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/*
 * The contents of this file is dual-licensed under 2 
 * alternative Open Source/Free licenses: LGPL 2.1 or later and 
 * Apache License 2.0. (starting with JNA version 4.0.0).
 * 
 * You can freely decide which license you want to apply to 
 * the project.
 * 
 * You may obtain a copy of the LGPL License at:
 * 
 * http://www.gnu.org/licenses/licenses.html
 * 
 * A copy is also included in the downloadable source code package
 * containing JNA, in file "LGPL2.1".
 * 
 * You may obtain a copy of the Apache License at:
 * 
 * http://www.apache.org/licenses/
 * 
 * A copy is also included in the downloadable source code package
 * containing JNA, in file "AL2.0".
 */
package com.sun.jna.platform.win32;

import java.util.List;

import com.sun.jna.IntegerType;
import com.sun.jna.Memory;
import com.sun.jna.NativeLong;
import com.sun.jna.Pointer;
import com.sun.jna.Structure;
import com.sun.jna.Structure.FieldOrder;
import com.sun.jna.Union;
import com.sun.jna.platform.win32.BaseTSD.ULONG_PTR;
import com.sun.jna.platform.win32.COM.COMUtils;
import com.sun.jna.platform.win32.COM.Dispatch;
import com.sun.jna.platform.win32.Guid.GUID;
import com.sun.jna.platform.win32.Variant.VARIANT;
import com.sun.jna.platform.win32.Variant.VariantArg;
import com.sun.jna.platform.win32.WTypes.BSTR;
import com.sun.jna.platform.win32.WTypes.LPOLESTR;
import com.sun.jna.platform.win32.WTypes.VARTYPE;
import com.sun.jna.platform.win32.WinDef.BYTE;
import com.sun.jna.platform.win32.WinDef.DWORD;
import com.sun.jna.platform.win32.WinDef.DWORDByReference;
import com.sun.jna.platform.win32.WinDef.LCID;
import com.sun.jna.platform.win32.WinDef.LONG;
import com.sun.jna.platform.win32.WinDef.LONGLONG;
import com.sun.jna.platform.win32.WinDef.PVOID;
import com.sun.jna.platform.win32.WinDef.SCODE;
import com.sun.jna.platform.win32.WinDef.SHORT;
import com.sun.jna.platform.win32.WinDef.ULONG;
import com.sun.jna.platform.win32.WinDef.ULONGLONG;
import com.sun.jna.platform.win32.WinDef.USHORT;
import com.sun.jna.platform.win32.WinDef.WORD;
import com.sun.jna.platform.win32.COM.TypeComp;
import com.sun.jna.platform.win32.COM.Unknown;
import static com.sun.jna.platform.win32.Variant.VT_BOOL;
import static com.sun.jna.platform.win32.Variant.VT_BSTR;
import static com.sun.jna.platform.win32.Variant.VT_CY;
import static com.sun.jna.platform.win32.Variant.VT_DATE;
import static com.sun.jna.platform.win32.Variant.VT_DECIMAL;
import static com.sun.jna.platform.win32.Variant.VT_DISPATCH;
import static com.sun.jna.platform.win32.Variant.VT_ERROR;
import static com.sun.jna.platform.win32.Variant.VT_I1;
import static com.sun.jna.platform.win32.Variant.VT_I2;
import static com.sun.jna.platform.win32.Variant.VT_I4;
import static com.sun.jna.platform.win32.Variant.VT_INT;
import static com.sun.jna.platform.win32.Variant.VT_R4;
import static com.sun.jna.platform.win32.Variant.VT_R8;
import static com.sun.jna.platform.win32.Variant.VT_RECORD;
import static com.sun.jna.platform.win32.Variant.VT_UI1;
import static com.sun.jna.platform.win32.Variant.VT_UI2;
import static com.sun.jna.platform.win32.Variant.VT_UI4;
import static com.sun.jna.platform.win32.Variant.VT_UINT;
import static com.sun.jna.platform.win32.Variant.VT_UNKNOWN;
import static com.sun.jna.platform.win32.Variant.VT_VARIANT;
import com.sun.jna.ptr.ByReference;
import com.sun.jna.ptr.PointerByReference;
import java.io.Closeable;
import java.util.Date;

/**
 * The Interface OaIdl.
 */
public interface OaIdl {
    
    // The DATE Type is defined in localtime and the java Date type always contains
    // a a timezone offset, so the difference has to be calculated and can't be
    // predetermined
    public static final long DATE_OFFSET = new Date(1899 - 1900, 12 - 1, 30, 0, 0, 0).getTime();
    
    /**
     * The Class EXCEPINFO.
     */
    @FieldOrder({"wCode", "wReserved", "bstrSource", "bstrDescription",
        "bstrHelpFile", "dwHelpContext", "pvReserved", "pfnDeferredFillIn",
        "scode"})
    public static class EXCEPINFO extends Structure {

        /**
         * The Class ByReference.
         */
        public static class ByReference extends EXCEPINFO implements
                Structure.ByReference {
        }

        /** The w code. */
        public WORD wCode;

        /** The w reserved. */
        public WORD wReserved;

        /** The bstr source. */
        public BSTR bstrSource;

        /** The bstr description. */
        public BSTR bstrDescription;

        /** The bstr help file. */
        public BSTR bstrHelpFile;

        /** The dw help context. */
        public DWORD dwHelpContext;

        /** The pv reserved. */
        public PVOID pvReserved;

        /** The pfn deferred fill in. */
        public EXCEPINFO.ByReference pfnDeferredFillIn;

        /** The scode. */
        public SCODE scode;

        /**
         * Instantiates a new excepinfo.
         */
        public EXCEPINFO() {
            super();
        }

