зеркало из https://github.com/mozilla/pjs.git
827 строки
29 KiB
C
827 строки
29 KiB
C
/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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*
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* The contents of this file are subject to the Netscape Public License
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* Version 1.0 (the "NPL"); you may not use this file except in
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* compliance with the NPL. You may obtain a copy of the NPL at
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* http://www.mozilla.org/NPL/
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*
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* Software distributed under the NPL is distributed on an "AS IS" basis,
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* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
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* for the specific language governing rights and limitations under the
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* NPL.
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*
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* The Initial Developer of this code under the NPL is Netscape
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* Communications Corporation. Portions created by Netscape are
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* Copyright (C) 1998 Netscape Communications Corporation. All Rights
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* Reserved.
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*/
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/* */
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/* images.c --- X front-end stuff dealing with images
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Created: Jamie Zawinski <jwz@netscape.com>.
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*/
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#define JMC_INIT_IMGCB_ID
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#include "mozilla.h"
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#include "xfe.h"
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#include "libimg.h" /* Image Library public API. */
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#include "il_util.h" /* Colormap/Colorspace API. */
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#include "prtypes.h"
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#ifdef EDITOR
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#include "xeditor.h"
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#endif
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#define GRAYSCALE_WORKS
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#define PARTIAL_IMAGE_BORDER_WIDTH 2
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/* We set this flag when we're running on a visual of a depth that we
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know the image library won't support at all. */
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Boolean fe_ImagesCantWork = False;
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/*
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* Layout has moved this image to a new location, and it may get
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* moved again before it is next displayed, so set valid to
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* false so its final new coords will be saved when next it is displayed.
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*/
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void
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FE_ShiftImage (MWContext *context, LO_ImageStruct *lo_image)
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{
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/* XXXM12N Obsolete. */
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}
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/* Delaying images. */
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void
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fe_LoadDelayedImage (MWContext *context, const char *url)
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{
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/* If autoload images is on and there are no delayed images, then there is
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nothing to be done. */
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if (fe_globalPrefs.autoload_images_p &&
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!CONTEXT_DATA (context)->delayed_images_p)
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return;
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if (url == FORCE_LOAD_ALL_IMAGES)
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LO_SetForceLoadImage(NULL, TRUE);
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else
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LO_SetForceLoadImage((char *)url, FALSE);
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CONTEXT_DATA (context)->delayed_images_p = False;
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fe_ReLayout (context, NET_DONT_RELOAD);
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}
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void
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fe_LoadDelayedImages (MWContext *context)
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{
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fe_LoadDelayedImage (context, FORCE_LOAD_ALL_IMAGES);
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}
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#ifdef EDITOR
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void
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FE_ClearBackgroundImage(MWContext* context)
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{
