bitscale.c

Bug Summary

File:	bitmap/bitscale.c
Location:	line 1509, column 27
Description:	Call to 'calloc' has an allocation size of 0 bytes

Annotated Source Code

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.

* Author: Keith Packard, MIT X Consortium

#ifdef HAVE_CONFIG_H1

#include <config.h>

#endif

* Translate monolithic #defines to modular definitions

#ifdef PCFFORMAT

#define XFONT_PCFFORMAT1 1

#endif

#ifdef SNFFORMAT

#define XFONT_SNFFORMAT1 1

#endif

#ifdef BDFFORMAT

#define XFONT_BDFFORMAT1 1

#endif

#include <X11/fonts/fntfilst.h>

#include <X11/fonts/bitmap.h>

#include <X11/fonts/fontutil.h>

#include <math.h>

#ifndef MAX

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

#endif

/* Should get this from elsewhere */

extern unsigned long serverGeneration;

static void bitmapUnloadScalable (FontPtr pFont);

static void ScaleBitmap ( FontPtr pFont, CharInfoPtr opci,

CharInfoPtr pci, double *inv_xform,

double widthMult, double heightMult );

static FontPtr BitmapScaleBitmaps(FontPtr pf, FontPtr opf,

double widthMult, double heightMult,

FontScalablePtr vals);

enum scaleType {

atom, truncate_atom, pixel_size, point_size, resolution_x,

resolution_y, average_width, scaledX, scaledY, unscaled, fontname,

raw_ascent, raw_descent, raw_pixelsize, raw_pointsize,

raw_average_width, uncomputed

};

typedef struct _fontProp {

const char *name;

Atom atom;

enum scaleType type;

} fontProp;

static FontEntryPtr FindBestToScale ( FontPathElementPtr fpe,

FontEntryPtr entry,

FontScalablePtr vals,

FontScalablePtr best,

double *dxp, double *dyp,

double *sdxp, double *sdyp,

FontPathElementPtr *fpep );

static unsigned long bitscaleGeneration = 0; /* initialization flag */

static fontProp fontNamePropTable[] = {

{ "FOUNDRY", 0, atom },

{ "FAMILY_NAME", 0, atom },

{ "WEIGHT_NAME", 0, atom },

100

{ "SLANT", 0, atom },

101

{ "SETWIDTH_NAME", 0, atom },

102

{ "ADD_STYLE_NAME", 0, atom },

103

{ "PIXEL_SIZE", 0, pixel_size },

104

{ "POINT_SIZE", 0, point_size },

105

{ "RESOLUTION_X", 0, resolution_x },

106

{ "RESOLUTION_Y", 0, resolution_y },

107

{ "SPACING", 0, atom },

108

{ "AVERAGE_WIDTH", 0, average_width },

109

{ "CHARSET_REGISTRY", 0, atom },

110

{ "CHARSET_ENCODING", 0, truncate_atom },

111

{ "FONT", 0, fontname },

112

{ "RAW_ASCENT", 0, raw_ascent },

113

{ "RAW_DESCENT", 0, raw_descent },

114

{ "RAW_PIXEL_SIZE", 0, raw_pixelsize },

115

{ "RAW_POINT_SIZE", 0, raw_pointsize },

116

{ "RAW_AVERAGE_WIDTH", 0, raw_average_width }

117

};

118

119

#define TRANSFORM_POINT(matrix, x, y, dest)((dest)[0] = (matrix)[0] * (x) + (matrix)[2] * (y), (dest)[1]
= (matrix)[1] * (x) + (matrix)[3] * (y)) \

120

((dest)[0] = (matrix)[0] * (x) + (matrix)[2] * (y), \

121

(dest)[1] = (matrix)[1] * (x) + (matrix)[3] * (y))

122

123

#define CHECK_EXTENT(lsb, rsb, desc, asc, data)((lsb) > (data)[0] ? (lsb) = (data)[0] : 0 , (rsb) < (data
)[0] ? (rsb) = (data)[0] : 0, (-desc) > (data)[1] ? (desc)
= -(data)[1] : 0 , (asc) < (data)[1] ? (asc) = (data)[1] :
0) \

124

((lsb) > (data)[0] ? (lsb) = (data)[0] : 0 , \

125

(rsb) < (data)[0] ? (rsb) = (data)[0] : 0, \

126

(-desc) > (data)[1] ? (desc) = -(data)[1] : 0 , \

127

(asc) < (data)[1] ? (asc) = (data)[1] : 0)

128

129

#define NPROPS(sizeof(fontNamePropTable) / sizeof(fontProp)) (sizeof(fontNamePropTable) / sizeof(fontProp))

130

131

/* Warning: order of the next two tables is critically interdependent.

132

Location of "unscaled" properties at the end of fontPropTable[]

133

is important. */

134

135

static fontProp fontPropTable[] = {

136

{ "MIN_SPACE", 0, scaledX },

137

{ "NORM_SPACE", 0, scaledX },

138

{ "MAX_SPACE", 0, scaledX },

139

{ "END_SPACE", 0, scaledX },

140

{ "AVG_CAPITAL_WIDTH", 0, scaledX },

141

{ "AVG_LOWERCASE_WIDTH", 0, scaledX },

142

{ "QUAD_WIDTH", 0, scaledX },

143

{ "FIGURE_WIDTH", 0, scaledX },

144

{ "SUPERSCRIPT_X", 0, scaledX },

145

{ "SUPERSCRIPT_Y", 0, scaledY },

146

{ "SUBSCRIPT_X", 0, scaledX },

147

{ "SUBSCRIPT_Y", 0, scaledY },

148

{ "SUPERSCRIPT_SIZE", 0, scaledY },

149

{ "SUBSCRIPT_SIZE", 0, scaledY },

150

{ "SMALL_CAP_SIZE", 0, scaledY },

151

{ "UNDERLINE_POSITION", 0, scaledY },

152

{ "UNDERLINE_THICKNESS", 0, scaledY },

153

{ "STRIKEOUT_ASCENT", 0, scaledY },

154

{ "STRIKEOUT_DESCENT", 0, scaledY },

155

{ "CAP_HEIGHT", 0, scaledY },

156

{ "X_HEIGHT", 0, scaledY },

157

{ "ITALIC_ANGLE", 0, unscaled },

158

{ "RELATIVE_SETWIDTH", 0, unscaled },

159

{ "RELATIVE_WEIGHT", 0, unscaled },

160

{ "WEIGHT", 0, unscaled },

161

{ "DESTINATION", 0, unscaled },

162

{ "PCL_FONT_NAME", 0, unscaled },

163

{ "_ADOBE_POSTSCRIPT_FONTNAME", 0, unscaled }

164

};

165

166

static fontProp rawFontPropTable[] = {

167

{ "RAW_MIN_SPACE", 0, },

168

{ "RAW_NORM_SPACE", 0, },

169

{ "RAW_MAX_SPACE", 0, },

170

{ "RAW_END_SPACE", 0, },

171

{ "RAW_AVG_CAPITAL_WIDTH", 0, },

172

{ "RAW_AVG_LOWERCASE_WIDTH", 0, },

173

{ "RAW_QUAD_WIDTH", 0, },

174

{ "RAW_FIGURE_WIDTH", 0, },

175

{ "RAW_SUPERSCRIPT_X", 0, },

176

{ "RAW_SUPERSCRIPT_Y", 0, },

177

{ "RAW_SUBSCRIPT_X", 0, },

178

{ "RAW_SUBSCRIPT_Y", 0, },

179

{ "RAW_SUPERSCRIPT_SIZE", 0, },

180

{ "RAW_SUBSCRIPT_SIZE", 0, },

181

{ "RAW_SMALL_CAP_SIZE", 0, },

182

{ "RAW_UNDERLINE_POSITION", 0, },

183

{ "RAW_UNDERLINE_THICKNESS", 0, },

184

{ "RAW_STRIKEOUT_ASCENT", 0, },

185

{ "RAW_STRIKEOUT_DESCENT", 0, },

186

{ "RAW_CAP_HEIGHT", 0, },

187

{ "RAW_X_HEIGHT", 0, }

188

};

189

190

static void

191

initFontPropTable(void)

192

{

193

int i;

194

fontProp *t;

195

196

i = sizeof(fontNamePropTable) / sizeof(fontProp);

197

for (t = fontNamePropTable; i; i--, t++)

198

t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE1);

199

200

i = sizeof(fontPropTable) / sizeof(fontProp);

201

for (t = fontPropTable; i; i--, t++)

202

t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE1);

203

204

i = sizeof(rawFontPropTable) / sizeof(fontProp);

205

for (t = rawFontPropTable; i; i--, t++)

206

t->atom = MakeAtom(t->name, (unsigned) strlen(t->name), TRUE1);

207

}

208

209

#if 0

210

static FontEntryPtr

211

GetScalableEntry (FontPathElementPtr fpe, FontNamePtr name)

212

{

213

FontDirectoryPtr dir;

214

215

dir = (FontDirectoryPtr) fpe->private;

216

return FontFileFindNameInDir (&dir->scalable, name);

217

}

218

#endif

219

220

static double

221

get_matrix_horizontal_component(double *matrix)

222

{

223

return hypot(matrix[0], matrix[1]);

224

}

225

226

static double

227

get_matrix_vertical_component(double *matrix)

228

{

229

return hypot(matrix[2], matrix[3]);

230

}

231

232

233

static Bool

234

ComputeScaleFactors(FontScalablePtr from, FontScalablePtr to,

235

double *dx, double *dy, double *sdx, double *sdy,

236

double *rescale_x)

237

{

238

double srcpixelset, destpixelset, srcpixel, destpixel;

239

240

srcpixelset = get_matrix_horizontal_component(from->pixel_matrix);

241

destpixelset = get_matrix_horizontal_component(to->pixel_matrix);

242

srcpixel = get_matrix_vertical_component(from->pixel_matrix);

243

destpixel = get_matrix_vertical_component(to->pixel_matrix);

244

245

if (srcpixelset >= EPS1.0e-20)

246

{

247

*dx = destpixelset / srcpixelset;

248

*sdx = 1000.0 / srcpixelset;

249

}

250

else

251

*sdx = *dx = 0;

252

253

*rescale_x = 1.0;

254

255

/* If client specified a width, it overrides setsize; in this

256

context, we interpret width as applying to the font before any

257

rotation, even though that's not what is ultimately returned in

258

the width field. */

259

if (from->width > 0 && to->width > 0 && fabs(*dx) > EPS1.0e-20)

260

{

261

double rescale = (double)to->width / (double)from->width;

262

263

/* If the client specified a transformation matrix, the rescaling

264

for width does *not* override the setsize. Instead, just check

265

for consistency between the setsize from the matrix and the

266

setsize that would result from rescaling according to the width.

