Introduction ============ PDFio is a simple C library for reading and writing PDF files. The primary goals of pdfio are: - Read and write any version of PDF file - Provide access to pages, objects, and streams within a PDF file - Support reading and writing of encrypted PDF files - Extract or embed useful metadata (author, creator, page information, etc.) - "Filter" PDF files, for example to extract a range of pages or to embed fonts that are missing from a PDF - Provide access to objects used for each page PDFio is *not* concerned with rendering or viewing a PDF file, although a PDF RIP or viewer could be written using it. PDFio is Copyright © 2021-2024 by Michael R Sweet and is licensed under the Apache License Version 2.0 with an (optional) exception to allow linking against GPL2/LGPL2 software. See the files "LICENSE" and "NOTICE" for more information. Requirements ------------ PDFio requires the following to build the software: - A C99 compiler such as Clang, GCC, or MS Visual C - A POSIX-compliant `make` program - A POSIX-compliant `sh` program - ZLIB () 1.0 or higher IDE files for Xcode (macOS/iOS) and Visual Studio (Windows) are also provided. Installing pdfio ---------------- PDFio comes with a configure script that creates a portable makefile that will work on any POSIX-compliant system with ZLIB installed. To make it, run: ./configure make To test it, run: make test To install it, run: sudo make install If you want a shared library, run: ./configure --enable-shared make sudo make install The default installation location is "/usr/local". Pass the `--prefix` option to make to install it to another location: ./configure --prefix=/some/other/directory Other configure options can be found using the `--help` option: ./configure --help Visual Studio Project --------------------- The Visual Studio solution ("pdfio.sln") is provided for Windows developers and generates both a static library and DLL. Xcode Project ------------- There is also an Xcode project ("pdfio.xcodeproj") you can use on macOS which generates a static library that will be installed under "/usr/local" with: sudo xcodebuild install Detecting PDFio --------------- PDFio can be detected using the `pkg-config` command, for example: if pkg-config --exists pdfio; then ... fi In a makefile you can add the necessary compiler and linker options with: ```make CFLAGS += `pkg-config --cflags pdfio` LIBS += `pkg-config --libs pdfio` ``` On Windows, you need to link to the `PDFIO1.LIB` (DLL) library and include the `zlib_native` NuGet package dependency. You can also use the published `pdfio_native` NuGet package. Header Files ------------ PDFio provides a primary header file that is always used: ```c #include ``` PDFio also provides [PDF content helper functions](@) for producing PDF content that are defined in a separate header file: ```c #include ``` API Overview ============ PDFio exposes several types: - `pdfio_file_t`: A PDF file (for reading or writing) - `pdfio_array_t`: An array of values - `pdfio_dict_t`: A dictionary of key/value pairs in a PDF file, object, etc. - `pdfio_obj_t`: An object in a PDF file - `pdfio_stream_t`: An object stream Understanding PDF Files ----------------------- A PDF file is structure in a way, so that it would be displayed in the same way across multiple devices and platforms. The basic structure of PDF File is as follows: ###Header - This is the first line of a PDF File. This specifies the version of PDF Format used. - Example: '%PDF-1.0' - Since PDF files almost always contain binary data, they can become corrupted if line endings are changed (for example, if the file is transferred over FTP in text mode). To allow legacy file transfer programs to determine that the file is binary, it is usual to include some bytes withcharacter codes higher than 