRESULT hr = S_OK; // assume all strings round-trip. if (uCodePage != CP_UTF8 && uCodePage != CP_WINUNICODE && _IsAnsiPropertySet(fmtid)) { ASSERT (uCodePage != CP_WINUNICODE); // either the set's creator is whacked, or this is simply an invalid arg. for (ULONG i = 0; i < cvar && S_OK == hr ; i++) { if (rgvar[i].vt == VT_LPWSTR && rgvar[i].pwszVal && *rgvar[i].pwszVal) { LPSTR pszVal; // make plenty of room for UTF-8 conversions. each WCHAR // can turn into as many as three ANSI chars int cb = MAX_UTF8_CHAR_SIZE * (lstrlenW(rgvar[i].pwszVal) + 1); if ((pszVal = new CHAR[cb]) != NULL) { // Test round-trip to ANSI and back. if (!_DoesStringRoundTripCPW(uCodePage, rgvar[i].pwszVal, pszVal, cb)) { hr = S_FALSE; } delete pszVal; } else hr = E_OUTOFMEMORY; } } } return hr; } // Helper: Reports whether the specified FMTID is a legacy ANSI property set. STDAPI_(BOOL) _IsAnsiPropertySet(REFFMTID fmtid) { const FMTID* _ansi_propertysets[] = { &FMTID_SummaryInformation, &FMTID_DocSummaryInformation, &FMTID_UserDefinedProperties, }; for (int i = 0; i < ARRAYSIZE(_ansi_propertysets); i++) { if (IsEqualGUID(fmtid, *_ansi_propertysets[i])) return TRUE; } return FALSE; } // Determine whether the property is a legacy ANSI property, and if so, // compute a conversion type for the property. typedef struct { PROPID propid; VARTYPE vt; VARTYPE vtConvert; } ANSIPROPDEF; // (public) ansi SummaryInformation properties const ANSIPROPDEF si_lpstr_pids[] = { { PIDSI_TITLE, VT_LPSTR, VT_LPWSTR }, { PIDSI_SUBJECT, VT_LPSTR, VT_LPWSTR }, { PIDSI_AUTHOR, VT_LPSTR, VT_LPWSTR }, { PIDSI_KEYWORDS, VT_LPSTR, VT_LPWSTR }, { PIDSI_COMMENTS, VT_LPSTR, VT_LPWSTR }, { PIDSI_TEMPLATE, VT_LPSTR, VT_LPWSTR }, { PIDSI_LASTAUTHOR, VT_LPSTR, VT_LPWSTR }, { PIDSI_REVNUMBER, VT_LPSTR, VT_LPWSTR }, { PIDSI_APPNAME, VT_LPSTR, VT_LPWSTR }, }; // (public) ansi DocSummaryInformation properties const ANSIPROPDEF dsi_lpstr_pids[] = { { PIDDSI_CATEGORY, VT_LPSTR, VT_LPWSTR }, { PIDDSI_PRESFORMAT,VT_LPSTR, VT_LPWSTR }, { PIDDSI_DOCPARTS, VT_LPSTR|VT_VECTOR, VT_LPWSTR|VT_VECTOR }, { PIDDSI_MANAGER, VT_LPSTR, VT_LPWSTR }, { PIDDSI_COMPANY, VT_LPSTR, VT_LPWSTR }, }; STDAPI_(BOOL) SHIsLegacyAnsiProperty(REFFMTID fmtid, PROPID propid, IN OUT OPTIONAL VARTYPE* pvt) { const ANSIPROPDEF* rgapd = NULL; UINT capd = 0; if (IsEqualGUID(fmtid, FMTID_SummaryInformation)) { rgapd = si_lpstr_pids; capd = ARRAYSIZE(si_lpstr_pids); } else if (IsEqualGUID(fmtid, FMTID_DocSummaryInformation)) { rgapd = dsi_lpstr_pids; capd = ARRAYSIZE(dsi_lpstr_pids); } else if (IsEqualGUID(fmtid, FMTID_UserDefinedProperties)) { // Note: User defined properties are, by defintion, not defined // by the system. We simply will convert any VT_LPSTR values to VT_LPWSTR. if (pvt) { if ((*pvt) & VT_LPSTR) // forward conversion? { (*pvt) &= ~VT_LPSTR; (*pvt) |= VT_LPWSTR; return TRUE; } else if ((*pvt) & VT_LPWSTR) // reverse conversion? { (*pvt) &= ~VT_LPWSTR; (*pvt) |= VT_LPSTR; return TRUE; } } } if (rgapd) // search among pre-defined property ids: { for (UINT i = 0; i < capd; i++) { if (propid == rgapd[i].propid) { if (pvt) { if (*pvt == rgapd[i].vtConvert) // reverse conversion? *pvt = rgapd[i].vt; else // forward conversion? *pvt = rgapd[i].vtConvert; } return TRUE; } } } return FALSE; } // Helper: Properly converts a block of legacy ansi properties read from a // prop storage to unicode STDAPI _LegacyPropertiesToUnicode( REFFMTID fmtid, UINT uCodePage, ULONG cpspec, PROPSPEC const rgpspec[], PROPVARIANT rgvar[]) { ASSERT(uCodePage); HRESULT hr = S_OK; if (_IsAnsiPropertySet(fmtid) && (uCodePage != CP_WINUNICODE)) { for (ULONG i = 0; i < cpspec; i++) { if (VT_LPSTR == rgvar[i].vt) { // convert in-place to VT_LPWSTR. if (rgvar[i].pszVal) { LPWSTR pwszVal; int cch = lstrlenA(rgvar[i].pszVal) + 1; if (NULL == (pwszVal = (LPWSTR)CoTaskMemAlloc(CbFromCchW(cch)))) { hr = E_OUTOFMEMORY; // reverse what we've already done if (i > 0) _LegacyPropertiesToAnsi(fmtid, uCodePage, i, rgpspec, rgvar); break ; } if (*rgvar[i].pszVal) // non-empty { // if we can't convert using the set's codepage, fall back on CP_UTF8 if (!MultiByteToWideChar(uCodePage, 0, rgvar[i].pszVal, -1, pwszVal, cch)) SHAnsiToUnicodeCP(CP_UTF8, rgvar[i].pszVal, pwszVal, cch); } else // empty string; why bother converting? *pwszVal = 0; CoTaskMemFree(rgvar[i].pszVal); // assign propvalue. rgvar[i].pwszVal = pwszVal; } rgvar[i].vt = VT_LPWSTR; } } } return hr; } // Helper: Properly converts a block of legacy ansi properties from unicode to // ansi in preparation for writing back to the storage stream. STDAPI _LegacyPropertiesToAnsi( REFFMTID fmtid, UINT uCodePage, ULONG cpspec, PROPSPEC const rgpspec[], PROPVARIANT rgvar[]) { ASSERT(uCodePage); HRESULT hr = S_OK; if (_IsAnsiPropertySet(fmtid) && (uCodePage != CP_WINUNICODE)) { for (ULONG i = 0; i < cpspec; i++) { if (rgvar[i].vt == VT_LPWSTR) { // Revert back to ANSI in place if (rgvar[i].pwszVal) { LPSTR pszVal; // make plenty of room for UTF-8 conversions. each WCHAR // can turn into as many as three ANSI chars int cb = MAX_UTF8_CHAR_SIZE * (lstrlenW(rgvar[i].pwszVal) + 1); if (NULL == (pszVal = (LPSTR)CoTaskMemAlloc(cb))) { hr = E_OUTOFMEMORY; if (i > 0) // try to reverse what we've done. _LegacyPropertiesToUnicode(fmtid, uCodePage, i, rgpspec, rgvar); break; } if (*rgvar[i].pwszVal) { // Test round-trip to ANSI and back. If fails, fall back on CP_UTF8. if (!_DoesStringRoundTripCPW(uCodePage, rgvar[i].pwszVal, pszVal, cb)) SHUnicodeToAnsiCP(CP_UTF8, rgvar[i].pwszVal, pszVal, cb); } else *pszVal = 0; CoTaskMemFree(rgvar[i].pwszVal); rgvar[i].pszVal = pszVal; } rgvar[i].vt = VT_LPSTR; } } } return hr; } // Helper: Converts the specified ansi string to a universal code page. STDAPI _UniversalizeAnsiString(IN OUT LPSTR* ppszSrc, IN UINT uCodePage) { ASSERT(ppszSrc); ASSERT(uCodePage != CP_UTF8); if (!(*ppszSrc)) // NULL string return S_FALSE; if (!(*ppszSrc)[0]) // empty string; nothing to do. return S_OK; HRESULT hr = E_FAIL; LPSTR pszDest = NULL; WCHAR wszVal[MAX_PATH]; LPWSTR pwszVal = wszVal; *wszVal = 0; UINT cch = lstrlenA(*ppszSrc) + 1; if (cch > ARRAYSIZE(wszVal)) pwszVal = new WCHAR[cch]; if (pwszVal != NULL) { // convert to Unicode using original codepage if (SHAnsiToUnicodeCP(uCodePage, *ppszSrc, pwszVal, cch)) { int cb = MAX_UTF8_CHAR_SIZE * cch; if ((pszDest = (LPSTR)CoTaskMemAlloc(cb)) != NULL) { // convert to ANSI using UTF_8 if (SHUnicodeToAnsiCP(CP_UTF8, pwszVal, pszDest, cb)) { CoTaskMemFree(*ppszSrc); *ppszSrc = pszDest; hr = S_OK; } else { CoTaskMemFree(pszDest); hr = E_FAIL; } } else hr = E_OUTOFMEMORY; } if (pwszVal != wszVal) delete [] pwszVal; } else hr = E_OUTOFMEMORY; return hr; } // Helper: Ensures that any ansi strings in the specified property // are converted to a universal code page. STDAPI _UniversalizeProperty(IN OUT PROPVARIANT* pvar, UINT uCodePage) { ASSERT(uCodePage != CP_UTF8); HRESULT hr = S_OK; if (VT_LPSTR == pvar->vt) { hr = _UniversalizeAnsiString(&pvar->pszVal, uCodePage); } else if ((VT_LPSTR | VT_VECTOR) == pvar->vt) { for (ULONG i = 0; i < pvar->calpstr.cElems; i++) { HRESULT hrElem = _UniversalizeAnsiString(&pvar->calpstr.pElems[i], uCodePage); if (FAILED(hrElem)) hr = hrElem; } } return hr; } // Helper: counts properties in the indicated property set. ULONG _CountProperties(IEnumSTATPROPSTG* pEnum) { ULONG cRet = 0; pEnum->Reset(); STATPROPSTG stat[20] = {0}; HRESULT hr; do { ULONG cFetched; hr = pEnum->Next(ARRAYSIZE(stat), stat, &cFetched); if (SUCCEEDED(hr)) cRet += cFetched; } while (S_OK == hr); pEnum->Reset(); return cRet; } // Helper: Ensures that all ansi properties in the indicate set are converted to a // universal code page. STDAPI _UniversalizeSet(IPropertyStorage* pstg, IN OUT UINT* puCodePage, PROPID propidNameFirst) { UINT uCP = *puCodePage; if (CP_UTF8 == uCP) return S_OK; // Enumerate property values IEnumSTATPROPSTG* pEnum; HRESULT hr = pstg->Enum(&pEnum); if (SUCCEEDED(hr)) { ULONG cProps = _CountProperties(pEnum); if (cProps > 0) { STATPROPSTG* rgstat = NULL; PROPSPEC* rgpspec = NULL; PROPVARIANT* rgvar = NULL; if ((rgstat = new STATPROPSTG[cProps]) != NULL && (rgpspec = new PROPSPEC[cProps]) != NULL && (rgvar = new PROPVARIANT[cProps]) != NULL) { ULONG cFetched = 0; ZeroMemory(rgstat, cProps * sizeof(*rgstat)); hr = pEnum->Next(cProps, rgstat, &cFetched); if (SUCCEEDED(hr) && cFetched > 0) { for (ULONG i = 0; i < cFetched; i++) { rgpspec[i].ulKind = PRSPEC_PROPID; rgpspec[i].propid = rgstat[i].propid; } ZeroMemory(rgvar, sizeof(rgvar)); // Read properties hr = pstg->ReadMultiple(cFetched, rgpspec, rgvar); if (S_OK == hr) { BOOL bConversionError = FALSE; // Convert properties for (i = 0; i < cFetched; i++) { hr = _UniversalizeProperty(rgvar + i, uCP); if (FAILED(hr)) { bConversionError = TRUE; break; } } // Delete set, write out converted values and update PID_CODEPAGE if (!bConversionError) { hr = pstg->DeleteMultiple(cFetched, rgpspec); if (SUCCEEDED(hr)) { hr = SHPropStgWriteCP(pstg, CP_UTF8); if (SUCCEEDED(hr)) { *puCodePage = CP_UTF8; hr = pstg->WriteMultiple(cFetched, rgpspec, rgvar, propidNameFirst); } } } for (i = 0; i < cFetched; i++) PropVariantClear(rgvar + i); } } } if (rgstat) delete [] rgstat; if (rgpspec) delete [] rgpspec; if (rgvar) delete [] rgvar; } else if (0 == cProps) // no properties: brand-new, empty set. { hr = SHPropStgWriteCP(pstg, CP_UTF8); if (SUCCEEDED(hr)) { *puCodePage = CP_UTF8; } } pEnum->Release(); } return hr; } // A PROPVARIANT can hold a few more types than a VARIANT can. We convert the types that are // only supported by a PROPVARIANT into equivalent VARIANT types. HRESULT PropVariantToVariant(const PROPVARIANT *pPropVar, VARIANT *pVar) { HRESULT hr = E_OUTOFMEMORY; ASSERT(pPropVar && pVar); // if pVar isn't empty, this will properly free before overwriting it VariantClear(pVar); switch (pPropVar->vt) { case VT_LPSTR: pVar->bstrVal = SysAllocStringA(pPropVar->pszVal); if (pVar->bstrVal) { pVar->vt = VT_BSTR; hr = S_OK; } break; case VT_LPWSTR: pVar->bstrVal = SysAllocString(pPropVar->pwszVal); if (pVar->bstrVal) { pVar->vt = VT_BSTR; hr = S_OK; } break; case VT_FILETIME: { SYSTEMTIME st; if (FileTimeToSystemTime(&pPropVar->filetime, &st) && SystemTimeToVariantTime(&st, &pVar->date)) // delay load... { pVar->vt = VT_DATE; hr = S_OK; } break; } case VT_CLSID: if (pVar->bstrVal = SysAllocStringLen(NULL, GUIDSTR_MAX)) { if (SUCCEEDED(SHStringFromGUIDW(*pPropVar->puuid, pVar->bstrVal, GUIDSTR_MAX))) { pVar->vt = VT_BSTR; hr = S_OK; } else { SysFreeString(pVar->bstrVal); pVar->bstrVal = NULL; } } break; case VT_BLOB: case VT_STREAM: case VT_STORAGE: case VT_BLOB_OBJECT: case VT_STREAMED_OBJECT: case VT_STORED_OBJECT: case VT_CF: ASSERT(0); // leave the output cleared break; case VT_UI4: pVar->vt = VT_I4; pVar->lVal = (INT)pPropVar->ulVal; hr = S_OK; break; default: hr = VariantCopy(pVar, (VARIANT *)pPropVar); break; } return hr; } class CPropertyUI : public IPropertyUI { public: // IUnknown STDMETHODIMP QueryInterface(REFIID riid, void **ppv); STDMETHODIMP_(ULONG) AddRef(void); STDMETHODIMP_(ULONG) Release(void); // IPropertyUI STDMETHODIMP ParsePropertyName(LPCWSTR pwszProperties, FMTID *pfmtid, PROPID *ppid, ULONG *pchEaten); STDMETHODIMP GetCannonicalName(REFFMTID fmtid, PROPID pid, LPWSTR pwszText, DWORD cchText); STDMETHODIMP GetDisplayName(REFFMTID fmtid, PROPID pid, PROPERTYUI_NAME_FLAGS flags, LPWSTR pwszText, DWORD cchText); STDMETHODIMP GetPropertyDescription(REFFMTID fmtid, PROPID pid, LPWSTR pwszText, DWORD cchText); STDMETHODIMP GetDefaultWidth(REFFMTID fmtid, PROPID pid, ULONG *pcxChars); STDMETHODIMP GetFlags(REFFMTID fmtid, PROPID pid, PROPERTYUI_FLAGS *pdwFlags); STDMETHODIMP FormatForDisplay(REFFMTID fmtid, PROPID pid, const PROPVARIANT *pvar, PROPERTYUI_FORMAT_FLAGS flags, LPWSTR pwszText, DWORD cchText); STDMETHODIMP GetHelpInfo(REFFMTID fmtid, PROPID pid, LPWSTR pwszHelpFile, DWORD cch, UINT *puHelpID); CPropertyUI(); private: ~CPropertyUI(); const PROPUI_INFO *_FindInfoByName(LPCWSTR pszName); long _cRef; }; const PROPUI_INFO *_FindInfoByFMTIDPID(REFFMTID fmtid, PROPID