/*
* Edid_Print.c
*
* Created on: Nov 9, 2014
* Author: andreis
*/
#include "string.h"
#include "xedid.h"
#include "xedid_print_example.h"
#include "xil_printf.h"
#include "xstatus.h"
#define FLOAT_FRAC_TO_U32(V, D) ((u32)(V * D) - (((u32)V) * D))
static void Edid_Print_BaseVPId(u8 *EdidRaw);
static void Edid_Print_BaseVerRev(u8 *EdidRaw);
static void Edid_Print_BaseBasicDisp(u8 *EdidRaw);
static void Edid_Print_ColorChar(u8 *EdidRaw);
static void Edid_Print_EstTimings(u8 *EdidRaw);
static void Edid_Print_StdTimings(u8 *EdidRaw);
static void Edid_Print_Ptm(u8 *EdidRaw);
static u8 Edid_CalculateChecksum(u8 *Data, u8 Size);
u32 Edid_PrintDecodeBase(u8 *EdidRaw)
{
/* Check valid header. */
if (XEDID_IS_HEADER_VALID(EdidRaw)) {
xil_printf("\nEDID header is: 00 FF FF FF FF FF FF 00\n");
}
else {
xil_printf("\nNot an EDID base block...\n");
return XST_FAILURE;
}
/* Obtain vendor and product identification information. */
Edid_Print_BaseVPId(EdidRaw);
Edid_Print_BaseVerRev(EdidRaw);
Edid_Print_BaseBasicDisp(EdidRaw);
Edid_Print_ColorChar(EdidRaw);
Edid_Print_EstTimings(EdidRaw);
Edid_Print_StdTimings(EdidRaw);
xil_printf("Descriptors:\n");
xil_printf("\tFirst tag: 0x%02lx 0x%02lx\n", EdidRaw[0x36],
EdidRaw[0x38]);
xil_printf("\tSecond tag: 0x%02lx 0x%02lx\n", EdidRaw[0x48],
EdidRaw[0x4A]);
xil_printf("\tThird tag: 0x%02lx 0x%02lx\n", EdidRaw[0x5A],
EdidRaw[0x5C]);
xil_printf("\tFourth tag: 0x%02lx 0x%02lx\n", EdidRaw[0x6C],
EdidRaw[0x6E]);
Edid_Print_Ptm(EdidRaw);
xil_printf("Number of extensions:\t%d\n",
XEDID_GET_EXT_BLK_COUNT(EdidRaw));
xil_printf("Checksum:\t\t0x%02lx -> Calculated sum = 0x%02lx\n",
XEDID_GET_CHECKSUM(EdidRaw),
Edid_CalculateChecksum(EdidRaw, 128));
return XST_SUCCESS;
}
void Edid_Print_Supported_VideoModeTable(u8 *EdidRaw)
{
u8 Index;
xil_printf("Supported resolutions from video mode table:\n");
for (Index = 0; Index < XVID_VM_NUM_SUPPORTED; Index++) {
if (XEdid_IsVideoTimingSupported(EdidRaw,
&XVid_VideoTimingModes[Index]) == XST_SUCCESS) {
xil_printf("\t%s\n", XVid_VideoTimingModes[Index].Name);
}
}
}
static void Edid_Print_BaseVPId(u8 *EdidRaw)
{
char ManName[4];
XEDID_GET_VPI_ID_MAN_NAME(EdidRaw, ManName);
/* Vendor and product identification. */
xil_printf("Vendor and product identification:\n");
xil_printf("\tID manufacturer name:\t%s\n", ManName);
xil_printf("\tID product code:\t0x%04lx\n",
XEDID_GET_VPI_ID_PROD_CODE(EdidRaw));
xil_printf("\tID serial number:\t0x%08lx\n",
XEDID_GET_VPI_SN(EdidRaw));
if (XEDID_IS_VPI_YEAR_MODEL(EdidRaw)) {
xil_printf("\tModel year:\t\t%d\n",
XEDID_GET_VPI_YEAR(EdidRaw));
}
else if (XEDID_GET_VPI_WEEK_MAN(EdidRaw) == 0x00) {
xil_printf("\tManufactured:\t\tYear = %d ; Week N/A\n",