267

This assumes (perhaps naively) that the width is correctly

268

reported in the name. As an interesting side effect, this test

269

may result in choosing a different source bitmap (one that

270

scales consistently between the setsize *and* the width) than it

271

would choose if a width were not specified. Sort of a hidden

272

multiple-master functionality. */

273

if ((to->values_supplied & PIXELSIZE_MASK0x3) == PIXELSIZE_ARRAY0x2 ||

274

(to->values_supplied & POINTSIZE_MASK0xc) == POINTSIZE_ARRAY0x8)

275

{

276

/* Reject if resulting width difference is >= 1 pixel */

277

if (fabs(rescale * from->width - *dx * from->width) >= 10)

278

return FALSE0;

279

}

280

else

281

{

282

*rescale_x = rescale/(*dx);

283

*dx = rescale;

284

}

285

}

286

287

if (srcpixel >= EPS1.0e-20)

288

{

289

*dy = destpixel / srcpixel;

290

*sdy = 1000.0 / srcpixel;

291

}

292

else

293

*sdy = *dy = 0;

294

295

return TRUE1;

296

}

297

298

/* favor enlargement over reduction because of aliasing resulting

299

from reduction */

300

#define SCORE(m,s)if (m >= 1.0) { if (m == 1.0) score += (16 * s); else if (
m == 2.0) score += (4 * s); else score += (int)(((double)(3 *
s)) / m); } else { score += (int)(((double)(2 * s)) * m); } \

301

if (m >= 1.0) { \

302

if (m == 1.0) \

303

score += (16 * s); \

304

else if (m == 2.0) \

305

score += (4 * s); \

306

else \

307

score += (int)(((double)(3 * s)) / m); \

308

} else { \

309

score += (int)(((double)(2 * s)) * m); \

310

}

311

312

/* don't need to favor enlargement when looking for bitmap that can

313

be used unscalable */

314

#define SCORE2(m,s)if (m >= 1.0) score += (int)(((double)(8 * s)) / m); else score
+= (int)(((double)(8 * s)) * m); \

315

if (m >= 1.0) \

316

score += (int)(((double)(8 * s)) / m); \

317

else \

318

score += (int)(((double)(8 * s)) * m);

319

320

static FontEntryPtr

321

FindBestToScale(FontPathElementPtr fpe, FontEntryPtr entry,

322

FontScalablePtr vals, FontScalablePtr best,

323

double *dxp, double *dyp,

324

double *sdxp, double *sdyp,

325

FontPathElementPtr *fpep)

326

{

327

FontScalableRec temp;

328

int source, i;

329

int best_score, best_unscaled_score,

330

score;

331

double dx = 0.0, sdx = 0.0, dx_amount = 0.0,

332

dy = 0.0, sdy = 0.0, dy_amount = 0.0,

333

best_dx = 0.0, best_sdx = 0.0, best_dx_amount = 0.0,

334

best_dy = 0.0, best_sdy = 0.0, best_dy_amount = 0.0,

335

best_unscaled_sdx = 0.0, best_unscaled_sdy = 0.0,

336

rescale_x = 0.0, best_rescale_x = 0.0,

337

best_unscaled_rescale_x = 0.0;

338

FontEntryPtr zero;

339

FontNameRec zeroName;

340

char zeroChars[MAXFONTNAMELEN1024];

341

FontDirectoryPtr dir;

342

FontScaledPtr scaled;

343

FontScalableExtraPtr extra;

344

FontScaledPtr best_scaled, best_unscaled;

345

FontPathElementPtr best_fpe = NULL((void*)0), best_unscaled_fpe = NULL((void*)0);

346

FontEntryPtr bitmap = NULL((void*)0);

347

FontEntryPtr result;

348

int aliascount = 20;

349

FontPathElementPtr bitmap_fpe = NULL((void*)0);

350

FontNameRec xlfdName;

351

352

/* find the best match */

353

rescale_x = 1.0;

354

best_scaled = 0;

355

best_score = 0;

356

best_unscaled = 0;

357

best_unscaled_score = -1;

358

best_dx_amount = best_dy_amount = HUGE_VAL(__builtin_huge_val());

359

memcpy (zeroChars, entry->name.name, entry->name.length);

360

zeroChars[entry->name.length] = '\0';

361

zeroName.name = zeroChars;

362

FontParseXLFDName (zeroChars, &temp, FONT_XLFD_REPLACE_ZERO2);

363

zeroName.length = strlen (zeroChars);

364

zeroName.ndashes = entry->name.ndashes;

365

xlfdName.name = vals->xlfdName;

366

xlfdName.length = strlen(xlfdName.name);

367

xlfdName.ndashes = FontFileCountDashes(xlfdName.name, xlfdName.length);

368

restart_bestscale_loop: ;

369

370

* Look through all the registered bitmap sources for

371

* the same zero name as ours; entries along that one

372

* can be scaled as desired.

373

374

for (source = 0; source < FontFileBitmapSources.count; source++)

375

{

376

/* There might already be a bitmap that satisfies the request

377

but didn't have a zero name that was found by the scalable

378

font matching logic. Keep track if there is. */

379

if (bitmap == NULL((void*)0) && vals->xlfdName != NULL((void*)0))

380

{

381

bitmap_fpe = FontFileBitmapSources.fpe[source];

382

dir = (FontDirectoryPtr) bitmap_fpe->private;

383

bitmap = FontFileFindNameInDir (&dir->nonScalable, &xlfdName);

384

if (bitmap && bitmap->type != FONT_ENTRY_BITMAP2)

385

{

386

if (bitmap->type == FONT_ENTRY_ALIAS3 && aliascount > 0)

387

{

388

aliascount--;

389

xlfdName.name = bitmap->u.alias.resolved;

390

xlfdName.length = strlen(xlfdName.name);

391

xlfdName.ndashes = FontFileCountDashes(xlfdName.name,

392

xlfdName.length);

393

bitmap = NULL((void*)0);

394

goto restart_bestscale_loop;

395

}

396

else

397

bitmap = NULL((void*)0);

398

}

399

}

400

401

if (FontFileBitmapSources.fpe[source] == fpe)

402

zero = entry;

403

else

404

{

405

dir = (FontDirectoryPtr) FontFileBitmapSources.fpe[source]->private;

406

zero = FontFileFindNameInDir (&dir->scalable, &zeroName);

407

if (!zero)

408

continue;

409

}

410

extra = zero->u.scalable.extra;

411

for (i = 0; i < extra->numScaled; i++)

412

{

413

scaled = &extra->scaled[i];

414

if (!scaled->bitmap)

415

continue;

416

if (!ComputeScaleFactors(&scaled->vals, vals, &dx, &dy, &sdx, &sdy,

417

&rescale_x))

418

continue;

419

score = 0;

420

dx_amount = dx;

421

dy_amount = dy;

422

SCORE(dy_amount, 10)if (dy_amount >= 1.0) { if (dy_amount == 1.0) score += (16
* 10); else if (dy_amount == 2.0) score += (4 * 10); else score
+= (int)(((double)(3 * 10)) / dy_amount); } else { score += (
int)(((double)(2 * 10)) * dy_amount); };

423

SCORE(dx_amount, 1)if (dx_amount >= 1.0) { if (dx_amount == 1.0) score += (16
* 1); else if (dx_amount == 2.0) score += (4 * 1); else score
+= (int)(((double)(3 * 1)) / dx_amount); } else { score += (
int)(((double)(2 * 1)) * dx_amount); };

424

if ((score > best_score) ||

425

((score == best_score) &&

426

((dy_amount < best_dy_amount) ||

427

((dy_amount == best_dy_amount) &&

428

(dx_amount < best_dx_amount)))))

429

{

430

best_fpe = FontFileBitmapSources.fpe[source];

431

best_scaled = scaled;

432

best_score = score;

433

best_dx = dx;

434

best_dy = dy;

435

best_sdx = sdx;

436

best_sdy = sdy;

437

best_dx_amount = dx_amount;

438

best_dy_amount = dy_amount;

439

best_rescale_x = rescale_x;

440

}

441

/* Is this font a candidate for use without ugly rescaling? */

442

if (fabs(dx) > EPS1.0e-20 && fabs(dy) > EPS1.0e-20 &&

443

fabs(vals->pixel_matrix[0] * rescale_x -

444

scaled->vals.pixel_matrix[0]) < 1 &&

445

fabs(vals->pixel_matrix[1] * rescale_x -

446

scaled->vals.pixel_matrix[1]) < EPS1.0e-20 &&

447

fabs(vals->pixel_matrix[2] -

448

scaled->vals.pixel_matrix[2]) < EPS1.0e-20 &&

449

fabs(vals->pixel_matrix[3] -

450

scaled->vals.pixel_matrix[3]) < 1)

451

{

452

/* Yes. The pixel sizes are close on the diagonal and

453

extremely close off the diagonal. */

454

score = 0;

455

SCORE2(vals->pixel_matrix[3] /if (vals->pixel_matrix[3] / scaled->vals.pixel_matrix[3
] >= 1.0) score += (int)(((double)(8 * 10)) / vals->pixel_matrix
[3] / scaled->vals.pixel_matrix[3]); else score += (int)((
(double)(8 * 10)) * vals->pixel_matrix[3] / scaled->vals
.pixel_matrix[3]);

456

scaled->vals.pixel_matrix[3], 10)if (vals->pixel_matrix[3] / scaled->vals.pixel_matrix[3
] >= 1.0) score += (int)(((double)(8 * 10)) / vals->pixel_matrix
[3] / scaled->vals.pixel_matrix[3]); else score += (int)((
(double)(8 * 10)) * vals->pixel_matrix[3] / scaled->vals
.pixel_matrix[3]);;

