mirror of
https://gitlab.freedesktop.org/emersion/libdisplay-info.git
synced 2024-11-16 19:48:30 +01:00
afdacff9f8
Signed-off-by: Simon Ser <contact@emersion.fr>
560 lines
16 KiB
C
560 lines
16 KiB
C
#include <assert.h>
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#include <inttypes.h>
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#include <math.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <libdisplay-info/cta.h>
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#include <libdisplay-info/edid.h>
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#include <libdisplay-info/info.h>
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static const char *
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standard_timing_aspect_ratio_name(enum di_edid_standard_timing_aspect_ratio aspect_ratio)
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{
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switch (aspect_ratio) {
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case DI_EDID_STANDARD_TIMING_16_10:
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return "16:10";
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case DI_EDID_STANDARD_TIMING_4_3:
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return "4:3";
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case DI_EDID_STANDARD_TIMING_5_4:
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return "5:4";
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case DI_EDID_STANDARD_TIMING_16_9:
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return "16:9";
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}
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abort();
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}
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static void
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print_standard_timing(const struct di_edid_standard_timing *t)
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{
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int32_t vert_video;
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uint8_t dmt_id;
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vert_video = di_edid_standard_timing_get_vert_video(t);
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dmt_id = di_edid_standard_timing_get_dmt_id(t);
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/* TODO: GTF and CVT timings */
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printf(" ");
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printf("DMT 0x%02x:", dmt_id);
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printf(" %5dx%-5d", t->horiz_video, vert_video);
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printf(" %10.6f Hz", (float) t->refresh_rate_hz);
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printf(" %s", standard_timing_aspect_ratio_name(t->aspect_ratio));
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printf("\n");
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}
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static int
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gcd(int a, int b)
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{
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int tmp;
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while (b) {
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tmp = b;
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b = a % b;
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a = tmp;
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}
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return a;
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}
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static void
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compute_aspect_ratio(int width, int height, int *horiz_ratio, int *vert_ratio)
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{
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int d;
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d = gcd(width, height);
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if (d == 0) {
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*horiz_ratio = *vert_ratio = 0;
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} else {
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*horiz_ratio = width / d;
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*vert_ratio = height / d;
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}
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}
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/**
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* Join a list of strings into a comma-separated string.
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*
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* The list must be NULL-terminated.
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*/
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static char *
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join_str(const char *l[])
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{
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char *out = NULL;
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size_t out_size = 0, i;
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FILE *f;
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f = open_memstream(&out, &out_size);
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if (!f) {
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return NULL;
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}
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for (i = 0; l[i] != NULL; i++) {
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if (i > 0) {
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fprintf(f, ", ");
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}
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fprintf(f, "%s", l[i]);
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}
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fclose(f);
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return out;
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}
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static const char *
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detailed_timing_def_stereo_name(enum di_edid_detailed_timing_def_stereo stereo)
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{
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switch (stereo) {
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case DI_EDID_DETAILED_TIMING_DEF_STEREO_NONE:
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return "none";
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case DI_EDID_DETAILED_TIMING_DEF_STEREO_FIELD_SEQ_RIGHT:
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return "field sequential L/R";
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case DI_EDID_DETAILED_TIMING_DEF_STEREO_FIELD_SEQ_LEFT:
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return "field sequential R/L";
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case DI_EDID_DETAILED_TIMING_DEF_STEREO_2_WAY_INTERLEAVED_RIGHT:
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return "interleaved right even";
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case DI_EDID_DETAILED_TIMING_DEF_STEREO_2_WAY_INTERLEAVED_LEFT:
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return "interleaved left even";
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case DI_EDID_DETAILED_TIMING_DEF_STEREO_4_WAY_INTERLEAVED:
