Introduction

In the GhostPDL repository a sample C# project can be found in /demos/csharp.

Within this project the following namespaces and corresponding C# files are of relevance:

Platform & setup

Ghostscript should be built as a shared library for your platform.

See Building Ghostscript.

GhostAPI

GhostAPI is the main wrapper responsible for bridging over to the C library and ensuring that the correct DLLs are imported.

GhostAPI contains the ghostapi class which does not need to be instantiated as it provides public static methods. These methods, which mirror their C counterparts, are as follows:

Method

Description

gsapi_revision

Returns the revision numbers and strings of the Ghostscript interpreter library.

gsapi_new_instance

Create a new instance of Ghostscript.

gsapi_delete_instance

Destroy an instance of Ghostscript.

gsapi_set_stdio_with_handle

Set the callback functions for stdio, together with the handle to use in the callback functions.

gsapi_set_stdio

Set the callback functions for stdio.

gsapi_set_poll_with_handle

Set the callback function for polling, together with the handle to pass to the callback function.

gsapi_set_poll

Set the callback function for polling.

gsapi_set_display_callback

deprecated

gsapi_register_callout

This call registers a callout handler.

gsapi_deregister_callout

This call deregisters a previously registered callout handler.

gsapi_set_arg_encoding

Set the encoding used for the interpretation of all subsequent args supplied via the gsapi interface on this instance.

gsapi_set_default_device_list

Set the string containing the list of default device names.

gsapi_get_default_device_list

Returns a pointer to the current default device string.

gsapi_init_with_args

Initialise the interpreter.

gsapi_run_*

(Wildcard for various “run” methods).

gsapi_exit

Exit the interpreter.

gsapi_set_param

Set a parameter.

gsapi_get_param

Get a parameter.

gsapi_enumerate_params

Enumerate the current parameters.

gsapi_add_control_path

Add a (case sensitive) path to one of the lists of permitted paths for file access.

gsapi_remove_control_path

Remove a (case sensitive) path from one of the lists of permitted paths for file access.

gsapi_purge_control_paths

Clear all the paths from one of the lists of permitted paths for file access.

gsapi_activate_path_control

Enable/Disable path control.

gsapi_is_path_control_active

Query whether path control is activated or not.

GhostAPI contains some essential structs & enums as well as a static class for some constants, finally it contains the main GSAPI class which holds the key methods which interface with the C library.

Structs and Enums

gsapi_revision_t

This struct is used to contain information pertinent to the version of Ghostscript.

public struct gsapi_revision_t
{
    public IntPtr product;
    public IntPtr copyright;
    public int revision;
    public int revisiondate;
}

gs_set_param_type

public enum gs_set_param_type
{
    gs_spt_invalid = -1,
    gs_spt_null =    0, /* void * is NULL */
    gs_spt_bool =    1, /* void * is NULL (false) or non-NULL (true) */
    gs_spt_int = 2, /* void * is a pointer to an int */
    gs_spt_float = 3, /* void * is a float * */
    gs_spt_name = 4, /* void * is a char * */
    gs_spt_string =    5, /* void * is a char * */
    gs_spt_long =    6, /* void * is a long * */
    gs_spt_i64 = 7, /* void * is an int64_t * */
    gs_spt_size_t =    8, /* void * is a size_t * */
    gs_spt_parsed =    9, /* void * is a pointer to a char * to be parsed */
    gs_spt_more_to_come = 1 << 31
};

gsEncoding

public enum gsEncoding
{
    GS_ARG_ENCODING_LOCAL = 0,
    GS_ARG_ENCODING_UTF8 = 1,
    GS_ARG_ENCODING_UTF16LE = 2
};

Constants

Constants are stored in the static class gsConstants for direct referencing.

gsConstants

static class gsConstants
{
    public const int E_QUIT = -101;
    public const int GS_READ_BUFFER = 32768;
    public const int DISPLAY_UNUSED_LAST = (1 << 7);
    public const int DISPLAY_COLORS_RGB = (1 << 2);
    public const int DISPLAY_DEPTH_8 = (1 << 11);
    public const int DISPLAY_LITTLEENDIAN = (1 << 16);
    public const int DISPLAY_BIGENDIAN = (0 << 16);
}

GSAPI

Methods contained within are explained below.

gsapi_run_* and gsapi_exit methods return an int code which can be interpreted as follows:

code

status

0

no error

gsConstants.E_QUIT

“quit” has been executed. This is not an error. gsapi_exit must be called next

<0

error

Note

For full details on these return codes please see The C API return codes.

