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NV12ToARGB function problem, the color is inaccurate #385

Open GoogleCodeExporter opened 9 years ago

GoogleCodeExporter commented 9 years ago
What steps will reproduce the problem?
1. use NV12ToARGB function to convert yuv preview frame which captured by 
Android Camera
2. Watching plants slice with a microscope, the image should be green, but the 
color is A little bluer.
3. Use Android Camera App, the color is OK.

What is the expected output? What do you see instead?
The color should same as Android Camera preview. But what i see is a litter 
bluer.

What version of the product are you using? On what operating system?
verison: r1191   on android

Please provide any additional information below.

pleas refer the attached two image, the GPUImage Sample's image is also too 
blue.
issue link: https://github.com/CyberAgent/android-gpuimage/issues/140

it use formula:

//===== Approximation =============
// R = Y + 1.40625Cr
// G = Y - 0.15625Cb - 0.28125Cr
// B = Y + 1.765625Cb
//=================================
R = Y + Cr + (Cr >> 2) + (Cr >> 3) + (Cr >> 5);
if(R < 0) R = 0; else if(R > 255) R = 255;
G = Y - (Cb >> 2) + (Cb >> 4) + (Cb >> 5) - (Cr >> 1) + (Cr >> 3) + (Cr >> 4) + 
(Cr >> 5);
if(G < 0) G = 0; else if(G > 255) G = 255;
B = Y + Cb + (Cb >> 1) + (Cb >> 2) + (Cb >> 6);
if(B < 0) B = 0; else if(B > 255) B = 255;

another formula is still not OK

//Method 3
//==============================
//R = Y + 1.402Cr
//G = Y - 0.34414Cb - 0.71414Cr
//B = Y + 1.772Cb
//==============================
//===== Approximation ==========
// R = Y + 1.40625Cr
// G = Y - 0.34375Cb - 0.71875Cr
// B = Y + 1.765625Cb
//==============================
R = Y + Cr + (Cr >> 2) + (Cr >> 3) + (Cr >> 5);
if(R < 0) R = 0; else if(R > 255) R = 255;
G = Y - (Cb >> 1) + (Cb >> 3) + (Cb >> 5) - Cr + (Cr >> 2) + (Cr >> 5);
if(G < 0) G = 0; else if(G > 255) G = 255;
B = Y + Cb + (Cb >> 1) + (Cb >> 2) + (Cb >> 6);
if(B < 0) B = 0; else if(B > 255) B = 255;

I try to use another formula, the color of image is OK, but i don't know how to 
change NV12ToARGB function 

//Method 4
//==============================
//R = 1.164Y + 2.018Cr;
//G = 1.164Y - 0.813Cb - 0.391Cr;
//B = 1.164Y + 1.596Cb;
//==============================
//===== Approximation ==========
// R = 1.1640625Y + 2.015625Cr
 // G = 1.1640625Y - 0.8125Cb - 0.375Cr
// B = 1.1640625Y + 1.59375Cb
//==============================
Y = Y + (Y >> 3) + (Y >> 5) + (Y >> 7);
R = Y + (Cr << 1) + (Cr >> 6);
if(R < 0) R = 0; else if(R > 255) R = 255;
G = Y - Cb + (Cb >> 3) + (Cb >> 4) - (Cr >> 1) + (Cr >> 3);
if(G < 0) G = 0; else if(G > 255) G = 255;
B = Y + Cb + (Cb >> 1) + (Cb >> 4) + (Cb >> 5);
if(B < 0) B = 0; else if(B > 255) B = 255;

Original issue reported on code.google.com by Hoo.Zh...@gmail.com on 9 Dec 2014 at 8:53

Attachments:

GoogleCodeExporter commented 9 years ago
Where did your Method 4 code come from?
What is that color space?

Could this be the rounding issue as:
https://code.google.com/p/libyuv/issues/detail?id=324

The conversion is intended to be bt.601 in the video constrained range of 16 to 
240 for Y.
The formula you show doesnt have Y - 16, so I'm thinking its not the same color 
space?  The other two are bt.709 and bt.720, intended for LCDs and HDTVs.  And 
full range varients, such as jpegs, which libyuv has some support for.

Could it be using the JPeg color space?  Theres an open issue to implement that:
https://code.google.com/p/libyuv/issues/detail?id=241

To experiment with changing the code, disable Neon and tinker with

source/row_common.cc:

// C reference code that mimics the YUV assembly.

