B_GRAY8
B_GRAYSCALE_8_BIT = B_GRAY8,
return B_GRAY8;
return B_GRAY8;
if (space != B_GRAY8 && space != B_CMAP8)
if (space != B_GRAY8) {
if (info->shared_info->current_mode.space != B_GRAY8
return B_GRAY8;
case B_GRAY8:
format->AddItem(B_GRAY8, "8 Bits/Pixel (gray)");
case B_GRAY8:
else if (colorSpace == B_GRAY8 && 2 * bitsLength <= fBufferLength && 2 * bytesPerRow == fBufferBytesPerRow) {
return B_GRAY8;
case B_GRAY8:
Fractal->Width - 1, Fractal->Height - 1), 0, B_GRAY8);
case B_GRAY8:
assert(bitsHeader.colors == B_GRAY8);
colors = B_GRAY8;
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
outColorSpace = B_GRAY8;
case B_GRAY8:
out_color_space = B_GRAY8;
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
new BMenuItem(B_TRANSLATE("Grayscale 8 bits"), CSMessage(B_GRAY8)));
*space = B_GRAY8;
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8: {
case B_GRAY8: {
case B_GRAY8: {
header.colors != B_GRAY8 &&
bytescopied = convert_to_tga(medRowData, tgaRowData, B_GRAY8,
case B_GRAY8:
B_GRAY8, imagespec, brle);
case B_GRAY8:
B_GRAY8, imagespec, brle);
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
&& format->u.raw_video.display.format != B_GRAY8
if ((fBitmap[index]->ColorSpace() == B_GRAY8) &&
case B_GRAY8:
dest = B_GRAY8;
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
} else if (bitmap->ColorSpace() == B_GRAY8) {
case B_GRAY8: // fall through
case B_CMAP8: case B_GRAY8:
case B_CMAP8: case B_GRAY8: case B_GRAY1:
case B_CMAP8: case B_GRAY8:
case B_CMAP8: case B_GRAY8:
case B_GRAY8:
case B_GRAY8:
case B_CMAP8: case B_GRAY8:
case B_CMAP8: case B_GRAY8: case B_GRAY1:
case B_GRAY8: /* Y[7:0] */
case B_GRAY8:
fBits.SetTo(new(std::nothrow) UtilityBitmap(fBounds, B_GRAY8, 0), true);
case B_GRAY8:
case B_GRAY8:
else if (fDisplayMode.space == B_GRAY8)
case B_GRAY8:
{ BRect(0, 0, 39, 9), B_GRAY8 },
{ BRect(0, 0, 18, 9), B_GRAY8 },
case B_CMAP8: case B_GRAY8:
COLORSPACENAME(B_GRAY8),
COLORSPACENAME(B_GRAY8),