XEDID_GET_VPI_YEAR(EdidRaw));
}
else {
xil_printf("\tManufactured:\t\tYear = %d ; Week = %d\n",
XEDID_GET_VPI_YEAR(EdidRaw),
XEDID_GET_VPI_WEEK_MAN(EdidRaw));
}
}
static void Edid_Print_BaseVerRev(u8 *EdidRaw)
{
/* EDID structure version and revision. */
xil_printf("EDID structure version and revision: %d.%d\n",
XEDID_GET_STRUCT_VER(EdidRaw), XEDID_GET_STRUCT_REV(EdidRaw));
}
static void Edid_Print_BaseBasicDisp(u8 *EdidRaw)
{
/* Basic display parameters and features. */
xil_printf("Basic display parameters and features:\n");
if (XEDID_IS_BDISP_VID_VSI_DIGITAL(EdidRaw)) {
/* Input is a digital video signal interface. */
xil_printf("\tVideo signal interface is digital.\n");
if (XEDID_GET_BDISP_VID_DIG_BPC(EdidRaw) !=
XEDID_BDISP_VID_DIG_BPC_UNDEF) {
xil_printf("\tColor bit depth:\t%d\n",
XEDID_GET_BDISP_VID_DIG_BPC(EdidRaw));
}
else {
xil_printf("\tColor bit depth is undefined.\n");
}
switch (XEDID_GET_BDISP_VID_DIG_VIS(EdidRaw)) {
case XEDID_BDISP_VID_DIG_VIS_DVI:
xil_printf("\tDVI is supported.\n");
break;
case XEDID_BDISP_VID_DIG_VIS_HDMIA:
xil_printf("\tHDMI-a is supported.\n");
break;
case XEDID_BDISP_VID_DIG_VIS_HDMIB:
xil_printf("\tHDMI-b is supported.\n");
break;
case XEDID_BDISP_VID_DIG_VIS_MDDI:
xil_printf("\tMDDI is supported.\n");
break;
case XEDID_BDISP_VID_DIG_VIS_DP:
xil_printf("\tDisplayPort is supported.\n");
break;
default:
xil_printf("\tDigital interface undefined.\n");
break;
}
}
else {
/* Input is an analog video signal interface. */
xil_printf("\tVideo signal interface is analog.\n");
xil_printf("\tSignal level standard:\t");
switch (XEDID_GET_BDISP_VID_ANA_SLS(EdidRaw)) {
case XEDID_BDISP_VID_ANA_SLS_0700_0300_1000:
xil_printf("0.700 : 0.300 : 1.000 Vp-p ");
break;
case XEDID_BDISP_VID_ANA_SLS_0714_0286_1000:
xil_printf("0.714 : 0.286 : 1.000 Vp-p ");
break;
case XEDID_BDISP_VID_ANA_SLS_1000_0400_1400:
xil_printf("1.000 : 0.400 : 1.400 Vp-p ");
break;
case XEDID_BDISP_VID_ANA_SLS_0700_0000_0700:
default:
xil_printf("0.700 : 0.000 : 0.700 V p-p");
break;
}
xil_printf("(Video : Sync : Total)\n");
xil_printf("\tVideo setup:\t\t");
if (XEDID_SUPP_BDISP_VID_ANA_VID_SETUP(EdidRaw)) {
xil_printf("Blank-to-black setup or pedestal.\n");
}
else {
xil_printf("Blank level = black level.\n");
}
xil_printf("\tSynchronization types:\n");
xil_printf("\t\tSeparate sync H & V signals ");
if (XEDID_SUPP_BDISP_VID_ANA_SEP_SYNC_HV(EdidRaw)) {
xil_printf("are supported.\n");
}
else {
xil_printf("are not supported.\n");
}
xil_printf("\t\tComposite sync signal on horizontal ");
if (XEDID_SUPP_BDISP_VID_ANA_COMP_SYNC_H(EdidRaw)) {
xil_printf("is supported.\n");
}
else {
xil_printf("is not supported.\n");
