multiVis.c

Bug Summary

File:	multiVis.c
Location:	line 596, column 34
Description:	Dereference of null pointer

Annotated Source Code

/** ------------------------------------------------------------------------

This file contains functions to create a list of regions which

tile a specified window. Each region contains all visible

portions of the window which are drawn with the same visual.

If the window consists of subwindows of two different visual types,

there will be two regions in the list. The list can be traversed

to correctly pull an image of the window using XGetImage or the

Image Library.

Permission to use, copy, modify, distribute, and sell this software and its

documentation for any purpose is hereby granted without fee, provided that

the above copyright notice appear in all copies and that both that

documentation.

The above copyright notice and this permission notice shall be included

in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS

OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF

MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.

IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR

OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,

ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR

OTHER DEALINGS IN THE SOFTWARE.

Except as contained in this notice, the name of The Open Group shall

not be used in advertising or otherwise to promote the sale, use or

other dealings in this Software without prior written authorization

from The Open Group.

------------------------------------------------------------------------ **/

#include <stdlib.h>

#include <X11/Xlib.h>

#include <X11/Xutil.h>

#include <X11/X.h>

#include <stdio.h>

#include "list.h"

#include "wsutils.h"

#include "multiVis.h"

/* These structures are copied from X11/region.h. For some reason

* they're invisible from the outside.

typedef struct {

short x1, x2, y1, y2;

} myBox, myBOX, myBoxRec, *myBoxPtr;

typedef struct my_XRegion {

long size;

long numRects;

myBOX *rects;

myBOX extents;

} myREGION;

/* Items in long list of windows that have some part in the grabbed area */

typedef struct {

Window win;

Visual *vis;

Colormap cmap;

int x_rootrel, y_rootrel; /* root relative location of window */

int x_vis, y_vis; /* rt rel x,y of vis part, not parent clipped */

int width, height; /* width and height of visible part */

int border_width; /* border width of the window */

Window parent; /* id of parent (for debugging) */

} image_win_type;

/* Items in short list of regions that tile the grabbed area. May have

multiple windows in the region.

typedef struct {

Window win; /* lowest window of this visual */

Visual *vis;

Colormap cmap;

int x_rootrel, y_rootrel; /* root relative location of bottom window */

int x_vis, y_vis; /* rt rel x,y of vis part, not parent clipped */

int width, height; /* w & h of visible rect of bottom window */

int border; /* border width of the window */

Region visible_region;

} image_region_type;

/** ------------------------------------------------------------------------

Returns TRUE if the two structs pointed to have the same "vis" &

"cmap" fields and s2 lies completely within s1. s1 and s2 can

point to structs of image_win_type or image_region_type.

------------------------------------------------------------------------ **/

#define SAME_REGIONS( s1, s2)((s1)->vis == (s2)->vis && (s1)->cmap == (s2
)->cmap && (s1)->x_vis <= (s2)->x_vis &&
(s1)->y_vis <= (s2)->y_vis && (s1)->x_vis
+ (s1)->width >= (s2)->x_vis + (s2)->width &&
(s1)->y_vis + (s1)->height >= (s2)->y_vis + (s2)
->height) \

((s1)->vis == (s2)->vis && (s1)->cmap == (s2)->cmap && \

(s1)->x_vis <= (s2)->x_vis && \

(s1)->y_vis <= (s2)->y_vis && \

(s1)->x_vis + (s1)->width >= (s2)->x_vis + (s2)->width && \

(s1)->y_vis + (s1)->height >= (s2)->y_vis + (s2)->height)

#ifndef MIN

#define MIN( a, b)((a) < (b) ? a : b) ((a) < (b) ? a : b)

#define MAX( a, b)((a) > (b) ? a : b) ((a) > (b) ? a : b)

100

#endif

101

102

#define RED_SHIFT16 16

103

#define GREEN_SHIFT8 8

104

#define BLUE_SHIFT0 0

105

106

107

extern list_ptr new_list();

108

extern list_ptr dup_list_head();

109

extern void * first_in_list();

110

extern void * next_in_list();

111

extern int add_to_list();

112

extern void zero_list();

113

extern void delete_list();

114

extern void delete_list_destroying();

115

extern unsigned int list_length();

116

117

118

/* Prototype Declarations for Static Functions */

119

static int QueryColorMap(

120

Display *, Colormap , Visual *,

121

XColor **, int *, int *, int *

122

);

123

static void TransferImage(

124

Display *, XImage *,int, int , image_region_type*,

125

XImage *,int ,int

126

);

127

static XImage * ReadRegionsInList(

128

Display *, Visual *, int ,int ,int ,

129

int , XRectangle, list_ptr

130

);

131

132

static list_ptr make_region_list(

133

Display*, Window, XRectangle*,

134

int*, int, XVisualInfo**, int *

135

);

136

137

static void destroy_region_list(

138

list_ptr

139

) ;

140

static void subtr_rect_from_image_region(

141

image_region_type *, int , int , int , int

142

);

143

static void add_rect_to_image_region(

144

image_region_type *,

145

int , int , int , int

146

);

147

static int src_in_region_list(

148

image_win_type *, list_ptr

149

);

150

static void add_window_to_list(

151

list_ptr, Window, int, int ,

152

int , int , int , int, int,

153

Visual*, Colormap, Window

154

);

155

static int src_in_image(

156

image_win_type *, int , XVisualInfo**

157

);

158

static int src_in_overlay(

159

image_region_type *, int, OverlayInfo *, int*, int*

160

);

161

static void make_src_list(

162

Display *, list_ptr, XRectangle *, Window,

163

int, int, XWindowAttributes *, XRectangle *

164

);

165

static void destroy_image_region(

166

image_region_type *

167

);

168

169

/* End of Prototype Declarations */

170

171

void initFakeVisual(Visual *Vis)

172

{

173

Vis->ext_data=NULL((void*)0);

174

Vis->class = DirectColor5 ;

175

Vis->red_mask = 0x00FF0000;

176

Vis->green_mask = 0x0000FF00 ;

177

Vis->blue_mask = 0x000000FF ;

178

Vis->map_entries = 256 ;

179

Vis->bits_per_rgb = 8 ;

180

}

181

182

static int

183

QueryColorMap(Display *disp, Colormap src_cmap, Visual *src_vis,

184

XColor **src_colors, int *rShift, int *gShift, int *bShift)

185

{

186

int ncolors,i ;

187

unsigned long redMask, greenMask, blueMask;

188

int redShift, greenShift, blueShift;

189

XColor *colors ;

