tests/conv.cxx - android_external_tigervnc - Gitiles

 /* Copyright 2013-2014 Pierre Ossman <ossman@cendio.se> for Cendio AB
  *
  * This is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation; either version 2 of the License, or
  * (at your option) any later version.
  *
  * This software is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this software; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307,
  * USA.
  */

 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #include <rfb/PixelFormat.h>

 static const rdr::U8 pixelRed = 0xf1;
 static const rdr::U8 pixelGreen = 0xc3;
 static const rdr::U8 pixelBlue = 0x97;

 static const int fbWidth = 40;
 static const int fbHeight = 30;
 static const int fbArea = fbWidth * fbHeight;
 // Maximum bpp, plus some room for unaligned fudging
 static const int fbMalloc = (fbArea * 4) + 4;

 typedef bool (*testfn) (const rfb::PixelFormat&, const rfb::PixelFormat&);

 struct TestEntry {
   const char *label;
   testfn fn;
 };

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

 namespace rfb {

 void makePixel(const rfb::PixelFormat &pf,
                rdr::U8 *buffer)
 {
   rfb::Pixel p;

   p = 0;
   p |= (pixelRed >> (8 - pf.redBits)) << pf.redShift;
   p |= (pixelGreen >> (8 - pf.greenBits)) << pf.greenShift;
   p |= (pixelBlue >> (8 - pf.blueBits)) << pf.blueShift;

   // FIXME: Should we reimplement this as well?
   pf.bufferFromPixel(buffer, p);
 }

 bool verifyPixel(const rfb::PixelFormat &dstpf,
                  const rfb::PixelFormat &srcpf,
                  const rdr::U8 *buffer)
 {
   rfb::Pixel p;
   int r, g, b;
   int re, ge, be;

   // FIXME: Should we reimplement this as well?
   p = dstpf.pixelFromBuffer(buffer);

   r = (p >> dstpf.redShift) & dstpf.redMax;
   g = (p >> dstpf.greenShift) & dstpf.greenMax;
   b = (p >> dstpf.blueShift) & dstpf.blueMax;

   r = (r * 255 + dstpf.redMax/2) / dstpf.redMax;
   g = (g * 255 + dstpf.greenMax/2) / dstpf.greenMax;
   b = (b * 255 + dstpf.blueMax/2) / dstpf.blueMax;

   // The allowed error depends on:
   //
   //  a) The number of bits the format can hold
   //  b) The number of bits the source format could hold

   re = (1 << (8 - min(dstpf.redBits, srcpf.redBits))) - 1;
   ge = (1 << (8 - min(dstpf.greenBits, srcpf.greenBits))) - 1;
   be = (1 << (8 - min(dstpf.blueBits, srcpf.blueBits))) - 1;

   if (abs(r - pixelRed) > re)
     return false;
   if (abs(g - pixelGreen) > ge)
     return false;
   if (abs(b - pixelBlue) > be)
     return false;

   return true;
 }

 }

 using rfb::makePixel;
 using rfb::verifyPixel;

 static bool testPixel(const rfb::PixelFormat &dstpf,
                       const rfb::PixelFormat &srcpf)
 {
   rfb::Pixel p;
   rdr::U8 buffer[4];

   makePixel(srcpf, buffer);

   p = srcpf.pixelFromBuffer(buffer);
   p = dstpf.pixelFromPixel(srcpf, p);
   memset(buffer, 0, sizeof(buffer));
   dstpf.bufferFromPixel(buffer, p);

   if (!verifyPixel(dstpf, srcpf, buffer))
     return false;

   return true;
 }

 static bool testBuffer(const rfb::PixelFormat &dstpf,
                        const rfb::PixelFormat &srcpf)
 {
   int i, x, y, unaligned;
   rdr::U8 bufIn[fbMalloc], bufOut[fbMalloc];