        /**
         * Instantiates a new excepinfo.
         *
         * @param p
         *            the p
         */
        public EXCEPINFO(Pointer p) {
            super(p);
        }
    }

    public static class VARIANT_BOOL extends IntegerType {
        private static final long serialVersionUID = 1L;
        public static final int SIZE = 2;

        public VARIANT_BOOL() {
            this(0);
        }

        public VARIANT_BOOL(long value) {
            super(2, value);
        }
        
        public VARIANT_BOOL(boolean value) {
            this(value ? 0xFFFF : 0x0000);
        }
        
        public boolean booleanValue() {
            return shortValue() != 0x0000;
        }
    }

    public static class _VARIANT_BOOL extends VARIANT_BOOL {
        private static final long serialVersionUID = 1L;

        public _VARIANT_BOOL() {
            this(0);
        }

        public _VARIANT_BOOL(long value) {
            super(value);
        }
    }

    public static class VARIANT_BOOLByReference extends ByReference {
        public VARIANT_BOOLByReference() {
            this(new VARIANT_BOOL(0));
        }

        public VARIANT_BOOLByReference(VARIANT_BOOL value) {
            super(VARIANT_BOOL.SIZE);
            setValue(value);
        }

        public void setValue(VARIANT_BOOL value) {
            getPointer().setShort(0, value.shortValue());
        }

        public VARIANT_BOOL getValue() {
            return new VARIANT_BOOL(getPointer().getShort(0));
        }
    }

    public static class _VARIANT_BOOLByReference extends ByReference {
        public _VARIANT_BOOLByReference() {
            this(new VARIANT_BOOL(0));
        }

        public _VARIANT_BOOLByReference(VARIANT_BOOL value) {
            super(VARIANT_BOOL.SIZE);
            setValue(value);
        }

        public void setValue(VARIANT_BOOL value) {
            getPointer().setShort(0, value.shortValue());
        }

        public VARIANT_BOOL getValue() {
            return new VARIANT_BOOL(getPointer().getShort(0));
        }
    }

    @FieldOrder({"date"})
    public static class DATE extends Structure {
        private final static long MICRO_SECONDS_PER_DAY = 24L * 60L * 60L * 1000L;

        public static class ByReference extends DATE implements
                Structure.ByReference {
        }

        public double date;

        public DATE() {
            super();
        }

        public DATE(double date) {
            this.date = date;
        }

        public DATE(Date javaDate) {
            setFromJavaDate(javaDate);
        }

        public Date getAsJavaDate() {
            long days = (((long) this.date) * MICRO_SECONDS_PER_DAY) + DATE_OFFSET;
            double timePart = 24 * Math.abs(this.date - ((long) this.date));
            int hours = (int) timePart;
            timePart = 60 * (timePart - ((int) timePart));
            int minutes = (int) timePart;
            timePart = 60 * (timePart - ((int) timePart));
            int seconds = (int) timePart;
            timePart = 1000 * (timePart - ((int) timePart));
            int milliseconds = (int) timePart;

            Date baseDate = new Date(days);
            baseDate.setHours(hours);
            baseDate.setMinutes(minutes);
            baseDate.setSeconds(seconds);
            baseDate.setTime(baseDate.getTime() + milliseconds);
            return baseDate;
        }

        public void setFromJavaDate(Date javaDate) {
            double msSinceOrigin = javaDate.getTime() - DATE_OFFSET;
            double daysAsFract = msSinceOrigin / MICRO_SECONDS_PER_DAY;

            Date dayDate = new Date(javaDate.getTime());
            dayDate.setHours(0);
            dayDate.setMinutes(0);
            dayDate.setSeconds(0);
            dayDate.setTime(dayDate.getTime() / 1000 * 1000); // Clear milliseconds

            double integralPart = Math.floor(daysAsFract);
            double fractionalPart = Math.signum(daysAsFract) * ((javaDate.getTime() - dayDate.getTime()) / (24d * 60 * 60 * 1000));

            this.date = integralPart + fractionalPart;
        }
    }

    /**
     * The Class DISPID.
     */
    public static class DISPID extends LONG {
        private static final long serialVersionUID = 1L;

        public DISPID() {
            this(0);
        }

        public DISPID(int value) {
            super(value);
        }
    }

    public static class DISPIDByReference extends ByReference {
        public DISPIDByReference() {
            this(new DISPID(0));
        }

        public DISPIDByReference(DISPID value) {
            super(DISPID.SIZE);
            setValue(value);
        }

        public void setValue(DISPID value) {
            getPointer().setInt(0, value.intValue());
        }

        public DISPID getValue() {
            return new DISPID(getPointer().getInt(0));
        }
    }

    public static class MEMBERID extends DISPID {
        private static final long serialVersionUID = 1L;

        public MEMBERID() {
            this(0);
        }

        public MEMBERID(int value) {
            super(value);
        }
    }

    public static class MEMBERIDByReference extends ByReference {
        public MEMBERIDByReference() {
            this(new MEMBERID(0));
        }

        public MEMBERIDByReference(MEMBERID value) {
            super(MEMBERID.SIZE);
            setValue(value);
        }

        public void setValue(MEMBERID value) {
            getPointer().setInt(0, value.intValue());
        }

        public MEMBERID getValue() {
            return new MEMBERID(getPointer().getInt(0));
        }
    }

    // The Collect property. You use this property if the method you are calling
    // through Invoke is an accessor function.
    /** The Constant DISPID_COLLECT. */
    public final static DISPID DISPID_COLLECT = new DISPID(-8);

    // The C++ constructor function for the object.
    /** The Constant DISPID_CONSTRUCTOR. */
    public final static DISPID DISPID_CONSTRUCTOR = new DISPID(-6);

    // The C++ destructor function for the object.
    /** The Constant DISPID_DESTRUCTOR. */
    public final static DISPID DISPID_DESTRUCTOR = new DISPID(-7);

    // The Evaluate method. This method is implicitly invoked when the ActiveX
    // client encloses the arguments in square brackets. For example, the
    // following two lines are equivalent:
    /** The Constant DISPID_EVALUATE. */
    public final static DISPID DISPID_EVALUATE = new DISPID(-5);

    // The _NewEnum property. This special, restricted property is required for
    // collection objects. It returns an enumerator object that supports
    // IEnumVARIANT, and should have the restricted attribute specified.
    /** The Constant DISPID_NEWENUM. */
    public final static DISPID DISPID_NEWENUM = new DISPID(-4);

    // The parameter that receives the value of an assignment in a PROPERTYPUT.
    /** The Constant DISPID_PROPERTYPUT. */
    public final static DISPID DISPID_PROPERTYPUT = new DISPID(-3);

    // The value returned by IDispatch::GetIDsOfNames to indicate that a member
    // or parameter name was not found.
    /** The Constant DISPID_UNKNOWN. */
    public final static DISPID DISPID_UNKNOWN = new DISPID(-1);

    // The default member for the object. This property or method is invoked
    // when an ActiveX client specifies the object name without a property or
    // method.
    /** The Constant DISPID_VALUE. */
    public final static DISPID DISPID_VALUE = new DISPID(0);

    public final static MEMBERID MEMBERID_NIL = new MEMBERID(
            DISPID_UNKNOWN.intValue());

    /** An array that is allocated on the stack. */
    public final static int FADF_AUTO = 0x0001;

    /** An array that is statically allocated. */
    public final static int FADF_STATIC = 0x0002;

    /** An array that is embedded in a structure. */
    public final static int FADF_EMBEDDED = 0x0004;

    /** An array that may not be resized or reallocated. */
    public final static int FADF_FIXEDSIZE = 0x0010;

