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#include "util.h"
#include <c10/util/Logging.h>
namespace ffmpeg {
namespace Serializer {
// fixed size types
template <typename T>
inline size_t getSize(const T& x) {
return sizeof(x);
}
template <typename T>
inline bool serializeItem(
uint8_t* dest,
size_t len,
size_t& pos,
const T& src) {
VLOG(6) << "Generic serializeItem";
const auto required = sizeof(src);
if (len < pos + required) {
return false;
}
memcpy(dest + pos, &src, required);
pos += required;
return true;
}
template <typename T>
inline bool deserializeItem(
const uint8_t* src,
size_t len,
size_t& pos,
T& dest) {
const auto required = sizeof(dest);
if (len < pos + required) {
return false;
}
memcpy(&dest, src + pos, required);
pos += required;
return true;
}
// AVSubtitleRect specialization
inline size_t getSize(const AVSubtitleRect& x) {
auto rectBytes = [](const AVSubtitleRect& y) -> size_t {
size_t s = 0;
switch (y.type) {
case SUBTITLE_BITMAP:
for (int i = 0; i < y.nb_colors; ++i) {
s += sizeof(y.linesize[i]);
s += y.linesize[i];
}
break;
case SUBTITLE_TEXT:
s += sizeof(size_t);
s += strlen(y.text);
break;
case SUBTITLE_ASS:
s += sizeof(size_t);
s += strlen(y.ass);
break;
default:
break;
}
return s;
};
return getSize(x.x) + getSize(x.y) + getSize(x.w) + getSize(x.h) +
getSize(x.nb_colors) + getSize(x.type) + getSize(x.flags) + rectBytes(x);
}
// AVSubtitle specialization
inline size_t getSize(const AVSubtitle& x) {
auto rectBytes = [](const AVSubtitle& y) -> size_t {
size_t s = getSize(y.num_rects);
for (unsigned i = 0; i < y.num_rects; ++i) {
s += getSize(*y.rects[i]);
}
return s;
};
return getSize(x.format) + getSize(x.start_display_time) +
getSize(x.end_display_time) + getSize(x.pts) + rectBytes(x);
}
inline bool serializeItem(
uint8_t* dest,
size_t len,
size_t& pos,
const AVSubtitleRect& src) {
auto rectSerialize =
[](uint8_t* d, size_t l, size_t& p, const AVSubtitleRect& x) -> size_t {
switch (x.type) {
case SUBTITLE_BITMAP:
for (int i = 0; i < x.nb_colors; ++i) {
if (!serializeItem(d, l, p, x.linesize[i])) {
return false;
}
if (p + x.linesize[i] > l) {
return false;
}
memcpy(d + p, x.data[i], x.linesize[i]);
p += x.linesize[i];
}
return true;
case SUBTITLE_TEXT: {
const size_t s = strlen(x.text);
if (!serializeItem(d, l, p, s)) {
return false;
}
if (p + s > l) {
return false;
}
memcpy(d + p, x.text, s);
p += s;
return true;
}
case SUBTITLE_ASS: {
const size_t s = strlen(x.ass);
if (!serializeItem(d, l, p, s)) {
return false;
}
if (p + s > l) {
return false;
}
memcpy(d + p, x.ass, s);
p += s;
return true;
}
default:
return true;
}
};
return serializeItem(dest, len, pos, src.x) &&
serializeItem(dest, len, pos, src.y) &&
serializeItem(dest, len, pos, src.w) &&
serializeItem(dest, len, pos, src.h) &&
serializeItem(dest, len, pos, src.nb_colors) &&
serializeItem(dest, len, pos, src.type) &&
serializeItem(dest, len, pos, src.flags) &&
rectSerialize(dest, len, pos, src);
}
inline bool serializeItem(
uint8_t* dest,
size_t len,
size_t& pos,
const AVSubtitle& src) {
auto rectSerialize =
[](uint8_t* d, size_t l, size_t& p, const AVSubtitle& x) -> bool {
bool res = serializeItem(d, l, p, x.num_rects);
for (unsigned i = 0; res && i < x.num_rects; ++i) {
res = serializeItem(d, l, p, *(x.rects[i]));
}
return res;
};
VLOG(6) << "AVSubtitle serializeItem";
return serializeItem(dest, len, pos, src.format) &&
