libdisplay-info/di-edid-decode/cta.c

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#include <inttypes.h>
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <libdisplay-info/cta.h>
#include "di-edid-decode.h"
static void
printf_cta_svds(const struct di_cta_svd *const *svds)
{
size_t i;
const struct di_cta_svd *svd;
for (i = 0; svds[i] != NULL; i++) {
svd = svds[i];
printf(" VIC %3" PRIu8, svd->vic);
if (svd->native)
printf(" (native)");
printf("\n");
// TODO: print detailed mode info
}
}
static uint8_t
encode_max_luminance(float max)
{
if (max == 0)
return 0;
return (uint8_t) (log2f(max / 50) * 32);
}
static uint8_t
encode_min_luminance(float min, float max)
{
if (min == 0)
return 0;
return (uint8_t) (255 * sqrtf(min / max * 100));
}
static void
print_cta_hdr_static_metadata(const struct di_cta_hdr_static_metadata_block *metadata)
{
printf(" Electro optical transfer functions:\n");
if (metadata->eotfs->traditional_sdr)
printf(" Traditional gamma - SDR luminance range\n");
if (metadata->eotfs->traditional_hdr)
printf(" Traditional gamma - HDR luminance range\n");
if (metadata->eotfs->pq)
printf(" SMPTE ST2084\n");
if (metadata->eotfs->hlg)
printf(" Hybrid Log-Gamma\n");
printf(" Supported static metadata descriptors:\n");
if (metadata->descriptors->type1)
printf(" Static metadata type 1\n");
/* TODO: figure out a way to print raw values? */
if (metadata->desired_content_max_luminance != 0)
printf(" Desired content max luminance: %" PRIu8 " (%.3f cd/m^2)\n",
encode_max_luminance(metadata->desired_content_max_luminance),
metadata->desired_content_max_luminance);
if (metadata->desired_content_max_frame_avg_luminance != 0)
printf(" Desired content max frame-average luminance: %" PRIu8 " (%.3f cd/m^2)\n",
encode_max_luminance(metadata->desired_content_max_frame_avg_luminance),
metadata->desired_content_max_frame_avg_luminance);
if (metadata->desired_content_min_luminance != 0)
printf(" Desired content min luminance: %" PRIu8 " (%.3f cd/m^2)\n",
encode_min_luminance(metadata->desired_content_min_luminance,
metadata->desired_content_max_luminance),
metadata->desired_content_min_luminance);
}
static void
print_cta_vesa_transfer_characteristics(const struct di_cta_vesa_transfer_characteristics *tf)
{
size_t i;
switch (tf->usage) {
case DI_CTA_VESA_TRANSFER_CHARACTERISTIC_USAGE_WHITE:
printf(" White");
break;
case DI_CTA_VESA_TRANSFER_CHARACTERISTIC_USAGE_RED:
printf(" Red");
break;
case DI_CTA_VESA_TRANSFER_CHARACTERISTIC_USAGE_GREEN:
printf(" Green");
break;
case DI_CTA_VESA_TRANSFER_CHARACTERISTIC_USAGE_BLUE:
printf(" Blue");
break;
}
printf(" transfer characteristics:");
for (i = 0; i < tf->points_len; i++)
printf(" %u", (uint16_t) (tf->points[i] * 1023.0f));
printf("\n");
uncommon_features.cta_transfer_characteristics = true;
}
static const char *
cta_data_block_tag_name(enum di_cta_data_block_tag tag)
{
switch (tag) {
case DI_CTA_DATA_BLOCK_AUDIO:
return "Audio Data Block";
case DI_CTA_DATA_BLOCK_VIDEO:
return "Video Data Block";
case DI_CTA_DATA_BLOCK_SPEAKER_ALLOC:
return "Speaker Allocation Data Block";
case DI_CTA_DATA_BLOCK_VESA_DISPLAY_TRANSFER_CHARACTERISTIC:
return "VESA Display Transfer Characteristic Data Block";
case DI_CTA_DATA_BLOCK_VIDEO_CAP:
return "Video Capability Data Block";
case DI_CTA_DATA_BLOCK_VESA_DISPLAY_DEVICE:
return "VESA Display Device Data Block";
case DI_CTA_DATA_BLOCK_COLORIMETRY:
return "Colorimetry Data Block";
case DI_CTA_DATA_BLOCK_HDR_STATIC_METADATA:
return "HDR Static Metadata Data Block";
case DI_CTA_DATA_BLOCK_HDR_DYNAMIC_METADATA:
return "HDR Dynamic Metadata Data Block";
case DI_CTA_DATA_BLOCK_VIDEO_FORMAT_PREF:
return "Video Format Preference Data Block";
case DI_CTA_DATA_BLOCK_YCBCR420:
return "YCbCr 4:2:0 Video Data Block";
case DI_CTA_DATA_BLOCK_YCBCR420_CAP_MAP:
return "YCbCr 4:2:0 Capability Map Data Block";
case DI_CTA_DATA_BLOCK_HDMI_AUDIO:
return "HDMI Audio Data Block";
case DI_CTA_DATA_BLOCK_ROOM_CONFIG:
return "Room Configuration Data Block";
case DI_CTA_DATA_BLOCK_SPEAKER_LOCATION:
return "Speaker Location Data Block";
case DI_CTA_DATA_BLOCK_INFOFRAME:
return "InfoFrame Data Block";
case DI_CTA_DATA_BLOCK_DISPLAYID_VIDEO_TIMING_VII:
return "DisplayID Type VII Video Timing Data Block";
case DI_CTA_DATA_BLOCK_DISPLAYID_VIDEO_TIMING_VIII:
return "DisplayID Type VIII Video Timing Data Block";
case DI_CTA_DATA_BLOCK_DISPLAYID_VIDEO_TIMING_X:
return "DisplayID Type X Video Timing Data Block";
case DI_CTA_DATA_BLOCK_HDMI_EDID_EXT_OVERRIDE :
return "HDMI Forum EDID Extension Override Data Block";
case DI_CTA_DATA_BLOCK_HDMI_SINK_CAP:
return "HDMI Forum Sink Capability Data Block";
}
return "Unknown CTA-861 Data Block";
}
static const char *
video_cap_over_underscan_name(enum di_cta_video_cap_over_underscan over_underscan,
const char *unknown)
{
switch (over_underscan) {
case DI_CTA_VIDEO_CAP_UNKNOWN_OVER_UNDERSCAN:
return unknown;
case DI_CTA_VIDEO_CAP_ALWAYS_OVERSCAN:
return "Always Overscanned";
case DI_CTA_VIDEO_CAP_ALWAYS_UNDERSCAN:
return "Always Underscanned";
case DI_CTA_VIDEO_CAP_BOTH_OVER_UNDERSCAN:
return "Supports both over- and underscan";
}
abort();
}
void
print_cta(const struct di_edid_cta *cta)
{
const struct di_edid_cta_flags *cta_flags;
const struct di_cta_data_block *const *data_blocks;
const struct di_cta_data_block *data_block;
enum di_cta_data_block_tag data_block_tag;
const struct di_cta_svd *const *svds;
const struct di_cta_video_cap_block *video_cap;
const struct di_cta_colorimetry_block *colorimetry;
const struct di_cta_hdr_static_metadata_block *hdr_static_metadata;
const struct di_cta_vesa_transfer_characteristics *transfer_characteristics;
size_t i;
const struct di_edid_detailed_timing_def *const *detailed_timing_defs;
printf(" Revision: %d\n", di_edid_cta_get_revision(cta));
cta_flags = di_edid_cta_get_flags(cta);
if (cta_flags->it_underscan) {
printf(" Underscans IT Video Formats by default\n");
}
if (cta_flags->basic_audio) {
printf(" Basic audio support\n");
}
if (cta_flags->ycc444) {
printf(" Supports YCbCr 4:4:4\n");
}
if (cta_flags->ycc422) {
printf(" Supports YCbCr 4:2:2\n");
}
printf(" Native detailed modes: %d\n", cta_flags->native_dtds);
data_blocks = di_edid_cta_get_data_blocks(cta);
for (i = 0; data_blocks[i] != NULL; i++) {
data_block = data_blocks[i];
data_block_tag = di_cta_data_block_get_tag(data_block);
printf(" %s:\n", cta_data_block_tag_name(data_block_tag));
switch (data_block_tag) {
case DI_CTA_DATA_BLOCK_VIDEO:
svds = di_cta_data_block_get_svds(data_block);
printf_cta_svds(svds);
break;
case DI_CTA_DATA_BLOCK_VIDEO_CAP:
video_cap = di_cta_data_block_get_video_cap(data_block);
printf(" YCbCr quantization: %s\n",
video_cap->selectable_ycc_quantization_range ?
"Selectable (via AVI YQ)" : "No Data");
printf(" RGB quantization: %s\n",
video_cap->selectable_ycc_quantization_range ?
"Selectable (via AVI Q)" : "No Data");
printf(" PT scan behavior: %s\n",
video_cap_over_underscan_name(video_cap->pt_over_underscan,
"No Data"));
printf(" IT scan behavior: %s\n",
video_cap_over_underscan_name(video_cap->it_over_underscan,
"IT video formats not supported"));
printf(" CE scan behavior: %s\n",
video_cap_over_underscan_name(video_cap->ce_over_underscan,
"CE video formats not supported"));
break;
case DI_CTA_DATA_BLOCK_COLORIMETRY:
colorimetry = di_cta_data_block_get_colorimetry(data_block);
if (colorimetry->xvycc_601)
printf(" xvYCC601\n");
if (colorimetry->xvycc_709)
printf(" xvYCC709\n");
if (colorimetry->sycc_601)
printf(" sYCC601\n");
if (colorimetry->opycc_601)
printf(" opYCC601\n");
if (colorimetry->oprgb)
printf(" opRGB\n");
if (colorimetry->bt2020_cycc)
printf(" BT2020cYCC\n");
if (colorimetry->bt2020_ycc)
printf(" BT2020YCC\n");
if (colorimetry->bt2020_rgb)
printf(" BT2020RGB\n");
if (colorimetry->ictcp)
printf(" ICtCp\n");
if (colorimetry->st2113_rgb)
printf(" ST2113RGB\n");
break;
case DI_CTA_DATA_BLOCK_HDR_STATIC_METADATA:
hdr_static_metadata = di_cta_data_block_get_hdr_static_metadata(data_block);
print_cta_hdr_static_metadata(hdr_static_metadata);
break;
case DI_CTA_DATA_BLOCK_VESA_DISPLAY_TRANSFER_CHARACTERISTIC:
transfer_characteristics = di_cta_data_block_get_vesa_transfer_characteristics(data_block);
print_cta_vesa_transfer_characteristics(transfer_characteristics);
break;
default:
break; /* Ignore */
}
}
detailed_timing_defs = di_edid_cta_get_detailed_timing_defs(cta);
if (detailed_timing_defs[0]) {
printf(" Detailed Timing Descriptors:\n");
}
for (i = 0; detailed_timing_defs[i] != NULL; i++) {
print_detailed_timing_def(detailed_timing_defs[i]);
}
}