pid); CPropertyUI::CPropertyUI() : _cRef(1) { DllAddRef(); } CPropertyUI::~CPropertyUI() { DllRelease(); } HRESULT CPropertyUI::QueryInterface(REFIID riid, void **ppv) { static const QITAB qit[] = { QITABENT(CPropertyUI, IPropertyUI), { 0 }, }; return QISearch(this, qit, riid, ppv); } ULONG CPropertyUI::AddRef() { return InterlockedIncrement(&_cRef); } ULONG CPropertyUI::Release() { if (InterlockedDecrement(&_cRef)) return _cRef; delete this; return 0; } const PROPUI_INFO *CPropertyUI::_FindInfoByName(LPCWSTR pszName) { const PROPUI_INFO *pinfo = NULL; for (int i = 0; i < ARRAYSIZE(c_rgPropUIInfo); i++) { if (StrCmpIW(pszName, c_rgPropUIInfo[i].pwszName) == 0) { pinfo = &c_rgPropUIInfo[i]; break; } } return pinfo; } const PROPUI_INFO *_FindInfoByFMTIDPID(REFFMTID fmtid, PROPID pid) { const PROPUI_INFO *pinfo = NULL; for (int i = 0; i < ARRAYSIZE(c_rgPropUIInfo); i++) { if ((pid == c_rgPropUIInfo[i].pscid->pid) && (fmtid == c_rgPropUIInfo[i].pscid->fmtid)) { pinfo = &c_rgPropUIInfo[i]; break; } } return pinfo; } HRESULT _NextProp(LPCWSTR pwszProperties, ULONG *pchEaten, LPWSTR pwszProp, UINT cchProp) { HRESULT hr = E_FAIL; ULONG ulStrLen = lstrlenW(pwszProperties); *pwszProp = L'\0'; if (*pchEaten < ulStrLen) { LPCWSTR pwszStart = pwszProperties + (*pchEaten); LPCWSTR pwszSemi = StrChrW(pwszStart, L';'); if (pwszSemi) { // make sure its well formed (no dbl slashes) if (pwszSemi > pwszStart) { // Make sure we don't overrun the prop buffer size ULONG ulPropLen = (ULONG)(pwszSemi - pwszStart) + 1; // includes L'\0' if (ulPropLen > cchProp) { ulPropLen = cchProp; } StrCpyNW(pwszProp, pwszStart, ulPropLen); // Make sure that there is another segment to return if (!*(pwszSemi + 1)) { pwszSemi = NULL; } hr = S_OK; } else { pwszSemi = NULL; hr = E_INVALIDARG; // bad input } } else { // No semi-colon; so copy till the end StrCpyNW(pwszProp, pwszStart, cchProp); hr = S_OK; } // Set *pchEaten if (pwszSemi) { *pchEaten = (int)(pwszSemi - pwszProperties) + 1; // Skip ; } else { *pchEaten = ulStrLen; } } else { hr = S_FALSE; // done with loop } return hr; } #define PROP_PREFIX TEXT("prop:") #define PROP_PREFIX_LEN (ARRAYSIZE(PROP_PREFIX) - 1) // [in/out] *pchEaten used to sequence through the property names STDMETHODIMP CPropertyUI::ParsePropertyName(LPCWSTR pwszProperties, FMTID *pfmtid, PROPID *ppid, ULONG *pchEaten) { // Nobody should call us without a reason ASSERT(pfmtid && ppid); HRESULT hr = E_FAIL; WCHAR wszProp[MAX_PATH]; SHCOLUMNID scid; // If pwszProperties starts with prop:, skip it if ((*pchEaten == 0) && (StrCmpNIW(pwszProperties, PROP_PREFIX, PROP_PREFIX_LEN) == 0)) { *pchEaten += PROP_PREFIX_LEN; } if ((_NextProp(pwszProperties, pchEaten, wszProp, ARRAYSIZE(wszProp)) == S_OK) && ParseSCIDString(wszProp, &scid, NULL)) { *pfmtid = scid.fmtid; *ppid = scid.pid; hr = S_OK; } return hr; } STDMETHODIMP CPropertyUI::GetCannonicalName(REFFMTID fmtid, PROPID pid, LPWSTR pwszText, DWORD cchText) { HRESULT hr = E_FAIL; *pwszText = NULL; const PROPUI_INFO *pinfo = _FindInfoByFMTIDPID(fmtid, pid); if (pinfo) { hr = S_OK; StrCpyNW(pwszText, pinfo->pwszName, cchText); } else if (SHStringFromGUIDW(fmtid, pwszText, cchText)) { WCHAR wszPid[20]; // Pid's can't be longer than 20 chars wnsprintfW(wszPid, ARRAYSIZE(wszPid), L"%lu", pid); StrCatBuffW(pwszText, wszPid, cchText); hr = S_OK; } return hr; } STDMETHODIMP CPropertyUI::GetDisplayName(REFFMTID fmtid, PROPID pid, PROPERTYUI_NAME_FLAGS flags, LPWSTR pwszText, DWORD cchText) { HRESULT hr = E_FAIL; *pwszText = NULL; const PROPUI_INFO *pinfo = _FindInfoByFMTIDPID(fmtid, pid); if (pinfo) { UINT uID; if (flags & PUIFNF_MNEMONIC) { // Name with mnemonic requested. if (pinfo->idMnemonicName) { // Name with mnemonic defined for scid. uID = pinfo->idMnemonicName; hr = S_OK; } else { // Name with mnemonic NOT defined for scid -- use name without mnemonic as fallback. uID = pinfo->idDisplayName; hr = S_FALSE; } } else { // Name without mnemonic requested. uID = pinfo->idDisplayName; hr = S_OK; } LoadStringW(HINST_THISDLL, uID, pwszText, cchText); } return hr; } STDMETHODIMP CPropertyUI::GetPropertyDescription(REFFMTID fmtid, PROPID pid, LPWSTR pwszText, DWORD cchText) { HRESULT hr = E_FAIL; *pwszText = NULL; const PROPUI_INFO *pinfo = _FindInfoByFMTIDPID(fmtid, pid); if (pinfo) { *pwszText = 0; // LoadStringW(HINST_THISDLL, pinfo->idPropertyDescription, pwszText, cchText); hr = S_OK; } return hr; } STDMETHODIMP CPropertyUI::GetDefaultWidth(REFFMTID fmtid, PROPID pid, ULONG *pcxChars) { HRESULT hr = E_FAIL; *pcxChars = 0; const PROPUI_INFO *pinfo = _FindInfoByFMTIDPID(fmtid, pid); if (pinfo) { *pcxChars = 20; // pinfo->nWidth; hr = S_OK; } return hr; } STDMETHODIMP CPropertyUI::GetFlags(REFFMTID fmtid, PROPID pid, PROPERTYUI_FLAGS *pdwFlags) { HRESULT hr = E_FAIL; *pdwFlags = PUIF_DEFAULT; const PROPUI_INFO *pinfo = _FindInfoByFMTIDPID(fmtid, pid); if (pinfo) { *pdwFlags = PUIF_DEFAULT; // pinfo->dwFlags; hr = S_OK; } return hr; } HRESULT _LookupStringFromLong(const STRING_MAP *pMap, ULONG ulVal, LPWSTR pszText, DWORD cchText) { HRESULT hr = E_FAIL; while (pMap->idStr && pMap->uVal != ulVal) { pMap++; } if (pMap->idStr) { LoadString(HINST_THISDLL, pMap->idStr, pszText, cchText); hr = S_OK; } return hr; } // expose this method as an API as this is very commonly needed STDAPI SHFormatForDisplay(REFFMTID fmtid, PROPID pid, const PROPVARIANT *pPropVar, PROPERTYUI_FORMAT_FLAGS flags, LPWSTR pwszText, DWORD cchText) { HRESULT hr = S_OK; *pwszText = 0; TCHAR szBuffer[MAX_PATH]; // Property-specific: if (CompareSCIDFMTIDPID(fmtid, pid, SCID_SIZE) || CompareSCIDFMTIDPID(fmtid, pid, SCID_CAPACITY) || CompareSCIDFMTIDPID(fmtid, pid, SCID_FREESPACE)) { ASSERT(pPropVar->vt == VT_UI8); StrFormatByteSizeW(pPropVar->uhVal.QuadPart, pwszText, cchText); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_AUDIO_Duration)) { if (pPropVar->vt == VT_EMPTY) { StrCpyN(pwszText, L"", cchText); } else { ASSERT(pPropVar->vt == VT_UI8); FILETIME ft = {pPropVar->uhVal.LowPart, pPropVar->uhVal.HighPart}; SYSTEMTIME st; FileTimeToSystemTime(&ft, &st); GetTimeFormat(LOCALE_USER_DEFAULT, TIME_FORCE24HOURFORMAT | TIME_NOTIMEMARKER, &st, NULL, pwszText, cchText); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_AUDIO_Bitrate) || CompareSCIDFMTIDPID(fmtid, pid, SCID_VIDEO_Bitrate)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_MUSIC_BITRATE, szBuffer, ARRAYSIZE(szBuffer)); ASSERT(pPropVar->vt == VT_UI4 || pPropVar->vt == VT_I4) wnsprintf(pwszText, cchText, szBuffer, pPropVar->ulVal / 1000); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_DRM_Protected) ||CompareSCIDFMTIDPID(fmtid, pid, SCID_Scale)) { ASSERT(pPropVar->vt == VT_BOOL); UINT uID = (pPropVar->boolVal) ? IDS_PROPERTYUI_YES : IDS_PROPERTYUI_NO; LoadString(HINST_THISDLL, uID, pwszText, cchText); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_AUDIO_SampleSize) || CompareSCIDFMTIDPID(fmtid, pid, SCID_VIDEO_SampleSize)) { ASSERT(pPropVar->vt == VT_UI4); LoadString(HINST_THISDLL, IDS_PROPERTYUI_AV_SAMPLESIZE, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, pPropVar->ulVal); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_AUDIO_SampleRate)) { ASSERT(pPropVar->vt == VT_UI4); LoadString(HINST_THISDLL, IDS_PROPERTYUI_AUDIO_SAMPLERATE, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, pPropVar->ulVal / 1000); // 1000: Hz -> kHz } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_AUDIO_ChannelCount)) { ASSERT(pPropVar->vt == VT_UI4); switch (pPropVar->ulVal) { case 1: LoadString(HINST_THISDLL, IDS_PROPERTYUI_AUDIO_CHANNELCOUNT1, pwszText, cchText); break; case 2: LoadString(HINST_THISDLL, IDS_PROPERTYUI_AUDIO_CHANNELCOUNT2, pwszText, cchText); break; default: wnsprintf(pwszText, cchText, L"%u", pPropVar->ulVal); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_VIDEO_FrameRate)) { ASSERT(pPropVar->vt == VT_UI4); LoadString(HINST_THISDLL, IDS_PROPERTYUI_VIDEO_FRAMERATE, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, pPropVar->ulVal/1000); // 1000 -> convert to frames/second } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_ImageCX) || CompareSCIDFMTIDPID(fmtid, pid, SCID_ImageCY)) { ASSERT(pPropVar->vt == VT_UI4); LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_PIXELS, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, pPropVar->ulVal); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_Flash)) { ASSERT(pPropVar->vt == VT_UI2); hr = _LookupStringFromLong(g_cFlashStrings,pPropVar->uiVal,pwszText, cchText); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_ColorSpace)) { ASSERT(pPropVar->vt == VT_UI2); hr = _LookupStringFromLong(g_cColorStrings,pPropVar->uiVal,pwszText, cchText); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_Media_Status)) { hr = _LookupStringFromLong(g_cMediaStatus, pPropVar->ulVal, pwszText, cchText); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_MeteringMode)) { ASSERT(pPropVar->vt == VT_UI2); hr = _LookupStringFromLong(g_cMeteringModeStrings, pPropVar->uiVal, pwszText, cchText); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_LightSource)) { ASSERT(pPropVar->vt == VT_UI2); hr = _LookupStringFromLong(g_cLightSourceStrings, pPropVar->uiVal, pwszText, cchText); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_ExposureProg)) { ASSERT(pPropVar->vt == VT_UI2); hr = _LookupStringFromLong(g_cExposureProgStrings, pPropVar->uiVal, pwszText, cchText); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_ISOSpeed)) { ASSERT(pPropVar->vt == VT_UI2); LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_ISO, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, pPropVar->ulVal); } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_ShutterSpeed)) { ASSERT(pPropVar->vt == VT_R8); // ShutterSpeed is stored as an APEX value Tv = -log2(Et) // we want to display the exposure time so we calculate it as follows // Et = 2^(-Tv) then if the value is less than 0.5 then take the inverse // so we can represent like 1/250 TCHAR szFloatBuffer[MAX_PATH]; VARIANT vTv = {0}; hr = PropVariantToVariant(pPropVar, &vTv); if (SUCCEEDED(hr)) { VARIANT vTemp = {0}; VARIANT vTemp2 = {0}; VARIANT vTemp3 = {0}; hr = VarNeg(&vTv, &vTemp); if (SUCCEEDED(hr)) { V_VT(&vTemp2) = VT_R8; V_R8(&vTemp2) = 2; hr = VarPow(&vTemp2, &vTemp, &vTemp3); if (SUCCEEDED(hr)) { if (V_R8(&vTemp3) > 0.5) { hr = VarRound(&vTemp3, 2, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_SEC, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } } else { V_VT(&vTemp) = VT_R8; V_R8(&vTemp) = 1; hr = VarDiv(&vTemp, &vTemp3, &vTemp2); if (SUCCEEDED(hr)) { hr = VarRound(&vTemp2, 0, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_SEC_FRAC, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } } } } } VariantClear(&vTv); VariantClear(&vTemp); VariantClear(&vTemp2); VariantClear(&vTemp3); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_ExposureTime)) { ASSERT(pPropVar->vt == VT_R8); // ExposureTime is store as a R8 value if the value is less // than 0.5 then take the inverse so we can represent like 1/250 TCHAR szFloatBuffer[MAX_PATH]; VARIANT vEt = {0}; hr = PropVariantToVariant(pPropVar, &vEt); if (SUCCEEDED(hr)) { VARIANT vTemp = {0}; VARIANT vTemp2 = {0}; if (V_R8(&vEt) > 0.5) { hr = VarRound(&vEt, 2, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_SEC, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } } else { V_VT(&vTemp) = VT_R8; V_R8(&vTemp) = 1; hr = VarDiv(&vTemp, &vEt, &vTemp2); if (SUCCEEDED(hr)) { hr = VarRound(&vTemp2, 0, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_SEC_FRAC, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } } } VariantClear(&vEt); VariantClear(&vTemp); VariantClear(&vTemp2); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_Aperture)) { ASSERT(pPropVar->vt == VT_R8); // Aperture is stored as an APEX value Av = 2*log2(Fn) // we want to display the F-number so we calculate it as follows // Fn = 2^(Av/2) TCHAR szFloatBuffer[MAX_PATH]; VARIANT vAv = {0}; hr = PropVariantToVariant(pPropVar, &vAv); if (SUCCEEDED(hr)) { VARIANT vTemp = {0}; VARIANT vTemp2 = {0}; VARIANT