serializeItem(dest, len, pos, src.start_display_time) &&
serializeItem(dest, len, pos, src.end_display_time) &&
serializeItem(dest, len, pos, src.pts) &&
rectSerialize(dest, len, pos, src);
}
inline bool deserializeItem(
const uint8_t* src,
size_t len,
size_t& pos,
AVSubtitleRect& dest) {
auto rectDeserialize =
[](const uint8_t* y, size_t l, size_t& p, AVSubtitleRect& x) -> bool {
switch (x.type) {
case SUBTITLE_BITMAP:
for (int i = 0; i < x.nb_colors; ++i) {
if (!deserializeItem(y, l, p, x.linesize[i])) {
return false;
}
if (p + x.linesize[i] > l) {
return false;
}
x.data[i] = (uint8_t*)av_malloc(x.linesize[i]);
memcpy(x.data[i], y + p, x.linesize[i]);
p += x.linesize[i];
}
return true;
case SUBTITLE_TEXT: {
size_t s = 0;
if (!deserializeItem(y, l, p, s)) {
return false;
}
if (p + s > l) {
return false;
}
x.text = (char*)av_malloc(s + 1);
memcpy(x.text, y + p, s);
x.text[s] = 0;
p += s;
return true;
}
case SUBTITLE_ASS: {
size_t s = 0;
if (!deserializeItem(y, l, p, s)) {
return false;
}
if (p + s > l) {
return false;
}
x.ass = (char*)av_malloc(s + 1);
memcpy(x.ass, y + p, s);
x.ass[s] = 0;
p += s;
return true;
}
default:
return true;
}
};
return deserializeItem(src, len, pos, dest.x) &&
deserializeItem(src, len, pos, dest.y) &&
deserializeItem(src, len, pos, dest.w) &&
deserializeItem(src, len, pos, dest.h) &&
deserializeItem(src, len, pos, dest.nb_colors) &&
deserializeItem(src, len, pos, dest.type) &&
deserializeItem(src, len, pos, dest.flags) &&
rectDeserialize(src, len, pos, dest);
}
inline bool deserializeItem(
const uint8_t* src,
size_t len,
size_t& pos,
AVSubtitle& dest) {
auto rectDeserialize =
[](const uint8_t* y, size_t l, size_t& p, AVSubtitle& x) -> bool {
bool res = deserializeItem(y, l, p, x.num_rects);
if (res && x.num_rects) {
x.rects =
(AVSubtitleRect**)av_malloc(x.num_rects * sizeof(AVSubtitleRect*));
}
for (unsigned i = 0; res && i < x.num_rects; ++i) {
x.rects[i] = (AVSubtitleRect*)av_malloc(sizeof(AVSubtitleRect));
memset(x.rects[i], 0, sizeof(AVSubtitleRect));
res = deserializeItem(y, l, p, *x.rects[i]);
}
return res;
};
return deserializeItem(src, len, pos, dest.format) &&
deserializeItem(src, len, pos, dest.start_display_time) &&
deserializeItem(src, len, pos, dest.end_display_time) &&
deserializeItem(src, len, pos, dest.pts) &&
rectDeserialize(src, len, pos, dest);
}
} // namespace Serializer
namespace Util {
std::string generateErrorDesc(int errorCode) {
std::array<char, 1024> buffer;
if (av_strerror(errorCode, buffer.data(), buffer.size()) < 0) {
return std::string("Unknown error code: ") + std::to_string(errorCode);
}
buffer.back() = 0;
return std::string(buffer.data());
}
size_t serialize(const AVSubtitle& sub, ByteStorage* out) {
const auto len = size(sub);
TORCH_CHECK_LE(len, out->tail());
size_t pos = 0;
if (!Serializer::serializeItem(out->writableTail(), len, pos, sub)) {
return 0;
}
out->append(len);
return len;
}
bool deserialize(const ByteStorage& buf, AVSubtitle* sub) {
size_t pos = 0;
return Serializer::deserializeItem(buf.data(), buf.length(), pos, *sub);
}
size_t size(const AVSubtitle& sub) {
return Serializer::getSize(sub);
}
bool validateVideoFormat(const VideoFormat& f) {
// clang-format off
/*
Valid parameters values for decoder
____________________________________________________________________________________
| W | H | minDimension | maxDimension | cropImage | algorithm |