    /**
     * An array that contains records. When set, there will be a pointer to the
     * IRecordInfo interface at negative offset 4 in the array descriptor.
     */
    public final static int FADF_RECORD = 0x0020;

    /**
     * An array that has an IID identifying interface. When set, there will be a
     * GUID at negative offset 16 in the safe array descriptor. Flag is set only
     * when FADF_DISPATCH or FADF_UNKNOWN is also set.
     */
    public final static int FADF_HAVEIID = 0x0040;

    /**
     * An array that has a variant type. The variant type can be retrieved with
     * SafeArrayGetVartype.
     */
    public final static int FADF_HAVEVARTYPE = 0x0080;

    /** An array of BSTRs. */
    public final static int FADF_BSTR = 0x0100;

    /** An array of IUnknown*. */
    public final static int FADF_UNKNOWN = 0x0200;

    /** An array of IDispatch*. */
    public final static int FADF_DISPATCH = 0x0400;

    /** An array of VARIANTs. */
    public final static int FADF_VARIANT = 0x0800;

    /** Bits reserved for future use. */
    public final static int FADF_RESERVED = 0xF008;

    @FieldOrder({"value"})
    public static class TYPEKIND extends Structure {
        public static class ByReference extends TYPEKIND implements
                Structure.ByReference {
            public ByReference() {

            }

            public ByReference(int value) {
                super(value);
            }

            public ByReference(TYPEKIND typekind) {
                super(typekind.getPointer());
                value = typekind.value;
            }
        }

        public int value;

        public TYPEKIND() {
            super();
        }

        public TYPEKIND(int value) {
            this.value = value;
        }

        public TYPEKIND(Pointer pointer) {
            super(pointer);
            this.read();
        }

        // / native declaration : line 4
        public static final int TKIND_ENUM = 0;
        // / native declaration : line 5
        public static final int TKIND_RECORD = TYPEKIND.TKIND_ENUM + 1;
        // / native declaration : line 6
        public static final int TKIND_MODULE = TYPEKIND.TKIND_RECORD + 1;
        // / native declaration : line 7
        public static final int TKIND_INTERFACE = TYPEKIND.TKIND_MODULE + 1;
        // / native declaration : line 8
        public static final int TKIND_DISPATCH = TYPEKIND.TKIND_INTERFACE + 1;
        // / native declaration : line 9
        public static final int TKIND_COCLASS = TYPEKIND.TKIND_DISPATCH + 1;
        // / native declaration : line 10
        public static final int TKIND_ALIAS = TYPEKIND.TKIND_COCLASS + 1;
        // / native declaration : line 11
        public static final int TKIND_UNION = TYPEKIND.TKIND_ALIAS + 1;
        // / native declaration : line 12
        public static final int TKIND_MAX = TYPEKIND.TKIND_UNION + 1;
    }

    @FieldOrder({"value"})
    public static class DESCKIND extends Structure {
        public static class ByReference extends DESCKIND implements
                Structure.ByReference {
        }

        public int value;

        public DESCKIND() {
            super();
        }

        public DESCKIND(int value) {
            this.value = value;
        }

        public DESCKIND(Pointer pointer) {
            super(pointer);
            this.read();
        }

        // / native declaration : line 4
        public static final int DESCKIND_NONE = 0;
        // / native declaration : line 5
        public static final int DESCKIND_FUNCDESC = DESCKIND.DESCKIND_NONE + 1;
        // / native declaration : line 6
        public static final int DESCKIND_VARDESC = DESCKIND.DESCKIND_FUNCDESC + 1;
        // / native declaration : line 7
        public static final int DESCKIND_TYPECOMP = DESCKIND.DESCKIND_VARDESC + 1;
        // / native declaration : line 8
        public static final int DESCKIND_IMPLICITAPPOBJ = DESCKIND.DESCKIND_TYPECOMP + 1;
        // / native declaration : line 9
        public static final int DESCKIND_MAX = DESCKIND.DESCKIND_IMPLICITAPPOBJ + 1;
    }

    /**
     * Implementation of SAFEARRAY. Implements Closable, which in this case 
     * delegates to destroy, to free native memory on close.
     * 
     * 

VARTYPE for the SAFEARRAY can be:

* *
    *
  • VT_BOOL
  • *
  • VT_BSTR
  • *
  • VT_CY
  • *
  • VT_DATE
  • *
  • VT_DECIMAL
  • *
  • VT_DISPATCH
  • *
  • VT_ERROR
  • *
  • VT_I1
  • *
  • VT_I2
  • *
  • VT_I4
  • *
  • VT_INT
  • *
  • VT_R4
  • *
  • VT_R8
  • *
  • VT_RECORD
  • *
  • VT_UI1
  • *
  • VT_UI2
  • *
  • VT_UI4
  • *
  • VT_UINT
  • *
  • VT_UNKNOWN
  • *
  • VT_VARIANT
  • *
* *

General comment: All indices in the helper methods use java int.

* *

The native type for the indices is LONG, which is defined as:

* *
A 32-bit signed integer. The range is �2147483648 through 2147483647 decimal.
*/ @FieldOrder({"cDims", "fFeatures", "cbElements", "cLocks", "pvData", "rgsabound"}) public static class SAFEARRAY extends Structure implements Closeable { public static class ByReference extends SAFEARRAY implements Structure.ByReference { } public USHORT cDims; public USHORT fFeatures; public ULONG cbElements; public ULONG cLocks; public PVOID pvData; /** The rgsabound. */ public SAFEARRAYBOUND[] rgsabound = { new SAFEARRAYBOUND() }; public SAFEARRAY() { super(); } public SAFEARRAY(Pointer pointer) { super(pointer); this.read(); } @Override public void read() { super.read(); if(cDims.intValue() > 0) { rgsabound = (SAFEARRAYBOUND[]) rgsabound[0].toArray(cDims.intValue()); } else { rgsabound = new SAFEARRAYBOUND[]{ new SAFEARRAYBOUND() }; } } /** * Create a SAFEARRAY with supplied VARIANT as element type. * *

* This helper creates a basic SAFEARRAY with a base type of VT_VARIANT. * The array will have as many dimensions as parameters are passed in. * The lowerbound for each dimension is set to zero, the count to the * parameter value.

* * @param size array of dimension size * @return SAFEARRAYWrapper or {@code NULL} if creation fails. */ public static SAFEARRAY.ByReference createSafeArray(int... size) { return createSafeArray(new WTypes.VARTYPE(Variant.VT_VARIANT), size); } /** * Create a SAFEARRAY with supplied element type. * *

* The array will have as many dimensions as parameters are passed in. * The lowerbound for each dimension is set to zero, the count to the * parameter value.