All GSAPI methods aside from gsapi_revision and gsapi_new_instance should pass an instance of Ghostscript as their first parameter with an IntPtr instance

gsapi_revision

This method returns the revision numbers and strings of the Ghostscript interpreter library; you should call it before any other interpreter library functions to make sure that the correct version of the Ghostscript interpreter has been loaded.

public static extern int gsapi_revision(ref gsapi_revision_t vers, int size);

Note

The method should write to a reference variable which conforms to the struct gsapi_revision_t.

gsapi_new_instance

Creates a new instance of Ghostscript. This instance is passed to most other GSAPI methods. Unless Ghostscript has been compiled with the GS_THREADSAFE define, only one instance at a time is supported.

public static extern int gsapi_new_instance(out IntPtr pinstance,
                                                IntPtr caller_handle);

Note

The method returns a pointer which represents your instance of Ghostscript.

gsapi_delete_instance

Destroy an instance of Ghostscript. Before you call this, Ghostscript must have finished. If Ghostscript has been initialised, you must call gsapi_exit beforehand.

public static extern void gsapi_delete_instance(IntPtr instance);

Sample code:

GSAPI.gsapi_delete_instance(gsInstance);
gsInstance = IntPtr.Zero;

gsapi_set_stdio_with_handle

Set the callback functions for stdio, together with the handle to use in the callback functions. The stdin callback function should return the number of characters read, 0 for EOF, or -1 for error. The stdout and stderr callback functions should return the number of characters written.

Note

These callbacks do not affect output device I/O when using “%stdout” as the output file. In that case, device output will still be directed to the process “stdout” file descriptor, not to the stdio callback.

public static extern int gsapi_set_stdio_with_handle(IntPtr instance,
                                           gs_stdio_handler stdin,
                                           gs_stdio_handler stdout,
                                           gs_stdio_handler stderr,
                                                     IntPtr caller_handle);

gsapi_set_stdio

Set the callback functions for stdio. The handle used in the callbacks will be taken from the value passed to gsapi_new_instance. Otherwise the behaviour of this function matches gsapi_set_stdio_with_handle.

public static extern int gsapi_set_stdio_with_handle(IntPtr instance,
                                           gs_stdio_handler stdin,
                                           gs_stdio_handler stdout,
                                           gs_stdio_handler stderr);

gsapi_set_poll_with_handle

Set the callback function for polling, together with the handle to pass to the callback function. This function will only be called if the Ghostscript interpreter was compiled with CHECK_INTERRUPTS as described in gpcheck.h.

The polling function should return zero if all is well, and return negative if it wants Ghostscript to abort. This is often used for checking for a user cancel. This can also be used for handling window events or cooperative multitasking.

The polling function is called very frequently during interpretation and rendering so it must be fast. If the function is slow, then using a counter to return 0 immediately some number of times can be used to reduce the performance impact.

public static extern int gsapi_set_poll_with_handle(IntPtr instance,
                                             gsPollHandler pollfn,
                                                    IntPtr caller_handle);

gsapi_set_poll

Set the callback function for polling. The handle passed to the callback function will be taken from the handle passed to gsapi_new_instance. Otherwise the behaviour of this function matches gsapi_set_poll_with_handle.

public static extern int gsapi_set_poll(IntPtr instance,
                                  gsPollHandler pollfn);

gsapi_set_display_callback

This call is deprecated; please use gsapi_register_callout to register a callout handler for the display device in preference.

public static extern int gsapi_set_display_callback(IntPtr pinstance,
                                                    IntPtr caller_handle);

gsapi_register_callout

This call registers a callout handler.

public static extern int gsapi_register_callout(IntPtr instance,
                                             gsCallOut callout,
                                                IntPtr callout_handle);

gsapi_deregister_callout

This call deregisters a callout handler previously registered with gsapi_register_callout. All three arguments must match exactly for the callout handler to be deregistered.

public static extern int gsapi_deregister_callout(IntPtr instance,
                                               gsCallOut callout,
                                                  IntPtr callout_handle);

gsapi_set_arg_encoding

Set the encoding used for the interpretation of all subsequent arguments supplied via the GhostAPI interface on this instance. By default we expect args to be in encoding 0 (the ‘local’ encoding for this OS). On Windows this means “the currently selected codepage”. On Linux this typically means utf8. This means that omitting to call this function will leave Ghostscript running exactly as it always has. Please note that use of the ‘local’ encoding is now deprecated and should be avoided in new code. This must be called after gsapi_new_instance and before gsapi_init_with_args.

public static extern int gsapi_set_arg_encoding(IntPtr instance,
                                                   int encoding);

gsapi_set_default_device_list

Set the string containing the list of default device names, for example “display x11alpha x11 bbox”. Allows the calling application to influence which device(s) Ghostscript will try, in order, in its selection of the default device. This must be called after gsapi_new_instance and before gsapi_init_with_args.

public static extern int gsapi_set_default_device_list(IntPtr instance,
                                                       IntPtr list,
                                                      ref int listlen);

gsapi_get_default_device_list

Returns a pointer to the current default device string. This must be called after gsapi_new_instance and before gsapi_init_with_args.

public static extern int gsapi_get_default_device_list(IntPtr instance,
                                                   ref IntPtr list,
                                                      ref int listlen);

gsapi_init_with_args

To initialise the interpreter, pass your instance of Ghostscript, your argument count, argc and your argument variables, argv.

public static extern int gsapi_init_with_args(IntPtr instance,
                                                 int argc,
                                              IntPtr argv);

gsapi_run_*

If these functions return <= -100, either quit or a fatal error has occured. You must call gsapi_exit next. The only exception is gsapi_run_string_continue which will return gs_error_NeedInput if all is well.