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return "four way interleaved";
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case DI_EDID_DETAILED_TIMING_DEF_STEREO_SIDE_BY_SIDE_INTERLEAVED:
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return "side by side interleaved";
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}
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abort();
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}
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static void
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print_detailed_timing_def(const struct di_edid_detailed_timing_def *def, size_t n)
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{
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int hbl, vbl, horiz_total, vert_total;
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int horiz_back_porch, vert_back_porch;
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int horiz_ratio, vert_ratio;
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double refresh, horiz_freq_hz;
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const char *flags[32] = {0};
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char size_mm[64];
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size_t flags_len = 0;
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hbl = def->horiz_blank - 2 * def->horiz_border;
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vbl = def->vert_blank - 2 * def->vert_border;
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horiz_total = def->horiz_video + hbl;
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vert_total = def->vert_video + vbl;
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refresh = (double) def->pixel_clock_hz / (horiz_total * vert_total);
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horiz_freq_hz = (double) def->pixel_clock_hz / horiz_total;
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compute_aspect_ratio(def->horiz_video, def->vert_video,
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&horiz_ratio, &vert_ratio);
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if (def->stereo != DI_EDID_DETAILED_TIMING_DEF_STEREO_NONE) {
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flags[flags_len++] = detailed_timing_def_stereo_name(def->stereo);
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}
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if (def->horiz_image_mm != 0 || def->vert_image_mm != 0) {
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snprintf(size_mm, sizeof(size_mm), "%d mm x %d mm",
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def->horiz_image_mm, def->vert_image_mm);
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flags[flags_len++] = size_mm;
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}
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assert(flags_len < sizeof(flags) / sizeof(flags[0]));
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printf(" DTD %zu:", n);
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printf(" %5dx%-5d", def->horiz_video, def->vert_video);
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if (def->interlaced) {
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printf("i");
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}
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printf(" %10.6f Hz", refresh);
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printf(" %3u:%-3u", horiz_ratio, vert_ratio);
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printf(" %8.3f kHz %13.6f MHz", horiz_freq_hz / 1000,
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(double) def->pixel_clock_hz / (1000 * 1000));
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if (flags_len > 0) {
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char *flags_str = join_str(flags);
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printf(" (%s)", flags_str);
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free(flags_str);
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}
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printf("\n");
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horiz_back_porch = hbl - def->horiz_sync_pulse - def->horiz_front_porch;
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printf(" Hfront %4d Hsync %3d Hback %4d",
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def->horiz_front_porch, def->horiz_sync_pulse, horiz_back_porch);
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if (def->horiz_border != 0) {
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printf(" Hborder %d", def->horiz_border);
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}
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printf("\n");
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vert_back_porch = vbl - def->vert_sync_pulse - def->vert_front_porch;
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printf(" Vfront %4u Vsync %3u Vback %4d",
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def->vert_front_porch, def->vert_sync_pulse, vert_back_porch);
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if (def->vert_border != 0) {
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printf(" Vborder %d", def->vert_border);
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}
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printf("\n");
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}
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static const char *
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display_desc_tag_name(enum di_edid_display_descriptor_tag tag)
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{
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switch (tag) {
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case DI_EDID_DISPLAY_DESCRIPTOR_PRODUCT_SERIAL:
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return "Display Product Serial Number";
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case DI_EDID_DISPLAY_DESCRIPTOR_DATA_STRING:
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return "Alphanumeric Data String";
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case DI_EDID_DISPLAY_DESCRIPTOR_RANGE_LIMITS:
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return "Display Range Limits";
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case DI_EDID_DISPLAY_DESCRIPTOR_PRODUCT_NAME:
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return "Display Product Name";
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case DI_EDID_DISPLAY_DESCRIPTOR_COLOR_POINT:
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return "Color Point Data";
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case DI_EDID_DISPLAY_DESCRIPTOR_STD_TIMING_IDS:
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return "Standard Timing Identifications";
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case DI_EDID_DISPLAY_DESCRIPTOR_DCM_DATA:
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return "Display Color Management Data";
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case DI_EDID_DISPLAY_DESCRIPTOR_CVT_TIMING_CODES:
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return "CVT 3 Byte Timing Codes";
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case DI_EDID_DISPLAY_DESCRIPTOR_ESTABLISHED_TIMINGS_III:
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return "Established timings III";
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case DI_EDID_DISPLAY_DESCRIPTOR_DUMMY:
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return "Dummy Descriptor";
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}
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abort();
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}
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static void
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print_display_desc(const struct di_edid_display_descriptor *desc)
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{
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enum di_edid_display_descriptor_tag tag;
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const char *tag_name, *str;
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const struct di_edid_display_range_limits *range_limits;
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tag = di_edid_display_descriptor_get_tag(desc);
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tag_name = display_desc_tag_name(tag);
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printf(" %s:", tag_name);
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switch (tag) {
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case DI_EDID_DISPLAY_DESCRIPTOR_PRODUCT_SERIAL:
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case DI_EDID_DISPLAY_DESCRIPTOR_DATA_STRING:
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case DI_EDID_DISPLAY_DESCRIPTOR_PRODUCT_NAME:
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str = di_edid_display_descriptor_get_string(desc);
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printf(" '%s'", str);
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break;
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case DI_EDID_DISPLAY_DESCRIPTOR_RANGE_LIMITS:
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range_limits = di_edid_display_descriptor_get_range_limits(desc);
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printf("\n Monitor ranges: %d-%d Hz V, %d-%d kHz H",
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range_limits->min_vert_rate_hz,
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range_limits->max_vert_rate_hz,
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range_limits->min_horiz_rate_hz / 1000,
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range_limits->max_horiz_rate_hz / 1000);
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if (range_limits->max_pixel_clock_hz != 0) {
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printf(", max dotclock %d MHz",
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range_limits->max_pixel_clock_hz / (1000 * 1000));
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}
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break;
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default:
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break; /* TODO: print other tags */
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}
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printf("\n");
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}
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static const char *
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ext_tag_name(enum di_edid_ext_tag tag)
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{
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switch (tag) {
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case DI_EDID_EXT_CEA:
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return "CTA-861 Extension Block";
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case DI_EDID_EXT_VTB:
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return "Video Timing Extension Block";
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case DI_EDID_EXT_DI:
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return "Display Information Extension Block";
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case DI_EDID_EXT_LS:
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return "Localized String Extension Block";
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case DI_EDID_EXT_DPVL:
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return "Digital Packet Video Link Extension";
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case DI_EDID_EXT_BLOCK_MAP:
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return "Block Map Extension Block";
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case DI_EDID_EXT_VENDOR:
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return "Manufacturer-Specific Extension Block";
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}
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abort();
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}
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static const char *
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digital_interface_name(enum di_edid_video_input_digital_interface interface)
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{
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switch (interface) {
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case DI_EDID_VIDEO_INPUT_DIGITAL_UNDEFINED:
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return "Digital interface is not defined";
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case DI_EDID_VIDEO_INPUT_DIGITAL_DVI:
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return "DVI interface";
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case DI_EDID_VIDEO_INPUT_DIGITAL_HDMI_A:
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return "HDMI-a interface";
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case DI_EDID_VIDEO_INPUT_DIGITAL_HDMI_B:
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return "HDMI-b interface";
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case DI_EDID_VIDEO_INPUT_DIGITAL_MDDI:
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return "MDDI interface";
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case DI_EDID_VIDEO_INPUT_DIGITAL_DISPLAYPORT:
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return "DisplayPort interface";
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}
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abort();
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}
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static const char *
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display_color_type_name(enum di_edid_display_color_type type)
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{
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switch (type) {
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case DI_EDID_DISPLAY_COLOR_MONOCHROME:
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return "Monochrome or grayscale display";
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case DI_EDID_DISPLAY_COLOR_RGB:
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return "RGB color display";
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case DI_EDID_DISPLAY_COLOR_NON_RGB:
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return "Non-RGB color display";
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case DI_EDID_DISPLAY_COLOR_UNDEFINED:
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return "Undefined display color type";
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}
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abort();
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}
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static void