457

SCORE2(vals->pixel_matrix[0] * rescale_x /if (vals->pixel_matrix[0] * rescale_x / scaled->vals.pixel_matrix
[0] >= 1.0) score += (int)(((double)(8 * 1)) / vals->pixel_matrix
[0] * rescale_x / scaled->vals.pixel_matrix[0]); else score
+= (int)(((double)(8 * 1)) * vals->pixel_matrix[0] * rescale_x
/ scaled->vals.pixel_matrix[0]);

458

scaled->vals.pixel_matrix[0], 1)if (vals->pixel_matrix[0] * rescale_x / scaled->vals.pixel_matrix
[0] >= 1.0) score += (int)(((double)(8 * 1)) / vals->pixel_matrix
[0] * rescale_x / scaled->vals.pixel_matrix[0]); else score
+= (int)(((double)(8 * 1)) * vals->pixel_matrix[0] * rescale_x
/ scaled->vals.pixel_matrix[0]);;

459

if (score > best_unscaled_score)

460

{

461

best_unscaled_fpe = FontFileBitmapSources.fpe[source];

462

best_unscaled = scaled;

463

best_unscaled_sdx = sdx / dx;

464

best_unscaled_sdy = sdy / dy;

465

best_unscaled_score = score;

466

best_unscaled_rescale_x = rescale_x;

467

}

468

}

469

}

470

}

471

if (best_unscaled)

472

{

473

*best = best_unscaled->vals;

474

*fpep = best_unscaled_fpe;

475

*dxp = 1.0;

476

*dyp = 1.0;

477

*sdxp = best_unscaled_sdx;

478

*sdyp = best_unscaled_sdy;

479

rescale_x = best_unscaled_rescale_x;

480

result = best_unscaled->bitmap;

481

}

482

else if (best_scaled)

483

{

484

*best = best_scaled->vals;

485

*fpep = best_fpe;

486

*dxp = best_dx;

487

*dyp = best_dy;

488

*sdxp = best_sdx;

489

*sdyp = best_sdy;

490

rescale_x = best_rescale_x;

491

result = best_scaled->bitmap;

492

}

493

else

494

result = NULL((void*)0);

495

496

if (bitmap != NULL((void*)0) && (result == NULL((void*)0) || *dxp != 1.0 || *dyp != 1.0))

497

{

498

*fpep = bitmap_fpe;

499

FontParseXLFDName (bitmap->name.name, best, FONT_XLFD_REPLACE_NONE0);

500

if (ComputeScaleFactors(best, best, dxp, dyp, sdxp, sdyp, &rescale_x))

501

result = bitmap;

502

else

503

result = NULL((void*)0);

504

}

505

506

if (result && rescale_x != 1.0)

507

{

508

/* We have rescaled horizontally due to an XLFD width field. Change

509

the matrix appropriately */

510

vals->pixel_matrix[0] *= rescale_x;

511

vals->pixel_matrix[1] *= rescale_x;

512

vals->values_supplied = vals->values_supplied & ~POINTSIZE_MASK0xc;

513

/* Recompute and reround the FontScalablePtr values after

514

rescaling for the new width. */

515

FontFileCompleteXLFD(vals, vals);

516

}

517

518

return result;

519

}

520

521

static long

522

doround(double x)

523

{

524

return (x >= 0) ? (long)(x + .5) : (long)(x - .5);

525

}

526

527

static int

528

computeProps(FontPropPtr pf, char *wasStringProp,

529

FontPropPtr npf, char *isStringProp,

530

unsigned int nprops, double xfactor, double yfactor,

531

double sXfactor, double sYfactor)

532

{

533

int n;

534

int count;

535

fontProp *t;

536

double rawfactor = 0.0;

537

538

for (count = 0; nprops > 0; nprops--, pf++, wasStringProp++) {

539

n = sizeof(fontPropTable) / sizeof(fontProp);

540

for (t = fontPropTable; n && (t->atom != pf->name); n--, t++);

541

if (!n)

542

continue;

543

544

switch (t->type) {

545

case scaledX:

546

npf->value = doround(xfactor * (double)pf->value);

547

rawfactor = sXfactor;

548

break;

549

case scaledY:

550

npf->value = doround(yfactor * (double)pf->value);

551

rawfactor = sYfactor;

552

break;

553

case unscaled:

554

npf->value = pf->value;

555

npf->name = pf->name;

556

npf++;

557

count++;

558

*isStringProp++ = *wasStringProp;

559

break;

560

default:

561

break;

562

}

563

if (t->type != unscaled)

564

{

565

npf->name = pf->name;

566

npf++;

567

count++;

568

npf->value = doround(rawfactor * (double)pf->value);

569

npf->name = rawFontPropTable[t - fontPropTable].atom;

570

npf++;

571

count++;

572

*isStringProp++ = *wasStringProp;

573

*isStringProp++ = *wasStringProp;

574

}

575

}

576

return count;

577

}

578

579

580

static int

581

ComputeScaledProperties(FontInfoPtr sourceFontInfo, /* the font to be scaled */

582

char *name, /* name of resulting font */

583

FontScalablePtr vals,

584

double dx, double dy, /* scale factors in x and y */

585

double sdx, double sdy, /* directions */

586

long sWidth, /* 1000-pixel average width */

587

FontPropPtr *pProps, /* returns properties;

588

preallocated */

589

char **pIsStringProp) /* return booleans;

590

preallocated */

591

{

592

int n;

593

char *ptr1 = NULL((void*)0), *ptr2 = NULL((void*)0);

594

char *ptr3;

595

FontPropPtr fp;

596

fontProp *fpt;

597

char *isStringProp;

598

int nProps;

599

600

if (bitscaleGeneration != serverGeneration) {

601

initFontPropTable();

602

bitscaleGeneration = serverGeneration;

603

}

604

nProps = NPROPS(sizeof(fontNamePropTable) / sizeof(fontProp)) + 1 + sizeof(fontPropTable) / sizeof(fontProp) +

605

sizeof(rawFontPropTable) / sizeof(fontProp);

606

fp = malloc(sizeof(FontPropRec) * nProps);

607

*pProps = fp;

608

if (!fp) {

609

fprintf(stderrstderr, "Error: Couldn't allocate font properties (%ld*%d)\n",

610

(unsigned long)sizeof(FontPropRec), nProps);

611

return 1;

612

}

613

isStringProp = malloc (nProps);

614

*pIsStringProp = isStringProp;

615

if (!isStringProp)

616

{

617

fprintf(stderrstderr, "Error: Couldn't allocate isStringProp (%d)\n", nProps);

618

free (fp);

619

return 1;

620

}

621

ptr2 = name;

622

for (fpt = fontNamePropTable, n = NPROPS(sizeof(fontNamePropTable) / sizeof(fontProp));

623

624

fp++, fpt++, n--, isStringProp++)

625

{

626

627

if (*ptr2)

628

{

629

ptr1 = ptr2 + 1;

630

if (!(ptr2 = strchr(ptr1, '-'))) ptr2 = strchr(ptr1, '\0');

631

}

632

633

*isStringProp = 0;

634

switch (fpt->type) {

635

case atom:

636

fp->value = MakeAtom(ptr1, ptr2 - ptr1, TRUE1);

637

*isStringProp = 1;

638

break;

639

case truncate_atom:

640

for (ptr3 = ptr1; *ptr3; ptr3++)

641

if (*ptr3 == '[')

642

break;

643

if (!*ptr3) ptr3 = ptr2;

644

fp->value = MakeAtom(ptr1, ptr3 - ptr1, TRUE1);

645

*isStringProp = 1;

646

break;

647

case pixel_size:

648

fp->value = doround(vals->pixel_matrix[3]);

649

break;

650

case point_size:

651

fp->value = doround(vals->point_matrix[3] * 10.0);

652

break;

653

case resolution_x:

654

fp->value = vals->x;

655

break;

656

case resolution_y:

657

fp->value = vals->y;

658

break;

659

case average_width:

660

fp->value = vals->width;

661

break;

662

case fontname:

663

fp->value = MakeAtom(name, strlen(name), TRUE1);

664

*isStringProp = 1;

665

break;

666

case raw_ascent:

667

fp->value = sourceFontInfo->fontAscent * sdy;

668

break;

669

case raw_descent:

670

fp->value = sourceFontInfo->fontDescent * sdy;

671

break;

672

case raw_pointsize:

673

fp->value = (long)(72270.0 / (double)vals->y + .5);

674

break;

675

case raw_pixelsize:

676

fp->value = 1000;

677

break;

678

case raw_average_width:

679

fp->value = sWidth;

680

break;

681

default:

682

break;

683

}

684

fp->name = fpt->atom;

685

}

686

n = NPROPS(sizeof(fontNamePropTable) / sizeof(fontProp));

687

n += computeProps(sourceFontInfo->props, sourceFontInfo->isStringProp,

688

fp, isStringProp, sourceFontInfo->nprops, dx, dy,

689

sdx, sdy);

690

return n;

691

}

692

693

694

static int

695

compute_xform_matrix(FontScalablePtr vals, double dx, double dy,

696

double *xform, double *inv_xform,

697

double *xmult, double *ymult)

698

{

699

double det;

700

double pixel = get_matrix_vertical_component(vals->pixel_matrix);

701

double pixelset = get_matrix_horizontal_component(vals->pixel_matrix);

702

703

if (pixel < EPS1.0e-20 || pixelset < EPS1.0e-20) return 0;

704

705

/* Initialize the transformation matrix to the scaling factors */

706

xform[0] = dx / pixelset;

707

xform[1] = xform[2] = 0.0;

708

xform[3] = dy / pixel;

709

710

/* Inline matrix multiply -- somewhat ugly to minimize register usage */

711

#define MULTIPLY_XFORM(a,b,c,d){ register double aa = (a), bb = (b), cc = (c), dd = (d); register
double temp; temp = aa * xform[0] + cc * xform[1]; aa = aa *
xform[2] + cc * xform[3]; xform[1] = bb * xform[0] + dd * xform
[1]; xform[3] = bb * xform[2] + dd * xform[3]; xform[0] = temp
; xform[2] = aa; } \