* * @param vartype type of array contents (see Variant.VT_* constants) * @param size array of dimension size * @return SAFEARRAYWrapper or {@code NULL} if creation fails. */ public static SAFEARRAY.ByReference createSafeArray(VARTYPE vartype, int... size) { OaIdl.SAFEARRAYBOUND[] rgsabound = (OaIdl.SAFEARRAYBOUND[]) new OaIdl.SAFEARRAYBOUND().toArray(size.length); for (int i = 0; i < size.length; i++) { rgsabound[i].lLbound = new WinDef.LONG(0); rgsabound[i].cElements = new WinDef.ULONG(size[size.length - i - 1]); } SAFEARRAY.ByReference data = OleAuto.INSTANCE.SafeArrayCreate(vartype, new WinDef.UINT(size.length), rgsabound); return data; } /** * Set value at {@code indices} in {@code array} to arg. * *

* The supplied argument is copied into the array. If the value is no * longer needed, it needs to be freed if not handled automatically.

* * @param indices the index, order follows java/C convention * @param arg the arg */ public void putElement(Object arg, int... indices) { WinDef.LONG[] paramIndices = new WinDef.LONG[indices.length]; for (int i = 0; i < indices.length; i++) { paramIndices[i] = new WinDef.LONG(indices[indices.length - i - 1]); } WinNT.HRESULT hr; Memory mem; switch (getVarType().intValue()) { case VT_BOOL: mem = new Memory(2); if(arg instanceof Boolean) { mem.setShort(0, (short) (((Boolean) arg) ? 0xFFFF : 0) ); } else { mem.setShort(0, (short) (((Number) arg).intValue() > 0 ? 0xFFFF : 0)); } hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, mem); COMUtils.checkRC(hr); break; case VT_UI1: case VT_I1: mem = new Memory(1); mem.setByte(0, ((Number) arg).byteValue()); hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, mem); COMUtils.checkRC(hr); break; case VT_UI2: case VT_I2: mem = new Memory(2); mem.setShort(0, ((Number) arg).shortValue()); hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, mem); COMUtils.checkRC(hr); break; case VT_UI4: case VT_UINT: case VT_I4: case VT_INT: mem = new Memory(4); mem.setInt(0, ((Number) arg).intValue()); hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, mem); COMUtils.checkRC(hr); break; case VT_ERROR: mem = new Memory(4); mem.setInt(0, ((Number) arg).intValue()); hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, mem); COMUtils.checkRC(hr); break; case VT_R4: mem = new Memory(4); mem.setFloat(0, ((Number) arg).floatValue()); hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, mem); COMUtils.checkRC(hr); break; case VT_R8: mem = new Memory(8); mem.setDouble(0, ((Number) arg).doubleValue()); hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, mem); COMUtils.checkRC(hr); break; case VT_DATE: mem = new Memory(8); mem.setDouble(0, ((DATE) arg).date); hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, mem); COMUtils.checkRC(hr); break; case VT_BSTR: if(arg instanceof String) { BSTR bstr = OleAuto.INSTANCE.SysAllocString((String) arg); hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, bstr.getPointer()); OleAuto.INSTANCE.SysFreeString(bstr); COMUtils.checkRC(hr); } else { hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, ((BSTR) arg).getPointer()); COMUtils.checkRC(hr); } break; case VT_VARIANT: hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, ((VARIANT) arg).getPointer()); COMUtils.checkRC(hr); break; case VT_UNKNOWN: hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, ((Unknown) arg).getPointer()); COMUtils.checkRC(hr); break; case VT_DISPATCH: hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, ((Dispatch) arg).getPointer()); COMUtils.checkRC(hr); break; case VT_CY: hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, ((CURRENCY) arg).getPointer()); COMUtils.checkRC(hr); break; case VT_DECIMAL: hr = OleAuto.INSTANCE.SafeArrayPutElement(this, paramIndices, ((DECIMAL) arg).getPointer()); COMUtils.checkRC(hr); break; case VT_RECORD: default: throw new IllegalStateException("Can't parse array content - type not supported: " + getVarType().intValue()); } } /** * Retrieve the value at the referenced index from the SAFEARRAY. * *

The function creates a copy of the value. The values are * allocated with native functions and need to be freed accordingly.

* * @param indices the index, order follows java/C convention * @return the variant */ public Object getElement(int... indices) { WinDef.LONG[] paramIndices = new WinDef.LONG[indices.length]; for (int i = 0; i < indices.length; i++) { paramIndices[i] = new WinDef.LONG(indices[indices.length - i - 1]); } Object result; WinNT.HRESULT hr; Memory mem; PointerByReference pbr; switch (getVarType().intValue()) { case VT_BOOL: mem = new Memory(2); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, mem); COMUtils.checkRC(hr); result = mem.getShort(0) != 0; break; case VT_UI1: case VT_I1: mem = new Memory(1); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, mem); COMUtils.checkRC(hr); result = mem.getByte(0); break; case VT_UI2: case VT_I2: mem = new Memory(2); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, mem); COMUtils.checkRC(hr); result = mem.getShort(0); break; case VT_UI4: case VT_UINT: case VT_I4: case VT_INT: mem = new Memory(4); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, mem); COMUtils.checkRC(hr); result = mem.getInt(0); break; case VT_ERROR: mem = new Memory(4); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, mem); COMUtils.checkRC(hr); result = new SCODE(mem.getInt(0)); break; case VT_R4: mem = new Memory(4); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, mem); COMUtils.checkRC(hr); result = mem.getFloat(0); break; case VT_R8: mem = new Memory(8); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, mem); COMUtils.checkRC(hr); result = mem.getDouble(0); break; case VT_DATE: mem = new Memory(8); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, mem); COMUtils.checkRC(hr); result = new DATE(mem.getDouble(0)); break; case VT_BSTR: pbr = new PointerByReference(); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, pbr.getPointer()); COMUtils.checkRC(hr); BSTR bstr = new BSTR(pbr.getValue()); result = bstr.getValue(); OleAuto.INSTANCE.SysFreeString(bstr); break; case VT_VARIANT: VARIANT holder = new Variant.VARIANT(); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, holder.getPointer()); COMUtils.checkRC(hr); result = holder; break; case VT_UNKNOWN: pbr = new PointerByReference(); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, pbr.getPointer()); COMUtils.checkRC(hr); result = new Unknown(pbr.getValue()); break; case VT_DISPATCH: pbr = new PointerByReference(); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, pbr.getPointer()); COMUtils.checkRC(hr); result = new Dispatch(pbr.getValue()); break; case VT_CY: CURRENCY currency = new CURRENCY(); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, currency.getPointer()); COMUtils.checkRC(hr); result = currency; break; case VT_DECIMAL: DECIMAL decimal = new DECIMAL(); hr = OleAuto.INSTANCE.SafeArrayGetElement(this, paramIndices, decimal.getPointer()); COMUtils.checkRC(hr); result = decimal; break; case VT_RECORD: default: throw new IllegalStateException("Can't parse array content - type not supported: " + getVarType().intValue()); } return result; } /** * Retrieve pointer to data element from array. * *

* Caller is responsible for (un)locking the array via * {@link OleAuto#SafeArrayLock} and {@link OleAuto#SafeArrayUnlock} or * the helper methods: {@link SAFEARRAY#lock} and * {@link SAFEARRAY#unlock}.