190

191

ncolors = src_vis->map_entries ;

192

*src_colors = colors = (XColor *)malloc(ncolors * sizeof(XColor) ) ;

193

194

if(src_vis->class != TrueColor4 && src_vis->class != DirectColor5)

195

{

196

for(i=0 ; i < ncolors ; i++)

197

{

198

colors[i].pixel = i ;

199

colors[i].pad = 0;

200

colors[i].flags = DoRed(1<<0)|DoGreen(1<<1)|DoBlue(1<<2);

201

}

202

}

203

else /** src is decomposed rgb ***/

204

{

205

/* Get the X colormap */

206

redMask = src_vis->red_mask;

207

greenMask = src_vis->green_mask;

208

blueMask = src_vis->blue_mask;

209

redShift = 0; while (!(redMask&0x1)) {

210

redShift++;

211

redMask = redMask>>1;

212

}

213

greenShift = 0; while (!(greenMask&0x1)) {

214

greenShift++;

215

greenMask = greenMask>>1;

216

}

217

blueShift = 0; while (!(blueMask&0x1)) {

218

blueShift++;

219

blueMask = blueMask>>1;

220

}

221

*rShift = redShift ;

222

*gShift = greenShift ;

223

*bShift = blueShift ;

224

for (i=0; i<ncolors; i++) {

225

if( i <= redMask)colors[i].pixel = (i<<redShift) ;

226

if( i <= greenMask)colors[i].pixel |= (i<<greenShift) ;

227

if( i <= blueMask)colors[i].pixel |= (i<<blueShift) ;

228

/***** example :for gecko's 3-3-2 map, blue index should be <= 3.

229

colors[i].pixel = (i<<redShift)|(i<<greenShift)|(i<<blueShift);

230

*****/

231

colors[i].pad = 0;

232

colors[i].flags = DoRed(1<<0)|DoGreen(1<<1)|DoBlue(1<<2);

233

}

234

}

235

236

237

XQueryColors(disp, src_cmap, colors, ncolors);

238

return ncolors ;

239

}

240

241

int

242

GetMultiVisualRegions(Display *disp,

243

/* root win on which grab was done */

244

Window srcRootWinid,

245

/* root rel UL corner of bounding box of grab */

246

int x, int y,

247

/* size of bounding box of grab */

248

unsigned int width, unsigned int height,

249

int *transparentOverlays, int *numVisuals,

250

XVisualInfo **pVisuals, int *numOverlayVisuals,

251

OverlayInfo **pOverlayVisuals,

252

int *numImageVisuals, XVisualInfo ***pImageVisuals,

253

/* list of regions to read from */

254

list_ptr *vis_regions,

255

list_ptr *vis_image_regions, int *allImage)

256

{

257

int hasNonDefault;

258

XRectangle bbox; /* bounding box of grabbed area */

259

260

261

bbox.x = x; /* init X rect for bounding box */

262

bbox.y = y;

263

bbox.width = width;

264

bbox.height = height;

265

266

GetXVisualInfo(disp,DefaultScreen(disp)(((_XPrivDisplay)disp)->default_screen),

267

transparentOverlays,

268

numVisuals, pVisuals,

269

numOverlayVisuals, pOverlayVisuals,

270

numImageVisuals, pImageVisuals);

271

272

*vis_regions = *vis_image_regions = NULL((void*)0) ;

273

if ((*vis_regions = make_region_list( disp, srcRootWinid, &bbox,

274

&hasNonDefault, *numImageVisuals,

275

*pImageVisuals, allImage)) == NULL((void*)0))

276

return 0 ;

277

278

if (*transparentOverlays)

279

{

280

*allImage = 1; /* until proven otherwise,

281

this flags that it to be an image only list */

282

*vis_image_regions =

283

make_region_list( disp, srcRootWinid, &bbox, &hasNonDefault,

284

*numImageVisuals, *pImageVisuals, allImage);

285

}

286

287

/* if there is a second region in any of the two lists return 1 **/

288

if ( ( *vis_regions && (*vis_regions)->next && (*vis_regions)->next->next ) ||

289

( *vis_image_regions && (*vis_image_regions)->next &&

290

(*vis_image_regions)->next->next ) ) return 1 ;

291

else return 0 ;

292

293

}

294

295

static void TransferImage(Display *disp, XImage *reg_image,

296

int srcw, int srch,

297

image_region_type *reg, XImage *target_image,

298

int dst_x, int dst_y)

299

{

300

int i,j,old_pixel,new_pixel,red_ind,green_ind,blue_ind ;

301

XColor *colors;

302

int rShift,gShift,bShift;

303

304

(void) QueryColorMap(disp,reg->cmap,reg->vis,&colors,

305

&rShift,&gShift,&bShift) ;

306

307

switch (reg->vis->class) {

308

case TrueColor4 :

309

for(i=0 ; i < srch ; i++)

310

{

311

for(j=0 ; j < srcw ; j++)

312

{

313

old_pixel = XGetPixel(reg_image,j,i)((*((reg_image)->f.get_pixel))((reg_image), (j), (i))) ;

314

315

if( reg->vis->map_entries == 16) {

316

317

red_ind = (old_pixel & reg->vis->red_mask) >> rShift ;

318

green_ind = (old_pixel & reg->vis->green_mask) >> gShift ;

319

blue_ind = (old_pixel & reg->vis->blue_mask) >> bShift ;

320

321

new_pixel = (

322

((colors[red_ind].red >> 8) << RED_SHIFT16)

323

|((colors[green_ind].green >> 8) << GREEN_SHIFT8)

324

|((colors[blue_ind].blue >> 8) << BLUE_SHIFT0)

325

);

326

}

327

else

328

new_pixel = old_pixel;

329

330

XPutPixel(target_image,dst_x+j, dst_y+i,new_pixel)((*((target_image)->f.put_pixel))((target_image), (dst_x+j
), (dst_y+i), (new_pixel)));

331

332

}

333

}

334

break;

335

case DirectColor5 :

336

for(i=0 ; i < srch ; i++)

337

{

338

339

for(j=0 ; j < srcw ; j++)

340

{

341

old_pixel = XGetPixel(reg_image,j,i)((*((reg_image)->f.get_pixel))((reg_image), (j), (i))) ;

342

red_ind = (old_pixel & reg->vis->red_mask) >> rShift ;

343

green_ind = (old_pixel & reg->vis->green_mask) >> gShift ;

344

blue_ind = (old_pixel & reg->vis->blue_mask) >> bShift ;