vTemp3 = {0}; V_VT(&vTemp) = VT_R8; V_R8(&vTemp) = 2; hr = VarDiv(&vAv, &vTemp, &vTemp2); if (SUCCEEDED(hr)) { hr = VarPow(&vTemp, &vTemp2, &vTemp3); if (SUCCEEDED(hr)) { hr = VarRound(&vTemp3, 1, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_F, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } } } VariantClear(&vAv); VariantClear(&vTemp); VariantClear(&vTemp2); VariantClear(&vTemp3); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_FNumber)) { ASSERT(pPropVar->vt == VT_R8); // Fn is stored as a R8 value that needs to be rounded TCHAR szFloatBuffer[MAX_PATH]; VARIANT vFn = {0}; hr = PropVariantToVariant(pPropVar, &vFn); if (SUCCEEDED(hr)) { VARIANT vTemp = {0}; V_VT(&vTemp) = VT_R8; V_R8(&vTemp) = 2; hr = VarRound(&vFn, 1, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_F, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } VariantClear(&vFn); VariantClear(&vTemp); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_SubjectDist)) { ASSERT(pPropVar->vt == VT_R8); // Distance is store as a R8 value in meters if the value is less // than 1 then multiple by 1000 to convert to mm TCHAR szFloatBuffer[MAX_PATH]; VARIANT vD = {0}; hr = PropVariantToVariant(pPropVar, &vD); if (SUCCEEDED(hr)) { VARIANT vTemp = {0}; VARIANT vTemp2 = {0}; if (V_R8(&vD) >= 1.0) { hr = VarRound(&vD, 1, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_M, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } } else { V_VT(&vTemp) = VT_R8; V_R8(&vTemp) = 1000; hr = VarMul(&vTemp, &vD, &vTemp2); if (SUCCEEDED(hr)) { hr = VarRound(&vTemp2, 0, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_MM, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } } } VariantClear(&vD); VariantClear(&vTemp); VariantClear(&vTemp2); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_FocalLength)) { ASSERT(pPropVar->vt == VT_R8); // Focal Length is store as a R8 value in mm // so round it and display it TCHAR szFloatBuffer[MAX_PATH]; VARIANT vLen = {0}; hr = PropVariantToVariant(pPropVar, &vLen); if (SUCCEEDED(hr)) { VARIANT vTemp = {0}; hr = VarRound(&vLen, 0, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_MM, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } VariantClear(&vLen); VariantClear(&vTemp); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_FlashEnergy)) { ASSERT(pPropVar->vt == VT_R8); // Flash Energy is store as a R8 value in bcps // so round it and display it TCHAR szFloatBuffer[MAX_PATH]; VARIANT vBCPS = {0}; hr = PropVariantToVariant(pPropVar, &vBCPS); if (SUCCEEDED(hr)) { VARIANT vTemp = {0}; hr = VarRound(&vBCPS, 0, &vTemp); if (SUCCEEDED(hr)) { hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_BCPS, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, szFloatBuffer); } } VariantClear(&vBCPS); VariantClear(&vTemp); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_ExposureBias)) { ASSERT(pPropVar->vt == VT_R8); // ExposureBias is store as a R8 value in steps // so round it to the nearest tenth and display // it with a + or minus TCHAR szFloatBuffer[MAX_PATH]; VARIANT vBias = {0}; hr = PropVariantToVariant(pPropVar, &vBias); if (SUCCEEDED(hr)) { VARIANT vTemp = {0}; hr = VarRound(&vBias, 1, &vTemp); if (SUCCEEDED(hr)) { TCHAR* pszSign; if (V_R8(&vBias) > 0) pszSign = L"+"; else pszSign = L""; hr = VariantToStr(&vTemp, szFloatBuffer, ARRAYSIZE(szFloatBuffer)) ? S_OK : E_OUTOFMEMORY; if (SUCCEEDED(hr)) { LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_STEP, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, pszSign, szFloatBuffer); } } VariantClear(&vBias); VariantClear(&vTemp); } } else if (CompareSCIDFMTIDPID(fmtid, pid, SCID_ResolutionX) || CompareSCIDFMTIDPID(fmtid, pid, SCID_ResolutionY)) { ASSERT(pPropVar->vt == VT_UI4); LoadString(HINST_THISDLL, IDS_PROPERTYUI_IMAGE_DPI, szBuffer, ARRAYSIZE(szBuffer)); wnsprintf(pwszText, cchText, szBuffer, pPropVar->ulVal); } else if ((pPropVar->vt == VT_DATE) || (pPropVar->vt == VT_FILETIME)) { FILETIME ft; if (pPropVar->vt == VT_DATE) { WORD wDosDate, wDosTime; if (VariantTimeToDosDateTime(pPropVar->date, &wDosDate, &wDosTime) && wDosDate) { DosDateTimeToFileTime(wDosDate, wDosTime, &ft); hr = S_OK; } else hr = E_FAIL; } else { ft = pPropVar->filetime; hr = S_OK; } if (SUCCEEDED(hr)) { DWORD dwFlags = FDTF_DEFAULT; if (flags & PUIFFDF_RIGHTTOLEFT) { dwFlags |= FDTF_RTLDATE; } if (flags & PUIFFDF_SHORTFORMAT) { dwFlags |= FDTF_SHORTDATE; } if (flags & PUIFFDF_NOTIME) { dwFlags |= FDTF_LONGDATE; } if (flags & PUIFFDF_FRIENDLYDATE) { dwFlags |= (FDTF_RELATIVE | FDTF_LONGDATE); } SHFormatDateTime(&ft, &dwFlags, pwszText, cchText); } } else { VARIANT var = {0}; hr = PropVariantToVariant(pPropVar, &var); if (SUCCEEDED(hr)) { hr = VariantToStr(&var, pwszText, cchText) ? S_OK : E_OUTOFMEMORY; VariantClear(&var); } } return hr; } STDMETHODIMP CPropertyUI::FormatForDisplay(REFFMTID fmtid, PROPID pid, const PROPVARIANT *pPropVar, PROPERTYUI_FORMAT_FLAGS flags, LPWSTR pwszText, DWORD cchText) { return SHFormatForDisplay(fmtid, pid, pPropVar, flags, pwszText, cchText); } STDMETHODIMP CPropertyUI::GetHelpInfo(REFFMTID fmtid, PROPID pid, LPWSTR pwszHelpFile, DWORD cch, UINT *puHelpID) { HRESULT hr = E_INVALIDARG; // assume failure if (pwszHelpFile && puHelpID) { *pwszHelpFile = 0; *puHelpID = 0; const PROPUI_INFO *pinfo = _FindInfoByFMTIDPID(fmtid, pid); if (pinfo) { *puHelpID = pinfo->idHelp; StrCpyN(pwszHelpFile, L"filefold.hlp", cch); hr = S_OK; } else { hr = HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND); // close approximation } } return hr; } STDAPI CPropertyUI_CreateInstance(IUnknown *punkOuter, REFIID riid, void **ppv) { HRESULT hr; CPropertyUI *ppui = new CPropertyUI(); if (ppui) { hr = ppui->QueryInterface(riid, ppv); ppui->Release(); } else { *ppv = NULL; hr = E_OUTOFMEMORY; } return hr; } #if 0 // this table defines the CI names for properties that we don't yet have CPropertyUI support for // Storage Propset { 0, L"ClassId", {PSGUID_STORAGE, DBKIND_GUID_PROPID, (LPWSTR)PID_STG_CLASSID }, 36, TRUE, TRUE, DBTYPE_GUID }, { 0, L"FileIndex", {PSGUID_STORAGE, DBKIND_GUID_PROPID, (LPWSTR)PID_STG_FILEINDEX }, 8, TRUE, TRUE, DBTYPE_UI8 }, { 0, L"USN", {PSGUID_STORAGE, DBKIND_GUID_PROPID, (LPWSTR)PID_STG_LASTCHANGEUSN }, 8, TRUE, TRUE, DBTYPE_I8 }, { 0, L"Filename", {PSGUID_STORAGE, DBKIND_GUID_PROPID, (LPWSTR)PID_STG_NAME }, 15, TRUE, TRUE, DBTYPE_WSTR|DBTYPE_BYREF }, { 0, L"Path", {PSGUID_STORAGE, DBKIND_GUID_PROPID, (LPWSTR)PID_STG_PATH }, 50, TRUE, TRUE, DBTYPE_WSTR|DBTYPE_BYREF }, { 0, L"Attrib", {PSGUID_STORAGE, DBKIND_GUID_PROPID, (LPWSTR)PID_STG_ATTRIBUTES }, 7, TRUE, TRUE, DBTYPE_UI4 }, { 0, L"AllocSize", {PSGUID_STORAGE, DBKIND_GUID_PROPID, (LPWSTR)18 }, 11, TRUE, TRUE, DBTYPE_I8 }, { 0, L"Contents", {PSGUID_STORAGE, DBKIND_GUID_PROPID, (LPWSTR)19 }, 0, FALSE, TRUE, DBTYPE_WSTR|DBTYPE_BYREF }, // Query Propset { 0, L"RankVector", {QueryGuid, DBKIND_GUID_PROPID, (LPWSTR)2 }, 20, TRUE, TRUE, DBTYPE_UI4|DBTYPE_VECTOR }, { 0, L"Rank", {QueryGuid, DBKIND_GUID_PROPID, (LPWSTR)3 }, 7, TRUE, TRUE, DBTYPE_I4 }, { 0, L"HitCount", {QueryGuid, DBKIND_GUID_PROPID, (LPWSTR)4 }, 10, TRUE, TRUE, DBTYPE_I4 }, { 0, L"WorkId", {QueryGuid, DBKIND_GUID_PROPID, (LPWSTR)5 }, 10, TRUE, TRUE, DBTYPE_I4 }, { 0, L"All", {QueryGuid, DBKIND_GUID_PROPID, (LPWSTR)6 }, 0, FALSE,TRUE, DBTYPE_WSTR|DBTYPE_BYREF }, { 0, L"VPath", {QueryGuid, DBKIND_GUID_PROPID, (LPWSTR)9 }, 50, TRUE, TRUE, DBTYPE_WSTR|DBTYPE_BYREF }, // standard document { 0, L"DocSecurity", {PSGUID_SUMMARYINFORMATION, DBKIND_GUID_PROPID, (LPWSTR)PIDSI_DOC_SECURITY }, 10, TRUE, TRUE, DBTYPE_I4 }, // who invented these? { 0, L"DocPresentationTarget", {DocPropSetGuid2, DBKIND_GUID_PROPID, (LPWSTR)3 }, 10, TRUE, TRUE, DBTYPE_STR|DBTYPE_BYREF }, { 0, L"DocPartTitles", {DocPropSetGuid2, DBKIND_GUID_PROPID, (LPWSTR)13 }, 10, TRUE, TRUE, DBTYPE_STR|DBTYPE_VECTOR }, { 0, L"DocManager", {DocPropSetGuid2, DBKIND_GUID_PROPID, (LPWSTR)14 }, 10, TRUE, TRUE, DBTYPE_STR|DBTYPE_BYREF }, { 0, L"DocCompany", {DocPropSetGuid2, DBKIND_GUID_PROPID, (LPWSTR)15 }, 10, TRUE, #endif