712

{ \

713

714

715

temp = aa * xform[0] + cc * xform[1]; \

716

aa = aa * xform[2] + cc * xform[3]; \

717

xform[1] = bb * xform[0] + dd * xform[1]; \

718

xform[3] = bb * xform[2] + dd * xform[3]; \

719

xform[0] = temp; \

720

xform[2] = aa; \

721

}

722

723

/* Rescale the transformation matrix for size of source font */

724

MULTIPLY_XFORM(vals->pixel_matrix[0],{ register double aa = (vals->pixel_matrix[0]), bb = (vals
->pixel_matrix[1]), cc = (vals->pixel_matrix[2]), dd = (
vals->pixel_matrix[3]); register double temp; temp = aa * xform
[0] + cc * xform[1]; aa = aa * xform[2] + cc * xform[3]; xform
[1] = bb * xform[0] + dd * xform[1]; xform[3] = bb * xform[2]
+ dd * xform[3]; xform[0] = temp; xform[2] = aa; }

725

vals->pixel_matrix[1],{ register double aa = (vals->pixel_matrix[0]), bb = (vals
->pixel_matrix[1]), cc = (vals->pixel_matrix[2]), dd = (
vals->pixel_matrix[3]); register double temp; temp = aa * xform
[0] + cc * xform[1]; aa = aa * xform[2] + cc * xform[3]; xform
[1] = bb * xform[0] + dd * xform[1]; xform[3] = bb * xform[2]
+ dd * xform[3]; xform[0] = temp; xform[2] = aa; }

726

vals->pixel_matrix[2],{ register double aa = (vals->pixel_matrix[0]), bb = (vals
->pixel_matrix[1]), cc = (vals->pixel_matrix[2]), dd = (
vals->pixel_matrix[3]); register double temp; temp = aa * xform
[0] + cc * xform[1]; aa = aa * xform[2] + cc * xform[3]; xform
[1] = bb * xform[0] + dd * xform[1]; xform[3] = bb * xform[2]
+ dd * xform[3]; xform[0] = temp; xform[2] = aa; }

727

vals->pixel_matrix[3]){ register double aa = (vals->pixel_matrix[0]), bb = (vals
->pixel_matrix[1]), cc = (vals->pixel_matrix[2]), dd = (
vals->pixel_matrix[3]); register double temp; temp = aa * xform
[0] + cc * xform[1]; aa = aa * xform[2] + cc * xform[3]; xform
[1] = bb * xform[0] + dd * xform[1]; xform[3] = bb * xform[2]
+ dd * xform[3]; xform[0] = temp; xform[2] = aa; };

728

729

*xmult = xform[0];

730

*ymult = xform[3];

731

732

733

if (inv_xform == NULL((void*)0)) return 1;

734

735

/* Compute the determinant for use in inverting the matrix. */

736

det = xform[0] * xform[3] - xform[1] * xform[2];

737

738

/* If the determinant is tiny or zero, give up */

739

if (fabs(det) < EPS1.0e-20) return 0;

740

741

/* Compute the inverse */

742

inv_xform[0] = xform[3] / det;

743

inv_xform[1] = -xform[1] / det;

744

inv_xform[2] = -xform[2] / det;

745

inv_xform[3] = xform[0] / det;

746

747

return 1;

748

}

749

750

751

* ScaleFont

752

* returns a pointer to the new scaled font, or NULL (due to AllocError).

753

754

static FontPtr

755

ScaleFont(FontPtr opf, /* originating font */

756

double widthMult, /* glyphs width scale factor */

757

double heightMult, /* glyphs height scale factor */

758

double sWidthMult, /* scalable glyphs width scale factor */

759

double sHeightMult, /* scalable glyphs height scale factor */

760

FontScalablePtr vals,

761

double *newWidthMult, /* return: X component of glyphs width

762

scale factor */

763

double *newHeightMult, /* return: Y component of glyphs height

764

scale factor */

765

long *sWidth) /* return: average 1000-pixel width */

766

{

767

FontPtr pf;

768

FontInfoPtr pfi,

769

opfi;

770

BitmapFontPtr bitmapFont,

771

obitmapFont;

772

CharInfoPtr pci,

773

opci;

774

int nchars = 0; /* how many characters in the font */

775

int i;

776

int firstCol, lastCol, firstRow, lastRow;

777

double xform[4], inv_xform[4];

778

double xmult, ymult;

779

int totalwidth = 0, totalchars = 0;

780

#define OLDINDEX(i)(((i)/(lastCol - firstCol + 1) + firstRow - opf->info.firstRow
) * (opf->info.lastCol - opf->info.firstCol + 1) + (i)%
(lastCol - firstCol + 1) + firstCol - opf->info.firstCol) (((i)/(lastCol - firstCol + 1) + \

781

firstRow - opf->info.firstRow) * \

782

(opf->info.lastCol - opf->info.firstCol + 1) + \

783

(i)%(lastCol - firstCol + 1) + \

784

firstCol - opf->info.firstCol)

785

786

*sWidth = 0;

787

788

opfi = &opf->info;

789

obitmapFont = (BitmapFontPtr) opf->fontPrivate;

790

791

bitmapFont = 0;

792

if (!(pf = CreateFontRec())) {

793

fprintf(stderrstderr, "Error: Couldn't allocate FontRec (%ld)\n",

794

(unsigned long)sizeof(FontRec));

795

goto bail;

796

}

797

pf->refcnt = 0;

798

pf->bit = opf->bit;

799

pf->byte = opf->byte;

800

pf->glyph = opf->glyph;

801

pf->scan = opf->scan;

802

803

pf->get_glyphs = bitmapGetGlyphs;

804

pf->get_metrics = bitmapGetMetrics;

805

pf->unload_font = bitmapUnloadScalable;

806

pf->unload_glyphs = NULL((void*)0);

807

808

pfi = &pf->info;

809

*pfi = *opfi;

810

/* If charset subsetting specified in vals, determine what our range

811

needs to be for the output font */

812

if (vals->nranges)

813

{

814

int i;

815

816

pfi->allExist = 0;

817

firstCol = 255;

818

lastCol = 0;

819

firstRow = 255;

820

lastRow = 0;

821

822

for (i = 0; i < vals->nranges; i++)

823

{

824

if (vals->ranges[i].min_char_high != vals->ranges[i].max_char_high)

825

{

826

firstCol = opfi->firstCol;

827

lastCol = opfi->lastCol;

828

}

829

if (firstCol > vals->ranges[i].min_char_low)

830

firstCol = vals->ranges[i].min_char_low;

831

if (lastCol < vals->ranges[i].max_char_low)

832

lastCol = vals->ranges[i].max_char_low;

833

if (firstRow > vals->ranges[i].min_char_high)

834

firstRow = vals->ranges[i].min_char_high;

835

if (lastRow < vals->ranges[i].max_char_high)

836

lastRow = vals->ranges[i].max_char_high;

837

}

838

839

if (firstCol > lastCol || firstRow > lastRow)

840

goto bail;

841

842

if (firstCol < opfi->firstCol)

843

firstCol = opfi->firstCol;

844

if (lastCol > opfi->lastCol)

845

lastCol = opfi->lastCol;

846

if (firstRow < opfi->firstRow)

847

firstRow = opfi->firstRow;

848

if (lastRow > opfi->lastRow)

849

lastRow = opfi->lastRow;

850

}

851

else

852

{

853

firstCol = opfi->firstCol;

854

lastCol = opfi->lastCol;

855

firstRow = opfi->firstRow;

856

lastRow = opfi->lastRow;

857

}

858

859

bitmapFont = malloc(sizeof(BitmapFontRec));

860

if (!bitmapFont) {

861

fprintf(stderrstderr, "Error: Couldn't allocate bitmapFont (%ld)\n",

862

(unsigned long)sizeof(BitmapFontRec));

863

goto bail;

864

}

865

nchars = (lastRow - firstRow + 1) * (lastCol - firstCol + 1);

866

pfi->firstRow = firstRow;

867

pfi->lastRow = lastRow;

868

pfi->firstCol = firstCol;

869

pfi->lastCol = lastCol;

870

pf->fontPrivate = (pointer) bitmapFont;

871

bitmapFont->version_num = obitmapFont->version_num;

872

bitmapFont->num_chars = nchars;

873

bitmapFont->num_tables = obitmapFont->num_tables;

874

bitmapFont->metrics = 0;

875

bitmapFont->ink_metrics = 0;

876

bitmapFont->bitmaps = 0;

877

bitmapFont->encoding = 0;

878

bitmapFont->bitmapExtra = 0;

879

bitmapFont->pDefault = 0;

880

bitmapFont->metrics = malloc(nchars * sizeof(CharInfoRec));

881

if (!bitmapFont->metrics) {

882

fprintf(stderrstderr, "Error: Couldn't allocate metrics (%d*%ld)\n",

883

nchars, (unsigned long)sizeof(CharInfoRec));

884

goto bail;

885

}

886

bitmapFont->encoding = calloc(NUM_SEGMENTS(nchars)(((nchars)+128 -1)/128), sizeof(CharInfoPtr*));

887

if (!bitmapFont->encoding) {

888

fprintf(stderrstderr, "Error: Couldn't allocate encoding (%d*%ld)\n",

889

nchars, (unsigned long)sizeof(CharInfoPtr));

890

goto bail;

891

}

892

893

#undef MAXSHORT32767

894

#define MAXSHORT32767 32767

895

#undef MINSHORT-32768

896

#define MINSHORT-32768 -32768

897

898

pfi->anamorphic = FALSE0;

899

if (heightMult != widthMult)

900

pfi->anamorphic = TRUE1;

901

pfi->cachable = TRUE1;

902

903

if (!compute_xform_matrix(vals, widthMult, heightMult, xform,

904

inv_xform, &xmult, &ymult))

905

goto bail;

906

907

pfi->fontAscent = opfi->fontAscent * ymult;

908

pfi->fontDescent = opfi->fontDescent * ymult;

909

910

pfi->minbounds.leftSideBearing = MAXSHORT32767;

911

pfi->minbounds.rightSideBearing = MAXSHORT32767;

912

pfi->minbounds.ascent = MAXSHORT32767;

913

pfi->minbounds.descent = MAXSHORT32767;

914

pfi->minbounds.characterWidth = MAXSHORT32767;

915

pfi->minbounds.attributes = MAXSHORT32767;

916

917

pfi->maxbounds.leftSideBearing = MINSHORT-32768;

918

pfi->maxbounds.rightSideBearing = MINSHORT-32768;

919

pfi->maxbounds.ascent = MINSHORT-32768;

920

pfi->maxbounds.descent = MINSHORT-32768;

921

pfi->maxbounds.characterWidth = MINSHORT-32768;

922

pfi->maxbounds.attributes = MINSHORT-32768;

923

924

/* Compute the transformation and inverse transformation matrices.

