#include "x_parallel_bus.h"
#include "xp_cds_rs.h"
#include "x_parallel_bus.h"
#include "x_serial_bus.h"
#include "xp_tools.h"
#include "xp_tools.h"
#include "xerror.h"
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void cds_rs_init(T_cds_rs *v)
{
int old_started = 0;
unsigned int i;
if (v->useit == 0)
{
clear_adr_sync_table(v->plane_address);
return ;
}
set_adr_sync_table(v->plane_address);
if (x_parallel_bus_project.flags.bit.init==0)
x_parallel_bus_project.init(&x_parallel_bus_project);
old_started = x_parallel_bus_project.flags.bit.started;
if (x_parallel_bus_project.flags.bit.started)
x_parallel_bus_project.stop(&x_parallel_bus_project);
x_parallel_bus_project.slave_addr = v->plane_address;
// for (i=0;i<v->setup_pbus.count_elements_pbus;i++)
for (i=0;i<16;i++)
{
if (v->setup_pbus.use_reg_in_pbus.all & (1<<i))
{
if (x_parallel_bus_project.check_free_table(&x_parallel_bus_project))
{
x_parallel_bus_project.reg_addr = i;
v->adr_pbus.adr_table[i] = x_parallel_bus_project.setup.size_table;
x_parallel_bus_project.add_table(&x_parallel_bus_project);
x_parallel_bus_project.reg_addr++;
x_parallel_bus_project.setup.size_table++;
}
else
{
// ����� � ������� ���!!!
xerror(xparall_bus_er_ID(1),(void *)0);
v->setup_pbus.use_reg_in_pbus.all &= (~(1<<i));
}
}
}
//
if (old_started)
x_parallel_bus_project.start(&x_parallel_bus_project);
}
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int cds_rs_read_all(T_cds_rs *v)
{
if (v->useit == 0)
return 0;
cds_rs_read_sbus(v);
cds_rs_read_pbus(v);
return 0;
}
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int cds_rs_write_all(T_cds_rs *v)
{
if (v->useit == 0)
return 0;
cds_rs_write_sbus(v);
cds_rs_write_pbus(v);
return 0;
}
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int cds_rs_write_sbus(T_cds_rs *v)
{
unsigned int old_err;
if (v->useit == 0)
return 0;
old_err = v->status_serial_bus.count_write_error;
x_serial_bus_project.slave_addr = v->plane_address; // number plate
//8 config rs speed, master/slave and period of survey
x_serial_bus_project.reg_addr = 8; // adr memory in plate
x_serial_bus_project.write_data = v->write.sbus.config.all; // write data
if (x_serial_bus_project.write(&x_serial_bus_project)) // make write
v->status_serial_bus.count_write_error++;
if (old_err == v->status_serial_bus.count_write_error)// no errors
{
v->status_serial_bus.count_write_ok++;
return 0; // no errors
}
return 1; // !error!
}
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int cds_rs_write_pbus(T_cds_rs *v)
{
if (v->useit == 0)
return 0;
return 0;
}
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int cds_rs_read_sbus(T_cds_rs *v)
{
unsigned int old_err;
if (v->useit == 0)
return 0;
old_err = v->status_serial_bus.count_read_error;
x_serial_bus_project.slave_addr = v->plane_address; // number plate
//0
if(v->write.sbus.config.bit.channel1_enable)
{
x_serial_bus_project.reg_addr = 0; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.sensor[0].direction = (x_parallel_bus_project.data_table_read >> 15) & 1;
v->read.sbus.sensor[0].turned_angle = (x_parallel_bus_project.data_table_read & 0x7FFF) << 3;
}
else
v->status_serial_bus.count_read_error++;
}
//1
if(v->write.sbus.config.bit.channel2_enable)
{
x_serial_bus_project.reg_addr = 1; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.sensor[1].direction = (x_parallel_bus_project.data_table_read >> 15) & 1;
v->read.sbus.sensor[1].turned_angle = (x_parallel_bus_project.data_table_read & 0x7FFF) << 3;
}
else
v->status_serial_bus.count_read_error++;
}
//2
if(v->write.sbus.config.bit.channel3_enable)
{
x_serial_bus_project.reg_addr = 2; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.sensor[2].direction = (x_parallel_bus_project.data_table_read >> 15) & 1;
v->read.sbus.sensor[2].turned_angle = (x_parallel_bus_project.data_table_read & 0x7FFF) << 3;
}
else
v->status_serial_bus.count_read_error++;
}
//3
if(v->write.sbus.config.bit.channel4_enable)
{
x_serial_bus_project.reg_addr = 3; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.sensor[3].direction = (x_parallel_bus_project.data_table_read >> 15) & 1;
v->read.sbus.sensor[3].turned_angle = (x_parallel_bus_project.data_table_read & 0x7FFF) << 3;
}
else
v->status_serial_bus.count_read_error++;
}
//4
if(v->write.sbus.config.bit.channel1_enable)
{
x_serial_bus_project.reg_addr = 4; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.sensor[0].angle = x_parallel_bus_project.data_table_read << 2;
}
else
v->status_serial_bus.count_read_error++;
}
//5
if(v->write.sbus.config.bit.channel2_enable)
{
x_serial_bus_project.reg_addr = 5; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.sensor[1].angle = x_parallel_bus_project.data_table_read << 2;
}
else
v->status_serial_bus.count_read_error++;
}
//6
if(v->write.sbus.config.bit.channel3_enable)
{
x_serial_bus_project.reg_addr = 6; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.sensor[2].angle = x_parallel_bus_project.data_table_read << 2;
}
else
v->status_serial_bus.count_read_error++;
}
//7
if(v->write.sbus.config.bit.channel4_enable)
{
x_serial_bus_project.reg_addr = 7; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.sensor[3].angle = x_parallel_bus_project.data_table_read << 2;
}
else
v->status_serial_bus.count_read_error++;
}
//8
x_serial_bus_project.reg_addr = 8; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.sbus.config.all = x_parallel_bus_project.data_table_read;
}
else
v->status_serial_bus.count_read_error++;
//15 current_status_error
x_serial_bus_project.reg_addr = 15; // adr memory in plate
x_serial_bus_project.read(&x_serial_bus_project); // read
if (x_serial_bus_project.flags.bit.read_error == 0) // check error
{
v->read.type_cds_xilinx = x_serial_bus_project.read_data & 0x1;
// v->read.sbus.current_status_error.all = x_serial_bus_project.read_data & 0xfffe;
}
else
v->status_serial_bus.count_read_error++;
////////////////
if (old_err == v->status_serial_bus.count_read_error)// no errors
{
v->status_serial_bus.count_read_ok++;
return 0; // no errors
}
return 1; // !errors!