There is a 64 KB length limit on any buffer submitted to a gsapi_run_* function for processing. If you have more than 65535 bytes of input then you must split it into smaller pieces and submit each in a separate gsapi_run_string_continue call.

gsapi_run_string_begin

public static extern int gsapi_run_string_begin(IntPtr instance,
                                                   int usererr,
                                               ref int exitcode);

gsapi_run_string_continue

public static extern int gsapi_run_string_continue(IntPtr instance,
                                                   IntPtr command,
                                                      int count,
                                                      int usererr,
                                                  ref int exitcode);

gsapi_run_string_with_length

public static extern int gsapi_run_string_with_length(IntPtr instance,
                                                         IntPtr command,
                                                           uint length,
                                                            int usererr,
                                                        ref int exitcode);

gsapi_run_string

public static extern int gsapi_run_string(IntPtr instance,
                                          IntPtr command,
                                             int usererr,
                                         ref int exitcode);

gsapi_run_string_end

public static extern int gsapi_run_string_end(IntPtr instance,
                                                 int usererr,
                                             ref int exitcode);

gsapi_run_file

public static extern int gsapi_run_file(IntPtr instance,
                                        IntPtr filename,
                                           int usererr,
                                       ref int exitcode);

gsapi_exit

Exit the interpreter. This must be called on shutdown if gsapi_init_with_args has been called, and just before gsapi_delete_instance.

public static extern int gsapi_exit(IntPtr instance);

gsapi_set_param

Sets a parameter.

Broadly, this is equivalent to setting a parameter using -d, -s or -p on the command line. This call cannot be made during a gsapi_run_string operation.

Parameters in this context are not the same as ‘arguments’ as processed by gsapi_init_with_args, but often the same thing can be achieved. For example, with gsapi_init_with_args, we can pass “-r200” to change the resolution. Broadly the same thing can be achieved by using gsapi_set_param to set a parsed value of “<</HWResolution [ 200.0 200.0 ]>>”.

Internally, when we set a parameter, we perform an initgraphics operation. This means that using gsapi_set_param other than at the start of a page is likely to give unexpected results.

Attempting to set a parameter that the device does not recognise will be silently ignored, and that parameter will not be found in subsequent gsapi_get_param calls.

public static extern int gsapi_set_param(IntPtr instance,
                                         IntPtr param,
                                         IntPtr value,
                              gs_set_param_type type);

Note

The type argument, as a gs_set_param_type, dictates the kind of object that the value argument points to.

For more on the C implementation of parameters see: Ghostscript parameters in C.

gsapi_get_param

Retrieve the current value of a parameter.

If an error occurs, the return value is negative. Otherwise the return value is the number of bytes required for storage of the value. Call once with value NULL to get the number of bytes required, then call again with value pointing to at least the required number of bytes where the value will be copied out. Note that the caller is required to know the type of value in order to get it. For all types other than gs_spt_string, gs_spt_name, and gs_spt_parsed knowing the type means you already know the size required.

This call retrieves parameters/values that have made it to the device. Thus, any values set using gs_spt_more_to_come without a following call omitting that flag will not be retrieved. Similarly, attempting to get a parameter before gsapi_init_with_args has been called will not list any, even if gsapi_set_param has been used.

Attempting to read a parameter that is not set will return gs_error_undefined (-21). Note that calling gsapi_set_param followed by gsapi_get_param may not find the value, if the device did not recognise the key as being one of its configuration keys.

For further documentation please refer to the C API.

public static extern int gsapi_get_param(IntPtr instance,
                                         IntPtr param,
                                         IntPtr value,
                              gs_set_param_type type);

gsapi_enumerate_params

Enumerate the current parameters. Call repeatedly to list out the current parameters.

The first call should have iter = NULL. Subsequent calls should pass the same pointer in so the iterator can be updated. Negative return codes indicate error, 0 success, and 1 indicates that there are no more keys to read. On success, key will be updated to point to a null terminated string with the key name that is guaranteed to be valid until the next call to gsapi_enumerate_params. If type is non NULL then the pointer type will be updated to have the type of the parameter.

Note

Only one enumeration can happen at a time. Starting a second enumeration will reset the first.

The enumeration only returns parameters/values that have made it to the device. Thus, any values set using the gs_spt_more_to_come without a following call omitting that flag will not be retrieved. Similarly, attempting to enumerate parameters before gsapi_init_with_args has been called will not list any, even if gsapi_set_param has been used.

public static extern int gsapi_enumerate_params(IntPtr instance,
                                            out IntPtr iter,
                                            out IntPtr key,
                                                IntPtr type);

gsapi_add_control_path

Add a (case sensitive) path to one of the lists of permitted paths for file access.

public static extern int gsapi_add_control_path(IntPtr instance,
                                                   int type,
                                                IntPtr path);

gsapi_remove_control_path

Remove a (case sensitive) path from one of the lists of permitted paths for file access.

public static extern int gsapi_remove_control_path(IntPtr instance,
                                                      int type,
                                                   IntPtr path);

gsapi_purge_control_paths

Clear all the paths from one of the lists of permitted paths for file access.

public static extern void gsapi_purge_control_paths(IntPtr instance,
                                                       int type);

gsapi_activate_path_control

Enable/Disable path control (i.e. whether paths are checked against permitted paths before access is granted).

public static extern void gsapi_activate_path_control(IntPtr instance,
                                                         int enable);

gsapi_is_path_control_active

Query whether path control is activated or not.