   // Once aligned, and once unaligned
   for (unaligned = 0;unaligned < 2;unaligned++) {
     for (i = 0;i < fbArea;i++)
       makePixel(srcpf, bufIn + unaligned + i*srcpf.bpp/8);

     memset(bufOut, 0, sizeof(bufOut));
     dstpf.bufferFromBuffer(bufOut + unaligned, srcpf,
                            bufIn + unaligned, fbArea);

     for (i = 0;i < fbArea;i++) {
       if (!verifyPixel(dstpf, srcpf, bufOut + unaligned + i*dstpf.bpp/8))
         return false;
     }

     memset(bufIn, 0, sizeof(bufIn));
     for (y = 0;y < fbHeight;y++) {
       for (x = 0;x < fbWidth/2;x++)
         makePixel(srcpf, bufIn + unaligned + (x + y*fbWidth)*srcpf.bpp/8);
     }

     memset(bufOut, 0, sizeof(bufOut));
     dstpf.bufferFromBuffer(bufOut + unaligned, srcpf, bufIn + unaligned,
                            fbWidth/2, fbHeight, fbWidth, fbWidth);

     for (y = 0;y < fbHeight;y++) {
       for (x = 0;x < fbWidth;x++) {
         if (x < fbWidth/2) {
           if (!verifyPixel(dstpf, srcpf,
                            bufOut + unaligned + (x + y*fbWidth)*dstpf.bpp/8))
             return false;
         } else {
           const rdr::U8 zero[4] = { 0, 0, 0, 0 };
           if (memcmp(bufOut + unaligned + (x + y*fbWidth)*dstpf.bpp/8, zero,
                      dstpf.bpp/8) != 0)
             return false;
         }
       }
     }
   }

   return true;
 }

 static bool testRGB(const rfb::PixelFormat &dstpf,
                     const rfb::PixelFormat &srcpf)
 {
   int i, x, y, unaligned;
   rdr::U8 bufIn[fbMalloc], bufRGB[fbMalloc], bufOut[fbMalloc];

   // Once aligned, and once unaligned
   for (unaligned = 0;unaligned < 2;unaligned++) {
     for (i = 0;i < fbArea;i++)
       makePixel(srcpf, bufIn + unaligned + i*srcpf.bpp/8);

     memset(bufRGB, 0, sizeof(bufRGB));
     srcpf.rgbFromBuffer(bufRGB + unaligned, bufIn + unaligned, fbArea);

     memset(bufOut, 0, sizeof(bufOut));
     dstpf.bufferFromRGB(bufOut + unaligned, bufRGB + unaligned, fbArea);

     for (i = 0;i < fbArea;i++) {
       if (!verifyPixel(dstpf, srcpf, bufOut + unaligned + i*dstpf.bpp/8))
         return false;
     }

     memset(bufIn, 0, sizeof(bufIn));
     for (y = 0;y < fbHeight;y++) {
       for (x = 0;x < fbWidth/2;x++)
         makePixel(srcpf, bufIn + unaligned + (x + y*fbWidth)*srcpf.bpp/8);
     }

     memset(bufRGB, 0, sizeof(bufRGB));
     srcpf.rgbFromBuffer(bufRGB + unaligned, bufIn + unaligned,
                         fbWidth/2, fbWidth, fbHeight);

     memset(bufOut, 0, sizeof(bufOut));
     dstpf.bufferFromRGB(bufOut + unaligned, bufRGB + unaligned,
                         fbWidth/2, fbWidth, fbHeight);

     for (y = 0;y < fbHeight;y++) {
       for (x = 0;x < fbWidth;x++) {
         if (x < fbWidth/2) {
           if (!verifyPixel(dstpf, srcpf,
                            bufOut + unaligned + (x + y*fbWidth)*dstpf.bpp/8))
             return false;
         } else {
           const rdr::U8 zero[4] = { 0, 0, 0, 0 };
           if (memcmp(bufOut + unaligned + (x + y*fbWidth)*dstpf.bpp/8, zero,
                      dstpf.bpp/8) != 0)
             return false;
         }
       }
     }
   }

   return true;
 }

 static bool testPixelRGB(const rfb::PixelFormat &dstpf,
                          const rfb::PixelFormat &srcpf)
 {
   rfb::Pixel p;
   rdr::U16 r16, g16, b16;
   rdr::U8 r8, g8, b8;
   rdr::U8 buffer[4];