}
xil_printf("\t\tComposite sync signal on green video ");
if (XEDID_SUPP_BDISP_VID_ANA_COMP_SYNC_G(EdidRaw)) {
xil_printf("is supported.\n");
}
else {
xil_printf("is not supported.\n");
}
xil_printf("\tSerrations on the vertical sync ");
if (XEDID_SUPP_BDISP_VID_ANA_SERR_V_SYNC(EdidRaw)) {
xil_printf("is supported.\n");
}
else {
xil_printf("is not supported.\n");
}
}
if (XEDID_IS_BDISP_SSAR_SS(EdidRaw)) {
xil_printf("\tScreen size (HxV):\t%dx%d(cm)\n",
XEDID_GET_BDISP_SSAR_H(EdidRaw),
XEDID_GET_BDISP_SSAR_V(EdidRaw));
}
else if (XEDID_IS_BDISP_SSAR_AR_L(EdidRaw)) {
xil_printf("\tAspect ratio (H:V):\t");
switch(XEDID_GET_BDISP_SSAR_H(EdidRaw)) {
case 0x4F:
xil_printf("16:9 ");
break;
case 0x3D:
xil_printf("16:10 ");
break;
case 0x22:
xil_printf("4:3 ");
break;
case 0x1A:
xil_printf("5:4 ");
break;
default:
xil_printf("%d.%03d:1 ",
(u32)XEDID_GET_BDISP_SSAR_AR_L(EdidRaw),
FLOAT_FRAC_TO_U32(
XEDID_GET_BDISP_SSAR_AR_L(EdidRaw),
1000));
break;
}
xil_printf("(landscape)\n");
}
else if (XEDID_IS_BDISP_SSAR_AR_P(EdidRaw)) {
xil_printf("\tAspect ratio (H:V):\t");
switch(XEDID_GET_BDISP_SSAR_V(EdidRaw)) {
case 0x4F:
xil_printf("9:16 ");
break;
case 0x3D:
xil_printf("10:16 ");
break;
case 0x22:
xil_printf("3:4 ");
break;
case 0x1A:
xil_printf("4:5 ");
break;
default:
xil_printf("%d.%03d:1 ",
(u32)XEDID_GET_BDISP_SSAR_AR_P(EdidRaw),
FLOAT_FRAC_TO_U32(
XEDID_GET_BDISP_SSAR_AR_P(EdidRaw),
1000));
break;
}
xil_printf("(portrait)\n");
}
else {
xil_printf("\tScreen size and aspect ratio are undefined.\n");
}
if (XEDID_IS_BDISP_GAMMA_IN_EXT(EdidRaw)) {
xil_printf("\tGamma is defined in an extension block.\n");
}
else {
xil_printf("\tGamma:\t\t\t%d.%02d\n",
(u32)XEDID_GET_BDISP_GAMMA(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_BDISP_GAMMA(EdidRaw), 100));
}
xil_printf("\tDisplay power management:\n");
xil_printf("\t\t\t\tStandby mode ");
if (XEDID_SUPP_BDISP_FEATURE_PM_STANDBY(EdidRaw)) {
xil_printf("is supported.\n");
}
else {
xil_printf("is not supported.\n");
}
xil_printf("\t\t\t\tSuspend mode ");
if (XEDID_SUPP_BDISP_FEATURE_PM_SUSPEND(EdidRaw)) {
xil_printf("is supported.\n");
}
else {
xil_printf("is not supported.\n");
}
xil_printf("\t\t\t\tActive off = very low power ");
if (XEDID_SUPP_BDISP_FEATURE_PM_OFF_VLP(EdidRaw)) {
xil_printf("is supported.\n");
}
else {
xil_printf("is not supported.\n");
}
if (XEDID_IS_BDISP_VID_VSI_DIGITAL(EdidRaw)) {
/* Input is a digital video signal interface. */
xil_printf("\tSupported color encoding format(s):\n");
xil_printf("\t\t\t\tRGB 4:4:4\n");
if (XEDID_SUPP_BDISP_FEATURE_DIG_COLORENC_YCRCB444(EdidRaw)) {
xil_printf("\t\t\t\tYCrCb 4:4:4\n");
}