public static extern int gsapi_is_path_control_active(IntPtr instance);

Callback and Callout prototypes

GSAPI also defines some prototype pointers which are defined as follows.

gs_stdio_handler

/* Callback proto for stdio */
public delegate int gs_stdio_handler(IntPtr caller_handle,
                                     IntPtr buffer,
                                        int len);

gsPollHandler

/* Callback proto for poll function */
public delegate int gsPollHandler(IntPtr caller_handle);

gsCallOut

/* Callout proto */
public delegate int gsCallOut(IntPtr callout_handle,
                              IntPtr device_name,
                                 int id,
                                 int size,
                              IntPtr data);

GhostNET

GhostNET is the .NET interface into GhostAPI. It exemplifies how to do more complex operations involving multiple API calls and sequences. See the table below for the main methods:

Method

Description

Notes

GetVersion

Returns the version of Ghostscript.

DisplayDeviceOpen

Sets up the display device ahead of time.

DisplayDeviceClose

Closes the display device and deletes the instance.

GetPageCount

Returns the page count for the document.

CreateXPS

Launches a thread to create an XPS document for Windows printing.

asynchronous

DistillPS

Launches a thread rendering all the pages of a supplied PostScript file to a PDF.

asynchronous

DisplayDeviceRunFile

Launches a thread to run a file with the display device.

asynchronous

DisplayDeviceRenderThumbs

Launches a thread rendering all the pages with the display device to collect thumbnail images.

asynchronous

DisplayDeviceRenderPages

Launches a thread rendering a set of pages with the display device.

asynchronous

GetStatus

Returns the current status of Ghostscript.

Cancel

Cancels asynchronous operations.

GhostscriptException

An application developer can log any exceptions in this public class.

In demos/csharp/windows/ghostnet.sln there is a sample C# demo project.

This project can be opened in Visual Studio and used to test the Ghostscript API alongside a UI which handles opening PostScript and PDF files. The sample application here allows for file browsing and Ghostscript file viewing.

Below is a screenshot of the sample application with a PDF open:

Enums

Tasks

The Ghostscript task type enum is used to inform GhostAPI of the type of operation which is being requested.

Task

Description

PS_DISTILL

Task associated with converting a PostScript stream to a PDF document.

CREATE_XPS

Task associated with outputting a copy of a document to XPS.

SAVE_RESULT

Task associated with saving documents.

GET_PAGE_COUNT

Task associated with getting the page count of a document.

GENERIC

Generic task identifier.

DISPLAY_DEV_THUMBS

Display Device task associated with rendering thumbnails.

DISPLAY_DEV_NON_PDF

Display Device task associated with non-PDF or non-XPS rendering (see: Ghostscript & Page Description Languages).

DISPLAY_DEV_PDF

Display Device task associated with PDF & XPS rendering (see: Ghostscript & Page Description Languages).

DISPLAY_DEV_RUN_FILE

Display Device task associated with running files.

Task types are defined as GS_Task_t.

public enum GS_Task_t
{
    PS_DISTILL,
    CREATE_XPS,
    SAVE_RESULT,
    GET_PAGE_COUNT,
    GENERIC,
    DISPLAY_DEV_THUMBS,
    DISPLAY_DEV_NON_PDF,
    DISPLAY_DEV_PDF,
    DISPLAY_DEV_RUN_FILE
}

Results

Result types are defined as GS_Result_t.

public enum GS_Result_t
{
    gsOK,
    gsFAILED,
    gsCANCELLED
}

Status

Status types are defined as gsStatus.

public enum gsStatus
{
    GS_READY,
    GS_BUSY,
    GS_ERROR
}

The Parameter Struct

The parameter struct gsParamState_t allows for bundles of information to be processed by Ghostscript to complete overall requests.

public struct gsParamState_t
{
    public String outputfile;
    public String inputfile;
    public GS_Task_t task;
    public GS_Result_t result;
    public int num_pages;
    public List<int> pages;
    public int firstpage;
    public int lastpage;
    public int currpage;
    public List<String> args;
    public int return_code;
    public double zoom;
    public bool aa;
    public bool is_valid;
};

Parameters explained

Setting up your parameters (with any dedicated bespoke method(s) which your application requires) is needed when communicating directly with GhostAPI.

When requesting Ghostscript to process an operation an application developer should send a parameter payload which defines the details for the operation.

For example in GhostNET we can see the public method as follows:

public gsStatus DistillPS(String fileName, int resolution)
{
    gsParamState_t gsparams = new gsParamState_t();
    gsparams.args = new List<string>();

    gsparams.inputfile = fileName;
    gsparams.args.Add("gs");
    gsparams.args.Add("-sDEVICE=pdfwrite");
    gsparams.outputfile = Path.GetTempFileName();
    gsparams.args.Add("-o" + gsparams.outputfile);
    gsparams.task = GS_Task_t.PS_DISTILL;

    return RunGhostscriptAsync(gsparams);
}

Here we can see a parameter payload being setup before being passed on to the asynchronous method RunGhostscriptAsync which sets up a worker thread to run according to the task type in the payload.

GhostNET handles many common operations on an application developer’s behalf, however if you require to write your own methods to interface with GhostAPI then referring to the public methods in GhostNET is a good starting point.