* * @param indices the index, order follows java/C convention * @return the pointer to the data element */ public Pointer ptrOfIndex(int... indices) { WinDef.LONG[] paramIndices = new WinDef.LONG[indices.length]; for (int i = 0; i < indices.length; i++) { paramIndices[i] = new WinDef.LONG(indices[indices.length - i - 1]); } PointerByReference pbr = new PointerByReference(); WinNT.HRESULT hr = OleAuto.INSTANCE.SafeArrayPtrOfIndex(this, paramIndices, pbr); COMUtils.checkRC(hr); return pbr.getValue(); } /** * Destroy the underlying SAFEARRAY and free memory */ public void destroy() { WinNT.HRESULT res = OleAuto.INSTANCE.SafeArrayDestroy(this); COMUtils.checkRC(res); } /** * Implemented to satisfy Closeable interface, delegates to destroy. */ public void close() { destroy(); } /** * Retrieve lower bound for the selected dimension. * *

As in the all the accessor functions, that index is converted to * java conventions.

* * @param dimension zerobased index * @return lower bound for the selected dimension */ public int getLBound(int dimension) { int targetDimension = getDimensionCount() - dimension; WinDef.LONGByReference bound = new WinDef.LONGByReference(); WinNT.HRESULT res = OleAuto.INSTANCE.SafeArrayGetLBound(this, new WinDef.UINT(targetDimension), bound); COMUtils.checkRC(res); return bound.getValue().intValue(); } /** * Retrieve upper bound for the selected dimension. * *

As in the all the accessor functions, that index is converted to * java conventions.

