int main()
{
xil_printf("\n\r");
xil_printf("------------------------------------------------------\n\r");
xil_printf("-- PZSDR FMC Carrier Card + PYTHON-1300-C --\n\r");
xil_printf("-- Getting Started Design --\n\r");
xil_printf("------------------------------------------------------\n\r");
xil_printf("\n\r");
pdemo = &demo;
demo_init( pdemo );
// Init reference design
demo_init_frame_buffer(pdemo);
// Try CAM first
pdemo->cam_alpha = 0xFF;
pdemo->tpg_alpha = 0x00;
demo_start_cam_in(pdemo);
demo_start_frame_buffer(pdemo);
// Start serial console
print_avnet_console_serial_app_header();
start_avnet_console_serial_application();
while (1)
{
if (transfer_avnet_console_serial_data()) {
break;
}
}
return 0;
// xil_printf("\r\n\tPress 0-9 to change alpha blending of hdmi/camera layers\r\n");
// xil_printf("\r\n\tPress ENTER to restart\r\n\r\n" );
// c = getchar();
// if ( c >= '0' && c <= '9' )
// {
// camera_alpha = (c - '0') * 28;
// hdmi_alpha = ('9' - c) * 28;
// }
// if ( c == '+' )
// {
// if ( pdemo->pvita_receiver->uManualTap < 31 )
// pdemo->pvita_receiver->uManualTap++;
// xil_printf( "\tuManualTap = %d\n\r", pdemo->pvita_receiver->uManualTap );
// }
// if ( c == '-' )
// {
// if ( pdemo->pvita_receiver->uManualTap > 0 )
// pdemo->pvita_receiver->uManualTap--;
// xil_printf( "\tuManualTap = %d\n\r", pdemo->pvita_receiver->uManualTap );
// }
//}
return 0;
}
void avnet_console_start_command( avnet_console_t *pConsole, int cargc, char ** cargv )
{
int bDispSyntax = 0;
if ( cargc > 1 && !strcmp(cargv[1],"help") )
{
bDispSyntax = 1;
}
else if ( cargc > 1 )
{
if ( !strcmp(cargv[1],"hdmi") )
{
demo_stop_frame_buffer(pdemo);
demo_init_frame_buffer(pdemo);
demo_start_hdmi_out(pdemo);
pdemo->cam_alpha = 0x00;
pdemo->hdmi_alpha = 0xFF;
demo_start_hdmi_in(pdemo);
demo_start_frame_buffer(pdemo);
}
else if ( !strcmp(cargv[1],"cam") )
{
demo_stop_frame_buffer(pdemo);
demo_init_frame_buffer(pdemo);
demo_start_hdmi_out(pdemo);
pdemo->cam_alpha = 0xFF;
pdemo->hdmi_alpha = 0x00;
demo_start_cam_in(pdemo);
demo_start_frame_buffer(pdemo);
}
}
if ( bDispSyntax )
{
pConsole->io_hprintf( pConsole->io_handle, "\tSyntax :\r\n" );
pConsole->io_hprintf( pConsole->io_handle, "\t\tstart cam => Start CAM video source\r\n" );
pConsole->io_hprintf( pConsole->io_handle, "\t\tstart hdmi => Start HDMI video source\r\n" );
}
return;
}
void avnet_console_test_camera_command( avnet_console_t *pConsole, int cargc, char ** cargv )
{
int bDispSyntax = 0;
Xuint32 frameWidth;
Xuint32 frameHeight;
Xuint32 frameRate;
int bPass = 0;
char c;
Xuint32 uManualTap;
if ( cargc > 1 && !strcmp(cargv[1],"help") )
{
bDispSyntax = 1;
}
else if ( cargc == 2 && !strcmp(cargv[1],"test") )
{
pConsole->io_hprintf( pConsole->io_handle, "\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "---------------------------------------------------\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "---- TEST 4 : Camera (PYTHON-1300-C) Test ----\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "---------------------------------------------------\n\r" );
//for ( uManualTap = 0; uManualTap < 32; uManualTap++ )
uManualTap = pdemo->ppython_receiver->uManualTap; // optimal tap setting for FMC-HDMI-CAM
{
demo_stop_frame_buffer(pdemo);
demo_init_frame_buffer(pdemo);