   makePixel(srcpf, buffer);

   p = srcpf.pixelFromBuffer(buffer);
   srcpf.rgbFromPixel(p, &r16, &g16, &b16);
   p = dstpf.pixelFromRGB(r16, g16, b16);
   memset(buffer, 0, sizeof(buffer));
   dstpf.bufferFromPixel(buffer, p);

   if (!verifyPixel(dstpf, srcpf, buffer))
     return false;

   makePixel(srcpf, buffer);

   p = srcpf.pixelFromBuffer(buffer);
   srcpf.rgbFromPixel(p, &r8, &g8, &b8);
   p = dstpf.pixelFromRGB(r8, g8, b8);
   memset(buffer, 0, sizeof(buffer));
   dstpf.bufferFromPixel(buffer, p);

   if (!verifyPixel(dstpf, srcpf, buffer))
     return false;

   return true;
 }

 struct TestEntry tests[] = {
   {"Pixel from pixel", testPixel},
   {"Buffer from buffer", testBuffer},
   {"Buffer to/from RGB", testRGB},
   {"Pixel to/from RGB", testPixelRGB},
 };

 static void doTests(const rfb::PixelFormat &dstpf,
                     const rfb::PixelFormat &srcpf)
 {
   size_t i;
   char dstb[256], srcb[256];

   dstpf.print(dstb, sizeof(dstb));
   srcpf.print(srcb, sizeof(srcb));

   printf("\n");
   printf("%s to %s\n", srcb, dstb);
   printf("\n");

   for (i = 0;i < sizeof(tests)/sizeof(tests[0]);i++) {
     printf("    %s: ", tests[i].label);
     fflush(stdout);
     if (tests[i].fn(dstpf, srcpf))
       printf("OK");
     else
       printf("FAILED");
     printf("\n");
   }
 }

 int main(int argc, char **argv)
 {
   rfb::PixelFormat dstpf, srcpf;

   printf("Pixel Conversion Correctness Test\n");

   /* rgb888 targets */

   dstpf.parse("rgb888");

   srcpf.parse("rgb888");
   doTests(dstpf, srcpf);

   srcpf.parse("bgr888");
   doTests(dstpf, srcpf);

   srcpf.parse("rgb565");
   doTests(dstpf, srcpf);

   srcpf.parse("rgb232");
   doTests(dstpf, srcpf);

   /* rgb565 targets */

   dstpf.parse("rgb565");

   srcpf.parse("rgb888");
   doTests(dstpf, srcpf);

   srcpf.parse("bgr565");
   doTests(dstpf, srcpf);

   srcpf.parse("rgb232");
   doTests(dstpf, srcpf);

   /* rgb232 targets */

   dstpf.parse("rgb232");

   srcpf.parse("rgb888");
   doTests(dstpf, srcpf);

   srcpf.parse("rgb565");
   doTests(dstpf, srcpf);

   srcpf.parse("bgr232");
   doTests(dstpf, srcpf);

   /* endian conversion (both ways) */

   dstpf = rfb::PixelFormat(32, 24, false, true, 255, 255, 255, 0, 8, 16);
   srcpf = rfb::PixelFormat(32, 24, true, true, 255, 255, 255, 0, 8, 16);

   doTests(dstpf, srcpf);

   doTests(srcpf, dstpf);

   dstpf = rfb::PixelFormat(16, 16, false, true, 31, 63, 31, 0, 5, 11);
   srcpf = rfb::PixelFormat(16, 16, true, true, 31, 63, 31, 0, 5, 11);

   doTests(dstpf, srcpf);

   doTests(srcpf, dstpf);