* * @param dimension zerobased index * @return upper bound for the selected dimension */ public int getUBound(int dimension) { int targetDimension = getDimensionCount() - dimension; WinDef.LONGByReference bound = new WinDef.LONGByReference(); WinNT.HRESULT res = OleAuto.INSTANCE.SafeArrayGetUBound(this, new WinDef.UINT(targetDimension), bound); COMUtils.checkRC(res); return bound.getValue().intValue(); } /** * Return number of dimensions of the SAFEARRAY * * @return number of dimensions of the SAFEARRAY */ public int getDimensionCount() { return OleAuto.INSTANCE.SafeArrayGetDim(this).intValue(); } /** * Lock array and retrieve pointer to data * * @return Pointer to arraydata */ public Pointer accessData() { PointerByReference pbr = new PointerByReference(); WinNT.HRESULT hr = OleAuto.INSTANCE.SafeArrayAccessData(this, pbr); COMUtils.checkRC(hr); return pbr.getValue(); } /** * Unlock array and invalidate the pointer retrieved via * SafeArrayAccessData */ public void unaccessData() { WinNT.HRESULT hr = OleAuto.INSTANCE.SafeArrayUnaccessData(this); COMUtils.checkRC(hr); } /** * Increments the lock count of an array, and places a pointer to the * array data in pvData of the array descriptor. */ public void lock() { WinNT.HRESULT res = OleAuto.INSTANCE.SafeArrayLock(this); COMUtils.checkRC(res); } /** * Decrements the lock count of an array so it can be freed or resized */ public void unlock() { WinNT.HRESULT res = OleAuto.INSTANCE.SafeArrayUnlock(this); COMUtils.checkRC(res); } /** * Changes the right-most (least significant) bound of the specified * safe array. * * @param cElements * @param lLbound */ public void redim(int cElements, int lLbound) { WinNT.HRESULT res = OleAuto.INSTANCE.SafeArrayRedim(this, new OaIdl.SAFEARRAYBOUND(cElements, lLbound)); COMUtils.checkRC(res); } /** * Return VARTYPE of the SAFEARRAY * * @return VARTYPE of the SAFEARRAY */ public VARTYPE getVarType() { WTypes.VARTYPEByReference resultHolder = new WTypes.VARTYPEByReference(); WinNT.HRESULT res = OleAuto.INSTANCE.SafeArrayGetVartype(this, resultHolder); COMUtils.checkRC(res); return resultHolder.getValue(); } /** * Get size of one element in bytes * * @return element size in bytes */ public long getElemsize() { return OleAuto.INSTANCE.SafeArrayGetElemsize(this).longValue(); } } @FieldOrder({"pSAFEARRAY"}) public static class SAFEARRAYByReference extends Structure implements Structure.ByReference { public SAFEARRAYByReference() { } public SAFEARRAYByReference(Pointer p) { super(p); read(); } public SAFEARRAYByReference(SAFEARRAY.ByReference safeArray) { pSAFEARRAY = safeArray; } public SAFEARRAY.ByReference pSAFEARRAY; } @FieldOrder({"cElements", "lLbound"}) public static class SAFEARRAYBOUND extends Structure { public static class ByReference extends SAFEARRAYBOUND implements Structure.ByReference { } public ULONG cElements; public LONG lLbound; public SAFEARRAYBOUND() { super(); } public SAFEARRAYBOUND(Pointer pointer) { super(pointer); this.read(); } public SAFEARRAYBOUND(int cElements, int lLbound) { this.cElements = new ULONG(cElements); this.lLbound = new LONG(lLbound); this.write(); } } public static class CURRENCY extends Union { public static class ByReference extends CURRENCY implements Structure.ByReference { }; public _CURRENCY currency; public LONGLONG int64; public CURRENCY() { super(); } public CURRENCY(Pointer pointer) { super(pointer); this.read(); } @FieldOrder({"Lo", "Hi"}) public static class _CURRENCY extends Structure { public ULONG Lo; public LONG Hi; public _CURRENCY() { super(); } public _CURRENCY(Pointer pointer) { super(pointer); this.read(); } } } @FieldOrder({"wReserved", "decimal1", "Hi32", "decimal2"}) public static class DECIMAL extends Structure { public static class ByReference extends DECIMAL implements Structure.ByReference { }; public static class _DECIMAL1 extends Union { public USHORT signscale; public _DECIMAL1_DECIMAL decimal1_DECIMAL; public _DECIMAL1() { this.setType("signscale"); } public _DECIMAL1(Pointer pointer) { super(pointer); this.setType("signscale"); this.read(); } @FieldOrder({"scale", "sign"}) public static class _DECIMAL1_DECIMAL extends Structure { public BYTE scale; public BYTE sign; public _DECIMAL1_DECIMAL() { super(); } public _DECIMAL1_DECIMAL(Pointer pointer) { super(pointer); } } } public static class _DECIMAL2 extends Union { public ULONGLONG Lo64; public _DECIMAL2_DECIMAL decimal2_DECIMAL; public _DECIMAL2() { this.setType("Lo64"); } public _DECIMAL2(Pointer pointer) { super(pointer); this.setType("Lo64"); this.read(); } @FieldOrder({"Lo32", "Mid32"}) public static class _DECIMAL2_DECIMAL extends Structure { public BYTE Lo32; public BYTE Mid32; public _DECIMAL2_DECIMAL() { super(); } public _DECIMAL2_DECIMAL(Pointer pointer) { super(pointer); } } } public short wReserved; public _DECIMAL1 decimal1; public NativeLong Hi32; public _DECIMAL2 decimal2; public DECIMAL() { super(); } public DECIMAL(Pointer pointer) { super(pointer); } } @FieldOrder({"value"}) public static class SYSKIND extends Structure { public static class ByReference extends SYSKIND implements Structure.ByReference { } public int value; public SYSKIND() { super(); } public SYSKIND(int value) { this.value = value; } public SYSKIND(Pointer pointer) { super(pointer); this.read(); } public static final int SYS_WIN16 = 0; public static final int SYS_WIN32 = SYSKIND.SYS_WIN16 + 1; public static final int SYS_MAC = SYSKIND.SYS_WIN32 + 1; public static final int SYS_WIN64 = SYSKIND.SYS_MAC + 1; } @FieldOrder({"value"}) public static class LIBFLAGS extends Structure { public static class ByReference extends LIBFLAGS implements Structure.ByReference { } public int value; public LIBFLAGS() { super(); } public LIBFLAGS(int value) { this.value = value; } public LIBFLAGS(Pointer pointer) { super(pointer); this.read(); } public static final int LIBFLAG_FRESTRICTED = 0x1; public static final int LIBFLAG_FCONTROL = 0x2; public static final int LIBFLAG_FHIDDEN = 0x4; public static final int LIBFLAG_FHASDISKIMAGE = 0x8; }; @FieldOrder({"guid", "lcid", "syskind", "wMajorVerNum", "wMinorVerNum", "wLibFlags"}) public static class TLIBATTR extends Structure { public static class ByReference extends TLIBATTR implements Structure.ByReference { public ByReference() { super(); } public ByReference(Pointer pointer) { super(pointer); this.read(); } } public GUID guid; public LCID lcid; public SYSKIND syskind; public WORD wMajorVerNum; public WORD wMinorVerNum; public WORD wLibFlags; public TLIBATTR() { super(); } public TLIBATTR(Pointer pointer) { super(pointer); this.read(); } } public static class BINDPTR extends Union { public static class ByReference extends BINDPTR implements Structure.ByReference { }; // / C type : FUNCDESC* public FUNCDESC lpfuncdesc; // / C type : VARDESC* public VARDESC lpvardesc; // / C type : ITypeComp* public TypeComp lptcomp; public BINDPTR() { super(); } // / @param lpvardesc C type : VARDESC* public BINDPTR(VARDESC lpvardesc) { super(); this.lpvardesc = lpvardesc; setType(VARDESC.class); } // / @param lptcomp C type : ITypeComp* public BINDPTR(TypeComp lptcomp) { super(); this.lptcomp = lptcomp; setType(TypeComp.class); } // / @param lpfuncdesc C type : FUNCDESC* public BINDPTR(FUNCDESC lpfuncdesc) { super(); this.lpfuncdesc = lpfuncdesc; setType(FUNCDESC.class); } } @FieldOrder({"memid", "lprgscode", "lprgelemdescParam", "funckind", "invkind", "callconv", "cParams", "cParamsOpt", "oVft", "cScodes", "elemdescFunc", "wFuncFlags"}) public