345

346

new_pixel = (

347

((colors[red_ind].red >> 8) << RED_SHIFT16)

348

|((colors[green_ind].green >> 8) << GREEN_SHIFT8)

349

|((colors[blue_ind].blue >> 8) << BLUE_SHIFT0)

350

);

351

XPutPixel(target_image,dst_x+j, dst_y+i,new_pixel)((*((target_image)->f.put_pixel))((target_image), (dst_x+j
), (dst_y+i), (new_pixel)));

352

353

}

354

}

355

break;

356

default :

357

for(i=0 ; i < srch ; i++)

358

{

359

for(j=0 ; j < srcw ; j++)

360

{

361

old_pixel = XGetPixel(reg_image,j,i)((*((reg_image)->f.get_pixel))((reg_image), (j), (i))) ;

362

363

new_pixel = (

364

((colors[old_pixel].red >> 8) << RED_SHIFT16)

365

|((colors[old_pixel].green >> 8) << GREEN_SHIFT8)

366

|((colors[old_pixel].blue >> 8) << BLUE_SHIFT0)

367

);

368

XPutPixel(target_image,dst_x+j, dst_y+i,new_pixel)((*((target_image)->f.put_pixel))((target_image), (dst_x+j
), (dst_y+i), (new_pixel)));

369

370

}

371

}

372

break;

373

}

374

}

375

376

static XImage *

377

ReadRegionsInList(Display *disp, Visual *fakeVis, int depth, int format,

378

int width,int height,

379

XRectangle bbox, /* bounding box of grabbed area */

380

list_ptr regions) /* list of regions to read from */

381

{

382

image_region_type *reg;

383

int dst_x, dst_y; /* where in pixmap to write (UL) */

384

int diff;

385

386

XImage *reg_image,*ximage ;

387

int srcRect_x,srcRect_y,srcRect_width,srcRect_height ;

388

int bytes_per_line;

389

int bitmap_unit;

390

391

bitmap_unit = sizeof (long);

392

393

ximage = XCreateImage(disp,fakeVis,depth,format,0,NULL((void*)0),width,height,

394

8,0) ;

395

bytes_per_line = ximage->bytes_per_line;

396

397

if (format == ZPixmap2)

398

ximage->data = malloc(height*bytes_per_line);

399

else

400

ximage->data = malloc(height*bytes_per_line*depth);

401

402

ximage->bits_per_pixel = depth; /** Valid only if format is ZPixmap ***/

403

404

for (reg = (image_region_type *) first_in_list( regions); reg;

405

reg = (image_region_type *) next_in_list( regions))

406

{

407

int rect;

408

struct my_XRegion *vis_reg;

409

vis_reg = (struct my_XRegion *)(reg->visible_region);

410

for (rect = 0;

411

rect < vis_reg->numRects;

412

rect++)

413

{

414

/** ------------------------------------------------------------------------

415

Intersect bbox with visible part of region giving src rect & output

416

location. Width is the min right side minus the max left side.

417

Similar for height. Offset src rect so x,y are relative to

418

origin of win, not the root-relative visible rect of win.

419

------------------------------------------------------------------------ **/

420

srcRect_width = MIN( vis_reg->rects[rect].x2, bbox.width + bbox.x)((vis_reg->rects[rect].x2) < (bbox.width + bbox.x) ? vis_reg
->rects[rect].x2 : bbox.width + bbox.x) -

421

MAX( vis_reg->rects[rect].x1, bbox.x)((vis_reg->rects[rect].x1) > (bbox.x) ? vis_reg->rects
[rect].x1 : bbox.x);

422

srcRect_height = MIN( vis_reg->rects[rect].y2, bbox.height + bbox.y)((vis_reg->rects[rect].y2) < (bbox.height + bbox.y) ? vis_reg
->rects[rect].y2 : bbox.height + bbox.y) -

423

MAX( vis_reg->rects[rect].y1, bbox.y)((vis_reg->rects[rect].y1) > (bbox.y) ? vis_reg->rects
[rect].y1 : bbox.y);

424

diff = bbox.x - vis_reg->rects[rect].x1;

425

srcRect_x = MAX( 0, diff)((0) > (diff) ? 0 : diff) + (vis_reg->rects[rect].x1 - reg->x_rootrel - reg->border);

426

dst_x = MAX( 0, -diff)((0) > (-diff) ? 0 : -diff) ;

427

diff = bbox.y - vis_reg->rects[rect].y1;

428

srcRect_y = MAX( 0, diff)((0) > (diff) ? 0 : diff) + (vis_reg->rects[rect].y1 - reg->y_rootrel - reg->border);

429

dst_y = MAX( 0, -diff)((0) > (-diff) ? 0 : -diff) ;

430

reg_image = XGetImage(disp,reg->win,srcRect_x,srcRect_y,

431

srcRect_width,srcRect_height,AllPlanes((unsigned long)~0L),format) ;

432

TransferImage(disp,reg_image,srcRect_width,

433

srcRect_height,reg,ximage,dst_x,dst_y) ;

434

}

435

}

436

return ximage ;

437

}

438

439

440

/** ------------------------------------------------------------------------

441

------------------------------------------------------------------------ **/

442

443

XImage *ReadAreaToImage(Display *disp,

444

/* root win on which grab was done */

445

Window srcRootWinid,

446

/* root rel UL corner of bounding box of grab */

447

int x, int y,

448

/* size of bounding box of grab */

449

unsigned int width, unsigned int height,

450

int numVisuals, XVisualInfo *pVisuals,

451

int numOverlayVisuals, OverlayInfo *pOverlayVisuals,

452

int numImageVisuals, XVisualInfo **pImageVisuals,

453

/* list of regions to read from */

454

list_ptr vis_regions,

455

/* list of regions to read from */

456

list_ptr vis_image_regions,

457

int format, int allImage)

458

{

459

image_region_type *reg;

460

XRectangle bbox; /* bounding box of grabbed area */

461

int depth ;

462

XImage *ximage, *ximage_ipm = NULL((void*)0);

463

Visual fakeVis ;

464

int x1, y1;

465

XImage *image;

466

#if 0

467

unsigned char *pmData , *ipmData ;

468

#endif

469

int transparentColor, transparentType;

470

int srcRect_x,srcRect_y,srcRect_width,srcRect_height ;

471

int diff ;

472

int dst_x, dst_y; /* where in pixmap to write (UL) */

473

int pixel;

474

475

bbox.x = x; /* init X rect for bounding box */

476

bbox.y = y;

477

bbox.width = width;

478

bbox.height = height;

