/hardware/intel/img/hwcomposer/merrifield/ips/common/ |
PixelFormat.cpp | 23 bool PixelFormat::convertFormat(uint32_t grallocFormat, uint32_t& spriteFormat, int& bpp) 28 bpp = 4; 32 bpp = 4; 36 bpp = 4; 40 bpp = 4; 44 bpp = 2;
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PixelFormat.h | 35 static bool convertFormat(uint32_t grallocFormat, uint32_t& spriteFormat, int& bpp);
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/hardware/intel/img/hwcomposer/moorefield_hdmi/ips/common/ |
PixelFormat.cpp | 24 bool PixelFormat::convertFormat(uint32_t grallocFormat, uint32_t& spriteFormat, int& bpp) 29 bpp = 4; 33 bpp = 4; 37 bpp = 4; 41 bpp = 4; 45 bpp = 2;
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PixelFormat.h | 35 static bool convertFormat(uint32_t grallocFormat, uint32_t& spriteFormat, int& bpp);
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/external/libpng/contrib/intel/ |
intel_init.c | 19 png_init_filter_functions_sse2(png_structp pp, unsigned int bpp) 23 // So they generally speed up 3bpp images about 3x, 4bpp images about 4x. 24 // They can scale up to 6 and 8 bpp images and down to 2 bpp images, 25 // but they'd not likely have any benefit for 1bpp images. 28 if (bpp == 3) 35 else if (bpp == 4)
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/external/libvncserver/client_examples/ |
ppmtest.c | 21 int bpp=pf->bitsPerPixel/8; local 22 int row_stride=client->width*bpp; 31 /* assert bpp=4 */ 32 if(bpp!=4 && bpp!=2) { 33 rfbClientLog("bpp = %d (!=4)\n",bpp); 45 for(i=0;i<client->width*bpp;i+=bpp) { 48 if(bpp==4 [all...] |
/external/libvncserver/test/ |
cursortest.c | 27 static const int bpp=4; variable 37 buffer[(j*maxx+i)*bpp+0]=(i+j)*128/(maxx+maxy); /* red */ 38 buffer[(j*maxx+i)*bpp+1]=i*128/maxx; /* green */ 39 buffer[(j*maxx+i)*bpp+2]=j*256/maxy; /* blue */ 182 c->richSource = (char*)malloc(w*h*bpp); 185 c->richSource[j*w*bpp+i*bpp+0]=i*0xff/w; 186 c->richSource[j*w*bpp+i*bpp+1]=(i+j)*0xff/(w+h); 187 c->richSource[j*w*bpp+i*bpp+2]=j*0xff/h [all...] |
/external/libvncserver/examples/ |
example.c | 37 static const int bpp=4; variable 48 buffer[(j*maxx+i)*bpp+0]=(i+j)*128/(maxx+maxy); /* red */ 49 buffer[(j*maxx+i)*bpp+1]=i*128/maxx; /* green */ 50 buffer[(j*maxx+i)*bpp+2]=j*256/maxy; /* blue */ 52 buffer[j*maxx*bpp+0]=0xff; 53 buffer[j*maxx*bpp+1]=0xff; 54 buffer[j*maxx*bpp+2]=0xff; 55 buffer[j*maxx*bpp+3]=0xff; 88 newfb = (unsigned char*)malloc(maxx * maxy * bpp); 90 rfbNewFramebuffer(screen, (char*)newfb, maxx, maxy, 8, 3, bpp); [all...] |
/external/libvncserver/libvncserver/ |
draw.c | 5 int rowstride = s->paddedWidthInBytes, bpp = s->bitsPerPixel>>3; local 10 colour += 4-bpp; 13 memcpy(s->frameBuffer+j*rowstride+i*bpp,colour,bpp); 18 memcpy(s->frameBuffer+(y)*rowstride+(x)*bpp,colour,bpp) 22 int rowstride = s->paddedWidthInBytes, bpp = s->bitsPerPixel>>3; local 26 colour += 4-bpp; 33 int rowstride = s->paddedWidthInBytes, bpp = s->bitsPerPixel>>3; local 38 colour += 4-bpp; [all...] |
hextile.c | 76 rfbLog("rfbSendRectEncodingHextile: bpp %d?\n", cl->format.bitsPerPixel); 92 #define DEFINE_SEND_HEXTILES(bpp) \ 95 static rfbBool subrectEncode##bpp(rfbClientPtr cli, uint##bpp##_t *data, \ 96 int w, int h, uint##bpp##_t bg, uint##bpp##_t fg, rfbBool mono);\ 97 static void testColours##bpp(uint##bpp##_t *data, int size, rfbBool *mono, \ 98 rfbBool *solid, uint##bpp##_t *bg, uint##bpp##_t *fg); [all...] |
corre.c | 42 static uint32_t getBgColour(char *data, int size, int bpp); 130 rfbLog("getBgColour: bpp %d?\n",cl->format.bitsPerPixel); 204 #define DEFINE_SUBRECT_ENCODE(bpp) \ 206 subrectEncode##bpp(rfbClientPtr client, uint##bpp##_t *data, int w, int h) { \ 207 uint##bpp##_t cl; \ 213 uint##bpp##_t *seg; \ 214 uint##bpp##_t *line; \ 219 uint##bpp##_t bg = (uint##bpp##_t)getBgColour((char*)data,w*h,bpp); [all...] |
rre.c | 41 static uint32_t getBgColour(char *data, int size, int bpp); 97 rfbLog("getBgColour: bpp %d?\n",cl->format.bitsPerPixel); 171 #define DEFINE_SUBRECT_ENCODE(bpp) \ 173 subrectEncode##bpp(rfbClientPtr client, uint##bpp##_t *data, int w, int h) { \ 174 uint##bpp##_t cl; \ 180 uint##bpp##_t *seg; \ 181 uint##bpp##_t *line; \ 186 uint##bpp##_t bg = (uint##bpp##_t)getBgColour((char*)data,w*h,bpp); [all...] |