if (XEDID_SUPP_BDISP_FEATURE_DIG_COLORENC_YCRCB422(EdidRaw)) {
xil_printf("\t\t\t\tYCrCb 4:2:2\n");
}
}
else {
/* Input is an analog video signal interface. */
xil_printf("\tDisplay color type:\t");
switch (XEDID_GET_BDISP_FEATURE_ANA_COLORTYPE(EdidRaw)) {
case XEDID_BDISP_FEATURE_ANA_COLORTYPE_MCG:
xil_printf("Monochrome or grayscale display.\n");
break;
case XEDID_BDISP_FEATURE_ANA_COLORTYPE_RGB:
xil_printf("RGB color display.\n");
break;
case XEDID_BDISP_FEATURE_ANA_COLORTYPE_NRGB:
xil_printf("Non-RGB color display.\n");
break;
case XEDID_BDISP_FEATURE_ANA_COLORTYPE_UNDEF:
default:
xil_printf("Display color type is undefined.\n");
break;
}
}
xil_printf("\tOther supported features:\n");
/* sRGB standard is the default color space. */
xil_printf("\t\tsRGB standard ");
if (XEDID_IS_BDISP_FEATURE_SRGB_DEF(EdidRaw)) {
xil_printf("is ");
}
else {
xil_printf("is not ");
}
xil_printf("the default color space.\n");
/* Preferred timing mode includes. */
xil_printf("\t\tPtm ");
if (XEDID_IS_BDISP_FEATURE_PTM_INC(EdidRaw)) {
xil_printf("includes ");
}
else {
xil_printf("does not include ");
}
xil_printf("the native pixel format and preferred refresh rate.\n");
/* Continuous frequency. */
xil_printf("\t\tDisplay ");
if (XEDID_IS_BDISP_FEATURE_CONTFREQ(EdidRaw)) {
xil_printf("is ");
}
else {
xil_printf("is non-");
}
xil_printf("continuous frequency.\n");
}
static void Edid_Print_ColorChar(u8 *EdidRaw)
{
xil_printf("Color characterisitics:\n");
xil_printf("\tRed_x:\t\t\t%d.%09d +- 0.0005\n",
(u32)XEDID_GET_CC_REDX(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_CC_REDX(EdidRaw), 1000000000));
xil_printf("\tRed_y:\t\t\t%d.%09d +- 0.0005\n",
(u32)XEDID_GET_CC_REDY(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_CC_REDY(EdidRaw), 1000000000));
xil_printf("\tGreen_x:\t\t%d.%09d +- 0.0005\n",
(u32)XEDID_GET_CC_GREENX(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_CC_GREENX(EdidRaw), 1000000000));
xil_printf("\tGreen_y:\t\t%d.%09d +- 0.0005\n",
(u32)XEDID_GET_CC_GREENY(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_CC_GREENY(EdidRaw), 1000000000));
xil_printf("\tBlue_x:\t\t\t%d.%09d +- 0.0005\n",
(u32)XEDID_GET_CC_BLUEX(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_CC_BLUEX(EdidRaw), 1000000000));
xil_printf("\tBlue_y:\t\t\t%d.%09d +- 0.0005\n",
(u32)XEDID_GET_CC_BLUEY(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_CC_BLUEY(EdidRaw), 1000000000));
xil_printf("\tWhite_x:\t\t%d.%09d +- 0.0005\n",
(u32)XEDID_GET_CC_WHITEX(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_CC_WHITEX(EdidRaw), 1000000000));
xil_printf("\tWhite_y:\t\t%d.%09d +- 0.0005\n",
(u32)XEDID_GET_CC_WHITEY(EdidRaw),