479

480

481

initFakeVisual(&fakeVis) ;

482

483

depth = 24 ;

484

ximage = ReadRegionsInList(disp,&fakeVis,depth,format,width,height,

485

bbox,vis_regions) ;

486

#if 0

487

pmData = (unsigned char *)ximage -> data ;

488

#endif

489

490

/* if transparency possible do it again, but this time for image planes only */

491

if (vis_image_regions && (vis_image_regions->next) && !allImage)

1	Taking false branch

492

{

493

ximage_ipm = ReadRegionsInList(disp,&fakeVis,depth,format,width,height,

494

bbox,vis_image_regions) ;

495

#if 0

496

ipmData = (unsigned char *)ximage_ipm -> data ;

497

#endif

498

}

499

/* Now tranverse the overlay visual windows and test for transparency index. */

500

/* If you find one, subsitute the value from the matching image plane pixmap. */

501

502

for (reg = (image_region_type *) first_in_list( vis_regions); reg;

2	Loop condition is true. Entering loop body

4	Loop condition is true. Entering loop body

6	Loop condition is true. Entering loop body

8	Loop condition is true. Entering loop body

503

reg = (image_region_type *) next_in_list( vis_regions))

504

{

505

506

if (src_in_overlay( reg, numOverlayVisuals, pOverlayVisuals,

3	Taking false branch

5	Taking false branch

7	Taking false branch

9	Taking true branch

507

&transparentColor, &transparentType))

508

{

509

int test = 0 ;

510

srcRect_width = MIN( reg->width + reg->x_vis, bbox.width + bbox.x)((reg->width + reg->x_vis) < (bbox.width + bbox.x) ?
reg->width + reg->x_vis : bbox.width + bbox.x)

511

- MAX( reg->x_vis, bbox.x)((reg->x_vis) > (bbox.x) ? reg->x_vis : bbox.x);

512

srcRect_height = MIN( reg->height + reg->y_vis, bbox.height((reg->height + reg->y_vis) < (bbox.height + bbox.y)
? reg->height + reg->y_vis : bbox.height + bbox.y)

513

+ bbox.y)((reg->height + reg->y_vis) < (bbox.height + bbox.y)
? reg->height + reg->y_vis : bbox.height + bbox.y) - MAX( reg->y_vis, bbox.y)((reg->y_vis) > (bbox.y) ? reg->y_vis : bbox.y);

514

diff = bbox.x - reg->x_vis;

515

srcRect_x = MAX( 0, diff)((0) > (diff) ? 0 : diff) + (reg->x_vis - reg->x_rootrel - reg->border);

10	Within the expansion of the macro 'MAX':

a	Assuming 'diff' is < 0

516

dst_x = MAX( 0, -diff)((0) > (-diff) ? 0 : -diff) ;

517

diff = bbox.y - reg->y_vis;

518

srcRect_y = MAX( 0, diff)((0) > (diff) ? 0 : diff) + (reg->y_vis - reg->y_rootrel - reg->border);

11	Within the expansion of the macro 'MAX':

a	Assuming 'diff' is < 0

519

dst_y = MAX( 0, -diff)((0) > (-diff) ? 0 : -diff) ;

520

/* let's test some pixels for transparency */

521

image = XGetImage(disp, reg->win, srcRect_x, srcRect_y,

522

srcRect_width, srcRect_height, 0xffffffff, ZPixmap2);

523

524

/* let's assume byte per pixel for overlay image for now */

525

if ((image->depth == 8) && (transparentType == TransparentPixel1))

12	Taking false branch

526

{

527

unsigned char *pixel_ptr;

528

unsigned char *start_of_line = (unsigned char *) image->data;

529

530

for (y1 = 0; y1 < srcRect_height; y1++) {

531

pixel_ptr = start_of_line;

532

for (x1 = 0; x1 < srcRect_width; x1++)

533

{

534

if (*pixel_ptr++ == transparentColor)

535

{

536

#if 0

537

*pmData++ = *ipmData++;

538

*pmData++ = *ipmData++;

539

*pmData++ = *ipmData++;

540

#endif

541

pixel = XGetPixel(ximage_ipm,dst_x+x1,dst_y+y1)((*((ximage_ipm)->f.get_pixel))((ximage_ipm), (dst_x+x1), (
dst_y+y1))) ;

542

XPutPixel(ximage,dst_x+x1, dst_y+y1,pixel)((*((ximage)->f.put_pixel))((ximage), (dst_x+x1), (dst_y+y1
), (pixel)));

543

544

if(!test){

545

test = 1 ;

546

}

547

}

548

#if 0

549

else {

550

pmData +=3;

551

ipmData +=3;

552

}

553

#endif

554

}

555

start_of_line += image->bytes_per_line;

556

}

557

} else {

558

if (transparentType == TransparentPixel1) {

13	Assuming 'transparentType' is not equal to 1

14	Taking false branch

559

for (y1 = 0; y1 < srcRect_height; y1++) {

560

for (x1 = 0; x1 < srcRect_width; x1++)

561

{

562

int pixel_value = XGetPixel(image, x1, y1)((*((image)->f.get_pixel))((image), (x1), (y1)));

563

if (pixel_value == transparentColor)

564

{

565

#if 0

566

*pmData++ = *ipmData++;

567

*pmData++ = *ipmData++;

568

*pmData++ = *ipmData++;

569

#endif

570

pixel = XGetPixel(ximage_ipm,dst_x+x1,dst_y+y1)((*((ximage_ipm)->f.get_pixel))((ximage_ipm), (dst_x+x1), (
dst_y+y1))) ;

571

XPutPixel(ximage,dst_x+x1, dst_y+y1,pixel)((*((ximage)->f.put_pixel))((ximage), (dst_x+x1), (dst_y+y1
), (pixel)));

572

if(!test){

573

test = 1 ;

574

}

575

}

576

#if 0

577

else {

578

pmData +=3;

579

ipmData +=3;

580

}

581

#endif

582

}

583

}

584

} else {

585

for (y1 = 0; y1 < srcRect_height; y1++) {

15	Assuming 'y1' is < 'srcRect_height'

16	Loop condition is true. Entering loop body

586

for (x1 = 0; x1 < srcRect_width; x1++)

17	Assuming 'x1' is < 'srcRect_width'

18	Loop condition is true. Entering loop body

587

{

588

int pixel_value = XGetPixel(image, x1, y1)((*((image)->f.get_pixel))((image), (x1), (y1)));

589

if (pixel_value & transparentColor)

19	Taking true branch

590

{

591

#if 0

592

*pmData++ = *ipmData++;