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/* XXXM12N Obsolete. */
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}
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#endif /*EDITOR*/
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/* #define DEBUG_GROUP_OBSERVER */
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/* Image group observer callback. */
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void
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fe_ImageGroupObserver(XP_Observable observable, XP_ObservableMsg message,
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void *message_data, void *closure)
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{
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IL_GroupMessageData *data = (IL_GroupMessageData*)message_data;
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MWContext *context = (MWContext *)closure;
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XP_ASSERT(context == data->display_context);
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XP_ASSERT(context->img_cx == data->image_context);
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switch (message) {
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case IL_STARTED_LOADING:
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CONTEXT_DATA(context)->loading_images_p = True;
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break;
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case IL_ABORTED_LOADING:
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if (!CONTEXT_DATA (context)->delayed_images_p &&
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!fe_ImagesCantWork) {
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CONTEXT_DATA (context)->delayed_images_p = True;
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}
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break;
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case IL_FINISHED_LOADING:
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/* Note: This means that all images currently in the context have
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finished loading. If network activity has not ceased, then
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new images could start to load in the image context. */
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CONTEXT_DATA(context)->loading_images_p = False;
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break;
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case IL_STARTED_LOOPING:
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CONTEXT_DATA(context)->looping_images_p = True;
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break;
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case IL_FINISHED_LOOPING:
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/* Note: This means that all loaded images currently in the context
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have finished looping. If network activity has not ceased, then
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new images could start to loop in the image context. */
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CONTEXT_DATA(context)->looping_images_p = False;
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break;
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default:
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break;
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}
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FE_UpdateStopState(context);
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}
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/*****************************************************************************/
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/* Image Library callbacks */
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/*****************************************************************************/
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#define HOWMANY(x, r) (((x) + ((r) - 1)) / (r))
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#define ROUNDUP(x, r) (HOWMANY(x, r) * (r))
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JMC_PUBLIC_API(void)
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_IMGCB_init(struct IMGCB* self, JMCException* *exception)
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{
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/* Nothing to be done here. */
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}
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extern JMC_PUBLIC_API(void*)
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_IMGCB_getBackwardCompatibleInterface(struct IMGCB* self,
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const JMCInterfaceID* iid,
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JMCException* *exception)
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{
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return NULL; /* Nothing to be done here. */
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}
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/**************************** Pixmap creation ********************************/
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JMC_PUBLIC_API(void)
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_IMGCB_NewPixmap(IMGCB* img_cb, jint op, void *dpy_cx, jint width, jint height,
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IL_Pixmap *image, IL_Pixmap *mask)
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{
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uint8 img_depth;
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NI_PixmapHeader *img_header = &image->header;
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NI_PixmapHeader *mask_header = mask ? &mask->header : NULL;
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MWContext *context = (MWContext *)dpy_cx; /* XXXM12N This should be the