FLOAT_FRAC_TO_U32(XEDID_GET_CC_WHITEY(EdidRaw), 1000000000));
}
static void Edid_Print_EstTimings(u8 *EdidRaw)
{
xil_printf("Established timings:\n");
if (XEDID_SUPP_EST_TIMINGS_720x400_70(EdidRaw)) {
xil_printf("\t720x400 @ 70Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_720x400_88(EdidRaw)) {
xil_printf("\t720x400 @ 88Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_640x480_60(EdidRaw)) {
xil_printf("\t640x480 @ 60Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_640x480_67(EdidRaw)) {
xil_printf("\t640x480 @ 67Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_640x480_72(EdidRaw)) {
xil_printf("\t640x480 @ 72Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_640x480_75(EdidRaw)) {
xil_printf("\t640x480 @ 75Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_800x600_56(EdidRaw)) {
xil_printf("\t800x600 @ 56Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_800x600_60(EdidRaw)) {
xil_printf("\t800x600 @ 60Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_800x600_72(EdidRaw)) {
xil_printf("\t800x600 @ 72Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_800x600_75(EdidRaw)) {
xil_printf("\t800x600 @ 75Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_832x624_75(EdidRaw)) {
xil_printf("\t832x624 @ 75Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_1024x768_87(EdidRaw)) {
xil_printf("\t1024x768 @ 87Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_1024x768_60(EdidRaw)) {
xil_printf("\t1024x768 @ 60Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_1024x768_70(EdidRaw)) {
xil_printf("\t1024x768 @ 70Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_1024x768_75(EdidRaw)) {
xil_printf("\t1024x768 @ 75Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_1280x1024_75(EdidRaw)) {
xil_printf("\t1280x1024 @ 75Hz supported.\n");
}
if (XEDID_SUPP_EST_TIMINGS_1152x870_75(EdidRaw)) {
xil_printf("\t1152x870 @ 75Hz supported.\n");
}
xil_printf("\tManufacturer specified timings field: 0x%02lx.\n",
XEDID_GET_TIMINGS_MAN(EdidRaw));
}
static void Edid_Print_StdTimings(u8 *EdidRaw)
{
/* Standard timings. */
u8 Index;
xil_printf("Standard timings:\n");
for (Index = 0; Index < 8; Index++) {
if (EdidRaw[XEDID_STD_TIMINGS_H(Index + 1)] <= 1) {
/* Not a valid standard timing. */
continue;
}
xil_printf("\t%dx%d @ %dHz supported.\n",
XEDID_GET_STD_TIMINGS_H(EdidRaw, Index + 1),
XEDID_GET_STD_TIMINGS_V(EdidRaw, Index + 1),
XEDID_GET_STD_TIMINGS_FRR(EdidRaw, Index + 1));
}
}
static void Edid_Print_Ptm(u8 *EdidRaw)
{
u8 *Ptm;
Ptm = &EdidRaw[XEDID_PTM];
u16 HBlank = ((Ptm[XEDID_DTD_PTM_HRES_HBLANK_U4] &
XEDID_DTD_PTM_XRES_XBLANK_U4_XBLANK_MASK) << 8) |
Ptm[XEDID_DTD_PTM_HBLANK_LSB];