pConsole->io_hprintf( pConsole->io_handle, "Detecting PYTHON-1300-C Camera ...\n\r" );
pdemo->cam_alpha = 0xFF;
pdemo->hdmi_alpha = 0x00;
demo_start_cam_in(pdemo);
demo_start_frame_buffer(pdemo);
sleep(1);
onsemi_python_get_status( pdemo->ppython_receiver, &(pdemo->python_status_t1), 0 );
sleep(1);
onsemi_python_get_status( pdemo->ppython_receiver, &(pdemo->python_status_t2), 0 );
//
frameWidth = pdemo->python_status_t1.cntImagePixels * 4;
frameHeight = pdemo->python_status_t1.cntImageLines;
frameRate = pdemo->python_status_t2.cntFrames - pdemo->python_status_t1.cntFrames;
if ( pConsole->verbose )
{
pConsole->io_hprintf( pConsole->io_handle, "PYTHON Status\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "\tBlack Lines = %d\n\r", pdemo->python_status_t2.cntBlackLines );
pConsole->io_hprintf( pConsole->io_handle, "\tImage Lines = %d\n\r", pdemo->python_status_t2.cntImageLines );
pConsole->io_hprintf( pConsole->io_handle, "\tBlack Pixels = %d\n\r", pdemo->python_status_t2.cntBlackPixels*4 );
pConsole->io_hprintf( pConsole->io_handle, "\tImage Pixels = %d\n\r", pdemo->python_status_t2.cntImagePixels*4 );
pConsole->io_hprintf( pConsole->io_handle, "\tFrames = %d\n\r", pdemo->python_status_t2.cntFrames );
pConsole->io_hprintf( pConsole->io_handle, "\tWindows = %d\n\r", pdemo->python_status_t2.cntWindows );
pConsole->io_hprintf( pConsole->io_handle, "\tStart Lines = %d\n\r", pdemo->python_status_t2.cntStartLines );
pConsole->io_hprintf( pConsole->io_handle, "\tEnd Lines = %d\n\r", pdemo->python_status_t2.cntEndLines );
pConsole->io_hprintf( pConsole->io_handle, "\t(End-Start) = %d\n\r", pdemo->python_status_t2.cntEndLines - pdemo->python_status_t2.cntStartLines );
pConsole->io_hprintf( pConsole->io_handle, "\tClocks = %d\n\r", pdemo->python_status_t2.cntClocks );
pConsole->io_hprintf( pConsole->io_handle, "\tCRC Status = 0x%08X\n\r", pdemo->python_status_t2.crcStatus );
pConsole->io_hprintf( pConsole->io_handle, "\tImage Width = %d\n\r", frameWidth );
pConsole->io_hprintf( pConsole->io_handle, "\tImage Height = %d\n\r", frameHeight );
pConsole->io_hprintf( pConsole->io_handle, "\tFrame Rate = %d frames/sec\n\r", frameRate );
pConsole->io_hprintf( pConsole->io_handle, "VITA Status = \n\r" );
pConsole->io_hprintf( pConsole->io_handle, "\tCRC Status = 0x%02X\n\r", pdemo->python_status_t2.crcStatus );
}
else
{
pConsole->io_hprintf( pConsole->io_handle, "\tImage Width = %d\n\r", frameWidth );
pConsole->io_hprintf( pConsole->io_handle, "\tImage Height = %d\n\r", frameHeight );
pConsole->io_hprintf( pConsole->io_handle, "\tFrame Rate = %d frames/sec\n\r", frameRate );
}
if ( (frameWidth != 1280) || (frameHeight != 1023) ) // based on working hardware
{
pConsole->io_hprintf( pConsole->io_handle, "\tERROR : Invalid frame dimensions (%d x %d)\n\r", frameWidth, frameHeight );
}
//else if ( (frameRate < 50) || (frameRate > 70) ) // 60 frame/sec
else if ( (frameRate < 35) || (frameRate > 40) ) // 37-38 frame/sec
{
pConsole->io_hprintf( pConsole->io_handle, "\tERROR : Invalid frame rate (%d frames/sec)\n\r", frameRate );
}
else if ( (pdemo->python_status_t2.cntStartLines != pdemo->python_status_t2.cntEndLines) )
{
pConsole->io_hprintf( pConsole->io_handle, "\tERROR : Mismatching number for StartLine (%d) & EndLine (%d)\n\r", pdemo->python_status_t2.cntStartLines, pdemo->python_status_t2.cntEndLines );
