/usr/include/poppler/splash/SplashMath.h is in libpoppler-private-dev 0.48.0-2+deb9u2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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//
// SplashMath.h
//
//========================================================================
//========================================================================
//
// Modified under the Poppler project - http://poppler.freedesktop.org
//
// All changes made under the Poppler project to this file are licensed
// under GPL version 2 or later
//
// Copyright (C) 2009-2011 Albert Astals Cid <aacid@kde.org>
//
// To see a description of the changes please see the Changelog file that
// came with your tarball or type make ChangeLog if you are building from git
//
//========================================================================
#ifndef SPLASHMATH_H
#define SPLASHMATH_H
#include "poppler-config.h"
#if USE_FIXEDPOINT
#include "goo/FixedPoint.h"
#else
#include <math.h>
#endif
#include "SplashTypes.h"
static inline SplashCoord splashAbs(SplashCoord x) {
#if USE_FIXEDPOINT
return FixedPoint::abs(x);
#elif USE_FLOAT
return fabsf(x);
#else
return fabs(x);
#endif
}
static inline int splashFloor(SplashCoord x) {
#if USE_FIXEDPOINT
return FixedPoint::floor(x);
#elif USE_FLOAT
return (int)floorf(x);
#elif __GNUC__ && __i386__
// floor() and (int)() are implemented separately, which results
// in changing the FPCW multiple times - so we optimize it with
// some inline assembly
Gushort oldCW, newCW, t;
int result;
__asm__ volatile("fldl %4\n"
"fnstcw %0\n"
"movw %0, %3\n"
"andw $0xf3ff, %3\n"
"orw $0x0400, %3\n"
"movw %3, %1\n" // round down
"fldcw %1\n"
"fistpl %2\n"
"fldcw %0\n"
: "=m" (oldCW), "=m" (newCW), "=m" (result), "=r" (t)
: "m" (x));
return result;
#elif defined(WIN32) && defined(_M_IX86)
// floor() and (int)() are implemented separately, which results
// in changing the FPCW multiple times - so we optimize it with
// some inline assembly
Gushort oldCW, newCW;
int result;
__asm fld QWORD PTR x
__asm fnstcw WORD PTR oldCW
__asm mov ax, WORD PTR oldCW
__asm and ax, 0xf3ff
__asm or ax, 0x0400
__asm mov WORD PTR newCW, ax // round down
__asm fldcw WORD PTR newCW
__asm fistp DWORD PTR result
__asm fldcw WORD PTR oldCW
return result;
#else
if (x > 0) return (int)x;
else return (int)floor(x);
#endif
}
static inline int splashCeil(SplashCoord x) {
#if USE_FIXEDPOINT
return FixedPoint::ceil(x);
#elif USE_FLOAT
return (int)ceilf(x);
#elif __GNUC__ && __i386__
// ceil() and (int)() are implemented separately, which results
// in changing the FPCW multiple times - so we optimize it with
// some inline assembly
Gushort oldCW, newCW, t;
int result;
__asm__ volatile("fldl %4\n"
"fnstcw %0\n"
"movw %0, %3\n"
"andw $0xf3ff, %3\n"
"orw $0x0800, %3\n"
"movw %3, %1\n" // round up
"fldcw %1\n"
"fistpl %2\n"
"fldcw %0\n"
: "=m" (oldCW), "=m" (newCW), "=m" (result), "=r" (t)
: "m" (x));
return result;
#elif defined(WIN32) && defined(_M_IX86)
// ceil() and (int)() are implemented separately, which results
// in changing the FPCW multiple times - so we optimize it with
// some inline assembly
Gushort oldCW, newCW;
int result;
__asm fld QWORD PTR x
__asm fnstcw WORD PTR oldCW
__asm mov ax, WORD PTR oldCW
__asm and ax, 0xf3ff
__asm or ax, 0x0800
__asm mov WORD PTR newCW, ax // round up
__asm fldcw WORD PTR newCW
__asm fistp DWORD PTR result
__asm fldcw WORD PTR oldCW
return result;
#else
return (int)ceil(x);
#endif
}
static inline int splashRound(SplashCoord x) {
#if USE_FIXEDPOINT
return FixedPoint::round(x);
#elif __GNUC__ && __i386__
// this could use round-to-nearest mode and avoid the "+0.5",
// but that produces slightly different results (because i+0.5
// sometimes rounds up and sometimes down using the even rule)
Gushort oldCW, newCW, t;
int result;
x += 0.5;
__asm__ volatile("fldl %4\n"
"fnstcw %0\n"
"movw %0, %3\n"
"andw $0xf3ff, %3\n"
"orw $0x0400, %3\n"
"movw %3, %1\n" // round down
"fldcw %1\n"
"fistpl %2\n"
"fldcw %0\n"
: "=m" (oldCW), "=m" (newCW), "=m" (result), "=r" (t)
: "m" (x));
return result;
#elif defined(WIN32) && defined(_M_IX86)
// this could use round-to-nearest mode and avoid the "+0.5",
// but that produces slightly different results (because i+0.5
// sometimes rounds up and sometimes down using the even rule)
Gushort oldCW, newCW;
int result;
x += 0.5;
__asm fld QWORD PTR x
__asm fnstcw WORD PTR oldCW
__asm mov ax, WORD PTR oldCW
__asm and ax, 0xf3ff
__asm or ax, 0x0400
__asm mov WORD PTR newCW, ax // round down
__asm fldcw WORD PTR newCW
__asm fistp DWORD PTR result
__asm fldcw WORD PTR oldCW
return result;
#else
return (int)splashFloor(x + 0.5);
#endif
}
static inline SplashCoord splashAvg(SplashCoord x, SplashCoord y) {
#if USE_FIXEDPOINT
return FixedPoint::avg(x, y);
#else
return 0.5 * (x + y);
#endif
}
static inline SplashCoord splashSqrt(SplashCoord x) {
#if USE_FIXEDPOINT
return FixedPoint::sqrt(x);
#elif USE_FLOAT
return sqrtf(x);
#else
return sqrt(x);
#endif
}
static inline SplashCoord splashPow(SplashCoord x, SplashCoord y) {
#if USE_FIXEDPOINT
return FixedPoint::pow(x, y);
#elif USE_FLOAT
return powf(x, y);
#else
return pow(x, y);
#endif
}
static inline SplashCoord splashDist(SplashCoord x0, SplashCoord y0,
SplashCoord x1, SplashCoord y1) {
SplashCoord dx, dy;
dx = x1 - x0;
dy = y1 - y0;
#if USE_FIXEDPOINT
// this handles the situation where dx*dx or dy*dy is too large to
// fit in the 16.16 fixed point format
SplashCoord dxa, dya, d;
dxa = splashAbs(dx);
dya = splashAbs(dy);
if (dxa == 0 && dya == 0) {
return 0;
} else if (dxa > dya) {
d = dya / dxa;
return dxa * FixedPoint::sqrt(d*d + 1);
} else {
d = dxa / dya;
return dya * FixedPoint::sqrt(d*d + 1);
}
#else
return splashSqrt(dx * dx + dy * dy);
#endif
}
static inline GBool splashCheckDet(SplashCoord m11, SplashCoord m12,
SplashCoord m21, SplashCoord m22,
SplashCoord epsilon) {
#if USE_FIXEDPOINT
return FixedPoint::checkDet(m11, m12, m21, m22, epsilon);
#else
return fabs(m11 * m22 - m12 * m21) >= epsilon;
#endif
}
#endif
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