For full documentation on parameters refer to Ghostscript parameters.

The Event class

GhostNET contains a public class gsEventArgs which is an extension of the C# class EventArgs. This class is used to set and get events as they occur. GhostNET will create these payloads and deliver them back to the application layer’s ProgressCallBack method asynchronously.

public class gsEventArgs : EventArgs
{
    private bool m_completed;
    private int m_progress;
    private gsParamState_t m_param;
    public bool Completed
    {
        get { return m_completed; }
    }
    public gsParamState_t Params
    {
        get { return m_param; }
    }
    public int Progress
    {
        get { return m_progress; }
    }
    public gsEventArgs(bool completed, int progress, gsParamState_t param)
    {
        m_completed = completed;
        m_progress = progress;
        m_param = param;
    }
}

GSNET

This class should be instantiated as a member variable in your application with callback definitions setup as required.

Handlers for asynchronous operations can injected by providing your own bespoke callback methods to your instance’s ProgressCallBack function.

Sample code

/* Set up ghostscript with callbacks for system updates */
m_ghostscript = new GSNET();
m_ghostscript.ProgressCallBack += new GSNET.Progress(gsProgress);
m_ghostscript.StdIOCallBack += new GSNET.StdIO(gsIO);
m_ghostscript.DLLProblemCallBack += new GSNET.DLLProblem(gsDLL);
m_ghostscript.PageRenderedCallBack += new GSNET.PageRendered(gsPageRendered);
m_ghostscript.DisplayDeviceOpen();

/* example callback stubs for asynchronous operations */
private void gsProgress(gsEventArgs asyncInformation)
{
    Console.WriteLine($"gsProgress().progress:{asyncInformation.Progress}");

    if (asyncInformation.Completed) // task complete
    {
        // what was the task?
        switch (asyncInformation.Params.task)
        {
            case GS_Task_t.CREATE_XPS:
                Console.WriteLine($"CREATE_XPS.outputfile:");
                Console.WriteLine($"{asyncInformation.Params.result.outputfile}");
                break;

            case GS_Task_t.PS_DISTILL:
                Console.WriteLine($"PS_DISTILL.outputfile:");
                Console.WriteLine($"{asyncInformation.Params.result.outputfile}");
                break;

            case GS_Task_t.SAVE_RESULT:

                break;

            case GS_Task_t.DISPLAY_DEV_THUMBS:

                break;

            case GS_Task_t.DISPLAY_DEV_RUN_FILE:

                break;

            case GS_Task_t.DISPLAY_DEV_PDF:

                break;

            case GS_Task_t.DISPLAY_DEV_NON_PDF:

                break;

            default:

                break;
        }

        // task failed
        if (asyncInformation.Params.result == GS_Result_t.gsFAILED)
        {
            switch (asyncInformation.Params.task)
            {
                case GS_Task_t.CREATE_XPS:

                    break;

                case GS_Task_t.PS_DISTILL:

                    break;

                case GS_Task_t.SAVE_RESULT:

                    break;

                default:

                    break;
            }
            return;
        }

        // task cancelled
        if (asyncInformation.Params.result == GS_Result_t.gsCANCELLED)
        {

        }
    }
    else // task is still running
    {
        switch (asyncInformation.Params.task)
        {
            case GS_Task_t.CREATE_XPS:

                break;

            case GS_Task_t.PS_DISTILL:

                break;

            case GS_Task_t.SAVE_RESULT:

                break;
        }
    }
}

private void gsIO(String message, int len)
{
    Console.WriteLine($"gsIO().message:{message}, length:{len}");
}

private void gsDLL(String message)
{
    Console.WriteLine($"gsDLL().message:{message}");
}

private void gsPageRendered(int width,
                            int height,
                            int raster,
                            IntPtr data,
                            gsParamState_t state)
{

};

Note

Once a Ghostscript operation is in progress any defined callback functions will be called as the operation runs up unto completion. These callback methods are essential for your application to interpret activity events and react accordingly.

An explanation of callbacks and the available public methods within GSNET are explained below.

Delegates

To handle asynchronous events GhostNET has four delegates which define callback methods that an application can assign to.

Callback

Description

DLLProblemCallBack

Occurs if there is some issue with the Ghostscript DLL.

StdIOCallBack

Occurs if Ghostscript outputs something to stderr or stdout.

ProgressCallBack

Occurs as Ghostscript makes its way through a file.

PageRenderedCallBack

Occurs when a page has been rendered and the data from the display device is ready.

DLLProblemCallBack

internal delegate void DLLProblem(String mess);
internal event DLLProblem DLLProblemCallBack;

StdIOCallBack

internal delegate void StdIO(String mess,
                             int len);
internal event StdIO StdIOCallBack;

ProgressCallBack

internal delegate void Progress(gsEventArgs info);
internal event Progress ProgressCallBack;

PageRenderedCallBack

internal delegate void PageRendered(int width,
                                    int height,
                                    int raster,
                                 IntPtr data,
                         gsParamState_t state);
internal event PageRendered PageRenderedCallBack;

GetVersion

Use this method to get Ghostscript version info as a String.

public String GetVersion()

Sample code:

String gs_vers = m_ghostscript.GetVersion();

Note

An exception will be thrown if there is any issue with the Ghostscript DLL.

