28 #define BIT_PLANAR 0x00
29 #define BYTE_PLANAR 0x20
32 #define BYTE_LINE 0xC0
63 unsigned r = ((rgb >> 8) & 0xF) * 0x11;
64 unsigned g = ((rgb >> 4) & 0xF) * 0x11;
65 unsigned b = (rgb & 0xF) * 0x11;
66 AV_WN32(&new_palette[i], (r << 16) | (g << 8) | b);
76 for (plane = 0; plane < c->
bpp; plane++) {
79 out[linesize * y + x] |=
get_bits1(&gb) << plane;
92 for (plane = 0; plane < c->
bpp; plane++) {
94 out[linesize * y + x] |=
get_bits1(&gb) << plane;
116 uint32_t *new_palette = (uint32_t *)frame->
data[1];
125 uint32_t new_palette[16],
r,
g,
b;
130 out = frame->
data[0];
135 for (y = 0; y < avctx->
height; y++) {
136 r = new_palette[0] & 0xFF0000;
137 g = new_palette[0] & 0xFF00;
138 b = new_palette[0] & 0xFF;
139 for (x = 0; x < avctx->
width; x++) {
145 r = new_palette[
index] & 0xFF0000;
146 g = new_palette[
index] & 0xFF00;
147 b = new_palette[
index] & 0xFF;
153 r = index * 0x11 << 16;
156 g = index * 0x11 << 8;
159 AV_WL24(out + x * 3, r | g | b);
168 uint32_t new_palette[64],
r,
g,
b;
173 out = frame->
data[0];
178 for (y = 0; y < avctx->
height; y++) {
179 r = new_palette[0] & 0xFF0000;
180 g = new_palette[0] & 0xFF00;
181 b = new_palette[0] & 0xFF;
182 for (x = 0; x < avctx->
width; x++) {
188 r = new_palette[
index] & 0xFF0000;
189 g = new_palette[
index] & 0xFF00;
190 b = new_palette[
index] & 0xFF;
193 b = (index << 2) | (b & 3);
196 r = (index << 18) | (r & (3 << 16));
199 g = (index << 10) | (g & (3 << 8));
202 AV_WL24(out + x * 3, r | g | b);
213 int ret, w, h, encoding, aligned_width, buf_size = pkt->
size;
218 encoding = buf[1] & 7;
219 c->
format = buf[1] & 0xE0;
230 if (buf_size < c->palette_size + 32)
248 }
else if (encoding == 1 && (c->
bpp == 6 || c->
bpp == 8)) {