127 in the header. - For example: %âãÏÓ - The percent sign indicates another header line, the other few bytes are arbitrary character codes in excess of 127. So, the whole header in our example is: %PDF-1.0 %âãÏÓ ###Body - The file body consists of a sequence of objects, each preceded by an object number, generation number, and the obj keyword on one line, and followed by the endobj keyword on another. - For Example ''' 1 0 obj << /Kids [2 0 R] /Count 1 /Type /Pages >> endobj ''' - Here, the object number is 1, and the generation number is 0 (it almost always is). The content for object 1 is in between the two lines 1 0 obj and endobj. In this case, it’s the dictionary <> ###Cross-Reference Table - The cross-reference table lists the byte offset of each object in the file body. - This allows random access to objects, meaning they don't have to be read in order. - Objects that are not used are never read, making the process efficient. - Operations like counting the number of pages in a PDF document are fast, even in large files. - Each object has an object number and a generation number. - Generation numbers are used when a cross-reference table entry is reused. - For simplicity, we would assume generation numbers to be always zero and ignore them. - The cross-reference table consists of: - Header line that indicates the number of entries. - Special entry (the first entry). - One line for each of the object in the file body. ''' 0 6 Six entries in table, starting at 0 0000000000 65535 **f Special entry** 0000000015 00000 **n Object 1 is at byte offset 15** 0000000074 00000 **n Object 2 is at byte offset 74** 0000000192 00000 **n etc...** 0000000291 00000 **n** 0000000409 00000 **n Object 5 is at byte offset 409** ''' ###Trailer - The first line of the trailer is just the trailer keyword. This is followed by the trailer dictionary, which contains at least the /Size entry (which gives the number of entries in the cross-reference table) and the /Root entry (which gives the object number of the document catalog, which is the root element of the graph of objects in the body). - There follows a line with just the startxref keyword, a line with a single number (the byte offset of the start of the cross-reference table within the file), and then the line %%EOF, which signals the end of the PDF file. ''' trailer Trailer **keyword** << **The trailer dictinonary** /Root 5 0 R /Size 6 >> startxref **startxref keyword** 459 **Byte offset of cross-reference table** %%EOF **End-of-file marker** ''' Reading PDF Files ----------------- You open an existing PDF file using the [`pdfioFileOpen`](@@) function: ```c pdfio_file_t *pdf = pdfioFileOpen("myinputfile.pdf", password_cb, password_data, error_cb, error_data); ``` where the five arguments to the function are the filename ("myinputfile.pdf"), an optional password callback function (`password_cb`) and data pointer value (`password_data`), and an optional error callback function (`error_cb`) and data pointer value (`error_data`). The password callback is called for encrypted PDF files that are not using the default password, for example: ```c const char * password_cb(void *data, const char *filename) { (void)data; // This callback doesn't use the data pointer (void)filename; // This callback doesn't use the filename // Return a password string for the file... return ("Password42"); } ``` The error callback is called for both errors and warnings and accepts the `pdfio_file_t` pointer, a message string, and the callback pointer value, for example: ```c bool error_cb(pdfio_file_t *pdf, const char *message, void *data) { (void)data; // This callback does not use the data pointer fprintf(stderr, "%s: %s\n", pdfioFileGetName(pdf), message); // Return false to treat warnings as errors return (false); } ``` The default