#define YG 74 /* (int8)(1.164 * 64 + 0.5) */

#define UB 127 /* min(63,(int8)(2.018 * 64)) */
#define UG -25 /* (int8)(-0.391 * 64 - 0.5) */
#define UR 0

#define VB 0
#define VG -52 /* (int8)(-0.813 * 64 - 0.5) */
#define VR 102 /* (int8)(1.596 * 64 + 0.5) */

// Bias
#define BB UB * 128 + VB * 128
#define BG UG * 128 + VG * 128
#define BR UR * 128 + VR * 128

static __inline void YuvPixel(uint8 y, uint8 u, uint8 v,
                              uint8* b, uint8* g, uint8* r) {
  int32 y1 = ((int32)(y) - 16) * YG;
  *b = Clamp((int32)((u * UB + v * VB) - (BB) + y1) >> 6);
  *g = Clamp((int32)((u * UG + v * VG) - (BG) + y1) >> 6);
  *r = Clamp((int32)((u * UR + v * VR) - (BR) + y1) >> 6);
}

Original comment by fbarch...@google.com on 11 Dec 2014 at 8:01

GoogleCodeExporter commented 9 years ago
Did some test

1. disable neon, commented below codes in android.mk
# ifeq ($(TARGET_ARCH_ABI),armeabi-v7a)
#     LOCAL_CFLAGS += -DLIBYUV_NEON
#     LOCAL_SRC_FILES += \
#         source/compare_neon.cc.neon    \
#         source/rotate_neon.cc.neon     \
#         source/row_neon.cc.neon        \
#         source/scale_neon.cc.neon
# endif

2. modify  YuvPixel function in row_common.cc

static __inline void YuvPixel(uint8 y, uint8 u, uint8 v,
                              uint8* b, uint8* g, uint8* r) {

//------------------------------------------------------------
//<<< original code, the color is *NOT* right
//------------------------------------------------------------
//  int32 y1 = ((int32)(y) - 16) * YG;
//  *b = Clamp((int32)((u * UB + v * VB) - (BB) + y1) >> 6);
//  *g = Clamp((int32)((u * UG + v * VG) - (BG) + y1) >> 6);
//  *r = Clamp((int32)((u * UR + v * VR) - (BR) + y1) >> 6);

//------------------------------------------------------------
//<<< formula which original code used, the color is *NOT* right
//------------------------------------------------------------
  int32 y1 = ((int32)((y) - 16) * 1.164);
  *b = Clamp((int32)(y1 + 2.018*(u - 128)));
  *g = Clamp((int32)(y1 - 0.813*(v - 128) - 0.391*(u - 128)));
  *r = Clamp((int32)(y1 + 1.596*(v - 128)));

//------------------------------------------------------------
//<<< JPEG conversion formula, the color is right
//------------------------------------------------------------
//  *b = Clamp((int32)(y + 1.40200*(u - 128)));
//  *g = Clamp((int32)(y - 0.34414*(v - 128)) - 0.71414*(u - 128));
//  *r = Clamp((int32)(y + 1.77200*(v - 128)));
}

My APP is running on a custom android device which capture motion-jpg stream 
from a web camera, then converted to yuv frames, My APP process the yuv frames 
in onPreviewFrame callback, convert the yuv frames to RGB bitmap.

So my APP need use JPEG conversion formula in my scene, am I right?

Is there any way to use neon with JPEG conversion formula?

-----

Another wired thing

I use another function which came from GPUImage project:  
https://github.com/CyberAgent/android-gpuimage

try different formulas in this function

method 1 is original, the color is too blue, not right
method 2 is JPEG conversion formula, but the color is also too blue, not right
method 3 is bt 601, the color is right

the test result is opposite

void YUVtoRBGA(jbyte* yuv, jint width, jint height, jint* rgbData)
{
    int             sz;
    int             i;
    int             j;
    int             Y;
    int             Y1;
    int             Cr = 0;
    int             Cb = 0;
    int             pixPtr = 0;
    int             jDiv2 = 0;
    int             R = 0;
    int             G = 0;
    int             B = 0;
    int             cOff;
    int w = width;
    int h = height;
    sz = w * h;

    for(j = 0; j < h; j++) {
             pixPtr = j * w;
             jDiv2 = j >> 1;
             for(i = 0; i < w; i++) {
                     Y = yuv[pixPtr];
                     if(Y < 0) Y += 255;
                     if((i & 0x1) != 1) {
                             cOff = sz + jDiv2 * w + (i >> 1) * 2;
                             Cb = yuv[cOff];
                             if(Cb < 0) Cb += 127; else Cb -= 128;
                             Cr = yuv[cOff + 1];
                             if(Cr < 0) Cr += 127; else Cr -= 128;
                     }

                     //Method 1  orig
                     //===== Approximation =============
                     // R = Y + 1.40625Cr
                     // G = Y - 0.15625Cb - 0.28125Cr
                     // B = Y + 1.765625Cb
                     //=================================
//                   R = Y + Cr + (Cr >> 2) + (Cr >> 3) + (Cr >> 5);
//           if(R < 0) R = 0; else if(R > 255) R = 255;
//           G = Y - (Cb >> 2) + (Cb >> 4) + (Cb >> 5) - (Cr >> 1) + (Cr >> 3) + 
(Cr >> 4) + (Cr >> 5);
//           if(G < 0) G = 0; else if(G > 255) G = 255;
//           B = Y + Cb + (Cb >> 1) + (Cb >> 2) + (Cb >> 6);
//           if(B < 0) B = 0; else if(B > 255) B = 255;