u16 VBlank = ((Ptm[XEDID_DTD_PTM_VRES_VBLANK_U4] &
XEDID_DTD_PTM_XRES_XBLANK_U4_XBLANK_MASK) << 8) |
Ptm[XEDID_DTD_PTM_VBLANK_LSB];
u32 HActive =
(((Ptm[XEDID_DTD_PTM_HRES_HBLANK_U4] &
XEDID_DTD_PTM_XRES_XBLANK_U4_XRES_MASK) >>
XEDID_DTD_PTM_XRES_XBLANK_U4_XRES_SHIFT) << 8) |
Ptm[XEDID_DTD_PTM_HRES_LSB];
u32 VActive =
(((Ptm[XEDID_DTD_PTM_VRES_VBLANK_U4] &
XEDID_DTD_PTM_XRES_XBLANK_U4_XRES_MASK) >>
XEDID_DTD_PTM_XRES_XBLANK_U4_XRES_SHIFT) << 8) |
Ptm[XEDID_DTD_PTM_VRES_LSB];
u32 PixelClkKhz = ((Ptm[XEDID_DTD_PTM_PIXEL_CLK_KHZ_MSB] <<
8) | Ptm[XEDID_DTD_PTM_PIXEL_CLK_KHZ_LSB]) * 10;
u32 HFrontPorch =
(((Ptm[XEDID_DTD_PTM_XFPORCH_XSPW_U2] &
XEDID_DTD_PTM_XFPORCH_XSPW_U2_HFPORCH_MASK) >>
XEDID_DTD_PTM_XFPORCH_XSPW_U2_HFPORCH_SHIFT) << 8) |
Ptm[XEDID_DTD_PTM_HFPORCH_LSB];
u32 HSyncWidth =
(((Ptm[XEDID_DTD_PTM_XFPORCH_XSPW_U2] &
XEDID_DTD_PTM_XFPORCH_XSPW_U2_HSPW_MASK) >>
XEDID_DTD_PTM_XFPORCH_XSPW_U2_HSPW_SHIFT) << 8) |
Ptm[XEDID_DTD_PTM_HSPW_LSB];
u32 VFrontPorch =
(((Ptm[XEDID_DTD_PTM_XFPORCH_XSPW_U2] &
XEDID_DTD_PTM_XFPORCH_XSPW_U2_VFPORCH_MASK) >>
XEDID_DTD_PTM_XFPORCH_XSPW_U2_VFPORCH_SHIFT) << 8) |
((Ptm[XEDID_DTD_PTM_VFPORCH_VSPW_L4] &
XEDID_DTD_PTM_VFPORCH_VSPW_L4_VFPORCH_MASK) >>
XEDID_DTD_PTM_VFPORCH_VSPW_L4_VFPORCH_SHIFT);
u32 VSyncWidth =
((Ptm[XEDID_DTD_PTM_XFPORCH_XSPW_U2] &
XEDID_DTD_PTM_XFPORCH_XSPW_U2_VSPW_MASK) << 8) |
(Ptm[XEDID_DTD_PTM_VFPORCH_VSPW_L4] &
XEDID_DTD_PTM_VFPORCH_VSPW_L4_VSPW_MASK);
u32 HBackPorch = HBlank - (HFrontPorch + HSyncWidth);
u32 VBackPorch = VBlank - (VFrontPorch + VSyncWidth);
u8 HPolarity = (Ptm[XEDID_DTD_PTM_SIGNAL] &
XEDID_DTD_PTM_SIGNAL_HPOLARITY_MASK) >>
XEDID_DTD_PTM_SIGNAL_HPOLARITY_SHIFT;
u8 VPolarity = (Ptm[XEDID_DTD_PTM_SIGNAL] &
XEDID_DTD_PTM_SIGNAL_VPOLARITY_MASK) >>
XEDID_DTD_PTM_SIGNAL_VPOLARITY_SHIFT;
xil_printf("Preferred timing mode:\n");
xil_printf("\tHorizontal resolution:\t%d px\n"
"\tVertical resolution:\t%d lines\n"
"\tPixel clock:\t\t%d KHz\n"
"\tHorizontal front porch:\t%d px\n"
"\tHorizontal sync width:\t%d px\n"
"\tHorizontal back porch:\t%d px\n"
"\tHorizontal blanking:\t%d px\n"
"\tHorizontal polarity:\t%d\n"
"\tVertical front porch:\t%d px\n"
"\tVertical sync width:\t%d px\n"
"\tVertical back porch:\t%d px\n"
"\tVertical blanking:\t%d px\n"
"\tVertical polarity:\t%d\n"
, HActive, VActive, PixelClkKhz,
HFrontPorch, HSyncWidth, HBackPorch, HBlank, HPolarity,
VFrontPorch, VSyncWidth, VBackPorch, VBlank, VPolarity);
xil_printf("\tInterlaced:\t\t%s\n",
XEDID_IS_DTD_PTM_INTERLACED(EdidRaw) ?
"Yes." : "No (progressive).");
}
static u8 Edid_CalculateChecksum(u8 *Data, u8 Size)
{
u8 Index;
u8 Sum = 0;
for (Index = 0; Index < Size; Index++) {
Sum += Data[Index];
}
return Sum;
}