593

*pmData++ = *ipmData++;

594

*pmData++ = *ipmData++;

595

#endif

596

pixel = XGetPixel(ximage_ipm,dst_x+x1,dst_y+y1)((*((ximage_ipm)->f.get_pixel))((ximage_ipm), (dst_x+x1), (
dst_y+y1))) ;

20	Within the expansion of the macro 'XGetPixel':

a	Dereference of null pointer

597

XPutPixel(ximage,dst_x+x1, dst_y+y1,pixel)((*((ximage)->f.put_pixel))((ximage), (dst_x+x1), (dst_y+y1
), (pixel)));

598

if(!test){

599

test = 1 ;

600

}

601

}

602

#if 0

603

else {

604

pmData +=3;

605

ipmData +=3;

606

}

607

#endif

608

}

609

}

610

}

611

}

612

XDestroyImage (image)((*((image)->f.destroy_image))((image)));

613

} /* end of src_in_overlay */

614

} /** end transparency **/

615

destroy_region_list( vis_regions);

616

if (vis_image_regions) destroy_region_list( vis_image_regions );

617

FreeXVisualInfo(pVisuals, pOverlayVisuals, pImageVisuals);

618

XSync(disp, 0);

619

620

return ximage;

621

}

622

623

/** ------------------------------------------------------------------------

624

Creates a list of the subwindows of a given window which have a

625

different visual than their parents. The function is recursive.

626

This list is used in make_region_list(), which coalesces the

627

windows with the same visual into a region.

628

image_wins must point to an existing list struct that's already

629

been zeroed (zero_list()).

630

------------------------------------------------------------------------ **/

631

static void make_src_list(Display *disp, list_ptr image_wins,

632

/* bnding box of area we want */

633

XRectangle *bbox,

634

Window curr,

635

/* pos of curr WRT root */

636

int x_rootrel, int y_rootrel,

637

XWindowAttributes *curr_attrs,

638

/* visible part of curr, not obscurred by ancestors */

639

XRectangle *pclip)

640

{

641

XWindowAttributes child_attrs;

642

Window root, parent, *child; /* variables for XQueryTree() */

643

Window *save_child_list; /* variables for XQueryTree() */

644

unsigned int nchild; /* variables for XQueryTree() */

645

XRectangle child_clip; /* vis part of child */

646

int curr_clipX, curr_clipY, curr_clipRt, curr_clipBt;

647

648

/* check that win is mapped & not outside bounding box */

649

if (curr_attrs->map_state == IsViewable2 &&

650

curr_attrs->class == InputOutput1 &&

651

!( pclip->x >= (int) (bbox->x + bbox->width) ||

652

pclip->y >= (int) (bbox->y + bbox->height) ||

653

(int) (pclip->x + pclip->width) <= bbox->x ||

654

(int) (pclip->y + pclip->height) <= bbox->y)) {

655

656

XQueryTree( disp, curr, &root, &parent, &child, &nchild );

657

save_child_list = child; /* so we can free list when we're done */

658

add_window_to_list( image_wins, curr, x_rootrel, y_rootrel,

659

pclip->x, pclip->y,

660

pclip->width, pclip->height,

661

curr_attrs->border_width,curr_attrs->visual,

662

curr_attrs->colormap, parent);

663

664

665

/** ------------------------------------------------------------------------

666

set RR coords of right (Rt), left (X), bottom (Bt) and top (Y)

667

of rect we clip all children by. This is our own clip rect (pclip)

668

inflicted on us by our parent plus our own borders. Within the

669

child loop, we figure the clip rect for each child by adding in

670

it's rectangle (not taking into account the child's borders).

671

------------------------------------------------------------------------ **/

672

curr_clipX = MAX( pclip->x, x_rootrel + (int) curr_attrs->border_width)((pclip->x) > (x_rootrel + (int) curr_attrs->border_width
) ? pclip->x : x_rootrel + (int) curr_attrs->border_width
);

673

curr_clipY = MAX( pclip->y, y_rootrel + (int) curr_attrs->border_width)((pclip->y) > (y_rootrel + (int) curr_attrs->border_width
) ? pclip->y : y_rootrel + (int) curr_attrs->border_width
);

674

curr_clipRt = MIN( pclip->x + (int) pclip->width,((pclip->x + (int) pclip->width) < (x_rootrel + (int
) curr_attrs->width + 2 * (int) curr_attrs->border_width
) ? pclip->x + (int) pclip->width : x_rootrel + (int) curr_attrs
->width + 2 * (int) curr_attrs->border_width)

675

x_rootrel + (int) curr_attrs->width +((pclip->x + (int) pclip->width) < (x_rootrel + (int
) curr_attrs->width + 2 * (int) curr_attrs->border_width
) ? pclip->x + (int) pclip->width : x_rootrel + (int) curr_attrs
->width + 2 * (int) curr_attrs->border_width)

676

2 * (int) curr_attrs->border_width)((pclip->x + (int) pclip->width) < (x_rootrel + (int
) curr_attrs->width + 2 * (int) curr_attrs->border_width
) ? pclip->x + (int) pclip->width : x_rootrel + (int) curr_attrs
->width + 2 * (int) curr_attrs->border_width);

677

curr_clipBt = MIN( pclip->y + (int) pclip->height,((pclip->y + (int) pclip->height) < (y_rootrel + (int
) curr_attrs->height + 2 * (int) curr_attrs->border_width
) ? pclip->y + (int) pclip->height : y_rootrel + (int) curr_attrs
->height + 2 * (int) curr_attrs->border_width)

678

y_rootrel + (int) curr_attrs->height +((pclip->y + (int) pclip->height) < (y_rootrel + (int
) curr_attrs->height + 2 * (int) curr_attrs->border_width
) ? pclip->y + (int) pclip->height : y_rootrel + (int) curr_attrs
->height + 2 * (int) curr_attrs->border_width)

679

2 * (int) curr_attrs->border_width)((pclip->y + (int) pclip->height) < (y_rootrel + (int
) curr_attrs->height + 2 * (int) curr_attrs->border_width
) ? pclip->y + (int) pclip->height : y_rootrel + (int) curr_attrs
->height + 2 * (int) curr_attrs->border_width);

680

681

while (nchild--) {

682

int new_width, new_height;

683

int child_xrr, child_yrr; /* root relative x & y of child */

684

685

XGetWindowAttributes( disp, *child, &child_attrs);

686

687

/* intersect parent & child clip rects */

688

child_xrr = x_rootrel + child_attrs.x + curr_attrs->border_width;