925

Can fail if the determinant is zero. */

926

927

pci = bitmapFont->metrics;

928

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

929

{

930

if ((opci = ACCESSENCODING(obitmapFont->encoding,OLDINDEX(i))(obitmapFont->encoding[((((i)/(lastCol - firstCol + 1) + firstRow
- opf->info.firstRow) * (opf->info.lastCol - opf->info
.firstCol + 1) + (i)%(lastCol - firstCol + 1) + firstCol - opf
->info.firstCol))/128]?(obitmapFont->encoding[((((i)/(lastCol
- firstCol + 1) + firstRow - opf->info.firstRow) * (opf->
info.lastCol - opf->info.firstCol + 1) + (i)%(lastCol - firstCol
+ 1) + firstCol - opf->info.firstCol))/128][((((i)/(lastCol
- firstCol + 1) + firstRow - opf->info.firstRow) * (opf->
info.lastCol - opf->info.firstCol + 1) + (i)%(lastCol - firstCol
+ 1) + firstCol - opf->info.firstCol))%128]):0)))

931

{

932

double newlsb, newrsb, newdesc, newasc, point[2];

933

934

#define minchar(p)((p).min_char_low + ((p).min_char_high << 8)) ((p).min_char_low + ((p).min_char_high << 8))

935

#define maxchar(p)((p).max_char_low + ((p).max_char_high << 8)) ((p).max_char_low + ((p).max_char_high << 8))

936

937

if (vals->nranges)

938

{

939

int row = i / (lastCol - firstCol + 1) + firstRow;

940

int col = i % (lastCol - firstCol + 1) + firstCol;

941

int ch = (row << 8) + col;

942

int j;

943

for (j = 0; j < vals->nranges; j++)

944

if (ch >= minchar(vals->ranges[j])((vals->ranges[j]).min_char_low + ((vals->ranges[j]).min_char_high
<< 8)) &&

945

ch <= maxchar(vals->ranges[j])((vals->ranges[j]).max_char_low + ((vals->ranges[j]).max_char_high
<< 8)))

946

break;

947

if (j == vals->nranges)

948

{

949

continue;

950

}

951

}

952

953

if (opci->metrics.leftSideBearing == 0 &&

954

opci->metrics.rightSideBearing == 0 &&

955

opci->metrics.ascent == 0 &&

956

opci->metrics.descent == 0 &&

957

opci->metrics.characterWidth == 0)

958

{

959

continue;

960

}

961

962

if(!bitmapFont->encoding[SEGMENT_MAJOR(i)((i)/128)]) {

963

bitmapFont->encoding[SEGMENT_MAJOR(i)((i)/128)]=

964

calloc(BITMAP_FONT_SEGMENT_SIZE128, sizeof(CharInfoPtr));

965

if(!bitmapFont->encoding[SEGMENT_MAJOR(i)((i)/128)])

966

goto bail;

967

}

968

ACCESSENCODINGL(bitmapFont->encoding, i)(bitmapFont->encoding[(i)/128][(i)%128]) = pci;

969

970

/* Compute new extents for this glyph */

971

TRANSFORM_POINT(xform,((point)[0] = (xform)[0] * (opci->metrics.leftSideBearing)
+ (xform)[2] * (-opci->metrics.descent), (point)[1] = (xform
)[1] * (opci->metrics.leftSideBearing) + (xform)[3] * (-opci
->metrics.descent))

972

opci->metrics.leftSideBearing,((point)[0] = (xform)[0] * (opci->metrics.leftSideBearing)
+ (xform)[2] * (-opci->metrics.descent), (point)[1] = (xform
)[1] * (opci->metrics.leftSideBearing) + (xform)[3] * (-opci
->metrics.descent))

973

-opci->metrics.descent,((point)[0] = (xform)[0] * (opci->metrics.leftSideBearing)
+ (xform)[2] * (-opci->metrics.descent), (point)[1] = (xform
)[1] * (opci->metrics.leftSideBearing) + (xform)[3] * (-opci
->metrics.descent))

974

point)((point)[0] = (xform)[0] * (opci->metrics.leftSideBearing)
+ (xform)[2] * (-opci->metrics.descent), (point)[1] = (xform
)[1] * (opci->metrics.leftSideBearing) + (xform)[3] * (-opci
->metrics.descent));

975

newlsb = point[0];

976

newrsb = newlsb;

977

newdesc = -point[1];

978

newasc = -newdesc;

979

TRANSFORM_POINT(xform,((point)[0] = (xform)[0] * (opci->metrics.leftSideBearing)
+ (xform)[2] * (opci->metrics.ascent), (point)[1] = (xform
)[1] * (opci->metrics.leftSideBearing) + (xform)[3] * (opci
->metrics.ascent))

980

opci->metrics.leftSideBearing,((point)[0] = (xform)[0] * (opci->metrics.leftSideBearing)
+ (xform)[2] * (opci->metrics.ascent), (point)[1] = (xform
)[1] * (opci->metrics.leftSideBearing) + (xform)[3] * (opci
->metrics.ascent))

981

opci->metrics.ascent,((point)[0] = (xform)[0] * (opci->metrics.leftSideBearing)
+ (xform)[2] * (opci->metrics.ascent), (point)[1] = (xform
)[1] * (opci->metrics.leftSideBearing) + (xform)[3] * (opci
->metrics.ascent))

982

point)((point)[0] = (xform)[0] * (opci->metrics.leftSideBearing)
+ (xform)[2] * (opci->metrics.ascent), (point)[1] = (xform
)[1] * (opci->metrics.leftSideBearing) + (xform)[3] * (opci
->metrics.ascent));

983

CHECK_EXTENT(newlsb, newrsb, newdesc, newasc, point)((newlsb) > (point)[0] ? (newlsb) = (point)[0] : 0 , (newrsb
) < (point)[0] ? (newrsb) = (point)[0] : 0, (-newdesc) >
(point)[1] ? (newdesc) = -(point)[1] : 0 , (newasc) < (point
)[1] ? (newasc) = (point)[1] : 0);

984

TRANSFORM_POINT(xform,((point)[0] = (xform)[0] * (opci->metrics.rightSideBearing
) + (xform)[2] * (-opci->metrics.descent), (point)[1] = (xform
)[1] * (opci->metrics.rightSideBearing) + (xform)[3] * (-opci
->metrics.descent))

985

opci->metrics.rightSideBearing,((point)[0] = (xform)[0] * (opci->metrics.rightSideBearing
) + (xform)[2] * (-opci->metrics.descent), (point)[1] = (xform
)[1] * (opci->metrics.rightSideBearing) + (xform)[3] * (-opci
->metrics.descent))

986

-opci->metrics.descent,((point)[0] = (xform)[0] * (opci->metrics.rightSideBearing
) + (xform)[2] * (-opci->metrics.descent), (point)[1] = (xform
)[1] * (opci->metrics.rightSideBearing) + (xform)[3] * (-opci
->metrics.descent))

987

point)((point)[0] = (xform)[0] * (opci->metrics.rightSideBearing
) + (xform)[2] * (-opci->metrics.descent), (point)[1] = (xform
)[1] * (opci->metrics.rightSideBearing) + (xform)[3] * (-opci
->metrics.descent));

988

989

TRANSFORM_POINT(xform,((point)[0] = (xform)[0] * (opci->metrics.rightSideBearing
) + (xform)[2] * (opci->metrics.ascent), (point)[1] = (xform
)[1] * (opci->metrics.rightSideBearing) + (xform)[3] * (opci
->metrics.ascent))

990

opci->metrics.rightSideBearing,((point)[0] = (xform)[0] * (opci->metrics.rightSideBearing
) + (xform)[2] * (opci->metrics.ascent), (point)[1] = (xform
)[1] * (opci->metrics.rightSideBearing) + (xform)[3] * (opci
->metrics.ascent))

991

opci->metrics.ascent,((point)[0] = (xform)[0] * (opci->metrics.rightSideBearing
) + (xform)[2] * (opci->metrics.ascent), (point)[1] = (xform
)[1] * (opci->metrics.rightSideBearing) + (xform)[3] * (opci
->metrics.ascent))

992

point)((point)[0] = (xform)[0] * (opci->metrics.rightSideBearing
) + (xform)[2] * (opci->metrics.ascent), (point)[1] = (xform
)[1] * (opci->metrics.rightSideBearing) + (xform)[3] * (opci
->metrics.ascent));

993

994

995

pci->metrics.leftSideBearing = (int)floor(newlsb);

996

pci->metrics.rightSideBearing = (int)floor(newrsb + .5);

997

pci->metrics.descent = (int)ceil(newdesc);

998

pci->metrics.ascent = (int)floor(newasc + .5);

999

/* Accumulate total width of characters before transformation,

1000

to ascertain predominant direction of font. */

1001

totalwidth += opci->metrics.characterWidth;

1002

pci->metrics.characterWidth =

1003

doround((double)opci->metrics.characterWidth * xmult);

1004

pci->metrics.attributes =

1005

doround((double)opci->metrics.characterWidth * sWidthMult);

1006

if (!pci->metrics.characterWidth)

1007

{

1008

/* Since transformation may shrink width, height, and

1009

escapement to zero, make sure existing characters

1010

are not mistaken for undefined characters. */

1011

1012

if (pci->metrics.rightSideBearing ==

1013

pci->metrics.leftSideBearing)

1014

pci->metrics.rightSideBearing++;

1015

if (pci->metrics.ascent == -pci->metrics.descent)

1016

pci->metrics.ascent++;

1017

}

1018

1019

pci++;

1020

}

1021

}

1022

1023

1024

1025

* For each character, set the per-character metrics, scale the glyph, and

1026

* check per-font minbounds and maxbounds character information.

