bosko lekovic
nova proba
doHTML.cpp
- Committer:
- bosko001
- Date:
- 2020-04-12
- Revision:
- 5:c9a908749d4c
- Parent:
- 4:7abcf4543282
- Child:
- 7:7ea932eb31f6
File content as of revision 5:c9a908749d4c:
#include "mbed.h"
#include "clubbing.h"
#include "string.h"
#include "dxml.h"
#include "doHTML.h"
#include "dataFlash.h"
#include "HTMLpage.h"
/************************** Pocetak *********************/
void test_HTML(void)
{
extern C_HTMLparse *gpc_html;
P_str( "selected bit rate" , (char*)gpc_html->get_selected_option( "baud_rate" ) );
P_str( "selected parity" , (char*)gpc_html->get_selected_option( "parity" ) );
P_str( "selected stop bits" , (char*)gpc_html->get_selected_option( "stop_bits" ) );
P_str( "selected data bits" , (char*)gpc_html->get_selected_option( "data_bits" ) );
{
extern UARTSerial *gp_scom;
extern void sendScom( struct UARTSerial *p_scom, char *buffer, int val);
auto c = gpc_html->getHTML_free( );
// n = p_soc->send(c, strlen(c));
sendScom( gp_scom, c, strlen(c));
free(c);
}
P_str( "select bit rate 38400", gpc_html->set_selected_option( "baud_rate", "38400" ) );
P_str( "select bit parity ODD", gpc_html->set_selected_option( "parity", "odd" ) );
P_str( "select stop bits 1.5", gpc_html->set_selected_option( "stop_bits", "1.5" ) );
P_str( "select data bits 7", gpc_html->set_selected_option( "data_bits", "7" ) );
{
extern UARTSerial *gp_scom;
extern void sendScom( struct UARTSerial *p_scom, char *buffer, int val);
auto c = gpc_html->getHTML_free( );
// n = p_soc->send(c, strlen(c));
sendScom( gp_scom, c, strlen(c));
free(c);
}
P_str( "selected bit rate" , (char*)gpc_html->get_selected_option( "baud_rate" ) );
P_str( "selected parity" , (char*)gpc_html->get_selected_option( "parity" ) );
P_str( "selected stop bits" , (char*)gpc_html->get_selected_option( "stop_bits" ) );
P_str( "selected data bits" , (char*)gpc_html->get_selected_option( "data_bits" ) );
}
/************************ definicija klase C_HTMLparse ********************/
void C_HTMLparse::load_front_row(void )
{
int i = 0;
for (auto td = dxml_child(tr, "td")/*, i = 0*/; td; td = td->next)
{
auto input = dxml_child(td, "input");
front_row[i] = input;
++i;
}
tr = tr->next;
}
void C_HTMLparse::load_second_row()
{
int i = 0;
for (auto td = dxml_child(tr, "td")/*, i = 0*/; td; td = td->next)
{
auto input = dxml_child(td, "input");
if (i == 0)
UDPs[0] = input;
else if(i == 1)
TCPs[0] = input;
++i;
}
tr = tr->next;
}
void C_HTMLparse::load_udp_and_tcp(dxml_t& td)
{
for (int i = 0; i < 4; td = td->next)
{
dxml_t inputs[5];
int input_count = 0;
for (auto input = dxml_child(td, "input"); input; input = input->next)
inputs[input_count++] = input;
if (i < 2) // Load inputs into UDPs
{
for (int k = 0; k < input_count; ++k)
UDPs[i == 0 ? k + 1 : k + 6] = inputs[k];
}
else
{
for (int k = 0; k < input_count; ++k)
TCPs[i == 2 ? k + 1 : k + 6] = inputs[k];
}
++i;
}
}
void C_HTMLparse::load_serial(dxml_t& td)
{
auto select = dxml_child(td, "select");
for (int i = 0; select; select = select->next)
serial[i++] = select;
}
dxml_t C_HTMLparse::get_serial_option(dxml_t s, int option_idx)
{
auto rv = dxml_child(s, "option");
for (int i = 0; i < option_idx; ++i)
{
if( rv->next == NULL ) return NULL;
else rv = rv->next;
}
return rv;
}
C_HTMLparse::C_HTMLparse( void )
{
p_HTMLpage = (char*)malloc(strlen(HTMLpage)+1);
strcpy( p_HTMLpage, HTMLpage);
P_int("ucitavam html", strlen(HTMLpage));
p_rootHTML = dxml_parse_str(p_HTMLpage, strlen(p_HTMLpage));
intern_init( );
}
C_HTMLparse::C_HTMLparse( const char *str )
{
p_HTMLpage = (char*)malloc(strlen(str)+1);
strcpy( p_HTMLpage, str);
P_int("ucitavam html", strlen(str));
p_rootHTML = dxml_parse_str(p_HTMLpage, strlen(p_HTMLpage));
intern_init( );
}
void C_HTMLparse::intern_init( void )
{
html_body = dxml_child(p_rootHTML, "body");
html_form = dxml_child(html_body, "form");