error callback (`NULL`) does the equivalent of the above. Each PDF file contains one or more pages. The [`pdfioFileGetNumPages`](@@) function returns the number of pages in the file while the [`pdfioFileGetPage`](@@) function gets the specified page in the PDF file: ```c pdfio_file_t *pdf; // PDF file size_t i; // Looping var size_t count; // Number of pages pdfio_obj_t *page; // Current page // Iterate the pages in the PDF file for (i = 0, count = pdfioFileGetNumPages(pdf); i < count; i ++) { page = pdfioFileGetPage(pdf, i); // do something with page } ``` Each page is represented by a "page tree" object (what [`pdfioFileGetPage`](@@) returns) that specifies information about the page and one or more "content" objects that contain the images, fonts, text, and graphics that appear on the page. Use the [`pdfioPageGetNumStreams`](@@) and [`pdfioPageOpenStream`](@@) functions to access the content streams for each page, and [`pdfioObjGetDict`](@@) to get the associated page object dictionary. For example, if you want to display the media and crop boxes for a given page: ```c pdfio_file_t *pdf; // PDF file size_t i; // Looping var size_t count; // Number of pages pdfio_obj_t *page; // Current page pdfio_dict_t *dict; // Current page dictionary pdfio_array_t *media_box; // MediaBox array double media_values[4]; // MediaBox values pdfio_array_t *crop_box; // CropBox array double crop_values[4]; // CropBox values // Iterate the pages in the PDF file for (i = 0, count = pdfioFileGetNumPages(pdf); i < count; i ++) { page = pdfioFileGetPage(pdf, i); dict = pdfioObjGetDict(page); media_box = pdfioDictGetArray(dict, "MediaBox"); media_values[0] = pdfioArrayGetNumber(media_box, 0); media_values[1] = pdfioArrayGetNumber(media_box, 1); media_values[2] = pdfioArrayGetNumber(media_box, 2); media_values[3] = pdfioArrayGetNumber(media_box, 3); crop_box = pdfioDictGetArray(dict, "CropBox"); crop_values[0] = pdfioArrayGetNumber(crop_box, 0); crop_values[1] = pdfioArrayGetNumber(crop_box, 1); crop_values[2] = pdfioArrayGetNumber(crop_box, 2); crop_values[3] = pdfioArrayGetNumber(crop_box, 3); printf("Page %u: MediaBox=[%g %g %g %g], CropBox=[%g %g %g %g]\n", (unsigned)(i + 1), media_values[0], media_values[1], media_values[2], media_values[3], crop_values[0], crop_values[1], crop_values[2], crop_values[3]); } ``` Page object dictionaries have several (mostly optional) key/value pairs, including: - "Annots": An array of annotation dictionaries for the page; use [`pdfioDictGetArray`](@@) to get the array - "CropBox": The crop box as an array of four numbers for the left, bottom, right, and top coordinates of the target media; use [`pdfioDictGetArray`](@@) to get a pointer to the array of numbers - "Dur": The number of seconds the page should be displayed; use [`pdfioDictGetNumber`](@@) to get the page duration value - "Group": The dictionary of transparency group values for the page; use [`pdfioDictGetDict`](@@) to get a pointer to the resources dictionary - "LastModified": The date and time when this page was last modified; use [`pdfioDictGetDate`](@@) to get the Unix `time_t` value - "Parent": The parent page tree node object for this page; use [`pdfioDictGetObj`](@@) to get a pointer to the object - "MediaBox": The media box as an array of four numbers for the left, bottom, right, and top coordinates of the target media; use [`pdfioDictGetArray`](@@) to get a pointer to the array of numbers - "Resources": The dictionary of resources for the page; use [`pdfioDictGetDict`](@@) to get a pointer to the resources dictionary - "Rotate": A number indicating the number of degrees of counter-clockwise rotation to apply to the page when viewing; use [`pdfioDictGetNumber`](@@) to get the rotation angle - "Thumb": A thumbnail image object for the page; use [`pdfioDictGetObj`](@@) to