689

child_clip.x = MAX( curr_clipX, child_xrr)((curr_clipX) > (child_xrr) ? curr_clipX : child_xrr);

690

new_width = MIN( curr_clipRt, child_xrr + (int) child_attrs.width((curr_clipRt) < (child_xrr + (int) child_attrs.width + 2 *
child_attrs.border_width) ? curr_clipRt : child_xrr + (int) child_attrs
.width + 2 * child_attrs.border_width)

691

+ 2 * child_attrs.border_width)((curr_clipRt) < (child_xrr + (int) child_attrs.width + 2 *
child_attrs.border_width) ? curr_clipRt : child_xrr + (int) child_attrs
.width + 2 * child_attrs.border_width)

692

- child_clip.x;

693

if (new_width >= 0) {

694

child_clip.width = new_width;

695

696

child_yrr = y_rootrel + child_attrs.y +

697

curr_attrs->border_width;

698

child_clip.y = MAX( curr_clipY, child_yrr)((curr_clipY) > (child_yrr) ? curr_clipY : child_yrr);

699

new_height = MIN( curr_clipBt,((curr_clipBt) < (child_yrr + (int) child_attrs.height + 2
* child_attrs.border_width) ? curr_clipBt : child_yrr + (int
) child_attrs.height + 2 * child_attrs.border_width)

700

child_yrr + (int) child_attrs.height +((curr_clipBt) < (child_yrr + (int) child_attrs.height + 2
* child_attrs.border_width) ? curr_clipBt : child_yrr + (int
) child_attrs.height + 2 * child_attrs.border_width)

701

2 * child_attrs.border_width)((curr_clipBt) < (child_yrr + (int) child_attrs.height + 2
* child_attrs.border_width) ? curr_clipBt : child_yrr + (int
) child_attrs.height + 2 * child_attrs.border_width)

702

- child_clip.y;

703

if (new_height >= 0) {

704

child_clip.height = new_height;

705

make_src_list( disp, image_wins, bbox, *child,

706

child_xrr, child_yrr,

707

&child_attrs, &child_clip);

708

}

709

}

710

child++;

711

}

712

XFree( save_child_list);

713

}

714

}

715

716

717

/** ------------------------------------------------------------------------

718

This function creates a list of regions which tile a specified

719

window. Each region contains all visible portions of the window

720

which are drawn with the same visual. For example, if the

721

window consists of subwindows of two different visual types,

722

there will be two regions in the list.

723

Returns a pointer to the list.

724

------------------------------------------------------------------------ **/

725

static list_ptr make_region_list(Display *disp, Window win, XRectangle *bbox,

726

int *hasNonDefault, int numImageVisuals,

727

XVisualInfo **pImageVisuals, int *allImage)

728

{

729

XWindowAttributes win_attrs;

730

list image_wins;

731

list_ptr image_regions;

732

list_ptr srcs_left;

733

image_region_type *new_reg;

734

image_win_type *base_src, *src;

735

Region bbox_region = XCreateRegion();

736

XRectangle clip;

737

int image_only;

738

739

int count=0 ;

740

741

*hasNonDefault = False0;

742

XUnionRectWithRegion( bbox, bbox_region, bbox_region);

743

XGetWindowAttributes( disp, win, &win_attrs);

744

745

zero_list( &image_wins);

746

clip.x = 0;

747

clip.y = 0;

748

clip.width = win_attrs.width;

749

clip.height = win_attrs.height;

750

make_src_list( disp, &image_wins, bbox, win,

751

0 /* x_rootrel */, 0 /* y_rootrel */, &win_attrs, &clip);

752

753

image_regions = new_list();

754

image_only = (*allImage) ? True1:False0;

755

756

for (base_src = (image_win_type *) first_in_list( &image_wins); base_src;

757

base_src = (image_win_type *) next_in_list( &image_wins))

758

{

759

/* test for image visual */

760

if (!image_only || src_in_image(base_src, numImageVisuals, pImageVisuals))

761

{

762

/* find a window whose visual hasn't been put in list yet */

763

if (!src_in_region_list( base_src, image_regions))

764

{

765

if (! (new_reg = (image_region_type *)

766

malloc( sizeof( image_region_type)))) {

767

return (list_ptr) NULL((void*)0);

768

}

769

count++;

770

771

new_reg->visible_region = XCreateRegion();

772

new_reg->win = base_src->win;

773

new_reg->vis = base_src->vis;

774

new_reg->cmap = base_src->cmap;

775

new_reg->x_rootrel = base_src->x_rootrel;

776

new_reg->y_rootrel = base_src->y_rootrel;

777

new_reg->x_vis = base_src->x_vis;

778

new_reg->y_vis = base_src->y_vis;

779

new_reg->width = base_src->width;

780

new_reg->height = base_src->height;

781

new_reg->border = base_src->border_width;

782

783

srcs_left = (list_ptr) dup_list_head( &image_wins, START_AT_CURR1);

784

for (src = (image_win_type *) first_in_list( srcs_left); src;

785

src = (image_win_type *) next_in_list( srcs_left)) {

786

if (SAME_REGIONS( base_src, src)((base_src)->vis == (src)->vis && (base_src)->
cmap == (src)->cmap && (base_src)->x_vis <= (
src)->x_vis && (base_src)->y_vis <= (src)->
y_vis && (base_src)->x_vis + (base_src)->width >=
(src)->x_vis + (src)->width && (base_src)->
y_vis + (base_src)->height >= (src)->y_vis + (src)->
height)) {

787

add_rect_to_image_region( new_reg, src->x_vis, src->y_vis,

788

src->width, src->height);

789

}

790

else {

791

if (!image_only || src_in_image(src, numImageVisuals, pImageVisuals))

792

{

793

subtr_rect_from_image_region( new_reg, src->x_vis,

794

src->y_vis, src->width, src->height);

795

}

796

}

797

}

798

XIntersectRegion( bbox_region, new_reg->visible_region,

799

new_reg->visible_region);

800

if (! XEmptyRegion( new_reg->visible_region)) {

801

add_to_list( image_regions, new_reg);

802

if (new_reg->vis != DefaultVisualOfScreen( win_attrs.screen)((win_attrs.screen)->root_visual) ||

803

new_reg->cmap != DefaultColormapOfScreen(((win_attrs.screen)->cmap)

804

win_attrs.screen)((win_attrs.screen)->cmap)) {

805

*hasNonDefault = True1;

806

}

807

}

808

else {

809

XDestroyRegion( new_reg->visible_region);

810

free( (void *) new_reg);

811

}

812

}

813

} else *allImage = 0;

814

}

815

delete_list( &image_wins, True1);

816

XDestroyRegion( bbox_region);

817

return image_regions;

818

}

819

/** ------------------------------------------------------------------------

820

Destructor called from destroy_region_list().