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FE's display context. */
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fe_ContextData * fec = CONTEXT_DATA(context);
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Widget widget = CONTEXT_WIDGET(context);
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Display *dpy = XtDisplay(widget);
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Visual *visual = 0;
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Window window;
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unsigned int visual_depth;
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unsigned int pixmap_depth;
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Pixmap img_x_pixmap=0, mask_x_pixmap = 0;
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fe_PixmapClientData *img_client_data, *mask_client_data = NULL;
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/* Allocate the client data structures for the IL_Pixmaps. */
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img_client_data = XP_NEW_ZAP(fe_PixmapClientData);
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if (!img_client_data) {
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image->bits = NULL;
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mask->bits = NULL;
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return;
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}
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if (mask) {
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mask_client_data = XP_NEW_ZAP(fe_PixmapClientData);
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if (!mask_client_data) {
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image->bits = NULL;
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mask->bits = NULL;
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return;
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}
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}
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/* Get the required display parameters */
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XtVaGetValues (widget, XmNvisual, &visual, 0);
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if (!visual) visual = fe_globalData.default_visual;
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window = XtWindow (CONTEXT_DATA (context)->drawing_area);
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visual_depth = fe_VisualDepth (dpy, visual);
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pixmap_depth = fe_VisualPixmapDepth (dpy, visual);
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/* Override the image and mask dimensions with the requested target
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dimensions. This instructs the image library to do any necessary
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scaling. */
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img_header->width = width;
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img_header->height = height;
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if (mask) {
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mask_header->width = width;
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mask_header->height = height;
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}
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/* Override the image colorspace with the display colorspace. This
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instructs the image library to decode to the display colorspace
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instead of decoding to the image's source colorspace. */
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IL_ReleaseColorSpace(img_header->color_space);
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img_header->color_space = context->color_space;
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IL_AddRefToColorSpace(img_header->color_space);
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/* Compute the number of bytes per scan line for the image and mask,
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and make sure it is quadlet aligned. */
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img_depth = img_header->color_space->pixmap_depth;
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XP_ASSERT(img_depth == pixmap_depth);
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img_header->widthBytes = (img_header->width * img_depth + 7) / 8;
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img_header->widthBytes = ROUNDUP(img_header->widthBytes, 4);
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if (mask) {
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mask_header->widthBytes = (mask_header->width + 7) / 8;
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mask_header->widthBytes = ROUNDUP(mask_header->widthBytes, 4);
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}
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/* Allocate memory for the image bits, and for the mask bits (if
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required.) */
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image->bits = calloc(img_header->widthBytes * img_header->height, 1);
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if (!image->bits)
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return;
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if (mask) {
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mask->bits = calloc(mask_header->widthBytes * mask_header->height, 1);
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if (!mask->bits) {
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free(image->bits);
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image->bits = NULL;
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return;
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}
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}