DisplayDeviceOpen

Sets up the display device ahead of time.

public gsParamState_t DisplayDeviceOpen()

Sample code:

m_ghostscript.DisplayDeviceOpen();

Note

Calling this method instantiates Ghostscript and configures the encoding and the callbacks for the display device.

DisplayDeviceClose

Closes the display device and deletes the instance.

public gsParamState_t DisplayDeviceClose()

Sample code:

m_ghostscript.DisplayDeviceClose();

Note

Calling this method deletes Ghostscript.

GetPageCount

Use this method to get the number of pages in a supplied document.

public int GetPageCount(String fileName)

Sample code:

int page_number = m_ghostscript.GetPageCount("my_document.pdf");

Note

If Ghostscript is unable to determine the page count then this method will return -1.

CreateXPS

Launches a thread to create an XPS document for Windows printing. This method is asynchronous and logic should be hooked into your application upon GSNET instantiation to interpret progress.

public gsStatus CreateXPS(String fileName,
                             int resolution,
                             int num_pages,
                          double width,
                          double height,
                            bool fit_page,
                             int firstpage,
                             int lastpage)

Sample code:

m_ghostscript.CreateXPS("my_document.pdf",
                        300,
                        10,
                        1000,
                        1000,
                        true,
                        0,
                        9);

DistillPS

Launches a thread rendering all the pages of a supplied PostScript file to a PDF.

public gsStatus DistillPS(String fileName, int resolution)

Sample code:

m_ghostscript.DistillPS("my_postscript_document.ps", 300);

DisplayDeviceRunFile

Launches a thread to run a file with the display device.

public gsStatus DisplayDeviceRunFile(String fileName,
                                     double zoom,
                                       bool aa, // anti-aliasing value
                                        int firstpage,
                                        int lastpage)

Sample code:

m_ghostscript.DisplayDeviceRunFile("my_document.pdf",
                                   1.0,
                                   true,
                                   0,
                                   9);

DisplayDeviceRenderThumbs

Launches a thread rendering all the pages with the display device to collect thumbnail images.

Recommended zoom level for thumbnails is between 0.05 and 0.2, additionally anti-aliasing is probably not required.

public gsStatus DisplayDeviceRenderThumbs(String fileName,
                                          double zoom,
                                            bool aa)

Sample code:

m_ghostscript.DisplayDeviceRenderThumbs("my_document.pdf",
                                        0.1,
                                        false);

DisplayDeviceRenderPages

Launches a thread rendering a set of pages with the display device. For use with languages that can be indexed via pages which include PDF and XPS. (see: Ghostscript & Page Description Languages)

public gsStatus DisplayDeviceRenderPages(String fileName,
                                            int first_page,
                                            int last_page,
                                         double zoom)

Sample code:

m_ghostscript.DisplayDeviceRenderPages("my_document.pdf",
                                       0,
                                       9,
                                       1.0);

GetStatus

Returns the current status of Ghostscript.

public gsStatus GetStatus()

Sample code:

gsStatus status = m_ghostscript.GetStatus();

Cancel

Cancels asynchronous operations.

public void Cancel()

Sample code:

m_ghostscript.Cancel();

GhostscriptException

An application developer can log any exceptions in this public class as required by editing the constructor.

public class GhostscriptException : Exception
{
    public GhostscriptException(string message) : base(message)
    {
        // Report exceptions as required
    }
}

GhostMono

GhostMono is the C# interface into the GhostAPI library and is developed for Linux systems.

As such GhostMono is the Mono equivalent of GhostNET with no dependency on a Windows environment.

Enums

Tasks

The Ghostscript task type enum is used to inform GhostAPI of the type of operation which is being requested.

Task

Description

PS_DISTILL

Task associated with converting a PostScript stream to a PDF document.

CREATE_XPS

Task associated with outputting a copy of a document to XPS.

SAVE_RESULT

Task associated with saving documents.

GET_PAGE_COUNT

Task associated with getting the page count of a document.

GENERIC

Generic task identifier.

DISPLAY_DEV_THUMBS

Display Device task associated with rendering thumbnails.

DISPLAY_DEV_NON_PDF

Display Device task associated with non-PDF or non-XPS rendering (see: Ghostscript & Page Description Languages).

DISPLAY_DEV_PDF

Display Device task associated with PDF & XPS rendering (see: Ghostscript & Page Description Languages).

DISPLAY_DEV_RUN_FILE

Display Device task associated with running files.

Task types are defined as GS_Task_t.

public enum GS_Task_t
{
    PS_DISTILL,
    CREATE_XPS,
    SAVE_RESULT,
    GET_PAGE_COUNT,
    GENERIC,
    DISPLAY_DEV_THUMBS,
    DISPLAY_DEV_NON_PDF,
    DISPLAY_DEV_PDF,
    DISPLAY_DEV_RUN_FILE
}

Results

Result types are defined as GS_Result_t.

public enum GS_Result_t
{
    gsOK,
    gsFAILED,
    gsCANCELLED
}

Status

Status types are defined as gsStatus.

public enum gsStatus
{
    GS_READY,
    GS_BUSY,
    GS_ERROR
}

The Parameter Struct

The parameter struct gsParamState_t allows for bundles of information to be processed by Ghostscript to complete overall requests.

public struct gsParamState_t
{
    public String outputfile;
    public String inputfile;
    public GS_Task_t task;
    public GS_Result_t result;
    public int num_pages;
    public List<int> pages;
    public int firstpage;
    public int lastpage;
    public int currpage;
    public List<String> args;
    public int return_code;
    public double zoom;
};

Parameters explained

Setting up your parameters (with any dedicated bespoke method(s) which your application requires) is needed when communicating directly with GhostAPI.