html_table = dxml_child(html_form, "table");
tr = dxml_child(html_table, "tr");
load_front_row();
load_second_row();
auto td = dxml_child(tr, "td");
load_udp_and_tcp(td);
load_serial(td);
}
char *C_HTMLparse::getHTML_free( void )
{
return dxml_toxml(p_rootHTML);
}
/****************** geteri - seteri *************************/
const char * C_HTMLparse::get_selected_option( const char *name_option )
{
for( int i=0; dxml_attr(serial[i], "name") != NULL; i++ )
{
char *ret;
if( !strcmp( (char*)dxml_attr(serial[i], "name"), name_option) )
{
for(int j=0; dxml_attr(get_serial_option(serial[i], j), "value") != NULL; j++)
{
if( dxml_attr( get_serial_option(serial[i],j), "selected" ) )
return dxml_attr(get_serial_option(serial[i], j), "value");
}
return dxml_attr(get_serial_option(serial[i], 0), "value");
}
}
return NULL;
}
const char * C_HTMLparse::set_selected_option( const char* name_option, const char* value_option )
{
for( int i=0; dxml_attr(serial[i], "name") != NULL; i++ )
{
// printf(" i = %d \n\r", i );
char *ret;
if( !strcmp( (char*)dxml_attr(serial[i], "name"), name_option) )
{
for(int j=0; dxml_attr(get_serial_option(serial[i], j), "value") != NULL; j++)
{
// printf(" j=%d \n\r", j);
if( !strcmp( dxml_attr( get_serial_option(serial[i],j), "value"), value_option) )
{
if( !dxml_attr( get_serial_option(serial[i],j), "selected") )
{
for(int k=0; dxml_attr(get_serial_option(serial[i], k), "value") != NULL; k++)
{
// printf(" k=%d\n\r",k);
if( !strcmp( dxml_attr( get_serial_option(serial[i],k), "value"), value_option) )
{
printf(" kk=%d\n\r",k);
dxml_set_attr( get_serial_option(serial[i],k), "selected", "ON" );
}
else
{
printf(" k=%d\n\r",k);
dxml_set_attr( get_serial_option(serial[i],k), "selected", NULL );
}
}
}
return value_option;
}
}
}
}
return NULL;
}
void C_HTMLparse::set_myIP( const char* str )
{
if( test_ip( str ) ) dxml_set_attr( front_row[0], "value", str);
}
void C_HTMLparse::set_myMASK( const char* str )
{
if( test_ip( str ) ) dxml_set_attr( front_row[1], "value", str);
}
void C_HTMLparse::set_myGATE( const char* str )
{
if( test_ip( str ) ) dxml_set_attr( front_row[2], "value", str);
}
void C_HTMLparse::set_myUdpPort( const char* str )
{
if( test_num( str ) ) dxml_set_attr( UDPs[0], "value", str );
}
void C_HTMLparse::set_myTcpPort( const char* str )
{
if( test_num( str) ) dxml_set_attr( TCPs[0], "value", str);
}
void C_HTMLparse::set_UdpIP( int i, const char* str )
{
if( (i > 0) && (i <= 5 ) && test_ip( str ) ) dxml_set_attr( UDPs[i], "value", str);
}
void C_HTMLparse::set_UdpPort( int i, const char* str )
{
if( (i>0) && (i<= 4) && test_num( str ) ) dxml_set_attr( UDPs[i+6], "value", str) ;
}
void C_HTMLparse::set_TcpIP( int i, const char* str )
{
if( (i > 0) && (i <= 5 ) && test_ip( str ) ) dxml_set_attr( TCPs[i], "value", str);
}
void C_HTMLparse::set_TcpPort( int i, const char* str )
{
if( (i>0) && (i<= 4) && test_num( str ) ) dxml_set_attr( TCPs[i+6], "value", str) ;
}
const char *C_HTMLparse::get_myIP( void )
{
return dxml_attr( front_row[0], "value");
}
const char *C_HTMLparse::get_myMASK(void)
{
return dxml_attr( front_row[1], "value");
}
const char *C_HTMLparse::get_myGATE( void )
{
return dxml_attr( front_row[2], "value");
}
const char *C_HTMLparse::get_myUdpPort( void )
{
return dxml_attr( UDPs[0], "value" );
}
const char *C_HTMLparse::get_myTcpPort( void )
{
return dxml_attr( TCPs[0], "value");
}
const char *C_HTMLparse::get_UdpIP( int i )
{
if( (i > 0) && (i <= 5 ) ) return dxml_attr( UDPs[i], "value");
return NULL;
}
const char *C_HTMLparse::get_UdpPort( int i )
{
if( (i>0) && (i<= 4) ) return dxml_attr( UDPs[i+6], "value") ;
return NULL;
}
const char *C_HTMLparse::get_TcpIP( int i )
{
if( (i > 0) && (i <= 5 ) ) return dxml_attr( TCPs[i], "value");
return NULL;
}
const char *C_HTMLparse::get_TcpPort( int i )
{
if( (i>0) && (i<= 4) ) return dxml_attr( TCPs[i+6], "value") ;
return NULL;
}