get a pointer to the thumbnail image object - "Trans": The page transition dictionary; use [`pdfioDictGetDict`](@@) to get a pointer to the dictionary The [`pdfioFileClose`](@@) function closes a PDF file and frees all memory that was used for it: ```c pdfioFileClose(pdf); ``` Writing PDF Files ----------------- You create a new PDF file using the [`pdfioFileCreate`](@@) function: ```c pdfio_rect_t media_box = { 0.0, 0.0, 612.0, 792.0 }; // US Letter pdfio_rect_t crop_box = { 36.0, 36.0, 576.0, 756.0 }; // w/0.5" margins pdfio_file_t *pdf = pdfioFileCreate("myoutputfile.pdf", "2.0", &media_box, &crop_box, error_cb, error_data); ``` where the six arguments to the function are the filename ("myoutputfile.pdf"), PDF version ("2.0"), media box (`media_box`), crop box (`crop_box`), an optional error callback function (`error_cb`), and an optional pointer value for the error callback function (`error_data`). The units for the media and crop boxes are points (1/72nd of an inch). Alternately you can stream a PDF file using the [`pdfioFileCreateOutput`](@@) function: ```c pdfio_rect_t media_box = { 0.0, 0.0, 612.0, 792.0 }; // US Letter pdfio_rect_t crop_box = { 36.0, 36.0, 576.0, 756.0 }; // w/0.5" margins pdfio_file_t *pdf = pdfioFileCreateOutput(output_cb, output_ctx, "2.0", &media_box, &crop_box, error_cb, error_data); ``` Once the file is created, use the [`pdfioFileCreateObj`](@@), [`pdfioFileCreatePage`](@@), and [`pdfioPageCopy`](@@) functions to create objects and pages in the file. Finally, the [`pdfioFileClose`](@@) function writes the PDF cross-reference and "trailer" information, closes the file, and frees all memory that was used for it. PDF Objects ----------- PDF objects are identified using two numbers - the object number (1 to N) and the object generation (0 to 65535) that specifies a particular version of an object. An object's numbers are returned by the [`pdfioObjGetNumber`](@@) and [`pdfioObjGetGeneration`](@@) functions. You can find a numbered object using the [`pdfioFileFindObj`](@@) function. Objects contain values (typically dictionaries) and usually an associated data stream containing images, fonts, ICC profiles, and page content. PDFio provides several accessor functions to get the value(s) associated with an object: - [`pdfioObjGetArray`](@@) returns an object's array value, if any - [`pdfioObjGetDict`](@@) returns an object's dictionary value, if any - [`pdfioObjGetLength`](@@) returns the length of the data stream, if any - [`pdfioObjGetSubtype`](@@) returns the sub-type name of the object, for example "Image" for an image object. - [`pdfioObjGetType`](@@) returns the type name of the object, for example "XObject" for an image object. PDF Streams ----------- Some PDF objects have an associated data stream, such as for pages, images, ICC color profiles, and fonts. You access the stream for an existing object using the [`pdfioObjOpenStream`](@@) function: ```c pdfio_file_t *pdf = pdfioFileOpen(...); pdfio_obj_t *obj = pdfioFileFindObj(pdf, number); pdfio_stream_t *st = pdfioObjOpenStream(obj, true); ``` The first argument is the object pointer. The second argument is a boolean value that specifies whether you want to decode (typically decompress) the stream data or return it as-is. When reading a page stream you'll use the [`pdfioPageOpenStream`](@@) function instead: ```c pdfio_file_t *pdf = pdfioFileOpen(...); pdfio_obj_t *obj = pdfioFileGetPage(pdf, number); pdfio_stream_t *st = pdfioPageOpenStream(obj, 0, true); ``` Once you have the stream open, you can use one of several functions to read from it: - [`pdfioStreamConsume`](@@) reads and discards a number of bytes in the stream - [`pdfioStreamGetToken`](@@) reads a PDF token from the stream - [`pdfioStreamPeek`](@@) peeks at the next stream data without