1027

1028

1029

pci = bitmapFont->metrics;

1030

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

1031

{

1032

if ((pci = ACCESSENCODING(bitmapFont->encoding,i)(bitmapFont->encoding[(i)/128]?(bitmapFont->encoding[(i
)/128][(i)%128]):0)) &&

1033

(opci = ACCESSENCODING(obitmapFont->encoding,OLDINDEX(i))(obitmapFont->encoding[((((i)/(lastCol - firstCol + 1) + firstRow
- opf->info.firstRow) * (opf->info.lastCol - opf->info
.firstCol + 1) + (i)%(lastCol - firstCol + 1) + firstCol - opf
->info.firstCol))/128]?(obitmapFont->encoding[((((i)/(lastCol
- firstCol + 1) + firstRow - opf->info.firstRow) * (opf->
info.lastCol - opf->info.firstCol + 1) + (i)%(lastCol - firstCol
+ 1) + firstCol - opf->info.firstCol))/128][((((i)/(lastCol
- firstCol + 1) + firstRow - opf->info.firstRow) * (opf->
info.lastCol - opf->info.firstCol + 1) + (i)%(lastCol - firstCol
+ 1) + firstCol - opf->info.firstCol))%128]):0)))

1034

{

1035

totalchars++;

1036

*sWidth += abs((int)(INT16)pci->metrics.attributes);

1037

#define MINMAX(field) \

1038

if (pfi->minbounds.field > pci->metrics.field) \

1039

pfi->minbounds.field = pci->metrics.field; \

1040

if (pfi->maxbounds.field < pci->metrics.field) \

1041

pfi->maxbounds.field = pci->metrics.field

1042

1043

MINMAX(leftSideBearing);

1044

MINMAX(rightSideBearing);

1045

MINMAX(ascent);

1046

MINMAX(descent);

1047

MINMAX(characterWidth);

1048

1049

/* Hack: Cast attributes into a signed quantity. Tread lightly

1050

for now and don't go changing the global Xproto.h file */

1051

if ((INT16)pfi->minbounds.attributes >

1052

(INT16)pci->metrics.attributes)

1053

pfi->minbounds.attributes = pci->metrics.attributes;

1054

if ((INT16)pfi->maxbounds.attributes <

1055

(INT16)pci->metrics.attributes)

1056

pfi->maxbounds.attributes = pci->metrics.attributes;

1057

#undef MINMAX

1058

}

1059

}

1060

pfi->ink_minbounds = pfi->minbounds;

1061

pfi->ink_maxbounds = pfi->maxbounds;

1062

if (totalchars)

1063

{

1064

*sWidth = (*sWidth * 10 + totalchars / 2) / totalchars;

1065

if (totalwidth < 0)

1066

{

1067

/* Dominant direction is R->L */

1068

*sWidth = -*sWidth;

1069

}

1070

1071

if (pfi->minbounds.characterWidth == pfi->maxbounds.characterWidth)

1072

vals->width = pfi->minbounds.characterWidth * 10;

1073

else

1074

vals->width = doround((double)*sWidth * vals->pixel_matrix[0] /

1075

1000.0);

1076

}

1077

else

1078

{

1079

vals->width = 0;

1080

*sWidth = 0;

1081

}

1082

FontComputeInfoAccelerators (pfi);

1083

1084

if (pfi->defaultCh != (unsigned short) NO_SUCH_CHAR-1) {

1085

unsigned int r,

1086

1087

cols;

1088

1089

r = pfi->defaultCh >> 8;

1090

c = pfi->defaultCh & 0xFF;

1091

if (pfi->firstRow <= r && r <= pfi->lastRow &&

1092

pfi->firstCol <= c && c <= pfi->lastCol) {

1093

cols = pfi->lastCol - pfi->firstCol + 1;

1094

r = r - pfi->firstRow;

1095

c = c - pfi->firstCol;

1096

bitmapFont->pDefault =

1097

ACCESSENCODING(bitmapFont->encoding, r * cols + c)(bitmapFont->encoding[(r * cols + c)/128]?(bitmapFont->
encoding[(r * cols + c)/128][(r * cols + c)%128]):0);

1098

}

1099

}

1100

1101

*newWidthMult = xmult;

1102

*newHeightMult = ymult;

1103

return pf;

1104

bail:

1105

if (pf)

1106

free(pf);

1107

if (bitmapFont) {

1108

free(bitmapFont->metrics);

1109

free(bitmapFont->ink_metrics);

1110

free(bitmapFont->bitmaps);

1111

if(bitmapFont->encoding)

1112

for(i=0; i<NUM_SEGMENTS(nchars)(((nchars)+128 -1)/128); i++)

1113

free(bitmapFont->encoding[i]);

1114

free(bitmapFont->encoding);

1115

}

1116

return NULL((void*)0);

1117

}

1118

1119

static void

1120

ScaleBitmap(FontPtr pFont, CharInfoPtr opci, CharInfoPtr pci,

1121

double *inv_xform, double widthMult, double heightMult)

1122

{

1123

1124

*newBitmap;

1125

1126

newBpr;

1127

int width, /* Extents information */

1128

height,

1129

newWidth,

1130

newHeight;

1131

1132

col;

1133

INT32 deltaX, /* Increments for resampling loop */

1134

deltaY;

1135

INT32 xValue, /* Subscripts for resampling loop */

1136

yValue;

1137

double point[2];

1138

unsigned char *char_grayscale = 0;

1139

INT32 *diffusion_workspace = NULL((void*)0), *thisrow = NULL((void*)0),

1140

*nextrow = NULL((void*)0), pixmult = 0;

1141

int box_x = 0, box_y = 0;

1142

1143

static unsigned char masklsb[] =

1144

{ 0x1, 0x2, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80 };

1145

static unsigned char maskmsb[] =

1146

{ 0x80, 0x40, 0x20, 0x10, 0x8, 0x4, 0x2, 0x1 };

1147

unsigned char *mask = (pFont->bit == LSBFirst0 ? masklsb : maskmsb);

1148

1149

1150

bitmap = opci->bits;

1151

newBitmap = pci->bits;

1152

width = GLYPHWIDTHPIXELS(opci)((opci)->metrics.rightSideBearing - (opci)->metrics.leftSideBearing
);

1153

height = GLYPHHEIGHTPIXELS(opci)((opci)->metrics.ascent + (opci)->metrics.descent);

1154

newWidth = GLYPHWIDTHPIXELS(pci)((pci)->metrics.rightSideBearing - (pci)->metrics.leftSideBearing
);

1155

newHeight = GLYPHHEIGHTPIXELS(pci)((pci)->metrics.ascent + (pci)->metrics.descent);

1156

if (!newWidth || !newHeight || !width || !height)

1157

return;

1158

1159

bpr = BYTES_PER_ROW(width, pFont->glyph)((pFont->glyph) == 1 ? (((width)+7)>>3) :(pFont->
glyph) == 2 ? ((((width)+15)>>3)&~1) :(pFont->glyph
) == 4 ? ((((width)+31)>>3)&~3) :(pFont->glyph) ==
8 ? ((((width)+63)>>3)&~7) : 0);

1160

newBpr = BYTES_PER_ROW(newWidth, pFont->glyph)((pFont->glyph) == 1 ? (((newWidth)+7)>>3) :(pFont->
glyph) == 2 ? ((((newWidth)+15)>>3)&~1) :(pFont->
glyph) == 4 ? ((((newWidth)+31)>>3)&~3) :(pFont->
glyph) == 8 ? ((((newWidth)+63)>>3)&~7) : 0);

1161

1162

if (widthMult > 0.0 && heightMult > 0.0 &&

1163

(widthMult < 1.0 || heightMult < 1.0))

1164

{

1165

/* We are reducing in one or both dimensions. In an attempt to

1166

reduce aliasing, we'll antialias by passing the original

1167

glyph through a low-pass box filter (which results in a

1168

grayscale image), then use error diffusion to create bitonal

1169

output in the resampling loop. */

1170

1171

/* First compute the sizes of the box filter */

1172

widthMult = ceil(1.0 / widthMult);

1173

heightMult = ceil(1.0 / heightMult);

1174

box_x = width / 2;

1175

box_y = height / 2;

1176

if (widthMult < (double)box_x) box_x = (int)widthMult;

1177

if (heightMult < (double)box_y) box_y = (int)heightMult;

1178

/* The pixmult value (below) is used to darken the image before

1179

we perform error diffusion: a necessary concession to the

1180

fact that it's very difficult to generate readable halftoned

1181

glyphs. The degree of darkening is proportional to the size

1182

of the blurring filter, hence inversely proportional to the

1183

darkness of the lightest gray that results from antialiasing.

1184

The result is that characters that exercise this logic (those

1185

generated by reducing from a larger source font) tend to err

1186

on the side of being too bold instead of being too light to

1187

be readable. */

1188

pixmult = box_x * box_y * 192;

1189

1190

if (box_x > 1 || box_y > 1)

1191

{

1192

/* Looks like we need to anti-alias. Create a workspace to

1193

contain the grayscale character plus an additional row and

1194

column for scratch */

1195

char_grayscale = malloc((width + 1) * (height + 1));

1196

if (char_grayscale)

1197

{

1198

diffusion_workspace = calloc((newWidth + 2) * 2, sizeof(int));

1199

if (!diffusion_workspace)

1200

{

1201

fprintf(stderrstderr, "Warning: Couldn't allocate diffusion"

1202

" workspace (%ld)\n",

1203

(newWidth + 2) * 2 * (unsigned long)sizeof(int));

1204

free(char_grayscale);

1205

char_grayscale = (unsigned char *)0;

1206

}

1207

/* Initialize our error diffusion workspace for later use */

1208

thisrow = diffusion_workspace + 1;

1209

nextrow = diffusion_workspace + newWidth + 3;

1210

} else {

1211

fprintf(stderrstderr, "Warning: Couldn't allocate character grayscale (%d)\n", (width + 1) * (height + 1));

1212

}

1213

}

1214

}

1215

1216

if (char_grayscale)

1217

{

1218

/* We will be doing antialiasing. First copy the bitmap into

1219

our buffer, mapping input range [0,1] to output range

1220

[0,255]. */

1221

1222

srcptr = (unsigned char *)bitmap;

1223

dstptr = char_grayscale;

1224

for (row = 0; row < height; row++)

1225

{

1226

for (col = 0; col < width; col++)

1227

*dstptr++ = (srcptr[col >> 3] & mask[col & 0x7]) ? 255 : 0;

1228

srcptr += bpr; /* On to next row of source */

1229

dstptr++; /* Skip scratch column in dest */

1230

}

1231

if (box_x > 1)

1232

{

1233

/* Our box filter has a width > 1... let's filter the rows */

1234

1235

int right_width = box_x / 2;