static class FUNCDESC extends Structure { public static class ByReference extends FUNCDESC implements Structure.ByReference { }; public MEMBERID memid; public ScodeArg.ByReference lprgscode; public ElemDescArg.ByReference lprgelemdescParam; public FUNCKIND funckind; public INVOKEKIND invkind; public CALLCONV callconv; public SHORT cParams; public SHORT cParamsOpt; public SHORT oVft; public SHORT cScodes; public ELEMDESC elemdescFunc; public WORD wFuncFlags; public FUNCDESC() { super(); } public FUNCDESC(Pointer pointer) { super(pointer); this.read(); if (this.cParams.shortValue() > 1) { this.lprgelemdescParam.elemDescArg = new ELEMDESC[this.cParams .shortValue()]; this.lprgelemdescParam.read(); } } } @FieldOrder({"elemDescArg"}) public static class ElemDescArg extends Structure { public static class ByReference extends ElemDescArg implements Structure.ByReference { } public ELEMDESC[] elemDescArg = { new ELEMDESC() }; public ElemDescArg() { super(); } public ElemDescArg(Pointer pointer) { super(pointer); this.read(); } } @FieldOrder({"scodeArg"}) public static class ScodeArg extends Structure { public static class ByReference extends ScodeArg implements Structure.ByReference { } public SCODE[] scodeArg = { new SCODE() }; public ScodeArg() { super(); } public ScodeArg(Pointer pointer) { super(pointer); this.read(); } } @FieldOrder({"memid", "lpstrSchema", "_vardesc", "elemdescVar", "wVarFlags", "varkind"}) public class VARDESC extends Structure { public static class ByReference extends VARDESC implements Structure.ByReference { }; // / C type : MEMBERID public MEMBERID memid; // / C type : LPOLESTR public LPOLESTR lpstrSchema; /** * [switch_is][switch_type]
* C type : _VARDESC_union */ public _VARDESC _vardesc; // / C type : ELEMDESC public ELEMDESC elemdescVar; public WORD wVarFlags; // / C type : VARKIND public VARKIND varkind; // / native declaration : line 6 // / native declaration : line 6 public static class _VARDESC extends Union { public static class ByReference extends _VARDESC implements Structure.ByReference { }; // / [case()] public NativeLong oInst; /** * [case()]
* C type : VARIANT* */ public VARIANT.ByReference lpvarValue; public _VARDESC() { setType("lpvarValue"); this.read(); } public _VARDESC(Pointer pointer) { super(pointer); setType("lpvarValue"); this.read(); } /** * @param lpvarValue * [case()]
* C type : VARIANT* */ public _VARDESC(VARIANT.ByReference lpvarValue) { this.lpvarValue = lpvarValue; setType("lpvarValue"); } // / @param oInst [case()] public _VARDESC(NativeLong oInst) { this.oInst = oInst; setType("oInst"); } }; public VARDESC() { super(); } public VARDESC(Pointer pointer) { super(pointer); this._vardesc.setType("lpvarValue"); this.read(); } } @FieldOrder({"tdesc", "_elemdesc"}) public static class ELEMDESC extends Structure { public static class ByReference extends ELEMDESC implements Structure.ByReference { }; /** * the type of the element
* C type : TYPEDESC */ public TYPEDESC tdesc; // / C type : DUMMYUNIONNAMEUnion public _ELEMDESC _elemdesc; // / native declaration : line 4 // / native declaration : line 4 public static class _ELEMDESC extends Union { public static class ByReference extends _ELEMDESC implements Structure.ByReference { }; /** * info for remoting the element
* C type : IDLDESC */ public IDLDESC idldesc; /** * info about the parameter
* C type : PARAMDESC */ public PARAMDESC paramdesc; public _ELEMDESC() { } public _ELEMDESC(Pointer pointer) { super(pointer); setType("paramdesc"); this.read(); } /** * @param paramdesc * info about the parameter
* C type : PARAMDESC */ public _ELEMDESC(PARAMDESC paramdesc) { this.paramdesc = paramdesc; setType("paramdesc"); } /** * @param idldesc * info for remoting the element
* C type : IDLDESC */ public _ELEMDESC(IDLDESC idldesc) { this.idldesc = idldesc; setType("idldesc"); } }; public ELEMDESC() { super(); } public ELEMDESC(Pointer pointer) { super(pointer); this.read(); } } @FieldOrder({"value"}) public static class FUNCKIND extends Structure { public static class ByReference extends FUNCKIND implements Structure.ByReference { }; // / native declaration : line 20 public static final int FUNC_VIRTUAL = 0; // / native declaration : line 21 public static final int FUNC_PUREVIRTUAL = FUNC_VIRTUAL + 1; // / native declaration : line 22 public static final int FUNC_NONVIRTUAL = FUNC_PUREVIRTUAL + 1; // / native declaration : line 23 public static final int FUNC_STATIC = FUNC_NONVIRTUAL + 1; // / native declaration : line 24 public static final int FUNC_DISPATCH = FUNC_STATIC + 1; public int value; public FUNCKIND() { super(); } public FUNCKIND(int value) { this.value = value; } } @FieldOrder({"value"}) public static class INVOKEKIND extends Structure { public static class ByReference extends INVOKEKIND implements Structure.ByReference { } // / native declaration : line 30 public static final INVOKEKIND INVOKE_FUNC = new INVOKEKIND(1); // / native declaration : line 31 public static final INVOKEKIND INVOKE_PROPERTYGET = new INVOKEKIND(2); // / native declaration : line 32 public static final INVOKEKIND INVOKE_PROPERTYPUT = new INVOKEKIND(4); // / native declaration : line 33 public static final INVOKEKIND INVOKE_PROPERTYPUTREF = new INVOKEKIND(8); public int value; public INVOKEKIND() { super(); } public INVOKEKIND(int value) { this.value = value; } } @FieldOrder({"value"}) public static class CALLCONV extends Structure { public static class ByReference extends CALLCONV implements Structure.ByReference { } // / native declaration : line 4 public static final int CC_FASTCALL = 0; // / native declaration : line 5 public static final int CC_CDECL = 1; // / native declaration : line 6 public static final int CC_MSCPASCAL = CALLCONV.CC_CDECL + 1; // / native declaration : line 7 public static final int CC_PASCAL = CALLCONV.CC_MSCPASCAL; // / native declaration : line 8 public static final int CC_MACPASCAL = CALLCONV.CC_PASCAL + 1; // / native declaration : line 9 public static final int CC_STDCALL = CALLCONV.CC_MACPASCAL + 1; // / native declaration : line 10 public static final int CC_FPFASTCALL = CALLCONV.CC_STDCALL + 1; // / native declaration : line 11 public static final int CC_SYSCALL = CALLCONV.CC_FPFASTCALL + 1; // / native declaration : line 12 public static final int CC_MPWCDECL = CALLCONV.CC_SYSCALL + 1; // / native declaration : line 13 public static final int CC_MPWPASCAL = CALLCONV.CC_MPWCDECL + 1; // / native declaration : line 14 public static final int CC_MAX = CALLCONV.CC_MPWPASCAL + 1; public int value; public CALLCONV() { } public CALLCONV(int value) { this.value = value; } } @FieldOrder({"value"}) public static class VARKIND extends Structure { public static class ByReference extends VARKIND implements Structure.ByReference { }; // / native declaration : line 4 public static final int VAR_PERINSTANCE = 0; // / native declaration : line 5 public static final int VAR_STATIC = VAR_PERINSTANCE + 1; // / native declaration : line 6 public static final int VAR_CONST = VAR_STATIC + 1; // / native declaration : line 7 public static final int VAR_DISPATCH = VAR_CONST + 1; public int value; public VARKIND() { super(); } public VARKIND(int value) { this.value = value; } } @FieldOrder({"_typedesc", "vt"}) public static class TYPEDESC extends Structure { public static class ByReference extends TYPEDESC implements Structure.ByReference { }; public static class _TYPEDESC extends Union { /** * [case()]