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/* Create an X pixmap for the image, and for the mask (if required.) */
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img_x_pixmap = XCreatePixmap(dpy, window, img_header->width,
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img_header->height, visual_depth);
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if (mask)
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mask_x_pixmap = XCreatePixmap(dpy, window, mask_header->width,
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mask_header->height, 1);
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/* Fill in the pixmap client_data. We store the Display pointer for use
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in DestroyPixmap, which can be called after the FE's display context
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(MWContext) has been destroyed. */
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img_client_data->pixmap = img_x_pixmap;
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img_client_data->dpy = dpy;
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image->client_data = (void *)img_client_data;
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if (mask) {
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mask_client_data->pixmap = mask_x_pixmap;
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mask_client_data->dpy = dpy;
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mask->client_data = (void *)mask_client_data;
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}
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/* Let the FE Context know, what type of pixmap we are creating */
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if (fec->NewPixmap)
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{
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if (image)
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fec->NewPixmap(context, image, False);
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else if (mask)
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fec->NewPixmap(context, mask, True);
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}
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}
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/**************************** Pixmap update **********************************/
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JMC_PUBLIC_API(void)
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_IMGCB_UpdatePixmap(IMGCB* img_cb, jint op, void* dpy_cx, IL_Pixmap* pixmap,
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jint x_offset, jint y_offset, jint width, jint height)
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{
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uint32 widthBytes;
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MWContext *context = (MWContext *)dpy_cx; /* XXX This should be the FE's
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display context. */
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Widget widget;
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Display *dpy;
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Visual *visual = 0;
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Window window;
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unsigned int visual_depth;
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unsigned int visual_pixmap_depth; /* Pixmap depth supported by visual. */
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unsigned int pixmap_depth; /* Depth of the IL_Pixmap. */
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Pixmap x_pixmap;
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fe_PixmapClientData *pixmap_client_data;
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XImage *x_image;
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IL_ColorSpace *color_space = pixmap->header.color_space;
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char *bits;
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GC gc;
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XGCValues gcv;
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XP_Bool cached_gc;
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if (!context)
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return;
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widget = CONTEXT_WIDGET(context);
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dpy = XtDisplay(widget);
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/* Check for zero dimensions. */
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if (width == 0 || height == 0)
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return;
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/* Get the required display parameters */
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XtVaGetValues (widget, XmNvisual, &visual, 0);
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if (!visual) visual = fe_globalData.default_visual;
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window = XtWindow (CONTEXT_DATA (context)->drawing_area);
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visual_depth = fe_VisualDepth (dpy, visual);
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visual_pixmap_depth = fe_VisualPixmapDepth (dpy, visual);
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/* Get the depth of the IL_Pixmap. This should be the same as the
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visual_pixmap_depth if the IL_Pixmap is an image, or 1 if the
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IL_Pixmap is a mask. */
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pixmap_depth = color_space->pixmap_depth;
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widthBytes = pixmap->header.widthBytes;
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bits = (unsigned char *)pixmap->bits + widthBytes * y_offset;