821

------------------------------------------------------------------------ **/

822

static void destroy_image_region(image_region_type *image_region)

823

{

824

XDestroyRegion( image_region->visible_region);

825

free( (void *) image_region);

826

}

827

828

/** ------------------------------------------------------------------------

829

Destroys the region list, destroying all the regions contained in it.

830

------------------------------------------------------------------------ **/

831

static void destroy_region_list(list_ptr rlist)

832

{

833

delete_list_destroying( rlist, (DESTRUCT_FUNC_PTR)destroy_image_region);

834

}

835

836

837

/** ------------------------------------------------------------------------

838

Subtracts the specified rectangle from the region in image_region.

839

First converts the rectangle to a region of its own, since X

840

only provides a way to subtract one region from another, not a

841

rectangle from a region.

842

------------------------------------------------------------------------ **/

843

static void subtr_rect_from_image_region(image_region_type *image_region,

844

int x, int y, int width, int height)

845

{

846

XRectangle rect;

847

Region rect_region;

848

849

rect_region = XCreateRegion();

850

rect.x = x;

851

rect.y = y;

852

rect.width = width;

853

rect.height = height;

854

XUnionRectWithRegion( &rect, rect_region, rect_region);

855

XSubtractRegion( image_region->visible_region, rect_region,

856

image_region->visible_region);

857

XDestroyRegion( rect_region);

858

}

859

860

861

/** ------------------------------------------------------------------------

862

Adds the specified rectangle to the region in image_region.

863

------------------------------------------------------------------------ **/

864

static void add_rect_to_image_region(image_region_type *image_region,

865

int x, int y, int width, int height)

866

{

867

XRectangle rect;

868

869

rect.x = x;

870

rect.y = y;

871

rect.width = width;

872

rect.height = height;

873

XUnionRectWithRegion( &rect, image_region->visible_region,

874

image_region->visible_region);

875

}

876

877

878

/** ------------------------------------------------------------------------

879

Returns TRUE if the given src's visual is already represented in

880

the image_regions list, FALSE otherwise.

881

------------------------------------------------------------------------ **/

882

static int src_in_region_list(image_win_type *src, list_ptr image_regions)

883

{

884

image_region_type *ir;

885

886

for (ir = (image_region_type *) first_in_list( image_regions); ir;

887

ir = (image_region_type *) next_in_list( image_regions)) {

888

if (SAME_REGIONS( ir, src)((ir)->vis == (src)->vis && (ir)->cmap == (src
)->cmap && (ir)->x_vis <= (src)->x_vis &&
(ir)->y_vis <= (src)->y_vis && (ir)->x_vis
+ (ir)->width >= (src)->x_vis + (src)->width &&
(ir)->y_vis + (ir)->height >= (src)->y_vis + (src
)->height)) {

889

890

return 1;

891

}

892

}

893

894

return 0;

895

}

896

897

898

/** ------------------------------------------------------------------------

899

Makes a new entry in image_wins with the given fields filled in.

900

------------------------------------------------------------------------ **/

901

static void add_window_to_list(list_ptr image_wins, Window w,

902

int xrr, int yrr, int x_vis, int y_vis,

903

int width, int height, int border_width,

904

Visual *vis, Colormap cmap, Window parent)

905

{

906

image_win_type *new_src;

907

908

if ((new_src = (image_win_type *) malloc( sizeof( image_win_type))) == NULL((void*)0))

909

910

return;

911

912

new_src->win = w;

913

new_src->x_rootrel = xrr;

914

new_src->y_rootrel = yrr;

915

new_src->x_vis = x_vis;

916

new_src->y_vis = y_vis;

917

new_src->width = width;

918

new_src->height = height;

919

new_src->border_width = border_width;

920

new_src->vis = vis;

921

new_src->cmap = cmap;

922

new_src->parent = parent;

923

add_to_list( image_wins, new_src);

924

}

925

926

/** ------------------------------------------------------------------------

927

Returns TRUE if the given src's visual is in the image planes,

928

FALSE otherwise.

929

------------------------------------------------------------------------ **/

930

static int src_in_image(image_win_type *src, int numImageVisuals,

931

XVisualInfo **pImageVisuals)

932

{

933

int i;

934

935

for (i = 0 ; i < numImageVisuals ; i++)

936

{

937

if (pImageVisuals[i]->visual == src->vis)

938

return 1;

939

}

940

return 0;

941

}

942

943

944

/** ------------------------------------------------------------------------

945

Returns TRUE if the given src's visual is in the overlay planes

946

and transparency is possible, FALSE otherwise.

947

------------------------------------------------------------------------ **/

948

static int src_in_overlay(image_region_type *src, int numOverlayVisuals,

949

OverlayInfo *pOverlayVisuals,

950

int *transparentColor, int *transparentType)

951

{

952

int i;

953

954

for (i = 0 ; i < numOverlayVisuals ; i++)

955

{

956

if (((pOverlayVisuals[i].pOverlayVisualInfo)->visual == src->vis)

957

&& (pOverlayVisuals[i].transparentType != None0L))

958

{

959

*transparentColor = pOverlayVisuals[i].value;

960

*transparentType = pOverlayVisuals[i].transparentType;

961

return 1;

962

}

963

964

else {

965

}

966

967

}

968

return 0;

969

}

970

971

972

/********************** from wsutils.c ******************************/

973

974

/******************************************************************************

975

976

* This file contains a set of example utility procedures; procedures that can

977

* help a "window-smart" Starbase or PHIGS program determine information about

978

* a device, and create image and overlay plane windows. To use these

979

* utilities, #include "wsutils.h" and compile this file and link the results

980

* with your program.

981

982

******************************************************************************/

983

984

985

986

#define STATIC_GRAY0x01 0x01

987

#define GRAY_SCALE0x02 0x02

988

#define PSEUDO_COLOR0x04 0x04

989

#define TRUE_COLOR0x10 0x10

990

#define DIRECT_COLOR0x11 0x11

991

992

993

static int weCreateServerOverlayVisualsProperty = False0;

994

995

996

/******************************************************************************

997

998

* GetXVisualInfo()

999

1000

* This routine takes an X11 Display, screen number, and returns whether the

1001

* screen supports transparent overlays and three arrays:

1002

1003

* 1) All of the XVisualInfo struct's for the screen.