}
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int cds_rs_read_pbus(T_cds_rs *v)
{
if (v->useit == 0)
return 0;
if (v->status & (component_Started | component_Ready | component_Error | component_ErrorSBus))
{
//0
if(v->write.sbus.config.bit.channel1_enable && v->setup_pbus.use_reg_in_pbus.bit.reg0)
{
x_parallel_bus_project.adr_table_read = v->adr_pbus.adr_table[0];
x_parallel_bus_project.read_one_data(&x_parallel_bus_project);
v->read.pbus.sensor[0].direction = (x_parallel_bus_project.data_table_read >> 15) & 1;
v->read.pbus.sensor[0].turned_angle = (x_parallel_bus_project.data_table_read & 0x7FFF) << 3;
}
//1
if(v->write.sbus.config.bit.channel2_enable && v->setup_pbus.use_reg_in_pbus.bit.reg1)
{
x_parallel_bus_project.adr_table_read = v->adr_pbus.adr_table[1];
x_parallel_bus_project.read_one_data(&x_parallel_bus_project);
v->read.pbus.sensor[1].direction = (x_parallel_bus_project.data_table_read >> 15) & 1;
v->read.pbus.sensor[1].turned_angle = (x_parallel_bus_project.data_table_read & 0x7FFF) << 3;
}
//2
if(v->write.sbus.config.bit.channel3_enable && v->setup_pbus.use_reg_in_pbus.bit.reg2)
{
x_parallel_bus_project.adr_table_read = v->adr_pbus.adr_table[2];
x_parallel_bus_project.read_one_data(&x_parallel_bus_project);
v->read.pbus.sensor[2].direction = (x_parallel_bus_project.data_table_read >> 15) & 1;
v->read.pbus.sensor[2].turned_angle = (x_parallel_bus_project.data_table_read & 0x7FFF) << 3;
}
//3
if(v->write.sbus.config.bit.channel4_enable && v->setup_pbus.use_reg_in_pbus.bit.reg3)
{
x_parallel_bus_project.adr_table_read = v->adr_pbus.adr_table[3];
x_parallel_bus_project.read_one_data(&x_parallel_bus_project);
v->read.pbus.sensor[3].direction = (x_parallel_bus_project.data_table_read >> 15) & 1;
v->read.pbus.sensor[3].turned_angle = (x_parallel_bus_project.data_table_read & 0x7FFF) << 3;
}
//4
if(v->write.sbus.config.bit.channel1_enable && v->setup_pbus.use_reg_in_pbus.bit.reg4)
{
x_parallel_bus_project.adr_table_read = v->adr_pbus.adr_table[4];
x_parallel_bus_project.read_one_data(&x_parallel_bus_project);
v->read.pbus.sensor[0].angle = x_parallel_bus_project.data_table_read << 2;
}
//5
if(v->write.sbus.config.bit.channel2_enable && v->setup_pbus.use_reg_in_pbus.bit.reg5)
{
x_parallel_bus_project.adr_table_read = v->adr_pbus.adr_table[5];
x_parallel_bus_project.read_one_data(&x_parallel_bus_project);
v->read.pbus.sensor[1].angle = x_parallel_bus_project.data_table_read << 2;
}
//6
if(v->write.sbus.config.bit.channel3_enable && v->setup_pbus.use_reg_in_pbus.bit.reg6)
{
x_parallel_bus_project.adr_table_read = v->adr_pbus.adr_table[6];
x_parallel_bus_project.read_one_data(&x_parallel_bus_project);
v->read.pbus.sensor[2].angle = x_parallel_bus_project.data_table_read << 2;
}
//7
if(v->write.sbus.config.bit.channel4_enable && v->setup_pbus.use_reg_in_pbus.bit.reg7)
{
x_parallel_bus_project.adr_table_read = v->adr_pbus.adr_table[7];
x_parallel_bus_project.read_one_data(&x_parallel_bus_project);
v->read.pbus.sensor[3].angle = x_parallel_bus_project.data_table_read << 2;
}
}
else
{
v->read.pbus.sensor[0].direction = 0;
v->read.pbus.sensor[0].turned_angle = 0;
v->read.pbus.sensor[0].angle = 0;
v->read.pbus.sensor[1].direction = 0;
v->read.pbus.sensor[1].turned_angle = 0;
v->read.pbus.sensor[1].angle = 0;
v->read.pbus.sensor[2].direction = 0;
v->read.pbus.sensor[2].turned_angle = 0;
v->read.pbus.sensor[2].angle = 0;
v->read.pbus.sensor[3].direction = 0;
v->read.pbus.sensor[3].turned_angle = 0;
v->read.pbus.sensor[3].angle = 0;
}
return 0;
}
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