/external/drm_gralloc/ |
gralloc_drm.h | 50 int bpp; local 56 bpp = 4; 59 bpp = 3; 63 bpp = 2; 70 bpp = 1; 73 bpp = 0; 77 return bpp;
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/hardware/qcom/display/msm8996/libgralloc1/ |
gr_utils.cpp | 102 uint32_t bpp = 0; local 108 bpp = 4; 111 bpp = 3; 117 bpp = 2; 124 return bpp;
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gr_adreno_info.h | 136 int (*LINK_adreno_compute_padding)(int width, int bpp, int surface_tile_height, 138 void (*LINK_adreno_compute_aligned_width_and_height)(int width, int height, int bpp, 145 int *aligned_w, int *aligned_h, int *bpp) = NULL;
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gr_adreno_info.cpp | 106 int bpp = 4; local 109 bpp = 3; 115 bpp = 2; 127 width, height, bpp, tile_enabled, raster_mode, padding_threshold, 131 *aligned_w = UINT(LINK_adreno_compute_padding(width, bpp, surface_tile_height, raster_mode,
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/external/libpng/arm/ |
arm_init.c | 57 png_init_filter_functions_neon(png_structp pp, unsigned int bpp) 117 if (bpp == 3) 125 else if (bpp == 4)
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/hardware/intel/img/hwcomposer/merrifield/ips/penwell/ |
PnwGrallocBuffer.h | 33 int bpp; member in struct:android::intel::PnwIMGGrallocBuffer
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PnwGrallocBuffer.cpp | 40 mBpp = grallocHandle->bpp;
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/external/opencv/otherlibs/highgui/ |
grfmt_imageio.cpp | 127 int bpp; // Bytes per pixel local 146 bpp = 1; 152 bpp = 4; /* CG only has 8 and 32 bit color spaces, so we waste a byte */ 158 bitmap = (uchar*)malloc( bpp * m_height * m_width ); 169 bpp * m_width, /* bytes per row */ 213 bitmapIndex += bpp; 282 int bpp = (_channels == 1) ? 1 : 4; local 289 if( bpp == 1 ) 291 else if( bpp == 4 ) 296 bitmapData = (uchar*)malloc( bpp * height * width ) [all...] |
/external/skia/src/codec/ |
SkSwizzler.cpp | 14 static void copy(void* dst, const uint8_t* src, int width, int bpp, int deltaSrc, int offset, 17 // sampling, deltaSrc should equal bpp. 18 SkASSERT(deltaSrc == bpp); 20 memcpy(dst, src + offset, width * bpp); 23 static void sample1(void* dst, const uint8_t* src, int width, int bpp, int deltaSrc, int offset, 33 static void sample2(void* dst, const uint8_t* src, int width, int bpp, int deltaSrc, int offset, 43 static void sample4(void* dst, const uint8_t* src, int width, int bpp, int deltaSrc, int offset, 63 int bpp, int deltaSrc, int offset, const SkPMColor* /*ctable*/) { 88 int bpp, int deltaSrc, int offset, const SkPMColor* /*ctable*/) { 109 int bpp, int deltaSrc, int offset, const SkPMColor* /*ctable*/) [all...] |
/system/extras/tests/framebuffer/ |
fb_test.c | 36 int bpp; member in struct:simple_fb 52 static int get_framebuffer(struct simple_fb *fb, unsigned bpp) 72 if (bpp && vi.bits_per_pixel != bpp) { 73 printf("bpp != %d, forcing...\n", bpp); 74 vi.bits_per_pixel = bpp; 76 perror("failed to force bpp"); 100 fb->bpp = vi.bits_per_pixel; 109 fb->bpp = vi.bits_per_pixel 261 int bpp = 0; local [all...] |
/external/skia/src/gpu/ |
GrSurfacePriv.h | 22 the tight row bytes (based on width and bpp) on output. */ 25 size_t bpp, 31 size_t bpp,
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/external/chromium-trace/catapult/telemetry/telemetry/internal/image_processing/ |
image_util_bitmap_impl.py | 11 return bitmap.bpp 28 def FromRGBPixels(width, height, pixels, bpp): 29 return _bitmap.Bitmap(bpp, width, height, pixels)
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/hardware/intel/common/libmix/mix_vbp/viddec_fw/fw/codecs/vc1/parser/ |
vc1parse_bitplane.c | 478 vc1_Bitplane *bpp = &bp; local 484 bpp->databits = pInfo->bitplane; 487 biplaneSz = initBitplane(bpp, width, height); 490 bpp->invert = (uint8_t) tempValue; 492 if ((status = vc1_DecodeHuffmanOne(ctxt, &bpp->imode, 503 if (bpp->imode == VC1_BITPLANE_NORM2_MODE) 505 vc1_Norm2ModeDecode(ctxt, bpp, width, height); 507 else if (bpp->imode == VC1_BITPLANE_DIFF2_MODE) 509 vc1_Norm2ModeDecode(ctxt, bpp, width, height); 510 vc1_InverseDiff(bpp, width, height) [all...] |