   // Pesky case that is very asymetrical
   dstpf = rfb::PixelFormat(32, 24, false, true, 255, 255, 255, 0, 8, 16);
   srcpf = rfb::PixelFormat(32, 24, true, true, 255, 255, 255, 0, 24, 8);

   doTests(dstpf, srcpf);

   doTests(srcpf, dstpf);
 }
	/* Copyright 2013-2014 Pierre Ossman <ossman@cendio.se> for Cendio AB
	*
	* This is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation; either version 2 of the License, or
	* (at your option) any later version.
	*
	* This software is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this software; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307,
	* USA.
	*/

	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#include <rfb/PixelFormat.h>

	static const rdr::U8 pixelRed = 0xf1;
	static const rdr::U8 pixelGreen = 0xc3;
	static const rdr::U8 pixelBlue = 0x97;

	static const int fbWidth = 40;
	static const int fbHeight = 30;
	static const int fbArea = fbWidth * fbHeight;
	// Maximum bpp, plus some room for unaligned fudging
	static const int fbMalloc = (fbArea * 4) + 4;

	typedef bool (*testfn) (const rfb::PixelFormat&, const rfb::PixelFormat&);

	struct TestEntry {
	const char *label;
	testfn fn;
	};

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

	namespace rfb {

	void makePixel(const rfb::PixelFormat &pf,
	rdr::U8 *buffer)
	{
	rfb::Pixel p;

	p = 0;
	p \|= (pixelRed >> (8 - pf.redBits)) << pf.redShift;
	p \|= (pixelGreen >> (8 - pf.greenBits)) << pf.greenShift;
	p \|= (pixelBlue >> (8 - pf.blueBits)) << pf.blueShift;

	// FIXME: Should we reimplement this as well?
	pf.bufferFromPixel(buffer, p);
	}

	bool verifyPixel(const rfb::PixelFormat &dstpf,
	const rfb::PixelFormat &srcpf,
	const rdr::U8 *buffer)
	{
	rfb::Pixel p;
	int r, g, b;
	int re, ge, be;

	// FIXME: Should we reimplement this as well?
	p = dstpf.pixelFromBuffer(buffer);

	r = (p >> dstpf.redShift) & dstpf.redMax;
	g = (p >> dstpf.greenShift) & dstpf.greenMax;
	b = (p >> dstpf.blueShift) & dstpf.blueMax;

	r = (r * 255 + dstpf.redMax/2) / dstpf.redMax;
	g = (g * 255 + dstpf.greenMax/2) / dstpf.greenMax;
	b = (b * 255 + dstpf.blueMax/2) / dstpf.blueMax;

	// The allowed error depends on:
	//
	// a) The number of bits the format can hold
	// b) The number of bits the source format could hold

	re = (1 << (8 - min(dstpf.redBits, srcpf.redBits))) - 1;
	ge = (1 << (8 - min(dstpf.greenBits, srcpf.greenBits))) - 1;
	be = (1 << (8 - min(dstpf.blueBits, srcpf.blueBits))) - 1;

	if (abs(r - pixelRed) > re)
	return false;
	if (abs(g - pixelGreen) > ge)
	return false;
	if (abs(b - pixelBlue) > be)
	return false;

	return true;
	}

	}

	using rfb::makePixel;
	using rfb::verifyPixel;

	static bool testPixel(const rfb::PixelFormat &dstpf,
	const rfb::PixelFormat &srcpf)
	{
	rfb::Pixel p;
	rdr::U8 buffer[4];

	makePixel(srcpf, buffer);

	p = srcpf.pixelFromBuffer(buffer);
	p = dstpf.pixelFromPixel(srcpf, p);
	memset(buffer, 0, sizeof(buffer));
	dstpf.bufferFromPixel(buffer, p);

	if (!verifyPixel(dstpf, srcpf, buffer))
	return false;

	return true;
	}

	static bool testBuffer(const rfb::PixelFormat &dstpf,
	const rfb::PixelFormat &srcpf)
	{
	int i, x, y, unaligned;
	rdr::U8 bufIn[fbMalloc], bufOut[fbMalloc];