}
else if ( (pdemo->python_status_t2.crcStatus != 0x00) )
{
pConsole->io_hprintf( pConsole->io_handle, "\tERROR : CRC checksum errors (0x%02X)\n\r", pdemo->python_status_t2.crcStatus );
}
else
{
bPass = 1;
}
if ( bPass )
{
pConsole->io_hprintf( pConsole->io_handle, "PYTHON-1300-C Camera detection ............... PASS!\n\r" );
}
else
{
pConsole->io_hprintf( pConsole->io_handle, "PYTHON-1300-C Camera detection ............... FAIL!\n\r" );
}
} // for ( uManualTap = 0; uManualTap < 32; uManualTap++ )
pConsole->io_hprintf( pConsole->io_handle, "Enter result of visual test\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "\t(Y=pass, N=fail) : " );
c = ' ';
while ( 1 )
{
c = inbyte();
if ( c == 'y' || c == 'Y' ) { bPass = 1; break; }
if ( c == 'n' || c == 'N' ) { bPass = 0; break; }
}
pConsole->io_hprintf( pConsole->io_handle, "%c\n\r", c );
pConsole->io_hprintf( pConsole->io_handle, "PYTHON-1300-C Camera Visual Test ............. " );
if ( bPass )
{
pConsole->io_hprintf( pConsole->io_handle, "PASS!\n\r" );
}
else
{
pConsole->io_hprintf( pConsole->io_handle, "FAIL!\n\r" );
}
}
if ( bDispSyntax )
{
pConsole->io_hprintf( pConsole->io_handle, "\tSyntax :\r\n" );
pConsole->io_hprintf( pConsole->io_handle, "\t\tcamera test => Test Camera Interface (requires VITA-2000 camera module)\r\n" );
}
return;
}
void avnet_console_test_hdmi_command( avnet_console_t *pConsole, int cargc, char ** cargv )
{
int bDispSyntax = 0;
int bPass = 0;
char c;
if ( cargc > 1 && !strcmp(cargv[1],"help") )
{
bDispSyntax = 1;
}
else if ( cargc == 2 && !strcmp(cargv[1],"test") )
{
pConsole->io_hprintf( pConsole->io_handle, "\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "---------------------------------------------------\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "---- TEST 3 : HDMI Pass-Through Test ----\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "---------------------------------------------------\n\r" );
demo_stop_frame_buffer(pdemo);
demo_init_frame_buffer(pdemo);
pdemo->cam_alpha = 0x00;
pdemo->hdmi_alpha = 0xFF;
demo_start_hdmi_in(pdemo);
demo_start_frame_buffer(pdemo);
bPass = 0;
if ( (pdemo->hdmii_height == 720) && (pdemo->hdmii_width == 1280) )
{
bPass = 1;
}
pConsole->io_hprintf( pConsole->io_handle, "HDMI Input Detection ........................ " );
if ( bPass )
{
pConsole->io_hprintf( pConsole->io_handle, "PASS!\n\r" );
}
else
{
pConsole->io_hprintf( pConsole->io_handle, "FAIL!\n\r" );
}
pConsole->io_hprintf( pConsole->io_handle, "Enter result of visual test\n\r" );
pConsole->io_hprintf( pConsole->io_handle, "\t(Y=pass, N=fail) : " );
c = ' ';
while ( 1 )
{
c = inbyte();
if ( c == 'y' || c == 'Y' ) { bPass = 1; break; }
if ( c == 'n' || c == 'N' ) { bPass = 0; break; }
}
pConsole->io_hprintf( pConsole->io_handle, "%c\n\r", c );
pConsole->io_hprintf( pConsole->io_handle, "HDMI Visual Test ............................. " );
if ( bPass )
{
pConsole->io_hprintf( pConsole->io_handle, "PASS!\n\r" );
}
else
{
pConsole->io_hprintf( pConsole->io_handle, "FAIL!\n\r" );
}
}
if ( bDispSyntax )
{
pConsole->io_hprintf( pConsole->io_handle, "\tSyntax :\r\n" );
pConsole->io_hprintf( pConsole->io_handle, "\t\thdmi test => Test HDMI Interfaces (requires loopback cable)\r\n" );
}
return;
}