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x_image = XCreateImage(dpy, visual,
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(pixmap_depth == 1 ? 1 : visual_depth),
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(pixmap_depth == 1 ? XYPixmap : ZPixmap),
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x_offset, /* offset */
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bits,
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width,
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height,
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8, /* bitmap_pad */
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widthBytes); /* bytes_per_line */
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if (pixmap_depth == 1) {
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/* Image library always places pixels left-to-right MSB to LSB */
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x_image->bitmap_bit_order = MSBFirst;
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/* This definition doesn't depend on client byte ordering
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because the image library ensures that the bytes in
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bitmask data are arranged left to right on the screen,
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low to high address in memory. */
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x_image->byte_order = MSBFirst;
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}
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else {
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#if defined(IS_LITTLE_ENDIAN)
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x_image->byte_order = LSBFirst;
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#elif defined (IS_BIG_ENDIAN)
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x_image->byte_order = MSBFirst;
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#else
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ERROR! Endianness is unknown;
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#endif
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}
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pixmap_client_data = (fe_PixmapClientData *)pixmap->client_data;
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x_pixmap = pixmap_client_data->pixmap;
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memset(&gcv, ~0, sizeof(XGCValues));
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gcv.function = GXcopy;
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if (pixmap_depth == visual_pixmap_depth) {
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/* Get the GC out of the GC cache. */
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gc = fe_GetGC(widget, GCFunction, &gcv);
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cached_gc = TRUE;
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}
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else {
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/* The pixmap_depth does not correspond to that of the GCs in the
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cache, so create a new GC. */
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gc = XCreateGC(dpy, x_pixmap, GCFunction, &gcv);
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cached_gc = FALSE;
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}
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XPutImage(dpy, x_pixmap, gc, x_image, x_offset, 0, x_offset,
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y_offset, width, height);
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if (!cached_gc)
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XFreeGC(dpy, gc);
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x_image->data = 0; /* Don't free the IL_Pixmap's bits. */
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XDestroyImage(x_image);
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}
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/************************** Pixmap memory management *************************/
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JMC_PUBLIC_API(void)
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_IMGCB_ControlPixmapBits(IMGCB* img_cb, jint op, void* dpy_cx,
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IL_Pixmap* pixmap, IL_PixmapControl message)
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{
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if (message == IL_RELEASE_BITS) {
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MWContext *pContext = (MWContext *)dpy_cx;
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fe_ContextData * fec = CONTEXT_DATA(pContext);
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XP_ASSERT(pContext);
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XP_ASSERT(fec);
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if (!pContext || !fec)
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return;
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if (fec->ImageComplete)
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fec->ImageComplete(pContext, pixmap);
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}
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}
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/**************************** Pixmap destruction *****************************/
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/* XXXM12N The dpy_cx argument is not used in DestroyPixmap and should be
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removed. */
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JMC_PUBLIC_API(void)
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_IMGCB_DestroyPixmap(IMGCB* img_cb, jint op, void* dpy_cx, IL_Pixmap* pixmap)
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{