* C type : tagTYPEDESC* */ public TYPEDESC.ByReference lptdesc; /** * [case()]
* C type : tagARRAYDESC* */ public ARRAYDESC.ByReference lpadesc; /** * [case()]
* C type : HREFTYPE */ public HREFTYPE hreftype; public _TYPEDESC() { this.setType("hreftype"); this.read(); } public _TYPEDESC(Pointer pointer) { super(pointer); this.setType("hreftype"); this.read(); } public TYPEDESC.ByReference getLptdesc() { this.setType("lptdesc"); this.read(); return this.lptdesc; } public ARRAYDESC.ByReference getLpadesc() { this.setType("lpadesc"); this.read(); return this.lpadesc; } public HREFTYPE getHreftype() { this.setType("hreftype"); this.read(); return this.hreftype; } }; public _TYPEDESC _typedesc; public VARTYPE vt; public TYPEDESC() { this.read(); } public TYPEDESC(Pointer pointer) { super(pointer); this.read(); } public TYPEDESC(_TYPEDESC _typedesc, VARTYPE vt) { this._typedesc = _typedesc; this.vt = vt; } } @FieldOrder({"dwReserved", "wIDLFlags"}) public static class IDLDESC extends Structure { public static class ByReference extends IDLDESC implements Structure.ByReference { public ByReference() { super(); } public ByReference(IDLDESC idldesc) { super(idldesc.dwReserved, idldesc.wIDLFlags); } }; // / C type : ULONG_PTR public ULONG_PTR dwReserved; public USHORT wIDLFlags; public IDLDESC() { super(); } public IDLDESC(Pointer pointer) { super(pointer); this.read(); } // / @param dwReserved C type : ULONG_PTR public IDLDESC(ULONG_PTR dwReserved, USHORT wIDLFlags) { this.dwReserved = dwReserved; this.wIDLFlags = wIDLFlags; } } @FieldOrder({"tdescElem", "cDims", "rgbounds"}) public class ARRAYDESC extends Structure { // / C type : TYPEDESC public TYPEDESC tdescElem; public short cDims; /** * [size_is]
* C type : SAFEARRAYBOUND[1] */ public SAFEARRAYBOUND[] rgbounds = { new SAFEARRAYBOUND() }; public ARRAYDESC() { super(); } public ARRAYDESC(Pointer pointer) { super(pointer); this.read(); } /** * @param tdescElem * C type : TYPEDESC
* @param cDims dimensions * @param rgbounds * [size_is]
* C type : SAFEARRAYBOUND[1] */ public ARRAYDESC(TYPEDESC tdescElem, short cDims, SAFEARRAYBOUND rgbounds[]) { this.tdescElem = tdescElem; this.cDims = cDims; if (rgbounds.length != this.rgbounds.length) throw new IllegalArgumentException("Wrong array size !"); this.rgbounds = rgbounds; } public static class ByReference extends ARRAYDESC implements Structure.ByReference { }; } @FieldOrder({"pparamdescex", "wParamFlags"}) public static class PARAMDESC extends Structure { public static class ByReference extends PARAMDESC implements Structure.ByReference { } // replaced PARAMDESCEX.ByReference with Pointer // because of JNA 4 has a problem with ByReference public Pointer pparamdescex; public USHORT wParamFlags; public PARAMDESC() { super(); } public PARAMDESC(Pointer pointer) { super(pointer); this.read(); } } @FieldOrder({"cBytes", "varDefaultValue"}) public static class PARAMDESCEX extends Structure { public static class ByReference extends PARAMDESCEX implements Structure.ByReference { }; public ULONG cBytes; public VariantArg varDefaultValue; public PARAMDESCEX() { super(); } public PARAMDESCEX(Pointer pointer) { super(pointer); this.read(); } } public static class HREFTYPE extends DWORD { private static final long serialVersionUID = 1L; public HREFTYPE() { super(); } public HREFTYPE(long value) { super(value); } } public static class HREFTYPEByReference extends DWORDByReference { public HREFTYPEByReference() { this(new HREFTYPE(0)); } public HREFTYPEByReference(DWORD value) { super(value); } public void setValue(HREFTYPE value) { getPointer().setInt(0, value.intValue()); } @Override public HREFTYPE getValue() { return new HREFTYPE(getPointer().getInt(0)); } } @FieldOrder({"guid", "lcid", "dwReserved", "memidConstructor", "memidDestructor", "lpstrSchema", "cbSizeInstance", "typekind", "cFuncs", "cVars", "cImplTypes", "cbSizeVft", "cbAlignment", "wTypeFlags", "wMajorVerNum", "wMinorVerNum", "tdescAlias", "idldescType"}) public class TYPEATTR extends Structure { public static class ByReference extends TYPEATTR implements Structure.ByReference { }; // / C type : GUID public GUID guid; // / C type : LCID public LCID lcid; public DWORD dwReserved; // / C type : MEMBERID public MEMBERID memidConstructor; // / C type : MEMBERID public MEMBERID memidDestructor; // / C type : LPOLESTR public LPOLESTR lpstrSchema; public ULONG cbSizeInstance; // / C type : TYPEKIND public TYPEKIND typekind; public WORD cFuncs; public WORD cVars; public WORD cImplTypes; public WORD cbSizeVft; public WORD cbAlignment; // The type flags. See TYPEFLAGS_... public WORD wTypeFlags; public WORD wMajorVerNum; public WORD wMinorVerNum; // / C type : TYPEDESC public TYPEDESC tdescAlias; // / C type : IDLDESC public IDLDESC idldescType; public TYPEATTR() { super(); } public TYPEATTR(Pointer pointer) { super(pointer); this.read(); } /** * A type description that describes an Application object. */ public final static int TYPEFLAGS_FAPPOBJECT = 0x1; /** * Instances of the type can be created by ITypeInfo::CreateInstance. */ public final static int TYPEFLAGS_FCANCREATE = 0x2; /** * The type is licensed. */ public final static int TYPEFLAGS_FLICENSED = 0x4; /** * The type is predefined. The client application should automatically create a single instance of the object * that has this attribute. The name of the variable that points to the object is the same as the class name of * the object. */ public final static int TYPEFLAGS_FPREDECLID = 0x8; /** * The type should not be displayed to browsers. */ public final static int TYPEFLAGS_FHIDDEN = 0x10; /** * The type is a control from which other types will be derived, and should not be displayed to users. */ public final static int TYPEFLAGS_FCONTROL = 0x20; /** * The interface supplies both IDispatch and VTBL binding. */ public final static int TYPEFLAGS_FDUAL = 0x40; /** * The interface cannot add members at run time. */ public final static int TYPEFLAGS_FNONEXTENSIBLE = 0x80; /** * The types used in the interface are fully compatible with Automation, including VTBL binding support. Setting * dual on an interface sets this flag in addition to TYPEFLAG_FDUAL. Not allowed on dispinterfaces. */ public final static int TYPEFLAGS_FOLEAUTOMATION = 0x100; /** * Should not be accessible from macro languages. This flag is intended for system-level types or types that * type browsers should not display. */ public final static int TYPEFLAGS_FRESTRICTED = 0x200; /** * The class supports aggregation. */ public final static int TYPEFLAGS_FAGGREGATABLE = 0x400; /** * The type is replaceable. */ public final static int TYPEFLAGS_FREPLACEABLE = 0x800; /** * Indicates that the interface derives from IDispatch, either directly or indirectly. This flag is computed. * There is no Object Description Language for the flag. */ public final static int TYPEFLAGS_FDISPATCHABLE = 0x1000; /** * The type has reverse binding. */ public final static int TYPEFLAGS_FREVERSEBIND = 0x2000; /** * Interfaces can be marked with this flag to indicate that they will be using a proxy/stub dynamic link * library. This flag specifies that the typelib proxy should not be unregistered when the typelib is * unregistered. */ public final static int TYPEFLAGS_FPROXY = 0x4000; } }




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