                     //Method 2
                     //==============================
                     //R = Y + 1.402Cr
                     //G = Y - 0.34414Cb - 0.71414Cr
                     //B = Y + 1.772Cb
                     //==============================
                     //===== Approximation ==========
                 // R = Y + 1.40625Cr
             // G = Y - 0.34375Cb - 0.71875Cr
             // B = Y + 1.765625Cb
             //==============================
//           R = Y + Cr + (Cr >> 2) + (Cr >> 3) + (Cr >> 5);
//           if(R < 0) R = 0; else if(R > 255) R = 255;
//           G = Y - (Cb >> 1) + (Cb >> 3) + (Cb >> 5) - Cr + (Cr >> 2) + (Cr >> 5);
//           if(G < 0) G = 0; else if(G > 255) G = 255;
//           B = Y + Cb + (Cb >> 1) + (Cb >> 2) + (Cb >> 6);
//           if(B < 0) B = 0; else if(B > 255) B = 255;

                     //Method 3
             //==============================
             //R = 1.164Y + 2.018Cr;
             //G = 1.164Y - 0.813Cb - 0.391Cr;
             //B = 1.164Y + 1.596Cb;
             //==============================
             //===== Approximation ==========
             // R = 1.1640625Y + 2.015625Cr
             // G = 1.1640625Y - 0.8125Cb - 0.375Cr
             // B = 1.1640625Y + 1.59375Cb
             //==============================
//                   Y = Y + (Y >> 3) + (Y >> 5) + (Y >> 7);
//           R = Y + (Cr << 1) + (Cr >> 6);
//           if(R < 0) R = 0; else if(R > 255) R = 255;
//           G = Y - Cb + (Cb >> 3) + (Cb >> 4) - (Cr >> 1) + (Cr >> 3);
//           if(G < 0) G = 0; else if(G > 255) G = 255;
//           B = Y + Cb + (Cb >> 1) + (Cb >> 4) + (Cb >> 5);
//           if(B < 0) B = 0; else if(B > 255) B = 255;

                     rgbData[pixPtr++] = 0xff000000 + (R << 16) + (G << 8) + B;
             }
    }
}

Original comment by Hoo.Zh...@gmail.com on 18 Dec 2014 at 7:33

GoogleCodeExporter commented 9 years ago
Re Is there any way to use neon with JPEG conversion formula?

First version of J420ToARGB is working with C code.

If the formula is right, I'll update the AVX2 and Neon versions.

Original comment by fbarch...@google.com on 7 Jan 2015 at 3:39

GoogleCodeExporter commented 9 years ago
This is reference code used by libyuv

void YUVToRGBReference(int y, int u, int v, int* r, int* g, int* b) {
  *r = RoundToByte((y - 16) * 1.164 + (v - 128) * 1.596);
  *g = RoundToByte((y - 16) * 1.164 + (u - 128) * -0.391 + (v - 128) * -0.813);
  *b = RoundToByte((y - 16) * 1.164 + (u - 128) * 2.018);
}

Microsoft documents it here
https://msdn.microsoft.com/en-us/library/windows/desktop/dd206750%28v=vs.85%29.a
spx

But Android uses a different YUV color space
http://en.wikipedia.org/wiki/YUV#Numerical_approximations

C++ code used on Android to convert pixels of YUVImage:
void YUVImage::yuv2rgb(uint8_t yValue, uint8_t uValue, uint8_t vValue,
        uint8_t *r, uint8_t *g, uint8_t *b) const {
    *r = yValue + (1.370705 * (vValue-128));
    *g = yValue - (0.698001 * (vValue-128)) - (0.337633 * (uValue-128));
    *b = yValue + (1.732446 * (uValue-128));
    *r = clamp(*r, 0, 255);
    *g = clamp(*g, 0, 255);
    *b = clamp(*b, 0, 255);
}

Original comment by fbarch...@google.com on 7 Feb 2015 at 12:38

GoogleCodeExporter commented 9 years ago
jpeg color space is quite close

static void YUVJToRGBReference(int y, int u, int v, int* r, int* g, int* b) {
  *r = RoundToByte(y - (v - 128) * -1.40200);
  *g = RoundToByte(y - (u - 128) * 0.34414 - (v - 128) * 0.71414);
  *b = RoundToByte(y - (u - 128) * -1.77200);
}

Original comment by fbarch...@chromium.org on 17 Mar 2015 at 11:28