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fe_PixmapClientData *pixmap_client_data = pixmap->client_data;
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Display *dpy;
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Pixmap x_pixmap;
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if (!pixmap_client_data)
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return;
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dpy = pixmap_client_data->dpy;
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x_pixmap = pixmap_client_data->pixmap;
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if (x_pixmap) {
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XFreePixmap(dpy, x_pixmap);
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pixmap->client_data = NULL;
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}
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if (pixmap->bits) {
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free(pixmap->bits);
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pixmap->bits = NULL;
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}
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}
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/**************************** Pixmap display *********************************/
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typedef struct
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{
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Pixmap x_pixmap;
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GC gc;
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Display *dpy;
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int32 x_clip_offset, y_clip_offset;
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XP_Rect *fill_rect;
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} fe_FillTiledPixmapClosure;
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static void
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fe_FillTiledPixmapRectFunc(void *closure, XP_Rect *clip_rect)
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{
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fe_FillTiledPixmapClosure *fill_closure =
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(fe_FillTiledPixmapClosure*)closure;
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Display *dpy = fill_closure->dpy;
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Pixmap x_pixmap = fill_closure->x_pixmap;
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GC gc = fill_closure->gc;
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int32 x_clip_offset = fill_closure->x_clip_offset;
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int32 y_clip_offset = fill_closure->y_clip_offset;
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XP_Rect *fill_rect = fill_closure->fill_rect;
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XP_Rect sub_rect;
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uint32 sub_rect_width, sub_rect_height;
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/* Convert the clip rect's coordinates to be relative to the pixmap's
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origin. */
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XP_OffsetRect(clip_rect, x_clip_offset, y_clip_offset);
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XP_IntersectRect(clip_rect, fill_rect, &sub_rect);
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/* Compute the width and height of the actual area to be drawn. If either
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dimension is zero, we have nothing to do. */
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sub_rect_width = sub_rect.right - sub_rect.left;
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sub_rect_height = sub_rect.bottom - sub_rect.top;
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if (!sub_rect_width || !sub_rect_height)
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return;
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/* Draw a sub_rect of the temporary mask. */
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XFillRectangle(dpy, x_pixmap, gc, sub_rect.left, sub_rect.top,
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sub_rect_width, sub_rect_height);
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}
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/* Generate a tiled mask for the case where the fe_Drawable has a clip
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region. Offset arguments are wrt the origin of the tiled mask. */
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static Pixmap
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fe_TiledMaskWithClipRegion(Display *dpy, Drawable drawable,
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Pixmap mask_x_pixmap,
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unsigned int width, unsigned int height,
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int x_tile_offset, int y_tile_offset,
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int x_clip_offset, int y_clip_offset,
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Region clip_region)
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{
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GC gc;
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XGCValues gcv;
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unsigned long flags;
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XP_Rect fill_rect;
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Pixmap ret_x_pixmap;
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fe_FillTiledPixmapClosure fill_closure;
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memset (&gcv, ~0, sizeof (XGCValues));
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ret_x_pixmap = XCreatePixmap(dpy, drawable, width, height, 1);
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/* The pixmap must be cleared since it may cover areas which do not