1236

int left_width = box_x - right_width - 1;

1237

1238

for (row = 0; row < height; row++)

1239

{

1240

int sum = 0;

1241

int left_size = 0, right_size = 0;

1242

1243

srcptr = char_grayscale + (width + 1) * row;

1244

dstptr = char_grayscale + (width + 1) * height; /* scratch */

1245

1246

/* We've computed the shape of our full box filter. Now

1247

compute the right-hand part of the moving sum */

1248

for (right_size = 0; right_size < right_width; right_size++)

1249

sum += srcptr[right_size];

1250

1251

/* Now start moving the sum, growing the box filter, and

1252

dropping averages into our scratch buffer */

1253

for (left_size = 0; left_size < left_width; left_size++)

1254

{

1255

sum += srcptr[right_width];

1256

*dstptr++ = sum / (left_size + right_width + 1);

1257

srcptr++;

1258

}

1259

1260

/* The box filter has reached full width... continue

1261

computation of moving average until the right side

1262

hits the wall. */

1263

for (col = left_size; col + right_size < width; col++)

1264

{

1265

sum += srcptr[right_width];

1266

*dstptr++ = sum / box_x;

1267

sum -= srcptr[-left_width];

1268

srcptr++;

1269

}

1270

1271

/* Collapse the right side of the box filter */

1272

for (; right_size > 0; right_size--)

1273

{

1274

*dstptr++ = sum / (left_width + right_size);

1275

sum -= srcptr[-left_width];

1276

srcptr++;

1277

}

1278

1279

/* Done with the row... copy dest back over source */

1280

memmove(char_grayscale + (width + 1) * row,

1281

char_grayscale + (width + 1) * height,

1282

width);

1283

}

1284

}

1285

if (box_y > 1)

1286

{

1287

/* Our box filter has a height > 1... let's filter the columns */

1288

1289

int bottom_height = box_y / 2;

1290

int top_height = box_y - bottom_height - 1;

1291

1292

for (col = 0; col < width; col++)

1293

{

1294

int sum = 0;

1295

int top_size = 0, bottom_size = 0;

1296

1297

srcptr = char_grayscale + col;

1298

dstptr = char_grayscale + width; /* scratch */

1299

1300

/* We've computed the shape of our full box filter. Now

1301

compute the bottom part of the moving sum */

1302

for (bottom_size = 0;

1303

bottom_size < bottom_height;

1304

bottom_size++)

1305

sum += srcptr[bottom_size * (width + 1)];

1306

1307

/* Now start moving the sum, growing the box filter, and

1308

dropping averages into our scratch buffer */

1309

for (top_size = 0; top_size < top_height; top_size++)

1310

{

1311

sum += srcptr[bottom_height * (width + 1)];

1312

*dstptr = sum / (top_size + bottom_height + 1);

1313

dstptr += width + 1;

1314

srcptr += width + 1;

1315

}

1316

1317

/* The box filter has reached full height... continue

1318

computation of moving average until the bottom

1319

hits the wall. */

1320

for (row = top_size; row + bottom_size < height; row++)

1321

{

1322

sum += srcptr[bottom_height * (width + 1)];

1323

*dstptr = sum / box_y;

1324

dstptr += width + 1;

1325

sum -= srcptr[-top_height * (width + 1)];

1326

srcptr += width + 1;

1327

}

1328

1329

/* Collapse the bottom of the box filter */

1330

for (; bottom_size > 0; bottom_size--)

1331

{

1332

*dstptr = sum / (top_height + bottom_size);

1333

dstptr += width + 1;

1334

sum -= srcptr[-top_height * (width + 1)];

1335

srcptr += width + 1;

1336

}

1337

1338

/* Done with the column... copy dest back over source */

1339

1340

dstptr = char_grayscale + col;

1341

srcptr = char_grayscale + width; /* scratch */

1342

for (row = 0; row < height; row++)

1343

{

1344

*dstptr = *srcptr;

1345

dstptr += width + 1;

1346

srcptr += width + 1;

1347

}

1348

}

1349

}

1350

1351

/* Increase the grayvalue to increase ink a bit */

1352

srcptr = char_grayscale;

1353

for (row = 0; row < height; row++)

1354

{

1355

for (col = 0; col < width; col++)

1356

{

1357

1358

if (pixvalue > 255) pixvalue = 255;

1359

*srcptr = pixvalue;

1360

srcptr++;

1361

}

1362

srcptr++;

1363

}

1364

}

1365

1366

/* Compute the increment values for the resampling loop */

1367

TRANSFORM_POINT(inv_xform, 1, 0, point)((point)[0] = (inv_xform)[0] * (1) + (inv_xform)[2] * (0), (point
)[1] = (inv_xform)[1] * (1) + (inv_xform)[3] * (0));

1368

deltaX = (INT32)(point[0] * 65536.0);

1369

deltaY = (INT32)(-point[1] * 65536.0);

1370

1371

/* Resampling loop: resamples original glyph for generation of new

1372

glyph in transformed coordinate system. */

1373

1374

for (row = 0; row < newHeight; row++)

1375

{

1376

/* Compute inverse transformation for start of this row */

1377

TRANSFORM_POINT(inv_xform,((point)[0] = (inv_xform)[0] * ((double)(pci->metrics.leftSideBearing
) + .5) + (inv_xform)[2] * ((double)(pci->metrics.ascent -
row) - .5), (point)[1] = (inv_xform)[1] * ((double)(pci->
metrics.leftSideBearing) + .5) + (inv_xform)[3] * ((double)(pci
->metrics.ascent - row) - .5))

1378

(double)(pci->metrics.leftSideBearing) + .5,((point)[0] = (inv_xform)[0] * ((double)(pci->metrics.leftSideBearing
) + .5) + (inv_xform)[2] * ((double)(pci->metrics.ascent -
row) - .5), (point)[1] = (inv_xform)[1] * ((double)(pci->
metrics.leftSideBearing) + .5) + (inv_xform)[3] * ((double)(pci
->metrics.ascent - row) - .5))

1379

(double)(pci->metrics.ascent - row) - .5,((point)[0] = (inv_xform)[0] * ((double)(pci->metrics.leftSideBearing
) + .5) + (inv_xform)[2] * ((double)(pci->metrics.ascent -
row) - .5), (point)[1] = (inv_xform)[1] * ((double)(pci->
metrics.leftSideBearing) + .5) + (inv_xform)[3] * ((double)(pci
->metrics.ascent - row) - .5))

1380

point)((point)[0] = (inv_xform)[0] * ((double)(pci->metrics.leftSideBearing
) + .5) + (inv_xform)[2] * ((double)(pci->metrics.ascent -
row) - .5), (point)[1] = (inv_xform)[1] * ((double)(pci->
metrics.leftSideBearing) + .5) + (inv_xform)[3] * ((double)(pci
->metrics.ascent - row) - .5));

1381

1382

/* Adjust for coordinate system to get resampling point */

1383

point[0] -= opci->metrics.leftSideBearing;

1384

point[1] = opci->metrics.ascent - point[1];

1385

1386

/* Convert to integer coordinates */

1387

xValue = (INT32)(point[0] * 65536.0);

1388

yValue = (INT32)(point[1] * 65536.0);

1389

1390

if (char_grayscale)

1391

{

1392

INT32 *temp;

1393

for (col = 0; col < newWidth; col++)

1394

{

1395

1396

int pixvalue, error;

1397

1398

pixvalue = ((x >= 0 && x < width && y >= 0 && y < height) ?

1399

char_grayscale[x + y * (width + 1)] : 0) +

1400

thisrow[col] / 16;

1401

if (pixvalue > 255) pixvalue = 255;

1402

else if (pixvalue < 0) pixvalue = 0;

1403

1404

/* Choose the bit value and set resulting error value */

1405

if (pixvalue >= 128)

1406

{

1407

newBitmap[(col >> 3) + row * newBpr] |= mask[col & 0x7];

1408

error = pixvalue - 255;

1409

}

1410

else

1411

error = -pixvalue;

1412

1413

/* Diffuse the error */

1414

thisrow[col + 1] += error * 7;

1415

nextrow[col - 1] += error * 3;

1416

nextrow[col] += error * 5;

1417

nextrow[col + 1] = error;

1418

1419

xValue += deltaX;

1420

yValue += deltaY;

1421

}

1422

1423

/* Add in error values that fell off either end */

1424

nextrow[0] += nextrow[-1];

1425

nextrow[newWidth - 2] += thisrow[newWidth];

1426

nextrow[newWidth - 1] += nextrow[newWidth];

1427

nextrow[newWidth] = 0;

1428

1429

temp = nextrow;

1430

nextrow = thisrow;

1431

thisrow = temp;

1432

nextrow[-1] = nextrow[0] = 0;

1433

}

1434

else

1435

{

1436

for (col = 0; col < newWidth; col++)

1437

{

1438

1439

1440

if (x >= 0 && x < width && y >= 0 && y < height)

1441

{

1442

/* Use point-sampling for rescaling. */

1443

1444

if (bitmap[(x >> 3) + y * bpr] & mask[x & 0x7])

1445

newBitmap[(col >> 3) + row * newBpr] |= mask[col & 0x7];

1446

}

1447

1448

xValue += deltaX;

1449

yValue += deltaY;

1450

}

1451

}

1452

}

1453

1454

1455

if (char_grayscale)

1456

{

1457

free(char_grayscale);

1458

free(diffusion_workspace);

1459

}

1460

}

1461

1462

static FontPtr

1463

BitmapScaleBitmaps(FontPtr pf, /* scaled font */

1464

FontPtr opf, /* originating font */

1465

double widthMult, /* glyphs width scale factor */

1466

double heightMult, /* glyphs height scale factor */

1467

FontScalablePtr vals)

1468

{

1469

1470

int nchars = 0;

1471

char *glyphBytes;

1472

BitmapFontPtr bitmapFont,

1473

obitmapFont;

1474

CharInfoPtr pci,

1475

opci;

1476

FontInfoPtr pfi;

1477

int glyph;

1478

unsigned bytestoalloc = 0;

1479

int firstCol, lastCol, firstRow, lastRow;

1480

1481

double xform[4], inv_xform[4];

1482

double xmult, ymult;

1483

1484

bitmapFont = (BitmapFontPtr) pf->fontPrivate;