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print_ext(const struct di_edid_ext *ext, size_t ext_index)
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{
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const char *tag_name;
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const struct di_edid_cta *cta;
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tag_name = ext_tag_name(di_edid_ext_get_tag(ext));
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printf("\n----------------\n\n");
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printf("Block %zu, %s:\n", ext_index + 1, tag_name);
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switch (di_edid_ext_get_tag(ext)) {
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case DI_EDID_EXT_CEA:
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cta = di_edid_ext_get_cta(ext);
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printf(" Revision: %d\n", di_edid_cta_get_revision(cta));
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break;
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default:
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break; /* Ignore */
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}
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}
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static size_t
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edid_checksum_index(size_t block_index)
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{
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return 128 * (block_index + 1) - 1;
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}
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static float
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truncate_chromaticity_coord(float coord)
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{
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return floorf(coord * 10000) / 10000;
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}
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int
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main(int argc, char *argv[])
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{
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FILE *in;
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static uint8_t raw[32 * 1024];
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size_t size = 0;
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const struct di_edid *edid;
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struct di_info *info;
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const struct di_edid_vendor_product *vendor_product;
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const struct di_edid_video_input_digital *video_input_digital;
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const struct di_edid_screen_size *screen_size;
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float gamma;
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const struct di_edid_dpms *dpms;
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enum di_edid_display_color_type display_color_type;
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const struct di_edid_color_encoding_formats *color_encoding_formats;
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const struct di_edid_misc_features *misc_features;
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const struct di_edid_chromaticity_coords *chromaticity_coords;
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const struct di_edid_standard_timing *const *standard_timings;
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const struct di_edid_detailed_timing_def *const *detailed_timing_defs;
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const struct di_edid_display_descriptor *const *display_descs;
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const struct di_edid_ext *const *exts;
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size_t i;
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in = stdin;
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if (argc > 1) {
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in = fopen(argv[1], "r");
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if (!in) {
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perror("failed to open input file");
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return 1;
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}
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}
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while (!feof(in)) {
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size += fread(&raw[size], 1, sizeof(raw) - size, in);
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if (ferror(in)) {
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perror("fread failed");
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return 1;
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} else if (size >= sizeof(raw)) {
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fprintf(stderr, "input too large\n");
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return 1;
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}
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}
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fclose(in);
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info = di_info_parse_edid(raw, size);
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if (!info) {
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perror("di_edid_parse failed");
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return 1;
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}
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edid = di_info_get_edid(info);
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printf("Block 0, Base EDID:\n");
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printf(" EDID Structure Version & Revision: %d.%d\n",
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di_edid_get_version(edid), di_edid_get_revision(edid));
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vendor_product = di_edid_get_vendor_product(edid);
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printf(" Vendor & Product Identification:\n");
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printf(" Manufacturer: %.3s\n", vendor_product->manufacturer);
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printf(" Model: %" PRIu16 "\n", vendor_product->product);
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if (vendor_product->serial != 0) {
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printf(" Serial Number: %" PRIu32 "\n", vendor_product->serial);
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}
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if (vendor_product->model_year != 0) {
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printf(" Model year: %d\n", vendor_product->model_year);
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} else {
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printf(" Made in: week %d of %d\n",
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vendor_product->manufacture_week,
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vendor_product->manufacture_year);
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}
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printf(" Basic Display Parameters & Features:\n");
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video_input_digital = di_edid_get_video_input_digital(edid);