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belong to the clip region. */
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gcv.function = GXclear;
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gc = XCreateGC (dpy, ret_x_pixmap, GCFunction, &gcv);
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XFillRectangle(dpy, ret_x_pixmap, gc, 0, 0, width, height);
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|
|
|
/* Set up the GC. */
|
|
gcv.function = GXcopy;
|
|
gcv.fill_style = FillTiled;
|
|
gcv.tile = mask_x_pixmap;
|
|
gcv.ts_x_origin = x_tile_offset;
|
|
gcv.ts_y_origin = y_tile_offset;
|
|
flags = GCFunction | GCFillStyle | GCTile |
|
|
GCTileStipXOrigin | GCTileStipYOrigin;
|
|
XChangeGC(dpy, gc, flags, &gcv);
|
|
|
|
/* Tile the mask_pixmap into the tiled_mask_pixmap, but only do so for
|
|
areas in the clip region's rectangle list. */
|
|
fill_rect.left = 0;
|
|
fill_rect.top = 0;
|
|
fill_rect.right = width;
|
|
fill_rect.bottom = height;
|
|
fill_closure.fill_rect = &fill_rect;
|
|
fill_closure.x_pixmap = ret_x_pixmap;
|
|
fill_closure.gc = gc;
|
|
fill_closure.dpy = dpy;
|
|
fill_closure.x_clip_offset = x_clip_offset;
|
|
fill_closure.y_clip_offset = y_clip_offset;
|
|
FE_ForEachRectInRegion(clip_region, fe_FillTiledPixmapRectFunc,
|
|
&fill_closure);
|
|
|
|
/* Clean up. */
|
|
XFreeGC(dpy, gc);
|
|
|
|
return ret_x_pixmap;
|
|
}
|
|
|
|
|
|
typedef struct
|
|
{
|
|
Pixmap img_x_pixmap, mask_x_pixmap;
|
|
Drawable drawable;
|
|
GC gc, mask_gc;
|
|
Display *dpy;
|
|
int32 img_x_offset, img_y_offset;
|
|
XP_Rect *fill_rect;
|
|
} fe_FillPixmapClosure;
|
|
|
|
static void
|
|
fe_FillPixmapRectFunc(void *closure, XP_Rect *clip_rect)
|
|
{
|
|
fe_FillPixmapClosure *fill_closure = (fe_FillPixmapClosure*)closure;
|
|
Display *dpy = fill_closure->dpy;
|
|
Pixmap img_x_pixmap = fill_closure->img_x_pixmap;
|
|
Pixmap mask_x_pixmap = fill_closure->mask_x_pixmap;
|
|
Drawable drawable = fill_closure->drawable;
|
|
GC gc = fill_closure->gc;
|
|
GC mask_gc = fill_closure->mask_gc;
|
|
int32 img_x_offset = fill_closure->img_x_offset;
|
|
int32 img_y_offset = fill_closure->img_y_offset;
|
|
XP_Rect *fill_rect = fill_closure->fill_rect;
|
|
XP_Rect sub_rect;
|
|
Pixmap tmp_pixmap;
|
|
XGCValues gcv;
|
|
unsigned long flags;
|
|
int32 sub_rect_x_offset, sub_rect_y_offset; /* Offsets wrt image origin. */
|
|
uint32 sub_rect_width, sub_rect_height;
|
|
|
|
/* Rectangle coordinates are all relative to the drawable origin. */
|
|
XP_IntersectRect(clip_rect, fill_rect, &sub_rect);
|
|
|
|
/* Compute the width and height of the actual area to be drawn. If either
|
|
dimension is zero, we have nothing to do. */
|
|
sub_rect_width = sub_rect.right - sub_rect.left;
|
|
sub_rect_height = sub_rect.bottom - sub_rect.top;
|
|
if (!sub_rect_width || !sub_rect_height)
|
|
return;
|
|
|
|
/* Compute the offsets, wrt the image origin, of the area to be drawn. */
|
|
sub_rect_x_offset = sub_rect.left - img_x_offset;
|
|
sub_rect_y_offset = sub_rect.top - img_y_offset;
|
|
|
|
/* Create a temporary mask pixmap which is the size of the area to be
|
|
drawn. */
|
|
tmp_pixmap = XCreatePixmap(dpy, drawable, sub_rect_width, sub_rect_height,
|
|
1);
|
|
XCopyArea(dpy, mask_x_pixmap, tmp_pixmap, mask_gc, sub_rect_x_offset,
|
|
sub_rect_y_offset, sub_rect_width, sub_rect_height, 0, 0);
|
|
|
|
/* Use the temporary mask as the GC's clip mask, instead of using the
|
|
entire image mask. For complicated masks, this has a significant
|
|
performance benefit on X servers which convert clip_masks to
|
|
rectangle lists. */
|
|
gcv.clip_mask = tmp_pixmap;
|
|
gcv.clip_x_origin = sub_rect.left;
|
|
gcv.clip_y_origin = sub_rect.top;
|
|
flags = GCClipMask | GCClipXOrigin | GCClipYOrigin;
|
|
XChangeGC(dpy, gc, flags, &gcv);
|
|
|
|
/* Draw a sub_rect of the image. */
|
|
XCopyArea(dpy, img_x_pixmap, drawable, gc, sub_rect_x_offset,
|
|
sub_rect_y_offset, sub_rect_width, sub_rect_height,
|
|
sub_rect.left, sub_rect.top);
|
|
|
|
/* Clean up. */
|
|
XFreePixmap(dpy, tmp_pixmap);
|
|
}
|
|
|
|
/* Draw the masked image for each rectangle in the compositor's clip region.
|
|
x_offset and y_offset are wrt the image origin, while rect_x_offset and
|
|
rect_y_offset are wrt the drawable origin. */
|
|
static void
|
|
fe_DrawMaskedImageWithClipRegion(Display *dpy, Drawable drawable,
|
|
Pixmap img_x_pixmap, Pixmap mask_x_pixmap,
|
|
unsigned int width, unsigned int height,
|
|
int img_x_offset, int img_y_offset,
|
|
int x_offset, int y_offset,
|
|
Region clip_region)
|
|
{
|
|
GC gc, mask_gc;
|
|
XGCValues gcv;
|
|
XP_Rect fill_rect;
|
|
fe_FillPixmapClosure fill_closure;
|
|
|
|
memset (&gcv, ~0, sizeof (XGCValues));
|
|
|
|
/* Set up the GCs. */
|
|
gcv.function = GXcopy;
|
|
gc = XCreateGC(dpy, drawable, GCFunction, &gcv);
|
|
mask_gc = XCreateGC(dpy, mask_x_pixmap, GCFunction, &gcv);
|
|
|
|
/* Draw the masked image into the drawable, but only do so for areas in
|
|
the clip region's rectangle list. */
|
|
fill_rect.left = img_x_offset + x_offset;
|
|
fill_rect.top = img_y_offset + y_offset;
|
|
fill_rect.right = fill_rect.left + width;
|
|
fill_rect.bottom = fill_rect.top + height;
|
|
fill_closure.fill_rect = &fill_rect;
|
|
fill_closure.img_x_pixmap = img_x_pixmap;
|
|
fill_closure.mask_x_pixmap = mask_x_pixmap;
|
|
fill_closure.drawable = drawable;
|
|
fill_closure.gc = gc;
|
|
fill_closure.mask_gc = mask_gc;
|
|
fill_closure.dpy = dpy;
|
|
fill_closure.img_x_offset = img_x_offset;
|
|
fill_closure.img_y_offset = img_y_offset;
|
|
FE_ForEachRectInRegion(clip_region, fe_FillPixmapRectFunc, &fill_closure);
|
|
|
|
/* Clean up. */
|
|
XFreeGC(dpy, gc);
|
|
XFreeGC(dpy, mask_gc);
|
|
}
|
|
|
|
|
|
JMC_PUBLIC_API(void)
|
|
_IMGCB_DisplayPixmap(IMGCB* img_cb, jint op, void* dpy_cx, IL_Pixmap* image,
|
|
IL_Pixmap* mask, jint x, jint y, jint x_offset,
|
|
jint y_offset, jint width, jint height, jint req_w, jint req_h)
|
|
{
|
|
|
|