When requesting Ghostscript to process an operation an application developer should send a parameter payload which defines the details for the operation.

For example in GhostMono we can see the public method as follows:

public gsStatus DistillPS(String fileName, int resolution)
{
    gsParamState_t gsparams = new gsParamState_t();
    gsparams.args = new List<string>();

    gsparams.inputfile = fileName;
    gsparams.args.Add("gs");
    gsparams.args.Add("-dNOPAUSE");
    gsparams.args.Add("-dBATCH");
    gsparams.args.Add("-I%rom%Resource/Init/");
    gsparams.args.Add("-dSAFER");
    gsparams.args.Add("-sDEVICE=pdfwrite");
    gsparams.outputfile = Path.GetTempFileName();
    gsparams.args.Add("-o" + gsparams.outputfile);
    gsparams.task = GS_Task_t.PS_DISTILL;

    return RunGhostscriptAsync(gsparams);
}

Here we can see a parameter payload being setup before being passed on to the asynchronous method RunGhostscriptAsync which sets up a worker thread to run according to the task type in the payload.

GhostMono handles many common operations on an application developer’s behalf, however if you require to write your own methods to interface with GhostAPI then referring to the public methods in GhostMono is a good starting point.

For full documentation on parameters refer to Ghostscript parameters in C.

The Event class

GhostMono contains a public class gsThreadCallBack. This class is used to set and get callback information as they occur. GhostMono will create these payloads and deliver them back to the application layer’s ProgressCallBack method asynchronously.

public class gsThreadCallBack
{
    private bool m_completed;
    private int m_progress;
    private gsParamState_t m_param;
    public bool Completed
    {
        get { return m_completed; }
    }
    public gsParamState_t Params
    {
        get { return m_param; }
    }
    public int Progress
    {
        get { return m_progress; }
    }
    public gsThreadCallBack(bool completed, int progress, gsParamState_t param)
    {
        m_completed = completed;
        m_progress = progress;
        m_param = param;
    }
}

GSMONO

This class should be instantiated as a member variable in your application with callback definitions setup as required.

Handlers for asynchronous operations can injected by providing your own bespoke callback methods to your instance’s ProgressCallBack function.

/* Set up Ghostscript with callbacks for system updates */
m_ghostscript = new GSMONO();
m_ghostscript.ProgressCallBack += new GSMONO.Progress(gsProgress);
m_ghostscript.StdIOCallBack += new GSMONO.StdIO(gsIO);
m_ghostscript.DLLProblemCallBack += new GSMONO.DLLProblem(gsDLL);
m_ghostscript.PageRenderedCallBack += new GSMONO.PageRendered(gsPageRendered);
m_ghostscript.DisplayDeviceOpen();

/* example callback stubs for asynchronous operations */
private void gsProgress(gsThreadCallBack asyncInformation)
{
    Console.WriteLine($"gsProgress().progress:{asyncInformation.Progress}");

    if (asyncInformation.Completed) // task complete
    {
        // what was the task?
        switch (asyncInformation.Params.task)
        {
            case GS_Task_t.CREATE_XPS:
                Console.WriteLine($"CREATE_XPS.outputfile:");
                Console.WriteLine($"{asyncInformation.Params.result.outputfile}");
                break;

            case GS_Task_t.PS_DISTILL:
                Console.WriteLine($"PS_DISTILL.outputfile:");
                Console.WriteLine($"{asyncInformation.Params.result.outputfile}");
                break;

            case GS_Task_t.SAVE_RESULT:

                break;

            case GS_Task_t.DISPLAY_DEV_THUMBS:

                break;

            case GS_Task_t.DISPLAY_DEV_RUN_FILE:

                break;

            case GS_Task_t.DISPLAY_DEV_PDF:

                break;

            case GS_Task_t.DISPLAY_DEV_NON_PDF:

                break;

            default:

                break;
        }

        // task failed
        if (asyncInformation.Params.result == GS_Result_t.gsFAILED)
        {
            switch (asyncInformation.Params.task)
            {
                case GS_Task_t.CREATE_XPS:

                    break;

                case GS_Task_t.PS_DISTILL:

                    break;

                case GS_Task_t.SAVE_RESULT:

                    break;

                default:

                    break;
            }
            return;
        }

        // task cancelled
        if (asyncInformation.Params.result == GS_Result_t.gsCANCELLED)
        {

        }
    }
    else // task is still running
    {
        switch (asyncInformation.Params.task)
        {
            case GS_Task_t.CREATE_XPS:

                break;

            case GS_Task_t.PS_DISTILL:

                break;

            case GS_Task_t.SAVE_RESULT:

                break;
        }
    }
}

private void gsIO(String message, int len)
{
    Console.WriteLine($"gsIO().message:{message}, length:{len}");
}

private void gsDLL(String message)
{
    Console.WriteLine($"gsDLL().message:{message}");
}

private void gsPageRendered(int width,
                            int height,
                            int raster,
                            IntPtr data,
                            gsParamState_t state)
{

};

Note

Once a Ghostscript operation is in progress any defined callback functions will be called as the operation runs up unto completion. These callback methods are essential for your application to interpret activity events and react accordingly.