1004

* 2) All of the OverlayInfo struct's for the screen.

1005

* 3) An array of pointers to the screen's image plane XVisualInfo

1006

* structs.

1007

1008

* The code below obtains the array of all the screen's visuals, and obtains

1009

* the array of all the screen's overlay visual information. It then processes

1010

* the array of the screen's visuals, determining whether the visual is an

1011

* overlay or image visual.

1012

1013

* If the routine sucessfully obtained the visual information, it returns zero.

1014

* If the routine didn't obtain the visual information, it returns non-zero.

1015

1016

******************************************************************************/

1017

1018

int GetXVisualInfo(/* Which X server (aka "display"). */

1019

Display *display,

1020

/* Which screen of the "display". */

1021

int screen,

1022

/* Non-zero if there's at least one overlay visual and

1023

* if at least one of those supports a transparent pixel. */

1024

int *transparentOverlays,

1025

/* Number of XVisualInfo struct's pointed to by pVisuals. */

1026

int *numVisuals,

1027

/* All of the device's visuals. */

1028

XVisualInfo **pVisuals,

1029

/* Number of OverlayInfo's pointed to by pOverlayVisuals.

1030

* If this number is zero, the device does not have

1031

* overlay planes. */

1032

int *numOverlayVisuals,

1033

/* The device's overlay plane visual information. */

1034

OverlayInfo **pOverlayVisuals,

1035

/* Number of XVisualInfo's pointed to by pImageVisuals. */

1036

int *numImageVisuals,

1037

/* The device's image visuals. */

1038

XVisualInfo ***pImageVisuals)

1039

{

1040

XVisualInfo getVisInfo; /* Paramters of XGetVisualInfo */

1041

int mask;

1042

XVisualInfo *pVis, **pIVis; /* Faster, local copies */

1043

OverlayInfo *pOVis;

1044

OverlayVisualPropertyRec *pOOldVis;

1045

int nVisuals, nOVisuals;

1046

Atom overlayVisualsAtom; /* Parameters for XGetWindowProperty */

1047

Atom actualType;

1048

unsigned long numLongs, bytesAfter;

1049

int actualFormat;

1050

int nImageVisualsAlloced; /* Values to process the XVisualInfo */

1051

int imageVisual; /* array */

1052

1053

1054

/* First, get the list of visuals for this screen. */

1055

getVisInfo.screen = screen;

1056

mask = VisualScreenMask0x2;

1057

1058

*pVisuals = XGetVisualInfo(display, mask, &getVisInfo, numVisuals);

1059

if ((nVisuals = *numVisuals) <= 0)

1060

{

1061

/* Return that the information wasn't sucessfully obtained: */

1062

return(1);

1063

}

1064

pVis = *pVisuals;

1065

1066

1067

/* Now, get the overlay visual information for this screen. To obtain

1068

* this information, get the SERVER_OVERLAY_VISUALS property.

1069

1070

overlayVisualsAtom = XInternAtom(display, "SERVER_OVERLAY_VISUALS", True1);

1071

if (overlayVisualsAtom != None0L)

1072

{

1073

/* Since the Atom exists, we can request the property's contents. The

1074

* do-while loop makes sure we get the entire list from the X server.

1075

1076

bytesAfter = 0;

1077

numLongs = sizeof(OverlayVisualPropertyRec) / sizeof(long);

1078

1079

{

1080

numLongs += bytesAfter * sizeof(long);

1081

XGetWindowProperty(display, RootWindow(display, screen)((&((_XPrivDisplay)display)->screens[screen])->root
),

1082

overlayVisualsAtom, 0, numLongs, False0,

1083

overlayVisualsAtom, &actualType, &actualFormat,

1084

&numLongs, &bytesAfter, (unsigned char**) pOverlayVisuals);

1085

} while (bytesAfter > 0);

1086

1087

1088

/* Calculate the number of overlay visuals in the list. */

1089

*numOverlayVisuals = numLongs / (sizeof(OverlayVisualPropertyRec) / sizeof(long));

1090

}

1091

else

1092

{

1093

/* This screen doesn't have overlay planes. */

1094

*numOverlayVisuals = 0;

1095

*pOverlayVisuals = NULL((void*)0);

1096

*transparentOverlays = 0;

1097

}

1098

1099

1100

/* Process the pVisuals array. */

1101

*numImageVisuals = 0;

1102

nImageVisualsAlloced = 1;

1103

pIVis = *pImageVisuals = (XVisualInfo **) malloc(sizeof(XVisualInfo *));

1104

while (--nVisuals >= 0)

1105

{

1106

nOVisuals = *numOverlayVisuals;

1107

pOVis = *pOverlayVisuals;

1108

imageVisual = True1;

1109

while (--nOVisuals >= 0)

1110

{

1111

pOOldVis = (OverlayVisualPropertyRec *) pOVis;

1112

if (pVis->visualid == pOOldVis->visualID)

1113

{

1114

imageVisual = False0;

1115

pOVis->pOverlayVisualInfo = pVis;

1116

if (pOVis->transparentType == TransparentPixel1)

1117

*transparentOverlays = 1;

1118

}

1119

pOVis++;

1120

}

1121

if (imageVisual)

1122

{

1123

if ((*numImageVisuals += 1) > nImageVisualsAlloced)

1124

{

1125

nImageVisualsAlloced++;

1126

*pImageVisuals = (XVisualInfo **)

1127

realloc(*pImageVisuals, (nImageVisualsAlloced * sizeof(XVisualInfo *)));

1128

pIVis = *pImageVisuals + (*numImageVisuals - 1);

1129

}

1130

*pIVis++ = pVis;

1131

}

1132

pVis++;

1133

}

1134

1135

1136

/* Return that the information was sucessfully obtained: */

1137

return(0);

1138

1139

} /* GetXVisualInfo() */

1140

1141

1142

/******************************************************************************

1143

1144

* FreeXVisualInfo()

1145

1146

* This routine frees the data that was allocated by GetXVisualInfo().

1147

1148

******************************************************************************/

1149

1150

void FreeXVisualInfo(XVisualInfo *pVisuals, OverlayInfo *pOverlayVisuals,

1151

XVisualInfo **pImageVisuals)

1152

{

1153

XFree(pVisuals);

1154

if (weCreateServerOverlayVisualsProperty)

1155

free(pOverlayVisuals);

1156

else

1157

XFree(pOverlayVisuals);

1158

free(pImageVisuals);

1159

1160

} /* FreeXVisualInfo() */