int32 img_x_offset, img_y_offset; /* Offset of image in drawable. */
|
|
int32 rect_x_offset, rect_y_offset; /* Offset of update rect in
|
|
drawable. */
|
|
NI_PixmapHeader *img_header = &image->header;
|
|
uint32 img_width = img_header->width; /* Image width. */
|
|
uint32 img_height = img_header->height; /* Image height. */
|
|
MWContext *context = (MWContext *)dpy_cx; /* XXX This should be the FE's
|
|
display context. */
|
|
Widget widget = CONTEXT_WIDGET(context);
|
|
fe_Drawable *fe_drawable = CONTEXT_DATA(context)->drawable;
|
|
Drawable drawable = fe_drawable->xdrawable;
|
|
Display *dpy = XtDisplay(widget);
|
|
Pixmap img_x_pixmap, mask_x_pixmap;
|
|
fe_PixmapClientData *img_client_data, *mask_client_data;
|
|
GC gc;
|
|
XGCValues gcv;
|
|
unsigned long flags;
|
|
XP_Bool tiling_required = FALSE;
|
|
fe_ContextData * fec = CONTEXT_DATA(context);
|
|
|
|
/* Check for zero display area. */
|
|
if (width == 0 || height == 0)
|
|
return;
|
|
|
|
/* Retrieve the server pixmaps. */
|
|
img_client_data = (fe_PixmapClientData *)image->client_data;
|
|
if (!img_client_data)
|
|
return;
|
|
img_x_pixmap = img_client_data->pixmap;
|
|
if (!img_x_pixmap)
|
|
return;
|
|
if (mask) {
|
|
mask_client_data = (fe_PixmapClientData *)mask->client_data;
|
|
mask_x_pixmap = mask_client_data->pixmap;
|
|
}
|
|
|
|
|
|
if (context->type == MWContextIcon) {
|
|
if (fec->DisplayPixmap)
|
|
fec->DisplayPixmap( context, image, mask, (PRInt32)width, (PRInt32)height);
|
|
return;
|
|
}
|
|
|
|
/* Determine whether tiling is required. */
|
|
if ((x_offset + width > img_width) || (y_offset + height > img_height))
|
|
tiling_required = TRUE;
|
|
|
|
/* Compute the offset into the drawable of the image origin. */
|
|
img_x_offset = x - CONTEXT_DATA(context)->document_x +
|
|
fe_drawable->x_origin;
|
|
img_y_offset = y - CONTEXT_DATA(context)->document_y +
|
|
fe_drawable->y_origin;
|
|
|
|
/* Compute the offset into the drawable for the area to be drawn. */
|
|
rect_x_offset = img_x_offset + x_offset;
|
|
rect_y_offset = img_y_offset + y_offset;
|
|
|
|
/* Do the actual drawing. There are several cases to be dealt with:
|
|
transparent vs non-transparent, tiled vs non-tiled and clipped by
|
|
compositor's clip region vs not clipped. */
|
|
memset(&gcv, ~0, sizeof (XGCValues));
|
|
if (mask) { /* Image is transparent. */
|
|
if (tiling_required) {
|
|
/* Offsets are measured wrt the origin of the tiled mask to
|
|
be generated. */
|
|
int x_tile_offset = img_x_offset - rect_x_offset;
|
|
int y_tile_offset = img_y_offset - rect_y_offset;
|
|
Pixmap tmp_pixmap = 0;
|
|
|
|
/* Create the mask by tiling the mask_x_pixmap and computing
|
|
the intersection with the compositor's clip region. */
|
|
tmp_pixmap =
|
|
fe_TiledMaskWithClipRegion(dpy, drawable, mask_x_pixmap,
|
|
width, height, x_tile_offset,
|
|
y_tile_offset, -rect_x_offset,
|
|
-rect_y_offset,
|
|
fe_drawable->clip_region);
|
|
|
|
/* Create the GC. Don't attempt to get a GC from the GC cache
|
|
because we are using a temporary mask pixmap. */
|
|
gcv.fill_style = FillTiled;
|
|
gcv.tile = img_x_pixmap;
|
|
gcv.ts_x_origin = img_x_offset;
|
|
gcv.ts_y_origin = img_y_offset;
|
|
gcv.clip_mask = tmp_pixmap;
|
|
gcv.clip_x_origin = rect_x_offset;
|
|
gcv.clip_y_origin = rect_y_offset;
|
|
flags = GCFillStyle | GCTile | GCTileStipXOrigin |
|
|
GCTileStipYOrigin | GCClipMask | GCClipXOrigin | GCClipYOrigin;
|
|
gc = XCreateGC(dpy, drawable, flags, &gcv);
|
|
|
|
/* Draw the image (transparent and tiled.) */
|
|
XFillRectangle (dpy, drawable, gc, rect_x_offset, rect_y_offset,
|
|
width, height);
|
|
|
|
/* Clean up. */
|
|
XFreeGC(dpy, gc);
|
|
XFreePixmap(dpy, tmp_pixmap);
|
|
}
|
|
else { /* Tiling not required. */
|
|
if (fe_drawable->clip_region) {
|
|
|
|
/* Draw the image (transparent, non-tiled and with
|
|
clip_region.) x_offset and y_offset are wrt the image
|
|
origin, while rect_x_offset and rect_y_offset are wrt the
|
|
drawable origin. */
|
|
fe_DrawMaskedImageWithClipRegion(dpy, drawable, img_x_pixmap,
|
|
mask_x_pixmap, width, height,
|
|
img_x_offset, img_y_offset,
|
|
x_offset, y_offset,
|
|
fe_drawable->clip_region);
|
|
}
|
|
else { /* No clip region. */
|
|
/* XXX transparent, non-tiled and no clip_region. */
|
|
}
|
|
}
|
|
}
|
|
else { /* Image is not transparent. */
|
|
if (tiling_required) {
|
|
/* Get the GC from the GC cache. If the compositor has given us
|
|
a clip region, then the GC must have a matching clip mask. */
|
|
gcv.fill_style = FillTiled;
|
|
gcv.tile = img_x_pixmap;
|
|
gcv.ts_x_origin = img_x_offset;
|
|
gcv.ts_y_origin = img_y_offset;
|
|
flags = GCFillStyle | GCTile | GCTileStipXOrigin |
|
|
GCTileStipYOrigin;
|
|
if (fe_drawable->clip_region)
|
|
gc = fe_GetGCfromDW(dpy, drawable, flags, &gcv,
|
|
fe_drawable->clip_region);
|
|
else
|
|
gc = fe_GetGCfromDW(dpy, drawable, flags, &gcv, NULL);
|
|
|
|
/* Draw the image (opaque and tiled.) */
|
|
XFillRectangle (dpy, drawable, gc, rect_x_offset, rect_y_offset,
|
|
width, height);
|
|
}
|
|
else { /* Tiling not required. */
|
|
/* Get the GC from the GC cache. If the compositor has given us
|
|
a clip region, then the GC must have a matching clip mask. */
|
|
gcv.function = GXcopy;
|
|
if (fe_drawable->clip_region)
|
|
gc = fe_GetGCfromDW(dpy, drawable, GCFunction,
|
|
&gcv, fe_drawable->clip_region);
|
|
else
|
|
gc = fe_GetGCfromDW(dpy, drawable, GCFunction, &gcv, NULL);
|
|
|
|
/* Draw the image (opaque and non-tiled.) */
|
|
XCopyArea (dpy, img_x_pixmap, drawable, gc, x_offset,
|
|
y_offset, width, height, rect_x_offset, rect_y_offset);
|
|
}
|
|
}
|
|
|
|
|
|
|
|
|
|
|
|
}
|
|
|
|
|
|
/* Mocha image group observer callback. */
|
|
void
|
|
FE_MochaImageGroupObserver(XP_Observable observable, XP_ObservableMsg message,
|
|
void *message_data, void *closure)
|
|
{
|
|
}
|
|
|
|
/*****************************************************************************/
|
|
/* End of Image Library callbacks */
|
|
/*****************************************************************************/
|