advancing or "consuming" it - [`pdfioStreamRead`](@@) reads a buffer of data When you are done reading from the stream, call the [`pdfioStreamClose`](@@) function: ```c pdfioStreamClose(st); ``` To create a stream for a new object, call the [`pdfioObjCreateStream`](@@) function: ```c pdfio_file_t *pdf = pdfioFileCreate(...); pdfio_obj_t *obj = pdfioFileCreateObj(pdf, ...); pdfio_stream_t *st = pdfioObjCreateStream(obj, PDFIO_FILTER_FLATE); ``` The first argument is the newly created object. The second argument is either `PDFIO_FILTER_NONE` to specify that any encoding is done by your program or `PDFIO_FILTER_FLATE` to specify that PDFio should Flate compress the stream. To create a page content stream call the [`pdfioFileCreatePage`](@@) function: ```c pdfio_file_t *pdf = pdfioFileCreate(...); pdfio_dict_t *dict = pdfioDictCreate(pdf); ... set page dictionary keys and values ... pdfio_stream_t *st = pdfioFileCreatePage(pdf, dict); ``` Once you have created the stream, use any of the following functions to write to the stream: - [`pdfioStreamPrintf`](@@) writes a formatted string to the stream - [`pdfioStreamPutChar`](@@) writes a single character to the stream - [`pdfioStreamPuts`](@@) writes a C string to the stream - [`pdfioStreamWrite`](@@) writes a buffer of data to the stream The [PDF content helper functions](@) provide additional functions for writing specific PDF page stream commands. When you are done writing the stream, call [`pdfioStreamClose`](@@) to close both the stream and the object. PDF Content Helper Functions ---------------------------- PDFio includes many helper functions for embedding or writing specific kinds of content to a PDF file. These functions can be roughly grouped into five categories: - [Color Space Functions](@) - [Font Object Functions](@) - [Image Object Functions](@) - [Page Stream Functions](@) - [Page Dictionary Functions](@) ### Color Space Functions PDF color spaces are specified using well-known names like "DeviceCMYK", "DeviceGray", and "DeviceRGB" or using arrays that define so-called calibrated color spaces. PDFio provides several functions for embedding ICC profiles and creating color space arrays: - [`pdfioArrayCreateColorFromICCObj`](@@) creates a color array for an ICC color profile object - [`pdfioArrayCreateColorFromMatrix`](@@) creates a color array using a CIE XYZ color transform matrix, a gamma value, and a CIE XYZ white point - [`pdfioArrayCreateColorFromPalette`](@@) creates an indexed color array from an array of sRGB values - [`pdfioArrayCreateColorFromPrimaries`](@@) creates a color array using CIE XYZ primaries and a gamma value - [`pdfioArrayCreateColorFromStandard`](@@) creates a color array for a standard color space You can embed an ICC color profile using the [`pdfioFileCreateICCObjFromFile`](@@) function: ```c pdfio_file_t *pdf = pdfioFileCreate(...); pdfio_obj_t *icc = pdfioFileCreateICCObjFromFile(pdf, "filename.icc"); ``` where the first argument is the PDF file and the second argument is the filename of the ICC color profile. PDFio also includes predefined constants for creating a few standard color spaces: ```c pdfio_file_t *pdf = pdfioFileCreate(...); // Create an AdobeRGB color array pdfio_array_t *adobe_rgb = pdfioArrayCreateColorFromStandard(pdf, 3, PDFIO_CS_ADOBE); // Create an Display P3 color array pdfio_array_t *display_p3 = pdfioArrayCreateColorFromStandard(pdf, 3, PDFIO_CS_P3_D65); // Create an sRGB color array pdfio_array_t *srgb = pdfioArrayCreateColorFromStandard(pdf, 3, PDFIO_CS_SRGB); ``` ### Font Object Functions PDF supports many kinds of fonts, including PostScript Type1, PDF Type3, TrueType/OpenType, and CID. PDFio provides two functions for creating font objects. The first is [`pdfioFileCreateFontObjFromBase`](@@) which creates a font object for one of the