	// Once aligned, and once unaligned
	for (unaligned = 0;unaligned < 2;unaligned++) {
	for (i = 0;i < fbArea;i++)
	makePixel(srcpf, bufIn + unaligned + i*srcpf.bpp/8);

	memset(bufOut, 0, sizeof(bufOut));
	dstpf.bufferFromBuffer(bufOut + unaligned, srcpf,
	bufIn + unaligned, fbArea);

	for (i = 0;i < fbArea;i++) {
	if (!verifyPixel(dstpf, srcpf, bufOut + unaligned + i*dstpf.bpp/8))
	return false;
	}

	memset(bufIn, 0, sizeof(bufIn));
	for (y = 0;y < fbHeight;y++) {
	for (x = 0;x < fbWidth/2;x++)
	makePixel(srcpf, bufIn + unaligned + (x + yfbWidth)srcpf.bpp/8);
	}

	memset(bufOut, 0, sizeof(bufOut));
	dstpf.bufferFromBuffer(bufOut + unaligned, srcpf, bufIn + unaligned,
	fbWidth/2, fbHeight, fbWidth, fbWidth);

	for (y = 0;y < fbHeight;y++) {
	for (x = 0;x < fbWidth;x++) {
	if (x < fbWidth/2) {
	if (!verifyPixel(dstpf, srcpf,
	bufOut + unaligned + (x + yfbWidth)dstpf.bpp/8))
	return false;
	} else {
	const rdr::U8 zero[4] = { 0, 0, 0, 0 };
	if (memcmp(bufOut + unaligned + (x + yfbWidth)dstpf.bpp/8, zero,
	dstpf.bpp/8) != 0)
	return false;
	}
	}
	}
	}

	return true;
	}

	static bool testRGB(const rfb::PixelFormat &dstpf,
	const rfb::PixelFormat &srcpf)
	{
	int i, x, y, unaligned;
	rdr::U8 bufIn[fbMalloc], bufRGB[fbMalloc], bufOut[fbMalloc];

	// Once aligned, and once unaligned
	for (unaligned = 0;unaligned < 2;unaligned++) {
	for (i = 0;i < fbArea;i++)
	makePixel(srcpf, bufIn + unaligned + i*srcpf.bpp/8);

	memset(bufRGB, 0, sizeof(bufRGB));
	srcpf.rgbFromBuffer(bufRGB + unaligned, bufIn + unaligned, fbArea);

	memset(bufOut, 0, sizeof(bufOut));
	dstpf.bufferFromRGB(bufOut + unaligned, bufRGB + unaligned, fbArea);

	for (i = 0;i < fbArea;i++) {
	if (!verifyPixel(dstpf, srcpf, bufOut + unaligned + i*dstpf.bpp/8))
	return false;
	}

	memset(bufIn, 0, sizeof(bufIn));
	for (y = 0;y < fbHeight;y++) {
	for (x = 0;x < fbWidth/2;x++)
	makePixel(srcpf, bufIn + unaligned + (x + yfbWidth)srcpf.bpp/8);
	}

	memset(bufRGB, 0, sizeof(bufRGB));
	srcpf.rgbFromBuffer(bufRGB + unaligned, bufIn + unaligned,
	fbWidth/2, fbWidth, fbHeight);

	memset(bufOut, 0, sizeof(bufOut));
	dstpf.bufferFromRGB(bufOut + unaligned, bufRGB + unaligned,
	fbWidth/2, fbWidth, fbHeight);

	for (y = 0;y < fbHeight;y++) {
	for (x = 0;x < fbWidth;x++) {
	if (x < fbWidth/2) {
	if (!verifyPixel(dstpf, srcpf,
	bufOut + unaligned + (x + yfbWidth)dstpf.bpp/8))
	return false;
	} else {
	const rdr::U8 zero[4] = { 0, 0, 0, 0 };
	if (memcmp(bufOut + unaligned + (x + yfbWidth)dstpf.bpp/8, zero,
	dstpf.bpp/8) != 0)
	return false;
	}
	}
	}
	}

	return true;
	}

	static bool testPixelRGB(const rfb::PixelFormat &dstpf,
	const rfb::PixelFormat &srcpf)
	{
	rfb::Pixel p;
	rdr::U16 r16, g16, b16;
	rdr::U8 r8, g8, b8;
	rdr::U8 buffer[4];