1485

obitmapFont = (BitmapFontPtr) opf->fontPrivate;

1486

1487

if (!compute_xform_matrix(vals, widthMult, heightMult, xform,

1	Taking false branch

1488

inv_xform, &xmult, &ymult))

1489

goto bail;

1490

1491

pfi = &pf->info;

1492

firstCol = pfi->firstCol;

1493

lastCol = pfi->lastCol;

1494

firstRow = pfi->firstRow;

1495

lastRow = pfi->lastRow;

1496

1497

nchars = (lastRow - firstRow + 1) * (lastCol - firstCol + 1);

1498

glyph = pf->glyph;

1499

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

2	Assuming 'i' is >= 'nchars'

3	Loop condition is false. Execution continues on line 1509

1500

{

1501

if ((pci = ACCESSENCODING(bitmapFont->encoding, i)(bitmapFont->encoding[(i)/128]?(bitmapFont->encoding[(i
)/128][(i)%128]):0)))

1502

bytestoalloc += BYTES_FOR_GLYPH(pci, glyph)(((pci)->metrics.ascent + (pci)->metrics.descent) * ((glyph
) == 1 ? (((((pci)->metrics.rightSideBearing - (pci)->metrics
.leftSideBearing))+7)>>3) :(glyph) == 2 ? ((((((pci)->
metrics.rightSideBearing - (pci)->metrics.leftSideBearing)
)+15)>>3)&~1) :(glyph) == 4 ? ((((((pci)->metrics
.rightSideBearing - (pci)->metrics.leftSideBearing))+31)>>
3)&~3) :(glyph) == 8 ? ((((((pci)->metrics.rightSideBearing
- (pci)->metrics.leftSideBearing))+63)>>3)&~7) :
0));

1503

}

1504

1505

/* Do we add the font malloc stuff for VALUE ADDED ? */

1506

/* Will need to remember to free in the Unload routine */

1507

1508

1509

bitmapFont->bitmaps = calloc(1, bytestoalloc);

4	Call to 'calloc' has an allocation size of 0 bytes

1510

if (!bitmapFont->bitmaps) {

1511

fprintf(stderrstderr, "Error: Couldn't allocate bitmaps (%d)\n", bytestoalloc);

1512

goto bail;

1513

}

1514

1515

glyphBytes = bitmapFont->bitmaps;

1516

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

1517

{

1518

if ((pci = ACCESSENCODING(bitmapFont->encoding, i)(bitmapFont->encoding[(i)/128]?(bitmapFont->encoding[(i
)/128][(i)%128]):0)) &&

1519

(opci = ACCESSENCODING(obitmapFont->encoding, OLDINDEX(i))(obitmapFont->encoding[((((i)/(lastCol - firstCol + 1) + firstRow
- opf->info.firstRow) * (opf->info.lastCol - opf->info
.firstCol + 1) + (i)%(lastCol - firstCol + 1) + firstCol - opf
->info.firstCol))/128]?(obitmapFont->encoding[((((i)/(lastCol
- firstCol + 1) + firstRow - opf->info.firstRow) * (opf->
info.lastCol - opf->info.firstCol + 1) + (i)%(lastCol - firstCol
+ 1) + firstCol - opf->info.firstCol))/128][((((i)/(lastCol
- firstCol + 1) + firstRow - opf->info.firstRow) * (opf->
info.lastCol - opf->info.firstCol + 1) + (i)%(lastCol - firstCol
+ 1) + firstCol - opf->info.firstCol))%128]):0)))

1520

{

1521

pci->bits = glyphBytes;

1522

ScaleBitmap (pf, opci, pci, inv_xform,

1523

widthMult, heightMult);

1524

glyphBytes += BYTES_FOR_GLYPH(pci, glyph)(((pci)->metrics.ascent + (pci)->metrics.descent) * ((glyph
) == 1 ? (((((pci)->metrics.rightSideBearing - (pci)->metrics
.leftSideBearing))+7)>>3) :(glyph) == 2 ? ((((((pci)->
metrics.rightSideBearing - (pci)->metrics.leftSideBearing)
)+15)>>3)&~1) :(glyph) == 4 ? ((((((pci)->metrics
.rightSideBearing - (pci)->metrics.leftSideBearing))+31)>>
3)&~3) :(glyph) == 8 ? ((((((pci)->metrics.rightSideBearing
- (pci)->metrics.leftSideBearing))+63)>>3)&~7) :
0));

1525

}

1526

}

1527

return pf;

1528

1529

bail:

1530

if (pf)

1531

free(pf);

1532

if (bitmapFont) {

1533

free(bitmapFont->metrics);

1534

free(bitmapFont->ink_metrics);

1535

free(bitmapFont->bitmaps);

1536

if(bitmapFont->encoding)

1537

for(i=0; i<NUM_SEGMENTS(nchars)(((nchars)+128 -1)/128); i++)

1538

free(bitmapFont->encoding[i]);

1539

free(bitmapFont->encoding);

1540

}

1541

return NULL((void*)0);

1542

}

1543

1544

/* ARGSUSED */

1545

int

1546

BitmapOpenScalable (FontPathElementPtr fpe,

1547

FontPtr *pFont,

1548

int flags,

1549

FontEntryPtr entry,

1550

char *fileName, /* unused */

1551

FontScalablePtr vals,

1552

fsBitmapFormat format,

1553

fsBitmapFormatMask fmask,

1554

FontPtr non_cachable_font) /* We don't do licensing */

1555

{

1556

FontScalableRec best;

1557

FontPtr font = NullFont((FontPtr) 0);

1558

double dx, sdx,

1559

dy, sdy,

1560

savedX, savedY;

1561

FontPropPtr props;

1562

char *isStringProp = NULL((void*)0);

1563

int propCount;

1564

int status;

1565

long sWidth;

1566

1567

FontEntryPtr scaleFrom;

1568

FontPathElementPtr scaleFPE = NULL((void*)0);

1569

FontPtr sourceFont;

1570

char fontName[MAXFONTNAMELEN1024];

1571

1572

/* Can't deal with mix-endian fonts yet */

1573

1574

1575

/* Reject outrageously small font sizes to keep the math from

1576

blowing up. */

1577

if (get_matrix_vertical_component(vals->pixel_matrix) < 1.0 ||

1578

get_matrix_horizontal_component(vals->pixel_matrix) < 1.0)

1579

return BadFontName83;

1580

1581

scaleFrom = FindBestToScale(fpe, entry, vals, &best, &dx, &dy, &sdx, &sdy,

1582

&scaleFPE);

1583

1584

if (!scaleFrom)

1585

return BadFontName83;

1586

1587

status = FontFileOpenBitmap(scaleFPE, &sourceFont, LoadAll0x1, scaleFrom,

1588

format, fmask);

1589

1590

if (status != Successful85)

1591

return BadFontName83;

1592

1593

if (!vals->width)

1594

vals->width = best.width * dx;

1595

1596

/* Compute the scaled font */

1597

1598

savedX = dx;

1599

savedY = dy;

1600

font = ScaleFont(sourceFont, dx, dy, sdx, sdy, vals, &dx, &dy, &sWidth);

1601

if (font)

1602

font = BitmapScaleBitmaps(font, sourceFont, savedX, savedY, vals);

1603

1604

if (!font)

1605

{

1606

if (!sourceFont->refcnt)

1607

FontFileCloseFont((FontPathElementPtr) 0, sourceFont);

1608

return AllocError80;

1609

}

1610

1611

/* Prepare font properties for the new font */

1612

1613

strcpy (fontName, scaleFrom->name.name);

1614

FontParseXLFDName (fontName, vals, FONT_XLFD_REPLACE_VALUE3);

1615

1616

propCount = ComputeScaledProperties(&sourceFont->info, fontName, vals,

1617

dx, dy, sdx, sdy, sWidth, &props,

1618

&isStringProp);

1619

1620

if (!sourceFont->refcnt)

1621

FontFileCloseFont((FontPathElementPtr) 0, sourceFont);

1622

1623

font->info.props = props;

1624

font->info.nprops = propCount;

1625

font->info.isStringProp = isStringProp;

1626

1627

if (propCount && (!props || !isStringProp))

1628

{

1629

bitmapUnloadScalable(font);

1630

return AllocError80;

1631

}

1632

1633

*pFont = font;

1634

return Successful85;

1635

}

1636

1637

int

1638

BitmapGetInfoScalable (FontPathElementPtr fpe,

1639

FontInfoPtr pFontInfo,

1640

FontEntryPtr entry,

1641

FontNamePtr fontName,

1642

char *fileName,

1643

FontScalablePtr vals)

1644

{

1645

FontPtr pfont;

1646

int flags = 0;

1647

long format = 0; /* It doesn't matter what format for just info */

1648

long fmask = 0;

1649

int ret;

1650

1651

ret = BitmapOpenScalable(fpe, &pfont, flags, entry, fileName, vals,

1652

format, fmask, NULL((void*)0));

1653

if (ret != Successful85)

1654

return ret;

1655

*pFontInfo = pfont->info;

1656

1657

pfont->info.nprops = 0;

1658

pfont->info.props = NULL((void*)0);

1659

pfont->info.isStringProp = NULL((void*)0);

1660

1661

(*pfont->unload_font)(pfont);

1662

return Successful85;

1663

}

1664

1665

static void

1666

bitmapUnloadScalable (FontPtr pFont)

1667

{

1668

BitmapFontPtr bitmapFont;

1669

FontInfoPtr pfi;

1670

int i, nencoding;

1671

1672

bitmapFont = (BitmapFontPtr) pFont->fontPrivate;

1673

pfi = &pFont->info;

1674

free (pfi->props);

1675

free (pfi->isStringProp);

1676

if(bitmapFont->encoding) {

1677

nencoding = (pFont->info.lastCol - pFont->info.firstCol + 1) *

1678

(pFont->info.lastRow - pFont->info.firstRow + 1);

1679

for(i=0; i<NUM_SEGMENTS(nencoding)(((nencoding)+128 -1)/128); i++)

1680

free(bitmapFont->encoding[i]);

1681

}

1682

free (bitmapFont->encoding);

1683

free (bitmapFont->bitmaps);

1684

free (bitmapFont->ink_metrics);

1685

free (bitmapFont->metrics);

1686

free (pFont->fontPrivate);

1687

DestroyFontRec (pFont);

1688

}