//###########################################################################
//
// FILE:	Example_2833xGpioToggle.c
//
// TITLE:	GPIO Toggle Example
//
//! \addtogroup f2833x_example_list
//!
//! <h1>GPIO Toggle (gpio_toggle)</h1>
//!
//!  \note ALL OF THE I/O'S TOGGLE IN THIS PROGRAM.  MAKE SURE
//!  THIS WILL NOT DAMAGE YOUR HARDWARE BEFORE RUNNING THIS
//!  EXAMPLE.
//!
//!  Three different examples are included. Select the example
//!  (data, set/clear or toggle) to execute before compiling using
//!  the macros found at the top of the code.
//!
//!  Each example toggles all the GPIOs in a different way, the first
//!  through writing values to the GPIO DATA registers, the second through
//!  the SET/CLEAR registers and finally the last through the TOGGLE register
//!
//!  The pins can be observed using Oscilloscope.
//
//###########################################################################
// $TI Release: $
// $Release Date: $
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//
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// 
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// 
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// 
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// $
//###########################################################################

//
// Included Files
//
#include "DSP28x_Project.h"     // Device Headerfile and Examples Include File

//
// Defines that select the example to compile in.  
// Only one example should be set as 1 the rest should be set as 0.
//
#define EXAMPLE1 1  // Use DATA registers to toggle I/O's
#define EXAMPLE2 0  // Use SET/CLEAR registers to toggle I/O's
#define EXAMPLE3 0  // Use TOGGLE registers to toggle I/O's

//
// Function Prototypes 
//
void delay_loop(void);
void Gpio_select(void);
void Gpio_example1(void);
void Gpio_example2(void);
void Gpio_example3(void);

//
// Main
//
void main(void)
{
    //
    // Step 1. Initialize System Control:
    // PLL, WatchDog, enable Peripheral Clocks
    // This example function is found in the DSP2833x_SysCtrl.c file.
    //
    InitSysCtrl();

    //
    // Step 2. Initialize GPIO:
    // This example function is found in the DSP2833x_Gpio.c file and
    // illustrates how to set the GPIO to it's default state.
    //
    // InitGpio();  // Skipped for this example

    //
    // For this example use the following configuration
    //
    Gpio_select();

    //
    // Step 3. Clear all interrupts and initialize PIE vector table
    // Disable CPU interrupts
    //
    DINT;

    //
    // Initialize PIE control registers to their default state.
    // The default state is all PIE interrupts disabled and flags
    // are cleared.
    // This function is found in the DSP2833x_PieCtrl.c file.
    //
    InitPieCtrl();

    //
    // Disable CPU interrupts and clear all CPU interrupt flags
    //
    IER = 0x0000;
    IFR = 0x0000;

    //
    // Initialize the PIE vector table with pointers to the shell Interrupt
    // Service Routines (ISR).
    // This will populate the entire table, even if the interrupt
    // is not used in this example.  This is useful for debug purposes.
    // The shell ISR routines are found in DSP2833x_DefaultIsr.c.
    // This function is found in DSP2833x_PieVect.c.
    //
    InitPieVectTable();

    //
    // Step 4. Initialize all the Device Peripherals:
    // This function is found in DSP2833x_InitPeripherals.c
    //
    // InitPeripherals(); // Not required for this example

    //
    // Step 5. User specific code:
    //
#if EXAMPLE1
    //
    // This example uses DATA registers to toggle I/O's
    //
    Gpio_example1();
#endif  // - EXAMPLE1

#if EXAMPLE2
    //
    // This example uses SET/CLEAR registers to toggle I/O's
    //
    Gpio_example2();
#endif

#if EXAMPLE3
    //
    // This example uses TOGGLE registers to toggle I/O's
    //
    Gpio_example3();
#endif
}

//
// delay_loop - 
//
void 
delay_loop()
{
    volatile long i;
    for (i = 0; i < 1000000; i++) 
    {
        
    }
}

//
// Gpio_example1 -
//
void 
Gpio_example1(void)
{
    //
    // Example 1: Toggle I/Os using DATA registers
    //
    for(;;)
    {
        GpioDataRegs.GPADAT.all    =0xAAAAAAAA;
        GpioDataRegs.GPBDAT.all    =0x0000000A;

        delay_loop();

        GpioDataRegs.GPADAT.all    =0x55555555;
        GpioDataRegs.GPBDAT.all    =0x00000005;

        delay_loop();
    }
}

//
// Gpio_example2 -
//
void 
Gpio_example2(void)
{
    //
    // Example 2: Toggle I/Os using SET/CLEAR registers
    //
    for(;;)
    {
        GpioDataRegs.GPASET.all    =0xAAAAAAAA;
        GpioDataRegs.GPACLEAR.all  =0x55555555;

        GpioDataRegs.GPBSET.all    =0x0000000A;
        GpioDataRegs.GPBCLEAR.all  =0x00000005;

        delay_loop();

        GpioDataRegs.GPACLEAR.all    =0xAAAAAAAA;
        GpioDataRegs.GPASET.all      =0x55555555;

        GpioDataRegs.GPBCLEAR.all    =0x0000000A;
        GpioDataRegs.GPBSET.all      =0x00000005;

        delay_loop();
    }
}

//
// Gpio_example3 -
//
void 
Gpio_example3(void)
{
    //
    // Example 2: Toggle I/Os using TOGGLE registers
    //

    //
    // Set pins to a known state
    //
    GpioDataRegs.GPASET.all    =0xAAAAAAAA;
    GpioDataRegs.GPACLEAR.all  =0x55555555;

    GpioDataRegs.GPBSET.all    =0x0000000A;
    GpioDataRegs.GPBCLEAR.all  =0x00000005;

    //
    // Use TOGGLE registers to flip the state of the pins.
    // Any bit set to a 1 will flip state (toggle)
    // Any bit set to a 0 will not toggle.
    //
    for(;;)
    {
        GpioDataRegs.GPATOGGLE.all =0xFFFFFFFF;
        GpioDataRegs.GPBTOGGLE.all =0x0000000F;
        delay_loop();
    }
}

//
// Gpio_select -
//
void 
Gpio_select(void)
{
    EALLOW;
    GpioCtrlRegs.GPAMUX1.all = 0x00000000;  // All GPIO
    GpioCtrlRegs.GPAMUX2.all = 0x00000000;  // All GPIO
    GpioCtrlRegs.GPAMUX1.all = 0x00000000;  // All GPIO
    GpioCtrlRegs.GPADIR.all = 0xFFFFFFFF;   // All outputs
    GpioCtrlRegs.GPBDIR.all = 0x0000000F;   // All outputs
    EDIS;
}

//
// End of File
//