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if (video_input_digital) {
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printf(" Digital display\n");
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if (di_edid_get_revision(edid) >= 4) {
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if (video_input_digital->color_bit_depth == 0) {
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printf(" Color depth is undefined\n");
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} else {
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printf(" Bits per primary color channel: %d\n",
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video_input_digital->color_bit_depth);
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}
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printf(" %s\n",
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digital_interface_name(video_input_digital->interface));
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}
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}
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screen_size = di_edid_get_screen_size(edid);
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if (screen_size->width_cm > 0) {
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printf(" Maximum image size: %d cm x %d cm\n",
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screen_size->width_cm, screen_size->height_cm);
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} else if (screen_size->landscape_aspect_ratio > 0) {
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printf(" Aspect ratio: %.2f (landscape)\n",
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screen_size->landscape_aspect_ratio);
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} else if (screen_size->portait_aspect_ratio > 0) {
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printf(" Aspect ratio: %.2f (portrait)\n",
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screen_size->portait_aspect_ratio);
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} else {
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printf(" Image size is variable\n");
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}
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gamma = di_edid_get_basic_gamma(edid);
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if (gamma != 0) {
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printf(" Gamma: %.2f\n", gamma);
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} else {
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printf(" Gamma is defined in an extension block\n");
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}
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dpms = di_edid_get_dpms(edid);
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if (dpms->standby || dpms->suspend || dpms->off) {
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printf(" DPMS levels:");
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if (dpms->standby) {
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printf(" Standby");
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}
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if (dpms->suspend) {
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printf(" Suspend");
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}
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if (dpms->off) {
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printf(" Off");
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}
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printf("\n");
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}
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if (!video_input_digital || di_edid_get_revision(edid) < 4) {
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display_color_type = di_edid_get_display_color_type(edid);
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printf(" %s\n", display_color_type_name(display_color_type));
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}
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color_encoding_formats = di_edid_get_color_encoding_formats(edid);
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if (color_encoding_formats) {
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assert(color_encoding_formats->rgb444);
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printf(" Supported color formats: RGB 4:4:4");
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if (color_encoding_formats->ycrcb444) {
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printf(", YCrCb 4:4:4");
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}
|
|
if (color_encoding_formats->ycrcb422) {
|
|
printf(", YCrCb 4:2:2");
|
|
}
|
|
printf("\n");
|
|
}
|
|
|
|
misc_features = di_edid_get_misc_features(edid);
|
|
if (misc_features->srgb_is_primary) {
|
|
printf(" Default (sRGB) color space is primary color space\n");
|
|
}
|
|
if (di_edid_get_revision(edid) >= 4) {
|
|
assert(misc_features->has_preferred_timing);
|
|
if (misc_features->preferred_timing_is_native) {
|
|
printf(" First detailed timing includes the native "
|
|
"pixel format and preferred refresh rate\n");
|
|
} else {
|
|
printf(" First detailed timing does not include the "
|
|
"native pixel format and preferred refresh rate\n");
|
|
}
|
|
} else {
|
|
if (misc_features->has_preferred_timing) {
|
|
printf(" First detailed timing is the preferred timing\n");
|
|
}
|
|
}
|
|
if (misc_features->continuous_freq) {
|
|
printf(" Display is continuous frequency\n");
|
|
}
|
|
if (misc_features->default_gtf) {
|
|
printf(" Supports GTF timings within operating range\n");
|
|
}
|
|
|
|
/* edid-decode truncates the result, but %f rounds it */
|
|
chromaticity_coords = di_edid_get_chromaticity_coords(edid);
|
|
printf(" Color Characteristics:\n");
|
|
printf(" Red : %.4f, %.4f\n",
|
|
truncate_chromaticity_coord(chromaticity_coords->red_x),
|
|
truncate_chromaticity_coord(chromaticity_coords->red_y));
|
|
printf(" Green: %.4f, %.4f\n",
|
|
truncate_chromaticity_coord(chromaticity_coords->green_x),
|
|
truncate_chromaticity_coord(chromaticity_coords->green_y));
|
|
printf(" Blue : %.4f, %.4f\n",
|
|
truncate_chromaticity_coord(chromaticity_coords->blue_x),
|
|
truncate_chromaticity_coord(chromaticity_coords->blue_y));
|
|
printf(" White: %.4f, %.4f\n",
|
|
truncate_chromaticity_coord(chromaticity_coords->white_x),
|
|
truncate_chromaticity_coord(chromaticity_coords->white_y));
|
|
|
|
printf(" Standard Timings:");
|
|
standard_timings = di_edid_get_standard_timings(edid);
|
|
if (standard_timings[0] == NULL) {
|
|
printf(" none");
|
|
}
|
|
printf("\n");
|
|
for (i = 0; standard_timings[i] != NULL; i++) {
|
|
print_standard_timing(standard_timings[i]);
|
|
}
|
|
|
|
printf(" Detailed Timing Descriptors:\n");
|
|
detailed_timing_defs = di_edid_get_detailed_timing_defs(edid);
|
|
for (i = 0; detailed_timing_defs[i] != NULL; i++) {
|
|
print_detailed_timing_def(detailed_timing_defs[i], i + 1);
|
|
}
|
|
display_descs = di_edid_get_display_descriptors(edid);
|
|
for (i = 0; display_descs[i] != NULL; i++) {
|
|
print_display_desc(display_descs[i]);
|
|
}
|
|
|
|
exts = di_edid_get_extensions(edid);
|
|
|
|
for (i = 0; exts[i] != NULL; i++);
|
|
if (i > 0) {
|
|
printf(" Extension blocks: %zu\n", i);
|
|
}
|
|
printf("Checksum: 0x%02hhx\n", raw[edid_checksum_index(0)]);
|
|
|
|
for (i = 0; exts[i] != NULL; i++) {
|
|
print_ext(exts[i], i);
|
|
printf("Checksum: 0x%02hhx\n", raw[edid_checksum_index(i + 1)]);
|
|
}
|
|
|
|
di_info_destroy(info);
|
|
return 0;
|
|
}
|