base PDF fonts: - "Courier" - "Courier-Bold" - "Courier-BoldItalic" - "Courier-Italic" - "Helvetica" - "Helvetica-Bold" - "Helvetica-BoldOblique" - "Helvetica-Oblique" - "Symbol" - "Times-Bold" - "Times-BoldItalic" - "Times-Italic" - "Times-Roman" - "ZapfDingbats" PDFio always uses the Windows CP1252 subset of Unicode for these fonts. The second function is [`pdfioFileCreateFontObjFromFile`](@@) which creates a font object from a TrueType/OpenType font file, for example: ```c pdfio_file_t *pdf = pdfioFileCreate(...); pdfio_obj_t *arial = pdfioFileCreateFontObjFromFile(pdf, "OpenSans-Regular.ttf", false); ``` will embed an OpenSans Regular TrueType font using the Windows CP1252 subset of Unicode. Pass `true` for the third argument to embed it as a Unicode CID font instead, for example: ```c pdfio_file_t *pdf = pdfioFileCreate(...); pdfio_obj_t *arial = pdfioFileCreateFontObjFromFile(pdf, "NotoSansJP-Regular.otf", true); ``` will embed the NotoSansJP Regular OpenType font with full support for Unicode. > Note: Not all fonts support Unicode. ### Image Object Functions PDF supports images with many different color spaces and bit depths with optional transparency. PDFio provides two helper functions for creating image objects that can be referenced in page streams. The first function is [`pdfioFileCreateImageObjFromData`](@@) which creates an image object from data in memory, for example: ```c pdfio_file_t *pdf = pdfioFileCreate(...); unsigned char data[1024 * 1024 * 4]; // 1024x1024 RGBA image data pdfio_obj_t *img = pdfioFileCreateImageObjFromData(pdf, data, /*width*/1024, /*height*/1024, /*num_colors*/3, /*color_data*/NULL, /*alpha*/true, /*interpolate*/false); ``` will create an object for a 1024x1024 RGBA image in memory, using the default color space for 3 colors ("DeviceRGB"). We can use one of the [color space functions](@) to use a specific color space for this image, for example: ```c pdfio_file_t *pdf = pdfioFileCreate(...); // Create an AdobeRGB color array pdfio_array_t *adobe_rgb = pdfioArrayCreateColorFromMatrix(pdf, 3, pdfioAdobeRGBGamma, pdfioAdobeRGBMatrix, pdfioAdobeRGBWhitePoint); // Create a 1024x1024 RGBA image using AdobeRGB unsigned char data[1024 * 1024 * 4]; // 1024x1024 RGBA image data pdfio_obj_t *img = pdfioFileCreateImageObjFromData(pdf, data, /*width*/1024, /*height*/1024, /*num_colors*/3, /*color_data*/adobe_rgb, /*alpha*/true, /*interpolate*/false); ``` The "interpolate" argument specifies whether the colors in the image should be smoothed/interpolated when scaling. This is most useful for photographs but should be `false` for screenshot and barcode images. If you have a JPEG or PNG file, use the [`pdfioFileCreateImageObjFromFile`](@@) function to copy the image into a PDF image object, for example: ```c pdfio_file_t *pdf = pdfioFileCreate(...); pdfio_obj_t *img = pdfioFileCreateImageObjFromFile(pdf, "myphoto.jpg", /*interpolate*/true); ``` ### Page Dictionary Functions PDF pages each have an associated dictionary to specify the images, fonts, and color spaces used by the page. PDFio provides functions to add these resources to the dictionary: - [`pdfioPageDictAddColorSpace`](@@) adds a named color space to the page dictionary - [`pdfioPageDictAddFont`](@@) adds a named font to the page dictionary - [`pdfioPageDictAddImage`](@@) adds a named image to the page dictionary ### Page Stream Functions PDF page streams contain textual commands for drawing on the page. PDFio provides many functions for writing these commands with the correct format and escaping, as needed: - [`pdfioContentClip`](@@) clips future drawing to the current path - [`pdfioContentDrawImage`](@@) draws an image object - [`pdfioContentFill`](@@) fills the current path - [`pdfioContentFillAndStroke`](@@) fills and strokes the current path - [`pdfioContentMatrixConcat`](@@) concatenates a matrix with the current transform matrix - [`pdfioContentMatrixRotate`](@@) concatenates a rotation matrix with the current transform matrix - [`pdfioContentMatrixScale`](@@) concatenates a scaling matrix with the current transform matrix - [`pdfioContentMatrixTranslate`](@@) concatenates a translation matrix with the current transform matrix - [`pdfioContentPathClose`](@@) closes the current path - [`pdfioContentPathCurve`](@@) appends a Bezier curve to the current path - [`pdfioContentPathCurve13`](@@) appends a Bezier curve with 2 control points to the current path - [`pdfioContentPathCurve23`](@@) appends a Bezier curve with 2 control points to the current path - [`pdfioContentPathLineTo`](@@) appends a line to the current path - [`pdfioContentPathMoveTo`](@@) moves the current point in the current path - [`pdfioContentPathRect`](@@) appends a rectangle to the current path - [`pdfioContentRestore`](@@) restores a previous graphics state - [`pdfioContentSave`](@@) saves the current graphics state - [`pdfioContentSetDashPattern`](@@) sets the line dash pattern - [`pdfioContentSetFillColorDeviceCMYK`](@@) sets the current fill color using a device CMYK color - [`pdfioContentSetFillColorDeviceGray`](@@) sets the current fill color using a device gray color - [`pdfioContentSetFillColorDeviceRGB`](@@) sets the current fill color using a device RGB color - [`pdfioContentSetFillColorGray`](@@) sets the current fill color using a calibrated gray color - [`pdfioContentSetFillColorRGB`](@@) sets the current fill color using a calibrated RGB color - [`pdfioContentSetFillColorSpace`](@@) sets the current fill color space - [`pdfioContentSetFlatness`](@@) sets the flatness for curves - [`pdfioContentSetLineCap`](@@) sets how the ends of lines are stroked - [`pdfioContentSetLineJoin`](@@) sets how connections between lines are stroked - [`pdfioContentSetLineWidth`](@@) sets the width of stroked lines - [`pdfioContentSetMiterLimit`](@@) sets the miter limit for stroked lines - [`pdfioContentSetStrokeColorDeviceCMYK`](@@) sets the current stroke color using a device CMYK color - [`pdfioContentSetStrokeColorDeviceGray`](@@) sets the current stroke color using a device gray color - [`pdfioContentSetStrokeColorDeviceRGB`](@@) sets the current stroke color using a device RGB color - [`pdfioContentSetStrokeColorGray`](@@) sets the current stroke color using a calibrated gray color - [`pdfioContentSetStrokeColorRGB`](@@) sets the current stroke color using a calibrated RGB color - [`pdfioContentSetStrokeColorSpace`](@@) sets the current stroke color space - [`pdfioContentSetTextCharacterSpacing`](@@) sets the spacing between characters for text - [`pdfioContentSetTextFont`](@@) sets the font and size for text - [`pdfioContentSetTextLeading`](@@) sets the line height for text - [`pdfioContentSetTextMatrix`](@@) concatenates a matrix with the current text matrix - [`pdfioContentSetTextRenderingMode`](@@) sets the text rendering mode - [`pdfioContentSetTextRise`](@@) adjusts the baseline for text - [`pdfioContentSetTextWordSpacing`](@@) sets the spacing between words for text - [`pdfioContentSetTextXScaling`](@@) sets the horizontal scaling for text - [`pdfioContentStroke`](@@) strokes the current path - [`pdfioContentTextBegin`](@@) begins a block of text - [`pdfioContentTextEnd`](@@) ends a block of text - [`pdfioContentTextMoveLine`](@@) moves to the next line with an offset in a text block - [`pdfioContentTextMoveTo`](@@) moves within the current line in a text block - [`pdfioContentTextNewLine`](@@) moves to the beginning of the next line in a text block - [`pdfioContentTextNewLineShow`](@@) moves to the beginning of the next line in a text block and shows literal text with optional word and character spacing - [`pdfioContentTextNewLineShowf`](@@) moves to the beginning of the next line in a text block and shows formatted text with optional word and character spacing - [`pdfioContentTextShow`](@@) draws a literal string in a text block - [`pdfioContentTextShowf`](@@) draws a formatted string in a text block - [`pdfioContentTextShowJustified`](@@) draws an array of literal strings with offsets between them Examples ======== Read PDF Metadata ----------------- The following example function will open a PDF file and print the title, author, creation date, and number of pages: ```c #include #include void show_pdf_info(const char *filename) { pdfio_file_t *pdf; time_t creation_date; struct tm *creation_tm; char creation_text[256]; // Open the PDF file with the default callbacks... pdf = pdfioFileOpen(filename, /*password_cb*/NULL, /*password_cbdata*/NULL, /*error_cb*/NULL, /*error_cbdata*/NULL); if (pdf == NULL) return; // Get the creation date and convert to a string... creation_date = pdfioFileGetCreationDate(pdf); creation_tm = localtime(&creation_date); strftime(creation_text, sizeof(creation_text), "%c", &creation_tm); // Print file information to stdout... printf("%s:\n", filename); printf(" Title: %s\n", pdfioFileGetTitle(pdf)); printf(" Author: %s\n", pdfioFileGetAuthor(pdf)); printf(" Created On: %s\n", creation_text); printf(" Number Pages: %u\n", (unsigned)pdfioFileGetNumPages(pdf)); // Close the PDF file... pdfioFileClose(pdf); } ``` Create PDF File With Text and Image ----------------------------------- The following example function will create a PDF file, embed a base font and the named JPEG or PNG image file, and then creates a page with the image centered on the page with the text centered below: ```c #include #include #include void create_pdf_image_file(const char *pdfname, const char *imagename, const char *caption) { pdfio_file_t *pdf; pdfio_obj_t *font; pdfio_obj_t *image; pdfio_dict_t *dict; pdfio_stream_t *page; double width, height; double swidth, sheight; double tx, ty; // Create the PDF file... pdf = pdfioFileCreate(pdfname, /*version*/NULL, /*media_box*/NULL, /*crop_box*/NULL, /*error_cb*/NULL, /*error_cbdata*/NULL); // Create a Courier base font for the caption font = pdfioFileCreateFontObjFromBase(pdf, "Courier"); // Create an image object from the JPEG/PNG image file... image = pdfioFileCreateImageObjFromFile(pdf, imagename, true); // Create a page dictionary with the font and image... dict = pdfioDictCreate(pdf); pdfioPageDictAddFont(dict, "F1", font); pdfioPageDictAddImage(dict, "IM1", image); // Create the page and its content stream... page = pdfioFileCreatePage(pdf, dict); // Position and scale the image on the page... width = pdfioImageGetWidth(image); height = pdfioImageGetHeight(image); // Default media_box is "universal" 595.28x792 points (8.27x11in or 210x279mm) // Use margins of 36 points (0.5in or 12.7mm) with another 36 points for the // caption underneath... swidth = 595.28 - 72.0; sheight = swidth * height / width; if (sheight > (792.0 - 36.0 - 72.0)) { sheight = 792.0 - 36.0 - 72.0; swidth = sheight * width / height; } tx = 0.5 * (595.28 - swidth); ty = 0.5 * (792 - 36 - sheight); pdfioContentDrawImage(page, "IM1", tx, ty + 36.0, swidth, sheight); // Draw the caption in black... pdfioContentSetFillColorDeviceGray(page, 0.0); // Compute the starting point for the text - Courier is monospaced with a // nominal width of 0.6 times the text height... tx = 0.5 * (595.28 - 18.0 * 0.6 * strlen(caption)); // Position and draw the caption underneath... pdfioContentTextBegin(page); pdfioContentSetTextFont(page, "F1", 18.0); pdfioContentTextMoveTo(page, tx, ty); pdfioContentTextShow(page, /*unicode*/false, caption); pdfioContentTextEnd(page); // Close the page stream and the PDF file... pdfioStreamClose(page); pdfioFileClose(pdf); } ```