Subversion Repositories neorv32

// #################################################################################################
// # << NEORV32 - CFS Demo Program >>                                                              #
// # ********************************************************************************************* #
// # BSD 3-Clause License                                                                          #
// #                                                                                               #
// # Copyright (c) 2022, Stephan Nolting. All rights reserved.                                     #
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// # The NEORV32 Processor - https://github.com/stnolting/neorv32              (c) Stephan Nolting #
// #################################################################################################
 
 
/**********************************************************************//**
 * @file demo_cfs/main.c
 * @author Stephan Nolting
 * @brief Simple demo program for the _default_ custom functions subsystem (CFS) module.
 **************************************************************************/
 
#include <neorv32.h>
 
 
/**********************************************************************//**
 * @name User configuration
 **************************************************************************/
/**@{*/
/** UART BAUD rate */
#define BAUD_RATE 19200
/** Number of test cases per CFS function */
#define TESTCASES 4
/**@}*/
 
 
/**********************************************************************//**
 * @name Prototypes
 **************************************************************************/
uint32_t xorshift32(void);
 
 
/**********************************************************************//**
 * Main function
 *
 * @note This program requires the CFS and UART0.
 *
 * @return 0 if execution was successful
 **************************************************************************/
int main() {
 
  uint32_t i, tmp;
 
 
  // init UART0 at default baud rate, no parity bits, no HW flow control
  neorv32_uart0_setup(BAUD_RATE, PARITY_NONE, FLOW_CONTROL_NONE);
 
  // capture all exceptions and give debug info via UART0
  // this is not required, but keeps us safe
  neorv32_rte_setup();
 
 
  // check if CFS is implemented at all
  if (neorv32_cfs_available() == 0) {
    neorv32_uart0_printf("Error! No CFS synthesized!\n");
    return 1;
  }
 
 
  // intro
  neorv32_uart0_printf("<<< NEORV32 Custom Functions Subsystem (CFS) Demo Program >>>\n\n");
 
  neorv32_uart0_printf("NOTE: This program assumes the _default_ CFS hardware module, which implements\n"
                       "      simple data conversion functions using four memory-mapped registers.\n\n");
 
  neorv32_uart0_printf("Default CFS memory-mapped registers:\n"
                       " * NEORV32_CFS.REG[0] (r/w): convert binary to gray code\n"
                       " * NEORV32_CFS.REG[1] (r/w): convert gray to binary code\n"
                       " * NEORV32_CFS.REG[2] (r/w): bit reversal\n"
                       " * NEORV32_CFS.REG[3] (r/w): byte swap\n"
                       "The remaining 28 CFS registers are unused and will return 0 when read.\n");
 
 
  // function examples
  neorv32_uart0_printf("\n--- CFS 'binary to gray' function ---\n");
  for (i=0; i<TESTCASES; i++) {
    tmp = xorshift32(); // get random test data
    NEORV32_CFS.REG[0] = tmp; // write to CFS memory-mapped register 0
    neorv32_uart0_printf("%u: IN = 0x%x, OUT = 0x%x\n", i, tmp, NEORV32_CFS.REG[0]); // read from CFS memory-mapped register 0
  }
 
  neorv32_uart0_printf("\n--- CFS 'gray to binary' function ---\n");
  for (i=0; i<TESTCASES; i++) {
    tmp = xorshift32(); // get random test data
    NEORV32_CFS.REG[1] = tmp; // write to CFS memory-mapped register 1
    neorv32_uart0_printf("%u: IN = 0x%x, OUT = 0x%x\n", i, tmp, NEORV32_CFS.REG[1]); // read from CFS memory-mapped register 1
  }
 
  neorv32_uart0_printf("\n--- CFS 'bit reversal' function ---\n");
  for (i=0; i<TESTCASES; i++) {
    tmp = xorshift32(); // get random test data
    NEORV32_CFS.REG[2] = tmp; // write to CFS memory-mapped register 2
    neorv32_uart0_printf("%u: IN = 0x%x, OUT = 0x%x\n", i, tmp, NEORV32_CFS.REG[2]); // read from CFS memory-mapped register 2
  }
 
  neorv32_uart0_printf("\n--- CFS 'byte swap' function ---\n");
  for (i=0; i<TESTCASES; i++) {
    tmp = xorshift32(); // get random test data
    NEORV32_CFS.REG[3] = tmp; // write to CFS memory-mapped register 3
    neorv32_uart0_printf("%u: IN = 0x%x, OUT = 0x%x\n", i, tmp, NEORV32_CFS.REG[3]); // read from CFS memory-mapped register 3
  }
 
 
  neorv32_uart0_printf("\nCFS demo program completed.\n");
 
  return 0;
}
 
 
/**********************************************************************//**
 * Pseudo-Random Number Generator (to generate deterministic test vectors).
 *
 * @return Random data (32-bit).
 **************************************************************************/
uint32_t xorshift32(void) {
 
  static uint32_t x32 = 314159265;
 
  x32 ^= x32 << 13;
  x32 ^= x32 >> 17;
  x32 ^= x32 << 5;
 
  return x32;
}