	makePixel(srcpf, buffer);

	p = srcpf.pixelFromBuffer(buffer);
	srcpf.rgbFromPixel(p, &r16, &g16, &b16);
	p = dstpf.pixelFromRGB(r16, g16, b16);
	memset(buffer, 0, sizeof(buffer));
	dstpf.bufferFromPixel(buffer, p);

	if (!verifyPixel(dstpf, srcpf, buffer))
	return false;

	makePixel(srcpf, buffer);

	p = srcpf.pixelFromBuffer(buffer);
	srcpf.rgbFromPixel(p, &r8, &g8, &b8);
	p = dstpf.pixelFromRGB(r8, g8, b8);
	memset(buffer, 0, sizeof(buffer));
	dstpf.bufferFromPixel(buffer, p);

	if (!verifyPixel(dstpf, srcpf, buffer))
	return false;

	return true;
	}

	struct TestEntry tests[] = {
	{"Pixel from pixel", testPixel},
	{"Buffer from buffer", testBuffer},
	{"Buffer to/from RGB", testRGB},
	{"Pixel to/from RGB", testPixelRGB},
	};

	static void doTests(const rfb::PixelFormat &dstpf,
	const rfb::PixelFormat &srcpf)
	{
	size_t i;
	char dstb[256], srcb[256];

	dstpf.print(dstb, sizeof(dstb));
	srcpf.print(srcb, sizeof(srcb));

	printf("\n");
	printf("%s to %s\n", srcb, dstb);
	printf("\n");

	for (i = 0;i < sizeof(tests)/sizeof(tests[0]);i++) {
	printf(" %s: ", tests[i].label);
	fflush(stdout);
	if (tests[i].fn(dstpf, srcpf))
	printf("OK");
	else
	printf("FAILED");
	printf("\n");
	}
	}

	int main(int argc, char **argv)
	{
	rfb::PixelFormat dstpf, srcpf;

	printf("Pixel Conversion Correctness Test\n");

	/* rgb888 targets */

	dstpf.parse("rgb888");

	srcpf.parse("rgb888");
	doTests(dstpf, srcpf);

	srcpf.parse("bgr888");
	doTests(dstpf, srcpf);

	srcpf.parse("rgb565");
	doTests(dstpf, srcpf);

	srcpf.parse("rgb232");
	doTests(dstpf, srcpf);

	/* rgb565 targets */

	dstpf.parse("rgb565");

	srcpf.parse("rgb888");
	doTests(dstpf, srcpf);

	srcpf.parse("bgr565");
	doTests(dstpf, srcpf);

	srcpf.parse("rgb232");
	doTests(dstpf, srcpf);

	/* rgb232 targets */

	dstpf.parse("rgb232");

	srcpf.parse("rgb888");
	doTests(dstpf, srcpf);

	srcpf.parse("rgb565");
	doTests(dstpf, srcpf);

	srcpf.parse("bgr232");
	doTests(dstpf, srcpf);

	/* endian conversion (both ways) */

	dstpf = rfb::PixelFormat(32, 24, false, true, 255, 255, 255, 0, 8, 16);
	srcpf = rfb::PixelFormat(32, 24, true, true, 255, 255, 255, 0, 8, 16);

	doTests(dstpf, srcpf);

	doTests(srcpf, dstpf);

	dstpf = rfb::PixelFormat(16, 16, false, true, 31, 63, 31, 0, 5, 11);
	srcpf = rfb::PixelFormat(16, 16, true, true, 31, 63, 31, 0, 5, 11);

	doTests(dstpf, srcpf);

	doTests(srcpf, dstpf);

	// Pesky case that is very asymetrical
	dstpf = rfb::PixelFormat(32, 24, false, true, 255, 255, 255, 0, 8, 16);
	srcpf = rfb::PixelFormat(32, 24, true, true, 255, 255, 255, 0, 24, 8);

	doTests(dstpf, srcpf);

	doTests(srcpf, dstpf);
	}