|__________________________________________________________________________________|
| 0 | 0 | 0 | 0 | N/A | original |
|__________________________________________________________________________________|
| >0 | 0 | N/A | N/A | N/A | scale keeping W |
|__________________________________________________________________________________|
| 0 | >0 | N/A | N/A | N/A | scale keeping H |
|__________________________________________________________________________________|
| >0 | >0 | N/A | N/A | 0 | stretch/scale |
|__________________________________________________________________________________|
| >0 | >0 | N/A | N/A | >0 | scale/crop |
|__________________________________________________________________________________|
| 0 | 0 | >0 | 0 | N/A |scale to min dimension |
|__________________________________________________________________________________|
| 0 | 0 | 0 | >0 | N/A |scale to max dimension |
|__________________________________________________________________________________|
| 0 | 0 | >0 | >0 | N/A |stretch to min/max dimension|
|_____|_____|______________|______________|___________|____________________________|
*/
// clang-format on
return (f.width == 0 && // #1, #6, #7 and #8
f.height == 0 && f.cropImage == 0) ||
(f.width != 0 && // #4 and #5
f.height != 0 && f.minDimension == 0 && f.maxDimension == 0) ||
(((f.width != 0 && // #2
f.height == 0) ||
(f.width == 0 && // #3
f.height != 0)) &&
f.minDimension == 0 && f.maxDimension == 0 && f.cropImage == 0);
}
void setFormatDimensions(
size_t& destW,
size_t& destH,
size_t userW,
size_t userH,
size_t srcW,
size_t srcH,
size_t minDimension,
size_t maxDimension,
size_t cropImage) {
// rounding rules
// int -> double -> round up
// if fraction is >= 0.5 or round down if fraction is < 0.5
// int result = double(value) + 0.5
// here we rounding double to int according to the above rule
// #1, #6, #7 and #8
if (userW == 0 && userH == 0) {
if (minDimension > 0 && maxDimension == 0) { // #6
if (srcW > srcH) {
// landscape
destH = minDimension;
destW = round(double(srcW * minDimension) / srcH);
} else {
// portrait
destW = minDimension;
destH = round(double(srcH * minDimension) / srcW);
}
} else if (minDimension == 0 && maxDimension > 0) { // #7
if (srcW > srcH) {
// landscape
destW = maxDimension;
destH = round(double(srcH * maxDimension) / srcW);
} else {
// portrait
destH = maxDimension;
destW = round(double(srcW * maxDimension) / srcH);
}
} else if (minDimension > 0 && maxDimension > 0) { // #8
if (srcW > srcH) {
// landscape
destW = maxDimension;
destH = minDimension;
} else {
// portrait
destW = minDimension;
destH = maxDimension;
}
} else { // #1
destW = srcW;
destH = srcH;
}
} else if (userW != 0 && userH == 0) { // #2
destW = userW;
destH = round(double(srcH * userW) / srcW);
} else if (userW == 0 && userH != 0) { // #3
destW = round(double(srcW * userH) / srcH);
destH = userH;
} else { // userW != 0 && userH != 0
if (cropImage == 0) { // #4
destW = userW;
destH = userH;
} else { // #5
double userSlope = double(userH) / userW;
double srcSlope = double(srcH) / srcW;
if (srcSlope < userSlope) {
destW = round(double(srcW * userH) / srcH);
destH = userH;
} else {
destW = userW;
destH = round(double(srcH * userW) / srcW);
}
}
}
// prevent zeros
destW = std::max(destW, size_t(1UL));
destH = std::max(destH, size_t(1UL));
}
} // namespace Util
} // namespace ffmpeg
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