An explanation of callbacks and the available public methods within GSMONO are explained below.

Delegates

To handle asynchronous events GhostMONO has four delegates which define callback methods that an application can assign to.

Callback

Description

DLLProblemCallBack

Occurs if there is some issue with the Ghostscript Shared Object (libgpdl.so)

StdIOCallBack

Occurs if Ghostscript outputs something to stderr or stdout.

ProgressCallBack

Occurs as Ghostscript makes its way through a file.

PageRenderedCallBack

Occurs when a page has been rendered and the data from the display device is ready.

DLLProblemCallBack

internal delegate void DLLProblem(String mess);
internal event DLLProblem DLLProblemCallBack;

StdIOCallBack

internal delegate void StdIO(String mess,
                             int len);
internal event StdIO StdIOCallBack;

ProgressCallBack

internal delegate void Progress(gsEventArgs info);
internal event Progress ProgressCallBack;

PageRenderedCallBack

internal delegate void PageRendered(int width,
                                    int height,
                                    int raster,
                                 IntPtr data,
                         gsParamState_t state);
internal event PageRendered PageRenderedCallBack;

GetVersion

Use this method to get Ghostscript version info as a String.

public String GetVersion()

Sample code:

String gs_vers = m_ghostscript.GetVersion();

Note

An exception will be thrown if there is any issue with the Ghostscript DLL.

DisplayDeviceOpen

Sets up the display device ahead of time.

public gsParamState_t DisplayDeviceOpen()

Sample code:

m_ghostscript.DisplayDeviceOpen();

Note

Calling this method instantiates Ghostscript and configures the encoding and the callbacks for the display device.

DisplayDeviceClose

Closes the display device and deletes the instance.

public gsParamState_t DisplayDeviceClose()

Sample code:

m_ghostscript.DisplayDeviceClose();

Note

Calling this method deletes Ghostscript.

GetPageCount

Use this method to get the number of pages in a supplied document.

public int GetPageCount(String fileName)

Sample code:

int page_number = m_ghostscript.GetPageCount("my_document.pdf");

Note

If Ghostscript is unable to determine the page count then this method will return -1.

DistillPS

Launches a thread rendering all the pages of a supplied PostScript file to a PDF.

public gsStatus DistillPS(String fileName, int resolution)

Sample code:

m_ghostscript.DistillPS("my_postscript_document.ps", 300);

DisplayDeviceRenderAll

Launches a thread rendering all the document pages with the display device. For use with languages that can be indexed via pages which include PDF and XPS. (see: Ghostscript & Page Description Languages)

public gsStatus DisplayDeviceRenderAll(String fileName, double zoom, bool aa, GS_Task_t task)

Sample code:

m_ghostscript.DisplayDeviceRenderAll("my_document.pdf",
                                     0.1,
                                     false,
                                     GS_Task_t.DISPLAY_DEV_THUMBS_NON_PDF);

DisplayDeviceRenderThumbs

Launches a thread rendering all the pages with the display device to collect thumbnail images.

Recommended zoom level for thumbnails is between 0.05 and 0.2, additionally anti-aliasing is probably not required.

public gsStatus DisplayDeviceRenderThumbs(String fileName,
                                          double zoom,
                                            bool aa)

Sample code:

m_ghostscript.DisplayDeviceRenderThumbs("my_document.pdf",
                                        0.1,
                                        false);

DisplayDeviceRenderPages

Launches a thread rendering a set of pages with the display device. For use with languages that can be indexed via pages which include PDF and XPS. (see: Ghostscript & Page Description Languages)

public gsStatus DisplayDeviceRenderPages(String fileName,
                                            int first_page,
                                            int last_page,
                                         double zoom)

Sample code:

m_ghostscript.DisplayDeviceRenderPages("my_document.pdf",
                                       0,
                                       9,
                                       1.0);

GetStatus

Returns the current status of Ghostscript.

public gsStatus GetStatus()

Sample code:

gsStatus status = m_ghostscript.GetStatus();

GhostscriptException

An application developer can log any exceptions in this public class as required by editing the constructor.

public class GhostscriptException : Exception
{
    public GhostscriptException(string message) : base(message)
    {
        // Report exceptions as required
    }
}

Note

Ghostscript & Page Description Languages

Ghostscript handles the following PDLs: PCL PDF PS XPS.

PCL and PS do not allow random access, meaning that, to print page 2 in a 100 page document, Ghostscript has to read the entire document stream of 100 pages.

On the other hand, PDF and XPS allow for going directly to page 2 and then only dealing with that content. The tasks DISPLAY_DEV_NON_PDF and DISPLAY_DEV_PDF keep track of what sort of input Ghostscript is dealing with and enables the application to direct progress or completion callbacks accordingly.